Mercurial > repos > guerler > springsuite

--- a/spring_minz.py	Sat Oct 31 22:55:35 2020 +0000
+++ b/spring_minz.py	Sun Nov 22 14:15:24 2020 +0000
@@ -2,36 +2,39 @@
 import argparse
 import os

+
 def main(args):
     logFile = open(args.log, 'a+')
     targets = list()
     targetPath = args.targetpath.rstrip("/")
     with open(args.targetlist) as file:
-        for index, line in enumerate(file):
+        for line in file:
             name = line.strip()
             targets.append(name)
-    print ("Loaded %s target names from `%s`." % (len(targets), args.targetlist))
+    print("Loaded %s target names from `%s`." % (len(targets),
+          args.targetlist))
     if args.inputlist:
         inputs = list()
         inputPath = args.inputpath.rstrip("/")
         with open(args.inputlist) as file:
-            for index, line in enumerate(file):
+            for line in file:
                 name = line.strip()
                 inputs.append(name)
-        print ("Loaded %s input names from `%s`." % (len(inputs), args.inputlist))
+        print("Loaded %s input names from `%s`." % (len(inputs),
+              args.inputlist))
     else:
         inputs = targets
         inputPath = targetPath
     crossReference = dict()
     with open(args.crossreference) as file:
-        for index, line in enumerate(file):
+        for line in file:
             columns = line.split()
             core = columns[0]
             partner = columns[-1]
             if core not in crossReference:
                 crossReference[core] = []
             crossReference[core].append(partner)
-    print ("Loaded cross reference from `%s`." % args.crossreference)
+    print("Loaded cross reference from `%s`." % args.crossreference)
     interactions = dict()
     for targetName in targets:
         targetFile = "%s/%s" % (targetPath, targetName)
@@ -57,21 +60,27 @@
                         idLength=args.idlength,
                         logFile=logFile,
                         interactions=interactions)
-    interactions = sorted(interactions.values(), key=lambda item: item["minZ"], reverse=True)
+    interactions = sorted(interactions.values(), key=lambda item: item["minZ"],
+                          reverse=True)
     with open(args.output, 'w') as output_file:
         for entry in interactions:
-            output_file.write("%s\t%s\t%s\t%s\n" % (entry["targetName"], entry["inputName"], entry["minZ"], entry["minInfo"]))
+            output_file.write("%s\t%s\t%s\t%s\n" % (entry["targetName"],
+                              entry["inputName"], entry["minZ"],
+                              entry["minInfo"]))
     logFile.close()

-def matchScores(targetFile, targetName, inputs, inputPath, crossReference, minScore, idLength, logFile, interactions):
+
+def matchScores(targetFile, targetName, inputs, inputPath, crossReference,
+                minScore, idLength, logFile, interactions):
     targetTop, targetHits = getTemplateScores(targetFile, minScore, idLength)
     if not targetHits:
         print("No targets found `%s`" % targetFile)
     else:
-        print ("Loaded target scores from `%s`." % targetFile)
+        print("Loaded target scores from `%s`." % targetFile)
         for inputName in inputs:
             inputFile = "%s/%s" % (inputPath, inputName)
-            inputTop, inputHits = getTemplateScores(inputFile, minScore, idLength)
+            inputTop, inputHits = getTemplateScores(inputFile,
+                                                    minScore, idLength)
             minZ = 0
             minInfo = ""
             for t in targetHits:
@@ -82,7 +91,8 @@
                             score = min(targetHits[t], inputHits[p])
                             if score > minZ:
                                 minZ = score
-                                minInfo = "%s\t%s\t%s\t%s" % (targetTop, inputTop, t, p)
+                                minInfo = "%s\t%s\t%s\t%s" % (targetTop,
+                                                              inputTop, t, p)
             if minZ > minScore:
                 if targetName > inputName:
                     interactionKey = "%s_%s" % (targetName, inputName)
@@ -91,8 +101,12 @@
                 if interactionKey in interactions:
                     if interactions[interactionKey]["minZ"] >= minZ:
                         continue
-                interactions[interactionKey] = dict(targetName=targetName, inputName=inputName, minZ=minZ, minInfo=minInfo)
-                logFile.write("Interaction between %s and %s [min-Z: %s].\n" % (targetName, inputName, minZ))
+                interactions[interactionKey] = dict(targetName=targetName,
+                                                    inputName=inputName,
+                                                    minZ=minZ, minInfo=minInfo)
+                logFile.write("Interaction between %s and %s [min-Z: %s].\n" %
+                              (targetName, inputName, minZ))
+

 def getTemplateScores(hhrFile, minScore, idLength):
     result = dict()
@@ -112,6 +126,7 @@
                         result[templateId] = templateScore
     return topTemplate, result

+
 if __name__ == "__main__":
     parser = argparse.ArgumentParser(description='This script identifies interactions by detecting matching HH-search results.')
     parser.add_argument('-tl', '--targetlist', help='Text file containing identifiers.', required=True)
@@ -124,4 +139,4 @@
     parser.add_argument('-m', '--minscore', help='min-Z score threshold', type=int, default=10)
     parser.add_argument('-idx', '--idlength', help='Length of identifier in reference', type=int, default=6)
     args = parser.parse_args()
-    main(args)
\ No newline at end of file
+    main(args)
--- a/spring_minz.xml	Sat Oct 31 22:55:35 2020 +0000
+++ b/spring_minz.xml	Sun Nov 22 14:15:24 2020 +0000
@@ -1,6 +1,5 @@
 <tool id="spring_minz" name="SPRING min-Z" version="0.1.2" python_template_version="3.5">
     <description>filter operation</description>
-    <code file="spring_minz.py"/>
     <command detect_errors="exit_code"><![CDATA[
         mkdir -p targets &&
         #for target in $targets
@@ -28,7 +27,7 @@
         </conditional>
         <param format="tabular" name="crossreference" type="data" label="Cross reference" help="Cross reference of interacting proteins `first_id metadata_id second_id`."/>
         <param name="minscore" type="integer" label="Score threshold" value="10" min="1" max="200" help="Matching interaction pairs with a score lower than this threshold will be excluded."/>
-         <param name="idx" type="integer" label="Identifier length" value="6" min="1" max="20" help="Specify the length of the identifier e.g. `1ACB_A` has length 6."/>
+        <param name="idx" type="integer" label="Identifier length" value="6" min="1" max="20" help="Specify the length of the identifier e.g. `1ACB_A` has length 6."/>
     </inputs>
     <outputs>
         <data format="tabular" name="output" label="SPRING min-Z Table"/>
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/spring_roc.py	Sun Nov 22 14:15:24 2020 +0000
@@ -0,0 +1,256 @@
+#! /usr/bin/env python
+import argparse
+import math
+import random
+from datetime import datetime
+
+from matplotlib import pyplot as plt
+
+
+def getIds(rawIds):
+    return rawIds.split("|")
+
+
+def getCenterId(rawId):
+    elements = rawId.split("|")
+    if len(elements) > 1:
+        return elements[1]
+    return rawId
+
+
+def getOrganism(rawId):
+    elements = rawId.split("_")
+    return elements[-1]
+
+
+def getKey(a, b):
+    if a > b:
+        name = "%s_%s" % (a, b)
+    else:
+        name = "%s_%s" % (b, a)
+    return name
+
+
+def getPercentage(rate, denominator):
+    if denominator > 0:
+        return 100.0 * rate / denominator
+    return 0.0
+
+
+def getFilter(filterName):
+    print("Loading target organism(s)...")
+    filterSets = dict()
+    with open(filterName) as filterFile:
+        for line in filterFile:
+            columns = line.split()
+            for colIndex in [0, 1]:
+                if colIndex >= len(columns):
+                    break
+                colEntry = columns[colIndex]
+                id = getCenterId(colEntry)
+                organism = getOrganism(colEntry)
+                if organism not in filterSets:
+                    filterSets[organism] = set()
+                filterSets[organism].add(id)
+    print("Organism(s) in set: %s." % filterSets.keys())
+    return filterSets
+
+
+def getReference(fileName, filterA=None, filterB=None, minScore=None, aCol=0,
+                 bCol=1, scoreCol=-1, separator=None,
+                 skipFirstLine=False, filterValues=list()):
+    index = dict()
+    count = 0
+    with open(fileName) as fp:
+        line = fp.readline()
+        if skipFirstLine:
+            line = fp.readline()
+        while line:
+            ls = line.split(separator)
+            if separator is not None:
+                aList = getIds(ls[aCol])
+                bList = getIds(ls[bCol])
+            else:
+                aList = [getCenterId(ls[aCol])]
+                bList = [getCenterId(ls[bCol])]
+            validEntry = False
+            for a in aList:
+                for b in bList:
+                    skip = False
+                    if a == "-" or b == "-":
+                        skip = True
+                    if filterA is not None:
+                        if a not in filterA and b not in filterA:
+                            skip = True
+                    if filterB is not None:
+                        if a not in filterB and b not in filterB:
+                            skip = True
+                    for f in filterValues:
+                        if len(ls) > f[0]:
+                            columnEntry = ls[f[0]].lower()
+                            searchEntry = f[1].lower()
+                            if columnEntry.find(searchEntry) == -1:
+                                skip = True
+                    if not skip:
+                        name = getKey(a, b)
+                        if name not in index:
+                            validEntry = True
+                            if scoreCol >= 0 and len(ls) > scoreCol:
+                                score = float(ls[scoreCol])
+                                skip = False
+                                if minScore is not None:
+                                    if minScore > score:
+                                        return index, count
+                                if not skip:
+                                    index[name] = score
+                            else:
+                                index[name] = 1.0
+            if validEntry:
+                count = count + 1
+            line = fp.readline()
+    return index, count
+
+
+def getXY(prediction, positive, positiveCount, negative):
+    sortedPrediction = sorted(prediction.items(), key=lambda x: x[1],
+                              reverse=True)
+    positiveTotal = positiveCount
+    negativeTotal = len(negative)
+    x = list([0])
+    y = list([0])
+    xMax = 0
+    topCount = 0
+    topMCC = 0.0
+    topPrecision = 0.0
+    topScore = 0.0
+    tp = 0
+    fp = 0
+    count = 0
+    for (name, score) in sortedPrediction:
+        found = False
+        if name in positive:
+            found = True
+            tp = tp + 1
+        if name in negative:
+            found = True
+            fp = fp + 1
+        precision = 0.0
+        if tp > 0 or fp > 0:
+            precision = tp / (tp + fp)
+        fn = positiveTotal - tp
+        tn = negativeTotal - fp
+        denom = (tp+fp)*(tp+fn)*(tn+fp)*(tn+fn)
+        if denom > 0.0:
+            mcc = (tp*tn-fp*fn)/math.sqrt(denom)
+            if mcc >= topMCC:
+                topMCC = mcc
+                topScore = score
+                topCount = count
+                topPrecision = precision
+        if found:
+            yValue = getPercentage(tp, tp + fn)
+            xValue = getPercentage(fp, fp + tn)
+            y.append(yValue)
+            x.append(xValue)
+            xMax = max(xValue, xMax)
+        count = count + 1
+    print("Top ranking prediction %s." % str(sortedPrediction[0]))
+    print("Total count of prediction set: %s (precision=%1.2f)." %
+          (topCount, topPrecision))
+    print("Total count of positive set: %s." % len(positive))
+    print("Total count of negative set: %s." % len(negative))
+    print("Matthews-Correlation-Coefficient: %s at Score >= %s." %
+          (round(topMCC, 2), topScore))
+    return x, y, xMax
+
+
+def main(args):
+    # load source files
+    filterSets = getFilter(args.input)
+    filterKeys = list(filterSets.keys())
+    filterA = filterSets[filterKeys[0]]
+    if len(filterKeys) > 1:
+        filterB = filterSets[filterKeys[1]]
+    else:
+        filterB = filterA
+
+    # identify biogrid filter options
+    filterValues = []
+    if args.method:
+        filterValues.append([11, args.method])
+    if args.experiment:
+        filterValues.append([12, args.experiment])
+    if args.throughput:
+        filterValues.append([17, args.throughput])
+
+    # process biogrid database
+    print("Loading positive set from BioGRID file...")
+    positive, positiveCount = getReference(args.biogrid, aCol=23, bCol=26,
+                                           separator="\t", filterA=filterA,
+                                           filterB=filterB, skipFirstLine=True,
+                                           filterValues=filterValues)
+
+    # rescan biogrid database to identify set of putative interactions
+    if filterValues:
+        print("Filtered entries by (column, value): %s" % filterValues)
+        print("Loading putative set from BioGRID file...")
+        putative, putativeCount = getReference(args.biogrid, aCol=23, bCol=26,
+                                               separator="\t", filterA=filterA,
+                                               filterB=filterB,
+                                               skipFirstLine=True)
+        print("Found %s." % putativeCount)
+    else:
+        putative = positive
+
+    # process prediction file
+    print("Loading prediction file...")
+    prediction, _ = getReference(args.input, scoreCol=2)
+
+    # estimate background noise
+    print("Estimating background noise...")
+    negative = set()
+    filterAList = list(filterA)
+    filterBList = list(filterB)
+    negativeCount = positiveCount
+    negativeRequired = negativeCount
+    random.seed(datetime.now())
+    while negativeRequired > 0:
+        nameA = random.choice(filterAList)
+        nameB = random.choice(filterBList)
+        key = getKey(nameA, nameB)
+        if key not in putative and key not in negative:
+            negative.add(key)
+            negativeRequired = negativeRequired - 1
+
+    # create plot
+    print("Producing plot data...")
+    print("Total count in prediction file: %d." % len(prediction))
+    print("Total count in positive file: %d." % len(positive))
+    plt.ylabel('True Positive Rate (%)')
+    plt.xlabel('False Positive Rate (%)')
+    title = " vs. ".join(filterSets)
+    plt.suptitle(title)
+    if filterValues:
+        filterAttributes = list(map(lambda x: x[1], filterValues))
+        plt.title("BioGRID filters: %s" % filterAttributes, fontsize=10)
+    x, y, xMax = getXY(prediction, positive, positiveCount, negative)
+    plt.plot(x, y)
+    plt.plot([0, xMax], [0, xMax])
+    plt.savefig(args.output, format="png")
+
+
+if __name__ == "__main__":
+    parser = argparse.ArgumentParser(description='Create ROC plot.')
+    parser.add_argument('-i', '--input', help='Input prediction file.',
+                        required=True)
+    parser.add_argument('-b', '--biogrid', help='BioGRID interaction ' +
+                        'database file', required=True)
+    parser.add_argument('-e', '--experiment', help='Type (physical/genetic)',
+                        default="", required=False)
+    parser.add_argument('-t', '--throughput', help='Throughput (low/high)',
+                        default="", required=False)
+    parser.add_argument('-m', '--method', help='Method e.g. Two-hybrid',
+                        default="", required=False)
+    parser.add_argument('-o', '--output', help='Output (png)', required=True)
+    args = parser.parse_args()
+    main(args)
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/spring_roc.xml	Sun Nov 22 14:15:24 2020 +0000
@@ -0,0 +1,85 @@
+<tool id="spring_roc" name="SPRING ROC" version="0.1.0" python_template_version="3.5">
+    <description>plot generator</description>
+    <requirements>
+        <requirement type="package" version="3.3.3">matplotlib</requirement>
+    </requirements>
+    <command detect_errors="exit_code"><![CDATA[
+        python3 '$__tool_directory__/spring_roc.py' -i '$input' -b '$database' -e '$experiment.type' -m '$experiment.method' -t '$throughput' -o '$rocplot'
+    ]]></command>
+    <inputs>
+        <param format="tabular" name="input" type="data" label="Interactions" help="Prediction Input Table with 2-columns containing UniProt Accession codes."/>
+        <param format="tabular" name="database" type="data" label="BioGRID Database" help="BioGRID Database in TAB 3.0 format."/>
+        <conditional name="experiment">
+            <param name="type" type="select" label="Experimental Type" display="radio" help="Choose a specific experimental system type.">
+                <option value="">Any</option>
+                <option value="physical">Physical</option>
+                <option value="genetic">Genetic</option>
+            </param>
+            <when value="physical">
+                <param name="method" type="select" label="Experimental Method" help="Choose a specific experimental method name.">
+                    <option value="">Any</option>
+                    <option value="Affinity Capture">Affinity Capture-Any</option>
+                    <option value="Affinity Capture-Luminescence"></option>
+                    <option value="Affinity Capture-MS">Affinity Capture-MS</option>
+                    <option value="Affinity Capture-RNA">Affinity Capture-RNA</option>
+                    <option value="Affinity Capture-Western">Affinity Capture-Western</option>
+                    <option value="Biochemical Activity">Biochemical Activity</option>
+                    <option value="Co-crystal Structure">Co-crystal Structure</option>
+                    <option value="Co-fractionation">Co-fractionation</option>
+                    <option value="Co-localization">Co-localization</option>
+                    <option value="Co-purification">Co-purification</option>
+                    <option value="Far Western">Far Western</option>
+                    <option value="FRET">FRET</option>
+                    <option value="PCA">PCA</option>
+                    <option value="Protein-peptide">Protein-peptide</option>
+                    <option value="Protein-RNA">Protein-RNA</option>
+                    <option value="Proximity Label-MS">Proximity Label-MS</option>
+                    <option value="Reconstituted Complex">Reconstituted Complex</option>
+                    <option value="Two-hybrid">Two-hybrid</option>
+                </param>
+            </when>
+            <when value="genetic">
+                <param name="method" type="hidden" value="" />
+            </when>
+            <when value="">
+                <param name="method" type="hidden" value="" />
+            </when>
+        </conditional>
+        <param name="throughput" type="select" label="Experimental Throughput" display="radio" help="Choose the experimental throughput grade.">
+            <option value="">Any</option>
+            <option value="Low Throughput">Low</option>
+            <option value="High Throughput">High</option>
+        </param>
+    </inputs>
+    <outputs>
+        <data format="png" name="rocplot" label="SPRING ROC Image" />
+    </outputs>
+    <tests>
+        <test>
+            <param format="tabular" name="input" value="roc/human_hv1h2.txt" />
+            <param format="tabular" name="database" value="roc/biogrid_fret.txt" />
+            <conditional name="experiment">
+                <param name="type" value="physical" />
+                <param name="method" value="Two-hybrid" />
+            </conditional>
+            <output name="output" file="roc/human_hv1h2.png" />
+        </test>
+    </tests>
+    <help><![CDATA[
+This tool generates a ROC plot for a given 2-column tabular prediction file containing UniProt Accession codes. The prediction is compared
+to a given BioGRID database file in TAB 3.0 format. Non-interacting protein pairs are randomly sampled. Optionally, users may filter the BioGRID database by
+choosing a specific experimental method.
+    ]]></help>
+    <citations>
+        <citation type="bibtex">
+@misc{githubhh-suite,
+author = {Guerler, Govindarajoo, Zhang},
+year = {2013},
+title = {Mapping Monomeric Threading to Protein-Protein Structure Prediction},
+publisher = {ACS Publications},
+journal = {Journal of Chemical Information and Modeling},
+url = {https://pubs.acs.org/doi/10.1021/ci300579r},
+}
+        </citation>
+    </citations>
+</tool>
\ No newline at end of file
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/roc/biogrid_fret.txt	Sun Nov 22 14:15:24 2020 +0000
@@ -0,0 +1,3458 @@
+140012	852276	850450	32692	31060	YBL007C	YCR088W	SLA1	ABP1	cytoskeletal protein-binding protein SLA1|L000001912	L000000013	FRET	physical	Warren DT (2002)	PUBMED:11950888	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32790	-	NP_009546	P15891	-	NP_010012	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+143270	855828	856499	35915	36532	YPL248C	YHR099W	GAL4	TRA1	GAL81|galactose-responsive transcription factor GAL4|L000000661	histone acetyltransferase TRA1|L000003945	FRET	physical	Bhaumik SR (2004)	PUBMED:14871930	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P04386	-	NP_015076	P38811	-	NP_011967	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145346	853385	853808	33693	34076	YJL061W	YKL057C	NUP82	NUP120	HRB187|linker nucleoporin NUP82|L000002941	RAT2|L000003138	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P40368	-	NP_012474	P35729	-	NP_012866	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145347	853808	853385	34076	33693	YKL057C	YJL061W	NUP120	NUP82	RAT2|L000003138	HRB187|linker nucleoporin NUP82|L000002941	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P35729	-	NP_012866	P40368	-	NP_012474	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145348	853385	855066	33693	35221	YJL061W	YMR047C	NUP82	NUP116	HRB187|linker nucleoporin NUP82|L000002941	NSP116|FG-nucleoporin NUP116|L000001293	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P40368	-	NP_012474	Q02630	-	NP_013762	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145349	855066	853385	35221	33693	YMR047C	YJL061W	NUP116	NUP82	NSP116|FG-nucleoporin NUP116|L000001293	HRB187|linker nucleoporin NUP82|L000002941	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q02630	-	NP_013762	P40368	-	NP_012474	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145350	855184	850552	35328	31150	YMR153W	YFR002W	NUP53	NIC96	FG-nucleoporin NUP53	linker nucleoporin NIC96|L000001250	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q03790	-	NP_013873	P34077	-	NP_116657	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145351	850552	855184	31150	35328	YFR002W	YMR153W	NIC96	NUP53	linker nucleoporin NIC96|L000001250	FG-nucleoporin NUP53	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P34077	-	NP_116657	Q03790	-	NP_013873	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145352	854265	854868	34496	35040	YOR098C	YML103C	NUP1	NUP188	FG-nucleoporin NUP1|L000001288	L000003099	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P20676	-	NP_014741	P52593	-	NP_013604	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145353	854868	854265	35040	34496	YML103C	YOR098C	NUP188	NUP1	L000003099	FG-nucleoporin NUP1|L000001288	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P52593	-	NP_013604	P20676	-	NP_014741	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145354	854868	853957	35040	34213	YML103C	YKR082W	NUP188	NUP133	L000003099	RAT3|L000002620	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P52593	-	NP_013604	P36161	-	NP_013008	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145355	853957	854868	34213	35040	YKR082W	YML103C	NUP133	NUP188	RAT3|L000002620	L000003099	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P36161	-	NP_013008	P52593	-	NP_013604	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145356	854868	855066	35040	35221	YML103C	YMR047C	NUP188	NUP116	L000003099	NSP116|FG-nucleoporin NUP116|L000001293	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P52593	-	NP_013604	Q02630	-	NP_013762	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145357	852788	853499	33159	33793	YGL092W	YJR042W	NUP145	NUP85	RAT10|L000001294	RAT9|L000003023	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P49687	-	NP_011423	P46673	-	NP_012576	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145358	853499	852788	33793	33159	YJR042W	YGL092W	NUP85	NUP145	RAT9|L000003023	RAT10|L000001294	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P46673	-	NP_012576	P49687	-	NP_011423	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145359	853499	852703	33793	33081	YJR042W	YGL172W	NUP85	NUP49	RAT9|L000003023	NSP49|FG-nucleoporin NUP49|L000001290	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P46673	-	NP_012576	Q02199	-	NP_011343	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145360	853808	852788	34076	33159	YKL057C	YGL092W	NUP120	NUP145	RAT2|L000003138	RAT10|L000001294	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P35729	-	NP_012866	P49687	-	NP_011423	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145361	853808	854868	34076	35040	YKL057C	YML103C	NUP120	NUP188	RAT2|L000003138	L000003099	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P35729	-	NP_012866	P52593	-	NP_013604	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145362	853808	850552	34076	31150	YKL057C	YFR002W	NUP120	NIC96	RAT2|L000003138	linker nucleoporin NIC96|L000001250	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P35729	-	NP_012866	P34077	-	NP_116657	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145363	851441	852703	31946	33081	YDL116W	YGL172W	NUP84	NUP49	L000003137	NSP49|FG-nucleoporin NUP49|L000001290	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P52891	-	NP_010167	Q02199	-	NP_011343	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+145364	851320	852788	31839	33159	YDL207W	YGL092W	GLE1	NUP145	BRR3|NLE2|RSS1|nucleoporin GLE1|L000003399|L000001255|S000029324	RAT10|L000001294	FRET	physical	Damelin M (2002)	PUBMED:12496130	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q12315	-	NP_010074	P49687	-	NP_011423	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+146178	850505	856306	31108	36349	YFL038C	YPR176C	YPT1	BET2	Rab family GTPase YPT1|YP2|L000002543	L000000172	FRET	physical	Dursina B (2002)	PUBMED:12022885	559292	559292	Low Throughput	-	-	FRET between Ypt1-Mrs6 complex and Rab GGTase (Bet2+Bet4)	-	BIOGRID	P01123	-	NP_116615	P20133	-	NP_015502	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+146179	854552	856306	34753	36349	YOR370C	YPR176C	MRS6	BET2	MSI4|L000001182|L000001194	L000000172	FRET	physical	Dursina B (2002)	PUBMED:12022885	559292	559292	Low Throughput	-	-	FRET between Ypt1-Mrs6 complex and Rab GGTase (Bet2+Bet4)	-	BIOGRID	P32864	-	NP_015015	P20133	-	NP_015502	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+146180	854552	853421	34753	33728	YOR370C	YJL031C	MRS6	BET4	MSI4|L000001182|L000001194	L000000173	FRET	physical	Dursina B (2002)	PUBMED:12022885	559292	559292	Low Throughput	-	-	FRET between Ypt1-Mrs6 complex and Rab GGTase (Bet2+Bet4)	-	BIOGRID	P32864	-	NP_015015	Q00618	-	NP_012503	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+147170	850518	850518	31120	31120	YFL026W	YFL026W	STE2	STE2	alpha-factor pheromone receptor STE2|L000002112	alpha-factor pheromone receptor STE2|L000002112	FRET	physical	Raicu V (2005)	PUBMED:15352875	559292	559292	Low Throughput	-	-	-	-	BIOGRID	D6VTK4	-	NP_116627	D6VTK4	-	NP_116627	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+149826	854813	856311	34988	36353	YIL004C	YPR181C	BET1	SEC23	SLY12|L000000171	GTPase-activating protein SEC23|L000001846|S000028412	FRET	physical	Sato K (2005)	PUBMED:15665868	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P22804	-	NP_012262	P15303	-	NP_015507	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+149827	854813	854697	34988	34882	YIL004C	YIL109C	BET1	SEC24	SLY12|L000000171	ANU1|COPII subunit SEC24|L000004360	FRET	physical	Sato K (2005)	PUBMED:15665868	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P22804	-	NP_012262	P40482	-	NP_012157	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+149828	850973	854697	31536	34882	YLR268W	YIL109C	SEC22	SEC24	SLY2|TS26|TSL26|SNAP receptor SEC22|L000001845|S000029606|L000002362	ANU1|COPII subunit SEC24|L000004360	FRET	physical	Sato K (2005)	PUBMED:15665868	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P22214	-	NP_013370	P40482	-	NP_012157	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+149829	850973	856311	31536	36353	YLR268W	YPR181C	SEC22	SEC23	SLY2|TS26|TSL26|SNAP receptor SEC22|L000001845|S000029606|L000002362	GTPase-activating protein SEC23|L000001846|S000028412	FRET	physical	Sato K (2005)	PUBMED:15665868	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P22214	-	NP_013370	P15303	-	NP_015507	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+150206	851957	855496	32412	35611	YDR356W	YNL225C	SPC110	CNM67	NUF1|XCM1|L000001285	L000004012	FRET	physical	Muller EG (2005)	PUBMED:15872084	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32380	-	NP_010643	P53865	-	NP_014174	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+150207	853824	851957	34090	32412	YKL042W	YDR356W	SPC42	SPC110	L000004148	NUF1|XCM1|L000001285	FRET	physical	Muller EG (2005)	PUBMED:15872084	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P36094	-	NP_012882	P32380	-	NP_010643	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+150208	853824	852406	34090	32813	YKL042W	YBR109C	SPC42	CMD1	L000004148	calmodulin|CaM|L000000365	FRET	physical	Muller EG (2005)	PUBMED:15872084	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P36094	-	NP_012882	P06787	-	NP_009667	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+150209	852406	853824	32813	34090	YBR109C	YKL042W	CMD1	SPC42	calmodulin|CaM|L000000365	L000004148	FRET	physical	Muller EG (2005)	PUBMED:15872084	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P06787	-	NP_009667	P36094	-	NP_012882	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+150210	853824	855496	34090	35611	YKL042W	YNL225C	SPC42	CNM67	L000004148	L000004012	FRET	physical	Muller EG (2005)	PUBMED:15872084	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P36094	-	NP_012882	P53865	-	NP_014174	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+150211	853824	855979	34090	36057	YKL042W	YPL124W	SPC42	SPC29	L000004148	LPH3|NIP29|L000001253	FRET	physical	Muller EG (2005)	PUBMED:15872084	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P36094	-	NP_012882	P33419	-	NP_015201	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+150212	855979	853824	36057	34090	YPL124W	YKL042W	SPC29	SPC42	LPH3|NIP29|L000001253	L000004148	FRET	physical	Muller EG (2005)	PUBMED:15872084	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P33419	-	NP_015201	P36094	-	NP_012882	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+150213	853824	853824	34090	34090	YKL042W	YKL042W	SPC42	SPC42	L000004148	L000004148	FRET	physical	Muller EG (2005)	PUBMED:15872084	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P36094	-	NP_012882	P36094	-	NP_012882	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+150214	855496	852406	35611	32813	YNL225C	YBR109C	CNM67	CMD1	L000004012	calmodulin|CaM|L000000365	FRET	physical	Muller EG (2005)	PUBMED:15872084	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53865	-	NP_014174	P06787	-	NP_009667	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+150215	855496	855979	35611	36057	YNL225C	YPL124W	CNM67	SPC29	L000004012	LPH3|NIP29|L000001253	FRET	physical	Muller EG (2005)	PUBMED:15872084	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53865	-	NP_014174	P33419	-	NP_015201	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+150216	855979	855496	36057	35611	YPL124W	YNL225C	SPC29	CNM67	LPH3|NIP29|L000001253	L000004012	FRET	physical	Muller EG (2005)	PUBMED:15872084	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P33419	-	NP_015201	P53865	-	NP_014174	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+150217	855979	851957	36057	32412	YPL124W	YDR356W	SPC29	SPC110	LPH3|NIP29|L000001253	NUF1|XCM1|L000001285	FRET	physical	Muller EG (2005)	PUBMED:15872084	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P33419	-	NP_015201	P32380	-	NP_010643	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+150218	855979	852406	36057	32813	YPL124W	YBR109C	SPC29	CMD1	LPH3|NIP29|L000001253	calmodulin|CaM|L000000365	FRET	physical	Muller EG (2005)	PUBMED:15872084	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P33419	-	NP_015201	P06787	-	NP_009667	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+150219	852406	851957	32813	32412	YBR109C	YDR356W	CMD1	SPC110	calmodulin|CaM|L000000365	NUF1|XCM1|L000001285	FRET	physical	Muller EG (2005)	PUBMED:15872084	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P06787	-	NP_009667	P32380	-	NP_010643	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203039	855356	850552	35488	31150	YMR308C	YFR002W	PSE1	NIC96	KAP121|L000001519	linker nucleoporin NIC96|L000001250	FRET	physical	Damelin M (2000)	PUBMED:10678175	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32337	-	NP_014039	P34077	-	NP_116657	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203040	855356	855066	35488	35221	YMR308C	YMR047C	PSE1	NUP116	KAP121|L000001519	NSP116|FG-nucleoporin NUP116|L000001293	FRET	physical	Damelin M (2000)	PUBMED:10678175	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32337	-	NP_014039	Q02630	-	NP_013762	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203041	855356	854265	35488	34496	YMR308C	YOR098C	PSE1	NUP1	KAP121|L000001519	FG-nucleoporin NUP1|L000001288	FRET	physical	Damelin M (2000)	PUBMED:10678175	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32337	-	NP_014039	P20676	-	NP_014741	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203042	855356	851048	35488	31599	YMR308C	YLR335W	PSE1	NUP2	KAP121|L000001519	nucleoporin NUP2|L000001289	FRET	physical	Damelin M (2000)	PUBMED:10678175	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32337	-	NP_014039	P32499	-	NP_013439	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203043	855356	853957	35488	34213	YMR308C	YKR082W	PSE1	NUP133	KAP121|L000001519	RAT3|L000002620	FRET	physical	Damelin M (2000)	PUBMED:10678175	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32337	-	NP_014039	P36161	-	NP_013008	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203044	855356	852788	35488	33159	YMR308C	YGL092W	PSE1	NUP145	KAP121|L000001519	RAT10|L000001294	FRET	physical	Damelin M (2000)	PUBMED:10678175	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32337	-	NP_014039	P49687	-	NP_011423	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203045	855356	854868	35488	35040	YMR308C	YML103C	PSE1	NUP188	KAP121|L000001519	L000003099	FRET	physical	Damelin M (2000)	PUBMED:10678175	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32337	-	NP_014039	P52593	-	NP_013604	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203046	855356	855184	35488	35328	YMR308C	YMR153W	PSE1	NUP53	KAP121|L000001519	FG-nucleoporin NUP53	FRET	physical	Damelin M (2000)	PUBMED:10678175	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32337	-	NP_014039	Q03790	-	NP_013873	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203048	851935	850552	32392	31150	YDR335W	YFR002W	MSN5	NIC96	KAP142|STE21|L000002124|L000003212	linker nucleoporin NIC96|L000001250	FRET	physical	Damelin M (2000)	PUBMED:10678175	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P52918	-	NP_010622	P34077	-	NP_116657	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203049	851935	855066	32392	35221	YDR335W	YMR047C	MSN5	NUP116	KAP142|STE21|L000002124|L000003212	NSP116|FG-nucleoporin NUP116|L000001293	FRET	physical	Damelin M (2000)	PUBMED:10678175	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P52918	-	NP_010622	Q02630	-	NP_013762	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203050	851935	854265	32392	34496	YDR335W	YOR098C	MSN5	NUP1	KAP142|STE21|L000002124|L000003212	FG-nucleoporin NUP1|L000001288	FRET	physical	Damelin M (2000)	PUBMED:10678175	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P52918	-	NP_010622	P20676	-	NP_014741	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203051	851935	851048	32392	31599	YDR335W	YLR335W	MSN5	NUP2	KAP142|STE21|L000002124|L000003212	nucleoporin NUP2|L000001289	FRET	physical	Damelin M (2000)	PUBMED:10678175	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P52918	-	NP_010622	P32499	-	NP_013439	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203052	851935	853957	32392	34213	YDR335W	YKR082W	MSN5	NUP133	KAP142|STE21|L000002124|L000003212	RAT3|L000002620	FRET	physical	Damelin M (2000)	PUBMED:10678175	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P52918	-	NP_010622	P36161	-	NP_013008	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203053	851935	852788	32392	33159	YDR335W	YGL092W	MSN5	NUP145	KAP142|STE21|L000002124|L000003212	RAT10|L000001294	FRET	physical	Damelin M (2000)	PUBMED:10678175	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P52918	-	NP_010622	P49687	-	NP_011423	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203054	851935	854868	32392	35040	YDR335W	YML103C	MSN5	NUP188	KAP142|STE21|L000002124|L000003212	L000003099	FRET	physical	Damelin M (2000)	PUBMED:10678175	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P52918	-	NP_010622	P52593	-	NP_013604	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203055	851935	853385	32392	33693	YDR335W	YJL061W	MSN5	NUP82	KAP142|STE21|L000002124|L000003212	HRB187|linker nucleoporin NUP82|L000002941	FRET	physical	Damelin M (2000)	PUBMED:10678175	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P52918	-	NP_010622	P40368	-	NP_012474	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203056	851935	851441	32392	31946	YDR335W	YDL116W	MSN5	NUP84	KAP142|STE21|L000002124|L000003212	L000003137	FRET	physical	Damelin M (2000)	PUBMED:10678175	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P52918	-	NP_010622	P52891	-	NP_010167	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+203465	26574	4137	117743	110308	HSPC277	-	AATF	MAPT	BFR2|CHE-1|CHE1|DED	DDPAC|FTDP-17|MAPTL|MSTD|MTBT1|MTBT2|PPND|PPP1R103|TAU	FRET	physical	Barbato C (2003)	PUBMED:14697667	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9NY61	-	NP_036270	P10636	B3KTM0|A0A024R9Y1|A0A024RA17|A0A024RA19|A0A024R9Y0	NP_001364195|NP_001364194|NP_005901|NP_001364197|NP_001364196|NP_058519|NP_058518|NP_001190181|NP_001190180|NP_001116538|NP_001116539|NP_058525	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+203838	855602	855602	35706	35706	YNL121C	YNL121C	TOM70	TOM70	MAS70|MOM72|OMP1|protein channel TOM70|L000001030|L000003141	MAS70|MOM72|OMP1|protein channel TOM70|L000001030|L000003141	FRET	physical	Dye BT (2005)	PUBMED:15651008	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P07213	-	NP_014278	P07213	-	NP_014278	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+239500	23111	7846	116734	113603	-	-	SPG20	TUBA1A	SPARTIN|TAHCCP1	B-ALPHA-1|LIS3|TUBA3	FRET	physical	Lu J (2006)	PUBMED:16945107	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q8N0X7	A0A024RDV9	NP_055902|NP_001135766|NP_001135767|NP_001135768	Q71U36	-	NP_001257329|NP_001257328|NP_006000	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+239719	850930	851420	31499	31926	YLR229C	YDL135C	CDC42	RDI1	Rho family GTPase CDC42|L000000276	L000002743	FRET	physical	Cole KC (2007)	PUBMED:17220465	559292	559292	Low Throughput	-	-	Bimolecular Fluorescence interaction	-	BIOGRID	P19073	-	NP_013330	Q12434	-	NP_010146	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+239783	850540	853371	31139	33681	YFL008W	YJL074C	SMC1	SMC3	CHL10|cohesin subunit SMC1|L000001926	cohesin subunit SMC3|L000003992	FRET	physical	Mc Intyre J (2007)	PUBMED:17660750	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32908	-	NP_116647	P47037	-	NP_012461	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+239784	851561	853371	32051	33681	YDL003W	YJL074C	MCD1	SMC3	PDS3|RHC21|SCC1|L000002676	cohesin subunit SMC3|L000003992	FRET	physical	Mc Intyre J (2007)	PUBMED:17660750	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q12158	-	NP_010281	P47037	-	NP_012461	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+239785	851561	850540	32051	31139	YDL003W	YFL008W	MCD1	SMC1	PDS3|RHC21|SCC1|L000002676	CHL10|cohesin subunit SMC1|L000001926	FRET	physical	Mc Intyre J (2007)	PUBMED:17660750	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q12158	-	NP_010281	P32908	-	NP_116647	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+239786	854786	851561	34963	32051	YIL026C	YDL003W	IRR1	MCD1	SCC3|L000003590	PDS3|RHC21|SCC1|L000002676	FRET	physical	Mc Intyre J (2007)	PUBMED:17660750	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P40541	-	NP_012238	Q12158	-	NP_010281	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+239787	854786	850540	34963	31139	YIL026C	YFL008W	IRR1	SMC1	SCC3|L000003590	CHL10|cohesin subunit SMC1|L000001926	FRET	physical	Mc Intyre J (2007)	PUBMED:17660750	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P40541	-	NP_012238	P32908	-	NP_116647	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+239788	854786	853371	34963	33681	YIL026C	YJL074C	IRR1	SMC3	SCC3|L000003590	cohesin subunit SMC3|L000003992	FRET	physical	Mc Intyre J (2007)	PUBMED:17660750	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P40541	-	NP_012238	P47037	-	NP_012461	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+239793	855099	850540	35251	31139	YMR076C	YFL008W	PDS5	SMC1	L000003047	CHL10|cohesin subunit SMC1|L000001926	FRET	physical	Mc Intyre J (2007)	PUBMED:17660750	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q04264	-	NP_013793	P32908	-	NP_116647	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+239794	855099	851561	35251	32051	YMR076C	YDL003W	PDS5	MCD1	L000003047	PDS3|RHC21|SCC1|L000002676	FRET	physical	Mc Intyre J (2007)	PUBMED:17660750	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q04264	-	NP_013793	Q12158	-	NP_010281	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+241359	55743	5371	120861	111384	-	-	CHFR	PML	RNF116|RNF196	MYL|PP8675|RNF71|TRIM19	FRET	physical	Daniels MJ (2004)	PUBMED:15467728	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q96EP1	-	NP_001154817|NP_001154819|NP_001154818|NP_060693|NP_001154816	P29590	-	NP_150250|NP_150253|NP_150252|NP_150247|NP_150241|NP_150242|NP_150243|NP_002666|NP_150249	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+241418	9733	51690	115082	119678	-	-	SART3	LSM7	DSAP1|P100|RP11-13G14|TIP110|p110|p110(nrb)	YNL147W	FRET	physical	Stanek D (2004)	PUBMED:15452143	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q15020	-	NP_055521	Q9UK45	-	NP_057283	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+241419	9733	9129	115082	114577	-	-	SART3	PRPF3	DSAP1|P100|RP11-13G14|TIP110|p110|p110(nrb)	HPRP3|HPRP3P|PRP3|Prp3p|RP18|SNRNP90	FRET	physical	Stanek D (2004)	PUBMED:15452143	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q15020	-	NP_055521	O43395	-	NP_004689	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+241420	9733	9128	115082	114576	-	RP11-110L1.4	SART3	PRPF4	DSAP1|P100|RP11-13G14|TIP110|p110|p110(nrb)	HPRP4|HPRP4P|PRP4|Prp4p|RP70|SNRNP60	FRET	physical	Stanek D (2004)	PUBMED:15452143	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q15020	-	NP_055521	O43172	Q5T1M7	NP_001231855|NP_004688	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+244261	580	2130	107056	108431	-	AC002059.7	BARD1	EWSR1	-	EWS|bK984G1.4	FRET	physical	Spahn L (2002)	PUBMED:12183411	9606	9606	Low Throughput	-	-	EWS and EWS-FLI1 interact via their common NH2 terminus with the COOH terminus of BARD1	-	BIOGRID	Q99728	F6MDI1|F6MDI2|A0A087WZ19|A0A087X2H0|F6MDI0|A0AVN2	NP_001269478|NP_000456|NP_001269472|NP_001269474|NP_001269477	Q01844	-	NP_001156758|NP_001156759|NP_005234|NP_053733|NP_001156757	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+244839	672	580	107140	107056	-	-	BRCA1	BARD1	BRCAI|BRCC1|BROVCA1|FANCS|IRIS|PNCA4|PPP1R53|PSCP|RNF53	-	FRET	physical	Meza JE (1999)	PUBMED:10026184	9606	9606	Low Throughput	-	-	Rresidues 1-109 of BRCA1 and residues 26-119 of BARD1form stable structural domains; These domains exist as homodimers and preferentially form a stable heterodimer	-	BIOGRID	P38398	E9PFZ0|A0A024R1V0	NP_009229|NP_009228|NP_009230|NP_009231|NP_009225	Q99728	F6MDI1|F6MDI2|A0A087WZ19|A0A087X2H0|F6MDI0|A0AVN2	NP_001269478|NP_000456|NP_001269472|NP_001269474|NP_001269477	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+244844	598	578	107070	107054	RP5-857M17.3	-	BCL2L1	BAK1	BCL-XL/S|BCL2L|BCLX|BCLXL|BCLXS|Bcl-X|PPP1R52|bcl-xL|bcl-xS	BAK|BAK-LIKE|BCL2L7|CDN1	FRET	physical	Whitfield J (2003)	PUBMED:14596824	9606	9606	Low Throughput	-	-	Scintillation proximity assay and a time-resolved fluorescence resonance energy transfer assay (HTRF); Bcl-2 homology 3 (BH3) domain; Assays using Bim BH3 peptide resulted in the highest readings (indicating the most binding)	-	BIOGRID	Q07817	Q5TE63	NP_612815|NP_001309171|NP_001309169|NP_001309168|NP_001304850|NP_001182|NP_001304849|NP_001304848	Q16611	-	NP_001179	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+244845	598	10018	107070	115335	RP5-857M17.3	-	BCL2L1	BCL2L11	BCL-XL/S|BCL2L|BCLX|BCLXL|BCLXS|Bcl-X|PPP1R52|bcl-xL|bcl-xS	BAM|BIM|BOD	FRET	physical	Whitfield J (2003)	PUBMED:14596824	9606	9606	Low Throughput	-	-	Scintillation proximity assay and a time-resolved fluorescence resonance energy transfer assay (HTRF); Bcl-2 homology 3 (BH3) domain; Assays using Bim BH3 peptide resulted in the highest readings (indicating the most binding)	-	BIOGRID	Q07817	Q5TE63	NP_612815|NP_001309171|NP_001309169|NP_001309168|NP_001304850|NP_001182|NP_001304849|NP_001304848	O43521	-	NP_619530|NP_619529|NP_619528|NP_001191038|NP_001191039|NP_001191036|NP_001191037|NP_001191035|NP_006529|NP_619531|NP_619532|NP_619533|NP_996885|NP_001191041|NP_619527|NP_001191042|NP_996886|NP_001191040	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+244846	598	8739	107070	114276	RP5-857M17.3	-	BCL2L1	HRK	BCL-XL/S|BCL2L|BCLX|BCLXL|BCLXS|Bcl-X|PPP1R52|bcl-xL|bcl-xS	DP5|HARAKIRI	FRET	physical	Whitfield J (2003)	PUBMED:14596824	9606	9606	Low Throughput	-	-	Scintillation proximity assay and a time-resolved fluorescence resonance energy transfer assay (HTRF); Bcl-2 homology 3 (BH3) domain; Assays using Bim BH3 peptide resulted in the highest readings (indicating the most binding)	-	BIOGRID	Q07817	Q5TE63	NP_612815|NP_001309171|NP_001309169|NP_001309168|NP_001304850|NP_001182|NP_001304849|NP_001304848	O00198	-	NP_003797	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+248311	2543554	2540650	279971	277175	SPAC4H3.11c	SPBC244.01c	ppc89	sid4	mug127	-	FRET	physical	Rosenberg JA (2006)	PUBMED:16775007	284812	284812	Low Throughput	-	-	-	-	BIOGRID	Q10218	-	NP_594347	O60187	-	NP_596814	-	-	-	-	-	-	Schizosaccharomyces pombe (972h)	Schizosaccharomyces pombe (972h)
+251250	5306	6342	111323	112246	-	-	PITPNA	SCP2	HEL-S-36|PI-TPalpha|PITPN|VIB1A	NLTP|NSL-TP|SCP-2|SCP-CHI|SCP-X|SCPX	FRET	physical	Zhou M (2004)	PUBMED:15182174	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q00169	V9HWC5	NP_006215	P22307	Q59HG9|B2R761|E9PLD1	NP_001007101|NP_001180528|NP_001180529|NP_001007100|NP_001007251|NP_002970|NP_001007099|NP_001180546	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+251252	6342	857	112246	107305	-	-	SCP2	CAV1	NLTP|NSL-TP|SCP-2|SCP-CHI|SCP-X|SCPX	BSCL3|CGL3|LCCNS|MSTP085|PPH3|VIP21	FRET	physical	Zhou M (2004)	PUBMED:15182174	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P22307	Q59HG9|B2R761|E9PLD1	NP_001007101|NP_001180528|NP_001180529|NP_001007100|NP_001007251|NP_002970|NP_001007099|NP_001180546	Q03135	A0A024R757|Q2TNI1|Q59E85|Q7Z4F3|A9XTE5	NP_001744|NP_001166368|NP_001166366|NP_001166367	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+251779	5111	7515	111142	113349	-	-	PCNA	XRCC1	ATLD2	RCC	FRET	physical	Fan J (2004)	PUBMED:15107487	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P12004	-	NP_872590|NP_002583	P18887	B2RCY5|Q59HH7	NP_006288	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+252265	6256	9025	112168	114492	-	-	RXRA	RNF8	NR2B1	hRNF8	FRET	physical	Takano Y (2004)	PUBMED:14981089	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P19793	Q6P3U7|F1D8Q5	NP_001278850|NP_001278849|NP_002948	O76064	-	NP_898901|NP_003949	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+253218	5868	8411	111806	113999	-	-	RAB5A	EEA1	RAB5	MST105|MSTP105|ZFYVE2	FRET	physical	Galperin E (2003)	PUBMED:14600265	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P20339	A0A024R2K1	NP_001278977|NP_004153	Q15075	-	NP_003557	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+253700	856241	856241	36292	36292	YPR124W	YPR124W	CTR1	CTR1	L000003063	L000003063	FRET	physical	Sinani D (2007)	PUBMED:17627943	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P49573	-	NP_015449	P49573	-	NP_015449	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+255858	10524	4035	115779	110215	-	-	KAT5	LRP1	ESA1|HTATIP|HTATIP1|PLIP|TIP|TIP60|ZC2HC5|cPLA2	A2MR|APOER|APR|CD91|IGFBP3R|LRP|LRP1A|TGFBR5	FRET	physical	Kinoshita A (2003)	PUBMED:12888553	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q92993	A0A024R597|A0A024R5E8	NP_006379|NP_001193762|NP_874368|NP_874369	Q07954	Q59FG2	NP_002323	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+256273	8685	117156	114232	125562	-	UNQ566/PRO1128	MARCO	SCGB3A2	SCARA2	LU103|PNSP1|UGRP1|pnSP-1	FRET	physical	Bin LH (2003)	PUBMED:12847263	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UEW3	Q4ZG40	NP_006761	Q96PL1	Q2L6B3	NP_473364	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+256274	8685	92304	114232	124931	-	UNQ629/PRO1245	MARCO	SCGB3A1	SCARA2	HIN-1|HIN1|LU105|PnSP-2|UGRP2	FRET	physical	Bin LH (2003)	PUBMED:12847263	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UEW3	Q4ZG40	NP_006761	Q96QR1	-	NP_443095	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+257903	852265	851076	32682	31623	YBL016W	YLR362W	FUS3	STE11	DAC2|mitogen-activated serine/threonine-protein kinase FUS3|L000000655	mitogen-activated protein kinase kinase kinase STE11|L000002118	FRET	physical	Maeder CI (2007)	PUBMED:17952059	559292	559292	Low Throughput	-	-	FCCS (fluorescence cross-correlation spectroscopy)	-	BIOGRID	P16892	-	NP_009537	P23561	-	NP_013466	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+257904	852265	851680	32682	32160	YBL016W	YDR103W	FUS3	STE5	DAC2|mitogen-activated serine/threonine-protein kinase FUS3|L000000655	HMD3|NUL3|L000002115	FRET	physical	Maeder CI (2007)	PUBMED:17952059	559292	559292	Low Throughput	-	-	FCCS (fluorescence cross-correlation spectroscopy)	-	BIOGRID	P16892	-	NP_009537	P32917	-	NP_010388	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+257905	852265	851396	32682	31905	YBL016W	YDL159W	FUS3	STE7	DAC2|mitogen-activated serine/threonine-protein kinase FUS3|L000000655	mitogen-activated protein kinase kinase STE7|L000002117	FRET	physical	Maeder CI (2007)	PUBMED:17952059	559292	559292	Low Throughput	-	-	FCCS (fluorescence cross-correlation spectroscopy)	-	BIOGRID	P16892	-	NP_009537	P06784	-	NP_010122	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+257906	851396	851076	31905	31623	YDL159W	YLR362W	STE7	STE11	mitogen-activated protein kinase kinase STE7|L000002117	mitogen-activated protein kinase kinase kinase STE11|L000002118	FRET	physical	Maeder CI (2007)	PUBMED:17952059	559292	559292	Low Throughput	-	-	FCCS (fluorescence cross-correlation spectroscopy)	-	BIOGRID	P06784	-	NP_010122	P23561	-	NP_013466	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+257907	851396	851680	31905	32160	YDL159W	YDR103W	STE7	STE5	mitogen-activated protein kinase kinase STE7|L000002117	HMD3|NUL3|L000002115	FRET	physical	Maeder CI (2007)	PUBMED:17952059	559292	559292	Low Throughput	-	-	FCCS (fluorescence cross-correlation spectroscopy)	-	BIOGRID	P06784	-	NP_010122	P32917	-	NP_010388	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+257908	851076	851680	31623	32160	YLR362W	YDR103W	STE11	STE5	mitogen-activated protein kinase kinase kinase STE11|L000002118	HMD3|NUL3|L000002115	FRET	physical	Maeder CI (2007)	PUBMED:17952059	559292	559292	Low Throughput	-	-	FCCS (fluorescence cross-correlation spectroscopy)	-	BIOGRID	P23561	-	NP_013466	P32917	-	NP_010388	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+258280	135	135	106647	106647	-	-	ADORA2A	ADORA2A	A2aR|ADORA2|RDC8	A2aR|ADORA2|RDC8	FRET	physical	Kamiya T (2003)	PUBMED:12804599	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P29274	B3KVQ4|X5DNB4|A8K1F6	NP_001265429|NP_001265428|NP_001265427|NP_001265426|NP_000666	P29274	B3KVQ4|X5DNB4|A8K1F6	NP_001265429|NP_001265428|NP_001265427|NP_001265426|NP_000666	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+258281	135	1813	106647	108147	-	-	ADORA2A	DRD2	A2aR|ADORA2|RDC8	D2DR|D2R	FRET	physical	Kamiya T (2003)	PUBMED:12804599	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P29274	B3KVQ4|X5DNB4|A8K1F6	NP_001265429|NP_001265428|NP_001265427|NP_001265426|NP_000666	P14416	A0A024R3C5|A0A024R3I6	NP_057658|NP_000786	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+258555	3107	3107	109352	109352	XXbac-BCX101P6.2	XXbac-BCX101P6.2	HLA-C	HLA-C	D6S204|HLA-JY3|HLC-C|PSORS1	D6S204|HLA-JY3|HLC-C|PSORS1	FRET	physical	Faure M (2003)	PUBMED:12794140	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P10321	O19617|Q95HC2|Q6R739	NP_001229971|NP_002108	P10321	O19617|Q95HC2|Q6R739	NP_001229971|NP_002108	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+258930	904	5371	107343	111384	-	-	CCNT1	PML	CCNT|CYCT1|HIVE1	MYL|PP8675|RNF71|TRIM19	FRET	physical	Marcello A (2003)	PUBMED:12727882	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O60563	A8K4M5	NP_001264771|NP_001231	P29590	-	NP_150250|NP_150253|NP_150252|NP_150247|NP_150241|NP_150242|NP_150243|NP_002666|NP_150249	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+259293	10155	10155	115457	115457	-	-	TRIM28	TRIM28	KAP1|PPP1R157|RNF96|TF1B|TIF1B	KAP1|PPP1R157|RNF96|TF1B|TIF1B	FRET	physical	Germain-Desprez D (2003)	PUBMED:12684500	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13263	-	NP_005753	Q13263	-	NP_005753	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+259294	10155	8805	115457	114333	-	-	TRIM28	TRIM24	KAP1|PPP1R157|RNF96|TF1B|TIF1B	PTC6|RNF82|TF1A|TIF1|TIF1A|TIF1ALPHA|hTIF1	FRET	physical	Germain-Desprez D (2003)	PUBMED:12684500	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13263	-	NP_005753	O15164	A0A024R784	NP_003843|NP_056989	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+259295	8805	8805	114333	114333	-	-	TRIM24	TRIM24	PTC6|RNF82|TF1A|TIF1|TIF1A|TIF1ALPHA|hTIF1	PTC6|RNF82|TF1A|TIF1|TIF1A|TIF1ALPHA|hTIF1	FRET	physical	Germain-Desprez D (2003)	PUBMED:12684500	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O15164	A0A024R784	NP_003843|NP_056989	O15164	A0A024R784	NP_003843|NP_056989	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+259297	7625	10155	113444	115457	-	-	ZNF74	TRIM28	COS52|ZFP520|ZNF520|hZNF7	KAP1|PPP1R157|RNF96|TF1B|TIF1B	FRET	physical	Germain-Desprez D (2003)	PUBMED:12684500	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q16587	A8K5P3|Q05BG0	NP_001243452|NP_003417|NP_001243454|NP_001243453	Q13263	-	NP_005753	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+259499	6000	2776	111932	109038	RP11-80B9.3	RP11-494N1.1	RGS7	GNAQ	-	CMC1|G-ALPHA-q|GAQ|SWS	FRET	physical	Witherow DS (2003)	PUBMED:12670932	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P49802	-	NP_001361742|NP_001361738|NP_001361739|NP_001361737|NP_002915|NP_001361736|NP_001351815|NP_001361744|NP_001269707|NP_001269704|NP_001269702|NP_001337044|NP_001361735|NP_001361741|NP_001361740|NP_001361743|NP_001337042|NP_001361745|NP_001337043|NP_001337045	P50148	A0A024R240	NP_002063	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+263367	1385	1387	107775	107777	-	-	CREB1	CREBBP	CREB	CBP|KAT3A|RSTS	FRET	physical	Zor T (2002)	PUBMED:12196545	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P16220	Q5U0J5|Q53X93	NP_004370|NP_001358356|NP_001358357|NP_001358355|NP_604391|NP_001307722	Q92793	-	NP_001073315|NP_004371	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+265060	831441	818472	16717	3812	AT5G15840	AT2G38880	CO	NF-YB1	CONSTANS|F14F8.220|F14F8_220|FG	ATHAP3|ATNF-YB1|HAP3|HAP3A|HEME ACTIVATOR PROTEIN (YEAST) HOMOLOG 3|HEME ACTIVATOR PROTEIN (YEAST) HOMOLOG 3A|NUCLEAR FACTOR Y SUBUNIT B1|T7F6.5|T7F6_5|nuclear factor Y|subunit B1	FRET	physical	Wenkel S (2006)	PUBMED:17138697	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q39057	-	NP_001031887|NP_197088	Q9SLG0	B6EUB6|Q3EBK1|F4ITZ4|A6XB86|F4ITZ0	NP_850304|NP_850305|NP_001031510|NP_001031511|NP_001031512|NP_001189705|NP_001189704|NP_030436	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+265061	831441	824019	16717	9337	AT5G15840	AT3G48590	CO	NF-YC1	CONSTANS|F14F8.220|F14F8_220|FG	ATHAP5A|HAP5A|nuclear factor Y|subunit C1	FRET	physical	Wenkel S (2006)	PUBMED:17138697	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q39057	-	NP_001031887|NP_197088	Q9SMP0	-	NP_190428	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+268303	816394	839529	1751	24764	AT2G18790	AT1G04400	PHYB	CRY2	HY3|MSF3.17|MSF3_17|OOP1|OUT OF PHASE 1|PHYTOCHROME B	AT-PHH1|ATCRY2|CRYPTOCHROME 2 APOPROTEIN|F19P19.14|F19P19_14|FHA|PHH1|cryptochrome 2	FRET	physical	Mas P (2000)	PUBMED:11089975	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P14713	-	NP_179469	Q96524	G4WTR2	NP_849588|NP_171935	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+268369	819242	831441	4577	16717	AT2G46340	AT5G15840	SPA1	CO	AT2G46350|F11C10.3|SUPPRESSOR OF PHYA-105 1	CONSTANS|F14F8.220|F14F8_220|FG	FRET	physical	Laubinger S (2006)	PUBMED:16854975	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SYX2	-	NP_182157	Q39057	-	NP_001031887|NP_197088	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+268389	828008	838604	13299	23843	AT4G02440	AT1G20140	EID1	SK4	EMPFINDLICHER IM DUNKELROTEN LICHT 1|T14P8.22|T14P8_22	ASK4|SKP1-like 4|T20H2.8|T20H2_8	FRET	physical	Marrocco K (2006)	PUBMED:16412087	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8LEA8	-	NP_192153	Q9LNT9	-	NP_564105	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+268390	828008	821739	13299	7071	AT4G02440	AT3G21850	EID1	SK9	EMPFINDLICHER IM DUNKELROTEN LICHT 1|T14P8.22|T14P8_22	ASK9|SKP1-like 9	FRET	physical	Marrocco K (2006)	PUBMED:16412087	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8LEA8	-	NP_192153	Q9LSX9	-	NP_566694	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+268391	828008	829569	13299	14851	AT4G02440	AT4G34210	EID1	SK11	EMPFINDLICHER IM DUNKELROTEN LICHT 1|T14P8.22|T14P8_22	ASK11|F10M10.2|SKP1-like 11	FRET	physical	Marrocco K (2006)	PUBMED:16412087	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8LEA8	-	NP_192153	O49484	-	NP_567959	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+268392	828008	825171	13299	10485	AT4G02440	AT3G60010	EID1	SK13	EMPFINDLICHER IM DUNKELROTEN LICHT 1|T14P8.22|T14P8_22	ASK13|SKP1-like 13|T2O9.1	FRET	physical	Marrocco K (2006)	PUBMED:16412087	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8LEA8	-	NP_192153	Q9M1X5	-	NP_567090	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+268393	828008	814846	13299	248	AT4G02440	AT2G03170	EID1	SK14	EMPFINDLICHER IM DUNKELROTEN LICHT 1|T14P8.22|T14P8_22	ASK14|SKP1-like 14|T18E12.16|T18E12_16	FRET	physical	Marrocco K (2006)	PUBMED:16412087	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8LEA8	-	NP_192153	O81057	-	NP_565296	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+268394	828008	822152	13299	7483	AT4G02440	AT3G25650	EID1	SK15	EMPFINDLICHER IM DUNKELROTEN LICHT 1|T14P8.22|T14P8_22	ASK15|SKP1-like 15|T5M7.16	FRET	physical	Marrocco K (2006)	PUBMED:16412087	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8LEA8	-	NP_192153	Q1PEL7	-	NP_566773	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+268396	828008	834224	13299	19474	AT4G02440	AT5G42190	EID1	ASK2	EMPFINDLICHER IM DUNKELROTEN LICHT 1|T14P8.22|T14P8_22	ARABIDOPSIS SKP1-LIKE 2|Arabidopsis SKP-like 2|MJC20.30|MJC20_30|SKP1B	FRET	physical	Marrocco K (2006)	PUBMED:16412087	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8LEA8	-	NP_192153	Q9FHW7	-	NP_568603	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+268397	837637	825648	22877	10962	AT1G10940	AT4G02570	AT1G10940	CUL1	ARABIDOPSIS SERINE/THREONINE KINASE 1|ARABIDOPSIS SKP1 HOMOLOGUE 1|ASK1|SNF1-related protein kinase 2.4|SNRK2-4|SNRK2.4|SRK2A|SUCROSE NONFERMENTING 1-RELATED PROTEIN KINASE 2-4	ATCUL1|AUXIN RESISTANT 6|AXR6|T10P11.26|T10P11_26|cullin 1	FRET	physical	Marrocco K (2006)	PUBMED:16412087	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P43291	F4I7B6	NP_001031021|NP_172563	Q94AH6	B9DGE3	NP_001031576|NP_001031575|NP_001190661|NP_567243	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+268398	828008	825648	13299	10962	AT4G02440	AT4G02570	EID1	CUL1	EMPFINDLICHER IM DUNKELROTEN LICHT 1|T14P8.22|T14P8_22	ATCUL1|AUXIN RESISTANT 6|AXR6|T10P11.26|T10P11_26|cullin 1	FRET	physical	Marrocco K (2006)	PUBMED:16412087	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8LEA8	-	NP_192153	Q94AH6	B9DGE3	NP_001031576|NP_001031575|NP_001190661|NP_567243	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+268834	820142	843513	5476	28733	AT3G09840	AT1G71830	CDC48	SERK1	ATCDC48|CDC48A|cell division cycle 48	ATSERK1|F14O23.21|F14O23_21|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 1	FRET	physical	Aker J (2006)	PUBMED:16621602	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P54609	B9DI55	NP_187595	Q94AG2	-	NP_177328	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+269026	830909	843513	16187	28733	AT5G10450	AT1G71830	GRF6	SERK1	14-3-3 PROTEIN G-BOX FACTOR14 LAMBDA|14-3-3LAMBDA|AFT1|F12B17.200|F12B17_200|G-box regulating factor 6|GF14 LAMBDA	ATSERK1|F14O23.21|F14O23_21|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 1	FRET	physical	Rienties IM (2005)	PUBMED:15592873	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P48349	F4KGV2|F4KGV5	NP_001031868|NP_568229|NP_001190276|NP_001190275	Q94AG2	-	NP_177328	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+271830	831441	817857	16717	3204	AT5G15840	AT2G32950	CO	COP1	CONSTANS|F14F8.220|F14F8_220|FG	ARABIDOPSIS THALIANA CONSTITUTIVE PHOTOMORPHOGENIC 1|ATCOP1|CONSTITUTIVE PHOTOMORPHOGENIC 1|DEETIOLATED MUTANT 340|DET340|EMB168|EMBRYO DEFECTIVE 168|FUS1|FUSCA 1|T21L14.11|T21L14_11	FRET	physical	Liu LJ (2008)	PUBMED:18296627	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q39057	-	NP_001031887|NP_197088	P43254	-	NP_180854	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+271887	854748	851085	34930	31630	YIL062C	YLR370C	ARC15	ARC18	L000004032	L000004033	FRET	physical	Slaughter BD (2007)	PUBMED:18077328	559292	559292	Low Throughput	-	-	fluorescence fluctuation spectroscopy	-	BIOGRID	P40518	-	NP_012202	Q05933	-	NP_013474	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+271888	851396	852931	31905	33287	YDL159W	YGR040W	STE7	KSS1	mitogen-activated protein kinase kinase STE7|L000002117	mitogen-activated serine/threonine-protein kinase KSS1|L000000922	FRET	physical	Slaughter BD (2007)	PUBMED:18077328	559292	559292	Low Throughput	-	-	fluorescence fluctuation spectroscopy	-	BIOGRID	P06784	-	NP_010122	P14681	-	NP_011554	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+271889	851396	852265	31905	32682	YDL159W	YBL016W	STE7	FUS3	mitogen-activated protein kinase kinase STE7|L000002117	DAC2|mitogen-activated serine/threonine-protein kinase FUS3|L000000655	FRET	physical	Slaughter BD (2007)	PUBMED:18077328	559292	559292	Low Throughput	-	-	after pheromone stimulation|fluorescence fluctuation spectroscopy	-	BIOGRID	P06784	-	NP_010122	P16892	-	NP_009537	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+271890	851396	851076	31905	31623	YDL159W	YLR362W	STE7	STE11	mitogen-activated protein kinase kinase STE7|L000002117	mitogen-activated protein kinase kinase kinase STE11|L000002118	FRET	physical	Slaughter BD (2007)	PUBMED:18077328	559292	559292	Low Throughput	-	-	fluorescence fluctuation spectroscopy	-	BIOGRID	P06784	-	NP_010122	P23561	-	NP_013466	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+271891	851396	851396	31905	31905	YDL159W	YDL159W	STE7	STE7	mitogen-activated protein kinase kinase STE7|L000002117	mitogen-activated protein kinase kinase STE7|L000002117	FRET	physical	Slaughter BD (2007)	PUBMED:18077328	559292	559292	Low Throughput	-	-	fluorescence fluctuation spectroscopy	-	BIOGRID	P06784	-	NP_010122	P06784	-	NP_010122	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+271892	851680	851076	32160	31623	YDR103W	YLR362W	STE5	STE11	HMD3|NUL3|L000002115	mitogen-activated protein kinase kinase kinase STE11|L000002118	FRET	physical	Slaughter BD (2007)	PUBMED:18077328	559292	559292	Low Throughput	-	-	fluorescence fluctuation spectroscopy	-	BIOGRID	P32917	-	NP_010388	P23561	-	NP_013466	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+271893	851680	851396	32160	31905	YDR103W	YDL159W	STE5	STE7	HMD3|NUL3|L000002115	mitogen-activated protein kinase kinase STE7|L000002117	FRET	physical	Slaughter BD (2007)	PUBMED:18077328	559292	559292	Low Throughput	-	-	fluorescence fluctuation spectroscopy	-	BIOGRID	P32917	-	NP_010388	P06784	-	NP_010122	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+271894	852265	852265	32682	32682	YBL016W	YBL016W	FUS3	FUS3	DAC2|mitogen-activated serine/threonine-protein kinase FUS3|L000000655	DAC2|mitogen-activated serine/threonine-protein kinase FUS3|L000000655	FRET	physical	Slaughter BD (2007)	PUBMED:18077328	559292	559292	Low Throughput	-	-	fluorescence fluctuation spectroscopy	-	BIOGRID	P16892	-	NP_009537	P16892	-	NP_009537	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+271895	851680	852265	32160	32682	YDR103W	YBL016W	STE5	FUS3	HMD3|NUL3|L000002115	DAC2|mitogen-activated serine/threonine-protein kinase FUS3|L000000655	FRET	physical	Slaughter BD (2007)	PUBMED:18077328	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32917	-	NP_010388	P16892	-	NP_009537	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+274581	817696	817857	3043	3204	AT2G31380	AT2G32950	STH	COP1	STO HOMOLOG|T28P16.13|T28P16_13|salt tolerance homologue	ARABIDOPSIS THALIANA CONSTITUTIVE PHOTOMORPHOGENIC 1|ATCOP1|CONSTITUTIVE PHOTOMORPHOGENIC 1|DEETIOLATED MUTANT 340|DET340|EMB168|EMBRYO DEFECTIVE 168|FUS1|FUSCA 1|T21L14.11|T21L14_11	FRET	physical	Subramanian C (2006)	PUBMED:16925598	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SID1	-	NP_565722	P43254	-	NP_180854	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+274582	821027	830996	6360	16274	AT3G17609	AT5G11260	HYH	HY5	HY5-homolog	BZIP TRANSCRIPTION FACTOR HY5|ELONGATED HYPOCOTYL 5|F2I11.150|F2I11_150|REVERSAL OF THE DET PHENOTYPE 5|TED 5	FRET	physical	Subramanian C (2006)	PUBMED:16925598	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8W191	A8MS70|Q682B6	NP_001030717|NP_001078169|NP_850605|NP_850604	O24646	Q1H5E5	NP_568246	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+275319	5329	2191	111345	108485	-	-	PLAUR	FAP	CD87|U-PAR|UPAR|URKR	DPPIV|FAPA|SIMP	FRET	physical	Artym VV (2002)	PUBMED:12376466	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q03405	M0R1I2	NP_001005377|NP_001287966|NP_002650|NP_001005376	Q12884	B4DLR2	NP_004451|NP_001278736	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+277025	952	2214	107390	108508	-	RP11-5K23.1	CD38	FCGR3A	ADPRC 1|T10	CD16|CD16A|FCG3|FCGR3|FCGRIII|FCR-10|FCRIII|FCRIIIA|IGFR3|IMD20	FRET	physical	Deaglio S (2002)	PUBMED:11895784	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P28907	-	NP_001766	P08637	M9MML0	NP_001121068|NP_000560|NP_001121067|NP_001121064|NP_001121065	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+277065	7220	7220	113071	113071	-	-	TRPC1	TRPC1	HTRP-1|TRP1	HTRP-1|TRP1	FRET	physical	Hofmann T (2002)	PUBMED:12032305	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P48995	-	NP_003295|NP_001238774	P48995	-	NP_003295|NP_001238774	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+277066	7220	7223	113071	113074	-	RP11-10M8.1	TRPC1	TRPC4	HTRP-1|TRP1	HTRP-4|HTRP4|TRP4	FRET	physical	Hofmann T (2002)	PUBMED:12032305	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P48995	-	NP_003295|NP_001238774	Q9UBN4	Q3KR50	NP_001129427|NP_001129428|NP_001129429|NP_057263|NP_003297|NP_001129430	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+277067	7221	7221	113072	113072	-	-	TRPC2	TRPC2	-	-	FRET	physical	Hofmann T (2002)	PUBMED:12032305	9606	9606	Low Throughput	-	-	-	-	BIOGRID	-	-	-	-	-	-	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+277068	7222	7225	113073	113076	-	-	TRPC3	TRPC6	TRP3	FSGS2|TRP6	FRET	physical	Hofmann T (2002)	PUBMED:12032305	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13507	-	NP_003296|NP_001124170	Q9Y210	-	NP_004612	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+277069	7222	57113	113073	121378	-	-	TRPC3	TRPC7	TRP3	TRP7	FRET	physical	Hofmann T (2002)	PUBMED:12032305	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13507	-	NP_003296|NP_001124170	Q9HCX4	-	NP_065122|NP_001161048|NP_001161049	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+277070	7223	7223	113074	113074	RP11-10M8.1	RP11-10M8.1	TRPC4	TRPC4	HTRP-4|HTRP4|TRP4	HTRP-4|HTRP4|TRP4	FRET	physical	Hofmann T (2002)	PUBMED:12032305	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UBN4	Q3KR50	NP_001129427|NP_001129428|NP_001129429|NP_057263|NP_003297|NP_001129430	Q9UBN4	Q3KR50	NP_001129427|NP_001129428|NP_001129429|NP_057263|NP_003297|NP_001129430	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+277071	7223	7224	113074	113075	RP11-10M8.1	RP1-68D15.2	TRPC4	TRPC5	HTRP-4|HTRP4|TRP4	PPP1R159|TRP5	FRET	physical	Hofmann T (2002)	PUBMED:12032305	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UBN4	Q3KR50	NP_001129427|NP_001129428|NP_001129429|NP_057263|NP_003297|NP_001129430	Q9UL62	-	NP_036603	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+277072	7222	7222	113073	113073	-	-	TRPC3	TRPC3	TRP3	TRP3	FRET	physical	Hofmann T (2002)	PUBMED:12032305	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13507	-	NP_003296|NP_001124170	Q13507	-	NP_003296|NP_001124170	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+277073	7220	7224	113071	113075	-	RP1-68D15.2	TRPC1	TRPC5	HTRP-1|TRP1	PPP1R159|TRP5	FRET	physical	Hofmann T (2002)	PUBMED:12032305	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P48995	-	NP_003295|NP_001238774	Q9UL62	-	NP_036603	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+277074	7225	7225	113076	113076	-	-	TRPC6	TRPC6	FSGS2|TRP6	FSGS2|TRP6	FRET	physical	Hofmann T (2002)	PUBMED:12032305	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9Y210	-	NP_004612	Q9Y210	-	NP_004612	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+277075	7225	57113	113076	121378	-	-	TRPC6	TRPC7	FSGS2|TRP6	TRP7	FRET	physical	Hofmann T (2002)	PUBMED:12032305	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9Y210	-	NP_004612	Q9HCX4	-	NP_065122|NP_001161048|NP_001161049	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+277076	57113	57113	121378	121378	-	-	TRPC7	TRPC7	TRP7	TRP7	FRET	physical	Hofmann T (2002)	PUBMED:12032305	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9HCX4	-	NP_065122|NP_001161048|NP_001161049	Q9HCX4	-	NP_065122|NP_001161048|NP_001161049	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+277174	154	154	106663	106663	-	-	ADRB2	ADRB2	ADRB2R|ADRBR|B2AR|BAR|BETA2AR	ADRB2R|ADRBR|B2AR|BAR|BETA2AR	FRET	physical	McVey M (2001)	PUBMED:11278447	9606	9606	Low Throughput	-	-	Protein interactions were detected using bioluminescence resonance energy transfer (BRET).	-	BIOGRID	P07550	-	NP_000015	P07550	-	NP_000015	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+277176	4985	4985	111030	111030	-	-	OPRD1	OPRD1	OPRD	OPRD	FRET	physical	McVey M (2001)	PUBMED:11278447	9606	9606	Low Throughput	-	-	Protein interactions were also detected using fluorescence resonance energy transfer (FRET).|Protein interactions were detected using bioluminescence resonance energy transfer (BRET).	-	BIOGRID	P41143	-	NP_000902	P41143	-	NP_000902	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+277177	154	4985	106663	111030	-	-	ADRB2	OPRD1	ADRB2R|ADRBR|B2AR|BAR|BETA2AR	OPRD	FRET	physical	McVey M (2001)	PUBMED:11278447	9606	9606	Low Throughput	-	-	Weak protein interactions were detected using bioluminescence resonance energy transfer (BRET).	-	BIOGRID	P07550	-	NP_000015	P41143	-	NP_000902	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+278895	596	8678	107068	114226	-	-	BCL2	BECN1	Bcl-2|PPP1R50	ATG6|VPS30|beclin1	FRET	physical	Liang XH (1998)	PUBMED:9765397	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P10415	A0A024R2B3|A0A024R2C4	NP_000624|NP_000648	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+279212	921	923	107359	107361	-	-	CD5	CD6	LEU1|T1	TP120	FRET	physical	Gimferrer I (2003)	PUBMED:12473675	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P06127	-	NP_055022	P30203	Q6AZ88|Q8N4Q7	NP_001241680|NP_006716|NP_001241679	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+280312	27332	2274	118145	108565	-	-	ZNF638	FHL2	NP220|ZFML|Zfp638	AAG11|DRAL|FHL-2|SLIM-3|SLIM3	FRET	physical	Ng EK (2002)	PUBMED:11813260	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14966	A8K583	NP_001239541|NP_055312|NP_001239542|NP_001014972	Q14192	Q2XQU9|Q6I9R8|J3KNW4	NP_963851|NP_001361328|NP_001305824|NP_001034581|NP_963849|NP_001305823|NP_001305826|NP_001305827|NP_001441|NP_001305825|NP_001305828	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+280842	9627	6622	114986	112506	-	-	SNCAIP	SNCA	SYPH1|Sph1	NACP|PARK1|PARK4|PD1	FRET	physical	Kawamata H (2001)	PUBMED:11331421	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9Y6H5	Q9NVG1	NP_001295034|NP_005451|NP_001295029|NP_001229864	P37840	H6UYS5	NP_000336|NP_009292|NP_001362216|NP_001362217|NP_001362214|NP_001362215|NP_001139526|NP_001139527	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+281091	820793	838573	6127	23812	AT3G15540	AT1G19850	IAA19	MP	MASSUGU 2|MJK13.22|MSG2|indole-3-acetic acid inducible 19	ARF5|AUXIN RESPONSE FACTOR 5|F6F9.10|F6F9_10|IAA24|MONOPTEROS|TRANSCRIPTION FACTOR IAA24|indole-3-acetic acid inducible 24	FRET	physical	Muto H (2006)	PUBMED:16854942	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O24409	Q2VWA2	NP_188173	P93024	-	NP_173414	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+281092	820793	832196	6127	17471	AT3G15540	AT5G20730	IAA19	NPH4	MASSUGU 2|MJK13.22|MSG2|indole-3-acetic acid inducible 19	ARF7|AUXIN RESPONSE FACTOR 7|AUXIN-REGULATED TRANSCRIPTIONAL ACTIVATOR 7|AUXIN-RESPONSIVE TRANSCRIPTIONAL ACTIVATOR 7|BIP|BIPOSTO|IAA21|IAA23|IAA25|MASSUGU 1|MSG1|NON-PHOTOTROPHIC HYPOCOTYL|T1M15.130|T1M15_130|TIR5|TRANSPORT INHIBITOR RESPONSE 5|indole-3-acetic acid inducible 21|indole-3-acetic acid inducible 23|indole-3-acetic acid inducible 25	FRET	physical	Muto H (2006)	PUBMED:16854942	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O24409	Q2VWA2	NP_188173	P93022	F4K5M5	NP_568400|NP_851046|NP_851047	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+281093	820793	820793	6127	6127	AT3G15540	AT3G15540	IAA19	IAA19	MASSUGU 2|MJK13.22|MSG2|indole-3-acetic acid inducible 19	MASSUGU 2|MJK13.22|MSG2|indole-3-acetic acid inducible 19	FRET	physical	Muto H (2006)	PUBMED:16854942	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O24409	Q2VWA2	NP_188173	O24409	Q2VWA2	NP_188173	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+281094	832196	832196	17471	17471	AT5G20730	AT5G20730	NPH4	NPH4	ARF7|AUXIN RESPONSE FACTOR 7|AUXIN-REGULATED TRANSCRIPTIONAL ACTIVATOR 7|AUXIN-RESPONSIVE TRANSCRIPTIONAL ACTIVATOR 7|BIP|BIPOSTO|IAA21|IAA23|IAA25|MASSUGU 1|MSG1|NON-PHOTOTROPHIC HYPOCOTYL|T1M15.130|T1M15_130|TIR5|TRANSPORT INHIBITOR RESPONSE 5|indole-3-acetic acid inducible 21|indole-3-acetic acid inducible 23|indole-3-acetic acid inducible 25	ARF7|AUXIN RESPONSE FACTOR 7|AUXIN-REGULATED TRANSCRIPTIONAL ACTIVATOR 7|AUXIN-RESPONSIVE TRANSCRIPTIONAL ACTIVATOR 7|BIP|BIPOSTO|IAA21|IAA23|IAA25|MASSUGU 1|MSG1|NON-PHOTOTROPHIC HYPOCOTYL|T1M15.130|T1M15_130|TIR5|TRANSPORT INHIBITOR RESPONSE 5|indole-3-acetic acid inducible 21|indole-3-acetic acid inducible 23|indole-3-acetic acid inducible 25	FRET	physical	Muto H (2006)	PUBMED:16854942	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P93022	F4K5M5	NP_568400|NP_851046|NP_851047	P93022	F4K5M5	NP_568400|NP_851046|NP_851047	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+281095	838573	832196	23812	17471	AT1G19850	AT5G20730	MP	NPH4	ARF5|AUXIN RESPONSE FACTOR 5|F6F9.10|F6F9_10|IAA24|MONOPTEROS|TRANSCRIPTION FACTOR IAA24|indole-3-acetic acid inducible 24	ARF7|AUXIN RESPONSE FACTOR 7|AUXIN-REGULATED TRANSCRIPTIONAL ACTIVATOR 7|AUXIN-RESPONSIVE TRANSCRIPTIONAL ACTIVATOR 7|BIP|BIPOSTO|IAA21|IAA23|IAA25|MASSUGU 1|MSG1|NON-PHOTOTROPHIC HYPOCOTYL|T1M15.130|T1M15_130|TIR5|TRANSPORT INHIBITOR RESPONSE 5|indole-3-acetic acid inducible 21|indole-3-acetic acid inducible 23|indole-3-acetic acid inducible 25	FRET	physical	Muto H (2006)	PUBMED:16854942	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P93024	-	NP_173414	P93022	F4K5M5	NP_568400|NP_851046|NP_851047	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+283428	2275	2274	108566	108565	-	-	FHL3	FHL2	SLIM2	AAG11|DRAL|FHL-2|SLIM-3|SLIM3	FRET	physical	Li HY (2001)	PUBMED:11135358	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13643	Q96C98	NP_004459|NP_001230807	Q14192	Q2XQU9|Q6I9R8|J3KNW4	NP_963851|NP_001361328|NP_001305824|NP_001034581|NP_963849|NP_001305823|NP_001305826|NP_001305827|NP_001441|NP_001305825|NP_001305828	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+286113	915	925	107353	107363	-	-	CD3D	CD8A	CD3-DELTA|IMD19|T3D	CD8|Leu2|MAL|p32	FRET	physical	Doucey MA (2003)	PUBMED:12215456	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P04234	B0YIY4	NP_000723|NP_001035741	P01732	Q6ZVS2|Q8TAW8	NP_741969|NP_001759|NP_001139345	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+286256	1861	6622	108193	112506	-	-	TOR1A	SNCA	DQ2|DYT1	NACP|PARK1|PARK4|PD1	FRET	physical	Sharma N (2001)	PUBMED:11438481	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O14656	B3KPA1	NP_000104	P37840	H6UYS5	NP_000336|NP_009292|NP_001362216|NP_001362217|NP_001362214|NP_001362215|NP_001139526|NP_001139527	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+286280	5788	925	111752	107363	RP11-553K8.4	-	PTPRC	CD8A	B220|CD45|CD45R|GP180|L-CA|LCA|LY5|T200	CD8|Leu2|MAL|p32	FRET	physical	Mittler RS (1991)	PUBMED:1834739	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P08575	M9MML4|X6R433	NP_002829|NP_563578|NP_001254727	P01732	Q6ZVS2|Q8TAW8	NP_741969|NP_001759|NP_001139345	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+286281	5788	920	111752	107358	RP11-553K8.4	-	PTPRC	CD4	B220|CD45|CD45R|GP180|L-CA|LCA|LY5|T200	CD4mut	FRET	physical	Mittler RS (1991)	PUBMED:1834739	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P08575	M9MML4|X6R433	NP_002829|NP_563578|NP_001254727	P01730	B0AZV7|B4DT49	NP_001181943|NP_001369634|NP_001181946|NP_001181945|NP_001181944|NP_000607|NP_001369635	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+288255	843	8772	107293	114302	-	GIG3	CASP10	FADD	ALPS2|FLICE2|MCH4	MORT1	FRET	physical	Wang J (2001)	PUBMED:11717445	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q92851	-	NP_116756|NP_001221|NP_116758|NP_116759|NP_001193453|NP_001193471	Q13158	-	NP_003815	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+288290	3559	3559	109774	109774	RP11-536K7.1	RP11-536K7.1	IL2RA	IL2RA	CD25|IDDM10|IL2R|TCGFR|p55	CD25|IDDM10|IL2R|TCGFR|p55	FRET	physical	Eicher DM (2002)	PUBMED:11886175	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P01589	Q5W005	NP_000408	P01589	Q5W005	NP_000408	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+289079	817696	830996	3043	16274	AT2G31380	AT5G11260	STH	HY5	STO HOMOLOG|T28P16.13|T28P16_13|salt tolerance homologue	BZIP TRANSCRIPTION FACTOR HY5|ELONGATED HYPOCOTYL 5|F2I11.150|F2I11_150|REVERSAL OF THE DET PHENOTYPE 5|TED 5	FRET	physical	Datta S (2008)	PUBMED:18796637	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SID1	-	NP_565722	O24646	Q1H5E5	NP_568246	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+289080	817696	817857	3043	3204	AT2G31380	AT2G32950	STH	COP1	STO HOMOLOG|T28P16.13|T28P16_13|salt tolerance homologue	ARABIDOPSIS THALIANA CONSTITUTIVE PHOTOMORPHOGENIC 1|ATCOP1|CONSTITUTIVE PHOTOMORPHOGENIC 1|DEETIOLATED MUTANT 340|DET340|EMB168|EMBRYO DEFECTIVE 168|FUS1|FUSCA 1|T21L14.11|T21L14_11	FRET	physical	Datta S (2008)	PUBMED:18796637	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SID1	-	NP_565722	P43254	-	NP_180854	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+298250	855834	856301	35921	36344	YPL242C	YPR171W	IQG1	BSP1	CYK1|L000004180	-	FRET	physical	Wright DJ (2008)	PUBMED:18430924	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q12280	-	NP_015082	Q06604	-	NP_015497	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+301407	851250	856577	31780	36606	YAL047C	YHR172W	SPC72	SPC97	LDB4|gamma-tubulin complex subunit SPC72|L000003455	L000003543	FRET	physical	Zizlsperger N (2008)	PUBMED:18850724	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P39723	-	NP_009352	P38863	-	NP_012042	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+301408	851250	851250	31780	31780	YAL047C	YAL047C	SPC72	SPC72	LDB4|gamma-tubulin complex subunit SPC72|L000003455	LDB4|gamma-tubulin complex subunit SPC72|L000003455	FRET	physical	Zizlsperger N (2008)	PUBMED:18850724	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P39723	-	NP_009352	P39723	-	NP_009352	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+302773	55738	10945	120856	116145	RP11-261N11.1	-	ARFGAP1	KDELR1	ARF1GAP|HRIHFB2281	ERD2|ERD2.1|HDEL|PM23	FRET	physical	Majoul I (2001)	PUBMED:11703931	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q8N6T3	Q53F62	NP_060679|NP_783202|NP_001268411|NP_001268413|NP_001268412	P24390	-	NP_006792	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+302774	375	10945	106870	116145	-	-	ARF1	KDELR1	-	ERD2|ERD2.1|HDEL|PM23	FRET	physical	Majoul I (2001)	PUBMED:11703931	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P84077	A0A024R3Q3	NP_001019398|NP_001019397|NP_001649|NP_001019399	P24390	-	NP_006792	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+302776	1315	10945	107710	116145	MSTP026	-	COPB1	KDELR1	COPB	ERD2|ERD2.1|HDEL|PM23	FRET	physical	Majoul I (2001)	PUBMED:11703931	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P53618	-	NP_001137533|NP_057535|NP_001137534	P24390	-	NP_006792	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+303488	30845	10938	119055	116138	-	CDABP0131	EHD3	EHD1	PAST3	H-PAST|HPAST1|PAST|PAST1	FRET	physical	Galperin E (2002)	PUBMED:12121420	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9NZN3	-	NP_055415	Q9H4M9	B2R5U3|A0A024R571	NP_001269373|NP_006786|NP_001269374	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+303534	23533	5294	117079	111312	-	-	PIK3R5	PIK3CG	F730038I15Rik|FOAP-2|P101-PI3K|p101	PI3CG|PI3K|PI3Kgamma|PIK3|p110gamma|p120-PI3K	FRET	physical	Brock C (2003)	PUBMED:12507995	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q8WYR1	J3KSW1|L7RT34	NP_001238784|NP_001238780|NP_001238781|NP_001238782|NP_055123|NP_001136105	P48736	A0A024R720|A8K9G9	NP_002640|NP_001269355|NP_001269356	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+305492	6755	6755	112633	112633	-	-	SSTR5	SSTR5	SS-5-R	SS-5-R	FRET	physical	Rocheville M (2000)	PUBMED:10713101	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P35346	-	NP_001166031|NP_001044	P35346	-	NP_001166031|NP_001044	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+315094	7133	7133	112987	112987	-	-	TNFRSF1B	TNFRSF1B	CD120b|TBPII|TNF-R-II|TNF-R75|TNFBR|TNFR1B|TNFR2|TNFR80|p75|p75TNFR	CD120b|TBPII|TNF-R-II|TNF-R75|TNFBR|TNFR1B|TNFR2|TNFR80|p75|p75TNFR	FRET	physical	Chan FK (2000)	PUBMED:10875917	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P20333	-	NP_001057	P20333	-	NP_001057	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+315095	7132	7132	112986	112986	-	-	TNFRSF1A	TNFRSF1A	CD120a|FPF|MS5|TBP1|TNF-R|TNF-R-I|TNF-R55|TNFAR|TNFR1|TNFR1-d2|TNFR55|TNFR60|p55|p55-R|p60	CD120a|FPF|MS5|TBP1|TNF-R|TNF-R-I|TNF-R55|TNFAR|TNFR1|TNFR1-d2|TNFR55|TNFR60|p55|p55-R|p60	FRET	physical	Chan FK (2000)	PUBMED:10875917	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P19438	-	NP_001333021|NP_001333020|NP_001056	P19438	-	NP_001333021|NP_001333020|NP_001056	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+318311	834758	817832	20006	3179	AT5G47120	AT2G32720	BI1	CB5-B	ARABIDOPSIS BAX INHIBITOR 1|ATBI-1|ATBI1|BAX INHIBITOR 1|BI-1|K14A3.7|K14A3_7	ARABIDOPSIS CYTOCHROME B5 ISOFORM B|ATCB5-B|B5 #4|F24L7.14|F24L7_14|cytochrome B5 isoform B	FRET	physical	Nagano M (2009)	PUBMED:19054355	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LD45	-	NP_199523	O48845	-	NP_180831	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+318315	827835	817832	13126	3179	AT4G20870	AT2G32720	FAH2	CB5-B	ARABIDOPSIS FATTY ACID HYDROXYLASE 2|ATFAH2|T13K14.30|T13K14_30|fatty acid hydroxylase 2	ARABIDOPSIS CYTOCHROME B5 ISOFORM B|ATCB5-B|B5 #4|F24L7.14|F24L7_14|cytochrome B5 isoform B	FRET	physical	Nagano M (2009)	PUBMED:19054355	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SUC5	-	NP_193819	O48845	-	NP_180831	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+320246	7852	83737	113607	123747	-	-	CXCR4	ITCH	CD184|D2S201E|FB22|HM89|HSY3RR|LAP-3|LAP3|LCR1|LESTR|NPY3R|NPYR|NPYRL|NPYY3R|WHIM	ADMFD|AIF4|AIP4|NAPP1|dJ468O1.1	FRET	physical	Bhandari D (2009)	PUBMED:19116316	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P61073	-	NP_003458|NP_001008540	Q96J02	-	NP_001311126|NP_113671|NP_001244066|NP_001311127|NP_001244067	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+328056	3184	3184	109425	109425	-	-	HNRNPD	HNRNPD	AUF1|AUF1A|HNRPD|P37|hnRNPD0	AUF1|AUF1A|HNRPD|P37|hnRNPD0	FRET	physical	Sinsimer KS (2008)	PUBMED:18573886	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14103	A0A024RDF4|A0A024RDB4|A0A024RDF3	NP_001003810|NP_112737|NP_002129|NP_112738	Q14103	A0A024RDF4|A0A024RDB4|A0A024RDF3	NP_001003810|NP_112737|NP_002129|NP_112738	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+328057	3184	3315	109425	109547	-	-	HNRNPD	HSPB1	AUF1|AUF1A|HNRPD|P37|hnRNPD0	CMT2F|HEL-S-102|HMN2B|HS.76067|HSP27|HSP28|Hsp25|SRP27	FRET	physical	Sinsimer KS (2008)	PUBMED:18573886	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14103	A0A024RDF4|A0A024RDB4|A0A024RDF3	NP_001003810|NP_112737|NP_002129|NP_112738	P04792	V9HW43	NP_001531	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+330492	7184	329	113036	106826	-	-	HSP90B1	BIRC2	ECGP|GP96|GRP94|HEL-S-125m|HEL35|TRA1	API1|HIAP2|Hiap-2|MIHB|RNF48|c-IAP1|cIAP1	FRET	physical	Didelot C (2008)	PUBMED:18239673	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P14625	V9HWP2	NP_003290	Q13490	-	NP_001243092|NP_001157|NP_001243095	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+331137	5532	3725	111524	109928	RP11-345K20.1	-	PPP3CB	JUN	CALNA2|CALNB|CNA2|PP2Bbeta	AP-1|AP1|c-Jun	FRET	physical	Huang CC (2008)	PUBMED:17952113	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P16298	B7Z781	NP_001276897|NP_066955|NP_001135826|NP_001135825|NP_001276898	P05412	-	NP_002219	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+331166	851658	856870	32141	36877	YDR085C	YER133W	AFR1	GLC7	L000000059	CID1|DIS2|type 1 serine/threonine-protein phosphatase catalytic subunit GLC7|DIS2S1|PP1|L000000706	FRET	physical	Bharucha JP (2008)	PUBMED:18552279	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P33304	-	NP_010370	P32598	-	NP_011059	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+331167	851658	850358	32141	30980	YDR085C	YCR002C	AFR1	CDC10	L000000059	septin CDC10|L000000250	FRET	physical	Bharucha JP (2008)	PUBMED:18552279	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P33304	-	NP_010370	P25342	-	NP_009928	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+331344	855844	854505	35930	34712	YPL232W	YOR327C	SSO1	SNC2	L000002089	SNAP receptor SNC2|L000001943	FRET	physical	Su Z (2008)	PUBMED:18611386	559292	559292	Low Throughput	-	-	An increase in FRET between Sso1 and Snc2 was only observed in the presence of the docking protein Sec9 which brings the two dye-labeled proteins close together.	-	BIOGRID	P32867	-	NP_015092	P33328	-	NP_014972	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+331345	855844	854505	35930	34712	YPL232W	YOR327C	SSO1	SNC2	L000002089	SNAP receptor SNC2|L000001943	FRET	physical	Lu X (2008)	PUBMED:18552827	559292	559292	Low Throughput	-	-	An interaction between Sso1 and Snc2 was only observed in the presence of the docking protein Sec9.	-	BIOGRID	P32867	-	NP_015092	P33328	-	NP_014972	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+331676	830095	829480	15375	14764	AT4G39400	AT4G33430	BRI1	BAK1	ATBRI1|BIN1|BR INSENSITIVE 1|BRASSINOSTEROID INSENSITIVE 1|CABBAGE 2|CBB2|DWARF 2|DWF2|F23K16.30|F23K16_30	ATBAK1|ATSERK3|BRI1-associated receptor kinase|ELG|ELONGATED|F17M5.190|F17M5_190|RECEPTOR KINASES LIKE SERK 10|RKS10|SERK3|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 3	FRET	physical	Russinova E (2004)	PUBMED:15548744	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O22476	-	NP_195650	Q94F62	F4JIX9	NP_001190904|NP_567920	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+334117	817857	817857	3204	3204	AT2G32950	AT2G32950	COP1	COP1	ARABIDOPSIS THALIANA CONSTITUTIVE PHOTOMORPHOGENIC 1|ATCOP1|CONSTITUTIVE PHOTOMORPHOGENIC 1|DEETIOLATED MUTANT 340|DET340|EMB168|EMBRYO DEFECTIVE 168|FUS1|FUSCA 1|T21L14.11|T21L14_11	ARABIDOPSIS THALIANA CONSTITUTIVE PHOTOMORPHOGENIC 1|ATCOP1|CONSTITUTIVE PHOTOMORPHOGENIC 1|DEETIOLATED MUTANT 340|DET340|EMB168|EMBRYO DEFECTIVE 168|FUS1|FUSCA 1|T21L14.11|T21L14_11	FRET	physical	Subramanian C (2004)	PUBMED:15084749	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P43254	-	NP_180854	P43254	-	NP_180854	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+336662	824293	839513	9611	24748	AT3G51300	AT1G04450	ROP1	RIC3	ARABIDOPSIS THALIANA RHO-RELATED PROTEIN FROM PLANTS 1|ARAC11|ATRAC11|ATROP1|Arabidopsis RAC-like 11|RHO-related protein from plants 1|ROP1AT	F19P19.8|F19P19_8|ROP-interactive CRIB motif-containing protein 3	FRET	physical	Gu Y (2005)	PUBMED:15824136	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P92978	-	NP_190698	F4I5N6	-	NP_171940	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+336663	824293	831510	9611	16786	AT3G51300	AT5G16490	ROP1	RIC4	ARABIDOPSIS THALIANA RHO-RELATED PROTEIN FROM PLANTS 1|ARAC11|ATRAC11|ATROP1|Arabidopsis RAC-like 11|RHO-related protein from plants 1|ROP1AT	MQK4.23|MQK4_23|ROP-interactive CRIB motif-containing protein 4	FRET	physical	Gu Y (2005)	PUBMED:15824136	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P92978	-	NP_190698	Q9FFD5	-	NP_197153	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+336794	823964	831345	9283	16622	AT3G48090	AT5G14930	EDS1	SAG101	ATEDS1|EDS1 PROTEIN|enhanced disease susceptibility 1	F2G14.50|F2G14_50|senescence-associated gene 101	FRET	physical	Feys BJ (2005)	PUBMED:16040633	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	B9DFM5|Q9SU72	NP_190392|NP_001030829	Q4F883	A8MS15	NP_001078585|NP_851039|NP_568307	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+336795	823964	823964	9283	9283	AT3G48090	AT3G48090	EDS1	EDS1	ATEDS1|EDS1 PROTEIN|enhanced disease susceptibility 1	ATEDS1|EDS1 PROTEIN|enhanced disease susceptibility 1	FRET	physical	Feys BJ (2005)	PUBMED:16040633	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	B9DFM5|Q9SU72	NP_190392|NP_001030829	-	B9DFM5|Q9SU72	NP_190392|NP_001030829	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+336997	843271	843271	28492	28492	AT1G69390	AT1G69390	MINE1	MINE1	ARC12|ATMINE1|F23O10.25|F23O10_25|accumulation and replication of chloroplasts 12|homologue of bacterial MinE 1	ARC12|ATMINE1|F23O10.25|F23O10_25|accumulation and replication of chloroplasts 12|homologue of bacterial MinE 1	FRET	physical	Maple J (2005)	PUBMED:16146521	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9C4Z7	-	NP_564964	Q9C4Z7	-	NP_564964	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+336999	832467	832467	17742	17742	AT5G24020	AT5G24020	MIND	MIND	ACCUMULATION AND REPLICATION OF CHLOROPLASTS 11|ARC11|ATMIND1|MZF18.10|MZF18_10	ACCUMULATION AND REPLICATION OF CHLOROPLASTS 11|ARC11|ATMIND1|MZF18.10|MZF18_10	FRET	physical	Maple J (2005)	PUBMED:16146521	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9MBA2	-	NP_197790	Q9MBA2	-	NP_197790	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+337000	832467	843271	17742	28492	AT5G24020	AT1G69390	MIND	MINE1	ACCUMULATION AND REPLICATION OF CHLOROPLASTS 11|ARC11|ATMIND1|MZF18.10|MZF18_10	ARC12|ATMINE1|F23O10.25|F23O10_25|accumulation and replication of chloroplasts 12|homologue of bacterial MinE 1	FRET	physical	Maple J (2005)	PUBMED:16146521	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9MBA2	-	NP_197790	Q9C4Z7	-	NP_564964	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+337008	818197	818197	3541	3541	AT2G36250	AT2G36250	FTSZ2-1	FTSZ2-1	ATFTSZ2-1|F2H17.14|F2H17_14|FTSZ	ATFTSZ2-1|F2H17.14|F2H17_14|FTSZ	FRET	physical	Maple J (2005)	PUBMED:16146521	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O82533	-	NP_973612|NP_565839	O82533	-	NP_973612|NP_565839	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+337009	818197	835621	3541	20865	AT2G36250	AT5G55280	FTSZ2-1	FTSZ1-1	ATFTSZ2-1|F2H17.14|F2H17_14|FTSZ	ARABIDOPSIS THALIANA HOMOLOG OF BACTERIAL CYTOKINESIS Z-RING PROTEIN FTSZ 1-1|ATFTSZ1-1|CHLOROPLAST FTSZ|CPFTSZ|MCO15.23|MCO15_23|homolog of bacterial cytokinesis Z-ring protein FTSZ 1-1	FRET	physical	Maple J (2005)	PUBMED:16146521	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O82533	-	NP_973612|NP_565839	Q42545	-	NP_200339	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+337010	835621	818197	20865	3541	AT5G55280	AT2G36250	FTSZ1-1	FTSZ2-1	ARABIDOPSIS THALIANA HOMOLOG OF BACTERIAL CYTOKINESIS Z-RING PROTEIN FTSZ 1-1|ATFTSZ1-1|CHLOROPLAST FTSZ|CPFTSZ|MCO15.23|MCO15_23|homolog of bacterial cytokinesis Z-ring protein FTSZ 1-1	ATFTSZ2-1|F2H17.14|F2H17_14|FTSZ	FRET	physical	Maple J (2005)	PUBMED:16146521	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q42545	-	NP_200339	O82533	-	NP_973612|NP_565839	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+337011	835621	835621	20865	20865	AT5G55280	AT5G55280	FTSZ1-1	FTSZ1-1	ARABIDOPSIS THALIANA HOMOLOG OF BACTERIAL CYTOKINESIS Z-RING PROTEIN FTSZ 1-1|ATFTSZ1-1|CHLOROPLAST FTSZ|CPFTSZ|MCO15.23|MCO15_23|homolog of bacterial cytokinesis Z-ring protein FTSZ 1-1	ARABIDOPSIS THALIANA HOMOLOG OF BACTERIAL CYTOKINESIS Z-RING PROTEIN FTSZ 1-1|ATFTSZ1-1|CHLOROPLAST FTSZ|CPFTSZ|MCO15.23|MCO15_23|homolog of bacterial cytokinesis Z-ring protein FTSZ 1-1	FRET	physical	Maple J (2005)	PUBMED:16146521	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q42545	-	NP_200339	Q42545	-	NP_200339	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+337245	843513	840320	28733	25552	AT1G71830	AT1G34210	SERK1	SERK2	ATSERK1|F14O23.21|F14O23_21|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 1	ATSERK2|F23M19.11|F23M19_11|somatic embryogenesis receptor-like kinase 2	FRET	physical	Albrecht C (2005)	PUBMED:16284305	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q94AG2	-	NP_177328	Q9XIC7	-	NP_174683	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+337246	843513	843513	28733	28733	AT1G71830	AT1G71830	SERK1	SERK1	ATSERK1|F14O23.21|F14O23_21|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 1	ATSERK1|F14O23.21|F14O23_21|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 1	FRET	physical	Albrecht C (2005)	PUBMED:16284305	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q94AG2	-	NP_177328	Q94AG2	-	NP_177328	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+337247	840320	840320	25552	25552	AT1G34210	AT1G34210	SERK2	SERK2	ATSERK2|F23M19.11|F23M19_11|somatic embryogenesis receptor-like kinase 2	ATSERK2|F23M19.11|F23M19_11|somatic embryogenesis receptor-like kinase 2	FRET	physical	Albrecht C (2005)	PUBMED:16284305	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9XIC7	-	NP_174683	Q9XIC7	-	NP_174683	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+337590	843513	829480	28733	14764	AT1G71830	AT4G33430	SERK1	BAK1	ATSERK1|F14O23.21|F14O23_21|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 1	ATBAK1|ATSERK3|BRI1-associated receptor kinase|ELG|ELONGATED|F17M5.190|F17M5_190|RECEPTOR KINASES LIKE SERK 10|RKS10|SERK3|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 3	FRET	physical	Karlova R (2006)	PUBMED:16473966	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q94AG2	-	NP_177328	Q94F62	F4JIX9	NP_001190904|NP_567920	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+337591	843513	830095	28733	15375	AT1G71830	AT4G39400	SERK1	BRI1	ATSERK1|F14O23.21|F14O23_21|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 1	ATBRI1|BIN1|BR INSENSITIVE 1|BRASSINOSTEROID INSENSITIVE 1|CABBAGE 2|CBB2|DWARF 2|DWF2|F23K16.30|F23K16_30	FRET	physical	Karlova R (2006)	PUBMED:16473966	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q94AG2	-	NP_177328	O22476	-	NP_195650	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+337592	843513	832048	28733	17324	AT1G71830	AT5G19280	SERK1	KAPP	ATSERK1|F14O23.21|F14O23_21|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 1	RAG1|ROOT ATTENUATED GROWTH 1|T24G5.3|kinase associated protein phosphatase	FRET	physical	Karlova R (2006)	PUBMED:16473966	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q94AG2	-	NP_177328	P46014	F4K124	NP_197429|NP_001154720	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+337593	843513	820142	28733	5476	AT1G71830	AT3G09840	SERK1	CDC48	ATSERK1|F14O23.21|F14O23_21|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 1	ATCDC48|CDC48A|cell division cycle 48	FRET	physical	Karlova R (2006)	PUBMED:16473966	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q94AG2	-	NP_177328	P54609	B9DI55	NP_187595	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+337680	817170	816623	2522	1976	AT2G26300	AT2G20890	GP ALPHA 1	PSB29	ARABIDOPSIS THALIANA G PROTEIN ALPHA SUBUNIT 1|ATGPA1|G PROTEIN ALPHA SUBUNIT|G PROTEIN ALPHA SUBUNIT 1|GPA1|T1D16.6|T1D16_6	F5H14.14|F5H14_14|THF1|THYLAKOID FORMATION1|photosystem II reaction center PSB29 protein	FRET	physical	Huang J (2006)	PUBMED:16582010	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P18064	-	NP_180198	Q9SKT0	-	NP_565491	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+338452	53347	7332	119748	113180	-	-	UBASH3A	UBE2L3	CLIP4|STS-2|TULA|TULA-1	E2-F1|L-UBC|UBCH7|UbcM4	FRET	physical	Hoeller D (2007)	PUBMED:17588522	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P57075	-	NP_061834|NP_001001895|NP_001230396	P68036	A0A024R1A4	NP_001243285|NP_001243284|NP_003338	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+338459	852276	850450	32692	31060	YBL007C	YCR088W	SLA1	ABP1	cytoskeletal protein-binding protein SLA1|L000001912	L000000013	FRET	physical	Wightman R (2008)	PUBMED:18952899	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32790	-	NP_009546	P15891	-	NP_010012	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+338460	851572	854954	32061	35117	YDR009W	YML051W	GAL3	GAL80	transcriptional regulator GAL3|L000000660	transcription regulator GAL80|L000000665	FRET	physical	Wightman R (2008)	PUBMED:18952899	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P13045	-	NP_010292	P04387	-	NP_013661	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+341095	838284	824293	23524	9611	AT1G17140	AT3G51300	ICR1	ROP1	F20D23.32|RIP1|ROP INTERACTIVE PARTNER 1|interactor of constitutive active rops 1	ARABIDOPSIS THALIANA RHO-RELATED PROTEIN FROM PLANTS 1|ARAC11|ATRAC11|ATROP1|Arabidopsis RAC-like 11|RHO-related protein from plants 1|ROP1AT	FRET	physical	Li S (2008)	PUBMED:19825600	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8LE98	-	NP_973848|NP_564015	P92978	-	NP_190698	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+341101	831889	842951	17165	28172	AT5G03280	AT1G66340	EIN2	ETR1	ATEIN2|CKR1|CYTOKININ RESISTANT 1|ENHANCED RESPONSE TO ABA3|ERA3|ETHYLENE INSENSITIVE 2|F12E4.10|F12E4_10|ORE2|ORE3|ORESARA 2|ORESARA 3|PIR2	AtETR1|EIN1|ETHYLENE INSENSITIVE 1|ETHYLENE RESPONSE|ETHYLENE RESPONSE 1|ETR|HISTIDINE KINASE ETR1|T27F4.9|T27F4_9	FRET	physical	Bisson MM (2009)	PUBMED:19769567	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9S814	-	NP_195948	P49333	-	NP_176808	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+342097	852079	852892	32521	33253	YDR468C	YGR009C	TLG1	SEC9	L000004227	HSS7|L000001835	FRET	physical	Zhang H (2009)	PUBMED:19591838	559292	559292	High Throughput	-	-	Coiled-coil domains only	-	BIOGRID	Q03322	-	NP_010756	P40357	-	NP_011523	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+342098	856418	853675	36454	33960	YHR023W	YKL179C	MYO1	COY1	myosin 1|L000001222	-	FRET	physical	Zhang H (2009)	PUBMED:19591838	559292	559292	High Throughput	-	-	Coiled-coil domains only	-	BIOGRID	P08964	-	NP_011888	P34237	-	NP_012742	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+342099	856418	855449	36454	35568	YHR023W	YNL272C	MYO1	SEC2	myosin 1|L000001222	guanine nucleotide exchange factor SEC2|L000001828	FRET	physical	Zhang H (2009)	PUBMED:19591838	559292	559292	High Throughput	-	-	Coiled-coil domains only	-	BIOGRID	P08964	-	NP_011888	P17065	-	NP_014127	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+342100	853598	854391	33889	34611	YJR134C	YOR216C	SGM1	RUD3	-	GRP1|L000004185	FRET	physical	Zhang H (2009)	PUBMED:19591838	559292	559292	High Throughput	-	-	Coiled-coil domains only	-	BIOGRID	P47166	-	NP_012668	Q12234	-	NP_014859	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+342101	853598	854504	33889	34711	YJR134C	YOR326W	SGM1	MYO2	-	CDC66|myosin 2|L000001223	FRET	physical	Zhang H (2009)	PUBMED:19591838	559292	559292	High Throughput	-	-	Coiled-coil domains only	-	BIOGRID	P47166	-	NP_012668	P19524	-	NP_014971	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+342102	853868	855101	34131	35253	YKL002W	YMR077C	DID4	VPS20	CHM2|GRD7|REN1|VPL2|VPS14|VPS2|VPT14|ESCRT-III subunit protein DID4|L000002955	CHM6|VPL10|VPT20|ESCRT-III subunit protein VPS20	FRET	physical	Zhang H (2009)	PUBMED:19591838	559292	559292	High Throughput	-	-	Coiled-coil domains only	-	BIOGRID	P36108	-	NP_012924	Q04272	-	NP_013794	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+342103	853783	851018	34053	31574	YKL079W	YLR309C	SMY1	IMH1	L000001940	SYS3|L000003981	FRET	physical	Zhang H (2009)	PUBMED:19591838	559292	559292	High Throughput	-	-	Coiled-coil domains only	-	BIOGRID	P32364	-	NP_012844	Q06704	-	NP_013412	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+342104	853783	856162	34053	36225	YKL079W	YPR049C	SMY1	ATG11	L000001940	CVT3|CVT9|autophagy protein ATG11|L000004760|L000004756|S000029130	FRET	physical	Zhang H (2009)	PUBMED:19591838	559292	559292	High Throughput	-	-	Coiled-coil domains only	-	BIOGRID	P32364	-	NP_012844	Q12527	-	NP_015374	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+342105	853675	854391	33960	34611	YKL179C	YOR216C	COY1	RUD3	-	GRP1|L000004185	FRET	physical	Zhang H (2009)	PUBMED:19591838	559292	559292	High Throughput	-	-	Coiled-coil domains only	-	BIOGRID	P34237	-	NP_012742	Q12234	-	NP_014859	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+342106	853638	855844	33925	35930	YKL196C	YPL232W	YKT6	SSO1	palmitoyltransferase YKT6|L000004163	L000002089	FRET	physical	Zhang H (2009)	PUBMED:19591838	559292	559292	High Throughput	-	-	Coiled-coil domains only	-	BIOGRID	P36015	-	NP_012725	P32867	-	NP_015092	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+342107	850973	855221	31536	35361	YLR268W	YMR183C	SEC22	SSO2	SLY2|TS26|TSL26|SNAP receptor SEC22|L000001845|S000029606|L000002362	L000002090	FRET	physical	Zhang H (2009)	PUBMED:19591838	559292	559292	High Throughput	-	-	Coiled-coil domains only	-	BIOGRID	P22214	-	NP_013370	P39926	-	NP_013908	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+342108	851018	854391	31574	34611	YLR309C	YOR216C	IMH1	RUD3	SYS3|L000003981	GRP1|L000004185	FRET	physical	Zhang H (2009)	PUBMED:19591838	559292	559292	High Throughput	-	-	Coiled-coil domains only	-	BIOGRID	Q06704	-	NP_013412	Q12234	-	NP_014859	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+342109	855221	854273	35361	34502	YMR183C	YOR106W	SSO2	VAM3	L000002090	PTH1|SNAP receptor VAM3|L000003267|L000003302	FRET	physical	Zhang H (2009)	PUBMED:19591838	559292	559292	High Throughput	-	-	Coiled-coil domains only	-	BIOGRID	P39926	-	NP_013908	Q12241	-	NP_014749	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+342408	817911	829654	3258	14936	AT2G33460	AT4G35020	RIC1	RAC3	F4P9.23|F4P9_23|ROP-interactive CRIB motif-containing protein 1	ARAC3|ATROP6|M4E13.80|M4E13_80|RAC-like 3|RHO-RELATED PROTEIN FROM PLANTS 6|RHO1PS|ROP6	FRET	physical	Fu Y (2009)	PUBMED:19818614	3702	3702	Low Throughput	-	-	-	-	BIOGRID	F4IVV0	-	NP_180904	Q38912	Q5PNX9	NP_001190916|NP_001190917|NP_195228	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+343804	856394	853548	36430	33841	YHR005C	YJR086W	GPA1	STE18	CDC70|DAC1|SCG1|guanine nucleotide-binding protein subunit alpha|L000000720	L000002122	FRET	physical	Yu RC (2008)	PUBMED:19079053	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P08539	-	NP_011868	P18852	-	NP_012619	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+343805	856058	856484	36131	36519	YPL049C	YHR084W	DIG1	STE12	RST1|L000003122	homeodomain family transcription factor STE12|L000002119	FRET	physical	Yu RC (2008)	PUBMED:19079053	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q03063	-	NP_015276	P13574	-	NP_011952	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+344310	830381	830381	15660	15660	AT5G04990	AT5G04990	SUN1	SUN1	ARABIDOPSIS SAD1/UNC-84 DOMAIN PROTEIN 1|ATSUN1|MUG13.15|MUG13_15|SAD1/UNC-84 domain protein 1	ARABIDOPSIS SAD1/UNC-84 DOMAIN PROTEIN 1|ATSUN1|MUG13.15|MUG13_15|SAD1/UNC-84 domain protein 1	FRET	physical	Graumann K (2010)	PUBMED:19807882	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9FF75	NP_196118	-	Q9FF75	NP_196118	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+344311	830381	820242	15660	5576	AT5G04990	AT3G10730	SUN1	SUN2	ARABIDOPSIS SAD1/UNC-84 DOMAIN PROTEIN 1|ATSUN1|MUG13.15|MUG13_15|SAD1/UNC-84 domain protein 1	ARABIDOPSIS SAD1/UNC-84 DOMAIN PROTEIN 2|ATSUN2|SAD1/UNC-84 domain protein 2	FRET	physical	Graumann K (2010)	PUBMED:19807882	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9FF75	NP_196118	-	Q9SG79	NP_566380	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+344312	820242	820242	5576	5576	AT3G10730	AT3G10730	SUN2	SUN2	ARABIDOPSIS SAD1/UNC-84 DOMAIN PROTEIN 2|ATSUN2|SAD1/UNC-84 domain protein 2	ARABIDOPSIS SAD1/UNC-84 DOMAIN PROTEIN 2|ATSUN2|SAD1/UNC-84 domain protein 2	FRET	physical	Graumann K (2010)	PUBMED:19807882	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9SG79	NP_566380	-	Q9SG79	NP_566380	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+345764	843915	843915	29134	29134	AT1G75820	AT1G75820	CLV1	CLV1	ATCLV1|CLAVATA 1|CLV1 RECEPTOR KINASE PRECURSOR|FAS3|FASCIATA 3|FLO5|FLOWER DEVELOPMENT 5|T4O12.5|T4O12_5	ATCLV1|CLAVATA 1|CLV1 RECEPTOR KINASE PRECURSOR|FAS3|FASCIATA 3|FLO5|FLOWER DEVELOPMENT 5|T4O12.5|T4O12_5	FRET	physical	Bleckmann A (2010)	PUBMED:19933383	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SYQ8	C0LGJ2	NP_177710	Q9SYQ8	C0LGJ2	NP_177710	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+345765	831170	831170	16448	16448	AT5G13290	AT5G13290	CRN	CRN	CORYNE|SOL2|SUPPRESSOR OF LLP1 2|T31B5.110|T31B5_110	CORYNE|SOL2|SUPPRESSOR OF LLP1 2|T31B5.110|T31B5_110	FRET	physical	Bleckmann A (2010)	PUBMED:19933383	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LYU7	-	NP_196833|NP_850812|NP_001078577	Q9LYU7	-	NP_196833|NP_850812|NP_001078577	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+345766	831170	842849	16448	28070	AT5G13290	AT1G65380	CRN	CLV2	CORYNE|SOL2|SUPPRESSOR OF LLP1 2|T31B5.110|T31B5_110	AtRLP10|Receptor Like Protein 10|T8F5.16|T8F5_16|clavata 2	FRET	physical	Bleckmann A (2010)	PUBMED:19933383	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LYU7	-	NP_196833|NP_850812|NP_001078577	O80809	-	NP_176717	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+349114	850909	856577	31480	36606	YLR212C	YHR172W	TUB4	SPC97	gamma-tubulin|L000002751	L000003543	FRET	physical	Kollman JM (2008)	PUBMED:17978090	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53378	-	NP_013313	P38863	-	NP_012042	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+349115	850909	851957	31480	32412	YLR212C	YDR356W	TUB4	SPC110	gamma-tubulin|L000002751	NUF1|XCM1|L000001285	FRET	physical	Kollman JM (2008)	PUBMED:17978090	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53378	-	NP_013313	P32380	-	NP_010643	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+349116	856577	850909	36606	31480	YHR172W	YLR212C	SPC97	TUB4	L000003543	gamma-tubulin|L000002751	FRET	physical	Kollman JM (2008)	PUBMED:17978090	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P38863	-	NP_012042	P53378	-	NP_013313	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+349117	851957	850909	32412	31480	YDR356W	YLR212C	SPC110	TUB4	NUF1|XCM1|L000001285	gamma-tubulin|L000002751	FRET	physical	Kollman JM (2008)	PUBMED:17978090	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32380	-	NP_010643	P53378	-	NP_013313	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+349118	855597	856577	35701	36606	YNL126W	YHR172W	SPC98	SPC97	L000003430	L000003543	FRET	physical	Kollman JM (2008)	PUBMED:17978090	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53540	-	NP_014273	P38863	-	NP_012042	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+349119	856577	855597	36606	35701	YHR172W	YNL126W	SPC97	SPC98	L000003543	L000003430	FRET	physical	Kollman JM (2008)	PUBMED:17978090	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P38863	-	NP_012042	P53540	-	NP_014273	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+349121	851957	856577	32412	36606	YDR356W	YHR172W	SPC110	SPC97	NUF1|XCM1|L000001285	L000003543	FRET	physical	Kollman JM (2008)	PUBMED:17978090	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32380	-	NP_010643	P38863	-	NP_012042	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+349122	856577	851957	36606	32412	YHR172W	YDR356W	SPC97	SPC110	L000003543	NUF1|XCM1|L000001285	FRET	physical	Kollman JM (2008)	PUBMED:17978090	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P38863	-	NP_012042	P32380	-	NP_010643	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+349428	855597	851957	35701	32412	YNL126W	YDR356W	SPC98	SPC110	L000003430	NUF1|XCM1|L000001285	FRET	physical	Kollman JM (2008)	PUBMED:17978090	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53540	-	NP_014273	P32380	-	NP_010643	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+349429	851957	851957	32412	32412	YDR356W	YDR356W	SPC110	SPC110	NUF1|XCM1|L000001285	NUF1|XCM1|L000001285	FRET	physical	Kollman JM (2008)	PUBMED:17978090	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32380	-	NP_010643	P32380	-	NP_010643	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+425420	1734	1734	108078	108078	-	-	DIO2	DIO2	5DII|D2|DIOII|SelY|TXDI2	5DII|D2|DIOII|SelY|TXDI2	FRET	physical	Sagar GD (2007)	PUBMED:17452445	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q92813	A8K845|Q9HCP7	NP_001007024|NP_000784|NP_001311391|NP_001229431|NP_001229432|NP_054644	Q92813	A8K845|Q9HCP7	NP_001007024|NP_000784|NP_001311391|NP_001229431|NP_001229432|NP_054644	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+425421	1734	7326	108078	113174	-	-	DIO2	UBE2G1	5DII|D2|DIOII|SelY|TXDI2	E217K|UBC7|UBE2G	FRET	physical	Sagar GD (2007)	PUBMED:17452445	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q92813	A8K845|Q9HCP7	NP_001007024|NP_000784|NP_001311391|NP_001229431|NP_001229432|NP_054644	P62253	-	NP_003333	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+425422	1734	26118	108078	117560	-	-	DIO2	WSB1	5DII|D2|DIOII|SelY|TXDI2	SWIP1|WSB-1	FRET	physical	Sagar GD (2007)	PUBMED:17452445	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q92813	A8K845|Q9HCP7	NP_001007024|NP_000784|NP_001311391|NP_001229431|NP_001229432|NP_054644	Q9Y6I7	A0A024QZ36|A0A024QZ51	NP_599027|NP_056441	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+425423	1734	23032	108078	116671	-	-	DIO2	USP33	5DII|D2|DIOII|SelY|TXDI2	VDU1	FRET	physical	Sagar GD (2007)	PUBMED:17452445	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q92813	A8K845|Q9HCP7	NP_001007024|NP_000784|NP_001311391|NP_001229431|NP_001229432|NP_054644	Q8TEY7	-	NP_001364360|NP_001364361|NP_001364362|NP_001364363|NP_001364364|NP_001364365|NP_001364366|NP_001364367|NP_001364368|NP_001364359|NP_963920|NP_963918|NP_055832	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+425849	5715	6502	111687	112393	-	-	PSMD9	SKP2	Rpn4|p27	FBL1|FBXL1|FLB1|p45	FRET	physical	Xu S (2007)	PUBMED:17409098	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O00233	-	NP_001248329|NP_002804	Q13309	A0A024R069	NP_116026|NP_001230049|NP_005974	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+425850	5715	1163	111687	107582	-	RP11-307C12.6	PSMD9	CKS1B	Rpn4|p27	CKS1|PNAS-16|PNAS-18|ckshs1	FRET	physical	Xu S (2007)	PUBMED:17409098	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O00233	-	NP_001248329|NP_002804	P61024	Q5T178	NP_001817	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+425851	6502	1163	112393	107582	-	RP11-307C12.6	SKP2	CKS1B	FBL1|FBXL1|FLB1|p45	CKS1|PNAS-16|PNAS-18|ckshs1	FRET	physical	Xu S (2007)	PUBMED:17409098	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13309	A0A024R069	NP_116026|NP_001230049|NP_005974	P61024	Q5T178	NP_001817	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+426873	8452	8452	114030	114030	-	-	CUL3	CUL3	CUL-3|PHA2E	CUL-3|PHA2E	FRET	physical	Wimuttisuk W (2007)	PUBMED:17192413	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13618	B7Z600|A0A024R475	NP_001244127|NP_001244126|NP_003581	Q13618	B7Z600|A0A024R475	NP_001244127|NP_001244126|NP_003581	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+429612	829285	829285	14571	14571	AT4G31580	AT4G31580	SRZ-22	SRZ-22	F28M20.230|F28M20_230|RS-CONTAINING ZINC FINGER PROTEIN 22|RSZP22|SRZ22|serine/arginine-rich 22	F28M20.230|F28M20_230|RS-CONTAINING ZINC FINGER PROTEIN 22|RSZP22|SRZ22|serine/arginine-rich 22	FRET	physical	Rausin G (2010)	PUBMED:20237019	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O81126	-	NP_001078474|NP_194886	O81126	-	NP_001078474|NP_194886	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+429613	829285	824712	14571	10028	AT4G31580	AT3G55460	SRZ-22	SCL30	F28M20.230|F28M20_230|RS-CONTAINING ZINC FINGER PROTEIN 22|RSZP22|SRZ22|serine/arginine-rich 22	SC35-like splicing factor 30	FRET	physical	Rausin G (2010)	PUBMED:20237019	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O81126	-	NP_001078474|NP_194886	Q8L3X8	-	NP_567021	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+429614	829285	820559	14571	5893	AT4G31580	AT3G13570	SRZ-22	SCL30A	F28M20.230|F28M20_230|RS-CONTAINING ZINC FINGER PROTEIN 22|RSZP22|SRZ22|serine/arginine-rich 22	SC35-like splicing factor 30A	FRET	physical	Rausin G (2010)	PUBMED:20237019	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O81126	-	NP_001078474|NP_194886	Q9LHP2	-	NP_187966	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+436314	816875	824036	2227	9354	AT2G23430	AT3G48750	ICK1	CDC2	CYCLIN-DEPENDENT KINASE INHIBITOR PROTEIN|F26B6.8|F26B6_8|KIP-RELATED PROTEIN 1|KRP1	CDC2A|CDC2AAT|CDK2|CDKA1|CDKA;1|CYCLIN-DEPENDENT KINASE A;1|P34CDC2|cell division control 2	FRET	physical	Boruc J (2010)	PUBMED:20407024	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q67Y93	-	NP_179924	P24100	-	NP_566911	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+436315	816875	817341	2227	2691	AT2G23430	AT2G27970	ICK1	CKS2	CYCLIN-DEPENDENT KINASE INHIBITOR PROTEIN|F26B6.8|F26B6_8|KIP-RELATED PROTEIN 1|KRP1	CDK-subunit 2|T1E2.11|T1E2_11	FRET	physical	Boruc J (2010)	PUBMED:20407024	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q67Y93	-	NP_179924	Q9SJJ5	-	NP_180364	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+436316	844377	816875	29595	2227	AT1G80370	AT2G23430	CYCA2;4	ICK1	Cyclin A2;4|F5I6.12|F5I6_12	CYCLIN-DEPENDENT KINASE INHIBITOR PROTEIN|F26B6.8|F26B6_8|KIP-RELATED PROTEIN 1|KRP1	FRET	physical	Boruc J (2010)	PUBMED:20407024	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9C968	-	NP_178153	Q67Y93	-	NP_179924	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+437399	816896	816896	2248	2248	AT2G23640	AT2G23640	RTNLB13	RTNLB13	F26B6.29|Reticulan like protein B13	F26B6.29|Reticulan like protein B13	FRET	physical	Sparkes I (2010)	PUBMED:20424177	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O64837	-	NP_565555	O64837	-	NP_565555	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+437400	816896	842713	2248	27934	AT2G23640	AT1G64090	RTNLB13	RTNLB3	F26B6.29|Reticulan like protein B13	F22C12.15|F22C12_15|Reticulan like protein B3	FRET	physical	Sparkes I (2010)	PUBMED:20424177	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O64837	-	NP_565555	Q9SH59	F4I596	NP_001185307|NP_176592	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+437401	816896	834162	2248	19413	AT2G23640	AT5G41600	RTNLB13	BTI3	F26B6.29|Reticulan like protein B13	MBK23.13|MBK23_13|RTNLB4|Reticulan like protein B4|VIRB2-interacting protein 3	FRET	physical	Sparkes I (2010)	PUBMED:20424177	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O64837	-	NP_565555	Q9FFS0	-	NP_198975	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+437402	828463	828463	13752	13752	AT4G23630	AT4G23630	BTI1	BTI1	F9D16.100|F9D16_100|RTNLB1|Reticulan like protein B1|VIRB2-interacting protein 1	F9D16.100|F9D16_100|RTNLB1|Reticulan like protein B1|VIRB2-interacting protein 1	FRET	physical	Sparkes I (2010)	PUBMED:20424177	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SUR3	-	NP_194094	Q9SUR3	-	NP_194094	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+437403	828463	842713	13752	27934	AT4G23630	AT1G64090	BTI1	RTNLB3	F9D16.100|F9D16_100|RTNLB1|Reticulan like protein B1|VIRB2-interacting protein 1	F22C12.15|F22C12_15|Reticulan like protein B3	FRET	physical	Sparkes I (2010)	PUBMED:20424177	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SUR3	-	NP_194094	Q9SH59	F4I596	NP_001185307|NP_176592	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+437404	828463	834162	13752	19413	AT4G23630	AT5G41600	BTI1	BTI3	F9D16.100|F9D16_100|RTNLB1|Reticulan like protein B1|VIRB2-interacting protein 1	MBK23.13|MBK23_13|RTNLB4|Reticulan like protein B4|VIRB2-interacting protein 3	FRET	physical	Sparkes I (2010)	PUBMED:20424177	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SUR3	-	NP_194094	Q9FFS0	-	NP_198975	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+442535	856801	853427	36813	33733	YER070W	YJL026W	RNR1	RNR2	CRT7|RIR1|SDS12|ribonucleotide-diphosphate reductase subunit RNR1|L000001655	CRT6|ribonucleotide-diphosphate reductase subunit RNR2|L000001656	FRET	physical	Nestoras K (2010)	PUBMED:20516199	559292	559292	Low Throughput	-	-	authors show that this interaction is abolished in the absence of functional SPD1 protein	-	BIOGRID	P21524	-	NP_010993	P09938	-	NP_012508	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+445418	853133	5569	33472	111556	YGR218W	-	CRM1	PKIA	KAP124|XPO1|exportin CRM1|L000000420	PRKACN1	Protein-peptide	physical	Koyama M (2010)	PUBMED:20485264	559292	9606	Low Throughput	-	-	Yeast Crm1 interacted with the leucine-rich nuclear export signal (NES) of human PKI alpha (FRET assay).	-	BIOGRID	P30822	-	NP_011734	P61925	A0A024R7Y9	NP_006814|NP_862822	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Homo sapiens
+445865	855224	855224	35364	35364	YMR186W	YMR186W	HSC82	HSC82	HSP90|Hsp90 family chaperone HSC82|L000000813	HSP90|Hsp90 family chaperone HSC82|L000000813	FRET	physical	Retzlaff M (2010)	PUBMED:20159554	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P15108	-	NP_013911	P15108	-	NP_013911	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+445866	855224	851800	35364	32268	YMR186W	YDR214W	HSC82	AHA1	HSP90|Hsp90 family chaperone HSC82|L000000813	-	FRET	physical	Retzlaff M (2010)	PUBMED:20159554	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P15108	-	NP_013911	Q12449	-	NP_010500	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+447426	850530	853503	31131	33797	YFL016C	YJR045C	MDJ1	SSC1	L000001048	ENS1|Hsp70 family ATPase SSC1|mtHSP70|L000000561	FRET	physical	Mapa K (2010)	PUBMED:20385092	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P35191	-	NP_116638	P0CS90	-	NP_012579	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+449003	3303	6622	109535	112506	DAQB-147D11.1	-	HSPA1A	SNCA	HEL-S-103|HSP70-1|HSP70-1A|HSP70I|HSP72|HSPA1	NACP|PARK1|PARK4|PD1	FRET	physical	Roodveldt C (2009)	PUBMED:19875982	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P08107	A8K5I0|B3KTT5	NP_005336	P37840	H6UYS5	NP_000336|NP_009292|NP_001362216|NP_001362217|NP_001362214|NP_001362215|NP_001139526|NP_001139527	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+449004	3303	6620	109535	112504	DAQB-147D11.1	-	HSPA1A	SNCB	HEL-S-103|HSP70-1|HSP70-1A|HSP70I|HSP72|HSPA1	-	FRET	physical	Roodveldt C (2009)	PUBMED:19875982	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P08107	A8K5I0|B3KTT5	NP_005336	Q16143	-	NP_003076|NP_001304964|NP_001304965|NP_001304966|NP_001001502|NP_001304963	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+452561	824355	827527	9673	12820	AT3G51920	AT4G18020	CAM9	APRR2	ATCML9|CALMODULIN 9|CALMODULIN LIKE PROTEIN 9|CML9	PRR2|PSEUDO-RESPONSE REGULATOR 2|T6K21.200|T6K21_200	FRET	physical	Perochon A (2010)	PUBMED:20627089	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9S744	-	NP_190760	Q6LA43	-	NP_001190759|NP_567548|NP_001078405|NP_001154250|NP_849404|NP_849403	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+458017	7157	1387	113010	107777	-	-	TP53	CREBBP	BCC7|LFS1|P53|TRP53	CBP|KAT3A|RSTS	FRET	physical	Jenkins LM (2009)	PUBMED:19166313	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	Q92793	-	NP_001073315|NP_004371	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+458043	6252	55869	112165	120968	-	CDA07	RTN1	HDAC8	NSP	CDLS5|HD8|HDACL1|MRXS6|RPD3|WTS	FRET	physical	Melino S (2009)	PUBMED:19140693	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q16799	A8K3B9	NP_996734|NP_066959	Q9BY41	-	NP_001159894|NP_001159890|NP_001159891|NP_001159892|NP_001159920|NP_060956	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+458073	672	7341	107140	113188	-	OK/SW-cl.43	BRCA1	SUMO1	BRCAI|BRCC1|BROVCA1|FANCS|IRIS|PNCA4|PPP1R53|PSCP|RNF53	DAP1|GMP1|OFC10|PIC1|SENP2|SMT3|SMT3C|SMT3H3|UBL1	FRET	physical	Morris JR (2009)	PUBMED:20016594	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P38398	E9PFZ0|A0A024R1V0	NP_009229|NP_009228|NP_009230|NP_009231|NP_009225	P63165	A0A024R3Z2	NP_001358323|NP_001358322|NP_001358321|NP_001005782|NP_001005781|NP_003343	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+458074	672	7329	107140	113177	-	LA16c-358B7.1	BRCA1	UBE2I	BRCAI|BRCC1|BROVCA1|FANCS|IRIS|PNCA4|PPP1R53|PSCP|RNF53	C358B7.1|P18|UBC9	FRET	physical	Morris JR (2009)	PUBMED:20016594	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P38398	E9PFZ0|A0A024R1V0	NP_009229|NP_009228|NP_009230|NP_009231|NP_009225	P63279	B0QYN7|A8K503	NP_003336|NP_919236|NP_919237|NP_919235	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+458945	852385	850658	32794	31249	YBR088C	YLL002W	POL30	RTT109	proliferating cell nuclear antigen|PCNA|L000001463	KIM2|REM50|H3 histone acetyltransferase RTT109|KAT11|L000003932	FRET	physical	Miller A (2010)	PUBMED:20813847	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P15873	-	NP_009645	Q07794	-	NP_013099	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+458946	852385	851762	32794	32235	YBR088C	YDR181C	POL30	SAS4	proliferating cell nuclear antigen|PCNA|L000001463	L000004214	FRET	physical	Miller A (2010)	PUBMED:20813847	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P15873	-	NP_009645	Q04003	-	NP_010467	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+458947	852385	854388	32794	34608	YBR088C	YOR213C	POL30	SAS5	proliferating cell nuclear antigen|PCNA|L000001463	L000004215	FRET	physical	Miller A (2010)	PUBMED:20813847	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P15873	-	NP_009645	Q99314	-	NP_014856	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+463162	855496	853824	35611	34090	YNL225C	YKL042W	CNM67	SPC42	L000004012	L000004148	FRET	physical	Mathieson EM (2010)	PUBMED:20826607	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53865	-	NP_014174	P36094	-	NP_012882	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+463163	854349	855496	34572	35611	YOR177C	YNL225C	MPC54	CNM67	-	L000004012	FRET	physical	Mathieson EM (2010)	PUBMED:20826607	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q08550	-	NP_014820	P53865	-	NP_014174	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+463164	854062	855496	34311	35611	YOL091W	YNL225C	SPO21	CNM67	MPC70|L000004853	L000004012	FRET	physical	Mathieson EM (2010)	PUBMED:20826607	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q12411	-	NP_014550	P53865	-	NP_014174	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+463165	854349	854062	34572	34311	YOR177C	YOL091W	MPC54	SPO21	-	MPC70|L000004853	FRET	physical	Mathieson EM (2010)	PUBMED:20826607	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q08550	-	NP_014820	Q12411	-	NP_014550	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+463166	854349	854349	34572	34572	YOR177C	YOR177C	MPC54	MPC54	-	-	FRET	physical	Mathieson EM (2010)	PUBMED:20826607	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q08550	-	NP_014820	Q08550	-	NP_014820	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+463167	854062	854062	34311	34311	YOL091W	YOL091W	SPO21	SPO21	MPC70|L000004853	MPC70|L000004853	FRET	physical	Mathieson EM (2010)	PUBMED:20826607	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q12411	-	NP_014550	Q12411	-	NP_014550	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+463168	854062	854349	34311	34572	YOL091W	YOR177C	SPO21	MPC54	MPC70|L000004853	-	FRET	physical	Mathieson EM (2010)	PUBMED:20826607	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q12411	-	NP_014550	Q08550	-	NP_014820	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+471599	6010	6010	111942	111942	-	-	RHO	RHO	CSNBAD1|OPN2|RP4	CSNBAD1|OPN2|RP4	FRET	physical	Rajan RS (2005)	PUBMED:15509574	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P08100	-	NP_000530	P08100	-	NP_000530	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+477831	4615	3665	110700	109873	-	-	MYD88	IRF7	MYD88D	IRF-7H|IRF7A|IRF7B|IRF7C|IRF7H	FRET	physical	Kawai T (2004)	PUBMED:15361868	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q99836	-	NP_002459|NP_001166039|NP_001166038|NP_001166040|NP_001166037	Q92985	A0A024RCA2|M9RSF4	NP_004022|NP_004020|NP_001563	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+478404	1812	11255	108146	116416	-	-	DRD1	HRH3	DADR|DRD1A	GPCR97|HH3R	FRET	physical	Ferrada C (2009)	PUBMED:19413572	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P21728	-	NP_000785	Q9Y5N1	-	NP_009163	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+483214	2099	84458	108403	124093	RP1-130E4.1	-	ESR1	LCOR	ER|ESR|ESRA|ESTRR|Era|NR3A1	MLR2	FRET	physical	Fernandes I (2003)	PUBMED:12535528	9606	9606	Low Throughput	-	-	Bioluminescence resonance energy transfer	-	BIOGRID	P03372	Q9UBT1|G4XH65|A8KAF4	NP_001116213|NP_000116|NP_001278159|NP_001278170|NP_001116212|NP_001116214	Q96JN0	-	NP_001333445|NP_115816|NP_001164236|NP_001164237	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+503951	919	156110	107357	1205545	RP11-104L21.1	HIV1gp9	CD247	nef	CD3-ZETA|CD3H|CD3Q|CD3Z|IMD25|T3Z|TCRZ	-	FRET	physical	Banning C (2010)	PUBMED:20179761	9606	11676	Low Throughput	-	-	HIV 1: Nef Protein	-	BIOGRID	P20963	-	NP_000725|NP_932170	P04601	-	NP_057857	-	-	-	-	-	-	Homo sapiens	Human Immunodeficiency Virus 1
+503952	919	155945	107357	1205543	RP11-104L21.1	HIV1gp7	CD247	vpu	CD3-ZETA|CD3H|CD3Q|CD3Z|IMD25|T3Z|TCRZ	-	FRET	physical	Banning C (2010)	PUBMED:20179761	9606	11676	Low Throughput	-	-	HIV 1: Protein Vpu	-	BIOGRID	P20963	-	NP_000725|NP_932170	-	-	NP_057855	-	-	-	-	-	-	Homo sapiens	Human Immunodeficiency Virus 1
+503953	920	156110	107358	1205545	-	HIV1gp9	CD4	nef	CD4mut	-	FRET	physical	Banning C (2010)	PUBMED:20179761	9606	11676	Low Throughput	-	-	HIV 1: Nef Protein	-	BIOGRID	P01730	B0AZV7|B4DT49	NP_001181943|NP_001369634|NP_001181946|NP_001181945|NP_001181944|NP_000607|NP_001369635	P04601	-	NP_057857	-	-	-	-	-	-	Homo sapiens	Human Immunodeficiency Virus 1
+503954	920	155945	107358	1205543	-	HIV1gp7	CD4	vpu	CD4mut	-	FRET	physical	Banning C (2010)	PUBMED:20179761	9606	11676	Low Throughput	-	-	HIV 1: Protein Vpu	-	BIOGRID	P01730	B0AZV7|B4DT49	NP_001181943|NP_001369634|NP_001181946|NP_001181945|NP_001181944|NP_000607|NP_001369635	-	-	NP_057855	-	-	-	-	-	-	Homo sapiens	Human Immunodeficiency Virus 1
+503955	684	155945	107149	1205543	-	HIV1gp7	BST2	vpu	CD317|TETHERIN	-	FRET	physical	Banning C (2010)	PUBMED:20179761	9606	11676	Low Throughput	-	-	HIV 1: Protein Vpu	-	BIOGRID	Q10589	A0A024R7H5	NP_004326	-	-	NP_057855	-	-	-	-	-	-	Homo sapiens	Human Immunodeficiency Virus 1
+503956	155908	155908	1205542	1205542	HIV1gp6	HIV1gp6	rev	rev	-	-	FRET	physical	Banning C (2010)	PUBMED:20179761	11676	11676	Low Throughput	-	-	HIV 1: Protein Rev	-	BIOGRID	P04618	-	NP_057854	P04618	-	NP_057854	-	-	-	-	-	-	Human Immunodeficiency Virus 1	Human Immunodeficiency Virus 1
+503968	155459	1656	1205539	108022	HIV1gp3	-	vif	DDX6	-	HLR2|P54|RCK	FRET	physical	Mehle A (2007)	PUBMED:17898068	11676	9606	Low Throughput	-	-	-	-	BIOGRID	P69723|P69721|P69720	-	NP_057851	P26196	B2R858	NP_001244120|NP_004388	-	-	-	-	-	-	Human Immunodeficiency Virus 1	Homo sapiens
+503994	155030	60	1205537	106575	HIV1gp2	-	gag	ACTB	-	BRWS1|PS1TP5BP1	FRET	physical	Poole E (2005)	PUBMED:16101678	11676	9606	Low Throughput	-	-	-	-	BIOGRID	P04591	-	NP_057850	P60709	Q1KLZ0|B3KWQ3	NP_001092	-	-	-	-	-	-	Human Immunodeficiency Virus 1	Homo sapiens
+503995	155030	71	1205537	106586	HIV1gp2	-	gag	ACTG1	-	ACT|ACTG|BRWS2|DFNA20|DFNA26|HEL-176	FRET	physical	Poole E (2005)	PUBMED:16101678	11676	9606	Low Throughput	-	-	-	-	BIOGRID	P04591	-	NP_057850	P63261	-	NP_001186883|NP_001605	-	-	-	-	-	-	Human Immunodeficiency Virus 1	Homo sapiens
+504118	2885	867	109142	107315	-	-	GRB2	CBL	ASH|EGFRBP-GRB2|Grb3-3|MST084|MSTP084|NCKAP2	C-CBL|CBL2|FRA11B|NSLL|RNF55	FRET	physical	Jiang X (2003)	PUBMED:12839496	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P62993	B0LPF3	NP_002077|NP_987102	P22681	-	NP_005179	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506165	2100	8648	108404	114200	-	-	ESR2	NCOA1	ER-BETA|ESR-BETA|ESRB|ESTRB|Erb|NR3A2	F-SRC-1|KAT13A|RIP160|SRC1|bHLHe42|bHLHe74	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system|microsphere-based system and FRET	-	BIOGRID	Q92731	Q0PTK2|Q7LCB3|F1D8N3	NP_001201832|NP_001428|NP_001201831|NP_001278641|NP_001035365|NP_001278652|NP_001258805|NP_001258806	Q15788	-	NP_001349879|NP_003734|NP_001349884|NP_671766|NP_671756|NP_001349881|NP_001349883	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506166	2100	10499	108404	115761	-	-	ESR2	NCOA2	ER-BETA|ESR-BETA|ESRB|ESTRB|Erb|NR3A2	GRIP1|KAT13C|NCoA-2|SRC2|TIF2|bHLHe75	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system|microsphere-based system and FRET	-	BIOGRID	Q92731	Q0PTK2|Q7LCB3|F1D8N3	NP_001201832|NP_001428|NP_001201831|NP_001278641|NP_001035365|NP_001278652|NP_001258805|NP_001258806	Q15596	-	NP_006531|NP_001308641|NP_001308640|NP_001308642|NP_001308636|NP_001308632	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506167	2100	5469	108404	111465	-	-	ESR2	MED1	ER-BETA|ESR-BETA|ESRB|ESTRB|Erb|NR3A2	CRSP1|CRSP200|DRIP205|DRIP230|PBP|PPARBP|PPARGBP|RB18A|TRAP220|TRIP2	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	Q92731	Q0PTK2|Q7LCB3|F1D8N3	NP_001201832|NP_001428|NP_001201831|NP_001278641|NP_001035365|NP_001278652|NP_001258805|NP_001258806	Q15648	-	NP_004765	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506168	2100	9326	108404	114736	-	-	ESR2	ZNHIT3	ER-BETA|ESR-BETA|ESRB|ESTRB|Erb|NR3A2	TRIP3	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	Q92731	Q0PTK2|Q7LCB3|F1D8N3	NP_001201832|NP_001428|NP_001201831|NP_001278641|NP_001035365|NP_001278652|NP_001258805|NP_001258806	Q15649	A0A024R0X8	NP_001268363|NP_001268362|NP_001268361|NP_004764	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506169	2100	9325	108404	114735	-	-	ESR2	TRIP4	ER-BETA|ESR-BETA|ESRB|ESTRB|Erb|NR3A2	ASC-1|ASC1|HsT17391|ZC2HC5	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	Q92731	Q0PTK2|Q7LCB3|F1D8N3	NP_001201832|NP_001428|NP_001201831|NP_001278641|NP_001035365|NP_001278652|NP_001258805|NP_001258806	Q15650	-	NP_057297|NP_001308853	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506170	2100	221037	108404	128677	-	RP11-10C13.2	ESR2	JMJD1C	ER-BETA|ESR-BETA|ESRB|ESTRB|Erb|NR3A2	TRIP8	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	Q92731	Q0PTK2|Q7LCB3|F1D8N3	NP_001201832|NP_001428|NP_001201831|NP_001278641|NP_001035365|NP_001278652|NP_001258805|NP_001258806	Q15652	B7ZLC8	NP_001305082|NP_001305083|NP_001309181|NP_001309183|NP_001309187|NP_001269877|NP_116165	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506171	2100	4793	108404	110860	-	-	ESR2	NFKBIB	ER-BETA|ESR-BETA|ESRB|ESTRB|Erb|NR3A2	IKBB|TRIP9	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	Q92731	Q0PTK2|Q7LCB3|F1D8N3	NP_001201832|NP_001428|NP_001201831|NP_001278641|NP_001035365|NP_001278652|NP_001258805|NP_001258806	Q15653	G5E9C2	NP_002494|NP_001230045	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506172	2100	8204	108404	113843	-	-	ESR2	NRIP1	ER-BETA|ESR-BETA|ESRB|ESTRB|Erb|NR3A2	RIP140	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	Q92731	Q0PTK2|Q7LCB3|F1D8N3	NP_001201832|NP_001428|NP_001201831|NP_001278641|NP_001035365|NP_001278652|NP_001258805|NP_001258806	P48552	A8K171	NP_003480	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506173	2100	871	108404	107318	-	PIG14	ESR2	SERPINH1	ER-BETA|ESR-BETA|ESRB|ESTRB|Erb|NR3A2	AsTP3|CBP1|CBP2|HSP47|OI10|PPROM|RA-A47|SERPINH2|gp46	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	Q92731	Q0PTK2|Q7LCB3|F1D8N3	NP_001201832|NP_001428|NP_001201831|NP_001278641|NP_001035365|NP_001278652|NP_001258805|NP_001258806	P50454	A0A024R5K8|A8K259	NP_001226|NP_001193943	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506174	2100	8805	108404	114333	-	-	ESR2	TRIM24	ER-BETA|ESR-BETA|ESRB|ESTRB|Erb|NR3A2	PTC6|RNF82|TF1A|TIF1|TIF1A|TIF1ALPHA|hTIF1	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	Q92731	Q0PTK2|Q7LCB3|F1D8N3	NP_001201832|NP_001428|NP_001201831|NP_001278641|NP_001035365|NP_001278652|NP_001258805|NP_001258806	O15164	A0A024R784	NP_003843|NP_056989	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506175	2100	8202	108404	113841	-	RP5-1049G16.3	ESR2	NCOA3	ER-BETA|ESR-BETA|ESRB|ESTRB|Erb|NR3A2	ACTR|AIB-1|AIB1|CAGH16|CTG26|KAT13B|RAC3|SRC-3|SRC3|TNRC14|TNRC16|TRAM-1|bHLHe42|pCIP	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	Q92731	Q0PTK2|Q7LCB3|F1D8N3	NP_001201832|NP_001428|NP_001201831|NP_001278641|NP_001035365|NP_001278652|NP_001258805|NP_001258806	Q9Y6Q9	Q59EE8	NP_006525|NP_001167558|NP_858045|NP_001167559	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506176	2100	2033	108404	108347	-	RP1-85F18.1	ESR2	EP300	ER-BETA|ESR-BETA|ESRB|ESTRB|Erb|NR3A2	KAT3B|RSTS2|p300	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	Q92731	Q0PTK2|Q7LCB3|F1D8N3	NP_001201832|NP_001428|NP_001201831|NP_001278641|NP_001035365|NP_001278652|NP_001258805|NP_001258806	Q09472	Q7Z6C1	NP_001349772|NP_001420	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506177	5468	5469	111464	111465	-	-	PPARG	MED1	CIMT1|GLM1|NR1C3|PPARG1|PPARG2|PPARgamma	CRSP1|CRSP200|DRIP205|DRIP230|PBP|PPARBP|PPARGBP|RB18A|TRAP220|TRIP2	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	P37231	D2KUA6	NP_056953|NP_619725|NP_005028|NP_619726	Q15648	-	NP_004765	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506178	5468	9326	111464	114736	-	-	PPARG	ZNHIT3	CIMT1|GLM1|NR1C3|PPARG1|PPARG2|PPARgamma	TRIP3	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	P37231	D2KUA6	NP_056953|NP_619725|NP_005028|NP_619726	Q15649	A0A024R0X8	NP_001268363|NP_001268362|NP_001268361|NP_004764	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506179	5468	9325	111464	114735	-	-	PPARG	TRIP4	CIMT1|GLM1|NR1C3|PPARG1|PPARG2|PPARgamma	ASC-1|ASC1|HsT17391|ZC2HC5	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	P37231	D2KUA6	NP_056953|NP_619725|NP_005028|NP_619726	Q15650	-	NP_057297|NP_001308853	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506180	5468	221037	111464	128677	-	RP11-10C13.2	PPARG	JMJD1C	CIMT1|GLM1|NR1C3|PPARG1|PPARG2|PPARgamma	TRIP8	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	P37231	D2KUA6	NP_056953|NP_619725|NP_005028|NP_619726	Q15652	B7ZLC8	NP_001305082|NP_001305083|NP_001309181|NP_001309183|NP_001309187|NP_001269877|NP_116165	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506181	5468	4793	111464	110860	-	-	PPARG	NFKBIB	CIMT1|GLM1|NR1C3|PPARG1|PPARG2|PPARgamma	IKBB|TRIP9	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	P37231	D2KUA6	NP_056953|NP_619725|NP_005028|NP_619726	Q15653	G5E9C2	NP_002494|NP_001230045	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506182	5468	8204	111464	113843	-	-	PPARG	NRIP1	CIMT1|GLM1|NR1C3|PPARG1|PPARG2|PPARgamma	RIP140	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	P37231	D2KUA6	NP_056953|NP_619725|NP_005028|NP_619726	P48552	A8K171	NP_003480	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506183	5468	871	111464	107318	-	PIG14	PPARG	SERPINH1	CIMT1|GLM1|NR1C3|PPARG1|PPARG2|PPARgamma	AsTP3|CBP1|CBP2|HSP47|OI10|PPROM|RA-A47|SERPINH2|gp46	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	P37231	D2KUA6	NP_056953|NP_619725|NP_005028|NP_619726	P50454	A0A024R5K8|A8K259	NP_001226|NP_001193943	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506184	5468	8648	111464	114200	-	-	PPARG	NCOA1	CIMT1|GLM1|NR1C3|PPARG1|PPARG2|PPARgamma	F-SRC-1|KAT13A|RIP160|SRC1|bHLHe42|bHLHe74	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	P37231	D2KUA6	NP_056953|NP_619725|NP_005028|NP_619726	Q15788	-	NP_001349879|NP_003734|NP_001349884|NP_671766|NP_671756|NP_001349881|NP_001349883	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506185	5468	8805	111464	114333	-	-	PPARG	TRIM24	CIMT1|GLM1|NR1C3|PPARG1|PPARG2|PPARgamma	PTC6|RNF82|TF1A|TIF1|TIF1A|TIF1ALPHA|hTIF1	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	P37231	D2KUA6	NP_056953|NP_619725|NP_005028|NP_619726	O15164	A0A024R784	NP_003843|NP_056989	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506186	5468	10499	111464	115761	-	-	PPARG	NCOA2	CIMT1|GLM1|NR1C3|PPARG1|PPARG2|PPARgamma	GRIP1|KAT13C|NCoA-2|SRC2|TIF2|bHLHe75	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	P37231	D2KUA6	NP_056953|NP_619725|NP_005028|NP_619726	Q15596	-	NP_006531|NP_001308641|NP_001308640|NP_001308642|NP_001308636|NP_001308632	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506187	5468	8202	111464	113841	-	RP5-1049G16.3	PPARG	NCOA3	CIMT1|GLM1|NR1C3|PPARG1|PPARG2|PPARgamma	ACTR|AIB-1|AIB1|CAGH16|CTG26|KAT13B|RAC3|SRC-3|SRC3|TNRC14|TNRC16|TRAM-1|bHLHe42|pCIP	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	P37231	D2KUA6	NP_056953|NP_619725|NP_005028|NP_619726	Q9Y6Q9	Q59EE8	NP_006525|NP_001167558|NP_858045|NP_001167559	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+506188	5468	2033	111464	108347	-	RP1-85F18.1	PPARG	EP300	CIMT1|GLM1|NR1C3|PPARG1|PPARG2|PPARgamma	KAT3B|RSTS2|p300	FRET	physical	Iannone MA (2001)	PUBMED:11500849	9606	9606	Low Throughput	-	-	microsphere-based system	-	BIOGRID	P37231	D2KUA6	NP_056953|NP_619725|NP_005028|NP_619726	Q09472	Q7Z6C1	NP_001349772|NP_001420	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+513016	5914	8648	111849	114200	-	-	RARA	NCOA1	NR1B1|RAR	F-SRC-1|KAT13A|RIP160|SRC1|bHLHe42|bHLHe74	FRET	physical	Llopis J (2000)	PUBMED:10760302	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P10276	A8MUP8|A8K840|F1D8N9|Q6I9R7	NP_000955|NP_001138774|NP_001019980|NP_001138773	Q15788	-	NP_001349879|NP_003734|NP_001349884|NP_671766|NP_671756|NP_001349881|NP_001349883	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+513017	2099	8648	108403	114200	RP1-130E4.1	-	ESR1	NCOA1	ER|ESR|ESRA|ESTRR|Era|NR3A1	F-SRC-1|KAT13A|RIP160|SRC1|bHLHe42|bHLHe74	FRET	physical	Llopis J (2000)	PUBMED:10760302	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P03372	Q9UBT1|G4XH65|A8KAF4	NP_001116213|NP_000116|NP_001278159|NP_001278170|NP_001116212|NP_001116214	Q15788	-	NP_001349879|NP_003734|NP_001349884|NP_671766|NP_671756|NP_001349881|NP_001349883	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+513022	5914	5469	111849	111465	-	-	RARA	MED1	NR1B1|RAR	CRSP1|CRSP200|DRIP205|DRIP230|PBP|PPARBP|PPARGBP|RB18A|TRAP220|TRIP2	FRET	physical	Llopis J (2000)	PUBMED:10760302	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P10276	A8MUP8|A8K840|F1D8N9|Q6I9R7	NP_000955|NP_001138774|NP_001019980|NP_001138773	Q15648	-	NP_004765	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+513023	2099	5469	108403	111465	RP1-130E4.1	-	ESR1	MED1	ER|ESR|ESRA|ESTRR|Era|NR3A1	CRSP1|CRSP200|DRIP205|DRIP230|PBP|PPARBP|PPARGBP|RB18A|TRAP220|TRIP2	FRET	physical	Llopis J (2000)	PUBMED:10760302	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P03372	Q9UBT1|G4XH65|A8KAF4	NP_001116213|NP_000116|NP_001278159|NP_001278170|NP_001116212|NP_001116214	Q15648	-	NP_004765	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+513124	856478	856478	36513	36513	YHR079C	YHR079C	IRE1	IRE1	ERN1|bifunctional endoribonuclease/protein kinase IRE1|L000000875	ERN1|bifunctional endoribonuclease/protein kinase IRE1|L000000875	FRET	physical	Pincus D (2010)	PUBMED:20625545	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32361	-	NP_011946	P32361	-	NP_011946	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+518340	850712	850712	31299	31299	YLR025W	YLR025W	SNF7	SNF7	DID1|RNS4|VPL5|VPS32|ESCRT-III subunit protein SNF7|L000001950	DID1|RNS4|VPL5|VPS32|ESCRT-III subunit protein SNF7|L000001950	FRET	physical	Teis D (2008)	PUBMED:18854142	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P39929	-	NP_013125	P39929	-	NP_013125	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+518884	853986	851624	34242	32107	YOL133W	YDR054C	HRT1	CDC34	HRT2|RBX1|ROC1|SCF ubiquitin ligase complex subunit HRT1|L000004443	DNA6|UBC3|SCF E2 ubiquitin-protein ligase catalytic subunit CDC34|L000000271	FRET	physical	Kleiger G (2009)	PUBMED:19945379	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q08273	-	NP_014508	P14682	-	NP_010339	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+522038	21849	12412	204197	198534	-	RP23-353J21.1	Trim28	Cbx1	AA408787|KAP-1|KRIP-1|MommeD9|Tif1b|Tif1beta	Cbx|Cbx-rs2|E430007M08Rik|HP1B|Hp1beta|M31|MOD1	FRET	physical	Cammas F (2007)	PUBMED:17381543	10090	10090	Low Throughput	-	-	-	-	BIOGRID	Q62318	Q5EBP9	NP_035718	P83917	-	NP_031648	-	-	-	-	-	-	Mus musculus	Mus musculus
+522039	21849	12417	204197	198536	-	-	Trim28	Cbx3	AA408787|KAP-1|KRIP-1|MommeD9|Tif1b|Tif1beta	HP1g|M32	FRET	physical	Cammas F (2007)	PUBMED:17381543	10090	10090	Low Throughput	-	-	-	-	BIOGRID	Q62318	Q5EBP9	NP_035718	-	Q9DCC5|Q32P00	NP_031650	-	-	-	-	-	-	Mus musculus	Mus musculus
+522199	129685	9913	126205	115242	-	-	TAF8	SUPT7L	43|II|TAF|TAFII-43|TAFII43|TBN	SPT7L|STAF65|STAF65(gamma)|STAF65G|SUPT7H	FRET	physical	Demeny MA (2007)	PUBMED:17375202	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q7Z7C8	-	NP_612639	O94864	-	NP_001269658|NP_001269660|NP_001269661|NP_055675|NP_001269659	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+532201	2541522	2540578	278023	277104	SPAC23E2.01	SPBC26H8.06	fep1	grx4	gaf2	-	FRET	physical	Kim KD (2011)	PUBMED:21531205	284812	284812	Low Throughput	-	-	Bimolecular fluorescence complementation (BiFC) analysis	-	BIOGRID	Q10134	-	NP_592936	O74790	-	NP_596647	-	-	-	-	-	-	Schizosaccharomyces pombe (972h)	Schizosaccharomyces pombe (972h)
+533474	843133	816408	28354	1765	AT1G68050	AT2G18915	FKF1	LKP2	ADO3|T23K23.10|T23K23_10|f box 1|flavin-binding|kelch repeat	ADAGIO 2|ADO2|LOV KELCH protein 2	FRET	physical	Takase T (2011)	PUBMED:21518052	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9C9W9	-	NP_564919	Q8W420	-	NP_849983|NP_565444	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+535026	843693	834213	28912	19463	AT1G73590	AT5G42080	PIN1	DL1	ARABIDOPSIS THALIANA PIN-FORMED 1|ATPIN1|F6D5.2|F6D5_2|PIN-FORMED 1	ADL1|ADL1A|AG68|DRP1A|DYNAMIN-RELATED PROTEIN 1A|MJC20.19|MJC20_19|RADIAL SWELLING 9|RSW9|dynamin-like protein	FRET	physical	Mravec J (2011)	PUBMED:21658946	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9C6B8	-	NP_177500	P42697	F4K015	NP_001190448|NP_568602|NP_851120	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+544606	2540020	2540847	276564	277364	SPBC16D10.09	SPBC428.18	pcn1	cdt1	pcn	-	FRET	physical	Guarino E (2011)	PUBMED:21493688	284812	284812	Low Throughput	-	-	Bimolecular fluorescence complementation (BiFC)	-	BIOGRID	Q03392	-	NP_596504	P40382	-	NP_595196	-	-	-	-	-	-	Schizosaccharomyces pombe (972h)	Schizosaccharomyces pombe (972h)
+553898	828715	837516	14002	22757	AT4G26090	AT1G09840	RPS2	SK41	DISEASE RESISTANCE PROTEIN RPS2|F20B18.200|F20B18_200|RESISTANT TO P. SYRINGAE 2	ATSK41|F21M12.23|F21M12_23|shaggy-like protein kinase 41	FRET	physical	Qi Y (2011)	PUBMED:21757708	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q42484	-	NP_194339	Q39019	-	NP_849627|NP_973801|NP_001077499|NP_001077498|NP_172455|NP_001031013	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+555661	6622	7316	112506	113164	-	-	SNCA	UBC	NACP|PARK1|PARK4|PD1	HMG20	FRET	physical	Sharma N (2001)	PUBMED:11603807	9606	9606	Low Throughput	-	-	#LPPI|FRET study is equivocal with respect to interaction type between SNCA and ubiquitin (covalent/non-covalent)|Likely protein-protein interaction	-	BIOGRID	P37840	H6UYS5	NP_000336|NP_009292|NP_001362216|NP_001362217|NP_001362214|NP_001362215|NP_001139526|NP_001139527	P0CG48	-	NP_066289	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+558287	6047	6047	111974	111974	RES4-26	RES4-26	RNF4	RNF4	SLX5|SNURF	SLX5|SNURF	FRET	physical	Plechanovova A (2011)	PUBMED:21857666	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P78317	-	NP_001171939|NP_001171938|NP_002929	P78317	-	NP_001171939|NP_001171938|NP_002929	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+558341	856294	851713	36338	32190	YPR165W	YDR135C	RHO1	YCF1	Rho family GTPase RHO1|L000001630	ATP-binding cassette glutathione S-conjugate transporter YCF1|L000002499	FRET	physical	Lee ME (2011)	PUBMED:21625004	559292	559292	Low Throughput	-	-	interaction detected by BiFC	-	BIOGRID	P06780	-	NP_015491	P39109	-	NP_010419	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+558932	10048	7189	115359	113041	-	-	RANBP9	TRAF6	BPM-L|BPM90|RANBPM|RanBP7	MGC:3310|RNF85	FRET	physical	Wang L (2011)	PUBMED:21805090	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q96S59	A0A024QZW3	NP_005484	Q9Y4K3	-	NP_004611|NP_665802	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+560336	836185	839115	21429	24352	AT5G60640	AT1G25310	PDIL1-4	MEE8	ARABIDOPSIS THALIANA PROTEIN DISULFIDE ISOMERASE 2|ATPDI2|ATPDIL1-4|MUP24.6|MUP24_6|PDI-like 1-4|PDI2|PROTEIN DISULFIDE ISOMERASE 2	F4F7.30|F4F7_30|maternal effect embryo arrest 8	FRET	physical	Cho EJ (2011)	PUBMED:21909944	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FF55	F4K0F7|F4K0F5	NP_568926|NP_851234|NP_001190581	Q9FRI0	-	NP_173902	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+561811	831327	842669	16604	27890	AT5G14750	AT1G63650	MYB66	EGL3	ATMYB66|T9L3.50|T9L3_50|WER|WER1|WEREWOLF|WEREWOLF 1|myb domain protein 66	ATMYC-2|EGL1|ENHANCER OF GLABRA 3|F24D7.16|F24D7_16	FRET	physical	Song SK (2011)	PUBMED:21914815	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SEI0	C0SVP6	NP_196979	Q9CAD0	C0SV14	NP_176552|NP_001185302|NP_974080	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+561812	831327	834133	16604	19384	AT5G14750	AT5G41315	MYB66	GL3	ATMYB66|T9L3.50|T9L3_50|WER|WER1|WEREWOLF|WEREWOLF 1|myb domain protein 66	GLABRA 3|GLABROUS 3|MYC6.2	FRET	physical	Song SK (2011)	PUBMED:21914815	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SEI0	C0SVP6	NP_196979	Q9FN69	-	NP_680372	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+561813	819249	842669	4584	27890	AT2G46410	AT1G63650	CPC	EGL3	CAPRICE|F11C10.10|MYB FAMILY TRANSCRIPTION FACTOR CPC	ATMYC-2|EGL1|ENHANCER OF GLABRA 3|F24D7.16|F24D7_16	FRET	physical	Song SK (2011)	PUBMED:21914815	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O22059	-	NP_182164	Q9CAD0	C0SV14	NP_176552|NP_001185302|NP_974080	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+561814	819249	834133	4584	19384	AT2G46410	AT5G41315	CPC	GL3	CAPRICE|F11C10.10|MYB FAMILY TRANSCRIPTION FACTOR CPC	GLABRA 3|GLABROUS 3|MYC6.2	FRET	physical	Song SK (2011)	PUBMED:21914815	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O22059	-	NP_182164	Q9FN69	-	NP_680372	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+564475	4609	4149	110694	110319	-	-	MYC	MAX	MRTL|MYCC|bHLHe39|c-Myc	bHLHd4	FRET	physical	Koch HB (2007)	PUBMED:17314511	9606	9606	Low Throughput	-	-	BIFC assay	-	BIOGRID	P01106	-	NP_002458|NP_001341799	P61244	Q8TAX8|A0A024R682	NP_660088|NP_660089|NP_002373|NP_932061|NP_660087|NP_001257998|NP_001257997	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+565956	7329	7341	113177	113188	LA16c-358B7.1	OK/SW-cl.43	UBE2I	SUMO1	C358B7.1|P18|UBC9	DAP1|GMP1|OFC10|PIC1|SENP2|SMT3|SMT3C|SMT3H3|UBL1	FRET	physical	Song Y (2011)	PUBMED:21174150	9606	9606	Low Throughput	-	-	#LPPI|Likely protein-protein interaction	-	BIOGRID	P63279	B0QYN7|A8K503	NP_003336|NP_919236|NP_919237|NP_919235	P63165	A0A024R3Z2	NP_001358323|NP_001358322|NP_001358321|NP_001005782|NP_001005781|NP_003343	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+566988	27339	112399	118151	125185	-	-	PRPF19	EGLN3	NMP200|PRP19|PSO4|SNEV|UBOX4|hPSO4	HIFP4H3|HIFPH3|PHD3	FRET	physical	Sato M (2010)	PUBMED:20599946	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UMS4	-	NP_055317	Q9H6Z9	F8W1G2	NP_001295032|NP_071356	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+568952	3551	10987	109767	116183	-	-	IKBKB	COPS5	IKK-beta|IKK2|IKKB|IMD15|NFKBIKB	CSN5|JAB1|MOV-34|SGN5	FRET	physical	Orel L (2010)	PUBMED:19656241	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O14920	-	NP_001547|NP_001177649|NP_001229707	Q92905	A0A024R7W9	NP_006828	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+569023	155807	155807	1205540	1205540	HIV1gp4	HIV1gp4	vpr	vpr	-	-	FRET	physical	Belzile JP (2010)	PUBMED:20824083	11676	11676	Low Throughput	-	-	HIV 1: Protein Vpr	-	BIOGRID	-	-	NP_057852	-	-	NP_057852	-	-	-	-	-	-	Human Immunodeficiency Virus 1	Human Immunodeficiency Virus 1
+571439	6188	4193	112102	110358	OK/SW-cl.26	-	RPS3	MDM2	S3	ACTFS|HDMX|hdm2	FRET	physical	Yadavilli S (2009)	PUBMED:19656744	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P23396	-	NP_001247435|NP_001247436|NP_000996|NP_001243731	Q00987	A7UKX8|Q96DS0|A7UKX9|A7UKX7|G3XA89	NP_001354919|NP_001265391|NP_002383|NP_001138811|NP_001138812|NP_001138809	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+571440	6188	7157	112102	113010	OK/SW-cl.26	-	RPS3	TP53	S3	BCC7|LFS1|P53|TRP53	FRET	physical	Yadavilli S (2009)	PUBMED:19656744	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P23396	-	NP_001247435|NP_001247436|NP_000996|NP_001243731	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+571449	7189	7189	113041	113041	-	-	TRAF6	TRAF6	MGC:3310|RNF85	MGC:3310|RNF85	FRET	physical	Yin Q (2009)	PUBMED:19465916	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9Y4K3	-	NP_004611|NP_665802	Q9Y4K3	-	NP_004611|NP_665802	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+571690	2542796	2539164	279244	275735	SPAC1687.04	SPCC16A11.17	mcb1	mcm4	-	SPCC24B10.01|cdc21	FRET	physical	Li JJ (2011)	PUBMED:22036784	284812	284812	Low Throughput	-	-	Bimolecular fluorescence complementation (BiFC) assay	-	BIOGRID	O94450	-	NP_593122	-	-	NP_588004	-	-	-	-	-	-	Schizosaccharomyces pombe (972h)	Schizosaccharomyces pombe (972h)
+571922	10253	867	115547	107315	-	-	SPRY2	CBL	hSPRY2	C-CBL|CBL2|FRA11B|NSLL|RNF55	FRET	physical	Mayer CE (2010)	PUBMED:20461437	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O43597	-	NP_005833	P22681	-	NP_005179	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+573725	8359	6046	113955	111973	-	DADB-17J1.3	HIST1H4A	BRD2	H4FA	D6S113E|FSH|FSRG1|NAT|RING3|RNF3	FRET	physical	Kanno T (2004)	PUBMED:14731392	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P62805	B2R4R0	NP_003529	P25440	X5CF57|A0A024RCR5	NP_001186384|NP_005095|NP_001278915|NP_001106653|NP_001186385	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+573726	8349	6046	113945	111973	-	DADB-17J1.3	HIST2H2BE	BRD2	GL105|H2B|H2B.1|H2BFQ|H2BGL105|H2BQ	D6S113E|FSH|FSRG1|NAT|RING3|RNF3	FRET	physical	Kanno T (2004)	PUBMED:14731392	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q16778	-	NP_003519	P25440	X5CF57|A0A024RCR5	NP_001186384|NP_005095|NP_001278915|NP_001106653|NP_001186385	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+573727	8350	6872	113946	112735	-	-	HIST1H3A	TAF1	H3/A|H3FA	BA2R|CCG1|CCGS|DYT3|DYT3/TAF1|KAT4|N-TAF1|NSCL2|OF|P250|TAF(II)250|TAF2A|TAFII-250|TAFII250|XDP	FRET	physical	Kanno T (2004)	PUBMED:14731392	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P68431	-	NP_003520	P21675	-	NP_001273003|NP_004597|NP_620278	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+573728	8359	6872	113955	112735	-	-	HIST1H4A	TAF1	H4FA	BA2R|CCG1|CCGS|DYT3|DYT3/TAF1|KAT4|N-TAF1|NSCL2|OF|P250|TAF(II)250|TAF2A|TAFII-250|TAFII250|XDP	FRET	physical	Kanno T (2004)	PUBMED:14731392	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P62805	B2R4R0	NP_003529	P21675	-	NP_001273003|NP_004597|NP_620278	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+575498	6047	6613	111974	112497	RES4-26	-	RNF4	SUMO2	SLX5|SNURF	HSMT3|SMT3B|SMT3H2|SUMO3|Smt3A	FRET	physical	Geoffroy MC (2010)	PUBMED:20943951	9606	9606	Low Throughput	-	-	#LPPI|Likely protein-protein interaction|only in the presence of arsenic	-	BIOGRID	P78317	-	NP_001171939|NP_001171938|NP_002929	P61956	A0A024R8S3	NP_001005849|NP_008868	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+589506	5618	5618	111603	111603	-	-	PRLR	PRLR	HPRL|MFAB|hPRLrI	HPRL|MFAB|hPRLrI	FRET	physical	Ma L (2010)	PUBMED:20962278	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P16471	-	NP_001191245|NP_001191244|NP_001191247|NP_001191246|NP_001191243|NP_000940	P16471	-	NP_001191245|NP_001191244|NP_001191247|NP_001191246|NP_001191243|NP_000940	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+589859	850768	851400	31352	31908	YLR079W	YDL155W	SIC1	CLB3	SDB25|cyclin-dependent protein serine/threonine kinase inhibiting protein SIC1|L000001886|L000001822	B-type cyclin CLB3|L000000351	FRET	physical	Schreiber G (2011)	PUBMED:22002907	559292	559292	Low Throughput	-	-	FLIM-FRET approach: Foerster resonance energy transfer (FRET) via fluorescence lifetime imaging microscopy (FLIM)	-	BIOGRID	P38634	-	NP_013180	P24870	-	NP_010126	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+589860	850768	856236	31352	36287	YLR079W	YPR119W	SIC1	CLB2	SDB25|cyclin-dependent protein serine/threonine kinase inhibiting protein SIC1|L000001886|L000001822	B-type cyclin CLB2|L000000350	FRET	physical	Schreiber G (2011)	PUBMED:22002907	559292	559292	Low Throughput	-	-	FLIM-FRET approach: Foerster resonance energy transfer (FRET) via fluorescence lifetime imaging microscopy (FLIM)	-	BIOGRID	P38634	-	NP_013180	P24869	-	NP_015444	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+589861	850768	856237	31352	36288	YLR079W	YPR120C	SIC1	CLB5	SDB25|cyclin-dependent protein serine/threonine kinase inhibiting protein SIC1|L000001886|L000001822	B-type cyclin CLB5|L000000353	FRET	physical	Schreiber G (2011)	PUBMED:22002907	559292	559292	Low Throughput	-	-	FLIM-FRET approach: Foerster resonance energy transfer (FRET) via fluorescence lifetime imaging microscopy (FLIM)	-	BIOGRID	P38634	-	NP_013180	P30283	-	NP_015445	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+591016	853870	851996	34133	32449	YKR001C	YDR388W	VPS1	RVS167	GRD1|LAM1|SPO15|VPL1|VPT26|dynamin-like GTPase VPS1|L000002006	amphiphysin|L000001789	FRET	physical	Smaczynska-de Rooij II (2011)	PUBMED:22082017	559292	559292	Low Throughput	-	-	interaction detected using Venus system	-	BIOGRID	P21576	-	NP_012926	P39743	-	NP_010676	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+592850	3184	3315	109425	109547	-	-	HNRNPD	HSPB1	AUF1|AUF1A|HNRPD|P37|hnRNPD0	CMT2F|HEL-S-102|HMN2B|HS.76067|HSP27|HSP28|Hsp25|SRP27	FRET	physical	Knapinska AM (2011)	PUBMED:21245386	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14103	A0A024RDF4|A0A024RDB4|A0A024RDF3	NP_001003810|NP_112737|NP_002129|NP_112738	P04792	V9HW43	NP_001531	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+592851	3184	3316	109425	109548	-	-	HNRNPD	HSPB2	AUF1|AUF1A|HNRPD|P37|hnRNPD0	HSP27|Hs.78846|LOH11CR1K|MKBP	FRET	physical	Knapinska AM (2011)	PUBMED:21245386	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14103	A0A024RDF4|A0A024RDB4|A0A024RDF3	NP_001003810|NP_112737|NP_002129|NP_112738	Q16082	A8KAH6	NP_001532	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+592852	3184	3184	109425	109425	-	-	HNRNPD	HNRNPD	AUF1|AUF1A|HNRPD|P37|hnRNPD0	AUF1|AUF1A|HNRPD|P37|hnRNPD0	FRET	physical	Knapinska AM (2011)	PUBMED:21245386	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14103	A0A024RDF4|A0A024RDB4|A0A024RDF3	NP_001003810|NP_112737|NP_002129|NP_112738	Q14103	A0A024RDF4|A0A024RDB4|A0A024RDF3	NP_001003810|NP_112737|NP_002129|NP_112738	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+603559	23476	8359	117036	113955	-	-	BRD4	HIST1H4A	CAP|HUNK1|HUNKI|MCAP	H4FA	FRET	physical	Zippo A (2009)	PUBMED:19766566	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O60885	-	NP_001317313|NP_490597|NP_001366221|NP_001366220|NP_055114	P62805	B2R4R0	NP_003529	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+603560	23476	8350	117036	113946	-	-	BRD4	HIST1H3A	CAP|HUNK1|HUNKI|MCAP	H3/A|H3FA	FRET	physical	Zippo A (2009)	PUBMED:19766566	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O60885	-	NP_001317313|NP_490597|NP_001366221|NP_001366220|NP_055114	P68431	-	NP_003520	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+603561	6046	8359	111973	113955	DADB-17J1.3	-	BRD2	HIST1H4A	D6S113E|FSH|FSRG1|NAT|RING3|RNF3	H4FA	FRET	physical	Zippo A (2009)	PUBMED:19766566	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P25440	X5CF57|A0A024RCR5	NP_001186384|NP_005095|NP_001278915|NP_001106653|NP_001186385	P62805	B2R4R0	NP_003529	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+605412	823478	816775	8798	2128	AT3G43700	AT2G22430	BPM6	HB6	ATBPM6|BTB-POZ AND MATH DOMAIN 6	ATHB6|F14M13.17|F14M13_17|homeobox protein 6	FRET	physical	Lechner E (2011)	PUBMED:22172674	3702	3702	Low Throughput	-	-	-	-	BIOGRID	A1L4W5	-	NP_189956	P46668	-	NP_565536	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+605484	16647	13026	201007	198967	RP23-170A23.5	-	Kpna2	Pcyt1a	2410044B12Rik|IPOA1|PTAC58|Rch1	CTalpha|Cctalpha|Ctpct|Cttalpha	FRET	physical	Chen BB (2009)	PUBMED:19332566	10090	10090	Low Throughput	-	-	source of CCTalpha not clear|source of importin not clear	-	BIOGRID	P52293	Q52L97	NP_034785	P49586	-	NP_001156631|NP_001156632|NP_034111	-	-	-	-	-	-	Mus musculus	Mus musculus
+607096	860	6662	107308	112545	RP1-166H4.1	-	RUNX2	SOX9	AML3|CBF-alpha-1|CBFA1|CCD|CCD1|CLCD|OSF-2|OSF2|PEA2aA|PEBP2aA	CMD1|CMPD1|SRA1	FRET	physical	Cheng A (2010)	PUBMED:20593410	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13950	Q32MY8	NP_001015051|NP_001019801|NP_001265407	P48436	-	NP_000337	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+607657	6647	3308	112530	109540	-	-	SOD1	HSPA4	ALS|ALS1|HEL-S-44|IPOA|SOD|hSod1|homodimer	APG-2|HEL-S-5a|HS24/P52|HSPH2|RY|hsp70|hsp70RY	FRET	physical	Ganesan S (2008)	PUBMED:17992192	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P00441	V9HWC9	NP_000445	P34932	-	NP_002145	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+607712	25736	690244	247764	605061	-	-	Kcnb1	Sumo2	DRK1PC|Kcr1-1|Kv2.1|Shab	Smt3A|Smt3h2	FRET	physical	Plant LD (2011)	PUBMED:21518833	10116	10116	Low Throughput	-	-	-	-	BIOGRID	P15387	-	NP_037318	P61959	-	NP_598278	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+607713	25736	499417	247764	270726	-	-	Kcnb1	Sumo3	DRK1PC|Kcr1-1|Kv2.1|Shab	-	FRET	physical	Plant LD (2011)	PUBMED:21518833	10116	10116	Low Throughput	-	-	-	-	BIOGRID	P15387	-	NP_037318	Q5XIF4	-	NP_001019466	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+607714	25736	301442	247764	256960	-	-	Kcnb1	Sumo1	DRK1PC|Kcr1-1|Kv2.1|Shab	-	FRET	physical	Plant LD (2011)	PUBMED:21518833	10116	10116	Low Throughput	-	-	-	-	BIOGRID	P15387	-	NP_037318	Q5I0H3	-	NP_001009672	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+607715	25736	25573	247764	247604	-	-	Kcnb1	Ube2i	DRK1PC|Kcr1-1|Kv2.1|Shab	UbcE2A	FRET	physical	Plant LD (2011)	PUBMED:21518833	10116	10116	Low Throughput	-	-	-	-	BIOGRID	P15387	-	NP_037318	P63281	-	NP_037182	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+610727	801	2886	107252	109143	-	-	CALM1	GRB7	CALML2|CAMI|CPVT4|DD132|PHKD|caM	-	FRET	physical	Li H (2005)	PUBMED:15806159	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P62158	B4DJ51|E7ETZ0	NP_001350598|NP_001350599|NP_008819	Q14451	-	NP_001025173|NP_001317136|NP_001229372|NP_001229371|NP_005301	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+610732	828008	843928	13299	29147	AT4G02440	AT1G75950	EID1	SKP1	EMPFINDLICHER IM DUNKELROTEN LICHT 1|T14P8.22|T14P8_22	ARABIDOPSIS SKP1 HOMOLOGUE 1|ASK1|ATSKP1|S phase kinase-associated protein 1|SKP1A|T4O12.17|T4O12_17|UFO INTERACTING PROTEIN 1|UIP1	FRET	physical	Marrocco K (2006)	PUBMED:16412087	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8LEA8	-	NP_192153	Q39255	-	NP_565123	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+613094	56916	5111	121244	111142	-	-	SMARCAD1	PCNA	ADERM|ETL1|HEL1	ATLD2	FRET	physical	Rowbotham SP (2011)	PUBMED:21549307	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9H4L7	-	NP_001362784|NP_001362785|NP_001362786|NP_001362787|NP_001362788|NP_064544|NP_001241878|NP_001121901|NP_001121902	P12004	-	NP_872590|NP_002583	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+615486	851680	852265	32160	32682	YDR103W	YBL016W	STE5	FUS3	HMD3|NUL3|L000002115	DAC2|mitogen-activated serine/threonine-protein kinase FUS3|L000000655	FRET	physical	Slaughter BD (2011)	PUBMED:21863494	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32917	-	NP_010388	P16892	-	NP_009537	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+615487	851076	850325	31623	30951	YLR362W	YCL032W	STE11	STE50	mitogen-activated protein kinase kinase kinase STE11|L000002118	L000002125	FRET	physical	Slaughter BD (2011)	PUBMED:21863494	559292	559292	Low Throughput	-	-	interaction visualized by FCS	-	BIOGRID	P23561	-	NP_013466	P25344	-	NP_009898	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+615604	852385	854392	32794	34612	YBR088C	YOR217W	POL30	RFC1	proliferating cell nuclear antigen|PCNA|L000001463	CDC44|replication factor C subunit 1|L000000278	FRET	physical	Sakato M (2012)	PUBMED:22197374	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P15873	-	NP_009645	P38630	-	NP_014860	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+615605	852385	853531	32794	33825	YBR088C	YJR068W	POL30	RFC2	proliferating cell nuclear antigen|PCNA|L000001463	replication factor C subunit 2|L000001623	FRET	physical	Sakato M (2012)	PUBMED:22197374	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P15873	-	NP_009645	P40348	-	NP_012602	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+615606	852385	855426	32794	35547	YBR088C	YNL290W	POL30	RFC3	proliferating cell nuclear antigen|PCNA|L000001463	replication factor C subunit 3|L000001624	FRET	physical	Sakato M (2012)	PUBMED:22197374	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P15873	-	NP_009645	P38629	-	NP_014109	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+615607	852385	854059	32794	34308	YBR088C	YOL094C	POL30	RFC4	proliferating cell nuclear antigen|PCNA|L000001463	replication factor C subunit 4|L000001625	FRET	physical	Sakato M (2012)	PUBMED:22197374	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P15873	-	NP_009645	P40339	-	NP_014547	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+615608	852385	852383	32794	32793	YBR088C	YBR087W	POL30	RFC5	proliferating cell nuclear antigen|PCNA|L000001463	replication factor C subunit 5|L000002843	FRET	physical	Sakato M (2012)	PUBMED:22197374	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P15873	-	NP_009645	P38251	-	NP_009644	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+616023	87	7846	106602	113603	-	-	ACTN1	TUBA1A	BDPLT15	B-ALPHA-1|LIS3|TUBA3	FRET	physical	Cerecedo D (2008)	PUBMED:18341635	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P12814	A0A024R694	NP_001093|NP_001123477|NP_001123476	Q71U36	-	NP_001257329|NP_001257328|NP_006000	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+616026	7846	1605	113603	107975	-	-	TUBA1A	DAG1	B-ALPHA-1|LIS3|TUBA3	156DAG|A3a|AGRNR|DAG|MDDGC7|MDDGC9	FRET	physical	Cerecedo D (2008)	PUBMED:18341635	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q71U36	-	NP_001257329|NP_001257328|NP_006000	Q14118	A0A024R2W4	NP_004384|NP_001159400|NP_001171106|NP_001171114|NP_001171113|NP_001171112|NP_001171111|NP_001171110|NP_001171105|NP_001171115|NP_001171107|NP_001171108|NP_001171109	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+616027	87	1605	106602	107975	-	-	ACTN1	DAG1	BDPLT15	156DAG|A3a|AGRNR|DAG|MDDGC7|MDDGC9	FRET	physical	Cerecedo D (2008)	PUBMED:18341635	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P12814	A0A024R694	NP_001093|NP_001123477|NP_001123476	Q14118	A0A024R2W4	NP_004384|NP_001159400|NP_001171106|NP_001171114|NP_001171113|NP_001171112|NP_001171111|NP_001171110|NP_001171105|NP_001171115|NP_001171107|NP_001171108|NP_001171109	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+616033	3688	1605	109894	107975	RP11-479G22.2	-	ITGB1	DAG1	CD29|FNRB|GPIIA|MDF2|MSK12|VLA-BETA|VLAB	156DAG|A3a|AGRNR|DAG|MDDGC7|MDDGC9	FRET	physical	Cerecedo D (2008)	PUBMED:18341635	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P05556	-	NP_002202|NP_596867|NP_391988	Q14118	A0A024R2W4	NP_004384|NP_001159400|NP_001171106|NP_001171114|NP_001171113|NP_001171112|NP_001171111|NP_001171110|NP_001171105|NP_001171115|NP_001171107|NP_001171108|NP_001171109	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+616034	3688	7846	109894	113603	RP11-479G22.2	-	ITGB1	TUBA1A	CD29|FNRB|GPIIA|MDF2|MSK12|VLA-BETA|VLAB	B-ALPHA-1|LIS3|TUBA3	FRET	physical	Cerecedo D (2008)	PUBMED:18341635	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P05556	-	NP_002202|NP_596867|NP_391988	Q71U36	-	NP_001257329|NP_001257328|NP_006000	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+616040	7094	1605	112949	107975	RP11-112J3.1	-	TLN1	DAG1	ILWEQ|TLN	156DAG|A3a|AGRNR|DAG|MDDGC7|MDDGC9	FRET	physical	Cerecedo D (2008)	PUBMED:18341635	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9Y490	-	NP_006280	Q14118	A0A024R2W4	NP_004384|NP_001159400|NP_001171106|NP_001171114|NP_001171113|NP_001171112|NP_001171111|NP_001171110|NP_001171105|NP_001171115|NP_001171107|NP_001171108|NP_001171109	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+616041	7414	1605	113257	107975	RP11-178G16.3	-	VCL	DAG1	CMD1W|CMH15|HEL114|MV|MVCL	156DAG|A3a|AGRNR|DAG|MDDGC7|MDDGC9	FRET	physical	Cerecedo D (2008)	PUBMED:18341635	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P18206	B3KXA2|A0A024QZN4|V9HWK2	NP_003364|NP_054706	Q14118	A0A024R2W4	NP_004384|NP_001159400|NP_001171106|NP_001171114|NP_001171113|NP_001171112|NP_001171111|NP_001171110|NP_001171105|NP_001171115|NP_001171107|NP_001171108|NP_001171109	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+616042	7094	7846	112949	113603	RP11-112J3.1	-	TLN1	TUBA1A	ILWEQ|TLN	B-ALPHA-1|LIS3|TUBA3	FRET	physical	Cerecedo D (2008)	PUBMED:18341635	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9Y490	-	NP_006280	Q71U36	-	NP_001257329|NP_001257328|NP_006000	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+616043	7414	7846	113257	113603	RP11-178G16.3	-	VCL	TUBA1A	CMD1W|CMH15|HEL114|MV|MVCL	B-ALPHA-1|LIS3|TUBA3	FRET	physical	Cerecedo D (2008)	PUBMED:18341635	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P18206	B3KXA2|A0A024QZN4|V9HWK2	NP_003364|NP_054706	Q71U36	-	NP_001257329|NP_001257328|NP_006000	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+616519	850782	852660	31366	33044	YLR093C	YGL212W	NYV1	VAM7	MAM2|L000004690	VPL24|VPS43|L000002452	FRET	physical	Xu H (2011)	PUBMED:21987819	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q12255	-	NP_013194	P32912	-	NP_011303	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+635915	23133	5914	116751	111849	RP13-444K19.2	-	PHF8	RARA	JHDM1F|MRXSSD|ZNF422	NR1B1|RAR	FRET	physical	Qiu J (2010)	PUBMED:20548336	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UPP1	O95327	NP_001171827|NP_001171826|NP_001171825|NP_055922	P10276	A8MUP8|A8K840|F1D8N9|Q6I9R7	NP_000955|NP_001138774|NP_001019980|NP_001138773	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+637422	5595	7416	111581	113259	-	-	MAPK3	VDAC1	ERK-1|ERK1|ERT2|HS44KDAP|HUMKER1A|P44ERK1|P44MAPK|PRKM3|p44-ERK1|p44-MAPK	PORIN|VDAC-1	Co-localization	physical	Galli S (2009)	PUBMED:19847302	9606	9606	Low Throughput	-	-	FRET	-	BIOGRID	P27361	Q9BWJ1|L7RXH5	NP_002737|NP_001103361|NP_001035145	P21796	B3KTS5	NP_003365	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+637423	5595	8335	111581	113931	-	-	MAPK3	HIST1H2AB	ERK-1|ERK1|ERT2|HS44KDAP|HUMKER1A|P44ERK1|P44MAPK|PRKM3|p44-ERK1|p44-MAPK	H2A/m|H2AFM	Co-localization	physical	Galli S (2009)	PUBMED:19847302	9606	9606	Low Throughput	-	-	FRET	-	BIOGRID	P27361	Q9BWJ1|L7RXH5	NP_002737|NP_001103361|NP_001035145	P04908	Q08AJ9	NP_003504	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+637424	5595	8359	111581	113955	-	-	MAPK3	HIST1H4A	ERK-1|ERK1|ERT2|HS44KDAP|HUMKER1A|P44ERK1|P44MAPK|PRKM3|p44-ERK1|p44-MAPK	H4FA	Co-localization	physical	Galli S (2009)	PUBMED:19847302	9606	9606	Low Throughput	-	-	FRET	-	BIOGRID	P27361	Q9BWJ1|L7RXH5	NP_002737|NP_001103361|NP_001035145	P62805	B2R4R0	NP_003529	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+637425	5594	8335	111580	113931	-	-	MAPK1	HIST1H2AB	ERK|ERK-2|ERK2|ERT1|MAPK2|P42MAPK|PRKM1|PRKM2|p38|p40|p41|p41mapk|p42-MAPK	H2A/m|H2AFM	Co-localization	physical	Galli S (2009)	PUBMED:19847302	9606	9606	Low Throughput	-	-	FRET	-	BIOGRID	P28482	Q1HBJ4|Q499G7	NP_002736|NP_620407	P04908	Q08AJ9	NP_003504	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+637426	5594	8359	111580	113955	-	-	MAPK1	HIST1H4A	ERK|ERK-2|ERK2|ERT1|MAPK2|P42MAPK|PRKM1|PRKM2|p38|p40|p41|p41mapk|p42-MAPK	H4FA	Co-localization	physical	Galli S (2009)	PUBMED:19847302	9606	9606	Low Throughput	-	-	FRET	-	BIOGRID	P28482	Q1HBJ4|Q499G7	NP_002736|NP_620407	P62805	B2R4R0	NP_003529	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+637427	5594	7416	111580	113259	-	-	MAPK1	VDAC1	ERK|ERK-2|ERK2|ERT1|MAPK2|P42MAPK|PRKM1|PRKM2|p38|p40|p41|p41mapk|p42-MAPK	PORIN|VDAC-1	Co-localization	physical	Galli S (2009)	PUBMED:19847302	9606	9606	Low Throughput	-	-	FRET	-	BIOGRID	P28482	Q1HBJ4|Q499G7	NP_002736|NP_620407	P21796	B3KTS5	NP_003365	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+637428	5595	5595	111581	111581	-	-	MAPK3	MAPK3	ERK-1|ERK1|ERT2|HS44KDAP|HUMKER1A|P44ERK1|P44MAPK|PRKM3|p44-ERK1|p44-MAPK	ERK-1|ERK1|ERT2|HS44KDAP|HUMKER1A|P44ERK1|P44MAPK|PRKM3|p44-ERK1|p44-MAPK	Reconstituted Complex	physical	Galli S (2009)	PUBMED:19847302	9606	9606	Low Throughput	-	-	FRET	-	BIOGRID	P27361	Q9BWJ1|L7RXH5	NP_002737|NP_001103361|NP_001035145	P27361	Q9BWJ1|L7RXH5	NP_002737|NP_001103361|NP_001035145	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+637547	2099	8202	108403	113841	RP1-130E4.1	RP5-1049G16.3	ESR1	NCOA3	ER|ESR|ESRA|ESTRR|Era|NR3A1	ACTR|AIB-1|AIB1|CAGH16|CTG26|KAT13B|RAC3|SRC-3|SRC3|TNRC14|TNRC16|TRAM-1|bHLHe42|pCIP	FRET	physical	Heck S (2009)	PUBMED:19491275	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P03372	Q9UBT1|G4XH65|A8KAF4	NP_001116213|NP_000116|NP_001278159|NP_001278170|NP_001116212|NP_001116214	Q9Y6Q9	Q59EE8	NP_006525|NP_001167558|NP_858045|NP_001167559	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+644217	825890	817987	11201	3334	AT4G05420	AT2G34260	DDB1A	AT2G34260	C6L9.100|C6L9_100|damaged DNA binding protein 1A	F13P17.10|F13P17_10	FRET	physical	Bjerkan KN (2012)	PUBMED:22447688	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9M0V3	B3H6I9	NP_192451|NP_001118940	-	F4IGY3|O80775	NP_973596|NP_565782	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+644520	851727	853928	32203	34185	YDR150W	YKR054C	NUM1	DYN1	PAC12|L000001287	DHC1|PAC6|dynein heavy chain|L000000538	FRET	physical	Tang X (2012)	PUBMED:22431751	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q00402	-	NP_010434	P36022	-	NP_012980	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+644796	854150	852295	34392	32711	YOL012C	YBR010W	HTZ1	HHT1	HTA3|histone H2AZ|H2AZ|H2A.F/Z|L000003930|L000004094	BUR5|SIN2|histone H3|L000000772	FRET	physical	Chen J (2012)	PUBMED:22393239	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q12692	-	NP_014631	P61830	-	NP_009564	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+644797	854150	855700	34392	35796	YOL012C	YNL031C	HTZ1	HHT2	HTA3|histone H2AZ|H2AZ|H2A.F/Z|L000003930|L000004094	histone H3|L000000773	FRET	physical	Chen J (2012)	PUBMED:22393239	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q12692	-	NP_014631	P61830	-	NP_014367	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+644798	854150	852294	34392	32710	YOL012C	YBR009C	HTZ1	HHF1	HTA3|histone H2AZ|H2AZ|H2A.F/Z|L000003930|L000004094	histone H4|L000000770	FRET	physical	Chen J (2012)	PUBMED:22393239	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q12692	-	NP_014631	P02309	-	NP_009563	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+644799	854150	855701	34392	35797	YOL012C	YNL030W	HTZ1	HHF2	HTA3|histone H2AZ|H2AZ|H2A.F/Z|L000003930|L000004094	histone H4|L000000771	FRET	physical	Chen J (2012)	PUBMED:22393239	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q12692	-	NP_014631	P02309	-	NP_014368	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+656167	850614	850614	31211	31211	YFR053C	YFR053C	HXK1	HXK1	hexokinase 1|L000000833	hexokinase 1|L000000833	FRET	physical	Maity H (2000)	PUBMED:10877063	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P04806	-	NP_116711	P04806	-	NP_116711	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+657806	2099	8202	108403	113841	RP1-130E4.1	RP5-1049G16.3	ESR1	NCOA3	ER|ESR|ESRA|ESTRR|Era|NR3A1	ACTR|AIB-1|AIB1|CAGH16|CTG26|KAT13B|RAC3|SRC-3|SRC3|TNRC14|TNRC16|TRAM-1|bHLHe42|pCIP	FRET	physical	Gunther JR (2008)	PUBMED:18484708	9606	9606	Low Throughput	-	-	figure 2. interaction was showed by time-resolved fluorescence resonance energy transfer (TRFRET)assay.	-	BIOGRID	P03372	Q9UBT1|G4XH65|A8KAF4	NP_001116213|NP_000116|NP_001278159|NP_001278170|NP_001116212|NP_001116214	Q9Y6Q9	Q59EE8	NP_006525|NP_001167558|NP_858045|NP_001167559	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+658172	65204	29437	249316	248084	-	-	Cnn1	Acta1	-	-	FRET	physical	Dykes AC (2007)	PUBMED:17487264	10116	10116	Low Throughput	-	-	table	-	BIOGRID	Q08290	-	NP_113935	P68136	-	NP_062085	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+658173	65204	24680	249316	246812	-	-	Cnn1	Prkca	-	Pkca	FRET	physical	Dykes AC (2007)	PUBMED:17487264	10116	10116	Low Throughput	-	-	table 1. association increased by PDBu-treatment.	-	BIOGRID	Q08290	-	NP_113935	-	-	NP_001099183	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+658230	5468	9611	111464	114973	-	-	PPARG	NCOR1	CIMT1|GLM1|NR1C3|PPARG1|PPARG2|PPARgamma	N-CoR|N-CoR1|PPP1R109|TRAC1|hN-CoR	FRET	physical	Feige JN (2007)	PUBMED:17468099	9606	9606	Low Throughput	-	-	figure 3.	-	BIOGRID	P37231	D2KUA6	NP_056953|NP_619725|NP_005028|NP_619726	O75376	Q6PGR4|A0A024RD47	NP_001177367|NP_006302|NP_001177369	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+658231	5468	2033	111464	108347	-	RP1-85F18.1	PPARG	EP300	CIMT1|GLM1|NR1C3|PPARG1|PPARG2|PPARgamma	KAT3B|RSTS2|p300	FRET	physical	Feige JN (2007)	PUBMED:17468099	9606	9606	Low Throughput	-	-	figure 3.	-	BIOGRID	P37231	D2KUA6	NP_056953|NP_619725|NP_005028|NP_619726	Q09472	Q7Z6C1	NP_001349772|NP_001420	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+658232	5468	5469	111464	111465	-	-	PPARG	MED1	CIMT1|GLM1|NR1C3|PPARG1|PPARG2|PPARgamma	CRSP1|CRSP200|DRIP205|DRIP230|PBP|PPARBP|PPARGBP|RB18A|TRAP220|TRIP2	FRET	physical	Feige JN (2007)	PUBMED:17468099	9606	9606	Low Throughput	-	-	figure 3.	-	BIOGRID	P37231	D2KUA6	NP_056953|NP_619725|NP_005028|NP_619726	Q15648	-	NP_004765	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+658393	23468	3009	117030	109264	-	-	CBX5	HIST1H1B	HEL25|HP1|HP1A	H1|H1.5|H1B|H1F5|H1s-3	FRET	physical	Hale TK (2006)	PUBMED:16762841	9606	9606	Low Throughput	-	-	figure 1C.	-	BIOGRID	P45973	V9HWG0	NP_001120794|NP_001120793|NP_036249	P16401	-	NP_005313	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+658798	351	10524	106848	115779	-	-	APP	KAT5	AAA|ABETA|ABPP|AD1|APPI|CTFgamma|CVAP|PN-II|PN2	ESA1|HTATIP|HTATIP1|PLIP|TIP|TIP60|ZC2HC5|cPLA2	FRET	physical	Kinoshita A (2002)	PUBMED:12032152	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P05067	B4DGD0|E9PG40|B4DJT9	NP_958817|NP_958816|NP_001191230|NP_001191231|NP_001191232|NP_000475|NP_001372182|NP_001129488|NP_001129603|NP_001129601|NP_001129602	Q92993	A0A024R597|A0A024R5E8	NP_006379|NP_001193762|NP_874368|NP_874369	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+658920	351	10524	106848	115779	-	-	APP	KAT5	AAA|ABETA|ABPP|AD1|APPI|CTFgamma|CVAP|PN-II|PN2	ESA1|HTATIP|HTATIP1|PLIP|TIP|TIP60|ZC2HC5|cPLA2	FRET	physical	von Rotz RC (2004)	PUBMED:15331662	9606	9606	Low Throughput	-	-	figure 2.|figure 5D.	-	BIOGRID	P05067	B4DGD0|E9PG40|B4DJT9	NP_958817|NP_958816|NP_001191230|NP_001191231|NP_001191232|NP_000475|NP_001372182|NP_001129488|NP_001129603|NP_001129601|NP_001129602	Q92993	A0A024R597|A0A024R5E8	NP_006379|NP_001193762|NP_874368|NP_874369	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+659188	2099	2099	108403	108403	RP1-130E4.1	RP1-130E4.1	ESR1	ESR1	ER|ESR|ESRA|ESTRR|Era|NR3A1	ER|ESR|ESRA|ESTRR|Era|NR3A1	FRET	physical	Bai Y (2003)	PUBMED:12554772	9606	9606	Low Throughput	-	-	figure 2. individual cell variance.|figure 3. ERs form homodimers and heterodimers independently of the ligand in vivo, as showed by FRET.	-	BIOGRID	P03372	Q9UBT1|G4XH65|A8KAF4	NP_001116213|NP_000116|NP_001278159|NP_001278170|NP_001116212|NP_001116214	P03372	Q9UBT1|G4XH65|A8KAF4	NP_001116213|NP_000116|NP_001278159|NP_001278170|NP_001116212|NP_001116214	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+659189	2099	8648	108403	114200	RP1-130E4.1	-	ESR1	NCOA1	ER|ESR|ESRA|ESTRR|Era|NR3A1	F-SRC-1|KAT13A|RIP160|SRC1|bHLHe42|bHLHe74	FRET	physical	Bai Y (2003)	PUBMED:12554772	9606	9606	Low Throughput	-	-	figure 4.|figure 6.	-	BIOGRID	P03372	Q9UBT1|G4XH65|A8KAF4	NP_001116213|NP_000116|NP_001278159|NP_001278170|NP_001116212|NP_001116214	Q15788	-	NP_001349879|NP_003734|NP_001349884|NP_671766|NP_671756|NP_001349881|NP_001349883	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+659190	2100	8648	108404	114200	-	-	ESR2	NCOA1	ER-BETA|ESR-BETA|ESRB|ESTRB|Erb|NR3A2	F-SRC-1|KAT13A|RIP160|SRC1|bHLHe42|bHLHe74	FRET	physical	Bai Y (2003)	PUBMED:12554772	9606	9606	Low Throughput	-	-	figure 5.|figure 6.	-	BIOGRID	Q92731	Q0PTK2|Q7LCB3|F1D8N3	NP_001201832|NP_001428|NP_001201831|NP_001278641|NP_001035365|NP_001278652|NP_001258805|NP_001258806	Q15788	-	NP_001349879|NP_003734|NP_001349884|NP_671766|NP_671756|NP_001349881|NP_001349883	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+659191	2099	10499	108403	115761	RP1-130E4.1	-	ESR1	NCOA2	ER|ESR|ESRA|ESTRR|Era|NR3A1	GRIP1|KAT13C|NCoA-2|SRC2|TIF2|bHLHe75	FRET	physical	Bai Y (2003)	PUBMED:12554772	9606	9606	Low Throughput	-	-	figure 6.	-	BIOGRID	P03372	Q9UBT1|G4XH65|A8KAF4	NP_001116213|NP_000116|NP_001278159|NP_001278170|NP_001116212|NP_001116214	Q15596	-	NP_006531|NP_001308641|NP_001308640|NP_001308642|NP_001308636|NP_001308632	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+659192	2099	8202	108403	113841	RP1-130E4.1	RP5-1049G16.3	ESR1	NCOA3	ER|ESR|ESRA|ESTRR|Era|NR3A1	ACTR|AIB-1|AIB1|CAGH16|CTG26|KAT13B|RAC3|SRC-3|SRC3|TNRC14|TNRC16|TRAM-1|bHLHe42|pCIP	FRET	physical	Bai Y (2003)	PUBMED:12554772	9606	9606	Low Throughput	-	-	figure 6.	-	BIOGRID	P03372	Q9UBT1|G4XH65|A8KAF4	NP_001116213|NP_000116|NP_001278159|NP_001278170|NP_001116212|NP_001116214	Q9Y6Q9	Q59EE8	NP_006525|NP_001167558|NP_858045|NP_001167559	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+659193	2100	10499	108404	115761	-	-	ESR2	NCOA2	ER-BETA|ESR-BETA|ESRB|ESTRB|Erb|NR3A2	GRIP1|KAT13C|NCoA-2|SRC2|TIF2|bHLHe75	FRET	physical	Bai Y (2003)	PUBMED:12554772	9606	9606	Low Throughput	-	-	figure 6.	-	BIOGRID	Q92731	Q0PTK2|Q7LCB3|F1D8N3	NP_001201832|NP_001428|NP_001201831|NP_001278641|NP_001035365|NP_001278652|NP_001258805|NP_001258806	Q15596	-	NP_006531|NP_001308641|NP_001308640|NP_001308642|NP_001308636|NP_001308632	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+659194	2100	8202	108404	113841	-	RP5-1049G16.3	ESR2	NCOA3	ER-BETA|ESR-BETA|ESRB|ESTRB|Erb|NR3A2	ACTR|AIB-1|AIB1|CAGH16|CTG26|KAT13B|RAC3|SRC-3|SRC3|TNRC14|TNRC16|TRAM-1|bHLHe42|pCIP	FRET	physical	Bai Y (2003)	PUBMED:12554772	9606	9606	Low Throughput	-	-	figure 6.	-	BIOGRID	Q92731	Q0PTK2|Q7LCB3|F1D8N3	NP_001201832|NP_001428|NP_001201831|NP_001278641|NP_001035365|NP_001278652|NP_001258805|NP_001258806	Q9Y6Q9	Q59EE8	NP_006525|NP_001167558|NP_858045|NP_001167559	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+668154	839529	819242	24764	4577	AT1G04400	AT2G46340	CRY2	SPA1	AT-PHH1|ATCRY2|CRYPTOCHROME 2 APOPROTEIN|F19P19.14|F19P19_14|FHA|PHH1|cryptochrome 2	AT2G46350|F11C10.3|SUPPRESSOR OF PHYA-105 1	FRET	physical	Weidler G (2012)	PUBMED:22739826	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q96524	G4WTR2	NP_849588|NP_171935	Q9SYX2	-	NP_182157	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+668155	839529	829604	24764	14886	AT1G04400	AT4G34530	CRY2	CIB1	AT-PHH1|ATCRY2|CRYPTOCHROME 2 APOPROTEIN|F19P19.14|F19P19_14|FHA|PHH1|cryptochrome 2	T4L20.110|T4L20_110|cryptochrome-interacting basic-helix-loop-helix 1	FRET	physical	Weidler G (2012)	PUBMED:22739826	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q96524	G4WTR2	NP_849588|NP_171935	Q8GY61	-	NP_195179	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+668503	27339	5692	118151	111665	-	-	PRPF19	PSMB4	NMP200|PRP19|PSO4|SNEV|UBOX4|hPSO4	HN3|HsN3|PROS-26|PROS26	FRET	physical	Loescher M (2005)	PUBMED:15660529	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UMS4	-	NP_055317	P28070	-	NP_002787	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+668674	29979	351	119007	106848	-	-	UBQLN1	APP	DA41|DSK2|PLIC-1|UBQN|XDRP1	AAA|ABETA|ABPP|AD1|APPI|CTFgamma|CVAP|PN-II|PN2	FRET	physical	Hiltunen M (2006)	PUBMED:16945923	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UMX0	A0A024R258|A0A024R284	NP_444295|NP_038466	P05067	B4DGD0|E9PG40|B4DJT9	NP_958817|NP_958816|NP_001191230|NP_001191231|NP_001191232|NP_000475|NP_001372182|NP_001129488|NP_001129603|NP_001129601|NP_001129602	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+668675	5663	29979	111642	119007	-	-	PSEN1	UBQLN1	AD3|FAD|PS-1|PS1|S182	DA41|DSK2|PLIC-1|UBQN|XDRP1	FRET	physical	Thomas AV (2006)	PUBMED:16815845	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P49768	A0A024R6A3	NP_000012|NP_015557	Q9UMX0	A0A024R258|A0A024R284	NP_444295|NP_038466	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+669192	85363	5701	124491	111674	-	-	TRIM5	PSMC2	RNF88|TRIM5alpha	MSS1|Nbla10058|S7	FRET	physical	Lukic Z (2011)	PUBMED:22078707	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9C035	-	NP_149084|NP_149023|NP_149083	P35998	B7Z571	NP_001191382|NP_002794	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+669949	10657	4067	115900	110245	-	-	KHDRBS1	LYN	Sam68|p62|p68	JTK8|p53Lyn|p56Lyn	FRET	physical	Asbach B (2012)	PUBMED:22745667	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q07666	-	NP_006550|NP_001258807	P07948	A8K379|Q6NUK7	NP_002341|NP_001104567	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+669950	10657	7525	115900	113357	-	-	KHDRBS1	YES1	Sam68|p62|p68	HsT441|P61-YES|Yes|c-yes	FRET	physical	Asbach B (2012)	PUBMED:22745667	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q07666	-	NP_006550|NP_001258807	P07947	-	NP_005424	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+669951	10657	6714	115900	112592	-	RP5-823N20.1	KHDRBS1	SRC	Sam68|p62|p68	ASV|SRC1|c-SRC|p60-Src	FRET	physical	Asbach B (2012)	PUBMED:22745667	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q07666	-	NP_006550|NP_001258807	P12931	-	NP_938033|NP_005408	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+669952	10657	3055	115900	109305	-	RP5-836N17.3	KHDRBS1	HCK	Sam68|p62|p68	JTK9|p59Hck|p61Hck	FRET	physical	Asbach B (2012)	PUBMED:22745667	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q07666	-	NP_006550|NP_001258807	P08631	J3KPD6|A8K4G3	NP_002101|NP_001165604|NP_001165602|NP_001165603|NP_001165600|NP_001165601	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+669953	10657	50618	115900	119098	-	-	KHDRBS1	ITSN2	Sam68|p62|p68	PRO2015|SH3D1B|SH3P18|SWA|SWAP	FRET	physical	Asbach B (2012)	PUBMED:22745667	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q07666	-	NP_006550|NP_001258807	Q9NZM3	A6H8W8	NP_001335111|NP_001335110|NP_001335113|NP_001335112|NP_001335115|NP_001335114|NP_062541|NP_671494|NP_006268	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+669954	10657	26578	115900	117747	-	-	KHDRBS1	OSTF1	Sam68|p62|p68	OSF|SH3P2|bA235O14.1	FRET	physical	Asbach B (2012)	PUBMED:22745667	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q07666	-	NP_006550|NP_001258807	Q92882	-	NP_036515	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+669955	10657	5295	115900	111313	-	-	KHDRBS1	PIK3R1	Sam68|p62|p68	AGM7|GRB1|IMD36|p85|p85-ALPHA	FRET	physical	Asbach B (2012)	PUBMED:22745667	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q07666	-	NP_006550|NP_001258807	P27986	-	NP_852665|NP_852664|NP_001229395|NP_852556	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+670645	835920	835920	21164	21164	AT5G58080	AT5G58080	RR18	RR18	ARR18|K21L19.7|K21L19_7|response regulator 18	ARR18|K21L19.7|K21L19_7|response regulator 18	FRET	physical	Veerabagu M (2012)	PUBMED:22775331	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FGT7	-	NP_200616	Q9FGT7	-	NP_200616	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+670771	10969	3783709	116166	971751	RP5-1034F7.2	-	EBNA1BP2	BKRF1	EBP2|NOBP|P40	-	FRET	physical	Jourdan N (2012)	PUBMED:22345443	9606	10376	Low Throughput	-	-	figure 5. Demecholcine induces artifactual interaction between EBNA-1 and EBP2.	-	BIOGRID	Q99848	H7C2Q8|Q6IB29	NP_006815|NP_001153408	P03211	-	YP_401677	-	-	-	-	-	-	Homo sapiens	Human Herpesvirus 4
+670773	3148	3783709	109391	971751	-	-	HMGB2	BKRF1	HMG2	-	FRET	physical	Jourdan N (2012)	PUBMED:22345443	9606	10376	Low Throughput	-	-	figure 8.|figure 9. thoughout mitosis.	-	BIOGRID	P26583	-	NP_001124160|NP_002120|NP_001124161	P03211	-	YP_401677	-	-	-	-	-	-	Homo sapiens	Human Herpesvirus 4
+672279	9146	387521	114593	132320	-	RP5-1185N5.1	HGS	TMEM189	HRS	KUA	FRET	physical	Duex JE (2010)	PUBMED:20420830	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O14964	-	NP_004703	A5PLL7	-	NP_954580|NP_001155977	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+672433	155030	155030	1205537	1205537	HIV1gp2	HIV1gp2	gag	gag	-	-	FRET	physical	Derdowski A (2004)	PUBMED:14722278	11676	11676	Low Throughput	-	-	-	-	BIOGRID	P04591	-	NP_057850	P04591	-	NP_057850	-	-	-	-	-	-	Human Immunodeficiency Virus 1	Human Immunodeficiency Virus 1
+672434	155030	7251	1205537	113102	HIV1gp2	-	gag	TSG101	-	TSG10|VPS23	FRET	physical	Derdowski A (2004)	PUBMED:14722278	11676	9606	Low Throughput	-	-	-	-	BIOGRID	P04591	-	NP_057850	Q99816	-	NP_006283	-	-	-	-	-	-	Human Immunodeficiency Virus 1	Homo sapiens
+673786	828465	829652	13754	14934	AT4G23650	AT4G35000	CDPK6	APX3	CALCIUM-DEPENDENT PROTEIN KINASE 6|CPK3|Calcium dependent protein kinase 3|F9D16.120|F9D16_120	ASCORBATE PEROXIDASE 3|M4E13.60|M4E13_60	FRET	physical	Berendzen KW (2012)	PUBMED:22789293	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q42479	-	NP_194096	Q42564	-	NP_195226	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+673787	828465	828349	13754	13638	AT4G23650	AT4G22540	CDPK6	ORP2A	CALCIUM-DEPENDENT PROTEIN KINASE 6|CPK3|Calcium dependent protein kinase 3|F9D16.120|F9D16_120	F7K2.120|F7K2_120|OSBP(oxysterol binding protein)-related protein 2A	FRET	physical	Berendzen KW (2012)	PUBMED:22789293	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q42479	-	NP_194096	Q940Y1	-	NP_001190800|NP_974592|NP_567662|NP_001031698	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+673788	828465	818491	13754	3830	AT4G23650	AT2G39050	CDPK6	AT2G39050	CALCIUM-DEPENDENT PROTEIN KINASE 6|CPK3|Calcium dependent protein kinase 3|F9D16.120|F9D16_120	T7F6.22|T7F6_22	FRET	physical	Berendzen KW (2012)	PUBMED:22789293	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q42479	-	NP_194096	-	Q945P1	NP_565899	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+673789	828465	829709	13754	14991	AT4G23650	AT4G35570	CDPK6	HMGB5	CALCIUM-DEPENDENT PROTEIN KINASE 6|CPK3|Calcium dependent protein kinase 3|F9D16.120|F9D16_120	F8D20.80|F8D20_80|HMGD|NFD05|NFD5|NUCLEOSOME/CHROMATIN ASSEMBLY FACTOR 5|high mobility group B5	FRET	physical	Berendzen KW (2012)	PUBMED:22789293	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q42479	-	NP_194096	O49597	-	NP_195282	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+673831	56852	7319	121212	113167	-	-	RAD18	UBE2A	RNF73	HHR6A|MRXS30|MRXSN|RAD6A|UBC2	FRET	physical	Watson NB (2008)	PUBMED:18926833	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9NS91	-	NP_064550	P49459	-	NP_861427|NP_001269090|NP_003327	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+674010	853922	444528	34179	102691	YKR048C	-	NAP1	hist2h2ab	histone chaperone NAP1|L000001232	H2AX|XH2AX|h2a|h2afx	FRET	physical	Hieb AR (2012)	PUBMED:22121211	559292	8355	Low Throughput	-	-	figure 4.	-	BIOGRID	P25293	-	NP_012974	Q6GM86	-	NP_001086099	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Xenopus laevis
+674011	853922	446588	34179	103448	YKR048C	-	NAP1	hist1h2bj	histone chaperone NAP1|L000001232	h2B|h2bfr	FRET	physical	Hieb AR (2012)	PUBMED:22121211	559292	8355	Low Throughput	-	-	figure 4.	-	BIOGRID	P25293	-	NP_012974	P02281	-	NP_001086753	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Xenopus laevis
+674524	23621	26088	117154	117540	-	RP1-37E16.3	BACE1	GGA1	ASP2|BACE|HSPC104	-	FRET	physical	von Arnim CA (2004)	PUBMED:15466887	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P56817	A0A024R3F9|A0A024R3D7|Q5W9H2|B7Z3Z4|B7Z3K2|A0A024R3E8|A0A024R3D5	NP_620428|NP_620429|NP_001193978|NP_036236|NP_001193977|NP_620427	Q9UJY5	Q6IC75	NP_001001560|NP_001001561|NP_001166159|NP_001166158|NP_001350700|NP_037497	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+674525	26088	23621	117540	117154	RP1-37E16.3	-	GGA1	BACE1	-	ASP2|BACE|HSPC104	FRET	physical	von Arnim CA (2004)	PUBMED:15466887	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UJY5	Q6IC75	NP_001001560|NP_001001561|NP_001166159|NP_001166158|NP_001350700|NP_037497	P56817	A0A024R3F9|A0A024R3D7|Q5W9H2|B7Z3Z4|B7Z3K2|A0A024R3E8|A0A024R3D5	NP_620428|NP_620429|NP_001193978|NP_036236|NP_001193977|NP_620427	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+675892	828084	842873	13375	28094	AT4G00220	AT1G65620	JLO	AS2	F6N15.4|F6N15_4|JAGGED LATERAL ORGANS|LBD30|LOB DOMAIN-CONTAINING PROTEIN 30	ASYMMETRIC LEAVES 2|F5I14.15|F5I14_15	FRET	physical	Rast MI (2012)	PUBMED:22822207	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O81323	-	NP_191933	O04479	-	NP_176739|NP_001077778|NP_001117553|NP_001077777	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+675893	842873	818340	28094	3684	AT1G65620	AT2G37630	AS2	AS1	ASYMMETRIC LEAVES 2|F5I14.15|F5I14_15	ARABIDOPSIS PHANTASTICA-LIKE 1|ASYMMETRIC LEAVES 1|ATMYB91|ATPHAN|F13M22.13|F13M22_13|MYB DOMAIN PROTEIN 91|MYB91	FRET	physical	Rast MI (2012)	PUBMED:22822207	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O04479	-	NP_176739|NP_001077778|NP_001117553|NP_001077777	O80931	-	NP_181299	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+676028	11845	23163	198189	116775	-	-	Arf6	GGA3	AI788669|AW496366	-	FRET	physical	Hall B (2008)	PUBMED:18162163	10090	9606	Low Throughput	-	-	-	-	BIOGRID	P62331	Q3U0D7	NP_031507	Q9NZ52	B7Z456|A8K6M0	NP_619525|NP_001278571|NP_001278570|NP_001166175|NP_001166174|NP_054720	-	-	-	-	-	-	Mus musculus	Homo sapiens
+677618	11820	106039	198167	222979	-	-	App	Gga1	Abeta|Abpp|Adap|Ag|Cvap|E030013M08Rik|betaApp	4930406E12Rik|AU016030|AW209092	FRET	physical	von Arnim CA (2006)	PUBMED:17005855	10090	10090	Low Throughput	-	-	-	-	BIOGRID	P12023	Q3TWF3|Q6GR78	NP_031497|NP_001185754|NP_001185755|NP_001185752|NP_001185753	Q8R0H9	-	NP_666041	-	-	-	-	-	-	Mus musculus	Mus musculus
+678085	6923	6921	112785	112783	-	-	TCEB2	TCEB1	ELOB|SIII	SIII|eloC	FRET	physical	Kinoshita K (2007)	PUBMED:17922844	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q15370	-	NP_996896|NP_009039	Q15369	A0A024R7Y5	NP_001191786|NP_001191787|NP_001191793|NP_001191792|NP_001191791|NP_001191790|NP_001191788|NP_001191789|NP_005639	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+678090	6921	6923	112783	112785	-	-	TCEB1	TCEB2	SIII|eloC	ELOB|SIII	FRET	physical	Kinoshita K (2007)	PUBMED:17922844	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q15369	A0A024R7Y5	NP_001191786|NP_001191787|NP_001191793|NP_001191792|NP_001191791|NP_001191790|NP_001191788|NP_001191789|NP_005639	Q15370	-	NP_996896|NP_009039	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+679516	5795	1956	111759	108276	-	-	PTPRJ	EGFR	CD148|DEP1|HPTPeta|R-PTP-ETA|SCC1	ERBB|ERBB1|HER1|NISBD2|PIG61|mENA	FRET	physical	Tarcic G (2009)	PUBMED:19836242	9606	9606	Low Throughput	-	-	figure 5.	-	BIOGRID	Q12913	Q9NPR5	NP_002834|NP_001091973	P00533	-	NP_001333829|NP_001333828|NP_958440|NP_005219|NP_001333827|NP_001333826|NP_958441|NP_001333870|NP_958439	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+682876	672	2119	107140	108420	-	-	BRCA1	ETV5	BRCAI|BRCC1|BROVCA1|FANCS|IRIS|PNCA4|PPP1R53|PSCP|RNF53	ERM	FRET	physical	Coene ED (2011)	PUBMED:21282464	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P38398	E9PFZ0|A0A024R1V0	NP_009229|NP_009228|NP_009230|NP_009231|NP_009225	P41161	-	NP_004445	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+682972	4193	1026	110358	107460	-	-	MDM2	CDKN1A	ACTFS|HDMX|hdm2	CAP20|CDKN1|CIP1|MDA-6|P21|SDI1|WAF1|p21CIP1	FRET	physical	Xu H (2010)	PUBMED:20308078	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q00987	A7UKX8|Q96DS0|A7UKX9|A7UKX7|G3XA89	NP_001354919|NP_001265391|NP_002383|NP_001138811|NP_001138812|NP_001138809	P38936	A0A024RCX5	NP_001361441|NP_000380|NP_001361440|NP_001361442|NP_001361439|NP_001361438|NP_001278478|NP_510867|NP_001207706|NP_001207707	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+683105	7428	5580	113269	111566	-	-	VHL	PRKCD	HRCA1|RCA1|VHL1|pVHL	ALPS3|CVID9|MAY1|PKCD|nPKC-delta	FRET	physical	Iturrioz X (2006)	PUBMED:16669786	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P40337	A0A024R2F2	NP_000542|NP_937799	Q05655	A0A024R328	NP_001341607|NP_001341605|NP_001341608|NP_001341609|NP_006245|NP_997704|NP_001303256	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+683108	23770	54583	117270	120060	-	PNAS-118	FKBP8	EGLN1	FKBP38|FKBPr38	C1orf12|ECYT3|HIF-PH2|HIFPH2|HPH-2|HPH2|PHD2|SM20|ZMYND6	FRET	physical	Barth S (2009)	PUBMED:19546213	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14318	-	NP_036313|NP_001295302	Q9GZT9	R4SCQ0	NP_001364189|NP_071334|NP_001364190	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+683112	23770	5700	117270	111673	-	-	FKBP8	PSMC1	FKBP38|FKBPr38	P26S4|S4|p56	FRET	physical	Barth S (2009)	PUBMED:19546213	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14318	-	NP_036313|NP_001295302	P62191	Q53XL8	NP_002793|NP_001317141	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+683519	5371	7341	111384	113188	-	OK/SW-cl.43	PML	SUMO1	MYL|PP8675|RNF71|TRIM19	DAP1|GMP1|OFC10|PIC1|SENP2|SMT3|SMT3C|SMT3H3|UBL1	FRET	physical	Percherancier Y (2009)	PUBMED:19380586	9606	9606	Low Throughput	-	-	#LPPI|#LPTM|Likely post-translational modification|Likely protein-protein interaction	-	BIOGRID	P29590	-	NP_150250|NP_150253|NP_150252|NP_150247|NP_150241|NP_150242|NP_150243|NP_002666|NP_150249	P63165	A0A024R3Z2	NP_001358323|NP_001358322|NP_001358321|NP_001005782|NP_001005781|NP_003343	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+683521	5371	6047	111384	111974	-	RES4-26	PML	RNF4	MYL|PP8675|RNF71|TRIM19	SLX5|SNURF	FRET	physical	Percherancier Y (2009)	PUBMED:19380586	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P29590	-	NP_150250|NP_150253|NP_150252|NP_150247|NP_150241|NP_150242|NP_150243|NP_002666|NP_150249	P78317	-	NP_001171939|NP_001171938|NP_002929	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+683699	27339	23265	118151	116867	-	-	PRPF19	EXOC7	NMP200|PRP19|PSO4|SNEV|UBOX4|hPSO4	2-5-3p|EX070|EXO70|EXOC1|Exo70p|YJL085W	FRET	physical	Dellago H (2011)	PUBMED:21639856	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UMS4	-	NP_055317	Q9UPT5	B4DJ07|Q63HP7|B5MCY9	NP_001138770|NP_001138771|NP_001013861|NP_001138769|NP_056034|NP_001362904|NP_001362905|NP_001269243|NP_001269242|NP_001362903	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+685252	83737	9516	123747	114893	-	-	ITCH	LITAF	ADMFD|AIF4|AIP4|NAPP1|dJ468O1.1	PIG7|SIMPLE|TP53I7	FRET	physical	Eaton HE (2011)	PUBMED:21326863	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q96J02	-	NP_001311126|NP_113671|NP_001244066|NP_001311127|NP_001244067	Q99732	-	NP_001129945|NP_001129944|NP_004853	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+685438	4855	6921	110917	112783	DAQB-143M3.4	-	NOTCH4	TCEB1	INT3	SIII|eloC	FRET	physical	Cummins TD (2011)	PUBMED:22001063	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q99466	-	NP_004548	Q15369	A0A024R7Y5	NP_001191786|NP_001191787|NP_001191793|NP_001191792|NP_001191791|NP_001191790|NP_001191788|NP_001191789|NP_005639	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+685660	22034	109689	204307	224960	RP23-313G3.1	-	Traf6	Arrb1	2310003F17Rik|AI851288|C630032O20Rik	1200006I17Rik|AW208571|G430100A01Rik	FRET	physical	Wang Y (2006)	PUBMED:16378096	10090	10090	Low Throughput	-	-	figure 2.	-	BIOGRID	P70196	-	NP_033450	Q8BWG8	-	NP_835738|NP_796205	-	-	-	-	-	-	Mus musculus	Mus musculus
+685661	22034	216869	204307	229812	RP23-313G3.1	DN-491F10.4	Traf6	Arrb2	2310003F17Rik|AI851288|C630032O20Rik	AI326910|AW122872	FRET	physical	Wang Y (2006)	PUBMED:16378096	10090	10090	Low Throughput	-	-	figure 2.	-	BIOGRID	P70196	-	NP_033450	Q91YI4	J3JS97	NP_001258287|NP_663404|NP_001258289|NP_001258288	-	-	-	-	-	-	Mus musculus	Mus musculus
+691540	850518	850518	31120	31120	YFL026W	YFL026W	STE2	STE2	alpha-factor pheromone receptor STE2|L000002112	alpha-factor pheromone receptor STE2|L000002112	FRET	physical	Gehret AU (2012)	PUBMED:22923047	559292	559292	Low Throughput	-	-	-	-	BIOGRID	D6VTK4	-	NP_116627	D6VTK4	-	NP_116627	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+692111	7337	7332	113185	113180	-	-	UBE3A	UBE2L3	ANCR|AS|E6-AP|EPVE6AP|HPVE6A	E2-F1|L-UBC|UBCH7|UbcM4	FRET	physical	Eletr ZM (2007)	PUBMED:17433363	9606	9606	Low Throughput	-	-	Fluorescence polarization assay	-	BIOGRID	Q05086	Q9H2G0|Q9BUI6	NP_570854|NP_000453|NP_001341438|NP_001341435|NP_001341434|NP_001341437|NP_001341436|NP_001341475|NP_001341474|NP_001341477|NP_001341476|NP_001341471|NP_001341470|NP_001341473|NP_001341472|NP_001341455|NP_001341479|NP_001341452|NP_001341480|NP_001341478|NP_001361390|NP_001341467|NP_001341468|NP_001341469|NP_570853|NP_001341440|NP_001341441|NP_001341442	P68036	A0A024R1A4	NP_001243285|NP_001243284|NP_003338	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+692112	7337	9246	113185	114672	-	-	UBE3A	UBE2L6	ANCR|AS|E6-AP|EPVE6AP|HPVE6A	RIG-B|UBCH8	FRET	physical	Eletr ZM (2007)	PUBMED:17433363	9606	9606	Low Throughput	-	-	Fluorescence polarization assay	-	BIOGRID	Q05086	Q9H2G0|Q9BUI6	NP_570854|NP_000453|NP_001341438|NP_001341435|NP_001341434|NP_001341437|NP_001341436|NP_001341475|NP_001341474|NP_001341477|NP_001341476|NP_001341471|NP_001341470|NP_001341473|NP_001341472|NP_001341455|NP_001341479|NP_001341452|NP_001341480|NP_001341478|NP_001361390|NP_001341467|NP_001341468|NP_001341469|NP_570853|NP_001341440|NP_001341441|NP_001341442	O14933	-	NP_937826|NP_004214	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+692177	867	952	107315	107390	-	-	CBL	CD38	C-CBL|CBL2|FRA11B|NSLL|RNF55	ADPRC 1|T10	FRET	physical	Shen M (2009)	PUBMED:19635790	9606	9606	Low Throughput	-	-	figure 6.	-	BIOGRID	P22681	-	NP_005179	P28907	-	NP_001766	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+692504	997	8454	107432	114032	-	-	CDC34	CUL1	E2-CDC34|UBC3|UBCH3|UBE2R1	-	FRET	physical	Saha A (2008)	PUBMED:18851830	9606	9606	Low Throughput	-	-	Cdc34 interacts with cul1/rbx1	-	BIOGRID	P49427	A0A024R1Z1	NP_004350	Q13616	B3KTW0	NP_001357589|NP_003583|NP_001357591|NP_001357590|NP_001357593|NP_001357592	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+692936	9978	11146	115301	116318	RP11-554C12.1	-	RBX1	GLMN	BA554C12.1|RNF75|ROC1	FAP|FAP48|FAP68|FKBPAP|GLML|GVM|VMGLOM	FRET	physical	Duda DM (2012)	PUBMED:22748924	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P62877	-	NP_055063	Q92990	B4DJ85	NP_001306612|NP_444504	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+695396	10131	5704	115435	111677	-	-	TRAP1	PSMC4	HSP 75|HSP75|HSP90L|TRAP-1	MIP224|RPT3|S6|TBP-7|TBP7	FRET	physical	Amoroso MR (2011)	PUBMED:21979464	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q12931	Q53FS6	NP_001258978|NP_057376	P43686	A8K2M0	NP_694546|NP_006494	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+695768	172303	172941	37756	38355	T09B4.10	F25H2.8	chn-1	ubc-25	CELE_T09B4.10|1G758|tag-69	CELE_F25H2.8	FRET	physical	Schaeffer U (2010)	PUBMED:20047968	6239	6239	Low Throughput	-	-	-	-	BIOGRID	-	G5ECY6	NP_491781	-	Q93571	NP_492764	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+695845	6721	6721	112599	112599	CTA-250D10.14-005	CTA-250D10.14-005	SREBF2	SREBF2	SREBP-2|SREBP2|bHLHd2	SREBP-2|SREBP2|bHLHd2	FRET	physical	Zoumi A (2005)	PUBMED:15798184	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q12772	A0A024R1Q0	NP_004590	Q12772	A0A024R1Q0	NP_004590	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+695846	6720	6721	112598	112599	-	CTA-250D10.14-005	SREBF1	SREBF2	SREBP-1c|SREBP1|bHLHd1	SREBP-2|SREBP2|bHLHd2	FRET	physical	Zoumi A (2005)	PUBMED:15798184	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P36956	-	NP_004167|NP_001308025|NP_001005291	Q12772	A0A024R1Q0	NP_004590	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+695847	6720	6720	112598	112598	-	-	SREBF1	SREBF1	SREBP-1c|SREBP1|bHLHd1	SREBP-1c|SREBP1|bHLHd1	FRET	physical	Zoumi A (2005)	PUBMED:15798184	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P36956	-	NP_004167|NP_001308025|NP_001005291	P36956	-	NP_004167|NP_001308025|NP_001005291	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+696916	10987	7295	116183	113146	-	RP11-427L11.1	COPS5	TXN	CSN5|JAB1|MOV-34|SGN5	TRDX|TRX|TRX1	FRET	physical	Hwang CY (2004)	PUBMED:15480426	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q92905	A0A024R7W9	NP_006828	P10599	H9ZYJ2	NP_003320|NP_001231867	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+696945	9618	7189	114979	113041	-	-	TRAF4	TRAF6	CART1|MLN62|RNF83	MGC:3310|RNF85	FRET	physical	Takeshita F (2005)	PUBMED:16052631	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9BUZ4	A0A024QZ59	NP_004286	Q9Y4K3	-	NP_004611|NP_665802	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+696984	7186	7186	113038	113038	-	-	TRAF2	TRAF2	MGC:45012|TRAP|TRAP3	MGC:45012|TRAP|TRAP3	FRET	physical	He L (2004)	PUBMED:15383523	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q12933	A0A024R8H5	NP_066961	Q12933	A0A024R8H5	NP_066961	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+696985	7187	7187	113039	113039	-	-	TRAF3	TRAF3	CAP-1|CAP1|CD40bp|CRAF1|IIAE5|LAP1	CAP-1|CAP1|CD40bp|CRAF1|IIAE5|LAP1	FRET	physical	He L (2004)	PUBMED:15383523	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13114	A6NHG8	NP_663777|NP_001186356|NP_663778|NP_001372072|NP_001372071|NP_003291	Q13114	A6NHG8	NP_663777|NP_001186356|NP_663778|NP_001372072|NP_001372071|NP_003291	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+696986	7185	7186	113037	113038	-	-	TRAF1	TRAF2	EBI6|MGC:10353	MGC:45012|TRAP|TRAP3	FRET	physical	He L (2004)	PUBMED:15383523	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13077	-	NP_005649|NP_001177876|NP_001177874	Q12933	A0A024R8H5	NP_066961	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+696987	7187	7188	113039	113040	-	RP11-318L16.2	TRAF3	TRAF5	CAP-1|CAP1|CD40bp|CRAF1|IIAE5|LAP1	MGC:39780|RNF84	FRET	physical	He L (2004)	PUBMED:15383523	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13114	A6NHG8	NP_663777|NP_001186356|NP_663778|NP_001372072|NP_001372071|NP_003291	O00463	D3DT93	NP_004610|NP_001029082|NP_665702	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+696988	7186	7187	113038	113039	-	-	TRAF2	TRAF3	MGC:45012|TRAP|TRAP3	CAP-1|CAP1|CD40bp|CRAF1|IIAE5|LAP1	FRET	physical	He L (2004)	PUBMED:15383523	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q12933	A0A024R8H5	NP_066961	Q13114	A6NHG8	NP_663777|NP_001186356|NP_663778|NP_001372072|NP_001372071|NP_003291	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+697086	3654	3665	109863	109873	-	-	IRAK1	IRF7	IRAK|pelle	IRF-7H|IRF7A|IRF7B|IRF7C|IRF7H	FRET	physical	Uematsu S (2005)	PUBMED:15767370	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P51617	D3YTB5	NP_001020413|NP_001560|NP_001020414	Q92985	A0A024RCA2|M9RSF4	NP_004022|NP_004020|NP_001563	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+697802	2775	2550	109037	108825	-	DAAP-188P13.3	GNAO1	GABBR1	EIEE17|G-ALPHA-o|GNAO	GABABR1|GABBR1-3|GB1|GPRC3A|dJ271M21.1.1|dJ271M21.1.2	FRET	physical	Fowler CE (2007)	PUBMED:17185339	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P09471	Q8N6I9|Q6AWC5|B3KP89	NP_620073|NP_066268	Q9UBS5	Q5SUJ9|Q8IW08	NP_001461|NP_068703|NP_068704|NP_001305982	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+697811	3763	2550	109965	108825	-	DAAP-188P13.3	KCNJ6	GABBR1	BIR1|GIRK-2|GIRK2|KATP-2|KATP2|KCNJ7|KIR3.2|hiGIRK2	GABABR1|GABBR1-3|GB1|GPRC3A|dJ271M21.1.1|dJ271M21.1.2	FRET	physical	Fowler CE (2007)	PUBMED:17185339	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P48051	-	NP_002231	Q9UBS5	Q5SUJ9|Q8IW08	NP_001461|NP_068703|NP_068704|NP_001305982	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+697812	5999	2550	111931	108825	RP11-430G6.1	DAAP-188P13.3	RGS4	GABBR1	RGP4|SCZD9	GABABR1|GABBR1-3|GB1|GPRC3A|dJ271M21.1.1|dJ271M21.1.2	FRET	physical	Fowler CE (2007)	PUBMED:17185339	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P49798	A0A024R909	NP_001106851|NP_001106852|NP_001095915|NP_005604	Q9UBS5	Q5SUJ9|Q8IW08	NP_001461|NP_068703|NP_068704|NP_001305982	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+714721	24400	25398	246567	247433	-	-	Gnb1	Cacna1a	-	BccA1|Cav2.1|rbA-1	FRET	physical	Agler HL (2005)	PUBMED:15953418	10116	10116	Low Throughput	-	-	-	-	BIOGRID	P54311	-	NP_112249	P54282	O70368	NP_037050	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+715203	3738	915	109941	107353	RP11-284N8.3	-	KCNA3	CD3D	HGK5|HLK3|HPCN3|HUKIII|KV1.3|MK3|PCN3	CD3-DELTA|IMD19|T3D	FRET	physical	Panyi G (2003)	PUBMED:12604782	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P22001	-	NP_002223	P04234	B0YIY4	NP_000723|NP_001035741	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+715470	3551	7161	109767	113014	-	-	IKBKB	TP73	IKK-beta|IKK2|IKKB|IMD15|NFKBIKB	P73	FRET	physical	Accardi R (2011)	PUBMED:21482671	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O14920	-	NP_001547|NP_001177649|NP_001229707	O15350	A0A024R4C3	NP_005418|NP_001191120|NP_001119714|NP_001119713|NP_001119712|NP_001191118|NP_001191115|NP_001191114|NP_001191117|NP_001191116|NP_001191113|NP_001191119|NP_001191121	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+716073	3551	7185	109767	113037	-	-	IKBKB	TRAF1	IKK-beta|IKK2|IKKB|IMD15|NFKBIKB	EBI6|MGC:10353	FRET	physical	Sughra K (2010)	PUBMED:20856938	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O14920	-	NP_001547|NP_001177649|NP_001229707	Q13077	-	NP_005649|NP_001177876|NP_001177874	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+716089	3551	1438	109767	107825	-	-	IKBKB	CSF2RA	IKK-beta|IKK2|IKKB|IMD15|NFKBIKB	CD116|CDw116|CSF2R|CSF2RAX|CSF2RAY|CSF2RX|CSF2RY|GM-CSF-R-alpha|GMCSFR|GMR|SMDP4	FRET	physical	Ebner K (2003)	PUBMED:12637324	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O14920	-	NP_001547|NP_001177649|NP_001229707	P15509	-	NP_001155003|NP_001155002|NP_001155001|NP_001155004|NP_758448|NP_758449|NP_758452|NP_758450|NP_006131	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+717145	596	672	107068	107140	-	-	BCL2	BRCA1	Bcl-2|PPP1R50	BRCAI|BRCC1|BROVCA1|FANCS|IRIS|PNCA4|PPP1R53|PSCP|RNF53	FRET	physical	Laulier C (2011)	PUBMED:21444675	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P10415	A0A024R2B3|A0A024R2C4	NP_000624|NP_000648	P38398	E9PFZ0|A0A024R1V0	NP_009229|NP_009228|NP_009230|NP_009231|NP_009225	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+717254	10459	5546	115722	111537	RP3-330O12.4	RP11-66D17.11-004	MAD2L2	PRCC	MAD2B|POLZ2|REV7	RCCP1|TPRC	FRET	physical	Weterman MA (2001)	PUBMED:11717438	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UI95	A0A024R4I4	NP_001120797|NP_006332	Q92733	Q96FT4	NP_005964	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+717300	3061	409	109311	106902	-	-	HCRTR1	ARRB2	OX1R	ARB2|ARR2|BARR2	FRET	physical	Dalrymple MB (2011)	PUBMED:21378163	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O43613	-	NP_001516	P32121	K7ENA6|Q68DZ5|Q59EM5	NP_001244257|NP_001244259|NP_001244258|NP_001316993|NP_001244260|NP_004304|NP_945355	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+717301	3061	408	109311	106901	-	-	HCRTR1	ARRB1	OX1R	ARB1|ARR1	FRET	physical	Dalrymple MB (2011)	PUBMED:21378163	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O43613	-	NP_001516	P49407	B7Z1Q3	NP_004032|NP_064647	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+717302	409	7316	106902	113164	-	-	ARRB2	UBC	ARB2|ARR2|BARR2	HMG20	FRET	physical	Dalrymple MB (2011)	PUBMED:21378163	9606	9606	Low Throughput	-	-	#LPPI|Likely protein-protein interaction	-	BIOGRID	P32121	K7ENA6|Q68DZ5|Q59EM5	NP_001244257|NP_001244259|NP_001244258|NP_001316993|NP_001244260|NP_004304|NP_945355	P0CG48	-	NP_066289	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+717730	3738	3741	109941	109943	RP11-284N8.3	-	KCNA3	KCNA5	HGK5|HLK3|HPCN3|HUKIII|KV1.3|MK3|PCN3	ATFB7|HCK1|HK2|HPCN1|KV1.5|PCN1	FRET	physical	Vicente R (2008)	PUBMED:18218624	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P22001	-	NP_002223	P22460	-	NP_002225	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+717749	3656	3654	109865	109863	-	-	IRAK2	IRAK1	IRAK-2	IRAK|pelle	FRET	physical	Ross K (2002)	PUBMED:12138165	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O43187	-	NP_001561	P51617	D3YTB5	NP_001020413|NP_001560|NP_001020414	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+717750	3654	3656	109863	109865	-	-	IRAK1	IRAK2	IRAK|pelle	IRAK-2	FRET	physical	Ross K (2002)	PUBMED:12138165	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P51617	D3YTB5	NP_001020413|NP_001560|NP_001020414	O43187	-	NP_001561	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+717751	3654	11213	109863	116382	-	-	IRAK1	IRAK3	IRAK|pelle	ASRT5|IRAKM	FRET	physical	Ross K (2002)	PUBMED:12138165	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P51617	D3YTB5	NP_001020413|NP_001560|NP_001020414	Q9Y616	-	NP_009130|NP_001135995	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+718150	844055	838230	29274	23470	AT1G77180	AT1G16610	SKIP	SR45	T14N5.5|T14N5_5	ARGININE/SERINE-RICH PROTEIN SR45|F19K19.9|F19K19_9|RNPS1|arginine/serine-rich 45	FRET	physical	Wang X (2012)	PUBMED:22942380	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O80653	-	NP_565151|NP_001031291|NP_001185416	Q9SEE9	-	NP_973844|NP_001185014|NP_173107	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+719352	867	952	107315	107390	-	-	CBL	CD38	C-CBL|CBL2|FRA11B|NSLL|RNF55	ADPRC 1|T10	FRET	physical	Shen M (2008)	PUBMED:18974118	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P22681	-	NP_005179	P28907	-	NP_001766	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+719402	367	5080	106862	111114	RP11-383C12.1	-	AR	PAX6	AIS|DHTR|HUMARA|HYSP1|KD|NR3C4|SBMA|SMAX1|TFM	AN|AN2|D11S812E|FVH1|MGDA|WAGR	FRET	physical	Elvenes J (2011)	PUBMED:21935435	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P10275	F1D8N5	NP_001011645|NP_000035	P26367	F1T0F8|Q66SS1	NP_000271|NP_001595|NP_001245393|NP_001245392|NP_001245391|NP_001245394|NP_001121084	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+719865	841	7189	107291	113041	-	-	CASP8	TRAF6	ALPS2B|CAP4|Casp-8|FLICE|MACH|MCH5	MGC:3310|RNF85	FRET	physical	He L (2006)	PUBMED:16436380	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14790	A0A024R3Z8	NP_203520|NP_203519|NP_203522|NP_001073593|NP_001073594|NP_001219	Q9Y4K3	-	NP_004611|NP_665802	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+720004	27339	27339	118151	118151	-	-	PRPF19	PRPF19	NMP200|PRP19|PSO4|SNEV|UBOX4|hPSO4	NMP200|PRP19|PSO4|SNEV|UBOX4|hPSO4	FRET	physical	Grillari J (2005)	PUBMED:16332694	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UMS4	-	NP_055317	Q9UMS4	-	NP_055317	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+720044	24520	24520	246675	246675	-	-	Kcna1	Kcna1	Kcna|Kcpvd|Kv1.1	Kcna|Kcpvd|Kv1.1	FRET	physical	Mederos Y Schnitzler M (2009)	PUBMED:19074135	10116	10116	Low Throughput	-	-	-	-	BIOGRID	P10499	-	NP_775118	P10499	-	NP_775118	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+720053	3745	3745	109947	109947	-	-	KCNB1	KCNB1	DRK1|EIEE26|KV2.1|h-DRK1	DRK1|EIEE26|KV2.1|h-DRK1	FRET	physical	Mederos Y Schnitzler M (2009)	PUBMED:19074135	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14721	-	NP_004966	Q14721	-	NP_004966	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+720054	3745	170850	109947	128090	-	-	KCNB1	KCNG3	DRK1|EIEE26|KV2.1|h-DRK1	KV10.1|KV6.3	FRET	physical	Mederos Y Schnitzler M (2009)	PUBMED:19074135	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14721	-	NP_004966	Q8TAE7	-	NP_758847|NP_579875	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+720055	3745	93107	109947	125002	-	-	KCNB1	KCNG4	DRK1|EIEE26|KV2.1|h-DRK1	KV6.3|KV6.4	FRET	physical	Mederos Y Schnitzler M (2009)	PUBMED:19074135	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14721	-	NP_004966	Q8TDN1	Q547S7|Q32MC1	NP_758857	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+720331	10892	8915	116098	114429	-	RP11-234D19.2	MALT1	BCL10	IMD12|MLT|MLT1	CARMEN|CIPER|CLAP|IMD37|c-E10|mE10	FRET	physical	Langel FD (2008)	PUBMED:18806265	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UDY8	A8K5S1	NP_006776|NP_776216	O95999	-	NP_001307644|NP_003912	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+720365	3737	2017	109940	108332	RP11-284N8.1	-	KCNA2	CTTN	HBK5|HK4|HUKIV|KV1.2|MK2|NGK1|RBK2	EMS1	FRET	physical	Williams MR (2007)	PUBMED:17959782	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P16389	A8K1Z6|A0A024R0D3	NP_004965|NP_001191198	Q14247	Q53HG7|A0A024R5M3	NP_001171669|NP_612632|NP_005222	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+720366	2017	3737	108332	109940	-	RP11-284N8.1	CTTN	KCNA2	EMS1	HBK5|HK4|HUKIV|KV1.2|MK2|NGK1|RBK2	FRET	physical	Williams MR (2007)	PUBMED:17959782	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14247	Q53HG7|A0A024R5M3	NP_001171669|NP_612632|NP_005222	P16389	A8K1Z6|A0A024R0D3	NP_004965|NP_001191198	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721175	51143	8517	119327	114089	-	-	DYNC1LI1	IKBKG	DNCLI1|LIC1	AMCBX1|FIP-3|FIP3|Fip3p|IKK-gamma|IMD33|IP|IP1|IP2|IPD2|NEMO|ZC2HC9	FRET	physical	Horgan CP (2010)	PUBMED:20026645	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9Y6G9	-	NP_057225|NP_001316064	Q9Y6K9	A0A087X1B1	NP_003630|NP_001138727|NP_001364244|NP_001364243|NP_001364242|NP_001364241|NP_001308326|NP_001308325|NP_001093327|NP_001093326	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721511	154	2778	106663	109040	-	RP4-543J19.4	ADRB2	GNAS	ADRB2R|ADRBR|B2AR|BAR|BETA2AR	AHO|C20orf45|GNAS1|GPSA|GSA|GSP|NESP|PHP1A|PHP1B|PHP1C|POH	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	interaction detected by BRET	-	BIOGRID	P07550	-	NP_000015	P84996|Q5JWF2|O95467|P63092	-	NP_057676|NP_001296790|NP_000507|NP_536351|NP_001296771|NP_001070958|NP_001070957|NP_001070956|NP_001296769|NP_536350	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721512	154	2782	106663	109044	-	RP1-283E3.7	ADRB2	GNB1	ADRB2R|ADRBR|B2AR|BAR|BETA2AR	-	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	interaction detected by BRET	-	BIOGRID	P07550	-	NP_000015	P62873	A0A024R056|B3KVK2	NP_002065|NP_001269468|NP_001269467	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721513	154	54331	106663	119933	-	-	ADRB2	GNG2	ADRB2R|ADRBR|B2AR|BAR|BETA2AR	-	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	interaction detected by BRET	-	BIOGRID	P07550	-	NP_000015	P59768	-	NP_444292|NP_001230702|NP_001230703	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721514	554	2782	107035	109044	-	RP1-283E3.7	AVPR2	GNB1	ADHR|DI1|DIR|DIR3|NDI|V2R	-	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	interaction detected by BRET	-	BIOGRID	P30518	-	NP_000045|NP_001139623	P62873	A0A024R056|B3KVK2	NP_002065|NP_001269468|NP_001269467	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721515	554	54331	107035	119933	-	-	AVPR2	GNG2	ADHR|DI1|DIR|DIR3|NDI|V2R	-	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	interaction detected by BRET	-	BIOGRID	P30518	-	NP_000045|NP_001139623	P59768	-	NP_444292|NP_001230702|NP_001230703	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721516	154	2771	106663	109033	-	-	ADRB2	GNAI2	ADRB2R|ADRBR|B2AR|BAR|BETA2AR	GIP|GNAI2B|H_LUCA15.1|H_LUCA16.1	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	interaction detected by BRET	-	BIOGRID	P07550	-	NP_000015	P04899	B3KX51|B3KP24	NP_001159897|NP_002061|NP_001269548|NP_001269549|NP_001269546|NP_001269547	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721517	554	2778	107035	109040	-	RP4-543J19.4	AVPR2	GNAS	ADHR|DI1|DIR|DIR3|NDI|V2R	AHO|C20orf45|GNAS1|GPSA|GSA|GSP|NESP|PHP1A|PHP1B|PHP1C|POH	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	interaction detected by BRET	-	BIOGRID	P30518	-	NP_000045|NP_001139623	P84996|Q5JWF2|O95467|P63092	-	NP_057676|NP_001296790|NP_000507|NP_536351|NP_001296771|NP_001070958|NP_001070957|NP_001070956|NP_001296769|NP_536350	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721518	150	2771	106659	109033	-	-	ADRA2A	GNAI2	ADRA2|ADRA2R|ADRAR|ALPHA2AAR|ZNF32	GIP|GNAI2B|H_LUCA15.1|H_LUCA16.1	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	interaction detected by BRET	-	BIOGRID	P08913	-	NP_000672	P04899	B3KX51|B3KP24	NP_001159897|NP_002061|NP_001269548|NP_001269549|NP_001269546|NP_001269547	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721519	150	2782	106659	109044	-	RP1-283E3.7	ADRA2A	GNB1	ADRA2|ADRA2R|ADRAR|ALPHA2AAR|ZNF32	-	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	interaction detected by BRET	-	BIOGRID	P08913	-	NP_000672	P62873	A0A024R056|B3KVK2	NP_002065|NP_001269468|NP_001269467	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721520	150	54331	106659	119933	-	-	ADRA2A	GNG2	ADRA2|ADRA2R|ADRAR|ALPHA2AAR|ZNF32	-	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	interaction detected by BRET	-	BIOGRID	P08913	-	NP_000672	P59768	-	NP_444292|NP_001230702|NP_001230703	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721521	259249	2776	129233	109038	-	RP11-494N1.1	MRGPRX1	GNAQ	GPCR|MGRG2|MRGX1|SNSR4	CMC1|G-ALPHA-q|GAQ|SWS	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	interaction detected by BRET	-	BIOGRID	Q96LB2	W8W3P5	NP_671732	P50148	A0A024R240	NP_002063	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721522	259249	2771	129233	109033	-	-	MRGPRX1	GNAI2	GPCR|MGRG2|MRGX1|SNSR4	GIP|GNAI2B|H_LUCA15.1|H_LUCA16.1	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	interaction detected by BRET	-	BIOGRID	Q96LB2	W8W3P5	NP_671732	P04899	B3KX51|B3KP24	NP_001159897|NP_002061|NP_001269548|NP_001269549|NP_001269546|NP_001269547	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721523	259249	2782	129233	109044	-	RP1-283E3.7	MRGPRX1	GNB1	GPCR|MGRG2|MRGX1|SNSR4	-	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	interaction detected by BRET	-	BIOGRID	Q96LB2	W8W3P5	NP_671732	P62873	A0A024R056|B3KVK2	NP_002065|NP_001269468|NP_001269467	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721524	259249	54331	129233	119933	-	-	MRGPRX1	GNG2	GPCR|MGRG2|MRGX1|SNSR4	-	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	interaction detected by BRET	-	BIOGRID	Q96LB2	W8W3P5	NP_671732	P59768	-	NP_444292|NP_001230702|NP_001230703	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721525	6915	2778	112777	109040	-	RP4-543J19.4	TBXA2R	GNAS	BDPLT13|TXA2-R	AHO|C20orf45|GNAS1|GPSA|GSA|GSP|NESP|PHP1A|PHP1B|PHP1C|POH	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	Isoforms (Uniprot IDs): P21731-3 interacts with Q5FWY2|Thromboxane receptor alpha interacted with G protein subunits|interaction detected by BRET	-	BIOGRID	P21731	Q0VAB0|Q05C92	NP_963998|NP_001051	P84996|Q5JWF2|O95467|P63092	-	NP_057676|NP_001296790|NP_000507|NP_536351|NP_001296771|NP_001070958|NP_001070957|NP_001070956|NP_001296769|NP_536350	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721526	6915	10672	112777	115914	-	-	TBXA2R	GNA13	BDPLT13|TXA2-R	G13	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	Isoforms (Uniprot IDs): P21731-3 interacts with Q14344|Thromboxane receptor alpha interacted with G protein subunits|interaction detected by BRET	-	BIOGRID	P21731	Q0VAB0|Q05C92	NP_963998|NP_001051	Q14344	A0A024R8M0	NP_006563|NP_001269354	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721527	6915	2776	112777	109038	-	RP11-494N1.1	TBXA2R	GNAQ	BDPLT13|TXA2-R	CMC1|G-ALPHA-q|GAQ|SWS	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	Isoforms (Uniprot IDs): P21731-3 interacts with P50148|Thromboxane receptor alpha interacted with G protein subunits|interaction detected by BRET	-	BIOGRID	P21731	Q0VAB0|Q05C92	NP_963998|NP_001051	P50148	A0A024R240	NP_002063	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721528	6915	2771	112777	109033	-	-	TBXA2R	GNAI2	BDPLT13|TXA2-R	GIP|GNAI2B|H_LUCA15.1|H_LUCA16.1	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	Isoforms (Uniprot IDs): P21731-3 interacts with P04899|Thromboxane receptor alpha interacted with G protein subunits|interaction detected by BRET	-	BIOGRID	P21731	Q0VAB0|Q05C92	NP_963998|NP_001051	P04899	B3KX51|B3KP24	NP_001159897|NP_002061|NP_001269548|NP_001269549|NP_001269546|NP_001269547	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721529	6915	2782	112777	109044	-	RP1-283E3.7	TBXA2R	GNB1	BDPLT13|TXA2-R	-	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	Isoforms (Uniprot IDs): P21731-3 interacts with P62873|Thromboxane receptor alpha interacted with G protein subunits|interaction detected by BRET	-	BIOGRID	P21731	Q0VAB0|Q05C92	NP_963998|NP_001051	P62873	A0A024R056|B3KVK2	NP_002065|NP_001269468|NP_001269467	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721530	6915	54331	112777	119933	-	-	TBXA2R	GNG2	BDPLT13|TXA2-R	-	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	Isoforms (Uniprot IDs): P21731-3 interacts with P59768|Thromboxane receptor alpha interacted with G protein subunits|interaction detected by BRET	-	BIOGRID	P21731	Q0VAB0|Q05C92	NP_963998|NP_001051	P59768	-	NP_444292|NP_001230702|NP_001230703	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721531	2782	54331	109044	119933	RP1-283E3.7	-	GNB1	GNG2	-	-	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	interaction detected by BRET	-	BIOGRID	P62873	A0A024R056|B3KVK2	NP_002065|NP_001269468|NP_001269467	P59768	-	NP_444292|NP_001230702|NP_001230703	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721535	2782	2778	109044	109040	RP1-283E3.7	RP4-543J19.4	GNB1	GNAS	-	AHO|C20orf45|GNAS1|GPSA|GSA|GSP|NESP|PHP1A|PHP1B|PHP1C|POH	FRET	physical	Gales C (2005)	PUBMED:15782186	9606	9606	Low Throughput	-	-	interaction detected by BRET	-	BIOGRID	P62873	A0A024R056|B3KVK2	NP_002065|NP_001269468|NP_001269467	P84996|Q5JWF2|O95467|P63092	-	NP_057676|NP_001296790|NP_000507|NP_536351|NP_001296771|NP_001070958|NP_001070957|NP_001070956|NP_001296769|NP_536350	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721642	1029	23163	107463	116775	-	-	CDKN2A	GGA3	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	-	FRET	physical	Bill A (2011)	PUBMED:21517092	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	Q9NZ52	B7Z456|A8K6M0	NP_619525|NP_001278571|NP_001278570|NP_001166175|NP_001166174|NP_054720	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721856	23770	54583	117270	120060	-	PNAS-118	FKBP8	EGLN1	FKBP38|FKBPr38	C1orf12|ECYT3|HIF-PH2|HIFPH2|HPH-2|HPH2|PHD2|SM20|ZMYND6	FRET	physical	Brockmeier U (2011)	PUBMED:21559462	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14318	-	NP_036313|NP_001295302	Q9GZT9	R4SCQ0	NP_001364189|NP_071334|NP_001364190	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721857	7184	10956	113036	116156	-	-	HSP90B1	OS9	ECGP|GP96|GRP94|HEL-S-125m|HEL35|TRA1	ERLEC2|OS-9	FRET	physical	Brockmeier U (2011)	PUBMED:21559462	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P14625	V9HWP2	NP_003290	Q13438	-	NP_006803|NP_001248350|NP_001248351|NP_001248352|NP_001017956|NP_001017957|NP_001017958|NP_001248349	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+721877	409	4193	106902	110358	-	-	ARRB2	MDM2	ARB2|ARR2|BARR2	ACTFS|HDMX|hdm2	FRET	physical	Boularan C (2007)	PUBMED:17984062	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P32121	K7ENA6|Q68DZ5|Q59EM5	NP_001244257|NP_001244259|NP_001244258|NP_001316993|NP_001244260|NP_004304|NP_945355	Q00987	A7UKX8|Q96DS0|A7UKX9|A7UKX7|G3XA89	NP_001354919|NP_001265391|NP_002383|NP_001138811|NP_001138812|NP_001138809	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+722123	55297	55297	120584	120584	HSD8	HSD8	CCDC91	CCDC91	p56	p56	FRET	physical	Mardones GA (2007)	PUBMED:17596511	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q7Z6B0	A0A024RAW6|Q05D28	NP_001339009|NP_001339008|NP_001339010|NP_060788|NP_001339012|NP_001339013|NP_001339007|NP_001339015|NP_001339016|NP_001317296|NP_001373929|NP_001339011	Q7Z6B0	A0A024RAW6|Q05D28	NP_001339009|NP_001339008|NP_001339010|NP_060788|NP_001339012|NP_001339013|NP_001339007|NP_001339015|NP_001339016|NP_001317296|NP_001373929|NP_001339011	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+722124	55297	26088	120584	117540	HSD8	RP1-37E16.3	CCDC91	GGA1	p56	-	FRET	physical	Mardones GA (2007)	PUBMED:17596511	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q7Z6B0	A0A024RAW6|Q05D28	NP_001339009|NP_001339008|NP_001339010|NP_060788|NP_001339012|NP_001339013|NP_001339007|NP_001339015|NP_001339016|NP_001317296|NP_001373929|NP_001339011	Q9UJY5	Q6IC75	NP_001001560|NP_001001561|NP_001166159|NP_001166158|NP_001350700|NP_037497	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+722342	10134	3105	115437	109350	-	DAQB-90C11.16-002	BCAP31	HLA-A	6C6-AG|BAP31|CDM|DDCH|DXS1357E	HLAA	FRET	physical	Abe F (2009)	PUBMED:19342655	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P51572	-	NP_001243376|NP_005736|NP_001132929|NP_001132913	P01892|P30443|P30450|P04439	B2R7U3|Q9GJ45|Q5SUL5|Q53Z42|B1PKY1|Q5SPM2	NP_001229687|NP_002107	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+722343	10134	10134	115437	115437	-	-	BCAP31	BCAP31	6C6-AG|BAP31|CDM|DDCH|DXS1357E	6C6-AG|BAP31|CDM|DDCH|DXS1357E	FRET	physical	Abe F (2009)	PUBMED:19342655	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P51572	-	NP_001243376|NP_005736|NP_001132929|NP_001132913	P51572	-	NP_001243376|NP_005736|NP_001132929|NP_001132913	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+722344	10134	55973	115437	121019	-	-	BCAP31	BCAP29	6C6-AG|BAP31|CDM|DDCH|DXS1357E	BAP29	FRET	physical	Abe F (2009)	PUBMED:19342655	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P51572	-	NP_001243376|NP_005736|NP_001132929|NP_001132913	Q9UHQ4	E9PAJ1	NP_001350411|NP_001350412|NP_001358284|NP_061332|NP_001358286|NP_001008405|NP_001358282|NP_001358283	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+722345	10134	3998	115437	110185	-	-	BCAP31	LMAN1	6C6-AG|BAP31|CDM|DDCH|DXS1357E	ERGIC-53|ERGIC53|F5F8D|FMFD1|MCFD1|MR60|gp58	FRET	physical	Abe F (2009)	PUBMED:19342655	9606	9606	Low Throughput	-	-	interaction also detected by immuno-electron microscopy	-	BIOGRID	P51572	-	NP_001243376|NP_005736|NP_001132929|NP_001132913	P49257	A0A024R2A7	NP_005561	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+722383	1410	1409	107800	107799	-	-	CRYAB	CRYAA	CMD1II|CRYA2|CTPP2|CTRCT16|HEL-S-101|HSPB5|MFM2	CRYA1|CTRCT9|HSPB4	FRET	physical	Sreelakshmi Y (2005)	PUBMED:16142923	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P02511	V9HW27	NP_001876|NP_001355175|NP_001355174|NP_001317308|NP_001276737|NP_001276736	P02489	E9PHE4	NP_000385	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+722398	5868	2900	111806	109157	-	-	RAB5A	GRIK4	RAB5	EAA1|GRIK|GluK4|KA1	FRET	physical	Galperin E (2004)	PUBMED:15782196	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P20339	A0A024R2K1	NP_001278977|NP_004153	Q16099	B2RAP6|A6H8K8	NP_055434|NP_001269399|NP_001269402	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+722917	4615	3663	110700	109871	-	-	MYD88	IRF5	MYD88D	SLEB10	FRET	physical	Takaoka A (2005)	PUBMED:15665823	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q99836	-	NP_002459|NP_001166039|NP_001166038|NP_001166040|NP_001166037	Q13568	A0A024R763|B7Z1M2	NP_001092099|NP_116032|NP_001092100|NP_001092097|NP_001229381	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+723100	5371	6047	111384	111974	-	RES4-26	PML	RNF4	MYL|PP8675|RNF71|TRIM19	SLX5|SNURF	FRET	physical	Maroui MA (2012)	PUBMED:23028697	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P29590	-	NP_150250|NP_150253|NP_150252|NP_150247|NP_150241|NP_150242|NP_150243|NP_002666|NP_150249	P78317	-	NP_001171939|NP_001171938|NP_002929	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+723337	551	1410	107032	107800	-	-	AVP	CRYAB	ADH|ARVP|AVP-NPII|AVRP|VP	CMD1II|CRYA2|CTPP2|CTRCT16|HEL-S-101|HSPB5|MFM2	FRET	physical	Santhoshkumar P (2006)	PUBMED:17075130	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P01185	X5DQP6	NP_000481	P02511	V9HW27	NP_001876|NP_001355175|NP_001355174|NP_001317308|NP_001276737|NP_001276736	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+723516	2782	2770	109044	109032	RP1-283E3.7	-	GNB1	GNAI1	-	Gi	FRET	physical	Gibson SK (2006)	PUBMED:16371464	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P62873	A0A024R056|B3KVK2	NP_002065|NP_001269468|NP_001269467	P63096	-	NP_001243343|NP_002060	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+723517	2782	2771	109044	109033	RP1-283E3.7	-	GNB1	GNAI2	-	GIP|GNAI2B|H_LUCA15.1|H_LUCA16.1	FRET	physical	Gibson SK (2006)	PUBMED:16371464	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P62873	A0A024R056|B3KVK2	NP_002065|NP_001269468|NP_001269467	P04899	B3KX51|B3KP24	NP_001159897|NP_002061|NP_001269548|NP_001269549|NP_001269546|NP_001269547	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+723518	2782	2773	109044	109035	RP1-283E3.7	RP5-1160K1.2	GNB1	GNAI3	-	87U6|ARCND1	FRET	physical	Gibson SK (2006)	PUBMED:16371464	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P62873	A0A024R056|B3KVK2	NP_002065|NP_001269468|NP_001269467	P08754	-	NP_006487	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+723519	2783	2770	109045	109032	-	-	GNB2	GNAI1	-	Gi	FRET	physical	Gibson SK (2006)	PUBMED:16371464	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P62879	Q6FHM2	NP_005264	P63096	-	NP_001243343|NP_002060	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+723520	2783	2771	109045	109033	-	-	GNB2	GNAI2	-	GIP|GNAI2B|H_LUCA15.1|H_LUCA16.1	FRET	physical	Gibson SK (2006)	PUBMED:16371464	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P62879	Q6FHM2	NP_005264	P04899	B3KX51|B3KP24	NP_001159897|NP_002061|NP_001269548|NP_001269549|NP_001269546|NP_001269547	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+723521	2783	2773	109045	109035	-	RP5-1160K1.2	GNB2	GNAI3	-	87U6|ARCND1	FRET	physical	Gibson SK (2006)	PUBMED:16371464	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P62879	Q6FHM2	NP_005264	P08754	-	NP_006487	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+723522	59345	2770	121887	109032	RP11-145M9.4	-	GNB4	GNAI1	CMTD1F	Gi	FRET	physical	Gibson SK (2006)	PUBMED:16371464	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9HAV0	-	NP_067642	P63096	-	NP_001243343|NP_002060	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+723523	59345	2771	121887	109033	RP11-145M9.4	-	GNB4	GNAI2	CMTD1F	GIP|GNAI2B|H_LUCA15.1|H_LUCA16.1	FRET	physical	Gibson SK (2006)	PUBMED:16371464	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9HAV0	-	NP_067642	P04899	B3KX51|B3KP24	NP_001159897|NP_002061|NP_001269548|NP_001269549|NP_001269546|NP_001269547	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+723524	59345	2773	121887	109035	RP11-145M9.4	RP5-1160K1.2	GNB4	GNAI3	CMTD1F	87U6|ARCND1	FRET	physical	Gibson SK (2006)	PUBMED:16371464	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9HAV0	-	NP_067642	P08754	-	NP_006487	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+723571	1410	1410	107800	107800	-	-	CRYAB	CRYAB	CMD1II|CRYA2|CTPP2|CTRCT16|HEL-S-101|HSPB5|MFM2	CMD1II|CRYA2|CTPP2|CTRCT16|HEL-S-101|HSPB5|MFM2	FRET	physical	Murugesan R (2008)	PUBMED:18941542	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P02511	V9HW27	NP_001876|NP_001355175|NP_001355174|NP_001317308|NP_001276737|NP_001276736	P02511	V9HW27	NP_001876|NP_001355175|NP_001355174|NP_001317308|NP_001276737|NP_001276736	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+723876	16412	21894	200826	204222	-	RP23-195K8.11-001	Itgb1	Tln1	4633401G24Rik|AA409975|AA960159|CD29|ENSMUSG00000051907|Fnrb|Gm9863|gpIIa	Tln	FRET	physical	Rantala JK (2011)	PUBMED:21947080	10090	10090	Low Throughput	-	-	-	-	BIOGRID	P09055	-	NP_034708	P26039	Q3UHS6|Q80TM2|Q0V930	NP_035732	-	-	-	-	-	-	Mus musculus	Mus musculus
+723877	16412	218952	200826	230085	-	RP23-359O5.1	Itgb1	Fermt2	4633401G24Rik|AA409975|AA960159|CD29|ENSMUSG00000051907|Fnrb|Gm9863|gpIIa	AA960555|Kindlin-2|Mig2|Plekhc1	FRET	physical	Rantala JK (2011)	PUBMED:21947080	10090	10090	Low Throughput	-	-	interaction detected by FRET and proximity ligation assay	-	BIOGRID	P09055	-	NP_034708	Q8CIB5	Q3TLE2	NP_666166	-	-	-	-	-	-	Mus musculus	Mus musculus
+723878	16402	106025	200818	222977	-	-	Itga5	Sharpin	Cd49e|Fnra|VLA5	0610041B22Rik|AW121341|RBCKL1|SIPL1|cpdm	FRET	physical	Rantala JK (2011)	PUBMED:21947080	10090	10090	Low Throughput	-	-	-	-	BIOGRID	P11688	Q80YP5	NP_034707	Q91WA6	-	NP_079616	-	-	-	-	-	-	Mus musculus	Mus musculus
+724013	26353	126393	117689	125988	PP1629	-	HSPB8	HSPB6	CMT2L|DHMN2|E2IG1|H11|HMN2|HMN2A|HSP22	HEL55|Hsp20|PPP1R91	FRET	physical	Fontaine JM (2005)	PUBMED:16225851	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UJY1	-	NP_055180	O14558	V9HWB6	NP_653218	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+724014	26353	1410	117689	107800	PP1629	-	HSPB8	CRYAB	CMT2L|DHMN2|E2IG1|H11|HMN2|HMN2A|HSP22	CMD1II|CRYA2|CTPP2|CTRCT16|HEL-S-101|HSPB5|MFM2	FRET	physical	Fontaine JM (2005)	PUBMED:16225851	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UJY1	-	NP_055180	P02511	V9HW27	NP_001876|NP_001355175|NP_001355174|NP_001317308|NP_001276737|NP_001276736	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+724050	958	7186	107396	113038	-	-	CD40	TRAF2	Bp50|CDW40|TNFRSF5|p50	MGC:45012|TRAP|TRAP3	FRET	physical	Zhang W (2010)	PUBMED:20449947	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P25942	-	NP_001241|NP_690593|NP_001289682	Q12933	A0A024R8H5	NP_066961	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+724051	958	7189	107396	113041	-	-	CD40	TRAF6	Bp50|CDW40|TNFRSF5|p50	MGC:3310|RNF85	FRET	physical	Zhang W (2010)	PUBMED:20449947	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P25942	-	NP_001241|NP_690593|NP_001289682	Q9Y4K3	-	NP_004611|NP_665802	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+724834	832	3312	107282	109544	RP4-657E11.7	-	CAPZB	HSPA8	CAPB|CAPPB|CAPZ	HEL-33|HEL-S-72p|HSC54|HSC70|HSC71|HSP71|HSP73|HSPA10|LAP-1|LAP1|NIP71	FRET	physical	Hishiya A (2010)	PUBMED:20884878	9606	9606	Low Throughput	-	-	Bag3 increases association of Hsc70 with CapZ proteins	-	BIOGRID	P47756	Q7L4N0|B4DWA6|B1AK88|B1AK85	NP_001193470|NP_001193469|NP_001300861|NP_004921|NP_001269091	P11142	V9HW22|Q53HF2	NP_694881|NP_006588	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+725177	1409	1410	107799	107800	-	-	CRYAA	CRYAB	CRYA1|CTRCT9|HSPB4	CMD1II|CRYA2|CTPP2|CTRCT16|HEL-S-101|HSPB5|MFM2	FRET	physical	Wu M (2012)	PUBMED:22427585	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P02489	E9PHE4	NP_000385	P02511	V9HW27	NP_001876|NP_001355175|NP_001355174|NP_001317308|NP_001276737|NP_001276736	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+725562	2773	2782	109035	109044	RP5-1160K1.2	RP1-283E3.7	GNAI3	GNB1	87U6|ARCND1	-	FRET	physical	Stefan E (2011)	PUBMED:22186894	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P08754	-	NP_006487	P62873	A0A024R056|B3KVK2	NP_002065|NP_001269468|NP_001269467	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+725563	2773	5577	109035	111563	RP5-1160K1.2	-	GNAI3	PRKAR2B	87U6|ARCND1	PRKAR2|RII-BETA	FRET	physical	Stefan E (2011)	PUBMED:22186894	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P08754	-	NP_006487	P31323	B3KY43|A0A024R712	NP_002727	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+725599	156110	2771	1205545	109033	HIV1gp9	-	nef	GNAI2	-	GIP|GNAI2B|H_LUCA15.1|H_LUCA16.1	FRET	physical	Chandrasekaran P (2012)	PUBMED:23071112	11676	9606	Low Throughput	-	-	-	-	BIOGRID	P04601	-	NP_057857	P04899	B3KX51|B3KP24	NP_001159897|NP_002061|NP_001269548|NP_001269549|NP_001269546|NP_001269547	-	-	-	-	-	-	Human Immunodeficiency Virus 1	Homo sapiens
+725743	850368	855736	30989	35828	YCR010C	YNR002C	ADY2	ATO2	ATO1	FUN34|putative ammonium permease ATO2|L000000647	FRET	physical	Strachotova D (2012)	PUBMED:22579979	559292	559292	Low Throughput	-	-	method combined FRET with FLIM (fluorescence lifetime imaging) and photobleaching	-	BIOGRID	P25613	-	NP_009936	P32907	-	NP_014399	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+725744	850368	850368	30989	30989	YCR010C	YCR010C	ADY2	ADY2	ATO1	ATO1	FRET	physical	Strachotova D (2012)	PUBMED:22579979	559292	559292	Low Throughput	-	-	method combined FRET with FLIM (fluorescence lifetime imaging) and photobleaching	-	BIOGRID	P25613	-	NP_009936	P25613	-	NP_009936	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+725745	851992	851992	32445	32445	YDR384C	YDR384C	ATO3	ATO3	putative ammonium permease ATO3	putative ammonium permease ATO3	FRET	physical	Strachotova D (2012)	PUBMED:22579979	559292	559292	Low Throughput	-	-	method combined FRET with FLIM (fluorescence lifetime imaging) and photobleaching	-	BIOGRID	Q12359	-	NP_010672	Q12359	-	NP_010672	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+725746	855080	856888	35233	36894	YMR058W	YER145C	FET3	FTR1	ferroxidase FET3|L000000610	high-affinity iron permease FTR1|L000003066	FRET	physical	Strachotova D (2012)	PUBMED:22579979	559292	559292	Low Throughput	-	-	method combined FRET with FLIM (fluorescence lifetime imaging) and photobleaching	-	BIOGRID	P38993	-	NP_013774	P40088	-	NP_011072	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+727790	1409	1411	107799	107801	-	-	CRYAA	CRYBA1	CRYA1|CTRCT9|HSPB4	CRYB1|CTRCT10	FRET	physical	Gupta R (2009)	PUBMED:19401464	9606	9606	Low Throughput	-	-	figure 3,4.	-	BIOGRID	P02489	E9PHE4	NP_000385	P05813	-	NP_005199	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+727791	1410	1411	107800	107801	-	-	CRYAB	CRYBA1	CMD1II|CRYA2|CTPP2|CTRCT16|HEL-S-101|HSPB5|MFM2	CRYB1|CTRCT10	FRET	physical	Gupta R (2009)	PUBMED:19401464	9606	9606	Low Throughput	-	-	figure 6,7.	-	BIOGRID	P02511	V9HW27	NP_001876|NP_001355175|NP_001355174|NP_001317308|NP_001276737|NP_001276736	P05813	-	NP_005199	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+727857	4284	1409	110430	107799	-	-	MIP	CRYAA	AQP0|CTRCT15|LIM1|MIP26|MP26	CRYA1|CTRCT9|HSPB4	FRET	physical	Liu BF (2008)	PUBMED:18004741	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P30301	-	NP_036196	P02489	E9PHE4	NP_000385	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+727858	4284	1410	110430	107800	-	-	MIP	CRYAB	AQP0|CTRCT15|LIM1|MIP26|MP26	CMD1II|CRYA2|CTPP2|CTRCT16|HEL-S-101|HSPB5|MFM2	FRET	physical	Liu BF (2008)	PUBMED:18004741	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P30301	-	NP_036196	P02511	V9HW27	NP_001876|NP_001355175|NP_001355174|NP_001317308|NP_001276737|NP_001276736	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+727859	4284	1415	110430	107805	-	-	MIP	CRYBB2	AQP0|CTRCT15|LIM1|MIP26|MP26	CCA2|CRYB2|CRYB2A|CTRCT3|D22S665	FRET	physical	Liu BF (2008)	PUBMED:18004741	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P30301	-	NP_036196	P43320	R4UMM2	NP_000487	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+727860	4284	1420	110430	107810	-	-	MIP	CRYGC	AQP0|CTRCT15|LIM1|MIP26|MP26	CCL|CRYG3|CTRCT2	FRET	physical	Liu BF (2008)	PUBMED:18004741	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P30301	-	NP_036196	P07315	-	NP_066269	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+728023	1410	1409	107800	107799	-	-	CRYAB	CRYAA	CMD1II|CRYA2|CTPP2|CTRCT16|HEL-S-101|HSPB5|MFM2	CRYA1|CTRCT9|HSPB4	FRET	physical	Sreelakshmi Y (2006)	PUBMED:16760894	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P02511	V9HW27	NP_001876|NP_001355175|NP_001355174|NP_001317308|NP_001276737|NP_001276736	P02489	E9PHE4	NP_000385	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+728141	2033	155348	108347	1205538	RP1-85F18.1	HIV1gp1	EP300	gag-pol	KAT3B|RSTS2|p300	-	FRET	physical	Cereseto A (2005)	PUBMED:16096645	9606	11676	Low Throughput	-	-	-	-	BIOGRID	Q09472	Q7Z6C1	NP_001349772|NP_001420	P04585	-	NP_057849	-	-	-	-	-	-	Homo sapiens	Human Immunodeficiency Virus 1
+728162	852295	852294	32711	32710	YBR010W	YBR009C	HHT1	HHF1	BUR5|SIN2|histone H3|L000000772	histone H4|L000000770	FRET	physical	Liu WH (2012)	PUBMED:23034810	559292	559292	Low Throughput	-	-	disrupted by asf1	-	BIOGRID	P61830	-	NP_009564	P02309	-	NP_009563	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+728509	7157	4193	113010	110358	-	-	TP53	MDM2	BCC7|LFS1|P53|TRP53	ACTFS|HDMX|hdm2	FRET	physical	Mazars A (2010)	PUBMED:20235143	9606	9606	Low Throughput	-	-	figure 2.	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	Q00987	A7UKX8|Q96DS0|A7UKX9|A7UKX7|G3XA89	NP_001354919|NP_001265391|NP_002383|NP_001138811|NP_001138812|NP_001138809	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+728510	7157	7157	113010	113010	-	-	TP53	TP53	BCC7|LFS1|P53|TRP53	BCC7|LFS1|P53|TRP53	FRET	physical	Mazars A (2010)	PUBMED:20235143	9606	9606	Low Throughput	-	-	figure 2.	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+734223	5893	7486	111830	113323	RP11-359B12.2	-	RAD52	WRN	-	RECQ3|RECQL2|RECQL3	FRET	physical	Baynton K (2003)	PUBMED:12750383	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P43351	Q5DR82|F5H3Q1|B7Z5Q6|B7Z2G8|F5GX32	NP_001284350|NP_001284351|NP_001284349|NP_001284348|NP_602296	Q14191	Q59F09	NP_000544	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+734224	5111	7486	111142	113323	-	-	PCNA	WRN	ATLD2	RECQ3|RECQL2|RECQL3	FRET	physical	Baynton K (2003)	PUBMED:12750383	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P12004	-	NP_872590|NP_002583	Q14191	Q59F09	NP_000544	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+734797	20977	57320	203609	208257	RP23-54C14.4	RP23-272N19.5	Syp	Park7	A230093K24Rik|AI848995|Syn|p38	DJ-1|Dj1	FRET	physical	Usami Y (2011)	PUBMED:21645620	10090	10090	Low Throughput	-	-	figure 5.	-	BIOGRID	Q62277	-	NP_033331	Q99LX0	-	NP_065594	-	-	-	-	-	-	Mus musculus	Mus musculus
+735166	6622	6622	112506	112506	-	-	SNCA	SNCA	NACP|PARK1|PARK4|PD1	NACP|PARK1|PARK4|PD1	FRET	physical	Narayanan V (2001)	PUBMED:11502187	9606	9606	Low Throughput	-	-	figure 9.	-	BIOGRID	P37840	H6UYS5	NP_000336|NP_009292|NP_001362216|NP_001362217|NP_001362214|NP_001362215|NP_001139526|NP_001139527	P37840	H6UYS5	NP_000336|NP_009292|NP_001362216|NP_001362217|NP_001362214|NP_001362215|NP_001139526|NP_001139527	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+736585	11315	11315	116446	116446	CTA-215D11.1	CTA-215D11.1	PARK7	PARK7	DJ-1|DJ1|HEL-S-67p	DJ-1|DJ1|HEL-S-67p	FRET	physical	Deeg S (2010)	PUBMED:20156966	9606	9606	Low Throughput	-	-	figure 4.	-	BIOGRID	Q99497	V9HWC2	NP_009193|NP_001116849	Q99497	V9HWC2	NP_009193|NP_001116849	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+740075	3064	3064	109314	109314	-	-	HTT	HTT	HD|IT15	HD|IT15	FRET	physical	Schaffar G (2004)	PUBMED:15225551	9606	9606	Low Throughput	-	-	figure 3.	-	BIOGRID	P42858	-	NP_002102	P42858	-	NP_002102	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+740651	51616	6878	119639	112741	RP4-570L12.2	-	TAF9B	TAF6	DN-7|DN7|TAF9L|TAFII31L|TFIID-31	MGC:8964|TAF(II)70|TAF(II)80|TAF2E|TAFII-70|TAFII-80|TAFII70|TAFII80|TAFII85	FRET	physical	Frontini M (2005)	PUBMED:15899866	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9HBM6	-	NP_057059	P49848	A4D299	NP_647476|NP_001177344|NP_005632	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+740652	6880	6878	112743	112741	AD-004	-	TAF9	TAF6	MGC:5067|STAF31/32|TAF2G|TAFII-31|TAFII-32|TAFII31|TAFII32|TAFIID32	MGC:8964|TAF(II)70|TAF(II)80|TAF2E|TAFII-70|TAFII-80|TAFII70|TAFII80|TAFII85	FRET	physical	Frontini M (2005)	PUBMED:15899866	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q16594	-	NP_001015892|NP_003178	P49848	A4D299	NP_647476|NP_001177344|NP_005632	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+795892	664	6009	107132	111941	-	-	BNIP3	RHEB	NIP3	RHEB2	FRET	physical	Li Y (2007)	PUBMED:17928295	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q12983	-	NP_004043	Q15382	-	NP_005605	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+797794	12042	240354	198317	232195	-	-	Bcl10	Malt1	AI132454|BCL-10|C81403|CARMEN|CIPER|CLAP|ME10|cE10	A630046N12|D430033E09Rik	FRET	physical	Rossman JS (2006)	PUBMED:16495340	10090	10090	Low Throughput	-	-	-	-	BIOGRID	Q9Z0H7	B7ZWE5	NP_033870	Q2TBA3	-	NP_766421	-	-	-	-	-	-	Mus musculus	Mus musculus
+797881	9248	9248	114674	114674	-	-	GPR50	GPR50	H9|Mel1c	H9|Mel1c	FRET	physical	Levoye A (2006)	PUBMED:16778767	9606	9606	Low Throughput	-	-	figure 2. BRET assay.	-	BIOGRID	Q13585	-	NP_004215	Q13585	-	NP_004215	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+797885	9248	408	114674	106901	-	-	GPR50	ARRB1	H9|Mel1c	ARB1|ARR1	FRET	physical	Levoye A (2006)	PUBMED:16778767	9606	9606	Low Throughput	-	-	figure 9. BRET assay	-	BIOGRID	Q13585	-	NP_004215	P49407	B7Z1Q3	NP_004032|NP_064647	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+797942	11848	269608	198192	234677	-	RP23-284C20.1	Rhoa	Plekhg5	Arha|Arha1|Arha2	BC023181|Syx	FRET	physical	Liu M (2006)	PUBMED:16467373	10090	10090	Low Throughput	-	-	-	-	BIOGRID	Q9QUI0	Q4VAE6	NP_001300890|NP_001300891|NP_058082	Q66T02	B1AS67	NP_001272928	-	-	-	-	-	-	Mus musculus	Mus musculus
+806594	5879	1124	111817	107548	MIG5	tcag7.1311	RAC1	CHN2	Rac-1|TC-25|p21-Rac1	ARHGAP3|BCH|CHN2-3|RHOGAP3	FRET	physical	Wang H (2006)	PUBMED:16628218	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	P52757	B3VCG5|B7Z1W9|B7Z215|B7Z232|B3VCF9|B3VCF4|B3VCF5|B3VCF6|B7Z1V0	NP_001280000|NP_001280001|NP_001280002|NP_001280010|NP_001280004|NP_001280005|NP_001280006|NP_001280007|NP_001280008|NP_001280009|NP_004058|NP_001035025|NP_001279998|NP_001279999	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+811083	835233	828635	20478	13922	AT5G51590	AT4G25320	AT5G51590	AT4G25320	K17N15.14|K17N15_14	T30C3.1	FRET	physical	Zhou J (2013)	PUBMED:23335615	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9FHM5	NP_199972	-	Q9SB31	NP_194262	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+814157	55016	3123	120348	109368	-	XXbac-BPG161M6.1	MARCH1	HLA-DRB1	MARCH-I|RNF171	DRB1|DRw10|HLA-DR1B|HLA-DRB|SS1	FRET	physical	Bourgeois-Daigneault MC (2012)	PUBMED:23264739	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q8TCQ1	A8K0Z6	NP_060393|NP_001159845	P01912|P01911|Q29974	X5DNQ0|D7RIH8|Q5Y7D1	NP_002115|NP_001230894	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+814158	55016	3122	120348	109367	-	DASS-397D15.1	MARCH1	HLA-DRA	MARCH-I|RNF171	HLA-DRA1|MLRW	FRET	physical	Bourgeois-Daigneault MC (2012)	PUBMED:23264739	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q8TCQ1	A8K0Z6	NP_060393|NP_001159845	P01903	-	NP_061984	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+817558	2099	6714	108403	112592	RP1-130E4.1	RP5-823N20.1	ESR1	SRC	ER|ESR|ESRA|ESTRR|Era|NR3A1	ASV|SRC1|c-SRC|p60-Src	FRET	physical	Zwart W (2007)	PUBMED:17627277	9606	9606	Low Throughput	-	-	figure 1. FRAP analysis.|figure 2.	-	BIOGRID	P03372	Q9UBT1|G4XH65|A8KAF4	NP_001116213|NP_000116|NP_001278159|NP_001278170|NP_001116212|NP_001116214	P12931	-	NP_938033|NP_005408	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+817823	16502	16573	200887	200946	-	-	Kcnc1	Kif5b	C230009H10Rik|KShIIIB|KV4|Kcr2-1|Kv3.1|NGK2|Shaw	AL022807|Khc|Khcs|Kns1|Ukhc	FRET	physical	Xu M (2010)	PUBMED:21106837	10090	10090	Low Throughput	-	-	-	-	BIOGRID	P15388	Q3UHB6|E9PVV3|Q3TR92	NP_001106210|NP_032447	Q61768	Q9CUT6	NP_032474	-	-	-	-	-	-	Mus musculus	Mus musculus
+817824	16490	16498	200877	200884	-	RP23-421E12.12-005	Kcna2	Kcnab2	Akr6a4|ENSMUSG00000074335|Gm10672|Kca1-2|Kv1.2|Mk-2	F5|I2rf5|Kcnb3|kv-beta-2	FRET	physical	Xu M (2010)	PUBMED:21106837	10090	10090	Low Throughput	-	-	-	-	BIOGRID	P63141	B2RS05	NP_032443	P62482	Q3UPV6|Q3U7L1	NP_001239585|NP_001239584|NP_034728|NP_001239583	-	-	-	-	-	-	Mus musculus	Mus musculus
+818013	843915	825111	29134	10426	AT1G75820	AT3G59420	CLV1	CR4	ATCLV1|CLAVATA 1|CLV1 RECEPTOR KINASE PRECURSOR|FAS3|FASCIATA 3|FLO5|FLOWER DEVELOPMENT 5|T4O12.5|T4O12_5	ACR4|crinkly4	FRET	physical	Stahl Y (2013)	PUBMED:23394827	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SYQ8	C0LGJ2	NP_177710	Q9LX29	-	NP_191501	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+818014	825111	825111	10426	10426	AT3G59420	AT3G59420	CR4	CR4	ACR4|crinkly4	ACR4|crinkly4	FRET	physical	Stahl Y (2013)	PUBMED:23394827	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LX29	-	NP_191501	Q9LX29	-	NP_191501	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+818018	25570	25570	247601	247601	-	-	Trhr	Trhr	-	-	FRET	physical	Kroeger KM (2001)	PUBMED:11278883	10116	10116	Low Throughput	-	-	-	-	BIOGRID	Q01717	-	NP_037179	Q01717	-	NP_037179	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+818019	81668	81668	249567	249567	-	-	Gnrhr	Gnrhr	GH1|Lhrhr	GH1|Lhrhr	FRET	physical	Kroeger KM (2001)	PUBMED:11278883	10116	10116	Low Throughput	-	-	-	-	BIOGRID	P30969	-	NP_112300	P30969	-	NP_112300	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+818020	25387	81668	247425	249567	-	-	Arrb1	Gnrhr	BARRES	GH1|Lhrhr	FRET	physical	Kroeger KM (2001)	PUBMED:11278883	10116	10116	Low Throughput	-	-	-	-	BIOGRID	P29066	-	NP_037042	P30969	-	NP_112300	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+818021	25387	25570	247425	247601	-	-	Arrb1	Trhr	BARRES	-	FRET	physical	Kroeger KM (2001)	PUBMED:11278883	10116	10116	Low Throughput	-	-	-	-	BIOGRID	P29066	-	NP_037042	Q01717	-	NP_037179	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+818025	25570	408	247601	106901	-	-	Trhr	ARRB1	-	ARB1|ARR1	FRET	physical	Hanyaloglu AC (2002)	PUBMED:12393857	10116	9606	Low Throughput	-	-	-	-	BIOGRID	Q01717	-	NP_037179	P49407	B7Z1Q3	NP_004032|NP_064647	-	-	-	-	-	-	Rattus norvegicus	Homo sapiens
+818026	25570	409	247601	106902	-	-	Trhr	ARRB2	-	ARB2|ARR2|BARR2	FRET	physical	Hanyaloglu AC (2002)	PUBMED:12393857	10116	9606	Low Throughput	-	-	-	-	BIOGRID	Q01717	-	NP_037179	P32121	K7ENA6|Q68DZ5|Q59EM5	NP_001244257|NP_001244259|NP_001244258|NP_001316993|NP_001244260|NP_004304|NP_945355	-	-	-	-	-	-	Rattus norvegicus	Homo sapiens
+818027	252859	408	251639	106901	-	-	Mlnr	ARRB1	Trhr2	ARB1|ARR1	FRET	physical	Hanyaloglu AC (2002)	PUBMED:12393857	10116	9606	Low Throughput	-	-	-	-	BIOGRID	-	Q9R297	NP_852029	P49407	B7Z1Q3	NP_004032|NP_064647	-	-	-	-	-	-	Rattus norvegicus	Homo sapiens
+818028	252859	409	251639	106902	-	-	Mlnr	ARRB2	Trhr2	ARB2|ARR2|BARR2	FRET	physical	Hanyaloglu AC (2002)	PUBMED:12393857	10116	9606	Low Throughput	-	-	-	-	BIOGRID	-	Q9R297	NP_852029	P32121	K7ENA6|Q68DZ5|Q59EM5	NP_001244257|NP_001244259|NP_001244258|NP_001316993|NP_001244260|NP_004304|NP_945355	-	-	-	-	-	-	Rattus norvegicus	Homo sapiens
+818029	25570	25570	247601	247601	-	-	Trhr	Trhr	-	-	FRET	physical	Hanyaloglu AC (2002)	PUBMED:12393857	10116	10116	Low Throughput	-	-	-	-	BIOGRID	Q01717	-	NP_037179	Q01717	-	NP_037179	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+818030	25570	252859	247601	251639	-	-	Trhr	Mlnr	-	Trhr2	FRET	physical	Hanyaloglu AC (2002)	PUBMED:12393857	10116	10116	Low Throughput	-	-	-	-	BIOGRID	Q01717	-	NP_037179	-	Q9R297	NP_852029	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+818031	252859	252859	251639	251639	-	-	Mlnr	Mlnr	Trhr2	Trhr2	FRET	physical	Hanyaloglu AC (2002)	PUBMED:12393857	10116	10116	Low Throughput	-	-	-	-	BIOGRID	-	Q9R297	NP_852029	-	Q9R297	NP_852029	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+818743	72179	21454	215202	204044	-	RP23-351C7.3	Fbxl2	Tcp1	2810423A21Rik|Fbl3	AI528772|CCT|Cct1|Ccta|TRic|Tcp-1|Tp63|c-cpn|p63	FRET	physical	Chen BB (2011)	PUBMED:21343341	10090	10090	Low Throughput	-	-	-	-	BIOGRID	Q8BH16	Q4VA21	NP_848739	P11983	-	NP_001277641|NP_038714	-	-	-	-	-	-	Mus musculus	Mus musculus
+818744	72179	12313	215202	198454	-	-	Fbxl2	Calm1	2810423A21Rik|Fbl3	AI256814|AI327027|AI461935|AL024000|CaM|Calm	FRET	physical	Chen BB (2011)	PUBMED:21343341	10090	10090	Low Throughput	-	-	-	-	BIOGRID	Q8BH16	Q4VA21	NP_848739	P62204	-	NP_033920|NP_001300863	-	-	-	-	-	-	Mus musculus	Mus musculus
+820587	4056	4056	110234	110234	-	-	LTC4S	LTC4S	-	-	FRET	physical	Strid T (2009)	PUBMED:19233132	9606	9606	Low Throughput	-	-	BRET (bioluminescence resonance energy transfer)	-	BIOGRID	Q16873	-	NP_665874	Q16873	-	NP_665874	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+820588	4056	240	110234	106741	-	RP11-67C2.3	LTC4S	ALOX5	-	5-LO|5-LOX|5LPG|LOG5	FRET	physical	Strid T (2009)	PUBMED:19233132	9606	9606	Low Throughput	-	-	BRET (bioluminescence resonance energy transfer)|cells stimulated by calcium ionophore A23187	-	BIOGRID	Q16873	-	NP_665874	P09917	-	NP_001307791|NP_001307790|NP_001243082|NP_001243083|NP_000689	CHEBI:22986	calcium ionophore	chemical	-	-	-	Homo sapiens	Homo sapiens
+828821	867	5335	107315	111351	-	RP3-511B24.2	CBL	PLCG1	C-CBL|CBL2|FRA11B|NSLL|RNF55	NCKAP3|PLC-II|PLC1|PLC148|PLCgamma1	FRET	physical	Braiman A (2006)	PUBMED:16467851	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P22681	-	NP_005179	P19174	Q4LE43|Q9UFY1	NP_002651|NP_877963	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+828822	7409	5335	113252	111351	-	RP3-511B24.2	VAV1	PLCG1	VAV	NCKAP3|PLC-II|PLC1|PLC148|PLCgamma1	FRET	physical	Braiman A (2006)	PUBMED:16467851	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P15498	Q96D37|B2R8B5	NP_005419|NP_001245135|NP_001245136	P19174	Q4LE43|Q9UFY1	NP_002651|NP_877963	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+828823	3937	5335	110129	111351	-	RP3-511B24.2	LCP2	PLCG1	SLP-76|SLP76	NCKAP3|PLC-II|PLC1|PLC148|PLCgamma1	FRET	physical	Braiman A (2006)	PUBMED:16467851	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13094	-	NP_005556	P19174	Q4LE43|Q9UFY1	NP_002651|NP_877963	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+828824	27040	5335	117971	111351	-	RP3-511B24.2	LAT	PLCG1	LAT1|pp36	NCKAP3|PLC-II|PLC1|PLC148|PLCgamma1	FRET	physical	Braiman A (2006)	PUBMED:16467851	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O43561	A0A024QZD6	NP_001014989|NP_055202|NP_001014988|NP_001014987	P19174	Q4LE43|Q9UFY1	NP_002651|NP_877963	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+829919	25	5052	106543	111089	RP11-83J21.1	RP11-291L19.4	ABL1	PRDX1	ABL|JTK7|bcr/abl|c-ABL|c-ABL1|p150|v-abl	MSP23|NKEF-A|NKEFA|PAG|PAGA|PAGB|PRX1|PRXI|TDPX2	FRET	physical	Morell M (2007)	PUBMED:17352427	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P00519	A0A024R8E2|Q59FK4	NP_009297|NP_005148	Q06830	-	NP_002565|NP_859048|NP_001189360|NP_859047	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+829920	25	672	106543	107140	RP11-83J21.1	-	ABL1	BRCA1	ABL|JTK7|bcr/abl|c-ABL|c-ABL1|p150|v-abl	BRCAI|BRCC1|BROVCA1|FANCS|IRIS|PNCA4|PPP1R53|PSCP|RNF53	FRET	physical	Morell M (2007)	PUBMED:17352427	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P00519	A0A024R8E2|Q59FK4	NP_009297|NP_005148	P38398	E9PFZ0|A0A024R1V0	NP_009229|NP_009228|NP_009230|NP_009231|NP_009225	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+833625	8454	55294	114032	120581	-	-	CUL1	FBXW7	-	AGO|CDC4|FBW6|FBW7|FBX30|FBXO30|FBXW6|SEL-10|SEL10|hAgo|hCdc4	FRET	physical	Pierce NW (2013)	PUBMED:23453757	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13616	B3KTW0	NP_001357589|NP_003583|NP_001357591|NP_001357590|NP_001357593|NP_001357592	Q969H0	S4R3U4|G0Z2K0	NP_001013433|NP_361014|NP_060785|NP_001243998	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+853129	12591	18999	198664	202313	-	-	Cdx2	Pou5f1	Cdx-2	NF-A3|Oct-3|Oct-3/4|Oct-4|Oct3|Oct3/4|Oct4|Otf-3|Otf-4|Otf3|Otf3-rs7|Otf3g|Otf4	FRET	physical	Niwa H (2005)	PUBMED:16325584	10090	10090	Low Throughput	-	-	-	-	BIOGRID	P43241	Q543L9	NP_031699	P20263	-	NP_001239381|NP_038661	-	-	-	-	-	-	Mus musculus	Mus musculus
+854093	20977	22318	203609	204495	RP23-54C14.4	RP23-26L6.8	Syp	Vamp2	A230093K24Rik|AI848995|Syn|p38	Syb-2|Syb2|sybII	FRET	physical	Felkl M (2008)	PUBMED:18706977	10090	10090	Low Throughput	-	-	-	-	BIOGRID	Q62277	-	NP_033331	P63044	Q8CHR4	NP_033523	-	-	-	-	-	-	Mus musculus	Mus musculus
+854094	20977	20974	203609	203607	RP23-54C14.4	-	Syp	Syngr3	A230093K24Rik|AI848995|Syn|p38	-	FRET	physical	Felkl M (2008)	PUBMED:18706977	10090	10090	Low Throughput	-	-	-	-	BIOGRID	Q62277	-	NP_033331	Q8R191	-	NP_035652	-	-	-	-	-	-	Mus musculus	Mus musculus
+854095	20977	107767	203609	223555	RP23-54C14.4	-	Syp	Scamp1	A230093K24Rik|AI848995|Syn|p38	4930505M11Rik|AI415563|AW122395	FRET	physical	Felkl M (2008)	PUBMED:18706977	10090	10090	Low Throughput	-	-	-	-	BIOGRID	Q62277	-	NP_033331	Q8K021	Q3TD71|Q3TSA8	NP_083429|NP_001333538	-	-	-	-	-	-	Mus musculus	Mus musculus
+854096	20977	20262	203609	203096	RP23-54C14.4	RP23-83A14.1	Syp	Stmn3	A230093K24Rik|AI848995|Syn|p38	9330161A03Rik|AI604839|R75323|Sclip	FRET	physical	Felkl M (2008)	PUBMED:18706977	10090	10090	Low Throughput	-	-	-	-	BIOGRID	Q62277	-	NP_033331	O70166	Q545T6	NP_033159	-	-	-	-	-	-	Mus musculus	Mus musculus
+854097	20977	11858	203609	198202	RP23-54C14.4	RP23-328K2.6	Syp	Rnd2	A230093K24Rik|AI848995|Syn|p38	Arhn|Rohn	FRET	physical	Felkl M (2008)	PUBMED:18706977	10090	10090	Low Throughput	-	-	-	-	BIOGRID	Q62277	-	NP_033331	Q9QYM5	A2A4Q3	NP_033838	-	-	-	-	-	-	Mus musculus	Mus musculus
+854098	20977	76932	203609	218408	RP23-54C14.4	-	Syp	Arfip2	A230093K24Rik|AI848995|Syn|p38	2310002N04Rik|POR|Por1	FRET	physical	Felkl M (2008)	PUBMED:18706977	10090	10090	Low Throughput	-	-	-	-	BIOGRID	Q62277	-	NP_033331	Q8K221	-	NP_084078	-	-	-	-	-	-	Mus musculus	Mus musculus
+854656	852710	855035	33088	35192	YGL166W	YMR021C	CUP2	MAC1	ACE1|L000000439	CUA1|L000000973|L000001035	FRET	physical	Wegner SV (2011)	PUBMED:21180717	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P15315	-	NP_011349	P35192	-	NP_013734	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+855177	855820	855820	35908	35908	YPL255W	YPL255W	BBP1	BBP1	L000003060	L000003060	FRET	physical	Zizlsperger N (2010)	PUBMED:20139001	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q12365	-	NP_015068	Q12365	-	NP_015068	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+855178	852805	852805	33175	33175	YGL075C	YGL075C	MPS2	MPS2	MMC1|L000004546|L000004250	MMC1|L000004546|L000004250	FRET	physical	Zizlsperger N (2010)	PUBMED:20139001	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53159	-	NP_011440	P53159	-	NP_011440	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+855179	851180	851180	31716	31716	YLR457C	YLR457C	NBP1	NBP1	L000001234	L000001234	FRET	physical	Zizlsperger N (2010)	PUBMED:20139001	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P52919	-	NP_013562	P52919	-	NP_013562	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+855180	855820	852805	35908	33175	YPL255W	YGL075C	BBP1	MPS2	L000003060	MMC1|L000004546|L000004250	FRET	physical	Zizlsperger N (2010)	PUBMED:20139001	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q12365	-	NP_015068	P53159	-	NP_011440	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+855181	852805	855820	33175	35908	YGL075C	YPL255W	MPS2	BBP1	MMC1|L000004546|L000004250	L000003060	FRET	physical	Zizlsperger N (2010)	PUBMED:20139001	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53159	-	NP_011440	Q12365	-	NP_015068	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+855446	850633	850633	31226	31226	YLL026W	YLL026W	HSP104	HSP104	chaperone ATPase HSP104|L000000823	chaperone ATPase HSP104|L000000823	FRET	physical	DeSantis ME (2012)	PUBMED:23141537	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P31539	-	NP_013074	P31539	-	NP_013074	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+855540	855836	855836	35923	35923	YPL240C	YPL240C	HSP82	HSP82	HSP90|Hsp90 family chaperone HSP82|L000000822	HSP90|Hsp90 family chaperone HSP82|L000000822	FRET	physical	Retzlaff M (2009)	PUBMED:19696785	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P02829	-	NP_015084	P02829	-	NP_015084	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+856726	839422	837962	24657	23202	AT1G02580	AT1G02680	MEA	TAF13	EMB173|EMBRYO DEFECTIVE 173|FERTILIZATION INDEPENDENT SEED 1|FIS1|MEDEA|SDG5|SET DOMAIN-CONTAINING PROTEIN 5|T14P4.11|T14P4_11	T14P4.32|T14P4_32|TBP-associated factor 13	FRET	physical	Lindner M (2013)	PUBMED:23506837	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O65312	-	NP_563658	Q6NQH4	-	NP_171768	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+856727	828165	837962	13454	23202	AT4G02020	AT1G02680	SWN	TAF13	EZA1|SDG10|SET DOMAIN-CONTAINING PROTEIN 10|SWINGER|T10M13.3|T10M13_3	T14P4.32|T14P4_32|TBP-associated factor 13	FRET	physical	Lindner M (2013)	PUBMED:23506837	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9ZSM8	-	NP_567221	Q6NQH4	-	NP_171768	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+856814	853817	853817	34084	34084	YKL049C	YKL049C	CSE4	CSE4	CSL2|centromeric DNA-binding histone H3-like protein CSE4|L000002719	CSL2|centromeric DNA-binding histone H3-like protein CSE4|L000002719	FRET	physical	Shivaraju M (2012)	PUBMED:22817893	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P36012	-	NP_012875	P36012	-	NP_012875	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+857723	829682	839268	14964	24503	AT4G35290	AT1G05200	GLUR2	GLR3.4	ATGLR3.2|ATGLUR2|F23E12.150|F23E12_150|GLR3.2|GLUTAMATE RECEPTOR 3.2|glutamate receptor 2	ATGLR3.4|GLUR3|LIGAND-GATED CHANNEL-LIKE PROTEIN PRECURSOR|YUP8H12.19|YUP8H12_19|glutamate receptor 3.4	FRET	physical	Vincill ED (2013)	PUBMED:23590882	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q93YT1	-	NP_567981|NP_974686	Q8GXJ4	Q53YX3	NP_001030971|NP_172012	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+857920	7150	142	113003	106652	RP3-511B24.1	RP11-125A15.2	TOP1	PARP1	TOPI	ADPRT|ADPRT 1|ADPRT1|ARTD1|PARP|PARP-1|PPOL|pADPRT-1	FRET	physical	Yung TM (2004)	PUBMED:15247263	9606	9606	Low Throughput	-	-	BRET assay used	-	BIOGRID	P11387	-	NP_003277	P09874	A0A024R3T8	NP_001609	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+858335	4780	7341	110852	113188	-	OK/SW-cl.43	NFE2L2	SUMO1	NRF2	DAP1|GMP1|OFC10|PIC1|SENP2|SMT3|SMT3C|SMT3H3|UBL1	FRET	physical	Malloy MT (2013)	PUBMED:23543742	9606	9606	Low Throughput	-	-	#LPPI|Likely protein-protein interaction	-	BIOGRID	Q16236	-	NP_006155|NP_001138884|NP_001138885|NP_001300829|NP_001300830|NP_001300831	P63165	A0A024R3Z2	NP_001358323|NP_001358322|NP_001358321|NP_001005782|NP_001005781|NP_003343	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+858336	4780	6613	110852	112497	-	-	NFE2L2	SUMO2	NRF2	HSMT3|SMT3B|SMT3H2|SUMO3|Smt3A	FRET	physical	Malloy MT (2013)	PUBMED:23543742	9606	9606	Low Throughput	-	-	#LPPI|Likely protein-protein interaction	-	BIOGRID	Q16236	-	NP_006155|NP_001138884|NP_001138885|NP_001300829|NP_001300830|NP_001300831	P61956	A0A024R8S3	NP_001005849|NP_008868	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+858845	7957	5509	113679	111501	RP1-28C20.2	-	EPM2A	PPP1R3D	EPM2|MELF	PPP1R6	FRET	physical	Rubio-Villena C (2013)	PUBMED:23624058	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O95278	-	NP_001018051|NP_005661	O95685	Q86X09	NP_006233	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+861011	2237	5111	108528	111142	-	-	FEN1	PCNA	FEN-1|MF1|RAD2	ATLD2	FRET	physical	Sharma S (2004)	PUBMED:14657243	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P39748	Q6FHX6	NP_004102	P12004	-	NP_872590|NP_002583	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+861012	2237	7486	108528	113323	-	-	FEN1	WRN	FEN-1|MF1|RAD2	RECQ3|RECQL2|RECQL3	FRET	physical	Sharma S (2004)	PUBMED:14657243	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P39748	Q6FHX6	NP_004102	Q14191	Q59F09	NP_000544	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+861020	20655	20655	203387	203387	-	-	Sod1	Sod1	B430204E11Rik|Cu/Zn-SOD|CuZnSOD|Ipo-1|Ipo1|SODC|Sod-1	B430204E11Rik|Cu/Zn-SOD|CuZnSOD|Ipo-1|Ipo1|SODC|Sod-1	FRET	physical	Kim Y (2013)	PUBMED:23583391	10090	10090	Low Throughput	-	-	-	-	BIOGRID	P08228	-	NP_035564	P08228	-	NP_035564	-	-	-	-	-	-	Mus musculus	Mus musculus
+868730	408	5724	106901	111696	-	-	ARRB1	PTAFR	ARB1|ARR1	PAFR	FRET	physical	McLaughlin NJ (2006)	PUBMED:16709866	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P49407	B7Z1Q3	NP_004032|NP_064647	P25105	A8K7N8	NP_001158193|NP_000943|NP_001158194|NP_001158195	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+868731	1213	408	107623	106901	-	-	CLTC	ARRB1	CHC|CHC17|CLH-17|CLTCL2|Hc	ARB1|ARR1	FRET	physical	McLaughlin NJ (2006)	PUBMED:16709866	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q00610	A0A087WVQ6	NP_001275582|NP_004850	P49407	B7Z1Q3	NP_004032|NP_064647	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+868732	1213	5724	107623	111696	-	-	CLTC	PTAFR	CHC|CHC17|CLH-17|CLTCL2|Hc	PAFR	FRET	physical	McLaughlin NJ (2006)	PUBMED:16709866	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q00610	A0A087WVQ6	NP_001275582|NP_004850	P25105	A8K7N8	NP_001158193|NP_000943|NP_001158194|NP_001158195	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+868736	408	5606	106901	111592	-	-	ARRB1	MAP2K3	ARB1|ARR1	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	McLaughlin NJ (2006)	PUBMED:16709866	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P49407	B7Z1Q3	NP_004032|NP_064647	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+869064	1636	624	108004	107093	-	-	ACE	BDKRB2	ACE1|CD143|DCP|DCP1|ICH|MVCD3	B2R|BK-2|BK2|BKR2|BRB2	FRET	physical	Chen Z (2006)	PUBMED:17077303	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P12821	B4DKH4|D3DU13	NP_690043|NP_001171528|NP_001369629|NP_001369630|NP_000780	P30411	-	NP_000614	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+869115	832468	825807	17743	11118	AT5G24030	AT4G04720	SLAH3	CPK21	MZF18.9|MZF18_9|SLAC1 homologue 3	T4B21.13|T4B21_13|calcium-dependent protein kinase 21	FRET	physical	Demir F (2013)	PUBMED:23630285	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FLV9	-	NP_197791	Q9ZSA2	-	NP_192381	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+870558	817696	830996	3043	16274	AT2G31380	AT5G11260	STH	HY5	STO HOMOLOG|T28P16.13|T28P16_13|salt tolerance homologue	BZIP TRANSCRIPTION FACTOR HY5|ELONGATED HYPOCOTYL 5|F2I11.150|F2I11_150|REVERSAL OF THE DET PHENOTYPE 5|TED 5	FRET	physical	Gangappa SN (2013)	PUBMED:23624715	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SID1	-	NP_565722	O24646	Q1H5E5	NP_568246	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+872701	8678	192129	114226	251330	-	-	BECN1	Vmp1	ATG6|VPS30|beclin1	Tmem49	FRET	physical	Molejon MI (2013)	PUBMED:23316280	9606	10116	Low Throughput	-	-	-	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	Q91ZQ0	-	NP_620194	-	-	-	-	-	-	Homo sapiens	Rattus norvegicus
+874909	5743	5740	111715	111712	-	-	PTGS2	PTGIS	COX-2|COX2|GRIPGHS|PGG/HS|PGHS-2|PHS-2|hCox-2	CYP8|CYP8A1|PGIS|PTGI	FRET	physical	Ruan CH (2011)	PUBMED:21035466	9606	9606	Low Throughput	-	-	FRET interaction in COS-7 cells found in nucleus and endoplasmic reticulum	-	BIOGRID	P35354	-	NP_000954	Q16647	-	NP_000952	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+874910	5742	5740	111714	111712	RP11-542K23.6	-	PTGS1	PTGIS	COX1|COX3|PCOX1|PES-1|PGG/HS|PGHS-1|PGHS1|PHS1|PTGHS	CYP8|CYP8A1|PGIS|PTGI	FRET	physical	Ruan CH (2011)	PUBMED:21035466	9606	9606	Low Throughput	-	-	FRET interaction in COS-7 cells found in nucleus and endoplasmic reticulum	-	BIOGRID	P23219	A0A087X296	NP_542158|NP_001258296|NP_001258297|NP_001258093|NP_001258094|NP_001258095|NP_000953	Q16647	-	NP_000952	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878868	855620	854834	35720	35009	YNL103W	YIR017C	MET4	MET28	L000001079	L000001092	FRET	physical	Reinke AW (2013)	PUBMED:23661758	559292	559292	High Throughput	-	-	-	-	BIOGRID	P32389	-	NP_014296	P40573	-	NP_012282	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+878869	855620	855620	35720	35720	YNL103W	YNL103W	MET4	MET4	L000001079	L000001079	FRET	physical	Reinke AW (2013)	PUBMED:23661758	559292	559292	High Throughput	-	-	-	-	BIOGRID	P32389	-	NP_014296	P32389	-	NP_014296	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+878870	856329	856329	36369	36369	YPR199C	YPR199C	ARR1	ARR1	ACR1|YAP8|L000004292	ACR1|YAP8|L000004292	FRET	physical	Reinke AW (2013)	PUBMED:23661758	559292	559292	High Throughput	-	-	-	-	BIOGRID	Q06596	-	NP_015525	Q06596	-	NP_015525	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+878871	854129	854129	34372	34372	YOL028C	YOL028C	YAP7	YAP7	L000004347	L000004347	FRET	physical	Reinke AW (2013)	PUBMED:23661758	559292	559292	High Throughput	-	-	-	-	BIOGRID	Q08182	-	NP_014614	Q08182	-	NP_014614	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+878872	852033	852033	32482	32482	YDR423C	YDR423C	CAD1	CAD1	YAP2|L000000206	YAP2|L000000206	FRET	physical	Reinke AW (2013)	PUBMED:23661758	559292	559292	High Throughput	-	-	-	-	BIOGRID	P24813	-	NP_010711	P24813	-	NP_010711	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+878873	856709	856709	36723	36723	YEL009C	YEL009C	GCN4	GCN4	AAS101|AAS3|ARG9|amino acid starvation-responsive transcription factor GCN4|L000000683	AAS101|AAS3|ARG9|amino acid starvation-responsive transcription factor GCN4|L000000683	FRET	physical	Reinke AW (2013)	PUBMED:23661758	559292	559292	High Throughput	-	-	-	-	BIOGRID	P03069	-	NP_010907	P03069	-	NP_010907	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+878874	854834	855620	35009	35720	YIR017C	YNL103W	MET28	MET4	L000001092	L000001079	FRET	physical	Reinke AW (2013)	PUBMED:23661758	559292	559292	High Throughput	-	-	-	-	BIOGRID	P40573	-	NP_012282	P32389	-	NP_014296	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+878875	854835	854835	35010	35010	YIR018W	YIR018W	YAP5	YAP5	L000004343	L000004343	FRET	physical	Reinke AW (2013)	PUBMED:23661758	559292	559292	High Throughput	-	-	-	-	BIOGRID	P40574	-	NP_012283	P40574	-	NP_012283	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+878876	174837	174837	40141	40141	CELE_Y17G7B.20	CELE_Y17G7B.20	Y17G7B.20	Y17G7B.20	-	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	H2KMJ1|A8XJ47|A8XJ46|H2KMJ2|Q8I4E8	NP_001122651|NP_001122652|NP_001254327|NP_001254328|NP_872051	-	H2KMJ1|A8XJ47|A8XJ46|H2KMJ2|Q8I4E8	NP_001122651|NP_001122652|NP_001254327|NP_001254328|NP_872051	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878877	175924	175924	41142	41142	CELE_F23F12.9	CELE_F23F12.9	zip-8	zip-8	-	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	P46505	-	NP_498426|NP_871665	P46505	-	NP_498426|NP_871665	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878878	7040166	172319	928164	37772	F17C11.17	C48E7.11	zip-9	cebp-2	CELE_F17C11.17	CELE_C48E7.11	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	B3GWD0	NP_001129892	-	Q8IG69	NP_871835	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878879	177099	172319	42239	37772	W08E12.1	C48E7.11	zip-11	cebp-2	CELE_W08E12.1	CELE_C48E7.11	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q9N5A8	NP_500318	-	Q8IG69	NP_871835	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878880	175240	7040166	40509	928164	K02F3.4	F17C11.17	zip-2	zip-9	CELE_K02F3.4	CELE_F17C11.17	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q21148	NP_497269	-	B3GWD0	NP_001129892	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878881	175240	175240	40509	40509	K02F3.4	K02F3.4	zip-2	zip-2	CELE_K02F3.4	CELE_K02F3.4	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q21148	NP_497269	-	Q21148	NP_497269	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878882	175240	174399	40509	39726	K02F3.4	K08F8.2	zip-2	atf-2	CELE_K02F3.4	CELE_K08F8.2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q21148	NP_497269	-	Q21361	NP_495861	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878883	175240	172319	40509	37772	K02F3.4	C48E7.11	zip-2	cebp-2	CELE_K02F3.4	CELE_C48E7.11	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q21148	NP_497269	-	Q8IG69	NP_871835	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878884	6418592	6418592	927840	927840	F45H11.6	F45H11.6	maf-1	maf-1	CELE_F45H11.6	CELE_F45H11.6	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	B0M0M9	NP_001122479	-	B0M0M9	NP_001122479	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878885	189280	173365	53927	38746	W07G1.3	ZK909.4	zip-3	ces-2	CELE_W07G1.3	CELE_ZK909.4	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q9XUK2	NP_496919	Q94126	-	NP_493610	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878886	189280	172319	53927	37772	W07G1.3	C48E7.11	zip-3	cebp-2	CELE_W07G1.3	CELE_C48E7.11	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q9XUK2	NP_496919	-	Q8IG69	NP_871835	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878887	181576	172319	46473	37772	T04C10.4	C48E7.11	atf-5	cebp-2	CELE_T04C10.4	CELE_C48E7.11	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q22156	NP_510456	-	Q8IG69	NP_871835	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878888	178987	174452	44035	39777	CELE_F29G9.4	CELE_T24H10.7	fos-1	jun-1	-	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	G5ECG2|G5EDK8	NP_001033480|NP_001033481	-	Q5FC74|G5EF64|G5EC66|B5U8L4|G5ECU7	NP_001022367|NP_001022366|NP_001122643|NP_001022368|NP_001129827	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878889	174452	183204	39777	48035	CELE_T24H10.7	CELE_C34D1.5	jun-1	zip-5	-	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q5FC74|G5EF64|G5EC66|B5U8L4|G5ECU7	NP_001022367|NP_001022366|NP_001122643|NP_001022368|NP_001129827	-	G5EG34|G5EBE5	NP_506292|NP_001122873	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878890	174452	178987	39777	44035	CELE_T24H10.7	CELE_F29G9.4	jun-1	fos-1	-	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q5FC74|G5EF64|G5EC66|B5U8L4|G5ECU7	NP_001022367|NP_001022366|NP_001122643|NP_001022368|NP_001129827	-	G5ECG2|G5EDK8	NP_001033480|NP_001033481	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878891	175587	175587	40823	40823	CELE_C07G2.2	CELE_C07G2.2	atf-7	atf-7	-	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q9U3R1|B3GWA6|Q86MD3|Q17801	NP_497913|NP_001129834|NP_497914|NP_001021161	-	Q9U3R1|B3GWA6|Q86MD3|Q17801	NP_497913|NP_001129834|NP_497914|NP_001021161	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878892	178459	178459	43537	43537	CELE_Y51H4A.4	CELE_Y51H4A.4	zip-7	zip-7	-	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q9NAE4	NP_502961	-	Q9NAE4	NP_502961	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878893	178459	173365	43537	38746	CELE_Y51H4A.4	ZK909.4	zip-7	ces-2	-	CELE_ZK909.4	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q9NAE4	NP_502961	Q94126	-	NP_493610	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878894	174399	175240	39726	40509	K08F8.2	K02F3.4	atf-2	zip-2	CELE_K08F8.2	CELE_K02F3.4	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q21361	NP_495861	-	Q21148	NP_497269	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878895	174399	174399	39726	39726	K08F8.2	K08F8.2	atf-2	atf-2	CELE_K08F8.2	CELE_K08F8.2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q21361	NP_495861	-	Q21361	NP_495861	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878896	174399	178998	39726	44046	K08F8.2	F17A9.3	atf-2	atf-8	CELE_K08F8.2	CELE_F17A9.3	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q21361	NP_495861	-	O16213	NP_504576	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878897	174399	172319	39726	37772	K08F8.2	C48E7.11	atf-2	cebp-2	CELE_K08F8.2	CELE_C48E7.11	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q21361	NP_495861	-	Q8IG69	NP_871835	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878898	174399	173365	39726	38746	K08F8.2	ZK909.4	atf-2	ces-2	CELE_K08F8.2	CELE_ZK909.4	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q21361	NP_495861	Q94126	-	NP_493610	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878899	173365	189280	38746	53927	ZK909.4	W07G1.3	ces-2	zip-3	CELE_ZK909.4	CELE_W07G1.3	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	Q94126	-	NP_493610	-	Q9XUK2	NP_496919	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878900	173365	173365	38746	38746	ZK909.4	ZK909.4	ces-2	ces-2	CELE_ZK909.4	CELE_ZK909.4	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	Q94126	-	NP_493610	Q94126	-	NP_493610	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878901	173365	174399	38746	39726	ZK909.4	K08F8.2	ces-2	atf-2	CELE_ZK909.4	CELE_K08F8.2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	Q94126	-	NP_493610	-	Q21361	NP_495861	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878902	173365	172319	38746	37772	ZK909.4	C48E7.11	ces-2	cebp-2	CELE_ZK909.4	CELE_C48E7.11	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	Q94126	-	NP_493610	-	Q8IG69	NP_871835	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878903	173365	178459	38746	43537	ZK909.4	CELE_Y51H4A.4	ces-2	zip-7	CELE_ZK909.4	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	Q94126	-	NP_493610	-	Q9NAE4	NP_502961	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878904	178998	178459	44046	43537	F17A9.3	CELE_Y51H4A.4	atf-8	zip-7	CELE_F17A9.3	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	O16213	NP_504576	-	Q9NAE4	NP_502961	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878905	178998	174399	44046	39726	F17A9.3	K08F8.2	atf-8	atf-2	CELE_F17A9.3	CELE_K08F8.2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	O16213	NP_504576	-	Q21361	NP_495861	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878906	178998	173365	44046	38746	F17A9.3	ZK909.4	atf-8	ces-2	CELE_F17A9.3	CELE_ZK909.4	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	O16213	NP_504576	Q94126	-	NP_493610	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878907	178998	178998	44046	44046	F17A9.3	F17A9.3	atf-8	atf-8	CELE_F17A9.3	CELE_F17A9.3	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	O16213	NP_504576	-	O16213	NP_504576	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878908	181405	181405	46309	46309	F45E6.2	F45E6.2	atf-6	atf-6	CELE_F45E6.2	CELE_F45E6.2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q20435	NP_510094	-	Q20435	NP_510094	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878909	171900	171900	37377	37377	CELE_Y44E3B.1	CELE_Y44E3B.1	zip-4	zip-4	-	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	G4SR45|Q965I4|H2L0N3	NP_491132|NP_491133|NP_001040703	-	G4SR45|Q965I4|H2L0N3	NP_491132|NP_491133|NP_001040703	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878910	171900	180481	37377	45432	CELE_Y44E3B.1	D1005.3	zip-4	cebp-1	-	CELE_D1005.3	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	G4SR45|Q965I4|H2L0N3	NP_491132|NP_491133|NP_001040703	-	Q18909	NP_508276	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878911	172319	183204	37772	48035	C48E7.11	CELE_C34D1.5	cebp-2	zip-5	CELE_C48E7.11	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q8IG69	NP_871835	-	G5EG34|G5EBE5	NP_506292|NP_001122873	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878912	172319	179922	37772	44928	C48E7.11	CELE_ZC376.7	cebp-2	atfs-1	CELE_C48E7.11	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q8IG69	NP_871835	-	Q8I4B7|Q52GY6|Q23272|E5QCH2	NP_001024302|NP_001256571|NP_872160|NP_506515	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878913	172319	189280	37772	53927	C48E7.11	W07G1.3	cebp-2	zip-3	CELE_C48E7.11	CELE_W07G1.3	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q8IG69	NP_871835	-	Q9XUK2	NP_496919	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878914	172319	181576	37772	46473	C48E7.11	T04C10.4	cebp-2	atf-5	CELE_C48E7.11	CELE_T04C10.4	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q8IG69	NP_871835	-	Q22156	NP_510456	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878915	172319	174399	37772	39726	C48E7.11	K08F8.2	cebp-2	atf-2	CELE_C48E7.11	CELE_K08F8.2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q8IG69	NP_871835	-	Q21361	NP_495861	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878916	172319	173365	37772	38746	C48E7.11	ZK909.4	cebp-2	ces-2	CELE_C48E7.11	CELE_ZK909.4	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q8IG69	NP_871835	Q94126	-	NP_493610	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878917	172319	178998	37772	44046	C48E7.11	F17A9.3	cebp-2	atf-8	CELE_C48E7.11	CELE_F17A9.3	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q8IG69	NP_871835	-	O16213	NP_504576	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878918	172319	172319	37772	37772	C48E7.11	C48E7.11	cebp-2	cebp-2	CELE_C48E7.11	CELE_C48E7.11	FRET	physical	Reinke AW (2013)	PUBMED:23661758	6239	6239	High Throughput	-	-	-	-	BIOGRID	-	Q8IG69	NP_871835	-	Q8IG69	NP_871835	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+878919	34725	34725	60763	60763	Dmel_CG16815	Dmel_CG16815	CG16815	CG16815	DmelCG16815	DmelCG16815	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK15	NP_609622	-	Q9VK15	NP_609622	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878920	34725	34724	60763	60762	Dmel_CG16815	Dmel_CG16813	CG16815	CG16813	DmelCG16815	DmelCG16813	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK15	NP_609622	-	Q9VK16	NP_609621|NP_001260438	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878921	34725	8674049	60763	1073063	Dmel_CG16815	Dmel_CG42599	CG16815	Pif1A	DmelCG16815	BcDNA:GH12504|CG11773|CG11774|CG11776|CG32940|CG33719|CG42599|CG9808|DmelCG42599|Dmel_CG11776|Dmel_CG33719|PIF-1A|Pif1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK15	NP_609622	-	Q86BA7|Q8WTI8|E1JIF4|Q8MRQ5	NP_001027157|NP_001189195|NP_001163556|NP_001027158	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878922	34725	34371	60763	60459	Dmel_CG16815	Dmel_CG18619	CG16815	CG18619	DmelCG16815	BcDNA:RH73910|DmelCG18619	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK15	NP_609622	-	Q8MYS1|Q9VL14|Q8IPC7|Q8IPC6	NP_609363|NP_723547|NP_723546|NP_723548	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878923	34725	12797942	60763	2592345	Dmel_CG16815	Dmel_CR4575	CG16815	CR4575	DmelCG16815	CG4575|DmelCR4575|Dmel_CG4575	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK15	NP_609622	-	-	-	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878924	34724	34725	60762	60763	Dmel_CG16813	Dmel_CG16815	CG16813	CG16815	DmelCG16813	DmelCG16815	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK16	NP_609621|NP_001260438	-	Q9VK15	NP_609622	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878925	34724	34724	60762	60762	Dmel_CG16813	Dmel_CG16813	CG16813	CG16813	DmelCG16813	DmelCG16813	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK16	NP_609621|NP_001260438	-	Q9VK16	NP_609621|NP_001260438	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878926	34724	42930	60762	67856	Dmel_CG16813	Dmel_CG13624	CG16813	CG13624	DmelCG16813	DmelCG13624|anon-WO0153538.65	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK16	NP_609621|NP_001260438	Q9VC61	-	NP_733014|NP_001287505|NP_733012|NP_733013|NP_001036753|NP_001036752|NP_651271	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878927	34724	32068	60762	58480	Dmel_CG16813	Dmel_CG1641	CG16813	sisA	DmelCG16813	CG1641|DmelCG1641|sis A|sis-A	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK16	NP_609621|NP_001260438	Q9VZ09	-	NP_511116	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878928	34724	8674049	60762	1073063	Dmel_CG16813	Dmel_CG42599	CG16813	Pif1A	DmelCG16813	BcDNA:GH12504|CG11773|CG11774|CG11776|CG32940|CG33719|CG42599|CG9808|DmelCG42599|Dmel_CG11776|Dmel_CG33719|PIF-1A|Pif1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK16	NP_609621|NP_001260438	-	Q86BA7|Q8WTI8|E1JIF4|Q8MRQ5	NP_001027157|NP_001189195|NP_001163556|NP_001027158	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878929	34724	34371	60762	60459	Dmel_CG16813	Dmel_CG18619	CG16813	CG18619	DmelCG16813	BcDNA:RH73910|DmelCG18619	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK16	NP_609621|NP_001260438	-	Q8MYS1|Q9VL14|Q8IPC7|Q8IPC6	NP_609363|NP_723547|NP_723546|NP_723548	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878930	34724	42743	60762	67688	Dmel_CG16813	Dmel_CG43286	CG16813	cnc	DmelCG16813	5134|BcDNA:RE05559|CG13826|CG17894|CG43286|CG4566|CG4578|CNC_DROME|DmelCG43286|Dmel_CG13826|Dmel_CG17894|Nrf2|anon-WO0153538.6|anon-WO0153538.7|cnc-C|l(3)03921|l(3)j5E7	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK16	NP_609621|NP_001260438	P20482	-	NP_001247258|NP_001247261|NP_001247260|NP_001247262|NP_001247256|NP_001247257|NP_732839|NP_732838|NP_001262864|NP_001262865|NP_732835|NP_732834|NP_732837|NP_732836|NP_732833|NP_001247259	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878931	34724	37336	60762	62985	Dmel_CG16813	Dmel_CG9954	CG16813	maf-S	DmelCG16813	CG9954|DmelCG9954|Maf|MafS|anon-EST:Posey173|maf2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK16	NP_609621|NP_001260438	-	Q4QPP9	NP_001286639|NP_611500	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878932	34724	12797942	60762	2592345	Dmel_CG16813	Dmel_CR4575	CG16813	CR4575	DmelCG16813	CG4575|DmelCR4575|Dmel_CG4575	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK16	NP_609621|NP_001260438	-	-	-	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878933	34724	31227	60762	57763	Dmel_CG16813	Dmel_CG7952	CG16813	gt	DmelCG16813	CG7952|DmelCG7952|EG:BACH7M4.5|GIAN_DROME|Giant|l(1)3Aa|l(1)giant	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK16	NP_609621|NP_001260438	P39572	-	NP_525049	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878934	34724	36802	60762	62521	Dmel_CG16813	Dmel_CG7786	CG16813	CG7786	DmelCG16813	DmelCG7786	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK16	NP_609621|NP_001260438	-	A1ZAC2	NP_611101	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878935	34724	33759	60762	59930	Dmel_CG16813	Dmel_CG14029	CG16813	vri	DmelCG16813	CG14029|DmelCG14029|argo|jf23|l(2)25Db|l(2)jf23|mat(2)ea-G|mat(2)earlyRS32|mel_vri	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK16	NP_609621|NP_001260438	-	Q9VMS4|Q7KTN9	NP_001285623|NP_001137792|NP_477191|NP_723075|NP_001285624	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878936	34724	35480	60762	61397	Dmel_CG16813	Dmel_CG3136	CG16813	Atf6	DmelCG16813	CG3136|DmelCG3136	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VK16	NP_609621|NP_001260438	-	Q7K2V1|Q8SX87	NP_610159|NP_724403|NP_995745	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878937	42930	8674049	67856	1073063	Dmel_CG13624	Dmel_CG42599	CG13624	Pif1A	DmelCG13624|anon-WO0153538.65	BcDNA:GH12504|CG11773|CG11774|CG11776|CG32940|CG33719|CG42599|CG9808|DmelCG42599|Dmel_CG11776|Dmel_CG33719|PIF-1A|Pif1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	Q9VC61	-	NP_733014|NP_001287505|NP_733012|NP_733013|NP_001036753|NP_001036752|NP_651271	-	Q86BA7|Q8WTI8|E1JIF4|Q8MRQ5	NP_001027157|NP_001189195|NP_001163556|NP_001027158	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878938	34371	12797942	60459	2592345	Dmel_CG18619	Dmel_CR4575	CG18619	CR4575	BcDNA:RH73910|DmelCG18619	CG4575|DmelCR4575|Dmel_CG4575	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q8MYS1|Q9VL14|Q8IPC7|Q8IPC6	NP_609363|NP_723547|NP_723546|NP_723548	-	-	-	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878939	42743	34371	67688	60459	Dmel_CG43286	Dmel_CG18619	cnc	CG18619	5134|BcDNA:RE05559|CG13826|CG17894|CG43286|CG4566|CG4578|CNC_DROME|DmelCG43286|Dmel_CG13826|Dmel_CG17894|Nrf2|anon-WO0153538.6|anon-WO0153538.7|cnc-C|l(3)03921|l(3)j5E7	BcDNA:RH73910|DmelCG18619	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	P20482	-	NP_001247258|NP_001247261|NP_001247260|NP_001247262|NP_001247256|NP_001247257|NP_732839|NP_732838|NP_001262864|NP_001262865|NP_732835|NP_732834|NP_732837|NP_732836|NP_732833|NP_001247259	-	Q8MYS1|Q9VL14|Q8IPC7|Q8IPC6	NP_609363|NP_723547|NP_723546|NP_723548	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878940	42743	37336	67688	62985	Dmel_CG43286	Dmel_CG9954	cnc	maf-S	5134|BcDNA:RE05559|CG13826|CG17894|CG43286|CG4566|CG4578|CNC_DROME|DmelCG43286|Dmel_CG13826|Dmel_CG17894|Nrf2|anon-WO0153538.6|anon-WO0153538.7|cnc-C|l(3)03921|l(3)j5E7	CG9954|DmelCG9954|Maf|MafS|anon-EST:Posey173|maf2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	P20482	-	NP_001247258|NP_001247261|NP_001247260|NP_001247262|NP_001247256|NP_001247257|NP_732839|NP_732838|NP_001262864|NP_001262865|NP_732835|NP_732834|NP_732837|NP_732836|NP_732833|NP_001247259	-	Q4QPP9	NP_001286639|NP_611500	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878941	42743	12797942	67688	2592345	Dmel_CG43286	Dmel_CR4575	cnc	CR4575	5134|BcDNA:RE05559|CG13826|CG17894|CG43286|CG4566|CG4578|CNC_DROME|DmelCG43286|Dmel_CG13826|Dmel_CG17894|Nrf2|anon-WO0153538.6|anon-WO0153538.7|cnc-C|l(3)03921|l(3)j5E7	CG4575|DmelCR4575|Dmel_CG4575	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	P20482	-	NP_001247258|NP_001247261|NP_001247260|NP_001247262|NP_001247256|NP_001247257|NP_732839|NP_732838|NP_001262864|NP_001262865|NP_732835|NP_732834|NP_732837|NP_732836|NP_732833|NP_001247259	-	-	-	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878942	35227	35227	61205	61205	Dmel_CG10034	Dmel_CG10034	tj	tj	CG10034|Dmaf|DmelCG10034|PL3|fs(2)eo-B|fs(2)eo2|fs(2)eoPL3|maf-L|maf1	CG10034|Dmaf|DmelCG10034|PL3|fs(2)eo-B|fs(2)eo2|fs(2)eoPL3|maf-L|maf1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	M9PG80|Q9VIW0	NP_001260582|NP_609969	-	M9PG80|Q9VIW0	NP_001260582|NP_609969	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878943	37336	37336	62985	62985	Dmel_CG9954	Dmel_CG9954	maf-S	maf-S	CG9954|DmelCG9954|Maf|MafS|anon-EST:Posey173|maf2	CG9954|DmelCG9954|Maf|MafS|anon-EST:Posey173|maf2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q4QPP9	NP_001286639|NP_611500	-	Q4QPP9	NP_001286639|NP_611500	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878944	47767	37889	70925	63463	Dmel_CG8669	Dmel_CG4354	crc	slbo	929|ATF-4|ATF4|ATF4/crc|CG8669|DmelCG8669|Ire1|dATF-4|l(2)crc	C/EBP|CG4354|DC/EBP|Dm-c/EBP|DmC/EBP|DmelCG4354|fs(2)7|fs(2)8|fs(2)ry7|fs(2)ry8|slobo	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9NIR3|Q9VID3|M9PBF8	NP_524897|NP_724333|NP_001260673|NP_001260672	Q02637	-	NP_001286836|NP_523843	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878945	47767	39243	70925	64617	Dmel_CG8669	Dmel_CG6272	crc	CG6272	929|ATF-4|ATF4|ATF4/crc|CG8669|DmelCG8669|Ire1|dATF-4|l(2)crc	BcDNA:GH10915|CT19628|DmelCG6272	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9NIR3|Q9VID3|M9PBF8	NP_524897|NP_724333|NP_001260673|NP_001260672	-	Q9VTE8	NP_001261698|NP_648434	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878946	3772082	36057	533679	61885	Dmel_CG33956	Dmel_CG2275	kay	Jra	AP-1|AP1|CG15507|CG15509|CG33956|D-Fos|D-fos/kay|DFOS|DFra|DmelCG33956|FOS|Fra|c-Fos|dAP-1|dlhD|fbz	AP-1|AP1|CG2275|D-Jun|D-jun/Jra|DJUN|DmelCG2275|JUN|V|c-Jun|cJun|d-JRA|dAP-1|dJRA|dm-Jun|l(2)46Ef|l(2)IA109|l(2R)IA109	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	A8MPH9|P21525	C4JC86	NP_001027579|NP_001027578|NP_001287591|NP_001027580|NP_001027577	P18289	-	NP_724882|NP_476586|NP_001260844	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878947	36057	3772082	61885	533679	Dmel_CG2275	Dmel_CG33956	Jra	kay	AP-1|AP1|CG2275|D-Jun|D-jun/Jra|DJUN|DmelCG2275|JUN|V|c-Jun|cJun|d-JRA|dAP-1|dJRA|dm-Jun|l(2)46Ef|l(2)IA109|l(2R)IA109	AP-1|AP1|CG15507|CG15509|CG33956|D-Fos|D-fos/kay|DFOS|DFra|DmelCG33956|FOS|Fra|c-Fos|dAP-1|dlhD|fbz	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	P18289	-	NP_724882|NP_476586|NP_001260844	A8MPH9|P21525	C4JC86	NP_001027579|NP_001027578|NP_001287591|NP_001027580|NP_001027577	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878948	36057	8674049	61885	1073063	Dmel_CG2275	Dmel_CG42599	Jra	Pif1A	AP-1|AP1|CG2275|D-Jun|D-jun/Jra|DJUN|DmelCG2275|JUN|V|c-Jun|cJun|d-JRA|dAP-1|dJRA|dm-Jun|l(2)46Ef|l(2)IA109|l(2R)IA109	BcDNA:GH12504|CG11773|CG11774|CG11776|CG32940|CG33719|CG42599|CG9808|DmelCG42599|Dmel_CG11776|Dmel_CG33719|PIF-1A|Pif1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	P18289	-	NP_724882|NP_476586|NP_001260844	-	Q86BA7|Q8WTI8|E1JIF4|Q8MRQ5	NP_001027157|NP_001189195|NP_001163556|NP_001027158	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878949	37978	37978	63546	63546	Dmel_CG44246	Dmel_CG44246	Atf-2	Atf-2	ATF2|CG12850|CG30420|CG44246|DmelCG44246|Dmel_CG30420|dATF-2|dATF2	ATF2|CG12850|CG30420|CG44246|DmelCG44246|Dmel_CG30420|dATF-2|dATF2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q2PE13	NP_001033973	-	Q2PE13	NP_001033973	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878950	12797942	34725	2592345	60763	Dmel_CR4575	Dmel_CG16815	CR4575	CG16815	CG4575|DmelCR4575|Dmel_CG4575	DmelCG16815	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	-	-	-	Q9VK15	NP_609622	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878951	12797942	34724	2592345	60762	Dmel_CR4575	Dmel_CG16813	CR4575	CG16813	CG4575|DmelCR4575|Dmel_CG4575	DmelCG16813	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	-	-	-	Q9VK16	NP_609621|NP_001260438	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878952	12797942	34371	2592345	60459	Dmel_CR4575	Dmel_CG18619	CR4575	CG18619	CG4575|DmelCR4575|Dmel_CG4575	BcDNA:RH73910|DmelCG18619	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	-	-	-	Q8MYS1|Q9VL14|Q8IPC7|Q8IPC6	NP_609363|NP_723547|NP_723546|NP_723548	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878953	12797942	12797942	2592345	2592345	Dmel_CR4575	Dmel_CR4575	CR4575	CR4575	CG4575|DmelCR4575|Dmel_CG4575	CG4575|DmelCR4575|Dmel_CG4575	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	-	-	-	-	-	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878954	36802	42930	62521	67856	Dmel_CG7786	Dmel_CG13624	CG7786	CG13624	DmelCG7786	DmelCG13624|anon-WO0153538.65	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	A1ZAC2	NP_611101	Q9VC61	-	NP_733014|NP_001287505|NP_733012|NP_733013|NP_001036753|NP_001036752|NP_651271	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878955	36802	34371	62521	60459	Dmel_CG7786	Dmel_CG18619	CG7786	CG18619	DmelCG7786	BcDNA:RH73910|DmelCG18619	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	A1ZAC2	NP_611101	-	Q8MYS1|Q9VL14|Q8IPC7|Q8IPC6	NP_609363|NP_723547|NP_723546|NP_723548	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878956	36802	36057	62521	61885	Dmel_CG7786	Dmel_CG2275	CG7786	Jra	DmelCG7786	AP-1|AP1|CG2275|D-Jun|D-jun/Jra|DJUN|DmelCG2275|JUN|V|c-Jun|cJun|d-JRA|dAP-1|dJRA|dm-Jun|l(2)46Ef|l(2)IA109|l(2R)IA109	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	A1ZAC2	NP_611101	P18289	-	NP_724882|NP_476586|NP_001260844	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878957	36802	12797942	62521	2592345	Dmel_CG7786	Dmel_CR4575	CG7786	CR4575	DmelCG7786	CG4575|DmelCR4575|Dmel_CG4575	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	A1ZAC2	NP_611101	-	-	-	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878958	36802	34724	62521	60762	Dmel_CG7786	Dmel_CG16813	CG7786	CG16813	DmelCG7786	DmelCG16813	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	A1ZAC2	NP_611101	-	Q9VK16	NP_609621|NP_001260438	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878959	36802	36802	62521	62521	Dmel_CG7786	Dmel_CG7786	CG7786	CG7786	DmelCG7786	DmelCG7786	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	A1ZAC2	NP_611101	-	A1ZAC2	NP_611101	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878960	36802	37889	62521	63463	Dmel_CG7786	Dmel_CG4354	CG7786	slbo	DmelCG7786	C/EBP|CG4354|DC/EBP|Dm-c/EBP|DmC/EBP|DmelCG4354|fs(2)7|fs(2)8|fs(2)ry7|fs(2)ry8|slobo	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	A1ZAC2	NP_611101	Q02637	-	NP_001286836|NP_523843	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878961	45588	45588	69775	69775	Dmel_CG17888	Dmel_CG17888	Pdp1	Pdp1	CG17888|DmelCG17888|PDP|PDP1epsilon|Pdp-1|Pdp1 epsilon|Pdp1e|anon-WO0140519.206|mel_pdp1	CG17888|DmelCG17888|PDP|PDP1epsilon|Pdp-1|Pdp1 epsilon|Pdp1e|anon-WO0140519.206|mel_pdp1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q5U8V5|Q9TW49|M9PEP3|Q24217|Q8IQ99|Q8IQ98|M9PBV3|Q7KKI2|Q8SZT1|M9PEX4|Q9TVQ4	NP_729303|NP_729302|NP_729301|NP_729300|NP_729297|NP_524832|NP_729299|NP_729298|NP_001286973|NP_001261544|NP_001261545|NP_001261546|NP_001261547	-	Q5U8V5|Q9TW49|M9PEP3|Q24217|Q8IQ99|Q8IQ98|M9PBV3|Q7KKI2|Q8SZT1|M9PEX4|Q9TVQ4	NP_729303|NP_729302|NP_729301|NP_729300|NP_729297|NP_524832|NP_729299|NP_729298|NP_001286973|NP_001261544|NP_001261545|NP_001261546|NP_001261547	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878962	35480	37336	61397	62985	Dmel_CG3136	Dmel_CG9954	Atf6	maf-S	CG3136|DmelCG3136	CG9954|DmelCG9954|Maf|MafS|anon-EST:Posey173|maf2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q7K2V1|Q8SX87	NP_610159|NP_724403|NP_995745	-	Q4QPP9	NP_001286639|NP_611500	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878963	35480	35480	61397	61397	Dmel_CG3136	Dmel_CG3136	Atf6	Atf6	CG3136|DmelCG3136	CG3136|DmelCG3136	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q7K2V1|Q8SX87	NP_610159|NP_724403|NP_995745	-	Q7K2V1|Q8SX87	NP_610159|NP_724403|NP_995745	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878964	32817	31227	59134	57763	Dmel_CG6103	Dmel_CG7952	CrebB	gt	CG6103|CRE-BP|CREB|CREB-B|CREB2|CREB2a|CREB2b|Creb B 17A|Creb17A|Creb2-b|Creb2.b|CrebB-17A|CrebB-17B|CrebB17-A|DmelCG6103|S162|dCREB|dCREB-2|dCREB-2a|dCREB-B|dCREB2|dCREB2-a|dCREB2-b|dCREB2a|dCREB2b|dCbz|dCrebB2|l(1)17Af	CG7952|DmelCG7952|EG:BACH7M4.5|GIAN_DROME|Giant|l(1)3Aa|l(1)giant	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	Q9VWW0	M9PHW9|C6SUU1|M9PHZ6	NP_001259677|NP_001259678|NP_996504|NP_996506|NP_001097017|NP_001097016|NP_001245740|NP_001097018	P39572	-	NP_525049	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878965	32817	32817	59134	59134	Dmel_CG6103	Dmel_CG6103	CrebB	CrebB	CG6103|CRE-BP|CREB|CREB-B|CREB2|CREB2a|CREB2b|Creb B 17A|Creb17A|Creb2-b|Creb2.b|CrebB-17A|CrebB-17B|CrebB17-A|DmelCG6103|S162|dCREB|dCREB-2|dCREB-2a|dCREB-B|dCREB2|dCREB2-a|dCREB2-b|dCREB2a|dCREB2b|dCbz|dCrebB2|l(1)17Af	CG6103|CRE-BP|CREB|CREB-B|CREB2|CREB2a|CREB2b|Creb B 17A|Creb17A|Creb2-b|Creb2.b|CrebB-17A|CrebB-17B|CrebB17-A|DmelCG6103|S162|dCREB|dCREB-2|dCREB-2a|dCREB-B|dCREB2|dCREB2-a|dCREB2-b|dCREB2a|dCREB2b|dCbz|dCrebB2|l(1)17Af	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	Q9VWW0	M9PHW9|C6SUU1|M9PHZ6	NP_001259677|NP_001259678|NP_996504|NP_996506|NP_001097017|NP_001097016|NP_001245740|NP_001097018	Q9VWW0	M9PHW9|C6SUU1|M9PHZ6	NP_001259677|NP_001259678|NP_996504|NP_996506|NP_001097017|NP_001097016|NP_001245740|NP_001097018	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878966	37889	34371	63463	60459	Dmel_CG4354	Dmel_CG18619	slbo	CG18619	C/EBP|CG4354|DC/EBP|Dm-c/EBP|DmC/EBP|DmelCG4354|fs(2)7|fs(2)8|fs(2)ry7|fs(2)ry8|slobo	BcDNA:RH73910|DmelCG18619	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	Q02637	-	NP_001286836|NP_523843	-	Q8MYS1|Q9VL14|Q8IPC7|Q8IPC6	NP_609363|NP_723547|NP_723546|NP_723548	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878967	37889	47767	63463	70925	Dmel_CG4354	Dmel_CG8669	slbo	crc	C/EBP|CG4354|DC/EBP|Dm-c/EBP|DmC/EBP|DmelCG4354|fs(2)7|fs(2)8|fs(2)ry7|fs(2)ry8|slobo	929|ATF-4|ATF4|ATF4/crc|CG8669|DmelCG8669|Ire1|dATF-4|l(2)crc	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	Q02637	-	NP_001286836|NP_523843	-	Q9NIR3|Q9VID3|M9PBF8	NP_524897|NP_724333|NP_001260673|NP_001260672	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878968	39243	47767	64617	70925	Dmel_CG6272	Dmel_CG8669	CG6272	crc	BcDNA:GH10915|CT19628|DmelCG6272	929|ATF-4|ATF4|ATF4/crc|CG8669|DmelCG8669|Ire1|dATF-4|l(2)crc	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	High Throughput	-	-	-	-	BIOGRID	-	Q9VTE8	NP_001261698|NP_648434	-	Q9NIR3|Q9VID3|M9PBF8	NP_524897|NP_724333|NP_001260673|NP_001260672	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+878969	60468	4097	121913	110272	RP11-63K6.2	-	BACH2	MAFG	BTBD25	hMAF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9BYV9	-	NP_001164265|NP_068585	O15525	A0A024R8X1	NP_116100|NP_002350	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878970	60468	23764	121913	117264	RP11-63K6.2	CTA-447C4.1	BACH2	MAFF	BTBD25	U-MAF|hMafF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9BYV9	-	NP_001164265|NP_068585	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878971	571	4097	107047	110272	-	-	BACH1	MAFG	BACH-1|BTBD24	hMAF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O14867	-	NP_001177|NP_996749	O15525	A0A024R8X1	NP_116100|NP_002350	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878972	571	23764	107047	117264	-	CTA-447C4.1	BACH1	MAFF	BACH-1|BTBD24	U-MAF|hMafF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O14867	-	NP_001177|NP_996749	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878973	9603	60468	114967	121913	-	RP11-63K6.2	NFE2L3	BACH2	NRF3	BTBD25	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9Y4A8	-	NP_004280	Q9BYV9	-	NP_001164265|NP_068585	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878974	9603	9603	114967	114967	-	-	NFE2L3	NFE2L3	NRF3	NRF3	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9Y4A8	-	NP_004280	Q9Y4A8	-	NP_004280	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878975	9603	4780	114967	110852	-	-	NFE2L3	NFE2L2	NRF3	NRF2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9Y4A8	-	NP_004280	Q16236	-	NP_006155|NP_001138884|NP_001138885|NP_001300829|NP_001300830|NP_001300831	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878976	9603	4779	114967	110851	-	-	NFE2L3	NFE2L1	NRF3	LCR-F1|NRF1|TCF11	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9Y4A8	-	NP_004280	Q14494	J9JIE5|Q8NF22	NP_003195|NP_001317191|NP_001317190	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878977	9603	4778	114967	110850	-	-	NFE2L3	NFE2	NRF3	NF-E2|p45	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9Y4A8	-	NP_004280	Q16621	A8K3E0	NP_006154|NP_001129495|NP_001248390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878978	9603	4097	114967	110272	-	-	NFE2L3	MAFG	NRF3	hMAF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9Y4A8	-	NP_004280	O15525	A0A024R8X1	NP_116100|NP_002350	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878979	9603	23764	114967	117264	-	CTA-447C4.1	NFE2L3	MAFF	NRF3	U-MAF|hMafF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9Y4A8	-	NP_004280	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878980	9603	10488	114967	115751	-	-	NFE2L3	CREB3	NRF3	LUMAN|LZIP|sLZIP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9Y4A8	-	NP_004280	O43889	-	NP_006359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878981	4780	4778	110852	110850	-	-	NFE2L2	NFE2	NRF2	NF-E2|p45	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16236	-	NP_006155|NP_001138884|NP_001138885|NP_001300829|NP_001300830|NP_001300831	Q16621	A8K3E0	NP_006154|NP_001129495|NP_001248390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878982	4780	4097	110852	110272	-	-	NFE2L2	MAFG	NRF2	hMAF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16236	-	NP_006155|NP_001138884|NP_001138885|NP_001300829|NP_001300830|NP_001300831	O15525	A0A024R8X1	NP_116100|NP_002350	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878983	4780	468	110852	106958	-	-	NFE2L2	ATF4	NRF2	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16236	-	NP_006155|NP_001138884|NP_001138885|NP_001300829|NP_001300830|NP_001300831	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878984	4779	60468	110851	121913	-	RP11-63K6.2	NFE2L1	BACH2	LCR-F1|NRF1|TCF11	BTBD25	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q14494	J9JIE5|Q8NF22	NP_003195|NP_001317191|NP_001317190	Q9BYV9	-	NP_001164265|NP_068585	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878985	4779	4779	110851	110851	-	-	NFE2L1	NFE2L1	LCR-F1|NRF1|TCF11	LCR-F1|NRF1|TCF11	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q14494	J9JIE5|Q8NF22	NP_003195|NP_001317191|NP_001317190	Q14494	J9JIE5|Q8NF22	NP_003195|NP_001317191|NP_001317190	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878986	4779	4097	110851	110272	-	-	NFE2L1	MAFG	LCR-F1|NRF1|TCF11	hMAF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q14494	J9JIE5|Q8NF22	NP_003195|NP_001317191|NP_001317190	O15525	A0A024R8X1	NP_116100|NP_002350	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878987	4779	23764	110851	117264	-	CTA-447C4.1	NFE2L1	MAFF	LCR-F1|NRF1|TCF11	U-MAF|hMafF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q14494	J9JIE5|Q8NF22	NP_003195|NP_001317191|NP_001317190	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878988	4778	9603	110850	114967	-	-	NFE2	NFE2L3	NF-E2|p45	NRF3	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16621	A8K3E0	NP_006154|NP_001129495|NP_001248390	Q9Y4A8	-	NP_004280	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878989	4778	4778	110850	110850	-	-	NFE2	NFE2	NF-E2|p45	NF-E2|p45	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16621	A8K3E0	NP_006154|NP_001129495|NP_001248390	Q16621	A8K3E0	NP_006154|NP_001129495|NP_001248390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878990	4778	468	110850	106958	-	-	NFE2	ATF4	NF-E2|p45	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16621	A8K3E0	NP_006154|NP_001129495|NP_001248390	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878991	9935	571	115261	107047	-	-	MAFB	BACH1	KRML|MCTO	BACH-1|BTBD24	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9Y5Q3	-	NP_005452	O14867	-	NP_001177|NP_996749	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878992	9935	9935	115261	115261	-	-	MAFB	MAFB	KRML|MCTO	KRML|MCTO	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9Y5Q3	-	NP_005452	Q9Y5Q3	-	NP_005452	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878993	9935	4094	115261	110269	-	-	MAFB	MAF	KRML|MCTO	CCA4|c-MAF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9Y5Q3	-	NP_005452	O75444	-	NP_005351|NP_001026974	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878994	9935	468	115261	106958	-	-	MAFB	ATF4	KRML|MCTO	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9Y5Q3	-	NP_005452	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878995	9935	8061	115261	113742	-	-	MAFB	FOSL1	KRML|MCTO	FRA|FRA1|fra-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9Y5Q3	-	NP_005452	P15407	E9PPX2|E9PKL5	NP_005429|NP_001287773|NP_001287786|NP_001287784|NP_001287785	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878996	9935	2353	115261	108636	-	-	MAFB	FOS	KRML|MCTO	AP-1|C-FOS|p55	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9Y5Q3	-	NP_005452	P01100	Q6FG41	NP_005243	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878997	4094	9935	110269	115261	-	-	MAF	MAFB	CCA4|c-MAF	KRML|MCTO	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O75444	-	NP_005351|NP_001026974	Q9Y5Q3	-	NP_005452	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878998	4094	4094	110269	110269	-	-	MAF	MAF	CCA4|c-MAF	CCA4|c-MAF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O75444	-	NP_005351|NP_001026974	O75444	-	NP_005351|NP_001026974	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+878999	4094	468	110269	106958	-	-	MAF	ATF4	CCA4|c-MAF	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O75444	-	NP_005351|NP_001026974	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879000	4094	8061	110269	113742	-	-	MAF	FOSL1	CCA4|c-MAF	FRA|FRA1|fra-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O75444	-	NP_005351|NP_001026974	P15407	E9PPX2|E9PKL5	NP_005429|NP_001287773|NP_001287786|NP_001287784|NP_001287785	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879001	4094	2353	110269	108636	-	-	MAF	FOS	CCA4|c-MAF	AP-1|C-FOS|p55	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O75444	-	NP_005351|NP_001026974	P01100	Q6FG41	NP_005243	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879002	4097	60468	110272	121913	-	RP11-63K6.2	MAFG	BACH2	hMAF	BTBD25	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O15525	A0A024R8X1	NP_116100|NP_002350	Q9BYV9	-	NP_001164265|NP_068585	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879003	4097	571	110272	107047	-	-	MAFG	BACH1	hMAF	BACH-1|BTBD24	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O15525	A0A024R8X1	NP_116100|NP_002350	O14867	-	NP_001177|NP_996749	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879004	4097	4780	110272	110852	-	-	MAFG	NFE2L2	hMAF	NRF2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O15525	A0A024R8X1	NP_116100|NP_002350	Q16236	-	NP_006155|NP_001138884|NP_001138885|NP_001300829|NP_001300830|NP_001300831	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879005	4097	4097	110272	110272	-	-	MAFG	MAFG	hMAF	hMAF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O15525	A0A024R8X1	NP_116100|NP_002350	O15525	A0A024R8X1	NP_116100|NP_002350	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879006	4097	23764	110272	117264	-	CTA-447C4.1	MAFG	MAFF	hMAF	U-MAF|hMafF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O15525	A0A024R8X1	NP_116100|NP_002350	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879007	4097	55509	110272	120689	-	-	MAFG	BATF3	hMAF	JDP1|JUNDM1|SNFT	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O15525	A0A024R8X1	NP_116100|NP_002350	Q9NR55	-	NP_061134	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879008	4097	467	110272	106957	-	RP11-338C15.1	MAFG	ATF3	hMAF	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O15525	A0A024R8X1	NP_116100|NP_002350	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879009	4097	4783	110272	110855	-	-	MAFG	NFIL3	hMAF	E4BP4|IL3BP1|NF-IL3A|NFIL3A	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O15525	A0A024R8X1	NP_116100|NP_002350	Q16649	A0A024R241	NP_005375|NP_001276928|NP_001276929	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879010	23764	60468	117264	121913	CTA-447C4.1	RP11-63K6.2	MAFF	BACH2	U-MAF|hMafF	BTBD25	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	Q9BYV9	-	NP_001164265|NP_068585	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879011	23764	571	117264	107047	CTA-447C4.1	-	MAFF	BACH1	U-MAF|hMafF	BACH-1|BTBD24	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	O14867	-	NP_001177|NP_996749	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879012	23764	9603	117264	114967	CTA-447C4.1	-	MAFF	NFE2L3	U-MAF|hMafF	NRF3	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	Q9Y4A8	-	NP_004280	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879013	23764	4780	117264	110852	CTA-447C4.1	-	MAFF	NFE2L2	U-MAF|hMafF	NRF2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	Q16236	-	NP_006155|NP_001138884|NP_001138885|NP_001300829|NP_001300830|NP_001300831	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879014	23764	4779	117264	110851	CTA-447C4.1	-	MAFF	NFE2L1	U-MAF|hMafF	LCR-F1|NRF1|TCF11	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	Q14494	J9JIE5|Q8NF22	NP_003195|NP_001317191|NP_001317190	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879015	23764	4097	117264	110272	CTA-447C4.1	-	MAFF	MAFG	U-MAF|hMafF	hMAF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	O15525	A0A024R8X1	NP_116100|NP_002350	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879016	23764	23764	117264	117264	CTA-447C4.1	CTA-447C4.1	MAFF	MAFF	U-MAF|hMafF	U-MAF|hMafF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879017	23764	55509	117264	120689	CTA-447C4.1	-	MAFF	BATF3	U-MAF|hMafF	JDP1|JUNDM1|SNFT	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	Q9NR55	-	NP_061134	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879018	23764	116071	117264	125470	CTA-447C4.1	-	MAFF	BATF2	U-MAF|hMafF	SARI	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	Q8N1L9	B4DV37	NP_001287737|NP_001287736|NP_612465	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879019	23764	467	117264	106957	CTA-447C4.1	RP11-338C15.1	MAFF	ATF3	U-MAF|hMafF	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879020	23764	2353	117264	108636	CTA-447C4.1	-	MAFF	FOS	U-MAF|hMafF	AP-1|C-FOS|p55	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	P01100	Q6FG41	NP_005243	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879021	23764	4783	117264	110855	CTA-447C4.1	-	MAFF	NFIL3	U-MAF|hMafF	E4BP4|IL3BP1|NF-IL3A|NFIL3A	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	Q16649	A0A024R241	NP_005375|NP_001276928|NP_001276929	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879022	55509	60468	120689	121913	-	RP11-63K6.2	BATF3	BACH2	JDP1|JUNDM1|SNFT	BTBD25	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NR55	-	NP_061134	Q9BYV9	-	NP_001164265|NP_068585	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879023	55509	4097	120689	110272	-	-	BATF3	MAFG	JDP1|JUNDM1|SNFT	hMAF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NR55	-	NP_061134	O15525	A0A024R8X1	NP_116100|NP_002350	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879024	55509	23764	120689	117264	-	CTA-447C4.1	BATF3	MAFF	JDP1|JUNDM1|SNFT	U-MAF|hMafF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NR55	-	NP_061134	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879025	55509	55509	120689	120689	-	-	BATF3	BATF3	JDP1|JUNDM1|SNFT	JDP1|JUNDM1|SNFT	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NR55	-	NP_061134	Q9NR55	-	NP_061134	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879026	55509	10538	120689	115792	-	-	BATF3	BATF	JDP1|JUNDM1|SNFT	B-ATF|BATF1|SFA-2|SFA2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NR55	-	NP_061134	Q16520	-	NP_006390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879027	55509	467	120689	106957	-	RP11-338C15.1	BATF3	ATF3	JDP1|JUNDM1|SNFT	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NR55	-	NP_061134	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879028	55509	468	120689	106958	-	-	BATF3	ATF4	JDP1|JUNDM1|SNFT	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NR55	-	NP_061134	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879029	55509	3726	120689	109929	-	-	BATF3	JUNB	JDP1|JUNDM1|SNFT	AP-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NR55	-	NP_061134	P17275	Q5U079	NP_002220	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879030	55509	1386	120689	107776	-	-	BATF3	ATF2	JDP1|JUNDM1|SNFT	CRE-BP1|CREB-2|CREB2|HB16|TREB7	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NR55	-	NP_061134	P15336	A4D7V5	NP_001243023|NP_001243022|NP_001243021|NP_001871|NP_001243020|NP_001243019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879031	55509	3725	120689	109928	-	-	BATF3	JUN	JDP1|JUNDM1|SNFT	AP-1|AP1|c-Jun	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NR55	-	NP_061134	P05412	-	NP_002219	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879032	55509	1628	120689	107996	-	-	BATF3	DBP	JDP1|JUNDM1|SNFT	DABP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NR55	-	NP_061134	Q10586	-	NP_001343	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879033	55509	1053	120689	107482	-	-	BATF3	CEBPE	JDP1|JUNDM1|SNFT	C/EBP-epsilon|CRP1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NR55	-	NP_061134	Q15744	-	NP_001796	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879034	55509	1050	120689	107479	-	-	BATF3	CEBPA	JDP1|JUNDM1|SNFT	C/EBP-alpha|CEBP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NR55	-	NP_061134	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879035	55509	1054	120689	107483	-	-	BATF3	CEBPG	JDP1|JUNDM1|SNFT	GPE1BP|IG/EBP-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NR55	-	NP_061134	P53567	-	NP_001797|NP_001239225	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879036	116071	23764	125470	117264	-	CTA-447C4.1	BATF2	MAFF	SARI	U-MAF|hMafF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q8N1L9	B4DV37	NP_001287737|NP_001287736|NP_612465	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879037	116071	468	125470	106958	-	-	BATF2	ATF4	SARI	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q8N1L9	B4DV37	NP_001287737|NP_001287736|NP_612465	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879038	116071	3726	125470	109929	-	-	BATF2	JUNB	SARI	AP-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q8N1L9	B4DV37	NP_001287737|NP_001287736|NP_612465	P17275	Q5U079	NP_002220	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879039	116071	3725	125470	109928	-	-	BATF2	JUN	SARI	AP-1|AP1|c-Jun	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q8N1L9	B4DV37	NP_001287737|NP_001287736|NP_612465	P05412	-	NP_002219	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879040	116071	1050	125470	107479	-	-	BATF2	CEBPA	SARI	C/EBP-alpha|CEBP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q8N1L9	B4DV37	NP_001287737|NP_001287736|NP_612465	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879041	116071	1054	125470	107483	-	-	BATF2	CEBPG	SARI	GPE1BP|IG/EBP-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q8N1L9	B4DV37	NP_001287737|NP_001287736|NP_612465	P53567	-	NP_001797|NP_001239225	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879042	116071	1649	125470	108016	-	-	BATF2	DDIT3	SARI	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q8N1L9	B4DV37	NP_001287737|NP_001287736|NP_612465	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879043	10538	55509	115792	120689	-	-	BATF	BATF3	B-ATF|BATF1|SFA-2|SFA2	JDP1|JUNDM1|SNFT	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16520	-	NP_006390	Q9NR55	-	NP_061134	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879044	10538	10538	115792	115792	-	-	BATF	BATF	B-ATF|BATF1|SFA-2|SFA2	B-ATF|BATF1|SFA-2|SFA2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16520	-	NP_006390	Q16520	-	NP_006390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879045	10538	467	115792	106957	-	RP11-338C15.1	BATF	ATF3	B-ATF|BATF1|SFA-2|SFA2	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16520	-	NP_006390	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879046	10538	468	115792	106958	-	-	BATF	ATF4	B-ATF|BATF1|SFA-2|SFA2	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16520	-	NP_006390	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879047	10538	3726	115792	109929	-	-	BATF	JUNB	B-ATF|BATF1|SFA-2|SFA2	AP-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16520	-	NP_006390	P17275	Q5U079	NP_002220	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879048	10538	1628	115792	107996	-	-	BATF	DBP	B-ATF|BATF1|SFA-2|SFA2	DABP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16520	-	NP_006390	Q10586	-	NP_001343	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879049	10538	1386	115792	107776	-	-	BATF	ATF2	B-ATF|BATF1|SFA-2|SFA2	CRE-BP1|CREB-2|CREB2|HB16|TREB7	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16520	-	NP_006390	P15336	A4D7V5	NP_001243023|NP_001243022|NP_001243021|NP_001871|NP_001243020|NP_001243019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879050	10538	1053	115792	107482	-	-	BATF	CEBPE	B-ATF|BATF1|SFA-2|SFA2	C/EBP-epsilon|CRP1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16520	-	NP_006390	Q15744	-	NP_001796	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879051	10538	1050	115792	107479	-	-	BATF	CEBPA	B-ATF|BATF1|SFA-2|SFA2	C/EBP-alpha|CEBP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16520	-	NP_006390	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879052	10538	1054	115792	107483	-	-	BATF	CEBPG	B-ATF|BATF1|SFA-2|SFA2	GPE1BP|IG/EBP-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16520	-	NP_006390	P53567	-	NP_001797|NP_001239225	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879053	10538	1649	115792	108016	-	-	BATF	DDIT3	B-ATF|BATF1|SFA-2|SFA2	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16520	-	NP_006390	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879054	467	23764	106957	117264	RP11-338C15.1	CTA-447C4.1	ATF3	MAFF	-	U-MAF|hMafF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879055	467	55509	106957	120689	RP11-338C15.1	-	ATF3	BATF3	-	JDP1|JUNDM1|SNFT	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	Q9NR55	-	NP_061134	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879056	467	10538	106957	115792	RP11-338C15.1	-	ATF3	BATF	-	B-ATF|BATF1|SFA-2|SFA2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	Q16520	-	NP_006390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879057	467	467	106957	106957	RP11-338C15.1	RP11-338C15.1	ATF3	ATF3	-	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879058	467	468	106957	106958	RP11-338C15.1	-	ATF3	ATF4	-	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879059	467	8061	106957	113742	RP11-338C15.1	-	ATF3	FOSL1	-	FRA|FRA1|fra-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	P15407	E9PPX2|E9PKL5	NP_005429|NP_001287773|NP_001287786|NP_001287784|NP_001287785	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879060	467	2353	106957	108636	RP11-338C15.1	-	ATF3	FOS	-	AP-1|C-FOS|p55	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	P01100	Q6FG41	NP_005243	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879061	467	3726	106957	109929	RP11-338C15.1	-	ATF3	JUNB	-	AP-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	P17275	Q5U079	NP_002220	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879062	467	3725	106957	109928	RP11-338C15.1	-	ATF3	JUN	-	AP-1|AP1|c-Jun	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	P05412	-	NP_002219	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879063	467	1386	106957	107776	RP11-338C15.1	-	ATF3	ATF2	-	CRE-BP1|CREB-2|CREB2|HB16|TREB7	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	P15336	A4D7V5	NP_001243023|NP_001243022|NP_001243021|NP_001871|NP_001243020|NP_001243019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879064	467	1053	106957	107482	RP11-338C15.1	-	ATF3	CEBPE	-	C/EBP-epsilon|CRP1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	Q15744	-	NP_001796	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879065	467	1050	106957	107479	RP11-338C15.1	-	ATF3	CEBPA	-	C/EBP-alpha|CEBP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879066	467	1054	106957	107483	RP11-338C15.1	-	ATF3	CEBPG	-	GPE1BP|IG/EBP-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	P53567	-	NP_001797|NP_001239225	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879067	467	1649	106957	108016	RP11-338C15.1	-	ATF3	DDIT3	-	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879068	468	4780	106958	110852	-	-	ATF4	NFE2L2	CREB-2|CREB2|TAXREB67|TXREB	NRF2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18848	Q96AQ3	NP_001666|NP_877962	Q16236	-	NP_006155|NP_001138884|NP_001138885|NP_001300829|NP_001300830|NP_001300831	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879069	468	4094	106958	110269	-	-	ATF4	MAF	CREB-2|CREB2|TAXREB67|TXREB	CCA4|c-MAF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18848	Q96AQ3	NP_001666|NP_877962	O75444	-	NP_005351|NP_001026974	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879070	468	55509	106958	120689	-	-	ATF4	BATF3	CREB-2|CREB2|TAXREB67|TXREB	JDP1|JUNDM1|SNFT	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18848	Q96AQ3	NP_001666|NP_877962	Q9NR55	-	NP_061134	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879071	468	10538	106958	115792	-	-	ATF4	BATF	CREB-2|CREB2|TAXREB67|TXREB	B-ATF|BATF1|SFA-2|SFA2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18848	Q96AQ3	NP_001666|NP_877962	Q16520	-	NP_006390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879072	468	467	106958	106957	-	RP11-338C15.1	ATF4	ATF3	CREB-2|CREB2|TAXREB67|TXREB	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18848	Q96AQ3	NP_001666|NP_877962	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879073	468	468	106958	106958	-	-	ATF4	ATF4	CREB-2|CREB2|TAXREB67|TXREB	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18848	Q96AQ3	NP_001666|NP_877962	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879074	468	8061	106958	113742	-	-	ATF4	FOSL1	CREB-2|CREB2|TAXREB67|TXREB	FRA|FRA1|fra-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18848	Q96AQ3	NP_001666|NP_877962	P15407	E9PPX2|E9PKL5	NP_005429|NP_001287773|NP_001287786|NP_001287784|NP_001287785	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879075	468	2353	106958	108636	-	-	ATF4	FOS	CREB-2|CREB2|TAXREB67|TXREB	AP-1|C-FOS|p55	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18848	Q96AQ3	NP_001666|NP_877962	P01100	Q6FG41	NP_005243	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879076	468	3725	106958	109928	-	-	ATF4	JUN	CREB-2|CREB2|TAXREB67|TXREB	AP-1|AP1|c-Jun	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18848	Q96AQ3	NP_001666|NP_877962	P05412	-	NP_002219	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879077	468	1386	106958	107776	-	-	ATF4	ATF2	CREB-2|CREB2|TAXREB67|TXREB	CRE-BP1|CREB-2|CREB2|HB16|TREB7	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18848	Q96AQ3	NP_001666|NP_877962	P15336	A4D7V5	NP_001243023|NP_001243022|NP_001243021|NP_001871|NP_001243020|NP_001243019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879078	468	1053	106958	107482	-	-	ATF4	CEBPE	CREB-2|CREB2|TAXREB67|TXREB	C/EBP-epsilon|CRP1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18848	Q96AQ3	NP_001666|NP_877962	Q15744	-	NP_001796	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879079	468	1050	106958	107479	-	-	ATF4	CEBPA	CREB-2|CREB2|TAXREB67|TXREB	C/EBP-alpha|CEBP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18848	Q96AQ3	NP_001666|NP_877962	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879080	468	1649	106958	108016	-	-	ATF4	DDIT3	CREB-2|CREB2|TAXREB67|TXREB	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18848	Q96AQ3	NP_001666|NP_877962	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879081	8061	468	113742	106958	-	-	FOSL1	ATF4	FRA|FRA1|fra-1	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P15407	E9PPX2|E9PKL5	NP_005429|NP_001287773|NP_001287786|NP_001287784|NP_001287785	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879082	8061	3725	113742	109928	-	-	FOSL1	JUN	FRA|FRA1|fra-1	AP-1|AP1|c-Jun	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P15407	E9PPX2|E9PKL5	NP_005429|NP_001287773|NP_001287786|NP_001287784|NP_001287785	P05412	-	NP_002219	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879083	8061	3726	113742	109929	-	-	FOSL1	JUNB	FRA|FRA1|fra-1	AP-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P15407	E9PPX2|E9PKL5	NP_005429|NP_001287773|NP_001287786|NP_001287784|NP_001287785	P17275	Q5U079	NP_002220	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879084	2353	9935	108636	115261	-	-	FOS	MAFB	AP-1|C-FOS|p55	KRML|MCTO	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P01100	Q6FG41	NP_005243	Q9Y5Q3	-	NP_005452	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879085	2353	467	108636	106957	-	RP11-338C15.1	FOS	ATF3	AP-1|C-FOS|p55	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P01100	Q6FG41	NP_005243	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879086	2353	468	108636	106958	-	-	FOS	ATF4	AP-1|C-FOS|p55	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P01100	Q6FG41	NP_005243	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879087	2353	2353	108636	108636	-	-	FOS	FOS	AP-1|C-FOS|p55	AP-1|C-FOS|p55	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P01100	Q6FG41	NP_005243	P01100	Q6FG41	NP_005243	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879088	2353	3726	108636	109929	-	-	FOS	JUNB	AP-1|C-FOS|p55	AP-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P01100	Q6FG41	NP_005243	P17275	Q5U079	NP_002220	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879089	2353	1386	108636	107776	-	-	FOS	ATF2	AP-1|C-FOS|p55	CRE-BP1|CREB-2|CREB2|HB16|TREB7	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P01100	Q6FG41	NP_005243	P15336	A4D7V5	NP_001243023|NP_001243022|NP_001243021|NP_001871|NP_001243020|NP_001243019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879090	2353	1050	108636	107479	-	-	FOS	CEBPA	AP-1|C-FOS|p55	C/EBP-alpha|CEBP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P01100	Q6FG41	NP_005243	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879091	3726	55509	109929	120689	-	-	JUNB	BATF3	AP-1	JDP1|JUNDM1|SNFT	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P17275	Q5U079	NP_002220	Q9NR55	-	NP_061134	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879092	3726	116071	109929	125470	-	-	JUNB	BATF2	AP-1	SARI	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P17275	Q5U079	NP_002220	Q8N1L9	B4DV37	NP_001287737|NP_001287736|NP_612465	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879093	3726	10538	109929	115792	-	-	JUNB	BATF	AP-1	B-ATF|BATF1|SFA-2|SFA2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P17275	Q5U079	NP_002220	Q16520	-	NP_006390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879094	3726	467	109929	106957	-	RP11-338C15.1	JUNB	ATF3	AP-1	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P17275	Q5U079	NP_002220	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879095	3726	8061	109929	113742	-	-	JUNB	FOSL1	AP-1	FRA|FRA1|fra-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P17275	Q5U079	NP_002220	P15407	E9PPX2|E9PKL5	NP_005429|NP_001287773|NP_001287786|NP_001287784|NP_001287785	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879096	3726	2353	109929	108636	-	-	JUNB	FOS	AP-1	AP-1|C-FOS|p55	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P17275	Q5U079	NP_002220	P01100	Q6FG41	NP_005243	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879097	3725	55509	109928	120689	-	-	JUN	BATF3	AP-1|AP1|c-Jun	JDP1|JUNDM1|SNFT	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P05412	-	NP_002219	Q9NR55	-	NP_061134	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879098	3725	116071	109928	125470	-	-	JUN	BATF2	AP-1|AP1|c-Jun	SARI	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P05412	-	NP_002219	Q8N1L9	B4DV37	NP_001287737|NP_001287736|NP_612465	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879099	3725	10538	109928	115792	-	-	JUN	BATF	AP-1|AP1|c-Jun	B-ATF|BATF1|SFA-2|SFA2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P05412	-	NP_002219	Q16520	-	NP_006390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879100	3725	467	109928	106957	-	RP11-338C15.1	JUN	ATF3	AP-1|AP1|c-Jun	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P05412	-	NP_002219	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879101	3725	468	109928	106958	-	-	JUN	ATF4	AP-1|AP1|c-Jun	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P05412	-	NP_002219	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879102	3725	8061	109928	113742	-	-	JUN	FOSL1	AP-1|AP1|c-Jun	FRA|FRA1|fra-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P05412	-	NP_002219	P15407	E9PPX2|E9PKL5	NP_005429|NP_001287773|NP_001287786|NP_001287784|NP_001287785	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879103	3725	2353	109928	108636	-	-	JUN	FOS	AP-1|AP1|c-Jun	AP-1|C-FOS|p55	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P05412	-	NP_002219	P01100	Q6FG41	NP_005243	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879104	3725	1386	109928	107776	-	-	JUN	ATF2	AP-1|AP1|c-Jun	CRE-BP1|CREB-2|CREB2|HB16|TREB7	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P05412	-	NP_002219	P15336	A4D7V5	NP_001243023|NP_001243022|NP_001243021|NP_001871|NP_001243020|NP_001243019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879105	1386	571	107776	107047	-	-	ATF2	BACH1	CRE-BP1|CREB-2|CREB2|HB16|TREB7	BACH-1|BTBD24	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P15336	A4D7V5	NP_001243023|NP_001243022|NP_001243021|NP_001871|NP_001243020|NP_001243019	O14867	-	NP_001177|NP_996749	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879106	1386	10538	107776	115792	-	-	ATF2	BATF	CRE-BP1|CREB-2|CREB2|HB16|TREB7	B-ATF|BATF1|SFA-2|SFA2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P15336	A4D7V5	NP_001243023|NP_001243022|NP_001243021|NP_001871|NP_001243020|NP_001243019	Q16520	-	NP_006390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879107	1386	467	107776	106957	-	RP11-338C15.1	ATF2	ATF3	CRE-BP1|CREB-2|CREB2|HB16|TREB7	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P15336	A4D7V5	NP_001243023|NP_001243022|NP_001243021|NP_001871|NP_001243020|NP_001243019	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879108	1386	468	107776	106958	-	-	ATF2	ATF4	CRE-BP1|CREB-2|CREB2|HB16|TREB7	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P15336	A4D7V5	NP_001243023|NP_001243022|NP_001243021|NP_001871|NP_001243020|NP_001243019	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879109	1386	8061	107776	113742	-	-	ATF2	FOSL1	CRE-BP1|CREB-2|CREB2|HB16|TREB7	FRA|FRA1|fra-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P15336	A4D7V5	NP_001243023|NP_001243022|NP_001243021|NP_001871|NP_001243020|NP_001243019	P15407	E9PPX2|E9PKL5	NP_005429|NP_001287773|NP_001287786|NP_001287784|NP_001287785	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879110	1386	2353	107776	108636	-	-	ATF2	FOS	CRE-BP1|CREB-2|CREB2|HB16|TREB7	AP-1|C-FOS|p55	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P15336	A4D7V5	NP_001243023|NP_001243022|NP_001243021|NP_001871|NP_001243020|NP_001243019	P01100	Q6FG41	NP_005243	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879111	1386	3725	107776	109928	-	-	ATF2	JUN	CRE-BP1|CREB-2|CREB2|HB16|TREB7	AP-1|AP1|c-Jun	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P15336	A4D7V5	NP_001243023|NP_001243022|NP_001243021|NP_001871|NP_001243020|NP_001243019	P05412	-	NP_002219	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879112	1386	1386	107776	107776	-	-	ATF2	ATF2	CRE-BP1|CREB-2|CREB2|HB16|TREB7	CRE-BP1|CREB-2|CREB2|HB16|TREB7	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P15336	A4D7V5	NP_001243023|NP_001243022|NP_001243021|NP_001871|NP_001243020|NP_001243019	P15336	A4D7V5	NP_001243023|NP_001243022|NP_001243021|NP_001871|NP_001243020|NP_001243019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879113	2034	55509	108348	120689	-	-	EPAS1	BATF3	ECYT4|HIF2A|HLF|MOP2|PASD2|bHLHe73	JDP1|JUNDM1|SNFT	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q99814	B3KW07	NP_001421	Q9NR55	-	NP_061134	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879114	2034	116071	108348	125470	-	-	EPAS1	BATF2	ECYT4|HIF2A|HLF|MOP2|PASD2|bHLHe73	SARI	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q99814	B3KW07	NP_001421	Q8N1L9	B4DV37	NP_001287737|NP_001287736|NP_612465	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879115	2034	10538	108348	115792	-	-	EPAS1	BATF	ECYT4|HIF2A|HLF|MOP2|PASD2|bHLHe73	B-ATF|BATF1|SFA-2|SFA2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q99814	B3KW07	NP_001421	Q16520	-	NP_006390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879116	2034	3725	108348	109928	-	-	EPAS1	JUN	ECYT4|HIF2A|HLF|MOP2|PASD2|bHLHe73	AP-1|AP1|c-Jun	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q99814	B3KW07	NP_001421	P05412	-	NP_002219	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879117	2034	2034	108348	108348	-	-	EPAS1	EPAS1	ECYT4|HIF2A|HLF|MOP2|PASD2|bHLHe73	ECYT4|HIF2A|HLF|MOP2|PASD2|bHLHe73	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q99814	B3KW07	NP_001421	Q99814	B3KW07	NP_001421	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879118	2034	1628	108348	107996	-	-	EPAS1	DBP	ECYT4|HIF2A|HLF|MOP2|PASD2|bHLHe73	DABP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q99814	B3KW07	NP_001421	Q10586	-	NP_001343	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879119	2034	1649	108348	108016	-	-	EPAS1	DDIT3	ECYT4|HIF2A|HLF|MOP2|PASD2|bHLHe73	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q99814	B3KW07	NP_001421	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879120	1628	55509	107996	120689	-	-	DBP	BATF3	DABP	JDP1|JUNDM1|SNFT	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q10586	-	NP_001343	Q9NR55	-	NP_061134	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879121	1628	116071	107996	125470	-	-	DBP	BATF2	DABP	SARI	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q10586	-	NP_001343	Q8N1L9	B4DV37	NP_001287737|NP_001287736|NP_612465	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879122	1628	10538	107996	115792	-	-	DBP	BATF	DABP	B-ATF|BATF1|SFA-2|SFA2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q10586	-	NP_001343	Q16520	-	NP_006390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879123	1628	467	107996	106957	-	RP11-338C15.1	DBP	ATF3	DABP	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q10586	-	NP_001343	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879124	1628	2034	107996	108348	-	-	DBP	EPAS1	DABP	ECYT4|HIF2A|HLF|MOP2|PASD2|bHLHe73	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q10586	-	NP_001343	Q99814	B3KW07	NP_001421	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879125	1628	1050	107996	107479	-	-	DBP	CEBPA	DABP	C/EBP-alpha|CEBP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q10586	-	NP_001343	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879126	1628	1054	107996	107483	-	-	DBP	CEBPG	DABP	GPE1BP|IG/EBP-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q10586	-	NP_001343	P53567	-	NP_001797|NP_001239225	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879127	1628	1649	107996	108016	-	-	DBP	DDIT3	DABP	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q10586	-	NP_001343	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879128	4783	23764	110855	117264	-	CTA-447C4.1	NFIL3	MAFF	E4BP4|IL3BP1|NF-IL3A|NFIL3A	U-MAF|hMafF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16649	A0A024R241	NP_005375|NP_001276928|NP_001276929	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879129	4783	10538	110855	115792	-	-	NFIL3	BATF	E4BP4|IL3BP1|NF-IL3A|NFIL3A	B-ATF|BATF1|SFA-2|SFA2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16649	A0A024R241	NP_005375|NP_001276928|NP_001276929	Q16520	-	NP_006390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879130	4783	4783	110855	110855	-	-	NFIL3	NFIL3	E4BP4|IL3BP1|NF-IL3A|NFIL3A	E4BP4|IL3BP1|NF-IL3A|NFIL3A	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q16649	A0A024R241	NP_005375|NP_001276928|NP_001276929	Q16649	A0A024R241	NP_005375|NP_001276928|NP_001276929	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879131	1388	58487	107778	121817	DADB-220I18.4	-	ATF6B	CREBZF	CREB-RP|CREBL1|G13	SMILE|ZF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q99941	Q6AZW6	NP_004372|NP_001129625	Q9NS37	E9PIM0	NP_001034707	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879132	1388	1388	107778	107778	DADB-220I18.4	DADB-220I18.4	ATF6B	ATF6B	CREB-RP|CREBL1|G13	CREB-RP|CREBL1|G13	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q99941	Q6AZW6	NP_004372|NP_001129625	Q99941	Q6AZW6	NP_004372|NP_001129625	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879133	1388	7494	107778	113331	DADB-220I18.4	-	ATF6B	XBP1	CREB-RP|CREBL1|G13	TREB5|XBP-1|XBP2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q99941	Q6AZW6	NP_004372|NP_001129625	P17861	A0A024R1F0	NP_005071|NP_001073007	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879134	22926	22926	116586	116586	-	-	ATF6	ATF6	ATF6A	ATF6A	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18850	A8K383	NP_031374	P18850	A8K383	NP_031374	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879135	22926	7494	116586	113331	-	-	ATF6	XBP1	ATF6A	TREB5|XBP-1|XBP2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P18850	A8K383	NP_031374	P17861	A0A024R1F0	NP_005071|NP_001073007	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879136	7494	1388	113331	107778	-	DADB-220I18.4	XBP1	ATF6B	TREB5|XBP-1|XBP2	CREB-RP|CREBL1|G13	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P17861	A0A024R1F0	NP_005071|NP_001073007	Q99941	Q6AZW6	NP_004372|NP_001129625	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879137	7494	22926	113331	116586	-	-	XBP1	ATF6	TREB5|XBP-1|XBP2	ATF6A	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P17861	A0A024R1F0	NP_005071|NP_001073007	P18850	A8K383	NP_031374	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879138	7494	7494	113331	113331	-	-	XBP1	XBP1	TREB5|XBP-1|XBP2	TREB5|XBP-1|XBP2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P17861	A0A024R1F0	NP_005071|NP_001073007	P17861	A0A024R1F0	NP_005071|NP_001073007	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879139	7494	58487	113331	121817	-	-	XBP1	CREBZF	TREB5|XBP-1|XBP2	SMILE|ZF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P17861	A0A024R1F0	NP_005071|NP_001073007	Q9NS37	E9PIM0	NP_001034707	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879140	58487	4779	121817	110851	-	-	CREBZF	NFE2L1	SMILE|ZF	LCR-F1|NRF1|TCF11	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NS37	E9PIM0	NP_001034707	Q14494	J9JIE5|Q8NF22	NP_003195|NP_001317191|NP_001317190	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879141	58487	468	121817	106958	-	-	CREBZF	ATF4	SMILE|ZF	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NS37	E9PIM0	NP_001034707	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879142	58487	7494	121817	113331	-	-	CREBZF	XBP1	SMILE|ZF	TREB5|XBP-1|XBP2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NS37	E9PIM0	NP_001034707	P17861	A0A024R1F0	NP_005071|NP_001073007	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879143	58487	58487	121817	121817	-	-	CREBZF	CREBZF	SMILE|ZF	SMILE|ZF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q9NS37	E9PIM0	NP_001034707	Q9NS37	E9PIM0	NP_001034707	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879144	90993	90993	124786	124786	PSEC0238	PSEC0238	CREB3L1	CREB3L1	OASIS	OASIS	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q96BA8	B2RA75	NP_443086	Q96BA8	B2RA75	NP_443086	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879145	90993	84699	124786	124213	PSEC0238	HYST1481	CREB3L1	CREB3L3	OASIS	CREB-H|CREBH	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q96BA8	B2RA75	NP_443086	Q68CJ9	-	NP_115996|NP_001258926|NP_001258924|NP_001258925	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879146	90993	10488	124786	115751	PSEC0238	-	CREB3L1	CREB3	OASIS	LUMAN|LZIP|sLZIP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q96BA8	B2RA75	NP_443086	O43889	-	NP_006359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879147	84699	90993	124213	124786	HYST1481	PSEC0238	CREB3L3	CREB3L1	CREB-H|CREBH	OASIS	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q68CJ9	-	NP_115996|NP_001258926|NP_001258924|NP_001258925	Q96BA8	B2RA75	NP_443086	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879148	84699	84699	124213	124213	HYST1481	HYST1481	CREB3L3	CREB3L3	CREB-H|CREBH	CREB-H|CREBH	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q68CJ9	-	NP_115996|NP_001258926|NP_001258924|NP_001258925	Q68CJ9	-	NP_115996|NP_001258926|NP_001258924|NP_001258925	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879149	84699	10488	124213	115751	HYST1481	-	CREB3L3	CREB3	CREB-H|CREBH	LUMAN|LZIP|sLZIP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q68CJ9	-	NP_115996|NP_001258926|NP_001258924|NP_001258925	O43889	-	NP_006359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879150	10488	4780	115751	110852	-	-	CREB3	NFE2L2	LUMAN|LZIP|sLZIP	NRF2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O43889	-	NP_006359	Q16236	-	NP_006155|NP_001138884|NP_001138885|NP_001300829|NP_001300830|NP_001300831	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879151	10488	467	115751	106957	-	RP11-338C15.1	CREB3	ATF3	LUMAN|LZIP|sLZIP	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O43889	-	NP_006359	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879152	10488	468	115751	106958	-	-	CREB3	ATF4	LUMAN|LZIP|sLZIP	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O43889	-	NP_006359	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879153	10488	10488	115751	115751	-	-	CREB3	CREB3	LUMAN|LZIP|sLZIP	LUMAN|LZIP|sLZIP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	O43889	-	NP_006359	O43889	-	NP_006359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879154	1385	1385	107775	107775	-	-	CREB1	CREB1	CREB	CREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P16220	Q5U0J5|Q53X93	NP_004370|NP_001358356|NP_001358357|NP_001358355|NP_604391|NP_001307722	P16220	Q5U0J5|Q53X93	NP_004370|NP_001358356|NP_001358357|NP_001358355|NP_604391|NP_001307722	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879155	1053	55509	107482	120689	-	-	CEBPE	BATF3	C/EBP-epsilon|CRP1	JDP1|JUNDM1|SNFT	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q15744	-	NP_001796	Q9NR55	-	NP_061134	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879156	1053	116071	107482	125470	-	-	CEBPE	BATF2	C/EBP-epsilon|CRP1	SARI	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q15744	-	NP_001796	Q8N1L9	B4DV37	NP_001287737|NP_001287736|NP_612465	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879157	1053	10538	107482	115792	-	-	CEBPE	BATF	C/EBP-epsilon|CRP1	B-ATF|BATF1|SFA-2|SFA2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q15744	-	NP_001796	Q16520	-	NP_006390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879158	1053	467	107482	106957	-	RP11-338C15.1	CEBPE	ATF3	C/EBP-epsilon|CRP1	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q15744	-	NP_001796	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879159	1053	22809	107482	116487	-	-	CEBPE	ATF5	C/EBP-epsilon|CRP1	ATFX|HMFN0395	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q15744	-	NP_001796	Q9Y2D1	A0A024QZG3	NP_001277675|NP_036200|NP_001180575	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879160	1053	468	107482	106958	-	-	CEBPE	ATF4	C/EBP-epsilon|CRP1	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q15744	-	NP_001796	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879161	1053	8061	107482	113742	-	-	CEBPE	FOSL1	C/EBP-epsilon|CRP1	FRA|FRA1|fra-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q15744	-	NP_001796	P15407	E9PPX2|E9PKL5	NP_005429|NP_001287773|NP_001287786|NP_001287784|NP_001287785	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879162	1053	2353	107482	108636	-	-	CEBPE	FOS	C/EBP-epsilon|CRP1	AP-1|C-FOS|p55	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q15744	-	NP_001796	P01100	Q6FG41	NP_005243	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879163	1053	3725	107482	109928	-	-	CEBPE	JUN	C/EBP-epsilon|CRP1	AP-1|AP1|c-Jun	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q15744	-	NP_001796	P05412	-	NP_002219	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879164	1053	1053	107482	107482	-	-	CEBPE	CEBPE	C/EBP-epsilon|CRP1	C/EBP-epsilon|CRP1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q15744	-	NP_001796	Q15744	-	NP_001796	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879165	1053	1050	107482	107479	-	-	CEBPE	CEBPA	C/EBP-epsilon|CRP1	C/EBP-alpha|CEBP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	Q15744	-	NP_001796	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879166	1050	55509	107479	120689	-	-	CEBPA	BATF3	C/EBP-alpha|CEBP	JDP1|JUNDM1|SNFT	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	Q9NR55	-	NP_061134	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879167	1050	116071	107479	125470	-	-	CEBPA	BATF2	C/EBP-alpha|CEBP	SARI	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	Q8N1L9	B4DV37	NP_001287737|NP_001287736|NP_612465	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879168	1050	10538	107479	115792	-	-	CEBPA	BATF	C/EBP-alpha|CEBP	B-ATF|BATF1|SFA-2|SFA2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	Q16520	-	NP_006390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879169	1050	467	107479	106957	-	RP11-338C15.1	CEBPA	ATF3	C/EBP-alpha|CEBP	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879170	1050	22809	107479	116487	-	-	CEBPA	ATF5	C/EBP-alpha|CEBP	ATFX|HMFN0395	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	Q9Y2D1	A0A024QZG3	NP_001277675|NP_036200|NP_001180575	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879171	1050	468	107479	106958	-	-	CEBPA	ATF4	C/EBP-alpha|CEBP	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879172	1050	8061	107479	113742	-	-	CEBPA	FOSL1	C/EBP-alpha|CEBP	FRA|FRA1|fra-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	P15407	E9PPX2|E9PKL5	NP_005429|NP_001287773|NP_001287786|NP_001287784|NP_001287785	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879173	1050	2353	107479	108636	-	-	CEBPA	FOS	C/EBP-alpha|CEBP	AP-1|C-FOS|p55	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	P01100	Q6FG41	NP_005243	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879174	1050	1053	107479	107482	-	-	CEBPA	CEBPE	C/EBP-alpha|CEBP	C/EBP-epsilon|CRP1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	Q15744	-	NP_001796	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879175	1050	1050	107479	107479	-	-	CEBPA	CEBPA	C/EBP-alpha|CEBP	C/EBP-alpha|CEBP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879176	1050	1054	107479	107483	-	-	CEBPA	CEBPG	C/EBP-alpha|CEBP	GPE1BP|IG/EBP-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	P53567	-	NP_001797|NP_001239225	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879177	1054	55509	107483	120689	-	-	CEBPG	BATF3	GPE1BP|IG/EBP-1	JDP1|JUNDM1|SNFT	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P53567	-	NP_001797|NP_001239225	Q9NR55	-	NP_061134	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879178	1054	116071	107483	125470	-	-	CEBPG	BATF2	GPE1BP|IG/EBP-1	SARI	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P53567	-	NP_001797|NP_001239225	Q8N1L9	B4DV37	NP_001287737|NP_001287736|NP_612465	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879179	1054	10538	107483	115792	-	-	CEBPG	BATF	GPE1BP|IG/EBP-1	B-ATF|BATF1|SFA-2|SFA2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P53567	-	NP_001797|NP_001239225	Q16520	-	NP_006390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879180	1054	467	107483	106957	-	RP11-338C15.1	CEBPG	ATF3	GPE1BP|IG/EBP-1	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P53567	-	NP_001797|NP_001239225	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879181	1054	5328	107483	111344	-	RP11-417O11.1	CEBPG	PLAU	GPE1BP|IG/EBP-1	ATF|BDPLT5|QPD|UPA|URK|u-PA	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P53567	-	NP_001797|NP_001239225	P00749	A0A024QZM9|Q59GZ8	NP_002649|NP_001138503	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879182	1054	468	107483	106958	-	-	CEBPG	ATF4	GPE1BP|IG/EBP-1	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P53567	-	NP_001797|NP_001239225	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879183	1054	8061	107483	113742	-	-	CEBPG	FOSL1	GPE1BP|IG/EBP-1	FRA|FRA1|fra-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P53567	-	NP_001797|NP_001239225	P15407	E9PPX2|E9PKL5	NP_005429|NP_001287773|NP_001287786|NP_001287784|NP_001287785	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879184	1054	2353	107483	108636	-	-	CEBPG	FOS	GPE1BP|IG/EBP-1	AP-1|C-FOS|p55	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P53567	-	NP_001797|NP_001239225	P01100	Q6FG41	NP_005243	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879185	1054	3725	107483	109928	-	-	CEBPG	JUN	GPE1BP|IG/EBP-1	AP-1|AP1|c-Jun	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P53567	-	NP_001797|NP_001239225	P05412	-	NP_002219	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879186	1054	1386	107483	107776	-	-	CEBPG	ATF2	GPE1BP|IG/EBP-1	CRE-BP1|CREB-2|CREB2|HB16|TREB7	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P53567	-	NP_001797|NP_001239225	P15336	A4D7V5	NP_001243023|NP_001243022|NP_001243021|NP_001871|NP_001243020|NP_001243019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879187	1054	10488	107483	115751	-	-	CEBPG	CREB3	GPE1BP|IG/EBP-1	LUMAN|LZIP|sLZIP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P53567	-	NP_001797|NP_001239225	O43889	-	NP_006359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879188	1054	1053	107483	107482	-	-	CEBPG	CEBPE	GPE1BP|IG/EBP-1	C/EBP-epsilon|CRP1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P53567	-	NP_001797|NP_001239225	Q15744	-	NP_001796	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879189	1054	1050	107483	107479	-	-	CEBPG	CEBPA	GPE1BP|IG/EBP-1	C/EBP-alpha|CEBP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P53567	-	NP_001797|NP_001239225	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879190	1054	1054	107483	107483	-	-	CEBPG	CEBPG	GPE1BP|IG/EBP-1	GPE1BP|IG/EBP-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P53567	-	NP_001797|NP_001239225	P53567	-	NP_001797|NP_001239225	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879191	1649	60468	108016	121913	-	RP11-63K6.2	DDIT3	BACH2	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	BTBD25	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	Q9BYV9	-	NP_001164265|NP_068585	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879192	1649	571	108016	107047	-	-	DDIT3	BACH1	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	BACH-1|BTBD24	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	O14867	-	NP_001177|NP_996749	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879193	1649	4097	108016	110272	-	-	DDIT3	MAFG	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	hMAF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	O15525	A0A024R8X1	NP_116100|NP_002350	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879194	1649	23764	108016	117264	-	CTA-447C4.1	DDIT3	MAFF	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	U-MAF|hMafF	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	Q9ULX9	-	NP_001155046|NP_001155045|NP_001155044|NP_036455	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879195	1649	55509	108016	120689	-	-	DDIT3	BATF3	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	JDP1|JUNDM1|SNFT	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	Q9NR55	-	NP_061134	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879196	1649	116071	108016	125470	-	-	DDIT3	BATF2	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	SARI	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	Q8N1L9	B4DV37	NP_001287737|NP_001287736|NP_612465	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879197	1649	10538	108016	115792	-	-	DDIT3	BATF	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	B-ATF|BATF1|SFA-2|SFA2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	Q16520	-	NP_006390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879198	1649	467	108016	106957	-	RP11-338C15.1	DDIT3	ATF3	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	-	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879199	1649	468	108016	106958	-	-	DDIT3	ATF4	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	CREB-2|CREB2|TAXREB67|TXREB	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	P18848	Q96AQ3	NP_001666|NP_877962	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879200	1649	8061	108016	113742	-	-	DDIT3	FOSL1	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	FRA|FRA1|fra-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	P15407	E9PPX2|E9PKL5	NP_005429|NP_001287773|NP_001287786|NP_001287784|NP_001287785	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879201	1649	2353	108016	108636	-	-	DDIT3	FOS	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	AP-1|C-FOS|p55	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	P01100	Q6FG41	NP_005243	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879202	1649	3726	108016	109929	-	-	DDIT3	JUNB	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	AP-1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	P17275	Q5U079	NP_002220	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879203	1649	3725	108016	109928	-	-	DDIT3	JUN	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	AP-1|AP1|c-Jun	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	P05412	-	NP_002219	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879204	1649	1386	108016	107776	-	-	DDIT3	ATF2	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	CRE-BP1|CREB-2|CREB2|HB16|TREB7	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	P15336	A4D7V5	NP_001243023|NP_001243022|NP_001243021|NP_001871|NP_001243020|NP_001243019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879205	1649	2034	108016	108348	-	-	DDIT3	EPAS1	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	ECYT4|HIF2A|HLF|MOP2|PASD2|bHLHe73	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	Q99814	B3KW07	NP_001421	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879206	1649	1628	108016	107996	-	-	DDIT3	DBP	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	DABP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	Q10586	-	NP_001343	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879207	1649	4783	108016	110855	-	-	DDIT3	NFIL3	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	E4BP4|IL3BP1|NF-IL3A|NFIL3A	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	Q16649	A0A024R241	NP_005375|NP_001276928|NP_001276929	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879208	1649	90993	108016	124786	-	PSEC0238	DDIT3	CREB3L1	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	OASIS	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	Q96BA8	B2RA75	NP_443086	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879209	1649	10488	108016	115751	-	-	DDIT3	CREB3	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	LUMAN|LZIP|sLZIP	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	O43889	-	NP_006359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+879210	1649	1649	108016	108016	-	-	DDIT3	DDIT3	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	FRET	physical	Reinke AW (2013)	PUBMED:23661758	9606	9606	High Throughput	-	-	-	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+882469	25404	363425	247439	264175	-	-	Cav1	Cav2	Cav	-	FRET	physical	Krasteva G (2006)	PUBMED:16904002	10116	10116	Low Throughput	-	-	-	-	BIOGRID	-	Q3MHT6|Q2IBC6|B1WBN8	NP_113744|NP_598412	Q2IBC5	-	NP_571989	UBERON:0004802|BTO:0000419	respiratory tract epithelium|respiratory epithelium	tissue|tissue	-|-	-|-	-|-	Rattus norvegicus	Rattus norvegicus
+882490	819016	838598	4352	23837	AT2G44100	AT1G20090	GDI1	ROP2	AT-GDI1|ATGDI1|F6E13.23|F6E13.26|F6E13_26|guanosine nucleotide diphosphate dissociation inhibitor 1	ARAC4|ATRAC4|ATROP2|Arabidopsis RAC-like 4|GTP-BINDING PROTEIN ARAC4|RHO-related protein from plants 2|T20H2.12|T20H2_12	FRET	physical	Wu Y (2013)	PUBMED:23846874	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q96254	-	NP_181938|NP_001078054	Q38919	Q0WU07	NP_173437	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+882491	819016	829654	4352	14936	AT2G44100	AT4G35020	GDI1	RAC3	AT-GDI1|ATGDI1|F6E13.23|F6E13.26|F6E13_26|guanosine nucleotide diphosphate dissociation inhibitor 1	ARAC3|ATROP6|M4E13.80|M4E13_80|RAC-like 3|RHO-RELATED PROTEIN FROM PLANTS 6|RHO1PS|ROP6	FRET	physical	Wu Y (2013)	PUBMED:23846874	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q96254	-	NP_181938|NP_001078054	Q38912	Q5PNX9	NP_001190916|NP_001190917|NP_195228	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+885797	834758	827011	20006	12308	AT5G47120	AT4G13770	BI1	CYP83A1	ARABIDOPSIS BAX INHIBITOR 1|ATBI-1|ATBI1|BAX INHIBITOR 1|BI-1|K14A3.7|K14A3_7	CYTOCHROME P450 MONOOXYGENASE|F18A5.160|F18A5_160|REDUCED EPIDERMAL FLUORESCENCE 2|REF2|cytochrome P450|family 83|polypeptide 1|subfamily A	FRET	physical	Weis C (2013)	PUBMED:23782494	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LD45	-	NP_199523	P48421	-	NP_193113	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+886967	3077435	7316	1677989	113164	HHV5wtgp070	-	UL76	UBC	-	HMG20	FRET	physical	Lin SR (2013)	PUBMED:23966401	10359	9606	Low Throughput	-	-	-	-	BIOGRID	Q6SW66	F5HA42	YP_081524	P0CG48	-	NP_066289	BTO:0002181	HEK-293T cell	cell type	-	-	-	Human Herpesvirus 5	Homo sapiens
+886968	3077435	5710	1677989	111683	HHV5wtgp070	RP11-126K1.1	UL76	PSMD4	-	AF|AF-1|ASF|MCB1|Rpn10|S5A|pUB-R5	FRET	physical	Lin SR (2013)	PUBMED:23966401	10359	9606	Low Throughput	-	-	-	-	BIOGRID	Q6SW66	F5HA42	YP_081524	P55036	Q5VWC4	NP_002801|NP_001317621	BTO:0002181	HEK-293T cell	cell type	-	-	-	Human Herpesvirus 5	Homo sapiens
+887058	55611	7316	120751	113164	HSPC263	-	OTUB1	UBC	OTB1|OTU1	HMG20	Biochemical Activity	physical	Wiener R (2013)	PUBMED:23955022	9606	9606	Low Throughput	-	Deubiquitination	E2s tested (UBCH5A,UBCH5C, UBE2W and UBCH6) strongly stimulated Lys48 diubiquitin cleavage by OTUB1 in a fluorescence resonance energy transfer (FRET)based assay	-	BIOGRID	Q96FW1	B3KUV5	NP_060140	P0CG48	-	NP_066289	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+887373	90	657	106605	107125	-	-	ACVR1	BMPR1A	ACTRI|ACVR1A|ACVRLK2|ALK2|FOP|SKR1|TSRI	10q23del|ACVRLK3|ALK3|CD292|SKR5	FRET	physical	Lavery K (2008)	PUBMED:18436533	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q04771	D3DPA4	NP_001104537|NP_001096	P36894	-	NP_004320	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+887374	90	90	106605	106605	-	-	ACVR1	ACVR1	ACTRI|ACVR1A|ACVRLK2|ALK2|FOP|SKR1|TSRI	ACTRI|ACVR1A|ACVRLK2|ALK2|FOP|SKR1|TSRI	FRET	physical	Lavery K (2008)	PUBMED:18436533	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q04771	D3DPA4	NP_001104537|NP_001096	Q04771	D3DPA4	NP_001104537|NP_001096	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+887375	657	657	107125	107125	-	-	BMPR1A	BMPR1A	10q23del|ACVRLK3|ALK3|CD292|SKR5	10q23del|ACVRLK3|ALK3|CD292|SKR5	FRET	physical	Lavery K (2008)	PUBMED:18436533	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P36894	-	NP_004320	P36894	-	NP_004320	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+887376	657	90	107125	106605	-	-	BMPR1A	ACVR1	10q23del|ACVRLK3|ALK3|CD292|SKR5	ACTRI|ACVR1A|ACVRLK2|ALK2|FOP|SKR1|TSRI	FRET	physical	Lavery K (2008)	PUBMED:18436533	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P36894	-	NP_004320	Q04771	D3DPA4	NP_001104537|NP_001096	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+889484	25132	4218	247201	110382	-	-	Myo5b	RAB8A	Myr6	MEL|RAB8	FRET	physical	Roland JT (2007)	PUBMED:17507647	10116	9606	Low Throughput	-	-	-	-	BIOGRID	P70569	-	NP_058779	P61006	A0A024R7I3	NP_005361	-	-	-	-	-	-	Rattus norvegicus	Homo sapiens
+889485	25132	8766	247201	114299	-	-	Myo5b	RAB11A	Myr6	YL8	FRET	physical	Roland JT (2007)	PUBMED:17507647	10116	9606	Low Throughput	-	-	-	-	BIOGRID	P70569	-	NP_058779	P62491	A0A024R5Z8	NP_004654|NP_001193765	-	-	-	-	-	-	Rattus norvegicus	Homo sapiens
+890898	2876	8991	109134	114472	-	RP11-126K1.7	GPX1	SELENBP1	GPXD|GSHPX1	HEL-S-134P|LPSB|SBP56|SP56|hSBP	FRET	physical	Fang W (2010)	PUBMED:20530237	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P07203	Q7L4Q3	NP_000572|NP_958799	Q13228	V9HWG1	NP_001245217|NP_003935|NP_001245218	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+903804	67469	103968	212211	222244	-	-	Abhd5	Plin1	1300003D03Rik|2010002J10Rik|CDS|CGI-58|IECN5|NCIE2	6030432J05Rik|Peri|Plin	FRET	physical	Wang H (2011)	PUBMED:21393244	10090	10090	Low Throughput	-	-	PNPLA2-S47A catalytically inactive used|anisotropy forster resonance energy transfer|source of ABHD5 not clear	-	BIOGRID	Q9DBL9	-	NP_080455	Q8CGN5	-	NP_001106942|NP_783571	-	-	-	-	-	-	Mus musculus	Mus musculus
+903805	67469	66853	212211	211763	-	-	Abhd5	Pnpla2	1300003D03Rik|2010002J10Rik|CDS|CGI-58|IECN5|NCIE2	0610039C21Rik|1110001C14Rik|Atgl|TTS-2.2	FRET	physical	Wang H (2011)	PUBMED:21393244	10090	10090	Low Throughput	-	-	PNPLA2-S47A catalytically inactive used|anisotropy forster resonance energy transfer|source of ABHD5 not clear	-	BIOGRID	Q9DBL9	-	NP_080455	Q8BJ56	-	NP_001157161|NP_080078	-	-	-	-	-	-	Mus musculus	Mus musculus
+903809	66853	66968	211763	211843	-	-	Pnpla2	Plin5	0610039C21Rik|1110001C14Rik|Atgl|TTS-2.2	2310076L09Rik|AI415325|AW109675|Lsdp5|MLDP|PAT-1	FRET	physical	Wang H (2011)	PUBMED:21393244	10090	10090	Low Throughput	-	-	anisotropy forster resonance energy transfer	-	BIOGRID	Q8BJ56	-	NP_001157161|NP_080078	Q8BVZ1	-	NP_001070816|NP_080150	-	-	-	-	-	-	Mus musculus	Mus musculus
+903816	820538	820538	5872	5872	AT3G13380	AT3G13380	BRL3	BRL3	BRI1-like 3	BRI1-like 3	FRET	physical	Fabregas N (2013)	PUBMED:24064770	3702	3702	Low Throughput	-	-	FRET-FLIM	-	BIOGRID	Q9LJF3	-	NP_187946	Q9LJF3	-	NP_187946	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+903817	820538	829480	5872	14764	AT3G13380	AT4G33430	BRL3	BAK1	BRI1-like 3	ATBAK1|ATSERK3|BRI1-associated receptor kinase|ELG|ELONGATED|F17M5.190|F17M5_190|RECEPTOR KINASES LIKE SERK 10|RKS10|SERK3|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 3	FRET	physical	Fabregas N (2013)	PUBMED:24064770	3702	3702	Low Throughput	-	-	FRET-FLIM	-	BIOGRID	Q9LJF3	-	NP_187946	Q94F62	F4JIX9	NP_001190904|NP_567920	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+903818	820538	842010	5872	27235	AT3G13380	AT1G55610	BRL3	BRL1	BRI1-like 3	BRI1 like|F20N2.4	FRET	physical	Fabregas N (2013)	PUBMED:24064770	3702	3702	Low Throughput	-	-	FRET-FLIM	-	BIOGRID	Q9LJF3	-	NP_187946	Q9ZWC8	-	NP_001117501|NP_175957	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+904171	1956	966	108276	107404	-	-	EGFR	CD59	ERBB|ERBB1|HER1|NISBD2|PIG61|mENA	16.3A5|1F5|EJ16|EJ30|EL32|G344|HRF-20|HRF20|MAC-IP|MACIF|MEM43|MIC11|MIN1|MIN2|MIN3|MIRL|MSK21|p18-20	FRET	physical	Blagoev B (2003)	PUBMED:12577067	9606	9606	High Throughput	-	-	-	-	BIOGRID	P00533	-	NP_001333829|NP_001333828|NP_958440|NP_005219|NP_001333827|NP_001333826|NP_958441|NP_001333870|NP_958439	P13987	Q6FHM9	NP_976076|NP_976075|NP_976074|NP_000602|NP_001120697|NP_001120695|NP_001120698|NP_001120699	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+904583	9817	4780	115156	110852	-	-	KEAP1	NFE2L2	INrf2|KLHL19	NRF2	FRET	physical	Baird L (2013)	PUBMED:23986495	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14145	A0A024R7C0	NP_036421|NP_987096	Q16236	-	NP_006155|NP_001138884|NP_001138885|NP_001300829|NP_001300830|NP_001300831	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+904731	29843	5905	118930	111840	-	RP4-756G23.7	SENP1	RANGAP1	SuPr-2	Fug1|RANGAP|SD	FRET	physical	Shen L (2006)	PUBMED:17099698	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9P0U3	Q6N001|Q7Z3G1	NP_001254523|NP_001254524	P46060	A0A024R1U0|Q9BSK3	NP_001265580|NP_001304859|NP_002874	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+904732	29843	7341	118930	113188	-	OK/SW-cl.43	SENP1	SUMO1	SuPr-2	DAP1|GMP1|OFC10|PIC1|SENP2|SMT3|SMT3C|SMT3H3|UBL1	FRET	physical	Shen L (2006)	PUBMED:17099698	9606	9606	Low Throughput	-	-	#LPPI|Likely protein-protein interaction	-	BIOGRID	Q9P0U3	Q6N001|Q7Z3G1	NP_001254523|NP_001254524	P63165	A0A024R3Z2	NP_001358323|NP_001358322|NP_001358321|NP_001005782|NP_001005781|NP_003343	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+904733	29843	6613	118930	112497	-	-	SENP1	SUMO2	SuPr-2	HSMT3|SMT3B|SMT3H2|SUMO3|Smt3A	FRET	physical	Shen L (2006)	PUBMED:17099698	9606	9606	Low Throughput	-	-	#LPPI|Likely protein-protein interaction	-	BIOGRID	Q9P0U3	Q6N001|Q7Z3G1	NP_001254523|NP_001254524	P61956	A0A024R8S3	NP_001005849|NP_008868	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+904926	284654	55366	129926	120644	RP11-566C13.1	-	RSPO1	LGR4	CRISTIN3|RSPO	BNMD17|GPR48	FRET	physical	Moad HE (2013)	PUBMED:24050775	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q2MKA7	-	NP_001033722|NP_001229837|NP_001229838|NP_001229839	Q9BXB1	Q59ER8	NP_060960	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+904927	340419	55366	131049	120644	UNQ9384/PRO34209	-	RSPO2	LGR4	CRISTIN2	BNMD17|GPR48	FRET	physical	Moad HE (2013)	PUBMED:24050775	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q6UXX9	B3KVP3	NP_001269792|NP_848660	Q9BXB1	Q59ER8	NP_060960	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+904928	84870	55366	124315	120644	-	-	RSPO3	LGR4	CRISTIN1|PWTSR|THSD2	BNMD17|GPR48	FRET	physical	Moad HE (2013)	PUBMED:24050775	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9BXY4	-	NP_116173	Q9BXB1	Q59ER8	NP_060960	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+904929	343637	55366	131268	120644	RP5-824F16.1	-	RSPO4	LGR4	C20orf182|CRISTIN4	BNMD17|GPR48	FRET	physical	Moad HE (2013)	PUBMED:24050775	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q2I0M5	-	NP_001025042|NP_001035096	Q9BXB1	Q59ER8	NP_060960	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+905171	7341	7329	113188	113177	OK/SW-cl.43	LA16c-358B7.1	SUMO1	UBE2I	DAP1|GMP1|OFC10|PIC1|SENP2|SMT3|SMT3C|SMT3H3|UBL1	C358B7.1|P18|UBC9	FRET	physical	Martin SF (2008)	PUBMED:18359863	9606	9606	Low Throughput	-	-	#LPPI|Likely protein-protein interaction	-	BIOGRID	P63165	A0A024R3Z2	NP_001358323|NP_001358322|NP_001358321|NP_001005782|NP_001005781|NP_003343	P63279	B0QYN7|A8K503	NP_003336|NP_919236|NP_919237|NP_919235	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906067	6915	6915	112777	112777	-	-	TBXA2R	TBXA2R	BDPLT13|TXA2-R	BDPLT13|TXA2-R	FRET	physical	Fanelli F (2011)	PUBMED:21213014	9606	9606	Low Throughput	-	-	the alpha and beta isoforms interact in vivo	-	BIOGRID	P21731	Q0VAB0|Q05C92	NP_963998|NP_001051	P21731	Q0VAB0|Q05C92	NP_963998|NP_001051	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906317	2353	3725	108636	109928	-	-	FOS	JUN	AP-1|C-FOS|p55	AP-1|AP1|c-Jun	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	P01100	Q6FG41	NP_005243	P05412	-	NP_002219	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906318	1859	5925	108192	111860	-	RP11-174I10.1	DYRK1A	RB1	DYRK|DYRK1|HP86|MNB|MNBH|MRD7	OSRC|PPP1R130|RB|p105-Rb|pRb|pp110	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q13627	-	NP_567824|NP_001334650|NP_001387|NP_001334651|NP_569120|NP_569122|NP_001334652	P06400	A0A024RDV3	NP_000312	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906319	1859	5933	108192	111868	-	RP11-382A12.1	DYRK1A	RBL1	DYRK|DYRK1|HP86|MNB|MNBH|MRD7	CP107|PRB1|p107	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q13627	-	NP_567824|NP_001334650|NP_001387|NP_001334651|NP_569120|NP_569122|NP_001334652	P28749	-	NP_899662|NP_002886	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906320	1859	84445	108192	124083	-	RP11-108L7.8	DYRK1A	LZTS2	DYRK|DYRK1|HP86|MNB|MNBH|MRD7	LAPSER1	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q13627	-	NP_567824|NP_001334650|NP_001387|NP_001334651|NP_569120|NP_569122|NP_001334652	Q9BRK4	-	NP_001305028|NP_001305029|NP_115805|NP_001305030	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906321	1859	10024	108192	115341	-	-	DYRK1A	TROAP	DYRK|DYRK1|HP86|MNB|MNBH|MRD7	TASTIN	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q13627	-	NP_567824|NP_001334650|NP_001387|NP_001334651|NP_569120|NP_569122|NP_001334652	Q12815	F8W130	NP_001094090|NP_001265253|NP_005471	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906322	9149	5925	114596	111860	-	RP11-174I10.1	DYRK1B	RB1	AOMS3|MIRK	OSRC|PPP1R130|RB|p105-Rb|pRb|pp110	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9Y463	A0A024R0J6|A0A024R0I0|A0A024R0M8	NP_004705|NP_006475|NP_006474	P06400	A0A024RDV3	NP_000312	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906323	9149	5933	114596	111868	-	RP11-382A12.1	DYRK1B	RBL1	AOMS3|MIRK	CP107|PRB1|p107	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9Y463	A0A024R0J6|A0A024R0I0|A0A024R0M8	NP_004705|NP_006475|NP_006474	P28749	-	NP_899662|NP_002886	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906324	9149	84445	114596	124083	-	RP11-108L7.8	DYRK1B	LZTS2	AOMS3|MIRK	LAPSER1	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9Y463	A0A024R0J6|A0A024R0I0|A0A024R0M8	NP_004705|NP_006475|NP_006474	Q9BRK4	-	NP_001305028|NP_001305029|NP_115805|NP_001305030	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906325	9149	10024	114596	115341	-	-	DYRK1B	TROAP	AOMS3|MIRK	TASTIN	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9Y463	A0A024R0J6|A0A024R0I0|A0A024R0M8	NP_004705|NP_006475|NP_006474	Q12815	F8W130	NP_001094090|NP_001265253|NP_005471	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906326	1019	1030	107454	107464	-	RP11-149I2.1	CDK4	CDKN2B	CMM3|PSK-J3	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	P11802	A0A024RBB6	NP_000066	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906327	1021	1030	107456	107464	-	RP11-149I2.1	CDK6	CDKN2B	MCPH12|PLSTIRE	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q00534	-	NP_001138778|NP_001250	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906328	8445	8798	114023	114326	-	-	DYRK2	DYRK4	-	-	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q92630	-	NP_006473|NP_003574	Q9NR20	D3JEN2|B4E1A4	NP_001269214|NP_001269215|NP_003836	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906329	6732	91746	112610	124871	RP3-422H11.1	-	SRPK1	YTHDC1	SFRSK1	YT521|YT521-B	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q96SB4	B4DS61	NP_003128	Q96MU7	J3QR07	NP_001317627|NP_001026902|NP_588611	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906330	6732	10921	112610	116125	RP3-422H11.1	-	SRPK1	RNPS1	SFRSK1	E5.1	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q96SB4	B4DS61	NP_003128	Q15287	D3DU92|H3BMS0	NP_006702|NP_001273554|NP_001273555|NP_001273556|NP_542161	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906331	6732	54487	112610	119986	RP3-422H11.1	LP4941	SRPK1	DGCR8	SFRSK1	C22orf12|DGCRK6|Gy1|pasha	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q96SB4	B4DS61	NP_003128	Q8WYQ5	-	NP_001177255|NP_073557	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906332	6733	91746	112611	124871	-	-	SRPK2	YTHDC1	SFRSK2	YT521|YT521-B	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	P78362	A0A024R704	NP_872633|NP_001265202|NP_872634	Q96MU7	J3QR07	NP_001317627|NP_001026902|NP_588611	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906333	6733	7307	112611	113157	-	-	SRPK2	U2AF1	SFRSK2	FP793|RN|RNU2AF1|U2AF35|U2AFBP	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	P78362	A0A024R704	NP_872633|NP_001265202|NP_872634	Q01081	Q7Z780	NP_001020374|NP_001020375|NP_006749	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906334	6733	10250	112611	115544	-	-	SRPK2	SRRM1	SFRSK2	160-KD|POP101|SRM160	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	P78362	A0A024R704	NP_872633|NP_001265202|NP_872634	Q8IYB3	-	NP_001353495|NP_001353528|NP_001353507|NP_001353496|NP_001353494|NP_001353529|NP_001353504|NP_001353505|NP_001353502|NP_001353500|NP_001353501|NP_001353520|NP_001353521|NP_001353522|NP_001353523|NP_001353524|NP_001353499|NP_001353526|NP_001353527|NP_001290377|NP_005830|NP_001353498|NP_001290378|NP_001353497|NP_001353506|NP_001353525|NP_001353511|NP_001353510|NP_001353513|NP_001353515|NP_001353514|NP_001353517|NP_001353516|NP_001353519|NP_001353518	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906335	6733	9584	112611	114952	-	RP11-353C18.2	SRPK2	RBM39	SFRSK2	CAPER|CAPERalpha|FSAP59|HCC1|RNPC2	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	P78362	A0A024R704	NP_872633|NP_001265202|NP_872634	Q14498	B4DRA0|E1P5S2	NP_001310352|NP_001310353|NP_001310351|NP_909122|NP_004893|NP_001229528|NP_001229529	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906336	6733	8761	112611	114296	-	-	SRPK2	PABPC4	SFRSK2	APP-1|APP1|PABP4|iPABP	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	P78362	A0A024R704	NP_872633|NP_001265202|NP_872634	Q13310	-	NP_003810|NP_001129126|NP_001129125	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906337	6733	11338	112611	116466	-	-	SRPK2	U2AF2	SFRSK2	U2AF65	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	P78362	A0A024R704	NP_872633|NP_001265202|NP_872634	P26368	-	NP_001012496|NP_009210	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+906338	6733	9188	112611	114625	-	-	SRPK2	DDX21	SFRSK2	GUA|GURDB|RH-II/GU|RH-II/GuA	FRET	physical	Varjosalo M (2013)	PUBMED:23602568	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	P78362	A0A024R704	NP_872633|NP_001265202|NP_872634	Q9NR30	-	NP_004719|NP_001243839	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+907185	6915	6915	112777	112777	-	-	TBXA2R	TBXA2R	BDPLT13|TXA2-R	BDPLT13|TXA2-R	FRET	physical	Frey AJ (2013)	PUBMED:23493750	9606	9606	Low Throughput	-	-	BRET assay|Isoforms (Uniprot IDs): P21731-3 interacts with P21731-3	-	BIOGRID	P21731	Q0VAB0|Q05C92	NP_963998|NP_001051	P21731	Q0VAB0|Q05C92	NP_963998|NP_001051	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+907495	6915	5739	112777	111711	-	-	TBXA2R	PTGIR	BDPLT13|TXA2-R	IP|PRIPR	FRET	physical	Frey AJ (2013)	PUBMED:23493750	9606	9606	Low Throughput	-	-	BRET assay|Isoforms (Uniprot IDs): P21731-3 interacts with P43119	-	BIOGRID	P21731	Q0VAB0|Q05C92	NP_963998|NP_001051	P43119	-	NP_000951	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+907498	5739	5739	111711	111711	-	-	PTGIR	PTGIR	IP|PRIPR	IP|PRIPR	FRET	physical	Ibrahim S (2010)	PUBMED:20522800	9606	9606	Low Throughput	-	-	BRET assay	-	BIOGRID	P43119	-	NP_000951	P43119	-	NP_000951	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+907499	6915	6915	112777	112777	-	-	TBXA2R	TBXA2R	BDPLT13|TXA2-R	BDPLT13|TXA2-R	FRET	physical	Ibrahim S (2010)	PUBMED:20522800	9606	9606	Low Throughput	-	-	BRET assay; Isoforms (Uniprot IDs): P21731-3 interacts with P21731-3	-	BIOGRID	P21731	Q0VAB0|Q05C92	NP_963998|NP_001051	P21731	Q0VAB0|Q05C92	NP_963998|NP_001051	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+907520	5739	6915	111711	112777	-	-	PTGIR	TBXA2R	IP|PRIPR	BDPLT13|TXA2-R	FRET	physical	Ibrahim S (2010)	PUBMED:20522800	9606	9606	Low Throughput	-	-	BRET assay; Isoforms (Uniprot IDs): P43119 interacts with P21731-3	-	BIOGRID	P43119	-	NP_000951	P21731	Q0VAB0|Q05C92	NP_963998|NP_001051	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+907767	2542285	2540440	278753	276968	SPAC17H9.09c	SPBC646.12c	ras1	gap1	ste5	sar1|src1	FRET	physical	Weston C (2013)	PUBMED:24147005	284812	284812	Low Throughput	-	-	-	-	BIOGRID	P08647	-	NP_593579	P33277	-	NP_595370	-	-	-	-	-	-	Schizosaccharomyces pombe (972h)	Schizosaccharomyces pombe (972h)
+907777	154	5731	106663	111703	-	-	ADRB2	PTGER1	ADRB2R|ADRBR|B2AR|BAR|BETA2AR	EP1	FRET	physical	McGraw DW (2006)	PUBMED:16670773	9606	9606	Low Throughput	-	-	BRET assay; BRET signal is increased by the addition of 17-PTP or isoproterenol	-	BIOGRID	P07550	-	NP_000015	P34995	-	NP_000946	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+907778	6915	51738	112777	119706	-	UNQ524/PRO1066	TBXA2R	GHRL	BDPLT13|TXA2-R	MTLRP	FRET	physical	Chow KB (2008)	PUBMED:18573679	9606	9606	Low Throughput	-	-	BRET assay	-	BIOGRID	P21731	Q0VAB0|Q05C92	NP_963998|NP_001051	Q9UBU3	-	NP_001289753|NP_001289752|NP_001289751|NP_001289750|NP_001128418|NP_001289754|NP_001128416|NP_001128417|NP_001128413|NP_057446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+907779	5733	51738	111705	119706	RP5-952N6.2	UNQ524/PRO1066	PTGER3	GHRL	EP3|EP3-I|EP3-II|EP3-III|EP3-IV|EP3e|PGE2-R	MTLRP	FRET	physical	Chow KB (2008)	PUBMED:18573679	9606	9606	Low Throughput	-	-	BRET assay	-	BIOGRID	P43115	O00325	NP_942009|NP_942008|NP_942007|NP_942011|NP_942012|NP_942010|NP_001119516	Q9UBU3	-	NP_001289753|NP_001289752|NP_001289751|NP_001289750|NP_001128418|NP_001289754|NP_001128416|NP_001128417|NP_001128413|NP_057446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+907801	1241	1241	107645	107645	-	-	LTB4R	LTB4R	BLT1|BLTR|CMKRL1|GPR16|LTB4R1|LTBR1|P2RY7|P2Y7	BLT1|BLTR|CMKRL1|GPR16|LTB4R1|LTBR1|P2RY7|P2Y7	FRET	physical	Mesnier D (2004)	PUBMED:15358776	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q15722	-	NP_858043|NP_001137391	Q15722	-	NP_858043|NP_001137391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+907803	1241	1241	107645	107645	-	-	LTB4R	LTB4R	BLT1|BLTR|CMKRL1|GPR16|LTB4R1|LTBR1|P2RY7|P2Y7	BLT1|BLTR|CMKRL1|GPR16|LTB4R1|LTBR1|P2RY7|P2Y7	FRET	physical	Baneres JL (2003)	PUBMED:12787680	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q15722	-	NP_858043|NP_001137391	Q15722	-	NP_858043|NP_001137391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+908012	827631	825284	12924	10598	AT4G18960	AT3G61120	AG	AGL13	AGAMOUS|AGAMOUS PROTEIN|F13C5.130|F13C5_130	AGAMOUS-like 13|MADS-BOX PROTEIN AGL13	FRET	physical	Hsu WH (2013)	PUBMED:24164574	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P17839	F4JSC8	NP_567569|NP_001190766	Q38837	-	NP_191671	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+908013	824601	825284	9917	10598	AT3G54340	AT3G61120	AP3	AGL13	APETALA 3|ATAP3|FLORAL HOMEOTIC PROTEIN APETALA 3	AGAMOUS-like 13|MADS-BOX PROTEIN AGL13	FRET	physical	Hsu WH (2013)	PUBMED:24164574	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P35632	-	NP_191002	Q38837	-	NP_191671	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+908015	3778	6915	109979	112777	RP11-443A13.1	-	KCNMA1	TBXA2R	BKTM|KCa1.1|MaxiK|SAKCA|SLO|SLO-ALPHA|SLO1|bA205K10.1|mSLO1	BDPLT13|TXA2-R	FRET	physical	Li M (2010)	PUBMED:20959415	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q12791	D5MRH1|A0A087WZL8|Q59FH2|S4R453|B7ZMF5	NP_001258449|NP_001258448|NP_001154824|NP_001154825|NP_001258450|NP_001258451|NP_001014797|NP_002238|NP_001258447	P21731	Q0VAB0|Q05C92	NP_963998|NP_001051	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+908322	150	150	106659	106659	-	-	ADRA2A	ADRA2A	ADRA2|ADRA2R|ADRAR|ALPHA2AAR|ZNF32	ADRA2|ADRA2R|ADRAR|ALPHA2AAR|ZNF32	FRET	physical	Nobles M (2005)	PUBMED:16352729	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P08913	-	NP_000672	P08913	-	NP_000672	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+908323	1132	1132	107554	107554	-	-	CHRM4	CHRM4	HM4|M4R	HM4|M4R	FRET	physical	Nobles M (2005)	PUBMED:16352729	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P08173	-	NP_000732	P08173	-	NP_000732	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+908324	150	2775	106659	109037	-	-	ADRA2A	GNAO1	ADRA2|ADRA2R|ADRAR|ALPHA2AAR|ZNF32	EIEE17|G-ALPHA-o|GNAO	FRET	physical	Nobles M (2005)	PUBMED:16352729	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P08913	-	NP_000672	P09471	Q8N6I9|Q6AWC5|B3KP89	NP_620073|NP_066268	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+908325	5739	2778	111711	109040	-	RP4-543J19.4	PTGIR	GNAS	IP|PRIPR	AHO|C20orf45|GNAS1|GPSA|GSA|GSP|NESP|PHP1A|PHP1B|PHP1C|POH	FRET	physical	Nobles M (2005)	PUBMED:16352729	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P43119	-	NP_000951	P84996|Q5JWF2|O95467|P63092	-	NP_057676|NP_001296790|NP_000507|NP_536351|NP_001296771|NP_001070958|NP_001070957|NP_001070956|NP_001296769|NP_536350	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+915073	5071	9868	111105	115201	KB-152G3.1	-	PARK2	TOMM70A	AR-JP|LPRS2|PDJ|PRKN	-	FRET	physical	Bertolin G (2013)	PUBMED:24149440	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O60260	X5DR79	NP_054643|NP_054642|NP_004553	O94826	-	NP_055635	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+915074	5071	10452	111105	115716	KB-152G3.1	-	PARK2	TOMM40	AR-JP|LPRS2|PDJ|PRKN	C19orf1|D19S1177E|PER-EC1|PEREC1|TOM40	FRET	physical	Bertolin G (2013)	PUBMED:24149440	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O60260	X5DR79	NP_054643|NP_054642|NP_004553	O96008	A0A024R0P9	NP_006105|NP_001122389|NP_001122388	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+915075	9868	5071	115201	111105	-	KB-152G3.1	TOMM70A	PARK2	-	AR-JP|LPRS2|PDJ|PRKN	FRET	physical	Bertolin G (2013)	PUBMED:24149440	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O94826	-	NP_055635	O60260	X5DR79	NP_054643|NP_054642|NP_004553	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+915076	10452	5071	115716	111105	-	KB-152G3.1	TOMM40	PARK2	C19orf1|D19S1177E|PER-EC1|PEREC1|TOM40	AR-JP|LPRS2|PDJ|PRKN	FRET	physical	Bertolin G (2013)	PUBMED:24149440	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O96008	A0A024R0P9	NP_006105|NP_001122389|NP_001122388	O60260	X5DR79	NP_054643|NP_054642|NP_004553	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+918080	9817	4780	115156	110852	-	-	KEAP1	NFE2L2	INrf2|KLHL19	NRF2	FRET	physical	Schaap M (2013)	PUBMED:24130096	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14145	A0A024R7C0	NP_036421|NP_987096	Q16236	-	NP_006155|NP_001138884|NP_001138885|NP_001300829|NP_001300830|NP_001300831	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+918090	1734	23032	108078	116671	-	-	DIO2	USP33	5DII|D2|DIOII|SelY|TXDI2	VDU1	FRET	physical	Arrojo E Drigo R (2013)	PUBMED:24196352	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q92813	A8K845|Q9HCP7	NP_001007024|NP_000784|NP_001311391|NP_001229431|NP_001229432|NP_054644	Q8TEY7	-	NP_001364360|NP_001364361|NP_001364362|NP_001364363|NP_001364364|NP_001364365|NP_001364366|NP_001364367|NP_001364368|NP_001364359|NP_963920|NP_963918|NP_055832	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+918268	832468	820235	17743	5569	AT5G24030	AT3G10660	SLAH3	CPK2	MZF18.9|MZF18_9|SLAC1 homologue 3	ATCPK2|calmodulin-domain protein kinase cdpk isoform 2	FRET	physical	Gutermuth T (2013)	PUBMED:24280384	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FLV9	-	NP_197791	Q38870	-	NP_187677	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+918269	832468	818476	17743	3816	AT5G24030	AT2G38910	SLAH3	CPK20	MZF18.9|MZF18_9|SLAC1 homologue 3	T7F6.8|T7F6_8|calcium-dependent protein kinase 20	FRET	physical	Gutermuth T (2013)	PUBMED:24280384	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FLV9	-	NP_197791	Q9ZV15	-	NP_181425	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+918305	832968	819156	18241	4492	AT5G28640	AT2G45480	AN3	GRF9	ANGUSTIFOLIA 3|ARABIDOPSIS GRF1-INTERACTING FACTOR 1|ATGIF1|F4I4.20|F4I4_20|GIF|GIF1|GRF1-INTERACTING FACTOR|GRF1-INTERACTING FACTOR 1	AtGRF9|F4L23.1|F4L23_1|growth-regulating factor 9	FRET	physical	Liang G (2013)	PUBMED:24285851	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8L8A5	-	NP_198216	Q8S9M3	-	NP_850438	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+918306	839278	835447	24513	20691	AT1G01160	AT5G53660	GIF2	GRF7	F6F3.29|GRF1-interacting factor 2	AtGRF7|MNC6.20|MNC6_20|growth-regulating factor 7	FRET	physical	Liang G (2013)	PUBMED:24285851	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9MAL9	F4HQJ3	NP_563619|NP_001154298	Q9FJB8	-	NP_200177	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+918309	827995	824457	13286	9774	AT4G00850	AT3G52910	GIF3	GRF4	A_TM018A10.22|A_TM018A10_22|GRF1-interacting factor 3|T18A10.15|T18A10_15	AtGRF4|growth-regulating factor 4	FRET	physical	Liang G (2013)	PUBMED:24285851	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q93VH6	-	NP_567194	Q8L8A7	-	NP_190859	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+932029	2305	7341	108594	113188	-	OK/SW-cl.43	FOXM1	SUMO1	FKHL16|FOXM1B|HFH-11|HFH11|HNF-3|INS-1|MPHOSPH2|MPP-2|MPP2|PIG29|TGT3|TRIDENT	DAP1|GMP1|OFC10|PIC1|SENP2|SMT3|SMT3C|SMT3H3|UBL1	FRET	physical	Myatt SS (2013)	PUBMED:24362530	9606	9606	Low Throughput	-	-	#LPPI|FOXM1 is SUMOylated in response to epirubicin treatment|Likely protein-protein interaction	-	BIOGRID	Q08050	A8K591|Q53Y49	NP_001230018|NP_973732|NP_973731|NP_068772|NP_001230017	P63165	A0A024R3Z2	NP_001358323|NP_001358322|NP_001358321|NP_001005782|NP_001005781|NP_003343	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+935216	821788	821788	7120	7120	AT3G22231	AT3G22231	PCC1	PCC1	PATHOGEN AND CIRCADIAN CONTROLLED 1	PATHOGEN AND CIRCADIAN CONTROLLED 1	FRET	physical	Mir R (2014)	PUBMED:24475254	3702	3702	Low Throughput	-	-	Bimolecular Fluorescence Complementation (BiFC) assay	-	BIOGRID	Q94C26	-	NP_566702	Q94C26	-	NP_566702	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+935220	821788	843463	7120	28683	AT3G22231	AT1G71230	PCC1	CSN5B	PATHOGEN AND CIRCADIAN CONTROLLED 1	AJH2|COP9-signalosome 5B|CSN5|F3I17.12|F3I17_12	FRET	physical	Mir R (2014)	PUBMED:24475254	3702	3702	Low Throughput	-	-	Biomolecular Fluorescence Complementation (BiFC) assay	-	BIOGRID	Q94C26	-	NP_566702	Q9FVU9	-	NP_177279	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+935221	821788	838899	7120	24138	AT3G22231	AT1G22920	PCC1	CSN5A	PATHOGEN AND CIRCADIAN CONTROLLED 1	AJH1|ARABIDOPSIS JAB1 HOMOLOG 1|COP9 signalosome 5A|CSN5|F19G10.12|F19G10_12|JAB1|PUTATIVE JUN KINASE ACTIVATOR	FRET	physical	Mir R (2014)	PUBMED:24475254	3702	3702	Low Throughput	-	-	Biomolecular Fluorescence Complementation (BiFC) assay	-	BIOGRID	Q94C26	-	NP_566702	Q8LAZ7	F4I325|A1A6G7	NP_973890|NP_173705	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+937202	5111	84875	111142	124320	-	-	PCNA	PARP10	ATLD2	ARTD10	FRET	physical	Nicolae CM (2014)	PUBMED:24695737	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P12004	-	NP_872590|NP_002583	Q53GL7	E9PNI7	NP_001304824|NP_116178	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+937203	5111	10714	111142	115940	-	-	PCNA	POLD3	ATLD2	P66|P68|PPP1R128	FRET	physical	Nicolae CM (2014)	PUBMED:24695737	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P12004	-	NP_872590|NP_002583	Q15054	A0A024R5M8	NP_006582|NP_001350526	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+937204	5111	2547	111142	108822	-	CTA-216E10.7	PCNA	XRCC6	ATLD2	CTC75|CTCBF|G22P1|KU70|ML8|TLAA	FRET	physical	Nicolae CM (2014)	PUBMED:24695737	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P12004	-	NP_872590|NP_002583	P12956	B1AHC9|A0A024R1N4|B4DE32|B4E356	NP_001460|NP_001275905|NP_001275907|NP_001275906	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+937330	6047	6047	111974	111974	RES4-26	RES4-26	RNF4	RNF4	SLX5|SNURF	SLX5|SNURF	FRET	physical	Rojas-Fernandez A (2014)	PUBMED:24656128	9606	9606	Low Throughput	-	-	Rnf4 dimerizes in the presence of sumo chains	-	BIOGRID	P78317	-	NP_001171939|NP_001171938|NP_002929	P78317	-	NP_001171939|NP_001171938|NP_002929	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+938943	997	7316	107432	113164	-	-	CDC34	UBC	E2-CDC34|UBC3|UBCH3|UBE2R1	HMG20	FRET	physical	Huang H (2014)	PUBMED:24316736	9606	9606	Low Throughput	-	-	#LPPI|Likely protein-protein interaction	-	BIOGRID	P49427	A0A024R1Z1	NP_004350	P0CG48	-	NP_066289	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+938988	1857	1857	108190	108190	-	-	DVL3	DVL3	-	-	FRET	physical	de Groot RE (2014)	PUBMED:24643799	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q92997	-	NP_004414	Q92997	-	NP_004414	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+939261	836222	843512	21466	28732	AT5G61010	AT1G71820	EXO70E2	SEC6	ATEXO70E2|MAF19.1|MAF19_1|exocyst subunit exo70 family protein E2	F14O23.20|F14O23_20	FRET	physical	Ding Y (2013)	PUBMED:24307681	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9FNR3	NP_200909|NP_001032116	Q94AI6	F4IA34	NP_001185374|NP_565026	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+939262	836222	831112	21466	16390	AT5G61010	AT5G12370	EXO70E2	SEC10	ATEXO70E2|MAF19.1|MAF19_1|exocyst subunit exo70 family protein E2	exocyst complex component sec10	FRET	physical	Ding Y (2013)	PUBMED:24307681	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9FNR3	NP_200909|NP_001032116	Q8RVQ5	X5JA13|F4K0X7	NP_001031872|NP_001031871|NP_568270	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+939470	856162	850686	36225	31273	YPR049C	YLL001W	ATG11	DNM1	CVT3|CVT9|autophagy protein ATG11|L000004760|L000004756|S000029130	dynamin-related GTPase DNM1|L000002645	FRET	physical	Mao K (2014)	PUBMED:24451165	559292	559292	Low Throughput	-	-	BiFC assay; both found on peroxisomes and mitochondria	-	BIOGRID	Q12527	-	NP_015374	P54861	-	NP_013100	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+939471	856162	854745	36225	34927	YPR049C	YIL065C	ATG11	FIS1	CVT3|CVT9|autophagy protein ATG11|L000004760|L000004756|S000029130	MDV2	FRET	physical	Mao K (2014)	PUBMED:24451165	559292	559292	Low Throughput	-	-	BiFC assay; both found on peroxisomes and mitochondria	-	BIOGRID	Q12527	-	NP_015374	P40515	-	NP_012199	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+939472	856162	853870	36225	34133	YPR049C	YKR001C	ATG11	VPS1	CVT3|CVT9|autophagy protein ATG11|L000004760|L000004756|S000029130	GRD1|LAM1|SPO15|VPL1|VPT26|dynamin-like GTPase VPS1|L000002006	FRET	physical	Mao K (2014)	PUBMED:24451165	559292	559292	Low Throughput	-	-	BiFC assay; both found on peroxisomes	-	BIOGRID	Q12527	-	NP_015374	P21576	-	NP_012926	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+939475	853254	853870	33577	34133	YJL185C	YKR001C	ATG36	VPS1	-	GRD1|LAM1|SPO15|VPL1|VPT26|dynamin-like GTPase VPS1|L000002006	FRET	physical	Mao K (2014)	PUBMED:24451165	559292	559292	Low Throughput	-	-	BiFC assay	-	BIOGRID	P46983	-	NP_012350	P21576	-	NP_012926	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+939476	853254	850686	33577	31273	YJL185C	YLL001W	ATG36	DNM1	-	dynamin-related GTPase DNM1|L000002645	FRET	physical	Mao K (2014)	PUBMED:24451165	559292	559292	Low Throughput	-	-	BiFC assay	-	BIOGRID	P46983	-	NP_012350	P54861	-	NP_013100	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+940961	854444	853782	34659	34052	YOR270C	YKL080W	VPH1	VMA5	H(+)-transporting V0 sector ATPase subunit a|L000002467	CSL5|VAT3|H(+)-transporting V1 sector ATPase subunit C|L000002460	FRET	physical	Tabke K (2014)	PUBMED:24805887	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32563	-	NP_014913	P31412	-	NP_012843	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+940962	852424	853782	32828	34052	YBR127C	YKL080W	VMA2	VMA5	VAT2|H(+)-transporting V1 sector ATPase subunit B|ATPSV|L000002458	CSL5|VAT3|H(+)-transporting V1 sector ATPase subunit C|L000002460	FRET	physical	Tabke K (2014)	PUBMED:24805887	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P16140	-	NP_009685	P31412	-	NP_012843	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+940963	852424	854444	32828	34659	YBR127C	YOR270C	VMA2	VPH1	VAT2|H(+)-transporting V1 sector ATPase subunit B|ATPSV|L000002458	H(+)-transporting V0 sector ATPase subunit a|L000002467	FRET	physical	Tabke K (2014)	PUBMED:24805887	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P16140	-	NP_009685	P32563	-	NP_014913	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+940969	999	1500	107434	107881	-	-	CDH1	CTNND1	Arc-1|CD324|CDHE|ECAD|LCAM|UVO	CAS|CTNND|P120CAS|P120CTN|p120|p120(CAS)|p120(CTN)	FRET	physical	Figueiredo J (2013)	PUBMED:22850631	9606	9606	Low Throughput	-	-	Proximity Ligation Assay	-	BIOGRID	P12830	-	NP_001304113|NP_001304115|NP_004351|NP_001304114	O60716	-	NP_001078931|NP_001078930|NP_001078933|NP_001078932|NP_001078935|NP_001078934|NP_001078937|NP_001078936|NP_001078938|NP_001322|NP_001193816|NP_001193817|NP_001193814|NP_001193815|NP_001193812|NP_001193813|NP_001193818|NP_001193819|NP_001078927|NP_001078928|NP_001078929|NP_001193820	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+940970	999	79872	107434	122960	-	-	CDH1	CBLL1	Arc-1|CD324|CDHE|ECAD|LCAM|UVO	HAKAI|RNF188	FRET	physical	Figueiredo J (2013)	PUBMED:22850631	9606	9606	Low Throughput	-	-	Proximity Ligation Assay	-	BIOGRID	P12830	-	NP_001304113|NP_001304115|NP_004351|NP_001304114	Q75N03	B4DDV7	NP_001271220|NP_079090	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+940971	999	1499	107434	107880	-	OK/SW-cl.35	CDH1	CTNNB1	Arc-1|CD324|CDHE|ECAD|LCAM|UVO	CTNNB|MRD19|armadillo	FRET	physical	Figueiredo J (2013)	PUBMED:22850631	9606	9606	Low Throughput	-	-	Proximity Ligation Assay	-	BIOGRID	P12830	-	NP_001304113|NP_001304115|NP_004351|NP_001304114	P35222	B4DGU4|A0A024R2Q3	NP_001091680|NP_001091679|NP_001895|NP_001317658	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+940972	999	23396	107434	116969	-	-	CDH1	PIP5K1C	Arc-1|CD324|CDHE|ECAD|LCAM|UVO	LCCS3|PIP5K-GAMMA|PIP5K1-gamma|PIP5Kgamma	FRET	physical	Figueiredo J (2013)	PUBMED:22850631	9606	9606	Low Throughput	-	-	Proximity Ligation Assay	-	BIOGRID	P12830	-	NP_001304113|NP_001304115|NP_004351|NP_001304114	O60331	-	NP_001182662|NP_001287778|NP_036530	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+940973	8678	596	114226	107068	-	-	BECN1	BCL2	ATG6|VPS30|beclin1	Bcl-2|PPP1R50	FRET	physical	Luciani A (2010)	PUBMED:20711182	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	P10415	A0A024R2B3|A0A024R2C4	NP_000624|NP_000648	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+940980	8678	22863	114226	116531	-	-	BECN1	ATG14	ATG6|VPS30|beclin1	ATG14L|BARKOR|KIAA0831	FRET	physical	Luciani A (2010)	PUBMED:20711182	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	Q6ZNE5	-	NP_055739	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+940981	8678	5289	114226	111307	-	-	BECN1	PIK3C3	ATG6|VPS30|beclin1	VPS34|hVps34	FRET	physical	Luciani A (2010)	PUBMED:20711182	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	Q8NEB9	-	NP_001294949|NP_002638	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+940982	8678	30849	114226	119059	-	-	BECN1	PIK3R4	ATG6|VPS30|beclin1	VPS15|p150	FRET	physical	Luciani A (2010)	PUBMED:20711182	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	Q99570	-	NP_055417	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+940983	8678	55626	114226	120765	-	-	BECN1	AMBRA1	ATG6|VPS30|beclin1	DCAF3|WDR94	FRET	physical	Luciani A (2010)	PUBMED:20711182	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	Q9C0C7	A0A075B6T1	NP_001373940|NP_001254711|NP_001254712|NP_001287660|NP_001354398|NP_001354399|NP_001354397|NP_060219|NP_001354400	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+947917	5071	7316	111105	113164	KB-152G3.1	-	PARK2	UBC	AR-JP|LPRS2|PDJ|PRKN	HMG20	FRET	physical	Koyano F (2014)	PUBMED:24784582	9606	9606	Low Throughput	-	-	#LPPI|FluoPPI (fluorescent-based technology detecting protein-protein interactions)|Likely protein-protein interaction	-	BIOGRID	O60260	X5DR79	NP_054643|NP_054642|NP_004553	P0CG48	-	NP_066289	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+948301	10681	54331	115920	119933	-	-	GNB5	GNG2	GB5	-	FRET	physical	Zhou JY (2003)	PUBMED:12606627	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O14775	A0A024R5V3|A0A024R5R9	NP_006569|NP_057278|NP_001366272	P59768	-	NP_444292|NP_001230702|NP_001230703	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+948302	10681	2785	115920	109047	-	-	GNB5	GNG3	GB5	-	FRET	physical	Zhou JY (2003)	PUBMED:12606627	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O14775	A0A024R5V3|A0A024R5R9	NP_006569|NP_057278|NP_001366272	P63215	-	NP_036334	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+948303	10681	51764	115920	119721	-	-	GNB5	GNG13	GB5	G(gamma)13|h2-35	FRET	physical	Zhou JY (2003)	PUBMED:12606627	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O14775	A0A024R5V3|A0A024R5R9	NP_006569|NP_057278|NP_001366272	Q9P2W3	-	NP_057625	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+948304	2782	54331	109044	119933	RP1-283E3.7	-	GNB1	GNG2	-	-	FRET	physical	Zhou JY (2003)	PUBMED:12606627	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P62873	A0A024R056|B3KVK2	NP_002065|NP_001269468|NP_001269467	P59768	-	NP_444292|NP_001230702|NP_001230703	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+948305	10681	8786	115920	114314	-	AC004754.2	GNB5	RGS11	GB5	RS11	FRET	physical	Zhou JY (2003)	PUBMED:12606627	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O14775	A0A024R5V3|A0A024R5R9	NP_006569|NP_057278|NP_001366272	O94810	Q4TT70	NP_003825|NP_899180|NP_001273415|NP_001273414	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+948604	155945	8945	1205543	114457	HIV1gp7	RP11-529I10.2	vpu	BTRC	-	BETA-TRCP|FBW1A|FBXW1|FBXW1A|FWD1|bTrCP|bTrCP1|betaTrCP	FRET	physical	Sauter D (2012)	PUBMED:23308067	11676	9606	Low Throughput	-	-	BiFC	-	BIOGRID	-	-	NP_057855	Q9Y297	B2R8L3|B7Z3H4|Q68DS0	NP_003930|NP_378663|NP_001243785	-	-	-	-	-	-	Human Immunodeficiency Virus 1	Homo sapiens
+948605	155945	684	1205543	107149	HIV1gp7	-	vpu	BST2	-	CD317|TETHERIN	FRET	physical	Sauter D (2012)	PUBMED:23308067	11676	9606	Low Throughput	-	-	BiFC	-	BIOGRID	-	-	NP_057855	Q10589	A0A024R7H5	NP_004326	-	-	-	-	-	-	Human Immunodeficiency Virus 1	Homo sapiens
+948606	155945	920	1205543	107358	HIV1gp7	-	vpu	CD4	-	CD4mut	FRET	physical	Sauter D (2012)	PUBMED:23308067	11676	9606	Low Throughput	-	-	BiFC	-	BIOGRID	-	-	NP_057855	P01730	B0AZV7|B4DT49	NP_001181943|NP_001369634|NP_001181946|NP_001181945|NP_001181944|NP_000607|NP_001369635	-	-	-	-	-	-	Human Immunodeficiency Virus 1	Homo sapiens
+948667	2784	54331	109046	119933	-	-	GNB3	GNG2	-	-	FRET	physical	Sun Z (2012)	PUBMED:22940628	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P16520	E9PCP0|F1T0G5	NP_001284500|NP_002066	P59768	-	NP_444292|NP_001230702|NP_001230703	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+948668	2784	2787	109046	109049	-	-	GNB3	GNG5	-	-	FRET	physical	Sun Z (2012)	PUBMED:22940628	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P16520	E9PCP0|F1T0G5	NP_001284500|NP_002066	P63218	-	NP_005265	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+948669	2784	94235	109046	125148	-	-	GNB3	GNG8	-	-	FRET	physical	Sun Z (2012)	PUBMED:22940628	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P16520	E9PCP0|F1T0G5	NP_001284500|NP_002066	Q9UK08	-	NP_150283	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+948670	2784	2790	109046	109052	-	-	GNB3	GNG10	-	-	FRET	physical	Sun Z (2012)	PUBMED:22940628	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P16520	E9PCP0|F1T0G5	NP_001284500|NP_002066	P50151	A0A024R156	NP_001017998|NP_001185593	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+948671	2784	55970	109046	121016	-	RP5-975D15.2	GNB3	GNG12	-	-	FRET	physical	Sun Z (2012)	PUBMED:22940628	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P16520	E9PCP0|F1T0G5	NP_001284500|NP_002066	Q9UBI6	-	NP_061329	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+948893	4139	4137	110309	110308	-	-	MARK1	MAPT	MARK|Par-1c|Par1c	DDPAC|FTDP-17|MAPTL|MSTD|MTBT1|MTBT2|PPND|PPP1R103|TAU	FRET	physical	Gu GJ (2013)	PUBMED:23666762	9606	9606	Low Throughput	-	-	in situ proximity ligation assay	-	BIOGRID	Q9P0L2	A0A087X0I6|X5D2M4|B4DIB3	NP_001273058|NP_001273053|NP_001273055|NP_001273057|NP_061120	P10636	B3KTM0|A0A024R9Y1|A0A024RA17|A0A024RA19|A0A024R9Y0	NP_001364195|NP_001364194|NP_005901|NP_001364197|NP_001364196|NP_058519|NP_058518|NP_001190181|NP_001190180|NP_001116538|NP_001116539|NP_058525	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+948894	23089	4137	116717	110308	-	-	PEG10	MAPT	EDR|HB-1|MEF3L|Mar2|Mart2|RGAG3	DDPAC|FTDP-17|MAPTL|MSTD|MTBT1|MTBT2|PPND|PPP1R103|TAU	FRET	physical	Gu GJ (2013)	PUBMED:23666762	9606	9606	Low Throughput	-	-	in situ proximity ligation assay	-	BIOGRID	Q86TG7	B4DSP0	NP_055883|NP_001165909|NP_001165908|NP_001035242|NP_001171890|NP_001171891	P10636	B3KTM0|A0A024R9Y1|A0A024RA17|A0A024RA19|A0A024R9Y0	NP_001364195|NP_001364194|NP_005901|NP_001364197|NP_001364196|NP_058519|NP_058518|NP_001190181|NP_001190180|NP_001116538|NP_001116539|NP_058525	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+948895	4140	4137	110310	110308	-	-	MARK3	MAPT	CTAK1|KP78|PAR1A|Par-1a	DDPAC|FTDP-17|MAPTL|MSTD|MTBT1|MTBT2|PPND|PPP1R103|TAU	FRET	physical	Gu GJ (2013)	PUBMED:23666762	9606	9606	Low Throughput	-	-	in situ proximity ligation assay	-	BIOGRID	P27448	Q86U11	NP_001122391|NP_002367|NP_001122390|NP_001122393|NP_001122392	P10636	B3KTM0|A0A024R9Y1|A0A024RA17|A0A024RA19|A0A024R9Y0	NP_001364195|NP_001364194|NP_005901|NP_001364197|NP_001364196|NP_058519|NP_058518|NP_001190181|NP_001190180|NP_001116538|NP_001116539|NP_058525	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+948896	57787	4137	121760	110308	-	-	MARK4	MAPT	MARK4L|MARK4S|MARKL1|MARKL1L|PAR-1D	DDPAC|FTDP-17|MAPTL|MSTD|MTBT1|MTBT2|PPND|PPP1R103|TAU	FRET	physical	Gu GJ (2013)	PUBMED:23666762	9606	9606	Low Throughput	-	-	in situ proximity ligation assay	-	BIOGRID	Q96L34	-	NP_113605|NP_001186796	P10636	B3KTM0|A0A024R9Y1|A0A024RA17|A0A024RA19|A0A024R9Y0	NP_001364195|NP_001364194|NP_005901|NP_001364197|NP_001364196|NP_058519|NP_058518|NP_001190181|NP_001190180|NP_001116538|NP_001116539|NP_058525	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+949618	30851	1840	119061	108173	-	-	TAX1BP3	DTX1	TIP-1	hDx-1	FRET	physical	Zencir S (2013)	PUBMED:23395680	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O14907	A0A087X282	NP_001191627|NP_055419	Q86Y01	-	NP_004407	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+949619	30851	6780	119061	112657	-	RP3-470L14.2	TAX1BP3	STAU1	TIP-1	PPP1R150|STAU	FRET	physical	Zencir S (2013)	PUBMED:23395680	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O14907	A0A087X282	NP_001191627|NP_055419	O95793	B3KRE0|Q6PJX3	NP_059347|NP_059346|NP_001306063|NP_059348|NP_001309858|NP_001032405|NP_001306064|NP_001309862|NP_001309859|NP_004593|NP_001309857|NP_001309856|NP_001309860|NP_001309861	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+950759	19164	244373	202414	232642	-	-	Psen1	Erlin2	Ad3h|PS-1|PS1|S182	BC036333|C87251|Spfh2	FRET	physical	Teranishi Y (2012)	PUBMED:22771797	10090	10090	Low Throughput	-	-	PLA	-	BIOGRID	P49769	Q3UYK2	NP_032969	Q8BFZ9	-	NP_705820	-	-	-	-	-	-	Mus musculus	Mus musculus
+950794	604	9612	107076	114974	-	-	BCL6	NCOR2	BCL5|BCL6A|LAZ3|ZBTB27|ZNF51	CTG26|N-CoR2|SMAP270|SMRT|SMRTE|SMRTE-tau|TNRC14|TRAC|TRAC-1|TRAC1	Reconstituted Complex	physical	Hatzi K (2013)	PUBMED:23911289	9606	9606	Low Throughput	-	-	FRET in solution with SMRT or BCOR peptides and BCL6 BTB domain; Fig 2D	-	BIOGRID	P41182	B5B0A5	NP_001124317|NP_001697|NP_001128210	Q9Y618	C9JFD3|C9J0Q5|C9JE98	NP_001070729|NP_006303|NP_001193583	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+950795	604	54880	107076	120228	-	-	BCL6	BCOR	BCL5|BCL6A|LAZ3|ZBTB27|ZNF51	ANOP2|MAA2|MCOPS2	Reconstituted Complex	physical	Hatzi K (2013)	PUBMED:23911289	9606	9606	Low Throughput	-	-	FRET in solution with SMRT or BCOR peptides and BCL6 BTB domain; Fig 2D	-	BIOGRID	P41182	B5B0A5	NP_001124317|NP_001697|NP_001128210	Q6W2J9	-	NP_001116855|NP_060215|NP_001116857|NP_001116856	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+957313	1734	10299	108078	115587	-	-	DIO2	MARCH6	5DII|D2|DIOII|SelY|TXDI2	DOA10|MARCH-VI|RNF176|TEB4	FRET	physical	Egri P (2014)	PUBMED:25074266	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q92813	A8K845|Q9HCP7	NP_001007024|NP_000784|NP_001311391|NP_001229431|NP_001229432|NP_054644	O60337	-	NP_001257589|NP_001257590|NP_005876	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+957314	1734	26118	108078	117560	-	-	DIO2	WSB1	5DII|D2|DIOII|SelY|TXDI2	SWIP1|WSB-1	FRET	physical	Egri P (2014)	PUBMED:25074266	9606	9606	Low Throughput	-	-	Sec62-D1-2K-loop-Y mutant	-	BIOGRID	Q92813	A8K845|Q9HCP7	NP_001007024|NP_000784|NP_001311391|NP_001229431|NP_001229432|NP_054644	Q9Y6I7	A0A024QZ36|A0A024QZ51	NP_599027|NP_056441	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+957432	10015	156110	115332	1205545	-	HIV1gp9	PDCD6IP	nef	AIP1|ALIX|DRIP4|HP95	-	FRET	physical	Amorim NA (2014)	PUBMED:25118280	9606	11676	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8WUM4	-	NP_001155901|NP_037506|NP_001243121	P04601	-	NP_057857	-	-	-	-	-	-	Homo sapiens	Human Immunodeficiency Virus 1
+985692	10133	10133	115436	115436	RP11-730A19.1	RP11-730A19.1	OPTN	OPTN	ALS12|FIP2|GLC1E|HIP7|HYPL|NRP|TFIIIA-INTP	ALS12|FIP2|GLC1E|HIP7|HYPL|NRP|TFIIIA-INTP	FRET	physical	Gao J (2014)	PUBMED:24983867	9606	9606	Low Throughput	-	-	proximity ligation assay	-	BIOGRID	Q96CV9	-	NP_068815|NP_001008214|NP_001008213|NP_001008212	Q96CV9	-	NP_068815|NP_001008214|NP_001008213|NP_001008212	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1026634	2540381	2541695	276910	278191	SPBC25D12.04	SPAC1F7.05	suc22	cdc22	-	-	FRET	physical	Vejrup-Hansen R (2014)	PUBMED:24652833	284812	284812	Low Throughput	-	-	Figure 6	-	BIOGRID	P36603	-	NP_596546	P36602	-	NP_594491	-	-	-	-	-	-	Schizosaccharomyces pombe (972h)	Schizosaccharomyces pombe (972h)
+1028231	10800	57105	116014	121371	-	PSEC0146	CYSLTR1	CYSLTR2	CYSLT1|CYSLT1R|CYSLTR|HMTMF81	CYSLT2|CYSLT2R|HG57|HPN321|KPG_011|hGPCR21	FRET	physical	Jiang Y (2007)	PUBMED:17693579	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9Y271	Q38Q91|Q38Q88	NP_006630|NP_001269117|NP_001269116|NP_001269115	Q9NS75	Q5KU17	NP_065110	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1028408	3991	5346	110179	111361	-	-	LIPE	PLIN1	AOMS4|HSL|LHS	FPLD4|PERI|PLIN	FRET	physical	Granneman JG (2007)	PUBMED:17189257	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q05469	A8K8W7	NP_005348	O60240	-	NP_002657|NP_001138783	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1028409	51099	5346	119288	111361	CGI-58	-	ABHD5	PLIN1	CDS|CGI58|IECN2|NCIE2	FPLD4|PERI|PLIN	FRET	physical	Granneman JG (2007)	PUBMED:17189257	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q8WTS1	-	NP_057090	O60240	-	NP_002657|NP_001138783	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1028410	57104	51099	121370	119288	FP17548	CGI-58	PNPLA2	ABHD5	1110001C14Rik|ATGL|PEDF-R|TTS-2.2|TTS2|iPLA2zeta	CDS|CGI58|IECN2|NCIE2	FRET	physical	Granneman JG (2007)	PUBMED:17189257	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q96AD5	-	NP_065109	Q8WTS1	-	NP_057090	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1028778	51720	2189	119697	108484	-	-	UIMC1	FANCG	RAP80|X2HRIP110	FAG|XRCC9	FRET	physical	Zhu B (2014)	PUBMED:25132264	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q96RL1	A0A024R7R0	NP_001186227|NP_001186226|NP_001304890|NP_057374	O15287	Q53XM5	NP_004620	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1029226	1956	2066	108276	108378	-	-	EGFR	ERBB4	ERBB|ERBB1|HER1|NISBD2|PIG61|mENA	ALS19|HER4|p180erbB4	FRET	physical	Kiuchi T (2014)	PUBMED:25140053	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P00533	-	NP_001333829|NP_001333828|NP_958440|NP_005219|NP_001333827|NP_001333826|NP_958441|NP_001333870|NP_958439	Q15303	-	NP_005226|NP_001036064	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1033952	855934	853409	36014	33717	YPL169C	YJL041W	MEX67	NSP1	L000004314	FG-nucleoporin NSP1|L000001277	FRET	physical	Hobeika M (2009)	PUBMED:19401465	559292	559292	Low Throughput	-	-	Table 1	-	BIOGRID	Q99257	-	NP_015156	P14907	-	NP_012494	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1033953	855934	851716	36014	32192	YPL169C	YDR138W	MEX67	HPR1	L000004314	TRF1|L000000808	FRET	physical	Hobeika M (2009)	PUBMED:19401465	559292	559292	Low Throughput	-	-	Table 1	-	BIOGRID	Q99257	-	NP_015156	P17629	-	NP_010422	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1033954	855934	850620	36014	31215	YPL169C	YLL039C	MEX67	UBI4	L000004314	SCD2|UB14|ubiquitin|L000002414	FRET	physical	Hobeika M (2009)	PUBMED:19401465	559292	559292	Low Throughput	-	-	#LPPI|Likely protein-protein interaction|Mex67 with Hpr1 and tetra-ubiquitin|Table 1	-	BIOGRID	Q99257	-	NP_015156	P0CG63	-	NP_013061	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1034797	855048	853552	35204	33844	YMR032W	YJR090C	HOF1	GRR1	CYK2|formin-binding protein HOF1|L000004406	CAT80|COT2|SDC1|SSU2|SCF ubiquitin ligase complex subunit GRR1|L000000730	FRET	physical	Blondel M (2005)	PUBMED:15775961	559292	559292	Low Throughput	-	-	bimolecular fluorescence complementation (microscopy)	-	BIOGRID	Q05080	-	NP_013746	P24814	-	NP_012623	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1050724	7184	329	113036	106826	-	-	HSP90B1	BIRC2	ECGP|GP96|GRP94|HEL-S-125m|HEL35|TRA1	API1|HIAP2|Hiap-2|MIHB|RNF48|c-IAP1|cIAP1	FRET	physical	Didelot C (2008)	PUBMED:25361076	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P14625	V9HWP2	NP_003290	Q13490	-	NP_001243092|NP_001157|NP_001243095	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1053960	8850	155871	114375	1205541	-	HIV1gp5	KAT2B	tat	CAF|P/CAF|PCAF	-	FRET	physical	Wong K (2005)	PUBMED:15611041	9606	11676	Low Throughput	-	-	Figure 5|in HIV-1-infected CNS tissue	-	BIOGRID	Q92831	-	NP_003875	P04608	-	NP_057853	-	-	-	-	-	-	Homo sapiens	Human Immunodeficiency Virus 1
+1054054	58533	25855	121852	117379	-	-	SNX6	BRMS1	MSTP010|TFAF2	-	FRET	physical	Rivera J (2010)	PUBMED:20830743	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UNH7	-	NP_001353448|NP_689419|NP_067072	Q9HCU9	G5E9I4	NP_056214|NP_001020128	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1054468	3091	1387	109338	107777	-	-	HIF1A	CREBBP	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	CBP|KAT3A|RSTS	FRET	physical	Ruas JL (2010)	PUBMED:19880525	9606	9606	Low Throughput	-	-	Figure 3|source of bait and hit not clear	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	Q92793	-	NP_001073315|NP_004371	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1054591	2033	3091	108347	109338	RP1-85F18.1	-	EP300	HIF1A	KAT3B|RSTS2|p300	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	FRET	physical	Kim SY (2014)	PUBMED:23966271	9606	9606	Low Throughput	-	-	Figure 3	-	BIOGRID	Q09472	Q7Z6C1	NP_001349772|NP_001420	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1055089	2645	314623	108915	260778	-	-	GCK	Midn	FGQTL3|GK|GLK|HHF3|HK4|HKIV|HXKP|LGLK|MODY2	-	FRET	physical	Hofmeister-Brix A (2013)	PUBMED:24187134	9606	10116	Low Throughput	-	-	-	-	BIOGRID	P35557	Q53Y25	NP_000153|NP_277042|NP_277043	-	D4AE48	NP_001178506	-	-	-	-	-	-	Homo sapiens	Rattus norvegicus
+1055295	256297	9320	129154	114731	-	-	PTF1A	TRIP12	PACA|PAGEN2|PTF1-p48|bHLHa29	TRIP-12|ULF	FRET	physical	Hanoun N (2014)	PUBMED:25355311	9606	9606	Low Throughput	-	-	Bioluminescence Resonance Energy Transfer (BRET) assay	-	BIOGRID	Q7RTS3	-	NP_835455	Q14669	-	NP_001335245|NP_001335244|NP_001335247|NP_001335246|NP_001335263|NP_001335262|NP_001335261|NP_001335260|NP_004229|NP_001335265|NP_001335264|NP_001271143|NP_001335252|NP_001335253|NP_001335256|NP_001335257|NP_001335254|NP_001335255|NP_001271145|NP_001271144|NP_001335250|NP_001335251|NP_001335258|NP_001335259|NP_001335249|NP_001335248	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1055710	5829	10013	111787	115330	hCG_1778014	JM21	PXN	HDAC6	-	CPBHM|HD6|PPP1R90	FRET	physical	Deakin NO (2014)	PUBMED:25070956	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P49023	F5GZ78	NP_001230685|NP_001372918|NP_001372919|NP_001372910|NP_001372911|NP_001372912|NP_001372913|NP_001372914|NP_001372915|NP_001372916|NP_001372917|NP_079433|NP_001074324|NP_002850	Q9UBN7	A0A024QZ26	NP_001308160|NP_006035|NP_001308159|NP_001308158|NP_001308155|NP_001308154|NP_001308157|NP_001308156	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1059486	598	581	107070	107057	RP5-857M17.3	-	BCL2L1	BAX	BCL-XL/S|BCL2L|BCLX|BCLXL|BCLXS|Bcl-X|PPP1R52|bcl-xL|bcl-xS	BCL2L4	FRET	physical	Wang X (2009)	PUBMED:19427863	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q07817	Q5TE63	NP_612815|NP_001309171|NP_001309169|NP_001309168|NP_001304850|NP_001182|NP_001304849|NP_001304848	Q07812	Q5ZPJ0|Q5ZPJ1|I6LPK7	NP_001278357|NP_620118|NP_620119|NP_620116|NP_001278359|NP_001278358|NP_004315|NP_001278360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1104608	5999	2770	111931	109032	RP11-430G6.1	-	RGS4	GNAI1	RGP4|SCZD9	Gi	FRET	physical	Huang PS (2012)	PUBMED:22310500	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P49798	A0A024R909	NP_001106851|NP_001106852|NP_001095915|NP_005604	P63096	-	NP_001243343|NP_002060	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1104609	822207	817170	7538	2522	AT3G26090	AT2G26300	RGS1	GP ALPHA 1	ATRGS1|REGULATOR OF G-PROTEIN SIGNALING 1	ARABIDOPSIS THALIANA G PROTEIN ALPHA SUBUNIT 1|ATGPA1|G PROTEIN ALPHA SUBUNIT|G PROTEIN ALPHA SUBUNIT 1|GPA1|T1D16.6|T1D16_6	FRET	physical	Huang PS (2012)	PUBMED:22310500	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8H1F2	-	NP_189238	P18064	-	NP_180198	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1104610	822207	2770	7538	109032	AT3G26090	-	RGS1	GNAI1	ATRGS1|REGULATOR OF G-PROTEIN SIGNALING 1	Gi	FRET	physical	Huang PS (2012)	PUBMED:22310500	3702	9606	Low Throughput	-	-	-	-	BIOGRID	Q8H1F2	-	NP_189238	P63096	-	NP_001243343|NP_002060	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Homo sapiens
+1106872	836281	818982	21525	4318	AT5G61600	AT2G43790	ERF104	MPK6	K11J9.13|K11J9_13|ethylene response factor 104	ATMAPK6|ATMPK6|F18O19.10|MAP KINASE 6|MAPK6	FRET	physical	Bethke G (2009)	PUBMED:19416906	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FKG1	-	NP_200968	Q39026	-	NP_181907	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1107192	836733	819069	21975	4405	AT5G66030	AT2G44610	ATGRIP	RAB6A	GRIP|K2A18.10|K2A18_10	ATRAB6A|ATRABH1B|F16B22.10|RAB6	FRET	physical	Osterrieder A (2009)	PUBMED:19490533	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8S2T0	-	NP_569025|NP_851277	O80501	-	NP_181989	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1107193	836733	844322	21975	29540	AT5G66030	AT1G79830	ATGRIP	GC5	GRIP|K2A18.10|K2A18_10	F19K16.21|F19K16_21|golgin candidate 5	FRET	physical	Osterrieder A (2009)	PUBMED:19490533	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8S2T0	-	NP_569025|NP_851277	Q0WVL7	F4HQB9	NP_178101|NP_001185442|NP_001185441|NP_001117622	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1107194	836733	839024	21975	24262	AT5G66030	AT1G24120	ATGRIP	ARL1	GRIP|K2A18.10|K2A18_10	ARG1-like 1|F3I6.4|F3I6_4	FRET	physical	Osterrieder A (2009)	PUBMED:19490533	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8S2T0	-	NP_569025|NP_851277	Q8VXV4	Q1EBT7	NP_173822	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1107195	836733	821377	21975	6710	AT5G66030	AT3G18480	ATGRIP	CASP	GRIP|K2A18.10|K2A18_10	AtCASP|CCAAT-displacement protein alternatively spliced product	FRET	physical	Osterrieder A (2009)	PUBMED:19490533	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8S2T0	-	NP_569025|NP_851277	Q9LS42	-	NP_566611	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1107196	819069	844322	4405	29540	AT2G44610	AT1G79830	RAB6A	GC5	ATRAB6A|ATRABH1B|F16B22.10|RAB6	F19K16.21|F19K16_21|golgin candidate 5	FRET	physical	Osterrieder A (2009)	PUBMED:19490533	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O80501	-	NP_181989	Q0WVL7	F4HQB9	NP_178101|NP_001185442|NP_001185441|NP_001117622	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1107197	830148	836733	15428	21975	AT4G39890	AT5G66030	RABH1c	ATGRIP	AtRABH1c|RAB GTPase homolog H1C|T5J17.60|T5J17_60	GRIP|K2A18.10|K2A18_10	FRET	physical	Osterrieder A (2009)	PUBMED:19490533	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SMR4	-	NP_195699	Q8S2T0	-	NP_569025|NP_851277	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1107198	830148	844322	15428	29540	AT4G39890	AT1G79830	RABH1c	GC5	AtRABH1c|RAB GTPase homolog H1C|T5J17.60|T5J17_60	F19K16.21|F19K16_21|golgin candidate 5	FRET	physical	Osterrieder A (2009)	PUBMED:19490533	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SMR4	-	NP_195699	Q0WVL7	F4HQB9	NP_178101|NP_001185442|NP_001185441|NP_001117622	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1107199	830148	843468	15428	28688	AT4G39890	AT1G71270	RABH1c	POK	AtRABH1c|RAB GTPase homolog H1C|T5J17.60|T5J17_60	ARABIDOPSIS THALIANA VPS52 HOMOLOG|ATVPS52|F3I17.8|F3I17_8|POKY POLLEN TUBE|T-DNA TRANSMISSION DEFECT 8|TTD8	FRET	physical	Osterrieder A (2009)	PUBMED:19490533	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SMR4	-	NP_195699	Q94KD3	-	NP_565015	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1107200	819069	843468	4405	28688	AT2G44610	AT1G71270	RAB6A	POK	ATRAB6A|ATRABH1B|F16B22.10|RAB6	ARABIDOPSIS THALIANA VPS52 HOMOLOG|ATVPS52|F3I17.8|F3I17_8|POKY POLLEN TUBE|T-DNA TRANSMISSION DEFECT 8|TTD8	FRET	physical	Osterrieder A (2009)	PUBMED:19490533	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O80501	-	NP_181989	Q94KD3	-	NP_565015	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1107426	815004	820384	405	5718	AT2G04620	AT3G12100	AT2G04620	AT3G12100	F7D11.2|F7D11_2	-	FRET	physical	Fujiwara T (2015)	PUBMED:25732056	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SI03	-	NP_178539	Q6ICY4	F4J8M5|Q0WSX7	NP_187817|NP_001030676	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1107799	830996	830996	16274	16274	AT5G11260	AT5G11260	HY5	HY5	BZIP TRANSCRIPTION FACTOR HY5|ELONGATED HYPOCOTYL 5|F2I11.150|F2I11_150|REVERSAL OF THE DET PHENOTYPE 5|TED 5	BZIP TRANSCRIPTION FACTOR HY5|ELONGATED HYPOCOTYL 5|F2I11.150|F2I11_150|REVERSAL OF THE DET PHENOTYPE 5|TED 5	FRET	physical	Li JF (2009)	PUBMED:19457242	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O24646	Q1H5E5	NP_568246	O24646	Q1H5E5	NP_568246	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108044	835548	826409	20792	11709	AT5G54590	AT4G08500	AT5G54590	MEKK1	MRB17.9|MRB17_9	ARAKIN|ATMEKK1|MAPK/ERK kinase kinase 1|MAPKKK8|T15F16.5|T15F16_5	FRET	physical	Yang T (2010)	PUBMED:20724845	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	F4K1S6|Q9FIU5	NP_568809|NP_851189	Q39008	-	NP_192590	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108045	841237	832539	26462	17814	AT1G48175	AT5G24670	emb2191	AT5G24670	embryo defective 2191	MXC17.5|MXC17_5	FRET	physical	Zhou W (2014)	PUBMED:25315605	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q6IDB6	NP_564523	-	F4KH86|F4KH85	NP_197855|NP_001190386	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108056	839252	839252	24487	24487	AT1G01760	AT1G01760	AT1G01760	AT1G01760	T1N6.17|T1N6_17	T1N6.17|T1N6_17	FRET	physical	Zhou W (2014)	PUBMED:25315605	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	F4HU58	NP_171681	-	F4HU58	NP_171681	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108233	817907	817907	3254	3254	AT2G33430	AT2G33430	DAL1	DAL1	DAL|DIFFERENTIATION AND GREENING-LIKE|F4P9.20|F4P9_20|differentiation and greening-like 1	DAL|DIFFERENTIATION AND GREENING-LIKE|F4P9.20|F4P9_20|differentiation and greening-like 1	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O22793	NP_180901	-	O22793	NP_180901	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108234	837685	837685	22925	22925	AT1G11430	AT1G11430	AT1G11430	AT1G11430	T23J18.10|T23J18_10	T23J18.10|T23J18_10	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9LPZ1	NP_172610	-	Q9LPZ1	NP_172610	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108235	820729	820729	6063	6063	AT3G15000	AT3G15000	AT3G15000	AT3G15000	-	-	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LKA5	Q5XEU8	NP_566496	Q9LKA5	Q5XEU8	NP_566496	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108236	827747	827747	13040	13040	AT4G20020	AT4G20020	AT4G20020	AT4G20020	F18F4.120|F18F4_120	F18F4.120|F18F4_120	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O49429|F4JU25	NP_193735|NP_974579	-	O49429|F4JU25	NP_193735|NP_974579	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108252	817907	820729	3254	6063	AT2G33430	AT3G15000	DAL1	AT3G15000	DAL|DIFFERENTIATION AND GREENING-LIKE|F4P9.20|F4P9_20|differentiation and greening-like 1	-	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O22793	NP_180901	Q9LKA5	Q5XEU8	NP_566496	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108253	817907	837685	3254	22925	AT2G33430	AT1G11430	DAL1	AT1G11430	DAL|DIFFERENTIATION AND GREENING-LIKE|F4P9.20|F4P9_20|differentiation and greening-like 1	T23J18.10|T23J18_10	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O22793	NP_180901	-	Q9LPZ1	NP_172610	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108254	827747	819864	13040	5199	AT4G20020	AT3G06790	AT4G20020	AT3G06790	F18F4.120|F18F4_120	-	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O49429|F4JU25	NP_193735|NP_974579	-	Q84JZ6|Q9M7Y5	NP_974243|NP_187335	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108255	827747	834507	13040	19757	AT4G20020	AT5G44780	AT4G20020	AT5G44780	F18F4.120|F18F4_120	K23L20.12|K23L20_12	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O49429|F4JU25	NP_193735|NP_974579	-	O48582	NP_199291	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108256	827747	818091	13040	3437	AT4G20020	AT2G35240	AT4G20020	AT2G35240	F18F4.120|F18F4_120	T4C15.9|T4C15_9	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O49429|F4JU25	NP_193735|NP_974579	-	O82169	NP_181067	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108257	819864	834507	5199	19757	AT3G06790	AT5G44780	AT3G06790	AT5G44780	-	K23L20.12|K23L20_12	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q84JZ6|Q9M7Y5	NP_974243|NP_187335	-	O48582	NP_199291	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108258	818091	843585	3437	28804	AT2G35240	AT1G72530	AT2G35240	AT1G72530	T4C15.9|T4C15_9	F28P22.28|F28P22_28	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O82169	NP_181067	-	F4IDD2|Q9CAH0	NP_177397|NP_001154468	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108259	837685	840152	22925	25386	AT1G11430	AT1G32580	AT1G11430	AT1G32580	T23J18.10|T23J18_10	T9G5.3|T9G5_3	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9LPZ1	NP_172610	-	Q9C7Y2	NP_174536	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108260	840152	820729	25386	6063	AT1G32580	AT3G15000	AT1G32580	AT3G15000	T9G5.3|T9G5_3	-	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9C7Y2	NP_174536	Q9LKA5	Q5XEU8	NP_566496	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108261	827747	820729	13040	6063	AT4G20020	AT3G15000	AT4G20020	AT3G15000	F18F4.120|F18F4_120	-	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O49429|F4JU25	NP_193735|NP_974579	Q9LKA5	Q5XEU8	NP_566496	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108262	840152	819864	25386	5199	AT1G32580	AT3G06790	AT1G32580	AT3G06790	T9G5.3|T9G5_3	-	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9C7Y2	NP_174536	-	Q84JZ6|Q9M7Y5	NP_974243|NP_187335	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108263	820729	819864	6063	5199	AT3G15000	AT3G06790	AT3G15000	AT3G06790	-	-	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LKA5	Q5XEU8	NP_566496	-	Q84JZ6|Q9M7Y5	NP_974243|NP_187335	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108264	834507	820729	19757	6063	AT5G44780	AT3G15000	AT5G44780	AT3G15000	K23L20.12|K23L20_12	-	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O48582	NP_199291	Q9LKA5	Q5XEU8	NP_566496	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108265	818091	840152	3437	25386	AT2G35240	AT1G32580	AT2G35240	AT1G32580	T4C15.9|T4C15_9	T9G5.3|T9G5_3	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O82169	NP_181067	-	Q9C7Y2	NP_174536	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108266	818091	820729	3437	6063	AT2G35240	AT3G15000	AT2G35240	AT3G15000	T4C15.9|T4C15_9	-	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O82169	NP_181067	Q9LKA5	Q5XEU8	NP_566496	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108267	843585	840152	28804	25386	AT1G72530	AT1G32580	AT1G72530	AT1G32580	F28P22.28|F28P22_28	T9G5.3|T9G5_3	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	F4IDD2|Q9CAH0	NP_177397|NP_001154468	-	Q9C7Y2	NP_174536	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108268	843585	820729	28804	6063	AT1G72530	AT3G15000	AT1G72530	AT3G15000	F28P22.28|F28P22_28	-	FRET	physical	Zehrmann A (2015)	PUBMED:25583991	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	F4IDD2|Q9CAH0	NP_177397|NP_001154468	Q9LKA5	Q5XEU8	NP_566496	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108270	828979	832137	14266	17413	AT4G28610	AT5G20150	PHR1	SPX1	AtPHR1|T5F17.60|T5F17_60|phosphate starvation response 1	ARABIDOPSIS THALIANA SPX DOMAIN GENE 1|ATSPX1|F5O24.40|F5O24_40|SPX domain gene 1	FRET	physical	Puga MI (2014)	PUBMED:25271326	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q94CL7	NP_194590	Q8LBH4	-	NP_197515	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108935	838573	838573	23812	23812	AT1G19850	AT1G19850	MP	MP	ARF5|AUXIN RESPONSE FACTOR 5|F6F9.10|F6F9_10|IAA24|MONOPTEROS|TRANSCRIPTION FACTOR IAA24|indole-3-acetic acid inducible 24	ARF5|AUXIN RESPONSE FACTOR 5|F6F9.10|F6F9_10|IAA24|MONOPTEROS|TRANSCRIPTION FACTOR IAA24|indole-3-acetic acid inducible 24	FRET	physical	Boer DR (2014)	PUBMED:24485461	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P93024	-	NP_173414	P93024	-	NP_173414	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108944	817956	817956	3303	3303	AT2G33860	AT2G33860	ETT	ETT	ARF3|AUXIN RESPONSE TRANSCRIPTION FACTOR 3|ETTIN|T1B8.30|T1B8_30	ARF3|AUXIN RESPONSE TRANSCRIPTION FACTOR 3|ETTIN|T1B8.30|T1B8_30	FRET	physical	Boer DR (2014)	PUBMED:24485461	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O23661	-	NP_180942	O23661	-	NP_180942	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1108947	102577641	102577641	2419162	2419162	-	-	STSN1	STSN1	SN1	SN1	FRET	physical	Nahirnak V (2012)	PUBMED:22080603	4113	4113	Low Throughput	-	-	-	-	BIOGRID	-	-	-	-	-	-	-	-	-	-	-	-	Solanum tuberosum	Solanum tuberosum
+1110764	853922	852284	34179	32700	YKR048C	YBL002W	NAP1	HTB2	histone chaperone NAP1|L000001232	histone H2B|L000000830	FRET	physical	D'Arcy S (2013)	PUBMED:23973327	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P25293	-	NP_012974	P02294	-	NP_009553	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1110765	853922	851811	34179	32277	YKR048C	YDR225W	NAP1	HTA1	histone chaperone NAP1|L000001232	H2A1|SPT11|histone H2A|L000000827	FRET	physical	D'Arcy S (2013)	PUBMED:23973327	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P25293	-	NP_012974	P04911	-	NP_010511	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1110771	838057	836120	23297	21364	AT1G14920	AT5G59980	GAI	AT5G59980	F10B6.34|F10B6_34|GAI PROTEIN|GIBBERELLIC ACID INSENSITIVE|RESTORATION ON GROWTH ON AMMONIA 2|RGA2	MMN10.23|MMN10_23	FRET	physical	Fukazawa J (2014)	PUBMED:25035403	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LQT8	-	NP_172945	-	F4JXF0|F4JXF1	NP_200806|NP_001154789	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1111920	830381	838894	15660	24133	AT5G04990	AT1G22882	SUN1	AT1G22882	ARABIDOPSIS SAD1/UNC-84 DOMAIN PROTEIN 1|ATSUN1|MUG13.15|MUG13_15|SAD1/UNC-84 domain protein 1	-	FRET	physical	Graumann K (2014)	PUBMED:25217773	3702	3702	Low Throughput	-	-	Table 1	-	BIOGRID	-	Q9FF75	NP_196118	-	F4I316	NP_683323	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1111921	830381	843477	15660	28697	AT5G04990	AT1G71360	SUN1	AT1G71360	ARABIDOPSIS SAD1/UNC-84 DOMAIN PROTEIN 1|ATSUN1|MUG13.15|MUG13_15|SAD1/UNC-84 domain protein 1	F26A9.26|F26A9_26	FRET	physical	Graumann K (2014)	PUBMED:25217773	3702	3702	Low Throughput	-	-	Table 1	-	BIOGRID	-	Q9FF75	NP_196118	-	F4I8I0	NP_177292	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1111922	820242	838894	5576	24133	AT3G10730	AT1G22882	SUN2	AT1G22882	ARABIDOPSIS SAD1/UNC-84 DOMAIN PROTEIN 2|ATSUN2|SAD1/UNC-84 domain protein 2	-	FRET	physical	Graumann K (2014)	PUBMED:25217773	3702	3702	Low Throughput	-	-	Table 1	-	BIOGRID	-	Q9SG79	NP_566380	-	F4I316	NP_683323	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1111923	820242	843477	5576	28697	AT3G10730	AT1G71360	SUN2	AT1G71360	ARABIDOPSIS SAD1/UNC-84 DOMAIN PROTEIN 2|ATSUN2|SAD1/UNC-84 domain protein 2	F26A9.26|F26A9_26	FRET	physical	Graumann K (2014)	PUBMED:25217773	3702	3702	Low Throughput	-	-	Table 1	-	BIOGRID	-	Q9SG79	NP_566380	-	F4I8I0	NP_177292	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1111924	838894	843477	24133	28697	AT1G22882	AT1G71360	AT1G22882	AT1G71360	-	F26A9.26|F26A9_26	FRET	physical	Graumann K (2014)	PUBMED:25217773	3702	3702	Low Throughput	-	-	Table 1	-	BIOGRID	-	F4I316	NP_683323	-	F4I8I0	NP_177292	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1111950	816305	816305	1662	1662	AT2G17950	AT2G17950	WUS	WUS	PGA6|T27K22.18|T27K22_18|WUS1|WUSCHEL|WUSCHEL 1	PGA6|T27K22.18|T27K22_18|WUS1|WUSCHEL|WUSCHEL 1	FRET	physical	Daum G (2014)	PUBMED:25246576	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SB92	Q1PF51	NP_565429	Q9SB92	Q1PF51	NP_565429	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1111957	821625	840158	6957	25392	AT3G20770	AT1G32640	EIN3	MYC2	AtEIN3|ETHYLENE-INSENSITIVE3	ATMYC2|F6N18.4|F6N18_4|JAI1|JASMONATE INSENSITIVE 1|JIN1|RD22BP1|ZBF1	FRET	physical	Song S (2014)	PUBMED:24399301	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O24606	-	NP_188713	Q39204	-	NP_174541	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1111958	821625	834719	6957	19967	AT3G20770	AT5G46760	EIN3	AT5G46760	AtEIN3|ETHYLENE-INSENSITIVE3	MZA15.18|MZA15_18	FRET	physical	Song S (2014)	PUBMED:24399301	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O24606	-	NP_188713	Q9FIP9	-	NP_199488	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1111959	821625	827511	6957	12804	AT3G20770	AT4G17880	EIN3	AT4G17880	AtEIN3|ETHYLENE-INSENSITIVE3	T6K21.60|T6K21_60	FRET	physical	Song S (2014)	PUBMED:24399301	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O24606	-	NP_188713	O49687	-	NP_193522	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1111960	817247	840158	2599	25392	AT2G27050	AT1G32640	EIL1	MYC2	AtEIL1|ETHYLENE-INSENSITIVE3-like 1|T20P8.10|T20P8_10	ATMYC2|F6N18.4|F6N18_4|JAI1|JASMONATE INSENSITIVE 1|JIN1|RD22BP1|ZBF1	FRET	physical	Song S (2014)	PUBMED:24399301	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SLH0	-	NP_180273	Q39204	-	NP_174541	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1111961	817247	834719	2599	19967	AT2G27050	AT5G46760	EIL1	AT5G46760	AtEIL1|ETHYLENE-INSENSITIVE3-like 1|T20P8.10|T20P8_10	MZA15.18|MZA15_18	FRET	physical	Song S (2014)	PUBMED:24399301	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SLH0	-	NP_180273	Q9FIP9	-	NP_199488	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1111962	817247	827511	2599	12804	AT2G27050	AT4G17880	EIL1	AT4G17880	AtEIL1|ETHYLENE-INSENSITIVE3-like 1|T20P8.10|T20P8_10	T6K21.60|T6K21_60	FRET	physical	Song S (2014)	PUBMED:24399301	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SLH0	-	NP_180273	O49687	-	NP_193522	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1111965	820438	841468	5772	26693	AT3G12580	AT1G50460	HSP70	HKL1	ARABIDOPSIS HEAT SHOCK PROTEIN 70|ATHSP70|heat shock protein 70	ATHKL1|F11F12.18|F11F12_18|hexokinase-like 1	FRET	physical	Koizumi S (2014)	PUBMED:24942879	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LHA8	-	NP_187864	Q9LPS1	-	NP_175463	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1111966	831020	841468	16298	26693	AT5G02500	AT1G50460	HSC70-1	HKL1	ARABIDOPSIS THALIANA HEAT SHOCK COGNATE PROTEIN 70-1|AT-HSC70-1|HEAT SHOCK COGNATE PROTEIN 70|HEAT SHOCK PROTEIN 70-1|HSC70|HSP70-1|T22P11.90|T22P11_90|heat shock cognate protein 70-1	ATHKL1|F11F12.18|F11F12_18|hexokinase-like 1	FRET	physical	Koizumi S (2014)	PUBMED:24942879	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P22953	F4KCE5	NP_195870|NP_001119156	Q9LPS1	-	NP_175463	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1112023	831171	825505	16449	10819	AT5G13300	AT3G63300	SFC	FKD1	AGD3|ARF-GAP DOMAIN3|ASCULAR NETWORK DEFECTIVE 3|SCARFACE|T31B5.120|T31B5_120|VAN3	FORKED 1|MAA21.9	FRET	physical	Naramoto S (2009)	PUBMED:19363154	3702	3702	Low Throughput	-	-	BiFC	-	BIOGRID	Q5W7F2	-	NP_196834	-	F4J0Y8|Q8W4K5	NP_191889|NP_974485	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1112046	824503	820915	9820	6249	AT3G53350	AT3G16630	RIP4	KINESIN-13A	ROP interactive partner 4	ATKINESIN-13A	FRET	physical	Mucha E (2010)	PUBMED:20832900	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8VYU8	-	NP_974423|NP_190903|NP_974424	Q940B8	-	NP_188285|NP_850598	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1112118	835379	820020	20624	5355	AT5G53000	AT3G08730	TAP46	PK1	2A phosphatase associated protein of 46 kD|MNB8.6|MNB8_6	ARABIDOPSIS THALIANA PROTEIN-SERINE KINASE 1|ARABIDOPSIS THALIANA PROTEIN-SERINE KINASE 6|ATPK1|ATPK6|ATS6K1|P70 RIBOSOMAL S6 KINASE|PK6|PROTEIN-SERINE KINASE|ROTEIN-SERINE KINASE 6|S6K1|protein-serine kinase 1	FRET	physical	Ahn CS (2015)	PUBMED:25399018	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8LDQ4	-	NP_568783	P42818	-	NP_187485	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1112119	835379	820019	20624	5354	AT5G53000	AT3G08720	TAP46	S6K2	2A phosphatase associated protein of 46 kD|MNB8.6|MNB8_6	ARABIDOPSIS THALIANA PROTEIN KINASE 2|ARABIDOPSIS THALIANA SERINE/THREONINE PROTEIN KINASE 2|ATPK19|ATPK2|ATS6K2|Arabidopsis thaliana protein kinase 19|serine/threonine protein kinase 2	FRET	physical	Ahn CS (2015)	PUBMED:25399018	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8LDQ4	-	NP_568783	Q39030	Q0V851	NP_187484|NP_850543	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1112242	843811	837654	29030	22894	AT1G74720	AT1G11130	QKY	SUB	F25A4.35|F25A4_35|QUIRKY	AT1G11140|SCM|SCRAMBLED|SRF9|STRUBBELIG|STRUBBELIG-RECEPTOR FAMILY 9|T19D16.8	FRET	physical	Vaddepalli P (2014)	PUBMED:25256344	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	B8XCH5	NP_177610	Q8RWZ1	C0LGE3	NP_172580	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1112841	12933092	12933505	4262086	4262499	Y75_p2558	Y75_p3714	ffh	ftsY	-	-	FRET	physical	Shen K (2010)	PUBMED:20385832	316407	316407	Low Throughput	-	-	-	-	BIOGRID	P0AGD7	-	YP_490833	P10121	-	YP_491970	-	-	-	-	-	-	Escherichia coli (K12/W3110)	Escherichia coli (K12/W3110)
+1112937	821259	838503	6592	23742	AT3G01090	AT1G19200	KIN10	AT1G19200	AKIN10|SNF1 kinase homolog 10|SNF1-RELATED PROTEIN KINASE|SNF1-RELATED PROTEIN KINASE 1.1|SNRK1.1|T4P13.22|T4P13_22	T29M8.7|T29M8_7	FRET	physical	Nietzsche M (2014)	PUBMED:24600465	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q38997	-	NP_850488|NP_566130|NP_001118546	-	F4IE21	NP_173354	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1112938	822566	838503	7895	23742	AT3G29160	AT1G19200	KIN11	AT1G19200	AKIN11|ATKIN11|SNF1 kinase homolog 11|SNF1-RELATED PROTEIN KINASE|SNF1-RELATED PROTEIN KINASE 1.2|SNRK1.2	T29M8.7|T29M8_7	FRET	physical	Nietzsche M (2014)	PUBMED:24600465	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P92958	-	NP_566843|NP_974374|NP_974375	-	F4IE21	NP_173354	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1112940	840953	840953	26178	26178	AT1G43670	AT1G43670	AT1G43670	AT1G43670	F2J6.2|F2J6_2	F2J6.2|F2J6_2	FRET	physical	Nietzsche M (2014)	PUBMED:24600465	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9MA79	-	NP_175032	Q9MA79	-	NP_175032	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1112941	829662	819389	14944	4724	AT4G35100	AT2G47770	PIP3	TSPO	PIP2;7|PIP3A|PLASMA MEMBRANE INTRINSIC PROTEIN 2;7|PLASMA MEMBRANE INTRINSIC PROTEIN 3|PLASMA MEMBRANE INTRINSIC PROTEIN 3A|SIMIP|T12J5.9	ATTSPO|F17A22.16|TSPO(outer membrane tryptophan-rich sensory protein)-related	FRET	physical	Hachez C (2014)	PUBMED:25538184	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P93004	C0SVL5	NP_195236|NP_001190920	O82245	-	NP_566110	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1112959	827550	828319	12843	13608	AT4G18240	AT4G22240	SS4	AT4G22240	ARABIDOPSIS THALIANA STARCH SYNTHASE 4|ATSS4|SSIV|STARCH SYNTHASE 4|T9A21.90|T9A21_90	T10I14.70|T10I14_70	FRET	physical	Gamez-Arjona FM (2014)	PUBMED:25088399	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q0WVX5	A0A068FPX2	NP_193558	O49629	-	NP_193955	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1112960	827550	825714	12843	11027	AT4G18240	AT4G04020	SS4	FIB	ARABIDOPSIS THALIANA STARCH SYNTHASE 4|ATSS4|SSIV|STARCH SYNTHASE 4|T9A21.90|T9A21_90	T24H24.16|T24H24_16|fibrillin	FRET	physical	Gamez-Arjona FM (2014)	PUBMED:25088399	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q0WVX5	A0A068FPX2	NP_193558	O81439	-	NP_192311	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1112962	830326	836617	15605	21859	AT5G04470	AT5G64930	SIM	CPR5	SIAMESE|T19N18.8	CONSTITUTIVE EXPRESSION OF PR GENES 5|HYPERSENESCENCE 1|HYS1|MXK3.16|MXK3_16	FRET	physical	Wang S (2014)	PUBMED:25455564	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LZ78	-	NP_196067	Q9LV85	B4F7R3	NP_569003	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1112973	829589	829597	14871	14879	AT4G34390	AT4G34460	XLG2	AGB1	F10M10.160|F10M10_160|extra-large GTP-binding protein 2	ARABIDOPSIS G-PROTEIN BETA SUBUNIT|ATAGB1|ELK4|ERECTA-LIKE 4|GTP binding protein beta 1|T4L20.40|T4L20_40	FRET	physical	Maruta N (2015)	PUBMED:25588736	3702	3702	Low Throughput	-	-	-	-	BIOGRID	C6KIE6	-	NP_195165	P49177	F4JLD1|A8MR96|F4JLD2	NP_974683|NP_001078491|NP_849494|NP_195172	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1112974	829589	825517	14871	10831	AT4G34390	AT3G63420	XLG2	GG1	F10M10.160|F10M10_160|extra-large GTP-binding protein 2	AGG1|ATAGG1|Ggamma-subunit 1|HETEROTRIMERIC G PROTEIN GAMMA-SUBUNIT	FRET	physical	Maruta N (2015)	PUBMED:25588736	3702	3702	Low Throughput	-	-	-	-	BIOGRID	C6KIE6	-	NP_195165	Q9FDX9	-	NP_567147|NP_850741	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1112975	829589	825532	14871	10846	AT4G34390	AT3G22942	XLG2	AGG2	F10M10.160|F10M10_160|extra-large GTP-binding protein 2	G-protein gamma subunit 2	FRET	physical	Maruta N (2015)	PUBMED:25588736	3702	3702	Low Throughput	-	-	-	-	BIOGRID	C6KIE6	-	NP_195165	Q93V47	-	NP_850746	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1112976	829589	832186	14871	17461	AT4G34390	AT5G20635	XLG2	AT5G20635	F10M10.160|F10M10_160|extra-large GTP-binding protein 2	-	FRET	physical	Maruta N (2015)	PUBMED:25588736	3702	3702	Low Throughput	-	-	-	-	BIOGRID	C6KIE6	-	NP_195165	Q6AWT8	-	NP_680175	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1112991	820335	820335	5669	5669	AT3G11630	AT3G11630	AT3G11630	AT3G11630	T19F11.3	T19F11.3	FRET	physical	Seidel T (2010)	PUBMED:20615439	3702	3702	Low Throughput	-	-	likely form a decamer	-	BIOGRID	Q96291	-	NP_187769	Q96291	-	NP_187769	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1113086	831889	842951	17165	28172	AT5G03280	AT1G66340	EIN2	ETR1	ATEIN2|CKR1|CYTOKININ RESISTANT 1|ENHANCED RESPONSE TO ABA3|ERA3|ETHYLENE INSENSITIVE 2|F12E4.10|F12E4_10|ORE2|ORE3|ORESARA 2|ORESARA 3|PIR2	AtETR1|EIN1|ETHYLENE INSENSITIVE 1|ETHYLENE RESPONSE|ETHYLENE RESPONSE 1|ETR|HISTIDINE KINASE ETR1|T27F4.9|T27F4_9	FRET	physical	Bisson MM (2010)	PUBMED:20591837	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9S814	-	NP_195948	P49333	-	NP_176808	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1113087	831889	818693	17165	4030	AT5G03280	AT2G40940	EIN2	ERS1	ATEIN2|CKR1|CYTOKININ RESISTANT 1|ENHANCED RESPONSE TO ABA3|ERA3|ETHYLENE INSENSITIVE 2|F12E4.10|F12E4_10|ORE2|ORE3|ORESARA 2|ORESARA 3|PIR2	ERS|ETHYLENE RESPONSE SENSOR|T20B5.14|T20B5_14|ethylene response sensor 1	FRET	physical	Bisson MM (2010)	PUBMED:20591837	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9S814	-	NP_195948	Q38846	-	NP_181626	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1113088	831889	821891	17165	7223	AT5G03280	AT3G23150	EIN2	ETR2	ATEIN2|CKR1|CYTOKININ RESISTANT 1|ENHANCED RESPONSE TO ABA3|ERA3|ETHYLENE INSENSITIVE 2|F12E4.10|F12E4_10|ORE2|ORE3|ORESARA 2|ORESARA 3|PIR2	ethylene response 2	FRET	physical	Bisson MM (2010)	PUBMED:20591837	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9S814	-	NP_195948	Q0WPQ2	-	NP_188956	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1113089	831889	839549	17165	24784	AT5G03280	AT1G04310	EIN2	ERS2	ATEIN2|CKR1|CYTOKININ RESISTANT 1|ENHANCED RESPONSE TO ABA3|ERA3|ETHYLENE INSENSITIVE 2|F12E4.10|F12E4_10|ORE2|ORE3|ORESARA 2|ORESARA 3|PIR2	ERS2 PROTEIN|F19P19.25|F19P19_25|ethylene response sensor 2	FRET	physical	Bisson MM (2010)	PUBMED:20591837	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9S814	-	NP_195948	P93825	-	NP_171927	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1113090	831889	819614	17165	4949	AT5G03280	AT3G04580	EIN2	EIN4	ATEIN2|CKR1|CYTOKININ RESISTANT 1|ENHANCED RESPONSE TO ABA3|ERA3|ETHYLENE INSENSITIVE 2|F12E4.10|F12E4_10|ORE2|ORE3|ORESARA 2|ORESARA 3|PIR2	ETHYLENE INSENSITIVE 4|F7O18.5|F7O18_5	FRET	physical	Bisson MM (2010)	PUBMED:20591837	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9S814	-	NP_195948	Q9ZTP3	-	NP_974218|NP_187108	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1114577	822196	843216	7527	28437	AT3G25990	AT1G68840	AT3G25990	RAV2	-	EDF2|ETHYLENE RESPONSE DNA BINDING FACTOR 2|RAP2.8|RELATED TO AP2 8|T6L1.3|T6L1_3|TEM2|TEMPRANILLO 2|related to ABI3/VP1 2	FRET	physical	Wang XH (2014)	PUBMED:25465615	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LU92	-	NP_189228	P82280	-	NP_001185352|NP_564947	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1114621	817857	817857	3204	3204	AT2G32950	AT2G32950	COP1	COP1	ARABIDOPSIS THALIANA CONSTITUTIVE PHOTOMORPHOGENIC 1|ATCOP1|CONSTITUTIVE PHOTOMORPHOGENIC 1|DEETIOLATED MUTANT 340|DET340|EMB168|EMBRYO DEFECTIVE 168|FUS1|FUSCA 1|T21L14.11|T21L14_11	ARABIDOPSIS THALIANA CONSTITUTIVE PHOTOMORPHOGENIC 1|ATCOP1|CONSTITUTIVE PHOTOMORPHOGENIC 1|DEETIOLATED MUTANT 340|DET340|EMB168|EMBRYO DEFECTIVE 168|FUS1|FUSCA 1|T21L14.11|T21L14_11	FRET	physical	Xie Q (2010)	PUBMED:21153370	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P43254	-	NP_180854	P43254	-	NP_180854	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1114622	1050	1050	107479	107479	-	-	CEBPA	CEBPA	C/EBP-alpha|CEBP	C/EBP-alpha|CEBP	FRET	physical	Xie Q (2010)	PUBMED:21153370	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	P49715	-	NP_001272758|NP_001274353|NP_001274364|NP_004355	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1114639	824890	816787	10206	2140	AT3G57230	AT2G22540	AGL16	SVP	AGAMOUS-like 16	AGAMOUS-like 22|AGL22|AT2G22550|F14M13.6|F14M13_6|SHORT VEGETATIVE PHASE	FRET	physical	Hu JY (2014)	PUBMED:24876250	3702	3702	Low Throughput	-	-	BiFC	-	BIOGRID	A2RVQ5	Q9M2M4	NP_191282|NP_001078305	Q9FVC1	A7XFU1	NP_179840|NP_001154528	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1114640	824890	830878	10206	16156	AT3G57230	AT5G10140	AGL16	FLC	AGAMOUS-like 16	AGAMOUS-like 25|AGL25|FLF|FLOWERING LOCUS C|FLOWERING LOCUS F|MADS BOX PROTEIN FLOWERING LOCUS F|T31P16.130|T31P16_130	FRET	physical	Hu JY (2014)	PUBMED:24876250	3702	3702	Low Throughput	-	-	BiFC	-	BIOGRID	A2RVQ5	Q9M2M4	NP_191282|NP_001078305	Q9S7Q7	Q58T15|A5JM49|Q58T14|Q5Q9J1	NP_001190272|NP_001154703|NP_001078563|NP_196576	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1114645	819185	830273	4521	15553	AT2G45770	AT5G03940	CPFTSY	CPSRP54	ALPHA SUBUNIT CPFTSY|CHLOROPLAST SRP RECEPTOR HOMOLOG|F4I18.25|FERRIC CHELATE REDUCTASE DEFECTIVE 4|FRD4	54 CHLOROPLAST PROTEIN|54CP|F8F6.150|F8F6_150|FFC|FIFTY-FOUR CHLOROPLAST HOMOLOGUE|SIGNAL RECOGNITION PARTICLE 54 KDA SUBUNIT|SIGNAL RECOGNITION PARTICLE 54 KDA SUBUNIT CHLOROPLAST PROTEIN|SRP54CP|chloroplast signal recognition particle 54 kDa subunit	FRET	physical	Nguyen TX (2011)	PUBMED:21780778	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O80842	-	NP_566056|NP_001189754	P37107	-	NP_196014	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1114691	829142	831234	14429	16512	AT4G30190	AT5G02760	HA2	AT5G02760	AHA2|F9N11.40|F9N11_40|H(+)-ATPase 2|P-TYPE H(+)-ATPASE ISOFORM 2|PLASMA MEMBRANE PROTON ATPASE 2|PMA2	F9G14.70|F9G14_70	FRET	physical	Spartz AK (2014)	PUBMED:24858935	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P19456	F4JPJ7	NP_194748|NP_001190870	Q501F9	-	NP_195896	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115048	826609	816538	11908	1892	AT4G10180	AT2G20180	DET1	PIL5	ATDET1|DE-ETIOLATED 1|FUS2|FUSCA 2|T9A4.17	PHY-INTERACTING FACTOR 1|PIF1|T2G17.2|T2G17_2|phytochrome interacting factor 3-like 5	FRET	physical	Dong J (2014)	PUBMED:25248553	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P48732	-	NP_192756	Q8GZM7	-	NP_179608|NP_001189559|NP_849996	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115049	826609	837479	11908	22720	AT4G10180	AT1G09530	DET1	PIF3	ATDET1|DE-ETIOLATED 1|FUS2|FUSCA 2|T9A4.17	F14J9.19|F14J9_19|PAP3|PHOTOCURRENT 1|PHYTOCHROME INTERACTING FACTOR 3|PHYTOCHROME-ASSOCIATED PROTEIN 3|POC1|purple acid phosphatase 3	FRET	physical	Dong J (2014)	PUBMED:25248553	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P48732	-	NP_192756	O80536	-	NP_172424|NP_849626	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115050	826609	818903	11908	4240	AT4G10180	AT2G43010	DET1	PIF4	ATDET1|DE-ETIOLATED 1|FUS2|FUSCA 2|T9A4.17	MFL8.13|MFL8_13|SRL2|phytochrome interacting factor 4	FRET	physical	Dong J (2014)	PUBMED:25248553	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P48732	-	NP_192756	Q8W2F3	B9DFT8|F4IQ51	NP_565991|NP_850381	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115051	826609	825075	11908	10390	AT4G10180	AT3G59060	DET1	PIL6	ATDET1|DE-ETIOLATED 1|FUS2|FUSCA 2|T9A4.17	PHYTOCHROME-INTERACTING FACTOR 5|PIF5|phytochrome interacting factor 3-like 6	FRET	physical	Dong J (2014)	PUBMED:25248553	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P48732	-	NP_192756	Q84LH8	B9DH29	NP_001030890|NP_001030889|NP_851021|NP_191465	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115261	837381	841883	22622	27108	AT1G08590	AT1G54410	AT1G08590	AT1G54410	F22O13.7|F22O13_7	-	FRET	physical	Jung CG (2015)	PUBMED:25602612	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FRS6	-	NP_172335	-	Q9SLJ2	NP_175843	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115262	837381	824654	22622	9970	AT1G08590	AT3G54890	AT1G08590	LHCA1	F22O13.7|F22O13_7	LHCI-730|photosystem I light harvesting complex gene 1	FRET	physical	Jung CG (2015)	PUBMED:25602612	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FRS6	-	NP_172335	Q01667	F4JE43|A8MS75|F4JE46	NP_191049|NP_001078288|NP_850706|NP_850705	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115334	830765	831241	16043	16519	AT5G08640	AT5G13930	FLS1	TT4	ATFLS1|FLAVONOL SYNTHASE|FLS|T2K12.5|flavonol synthase 1	ATCHS|CHALCONE SYNTHASE|CHALCONE/STILBENE SYNTHASE|CHS|MAC12.28|MAC12_28|NARINGENIN-CHALCONE SYNTHASE|TRANSPARENT TESTA 4	FRET	physical	Crosby KC (2011)	PUBMED:21669202	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q96330	B1GV57	NP_196481|NP_001190266	P13114	Q460R0	NP_196897	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115335	834291	831241	19541	16519	AT5G42800	AT5G13930	DFR	TT4	DIHYDROFLAVONOL 4-REDUCTASE|DIHYDROKAEMPFEROL 4-REDUCTASE|M318|MJB21.18|MJB21_18|TT3	ATCHS|CHALCONE SYNTHASE|CHALCONE/STILBENE SYNTHASE|CHS|MAC12.28|MAC12_28|NARINGENIN-CHALCONE SYNTHASE|TRANSPARENT TESTA 4	FRET	physical	Crosby KC (2011)	PUBMED:21669202	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P51102	B1GV15	NP_199094	P13114	Q460R0	NP_196897	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115336	834291	830765	19541	16043	AT5G42800	AT5G08640	DFR	FLS1	DIHYDROFLAVONOL 4-REDUCTASE|DIHYDROKAEMPFEROL 4-REDUCTASE|M318|MJB21.18|MJB21_18|TT3	ATFLS1|FLAVONOL SYNTHASE|FLS|T2K12.5|flavonol synthase 1	FRET	physical	Crosby KC (2011)	PUBMED:21669202	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P51102	B1GV15	NP_199094	Q96330	B1GV57	NP_196481|NP_001190266	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115340	824503	836408	9820	21651	AT3G53350	AT5G62880	RIP4	RAC10	ROP interactive partner 4	ARABIDOPSIS THALIANA RAC-LIKE 10|ARAC10|ATRAC10|ATROP11|MQB2.180|MQB2_180|RAC-like 10|RHO-RELATED PROTEIN FROM PLANTS 11	FRET	physical	Oda Y (2012)	PUBMED:22984069	3702	3702	Low Throughput	-	-	Figure S6	-	BIOGRID	Q8VYU8	-	NP_974423|NP_190903|NP_974424	O82481	Q67XC6	NP_201093	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115481	827659	827351	12952	12644	AT4G00355	AT4G16520	AT4G00355	ATG8F	-	DL4285C|FCAALL.383|autophagy 8f	FRET	physical	Michaeli S (2014)	PUBMED:25281689	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q27GJ8|Q8VY98	NP_849274|NP_567174|NP_001031565|NP_849272	Q8VYK7	-	NP_567504|NP_849395	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115485	821742	824036	7074	9354	AT3G21870	AT3G48750	CYCP2;1	CDC2	cyclin p2;1	CDC2A|CDC2AAT|CDK2|CDKA1|CDKA;1|CYCLIN-DEPENDENT KINASE A;1|P34CDC2|cell division control 2	FRET	physical	Peng L (2014)	PUBMED:24951878	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LJ45	-	NP_188825	P24100	-	NP_566911	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115486	821742	843987	7074	29206	AT3G21870	AT1G76540	CYCP2;1	CDKB2;1	cyclin p2;1	CYCLIN-DEPENDENT KINASE B2;1|F14G6.14|F14G6_14	FRET	physical	Peng L (2014)	PUBMED:24951878	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LJ45	-	NP_188825	Q8LF80	-	NP_177780	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115487	821742	838687	7074	23926	AT3G21870	AT1G20930	CYCP2;1	CDKB2;2	cyclin p2;1	CYCLIN-DEPENDENT KINASE B2;2|F9H16.8|F9H16_8	FRET	physical	Peng L (2014)	PUBMED:24951878	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LJ45	-	NP_188825	Q8LG64	-	NP_173517	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115596	100778851	100788725	1307641	1317500	-	-	LOC100778851	PAD4	EDS1|EDS1-1	-	FRET	physical	Wang J (2014)	PUBMED:24872380	3847	3847	Low Throughput	-	-	-	-	BIOGRID	-	D6BLY3	NP_001242277	-	D2DF32	NP_001242860	-	-	-	-	-	-	Glycine max	Glycine max
+1115597	100775870	100788725	1304667	1317500	-	-	EDS1-2	PAD4	-	-	FRET	physical	Wang J (2014)	PUBMED:24872380	3847	3847	Low Throughput	-	-	-	-	BIOGRID	-	D6C4Z8|K7KVV2	NP_001276272	-	D2DF32	NP_001242860	-	-	-	-	-	-	Glycine max	Glycine max
+1115598	823964	824408	9283	9726	AT3G48090	AT3G52430	EDS1	PAD4	ATEDS1|EDS1 PROTEIN|enhanced disease susceptibility 1	ARABIDOPSIS PHYTOALEXIN DEFICIENT 4|ATPAD4|PHYTOALEXIN DEFICIENT 4	FRET	physical	Wang J (2014)	PUBMED:24872380	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	B9DFM5|Q9SU72	NP_190392|NP_001030829	Q9S745	-	NP_190811	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115604	827323	818199	12617	3543	AT4G16280	AT2G36270	FCA	ABI5	BETA|DELTA AND GAMMA|DL4180C|FCAALL.331|FLOWERING TIME CONTROL PROTEIN FCA ALPHA	ABA INSENSITIVE 5|F2H17.12|F2H17_12|GIA1|GROWTH-INSENSITIVITY TO ABA 1	FRET	physical	Lee S (2015)	PUBMED:25266977	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O04425	F4JLR7	NP_849542|NP_680713|NP_193363|NP_849543	Q9SJN0	-	NP_565840	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115768	829597	836554	14879	21796	AT4G34460	AT5G64330	AGB1	NPH3	ARABIDOPSIS G-PROTEIN BETA SUBUNIT|ATAGB1|ELK4|ERECTA-LIKE 4|GTP binding protein beta 1|T4L20.40|T4L20_40	JK218|MSJ1.17|MSJ1_17|NON-PHOTOTROPIC HYPOCOTYL 3|ROOT PHOTOTROPISM 3|RPT3	FRET	physical	Kansup J (2014)	PUBMED:24486545	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P49177	F4JLD1|A8MR96|F4JLD2	NP_974683|NP_001078491|NP_849494|NP_195172	Q9FMF5	-	NP_568989|NP_001119489	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115822	822415	814686	7745	89	AT3G27920	AT2G01570	MYB0	RGA1	ATGL1|ATMYB0|GL1|GLABRA 1|TRICHOME DIFFERENTIATION PROTEIN GL1|myb domain protein 0	F2I9.19|F2I9_19|REPRESSOR OF GA|REPRESSOR OF GA1-3 1|RGA	FRET	physical	Qi T (2014)	PUBMED:24659329	3702	3702	Low Throughput	-	-	bimolecular fluorescence complementation (BiFC) assay	-	BIOGRID	P27900	I6P6H3	NP_189430	Q9SLH3	-	NP_178266	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115823	842669	814686	27890	89	AT1G63650	AT2G01570	EGL3	RGA1	ATMYC-2|EGL1|ENHANCER OF GLABRA 3|F24D7.16|F24D7_16	F2I9.19|F2I9_19|REPRESSOR OF GA|REPRESSOR OF GA1-3 1|RGA	FRET	physical	Qi T (2014)	PUBMED:24659329	3702	3702	Low Throughput	-	-	bimolecular fluorescence complementation (BiFC) assay	-	BIOGRID	Q9CAD0	C0SV14	NP_176552|NP_001185302|NP_974080	Q9SLH3	-	NP_178266	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115824	822415	838057	7745	23297	AT3G27920	AT1G14920	MYB0	GAI	ATGL1|ATMYB0|GL1|GLABRA 1|TRICHOME DIFFERENTIATION PROTEIN GL1|myb domain protein 0	F10B6.34|F10B6_34|GAI PROTEIN|GIBBERELLIC ACID INSENSITIVE|RESTORATION ON GROWTH ON AMMONIA 2|RGA2	FRET	physical	Qi T (2014)	PUBMED:24659329	3702	3702	Low Throughput	-	-	bimolecular fluorescence complementation (BiFC) assay	-	BIOGRID	P27900	I6P6H3	NP_189430	Q9LQT8	-	NP_172945	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115825	842669	838057	27890	23297	AT1G63650	AT1G14920	EGL3	GAI	ATMYC-2|EGL1|ENHANCER OF GLABRA 3|F24D7.16|F24D7_16	F10B6.34|F10B6_34|GAI PROTEIN|GIBBERELLIC ACID INSENSITIVE|RESTORATION ON GROWTH ON AMMONIA 2|RGA2	FRET	physical	Qi T (2014)	PUBMED:24659329	3702	3702	Low Throughput	-	-	bimolecular fluorescence complementation (BiFC) assay	-	BIOGRID	Q9CAD0	C0SV14	NP_176552|NP_001185302|NP_974080	Q9LQT8	-	NP_172945	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115931	837483	819242	22724	4577	AT1G09570	AT2G46340	PHYA	SPA1	ELONGATED HYPOCOTYL 8|F14J9.23|F14J9_23|FAR RED ELONGATED 1|FAR RED ELONGATED HYPOCOTYL 2|FHY2|FRE1|HY8|phytochrome A	AT2G46350|F11C10.3|SUPPRESSOR OF PHYA-105 1	FRET	physical	Sheerin DJ (2015)	PUBMED:25627066	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P14712	-	NP_172428|NP_001117256	Q9SYX2	-	NP_182157	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115936	829202	824121	14489	9439	AT4G30790	AT3G49590	AT4G30790	AT3G49590	T10C21.140|T10C21_140	-	FRET	physical	Li F (2014)	PUBMED:24563201	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q9SUG7	NP_194808	-	Q9SCK0|F4IXZ6	NP_850673|NP_190528|NP_001190043	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115937	829202	824342	14489	9660	AT4G30790	AT3G51790	AT4G30790	TG1	T10C21.140|T10C21_140	ATG1|transmembrane protein G1P-related 1	FRET	physical	Li F (2014)	PUBMED:24563201	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q9SUG7	NP_194808	-	Q96326	NP_190747	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115938	829202	829202	14489	14489	AT4G30790	AT4G30790	AT4G30790	AT4G30790	T10C21.140|T10C21_140	T10C21.140|T10C21_140	FRET	physical	Li F (2014)	PUBMED:24563201	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q9SUG7	NP_194808	-	Q9SUG7	NP_194808	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115939	819125	829202	4461	14489	AT2G45170	AT4G30790	ATG8E	AT4G30790	ATATG8E|AUTOPHAGY 8E|T14P1.2	T10C21.140|T10C21_140	FRET	physical	Li F (2014)	PUBMED:24563201	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8S926	-	NP_850431|NP_182042	-	Q9SUG7	NP_194808	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115996	818862	838518	4199	23757	AT2G42620	AT1G19350	MAX2	BES1	F14N22.11|F14N22_11|MORE AXILLARY BRANCHES 2|ORE9|ORESARA 9|PLEIOTROPIC PHOTOSIGNALING|PPS	107 PROTEIN|BRASSINAZOLE-RESISTANT 2|BRI1-EMS-SUPPRESSOR 1|BZR2|F18O14.7|F18O14_7	FRET	physical	Wang Y (2013)	PUBMED:24369836	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SIM9	-	NP_565979	Q9LN63	F4HP45	NP_973863|NP_564081|NP_001077562|NP_973865|NP_973864	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115997	818862	843845	4199	29064	AT2G42620	AT1G75080	MAX2	BZR1	F14N22.11|F14N22_11|MORE AXILLARY BRANCHES 2|ORE9|ORESARA 9|PLEIOTROPIC PHOTOSIGNALING|PPS	BRASSINAZOLE-RESISTANT 1|F9E10.7|F9E10_7	FRET	physical	Wang Y (2013)	PUBMED:24369836	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SIM9	-	NP_565979	Q8S307	-	NP_565099|NP_974145	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115998	818862	829831	4199	15112	AT2G42620	AT4G36780	MAX2	BEH2	F14N22.11|F14N22_11|MORE AXILLARY BRANCHES 2|ORE9|ORESARA 9|PLEIOTROPIC PHOTOSIGNALING|PPS	AP22.34|AP22_34|BES1/BZR1 homolog 2	FRET	physical	Wang Y (2013)	PUBMED:24369836	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SIM9	-	NP_565979	Q94A43	-	NP_195396	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1115999	818862	827623	4199	12916	AT2G42620	AT4G18890	MAX2	BEH3	F14N22.11|F14N22_11|MORE AXILLARY BRANCHES 2|ORE9|ORESARA 9|PLEIOTROPIC PHOTOSIGNALING|PPS	BES1/BZR1 homolog 3|F13C5.60|F13C5_60	FRET	physical	Wang Y (2013)	PUBMED:24369836	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SIM9	-	NP_565979	O49404	Q2HIR9	NP_193624	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1116050	821357	835557	6690	20801	AT3G18290	AT5G54680	BTS	ILR3	BRUTUS|EMB2454|embryo defective 2454	K5F14.2|K5F14_2|bHLH105|basic Helix-Loop-Helix 105|iaa-leucine resistant3	FRET	physical	Selote D (2015)	PUBMED:25452667	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q8LPQ5	NP_188457	Q9FH37	-	NP_200279	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1116051	821357	827086	6690	12383	AT3G18290	AT4G14410	BTS	bHLH104	BRUTUS|EMB2454|embryo defective 2454	DL3245W|FCAALL.201|basic Helix-Loop-Helix 104	FRET	physical	Selote D (2015)	PUBMED:25452667	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q8LPQ5	NP_188457	Q8L467	-	NP_849383|NP_567431	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1116052	821357	841529	6690	26754	AT3G18290	AT1G51070	BTS	bHLH115	BRUTUS|EMB2454|embryo defective 2454	F23H24.8|F23H24_8|basic Helix-Loop-Helix 115	FRET	physical	Selote D (2015)	PUBMED:25452667	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q8LPQ5	NP_188457	Q9C682	F4I7Z3	NP_001185192|NP_175518	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1116056	823918	835557	9238	20801	AT3G47640	AT5G54680	PYE	ILR3	POPEYE	K5F14.2|K5F14_2|bHLH105|basic Helix-Loop-Helix 105|iaa-leucine resistant3	FRET	physical	Selote D (2015)	PUBMED:25452667	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SN74	-	NP_001190030|NP_190348|NP_001190029	Q9FH37	-	NP_200279	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1116057	823918	841529	9238	26754	AT3G47640	AT1G51070	PYE	bHLH115	POPEYE	F23H24.8|F23H24_8|basic Helix-Loop-Helix 115	FRET	physical	Selote D (2015)	PUBMED:25452667	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SN74	-	NP_001190030|NP_190348|NP_001190029	Q9C682	F4I7Z3	NP_001185192|NP_175518	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1116058	823918	827086	9238	12383	AT3G47640	AT4G14410	PYE	bHLH104	POPEYE	DL3245W|FCAALL.201|basic Helix-Loop-Helix 104	FRET	physical	Selote D (2015)	PUBMED:25452667	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SN74	-	NP_001190030|NP_190348|NP_001190029	Q8L467	-	NP_849383|NP_567431	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1116075	814686	823916	89	9236	AT2G01570	AT3G47620	RGA1	TCP14	F2I9.19|F2I9_19|REPRESSOR OF GA|REPRESSOR OF GA1-3 1|RGA	AtTCP14|TEOSINTE BRANCHED|cycloidea and PCF (TCP) 14	FRET	physical	Daviere JM (2014)	PUBMED:25127215	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SLH3	-	NP_178266	Q93Z00	-	NP_190346	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1116076	828791	825902	14078	11213	AT4G26840	AT4G05520	SUMO1	EHD2	ARABIDOPSIS THALIANA SMALL UBIQUITIN-LIKE MODIFIER 1|ATSUMO1|F10M23.180|F10M23_180|SMALL UBIQUITIN-LIKE MODIFIER 1|SUM1|SUMO 1	ATEHD2|EPS15 homology domain 2|T1J24.10|T1J24_10	FRET	physical	Bar M (2014)	PUBMED:24154852	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P55852	-	NP_194414	-	F4JGH2|B3LF48	NP_567299|NP_974517	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1116085	835035	834426	20281	19676	AT5G49720	AT5G44030	GH9A1	CESA4	ATGH9A1|CELLULASE|DEC|DEFECTIVE CYTOKINESIS|IRREGULAR XYLEM 2|IRX2|K2I5.8|K2I5_8|KOR|KOR1|KORRIGAN|KORRIGAN 1|RADIALLY SWOLLEN 2|RSW2|TSD1|TUMOROUS SHOOT DEVELOPMENT 1|glycosyl hydrolase 9A1	IRREGULAR XYLEM 5|IRX5|MRH10.14|MRH10_14|NWS2|cellulose synthase A4	FRET	physical	Mansoori N (2014)	PUBMED:25383767	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q38890	-	NP_199783	Q84JA6	A0A068FIL6	NP_199216	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1116086	835035	827612	20281	12905	AT5G49720	AT4G18780	GH9A1	IRX1	ATGH9A1|CELLULASE|DEC|DEFECTIVE CYTOKINESIS|IRREGULAR XYLEM 2|IRX2|K2I5.8|K2I5_8|KOR|KOR1|KORRIGAN|KORRIGAN 1|RADIALLY SWOLLEN 2|RSW2|TSD1|TUMOROUS SHOOT DEVELOPMENT 1|glycosyl hydrolase 9A1	ATCESA8|CELLULOSE SYNTHASE 8|CESA8|F28A21.190|F28A21_190|IRREGULAR XYLEM 1|LEAF WILTING 2|LEW2	FRET	physical	Mansoori N (2014)	PUBMED:25383767	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q38890	-	NP_199783	Q8LPK5	A0A068FHR7	NP_567564	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1116090	835035	829376	20281	14662	AT5G49720	AT4G32410	GH9A1	CESA1	ATGH9A1|CELLULASE|DEC|DEFECTIVE CYTOKINESIS|IRREGULAR XYLEM 2|IRX2|K2I5.8|K2I5_8|KOR|KOR1|KORRIGAN|KORRIGAN 1|RADIALLY SWOLLEN 2|RSW2|TSD1|TUMOROUS SHOOT DEVELOPMENT 1|glycosyl hydrolase 9A1	AtCESA1|CELLULOSE SYNTHASE 1|F8B4.110|F8B4_110|RADIALLY SWOLLEN 1|RSW1	FRET	physical	Mansoori N (2014)	PUBMED:25383767	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q38890	-	NP_199783	O48946	W8PUJ0	NP_194967	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1116091	835035	830399	20281	15678	AT5G49720	AT5G05170	GH9A1	CEV1	ATGH9A1|CELLULASE|DEC|DEFECTIVE CYTOKINESIS|IRREGULAR XYLEM 2|IRX2|K2I5.8|K2I5_8|KOR|KOR1|KORRIGAN|KORRIGAN 1|RADIALLY SWOLLEN 2|RSW2|TSD1|TUMOROUS SHOOT DEVELOPMENT 1|glycosyl hydrolase 9A1	ATCESA3|ATH-B|CELLULOSE SYNTHASE 3|CESA3|CONSTITUTIVE EXPRESSION OF VSP 1|ISOXABEN RESISTANT 1|IXR1|K2A11.4|K2A11_4	FRET	physical	Mansoori N (2014)	PUBMED:25383767	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q38890	-	NP_199783	Q941L0	W8Q6G0	NP_196136	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1116092	835035	836595	20281	21837	AT5G49720	AT5G64740	GH9A1	CESA6	ATGH9A1|CELLULASE|DEC|DEFECTIVE CYTOKINESIS|IRREGULAR XYLEM 2|IRX2|K2I5.8|K2I5_8|KOR|KOR1|KORRIGAN|KORRIGAN 1|RADIALLY SWOLLEN 2|RSW2|TSD1|TUMOROUS SHOOT DEVELOPMENT 1|glycosyl hydrolase 9A1	E112|ISOXABEN RESISTANT 2|IXR2|MVP7.7|MVP7_7|PRC1|PROCUSTE 1|cellulose synthase 6	FRET	physical	Mansoori N (2014)	PUBMED:25383767	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q38890	-	NP_199783	Q94JQ6	A0A068FJJ5	NP_201279	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1171508	835035	835035	20281	20281	AT5G49720	AT5G49720	GH9A1	GH9A1	ATGH9A1|CELLULASE|DEC|DEFECTIVE CYTOKINESIS|IRREGULAR XYLEM 2|IRX2|K2I5.8|K2I5_8|KOR|KOR1|KORRIGAN|KORRIGAN 1|RADIALLY SWOLLEN 2|RSW2|TSD1|TUMOROUS SHOOT DEVELOPMENT 1|glycosyl hydrolase 9A1	ATGH9A1|CELLULASE|DEC|DEFECTIVE CYTOKINESIS|IRREGULAR XYLEM 2|IRX2|K2I5.8|K2I5_8|KOR|KOR1|KORRIGAN|KORRIGAN 1|RADIALLY SWOLLEN 2|RSW2|TSD1|TUMOROUS SHOOT DEVELOPMENT 1|glycosyl hydrolase 9A1	FRET	physical	Mansoori N (2014)	PUBMED:25383767	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q38890	-	NP_199783	Q38890	-	NP_199783	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172634	824906	831224	10222	16502	AT3G57390	AT5G13790	AGL18	AGL15	AGAMOUS-like 18	AGAMOUS-like 15|MADS-BOX PROTEIN AGL15|MXE10.8|MXE10_8	FRET	physical	Serivichyaswat P (2015)	PUBMED:25666346	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9M2K8	-	NP_191298|NP_974450	Q38847	-	NP_196883	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172658	822444	816556	7773	1909	AT3G28180	AT2G20370	CSLC04	MUR3	ATCSLC04|ATCSLC4|CELLULOSE-SYNTHASE LIKE C4|CSLC4|Cellulose-synthase-like C4	F11A3.8|F11A3_8|KAM1|KATAMARI 1|MURUS 3	FRET	physical	Chou YH (2015)	PUBMED:25392066	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LJP4	W8Q6R3	NP_566835	Q7XJ98	W8QNZ0	NP_179627	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172659	822444	827853	7773	13144	AT3G28180	AT4G21060	CSLC04	AT4G21060	ATCSLC04|ATCSLC4|CELLULOSE-SYNTHASE LIKE C4|CSLC4|Cellulose-synthase-like C4	T13K14.220|T13K14_220	FRET	physical	Chou YH (2015)	PUBMED:25392066	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LJP4	W8Q6R3	NP_566835	A7XDQ9	F4JIK9	NP_001154260|NP_193838	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172660	822444	814851	7773	253	AT3G28180	AT2G03220	CSLC04	FT1	ATCSLC04|ATCSLC4|CELLULOSE-SYNTHASE LIKE C4|CSLC4|Cellulose-synthase-like C4	2)-FUCOSYLTRANSFERASE|A-(1|ARABIDOPSIS THALIANA FUCOSYLTRANSFERASE 1|ATFT1|ATFUT1|MUR2|MURUS 2|T18E12.11|T18E12_11|XYLOGLUCAN FUCOSYLTRANSFERASE|fucosyltransferase 1	FRET	physical	Chou YH (2015)	PUBMED:25392066	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LJP4	W8Q6R3	NP_566835	Q9SWH5	W8PV36	NP_178421	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172661	827853	827940	13144	13231	AT4G21060	AT4G02500	AT4G21060	XT2	T13K14.220|T13K14_220	ARABIDOPSIS THALIANA UDP-XYLOSYLTRANSFERASE 2|ATXT2|T10P11.20|UDP-xylosyltransferase 2|XXT2|XYG XYLOSYLTRANSFERASE 2	FRET	physical	Chou YH (2015)	PUBMED:25392066	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	A7XDQ9	F4JIK9	NP_001154260|NP_193838	O22775	-	NP_567241	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172662	827853	843779	13144	28998	AT4G21060	AT1G74380	AT4G21060	XXT5	T13K14.220|T13K14_220	F1M20.6|F1M20_6|xyloglucan xylosyltransferase 5	FRET	physical	Chou YH (2015)	PUBMED:25392066	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	A7XDQ9	F4JIK9	NP_001154260|NP_193838	Q9CA75	W8PVU0	NP_177578	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172663	814851	827940	253	13231	AT2G03220	AT4G02500	FT1	XT2	2)-FUCOSYLTRANSFERASE|A-(1|ARABIDOPSIS THALIANA FUCOSYLTRANSFERASE 1|ATFT1|ATFUT1|MUR2|MURUS 2|T18E12.11|T18E12_11|XYLOGLUCAN FUCOSYLTRANSFERASE|fucosyltransferase 1	ARABIDOPSIS THALIANA UDP-XYLOSYLTRANSFERASE 2|ATXT2|T10P11.20|UDP-xylosyltransferase 2|XXT2|XYG XYLOSYLTRANSFERASE 2	FRET	physical	Chou YH (2015)	PUBMED:25392066	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SWH5	W8PV36	NP_178421	O22775	-	NP_567241	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172664	814851	843779	253	28998	AT2G03220	AT1G74380	FT1	XXT5	2)-FUCOSYLTRANSFERASE|A-(1|ARABIDOPSIS THALIANA FUCOSYLTRANSFERASE 1|ATFT1|ATFUT1|MUR2|MURUS 2|T18E12.11|T18E12_11|XYLOGLUCAN FUCOSYLTRANSFERASE|fucosyltransferase 1	F1M20.6|F1M20_6|xyloglucan xylosyltransferase 5	FRET	physical	Chou YH (2015)	PUBMED:25392066	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SWH5	W8PV36	NP_178421	Q9CA75	W8PVU0	NP_177578	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172665	816556	814851	1909	253	AT2G20370	AT2G03220	MUR3	FT1	F11A3.8|F11A3_8|KAM1|KATAMARI 1|MURUS 3	2)-FUCOSYLTRANSFERASE|A-(1|ARABIDOPSIS THALIANA FUCOSYLTRANSFERASE 1|ATFT1|ATFUT1|MUR2|MURUS 2|T18E12.11|T18E12_11|XYLOGLUCAN FUCOSYLTRANSFERASE|fucosyltransferase 1	FRET	physical	Chou YH (2015)	PUBMED:25392066	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q7XJ98	W8QNZ0	NP_179627	Q9SWH5	W8PV36	NP_178421	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172666	827853	814851	13144	253	AT4G21060	AT2G03220	AT4G21060	FT1	T13K14.220|T13K14_220	2)-FUCOSYLTRANSFERASE|A-(1|ARABIDOPSIS THALIANA FUCOSYLTRANSFERASE 1|ATFT1|ATFUT1|MUR2|MURUS 2|T18E12.11|T18E12_11|XYLOGLUCAN FUCOSYLTRANSFERASE|fucosyltransferase 1	FRET	physical	Chou YH (2015)	PUBMED:25392066	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	A7XDQ9	F4JIK9	NP_001154260|NP_193838	Q9SWH5	W8PV36	NP_178421	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172667	814851	814851	253	253	AT2G03220	AT2G03220	FT1	FT1	2)-FUCOSYLTRANSFERASE|A-(1|ARABIDOPSIS THALIANA FUCOSYLTRANSFERASE 1|ATFT1|ATFUT1|MUR2|MURUS 2|T18E12.11|T18E12_11|XYLOGLUCAN FUCOSYLTRANSFERASE|fucosyltransferase 1	2)-FUCOSYLTRANSFERASE|A-(1|ARABIDOPSIS THALIANA FUCOSYLTRANSFERASE 1|ATFT1|ATFUT1|MUR2|MURUS 2|T18E12.11|T18E12_11|XYLOGLUCAN FUCOSYLTRANSFERASE|fucosyltransferase 1	FRET	physical	Chou YH (2015)	PUBMED:25392066	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SWH5	W8PV36	NP_178421	Q9SWH5	W8PV36	NP_178421	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172668	814851	816556	253	1909	AT2G03220	AT2G20370	FT1	MUR3	2)-FUCOSYLTRANSFERASE|A-(1|ARABIDOPSIS THALIANA FUCOSYLTRANSFERASE 1|ATFT1|ATFUT1|MUR2|MURUS 2|T18E12.11|T18E12_11|XYLOGLUCAN FUCOSYLTRANSFERASE|fucosyltransferase 1	F11A3.8|F11A3_8|KAM1|KATAMARI 1|MURUS 3	FRET	physical	Chou YH (2015)	PUBMED:25392066	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SWH5	W8PV36	NP_178421	Q7XJ98	W8QNZ0	NP_179627	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172675	829613	842602	14895	27823	AT4G34610	AT1G62990	BLH6	KNAT7	BEL1-like homeodomain 6|T4L20.190|T4L20_190	F16P17.16|F16P17_16|IXR11|KNOTTED-like homeobox of Arabidopsis thaliana 7|TRANSCRIPTION FACTOR KNAT7	FRET	physical	Liu Y (2014)	PUBMED:25490916	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O65685	-	NP_001119116|NP_195187	Q9FPQ8	-	NP_564805	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172685	778059	547889	989997	989612	-	-	MYB176	GF14A	-	SGF14A	FRET	physical	Li X (2012)	PUBMED:22404168	3847	3847	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q0PJH8	NP_001236048	-	E9KNA6	NP_001235653	-	-	-	-	-	-	Glycine max	Glycine max
+1172686	778059	547890	989997	989613	-	-	MYB176	LOC547890	-	-	FRET	physical	Li X (2012)	PUBMED:22404168	3847	3847	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q0PJH8	NP_001236048	-	-		-	-	-	-	-	-	Glycine max	Glycine max
+1172687	778059	100529130	989997	1303928	-	-	MYB176	SGF14e	-	-	FRET	physical	Li X (2012)	PUBMED:22404168	3847	3847	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q0PJH8	NP_001236048	-	E9KNA7	NP_001238423	-	-	-	-	-	-	Glycine max	Glycine max
+1172698	834752	821239	20000	6572	AT5G47060	AT3G02800	AT5G47060	AT3G02800	MQD22.20|MQD22_20	F13E7.26|F13E7_26	FRET	physical	K MJ (2014)	PUBMED:24901469	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q9FGQ9	NP_199517	-	Q681Z2	NP_186929	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172699	834752	820806	20000	6140	AT5G47060	AT3G15640	AT5G47060	AT3G15640	MQD22.20|MQD22_20	-	FRET	physical	K MJ (2014)	PUBMED:24901469	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q9FGQ9	NP_199517	Q9LW15	A8MRD7	NP_188185|NP_001078161	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172705	828319	825714	13608	11027	AT4G22240	AT4G04020	AT4G22240	FIB	T10I14.70|T10I14_70	T24H24.16|T24H24_16|fibrillin	FRET	physical	Gamez-Arjona FM (2014)	PUBMED:24937144	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O49629	-	NP_193955	O81439	-	NP_192311	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172706	828319	828319	13608	13608	AT4G22240	AT4G22240	AT4G22240	AT4G22240	T10I14.70|T10I14_70	T10I14.70|T10I14_70	FRET	physical	Gamez-Arjona FM (2014)	PUBMED:24937144	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O49629	-	NP_193955	O49629	-	NP_193955	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172710	829927	816538	15208	1892	AT4G37710	AT2G20180	AT4G37710	PIL5	T28I19.3	PHY-INTERACTING FACTOR 1|PIF1|T2G17.2|T2G17_2|phytochrome interacting factor 3-like 5	FRET	physical	Li Y (2014)	PUBMED:24569844	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q9SZG3	NP_195485	Q8GZM7	-	NP_179608|NP_001189559|NP_849996	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172713	828587	838284	13876	23524	AT4G24840	AT1G17140	AT4G24840	ICR1	F6I7.50|F6I7_50	F20D23.32|RIP1|ROP INTERACTIVE PARTNER 1|interactor of constitutive active rops 1	FRET	physical	Oda Y (2015)	PUBMED:25541219	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	F4JRR1	NP_567710	Q8LE98	-	NP_973848|NP_564015	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172775	827605	824214	12898	9532	AT4G18710	AT3G50500	BIN2	SNRK2.2	ATSK21|BRASSINOSTEROID-INSENSITIVE 2|DWARF 12|DWF12|F28A21.120|F28A21_120|SHAGGY-LIKE KINASE 21|SK21|UCU1|ULTRACURVATA 1	PROTEIN KINASE|SNF1-RELATED PROTEIN KINASE 2-2|SNF1-related protein kinase 2.2|SNRK2-2|SPK-2-2|SRK2D	FRET	physical	Cai Z (2014)	PUBMED:24928519	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q39011	F4JRM5	NP_001190762|NP_193606	Q39192	F4J0N1	NP_001190047|NP_190619	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172776	827605	836822	12898	22064	AT4G18710	AT5G66880	BIN2	SNRK2.3	ATSK21|BRASSINOSTEROID-INSENSITIVE 2|DWARF 12|DWF12|F28A21.120|F28A21_120|SHAGGY-LIKE KINASE 21|SK21|UCU1|ULTRACURVATA 1	SNRK2-3|SRK2I|SUCROSE NONFERMENTING 1 (SNF1)-RELATED PROTEIN KINASE 2-3|sucrose nonfermenting 1(SNF1)-related protein kinase 2.3	FRET	physical	Cai Z (2014)	PUBMED:24928519	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q39011	F4JRM5	NP_001190762|NP_193606	Q39193	-	NP_201489	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172777	827605	829541	12898	14823	AT4G18710	AT4G33950	BIN2	OST1	ATSK21|BRASSINOSTEROID-INSENSITIVE 2|DWARF 12|DWF12|F28A21.120|F28A21_120|SHAGGY-LIKE KINASE 21|SK21|UCU1|ULTRACURVATA 1	ATOST1|F17I5.140|F17I5_140|OPEN STOMATA 1|P44|SNF1-RELATED PROTEIN KINASE 2.6|SNRK2-6|SNRK2.6|SRK2E|SUCROSE NONFERMENTING 1-RELATED PROTEIN KINASE 2-6	FRET	physical	Cai Z (2014)	PUBMED:24928519	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q39011	F4JRM5	NP_001190762|NP_193606	Q940H6	B3H6F9	NP_567945|NP_001119111	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172796	837357	838333	22598	23573	AT1G08370	AT1G17580	DCP1	MYA1	ATDCP1|decapping 1	ARABIDOPSIS MYOSIN 1|ATMYA1|F1L3.28|F1L3_28|MYOSIN XI 1|XI-1|myosin 1	FRET	physical	Steffens A (2014)	PUBMED:24525673	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SJF3	-	NP_563814	Q39160	-	NP_173201	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172797	837357	834412	22598	19662	AT1G08370	AT5G43900	DCP1	MYA2	ATDCP1|decapping 1	ARABIDOPSIS MYOSIN 2|ATMYA2|F6B6.4|F6B6_4|MYOSIN X1 2|MYOSIN XI-6|XI-2|XI-6|myosin 2	FRET	physical	Steffens A (2014)	PUBMED:24525673	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SJF3	-	NP_563814	Q9LKB9	F4K7C5|F4K7C4	NP_001190466|NP_001190465|NP_199203	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172798	837357	829456	22598	14741	AT1G08370	AT4G33200	DCP1	XI-I	ATDCP1|decapping 1	ATXI-I|F4I10.130|F4I10_130|MYOSIN XI I|MYOSIN XI-15|XI-15	FRET	physical	Steffens A (2014)	PUBMED:24525673	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SJF3	-	NP_563814	Q0WPU1	F4JVZ5|F4JVZ4	NP_001190898|NP_195046|NP_001190897	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172799	837357	832171	22598	17447	AT1G08370	AT5G20490	DCP1	XIK	ATDCP1|decapping 1	ATXIK|F7C8.80|F7C8_80|MYOSIN XI K|MYOSIN XI-17|XI-17	FRET	physical	Steffens A (2014)	PUBMED:24525673	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SJF3	-	NP_563814	F4K5J1	F4K5J2	NP_001154724|NP_197549	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172837	830878	839141	16156	24378	AT5G10140	AT1G25540	FLC	PFT1	AGAMOUS-like 25|AGL25|FLF|FLOWERING LOCUS C|FLOWERING LOCUS F|MADS BOX PROTEIN FLOWERING LOCUS F|T31P16.130|T31P16_130	F2J7.4|F2J7_4|PHYTOCHROME AND FLOWERING TIME 1	FRET	physical	Fujiwara S (2014)	PUBMED:25150167	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9S7Q7	Q58T15|A5JM49|Q58T14|Q5Q9J1	NP_001190272|NP_001154703|NP_001078563|NP_196576	Q7XYY2	-	NP_001077596|NP_173925	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172840	818887	818903	4224	4240	AT2G42870	AT2G43010	PAR1	PIF4	F7D19.13|F7D19_13|HELIX-LOOP-HELIX 1|HLH1|PHY RAPIDLY REGULATED 1	MFL8.13|MFL8_13|SRL2|phytochrome interacting factor 4	FRET	physical	Hao Y (2012)	PUBMED:22331621	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SJH0	-	NP_565988	Q8W2F3	B9DFT8|F4IQ51	NP_565991|NP_850381	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172841	825054	818903	10369	4240	AT3G58850	AT2G43010	PAR2	PIF4	HLH2|PHY RAPIDLY REGULATED 2	MFL8.13|MFL8_13|SRL2|phytochrome interacting factor 4	FRET	physical	Hao Y (2012)	PUBMED:22331621	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LXR7	-	NP_191444	Q8W2F3	B9DFT8|F4IQ51	NP_565991|NP_850381	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172846	818887	833982	4224	19233	AT2G42870	AT5G39860	PAR1	PRE1	F7D19.13|F7D19_13|HELIX-LOOP-HELIX 1|HLH1|PHY RAPIDLY REGULATED 1	BANQUO 1|BASIC HELIX-LOOP-HELIX PROTEIN 136|BHLH136|BNQ1|MYH19.1|MYH19_1|PACLOBUTRAZOL RESISTANCE1	FRET	physical	Hao Y (2012)	PUBMED:22331621	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SJH0	-	NP_565988	Q9FLE9	-	NP_198802	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172855	839529	829604	24764	14886	AT1G04400	AT4G34530	CRY2	CIB1	AT-PHH1|ATCRY2|CRYPTOCHROME 2 APOPROTEIN|F19P19.14|F19P19_14|FHA|PHH1|cryptochrome 2	T4L20.110|T4L20_110|cryptochrome-interacting basic-helix-loop-helix 1	FRET	physical	Cui Y (2014)	PUBMED:24780222	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q96524	G4WTR2	NP_849588|NP_171935	Q8GY61	-	NP_195179	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172856	832060	834747	17336	19995	AT5G19400	AT5G47010	SMG7	LBA1	F7K24.150|F7K24_150	ATUPF1|LOW-LEVEL BETA-AMYLASE 1|MQD22.15|MQD22_15|UPF1	FRET	physical	Kerenyi F (2013)	PUBMED:24118551	3702	3702	Low Throughput	-	-	-	-	BIOGRID	A9QM73	-	NP_001190336|NP_001190337|NP_197441	Q9FJR0	-	NP_199512	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172857	839388	844133	24623	29352	AT1G04880	AT1G77980	AT1G04880	AGL66	F13M7.13|F13M7_13	AGAMOUS-like 66|F28K19.20|F28K19_20	FRET	physical	Xia C (2014)	PUBMED:24923357	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9MAT6	-	NP_171980	-	Q1PFC2	NP_177921	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172858	839388	838818	24623	24057	AT1G04880	AT1G22130	AT1G04880	AGL104	F13M7.13|F13M7_13	AGAMOUS-like 104|F2E2.20|F2E2_20	FRET	physical	Xia C (2014)	PUBMED:24923357	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9MAT6	-	NP_171980	-	Q9LM46	NP_173632	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172859	839388	839388	24623	24623	AT1G04880	AT1G04880	AT1G04880	AT1G04880	F13M7.13|F13M7_13	F13M7.13|F13M7_13	FRET	physical	Xia C (2014)	PUBMED:24923357	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9MAT6	-	NP_171980	Q9MAT6	-	NP_171980	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172870	838677	818914	23916	4251	AT1G20850	AT2G43120	XCP2	AT2G43120	F9H16.17|F9H16_17|PAPAIN-TYPE CYSTEINE ENDOPEPTIDASE XCP2|xylem cysteine peptidase 2	-	FRET	physical	Zhang B (2014)	PUBMED:24947605	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LM66	Q0WT15	NP_564126	Q9ZW82	-	NP_850385	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1172955	818766	841454	4103	26679	AT2G41680	AT1G50320	NTRC	THX	NADPH-dependent thioredoxin reductase C|T32G6.20|T32G6_20	ATHX|ATX|THIOREDOXIN X	FRET	physical	Bernal-Bayard P (2014)	PUBMED:25448674	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O22229	-	NP_565954	Q8LD49	-	NP_564566	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173058	832801	830909	18075	16187	AT5G27420	AT5G10450	CNI1	GRF6	ATL31|F21A20.130|F21A20_130|carbon/nitrogen insensitive 1	14-3-3 PROTEIN G-BOX FACTOR14 LAMBDA|14-3-3LAMBDA|AFT1|F12B17.200|F12B17_200|G-box regulating factor 6|GF14 LAMBDA	FRET	physical	Yasuda S (2014)	PUBMED:24722992	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8LGA5	-	NP_198094	P48349	F4KGV2|F4KGV5	NP_001031868|NP_568229|NP_001190276|NP_001190275	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173061	837113	838057	22355	23297	AT1G06040	AT1G14920	STO	GAI	SALT TOLERANCE|T21E18.9|T21E18_9	F10B6.34|F10B6_34|GAI PROTEIN|GIBBERELLIC ACID INSENSITIVE|RESTORATION ON GROWTH ON AMMONIA 2|RGA2	FRET	physical	Crocco CD (2015)	PUBMED:25656233	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q96288	F4IBY7	NP_172094|NP_849598	Q9LQT8	-	NP_172945	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173068	825831	817362	11142	2712	AT4G04920	AT2G28160	SFR6	FRU	SENSITIVE TO FREEZING 6|T1J1.2|T1J1_2	ARABIDOPSIS FE-DEFICIENCY INDUCED TRANSCRIPTION FACTOR 1|ATBHLH029|ATBHLH29|ATFIT1|BASIC HELIX-LOOP-HELIX PROTEIN 29|BHLH029|F24D13.5|F24D13_5|FE-DEFICIENCY INDUCED TRANSCRIPTION FACTOR 1|FER-like regulator of iron uptake|FIT1	FRET	physical	Zhang Y (2014)	PUBMED:24889527	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	F4JGZ1	-	NP_001190676|NP_192401	Q0V7X4	C0SV65	NP_850114	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173074	844066	838518	29285	23757	AT1G77300	AT1G19350	EFS	BES1	ASH1 HOMOLOG 2|ASHH2|CAROTENOID CHLOROPLAST REGULATORY1|CCR1|EARLY FLOWERING IN SHORT DAYS|SDG8|SET DOMAIN GROUP 8|T14N5.15|T14N5_15	107 PROTEIN|BRASSINAZOLE-RESISTANT 2|BRI1-EMS-SUPPRESSOR 1|BZR2|F18O14.7|F18O14_7	FRET	physical	Wang X (2014)	PUBMED:24838002	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q2LAE1	A9QA57|F4I6Z9	NP_001077836|NP_177854	Q9LN63	F4HP45	NP_973863|NP_564081|NP_001077562|NP_973865|NP_973864	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173076	843845	816538	29064	1892	AT1G75080	AT2G20180	BZR1	PIL5	BRASSINAZOLE-RESISTANT 1|F9E10.7|F9E10_7	PHY-INTERACTING FACTOR 1|PIF1|T2G17.2|T2G17_2|phytochrome interacting factor 3-like 5	FRET	physical	Oh E (2012)	PUBMED:22820378	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8S307	-	NP_565099|NP_974145	Q8GZM7	-	NP_179608|NP_001189559|NP_849996	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173077	843845	818903	29064	4240	AT1G75080	AT2G43010	BZR1	PIF4	BRASSINAZOLE-RESISTANT 1|F9E10.7|F9E10_7	MFL8.13|MFL8_13|SRL2|phytochrome interacting factor 4	FRET	physical	Oh E (2012)	PUBMED:22820378	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8S307	-	NP_565099|NP_974145	Q8W2F3	B9DFT8|F4IQ51	NP_565991|NP_850381	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173094	820314	827923	5648	13214	AT3G11410	AT4G01026	PP2CA	PYL7	AHG3|ARABIDOPSIS THALIANA PROTEIN PHOSPHATASE 2CA|ATPP2CA|protein phosphatase 2CA	PYR1-like 7|RCAR2|regulatory components of ABA receptor 2	FRET	physical	Lee SC (2013)	PUBMED:22935148	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P49598	-	NP_187748	Q1ECF1	-	NP_567208	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173097	827923	820314	13214	5648	AT4G01026	AT3G11410	PYL7	PP2CA	PYR1-like 7|RCAR2|regulatory components of ABA receptor 2	AHG3|ARABIDOPSIS THALIANA PROTEIN PHOSPHATASE 2CA|ATPP2CA|protein phosphatase 2CA	FRET	physical	Lee SC (2013)	PUBMED:22935148	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q1ECF1	-	NP_567208	P49598	-	NP_187748	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173098	829541	820314	14823	5648	AT4G33950	AT3G11410	OST1	PP2CA	ATOST1|F17I5.140|F17I5_140|OPEN STOMATA 1|P44|SNF1-RELATED PROTEIN KINASE 2.6|SNRK2-6|SNRK2.6|SRK2E|SUCROSE NONFERMENTING 1-RELATED PROTEIN KINASE 2-6	AHG3|ARABIDOPSIS THALIANA PROTEIN PHOSPHATASE 2CA|ATPP2CA|protein phosphatase 2CA	FRET	physical	Lee SC (2013)	PUBMED:22935148	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q940H6	B3H6F9	NP_567945|NP_001119111	P49598	-	NP_187748	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173099	829541	837805	14823	23045	AT4G33950	AT1G12480	OST1	OZS1	ATOST1|F17I5.140|F17I5_140|OPEN STOMATA 1|P44|SNF1-RELATED PROTEIN KINASE 2.6|SNRK2-6|SNRK2.6|SRK2E|SUCROSE NONFERMENTING 1-RELATED PROTEIN KINASE 2-6	CARBON DIOXIDE INSENSITIVE 3|CDI3|F5O11.23|F5O11_23|OZONE-SENSITIVE 1|RADICAL-INDUCED CELL DEATH 3|RCD3|SLAC1|SLOW ANION CHANNEL-ASSOCIATED 1	FRET	physical	Lee SC (2013)	PUBMED:22935148	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q940H6	B3H6F9	NP_567945|NP_001119111	Q9LD83	-	NP_563909	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173100	820314	837805	5648	23045	AT3G11410	AT1G12480	PP2CA	OZS1	AHG3|ARABIDOPSIS THALIANA PROTEIN PHOSPHATASE 2CA|ATPP2CA|protein phosphatase 2CA	CARBON DIOXIDE INSENSITIVE 3|CDI3|F5O11.23|F5O11_23|OZONE-SENSITIVE 1|RADICAL-INDUCED CELL DEATH 3|RCD3|SLAC1|SLOW ANION CHANNEL-ASSOCIATED 1	FRET	physical	Lee SC (2013)	PUBMED:22935148	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P49598	-	NP_187748	Q9LD83	-	NP_563909	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173103	838057	832393	23297	17668	AT1G14920	AT5G23290	GAI	PFD5	F10B6.34|F10B6_34|GAI PROTEIN|GIBBERELLIC ACID INSENSITIVE|RESTORATION ON GROWTH ON AMMONIA 2|RGA2	MKD15.15|MKD15_15|prefoldin 5	FRET	physical	Locascio A (2013)	PUBMED:23583555	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LQT8	-	NP_172945	P57742	-	NP_197720	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173316	817134	818903	2486	4240	AT2G25930	AT2G43010	ELF3	PIF4	EARLY FLOWERING 3|F17H15.25|PYK20	MFL8.13|MFL8_13|SRL2|phytochrome interacting factor 4	FRET	physical	Nieto C (2015)	PUBMED:25557667	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O82804	-	NP_180164	Q8W2F3	B9DFT8|F4IQ51	NP_565991|NP_850381	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173320	827211	815120	12508	519	AT4G15415	AT2G05710	ATB GAMMA	ACO3	-	T3P4.5|T3P4_5|aconitase 3	FRET	physical	Konert G (2015)	PUBMED:25307043	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8RW96	Q0WNY8	NP_567464|NP_849390	Q9SIB9	-	NP_178634	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173324	832001	832001	17277	17277	AT5G18830	AT5G18830	SPL7	SPL7	ATSPL7|F17K4.80|F17K4_80|SQUAMOSA PROMOTER BINDING PROTEIN-LIKE 7	ATSPL7|F17K4.80|F17K4_80|SQUAMOSA PROMOTER BINDING PROTEIN-LIKE 7	FRET	physical	Garcia-Molina A (2014)	PUBMED:25207797	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8S9G8	F4JZI4	NP_197384|NP_850850|NP_001190333	Q8S9G8	F4JZI4	NP_197384|NP_850850|NP_001190333	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173330	821718	818030	7050	3376	AT3G21640	AT2G34650	TWD1	PID	ATFKBP42|FK506-BINDING PROTEIN 42|FKBP42|TWISTED DWARF 1|UCU2|ULTRACURVATA 2	ABR|ABRUPTUS|PINOID|PROTEIN KINASE PINOID|T31E10.1|T31E10_1	FRET	physical	Henrichs S (2012)	PUBMED:22549467	3702	3702	Low Throughput	-	-	BRET assay	-	BIOGRID	Q9LDC0	-	NP_188801	O64682	-	NP_181012	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173334	818982	829597	4318	14879	AT2G43790	AT4G34460	MPK6	AGB1	ATMAPK6|ATMPK6|F18O19.10|MAP KINASE 6|MAPK6	ARABIDOPSIS G-PROTEIN BETA SUBUNIT|ATAGB1|ELK4|ERECTA-LIKE 4|GTP binding protein beta 1|T4L20.40|T4L20_40	FRET	physical	Xu DB (2015)	PUBMED:25635681	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39026	-	NP_181907	P49177	F4JLD1|A8MR96|F4JLD2	NP_974683|NP_001078491|NP_849494|NP_195172	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173355	836307	817375	21551	2725	AT5G61850	AT2G28290	LFY	SYD	LEAFY|LEAFY 3|LFY3|MAC9.13|MAC9_13	CHR3|CHROMATIN REMODELING COMPLEX SUBUNIT R|CHROMATIN REMODELING COMPLEX SUBUNIT R 3|SPLAYED	FRET	physical	Wu MF (2012)	PUBMED:22323601	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q00958	A0A023T4L8	NP_200993	F4IHS2	-	NP_001077971|NP_850117|NP_850116	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173356	836307	819210	21551	4545	AT5G61850	AT2G46020	LFY	BRM	LEAFY|LEAFY 3|LFY3|MAC9.13|MAC9_13	ARABIDOPSIS THALIANA BRAHMA|ATBRM|BRAHMA|CHA2|CHR2|CHROMATIN REMODELING 2|T3F17.33	FRET	physical	Wu MF (2012)	PUBMED:22323601	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q00958	A0A023T4L8	NP_200993	Q6EVK6	-	NP_182126|NP_973695	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173372	814686	839396	89	24631	AT2G01570	AT1G03840	RGA1	MGP	F2I9.19|F2I9_19|REPRESSOR OF GA|REPRESSOR OF GA1-3 1|RGA	F21M11.25|F21M11_25|Magpie	FRET	physical	Yoshida H (2014)	PUBMED:24821766	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SLH3	-	NP_178266	Q9ZWA6	C0SUS5	NP_001030951|NP_171880	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173373	814686	814739	89	142	AT2G01570	AT2G02080	RGA1	IDD4	F2I9.19|F2I9_19|REPRESSOR OF GA|REPRESSOR OF GA1-3 1|RGA	AtIDD4|F5O4.15|F5O4_15|indeterminate(ID)-domain 4	FRET	physical	Yoshida H (2014)	PUBMED:24821766	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SLH3	-	NP_178266	-	Q9ZUL4|Q8GYC1	NP_178317|NP_001118254	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173374	814686	814738	89	141	AT2G01570	AT2G02070	RGA1	IDD5	F2I9.19|F2I9_19|REPRESSOR OF GA|REPRESSOR OF GA1-3 1|RGA	AtIDD5|F5O4.16|F5O4_16|indeterminate(ID)-domain 5	FRET	physical	Yoshida H (2014)	PUBMED:24821766	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SLH3	-	NP_178266	-	Q9ZUL3	NP_178316	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173375	814686	823664	89	8984	AT2G01570	AT3G45260	RGA1	AT3G45260	F2I9.19|F2I9_19|REPRESSOR OF GA|REPRESSOR OF GA1-3 1|RGA	-	FRET	physical	Yoshida H (2014)	PUBMED:24821766	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SLH3	-	NP_178266	-	Q944L3	NP_566877	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173376	814686	831919	89	17195	AT2G01570	AT5G03150	RGA1	JKD	F2I9.19|F2I9_19|REPRESSOR OF GA|REPRESSOR OF GA1-3 1|RGA	F15A17.180|F15A17_180|JACKDAW	FRET	physical	Yoshida H (2014)	PUBMED:24821766	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SLH3	-	NP_178266	Q700D2	-	NP_195935	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173387	841464	839396	26689	24631	AT1G50420	AT1G03840	SCL3	MGP	F11F12.22|F11F12_22|SCARECROW-LIKE 3|SCL-3	F21M11.25|F21M11_25|Magpie	FRET	physical	Yoshida H (2014)	PUBMED:24821766	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LPR8	-	NP_175459	Q9ZWA6	C0SUS5	NP_001030951|NP_171880	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173388	841464	814739	26689	142	AT1G50420	AT2G02080	SCL3	IDD4	F11F12.22|F11F12_22|SCARECROW-LIKE 3|SCL-3	AtIDD4|F5O4.15|F5O4_15|indeterminate(ID)-domain 4	FRET	physical	Yoshida H (2014)	PUBMED:24821766	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LPR8	-	NP_175459	-	Q9ZUL4|Q8GYC1	NP_178317|NP_001118254	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173389	841464	814738	26689	141	AT1G50420	AT2G02070	SCL3	IDD5	F11F12.22|F11F12_22|SCARECROW-LIKE 3|SCL-3	AtIDD5|F5O4.16|F5O4_16|indeterminate(ID)-domain 5	FRET	physical	Yoshida H (2014)	PUBMED:24821766	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LPR8	-	NP_175459	-	Q9ZUL3	NP_178316	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173390	841464	823664	26689	8984	AT1G50420	AT3G45260	SCL3	AT3G45260	F11F12.22|F11F12_22|SCARECROW-LIKE 3|SCL-3	-	FRET	physical	Yoshida H (2014)	PUBMED:24821766	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LPR8	-	NP_175459	-	Q944L3	NP_566877	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173391	841464	831919	26689	17195	AT1G50420	AT5G03150	SCL3	JKD	F11F12.22|F11F12_22|SCARECROW-LIKE 3|SCL-3	F15A17.180|F15A17_180|JACKDAW	FRET	physical	Yoshida H (2014)	PUBMED:24821766	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LPR8	-	NP_175459	Q700D2	-	NP_195935	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173393	817553	828151	2903	13440	AT2G30020	AT4G01370	AT2G30020	MPK4	AP2C1|F23F1.6|F23F1_6	ATMPK4|F2N1.1|F2N1_1|MAP kinase 4	FRET	physical	Schweighofer A (2014)	PUBMED:24908126	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O80871	F6LPR5	NP_180563	Q39024	-	NP_192046	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173394	817553	818982	2903	4318	AT2G30020	AT2G43790	AT2G30020	MPK6	AP2C1|F23F1.6|F23F1_6	ATMAPK6|ATMPK6|F18O19.10|MAP KINASE 6|MAPK6	FRET	physical	Schweighofer A (2014)	PUBMED:24908126	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O80871	F6LPR5	NP_180563	Q39026	-	NP_181907	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173395	818609	823706	3947	9026	AT2G40180	AT3G45640	PP2C5	MPK3	ATHPP2C5|T7M7.17|phosphatase 2C5	ATMAPK3|ATMPK3|T6D9.4|mitogen-activated protein kinase 3	FRET	physical	Schweighofer A (2014)	PUBMED:24908126	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9XEE8	F6LPR7	NP_181547	Q39023	Q0WVS7	NP_190150	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173397	825650	834847	10964	20095	AT4G03550	AT5G47960	GSL05	RABA4C	ATGSL05|ATGSL5|GLUCAN SYNTHASE-LIKE 5|GSL5|PMR4|POWDERY MILDEW RESISTANT 4|T5L23.4	ATRABA4C|K16F13.4|K16F13_4|RAB GTPase homolog A4C|SMALL MOLECULAR WEIGHT G-PROTEIN 1|SMG1	FRET	physical	Ellinger D (2014)	PUBMED:25056861	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9ZT82	W8PV73	NP_192264	Q9FE79	-	NP_199607	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173400	827605	835341	12898	20586	AT4G18710	AT5G52640	BIN2	HSP90.1	ATSK21|BRASSINOSTEROID-INSENSITIVE 2|DWARF 12|DWF12|F28A21.120|F28A21_120|SHAGGY-LIKE KINASE 21|SK21|UCU1|ULTRACURVATA 1	ATHS83|ATHSP90.1|AtHsp90-1|F6N7.13|F6N7_13|HEAT SHOCK PROTEIN 81-1|HEAT SHOCK PROTEIN 83|HEAT SHOCK PROTEIN 90-1|HSP81-1|HSP81.1|HSP83|heat shock protein 90.1	FRET	physical	Samakovli D (2014)	PUBMED:24807419	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39011	F4JRM5	NP_001190762|NP_193606	P27323	-	NP_200076	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173401	827605	835699	12898	20943	AT4G18710	AT5G56010	BIN2	HSP81-3	ATSK21|BRASSINOSTEROID-INSENSITIVE 2|DWARF 12|DWF12|F28A21.120|F28A21_120|SHAGGY-LIKE KINASE 21|SK21|UCU1|ULTRACURVATA 1	AtHsp90-3|AtHsp90.3|HEAT SHOCK PROTEIN 81.3|HEAT SHOCK PROTEIN 90-3|HEAT SHOCK PROTEIN 90.3|HSP81.2|Hsp81.3|MDA7.5|MDA7_5|heat shock protein 81-3	FRET	physical	Samakovli D (2014)	PUBMED:24807419	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39011	F4JRM5	NP_001190762|NP_193606	P51818	-	NP_200412	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1173438	820727	841923	6061	27148	AT3G14980	AT1G54840	AT3G14980	AT1G54840	-	T22H22.23|T22H22_23	FRET	physical	Zhao Y (2014)	PUBMED:24920332	3702	3702	Low Throughput	-	-	firefly luciferase complementation imaging assay	-	BIOGRID	-	F4IXE7	NP_188116	-	F4HYL2|Q8RWL4	NP_175881|NP_974031	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1174153	856478	856478	36513	36513	YHR079C	YHR079C	IRE1	IRE1	ERN1|bifunctional endoribonuclease/protein kinase IRE1|L000000875	ERN1|bifunctional endoribonuclease/protein kinase IRE1|L000000875	FRET	physical	Mannan MA (2013)	PUBMED:23541589	559292	559292	Low Throughput	-	-	Figure 8	-	BIOGRID	P32361	-	NP_011946	P32361	-	NP_011946	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1174216	828464	828464	13753	13753	AT4G23640	AT4G23640	TRH1	TRH1	ATKT3|F9D16.110|F9D16_110|KUP4|TINY ROOT HAIR 1	ATKT3|F9D16.110|F9D16_110|KUP4|TINY ROOT HAIR 1	FRET	physical	Daras G (2015)	PUBMED:25575998	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9FE38	Q0WVZ0	NP_194095	Q9FE38	Q0WVZ0	NP_194095	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1174219	820165	841829	5499	27054	AT3G10040	AT1G53910	AT3G10040	RAP2.12	-	T18A20.14|T18A20_14|related to AP2 12	FRET	physical	Giuntoli B (2014)	PUBMED:25226037	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q8RWY5	NP_187615	Q9SSA8	A8MRC0|B9DG10	NP_001077718|NP_001031185|NP_175794	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1174220	833836	837082	19087	22324	AT5G38480	AT1G01480	GRF3	ACS2	GF14PSI ISOFORM|MXI10.21|MXI10_21|RCI1|general regulatory factor 3	1-AMINOCYCLOPROPANE-1-CARBOXYLATE SYNTHASE|1-amino-cyclopropane-1-carboxylate synthase 2|AT-ACC2|EC 4.4.1.14|F22L4.4|F22L4_4|S-ADENOSYL-L-METHIONINE METHYLTHIOADENOSINE-LYASE	FRET	physical	Catala R (2014)	PUBMED:25122152	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P42644	-	NP_001031982|NP_568557	Q06402	-	NP_171655|NP_849572	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1174221	833836	836709	19087	21951	AT5G38480	AT5G65800	GRF3	ACS5	GF14PSI ISOFORM|MXI10.21|MXI10_21|RCI1|general regulatory factor 3	1-AMINO-1-CYCLOPROPANECARBOXYLATE SYNTHASE|ACC synthase 5|ATACS5|CIN5|CYTOKININ-INSENSITIVE 5|ETHYLENE OVERPRODUCER 2|ETO2|MPA24.15|MPA24_15	FRET	physical	Catala R (2014)	PUBMED:25122152	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P42644	-	NP_001031982|NP_568557	Q37001	-	NP_201381	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1174222	833836	826730	19087	12029	AT5G38480	AT4G11280	GRF3	ACS6	GF14PSI ISOFORM|MXI10.21|MXI10_21|RCI1|general regulatory factor 3	1-aminocyclopropane-1-carboxylic acid (acc) synthase 6|ATACS6|F8L21.70|F8L21_70	FRET	physical	Catala R (2014)	PUBMED:25122152	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P42644	-	NP_001031982|NP_568557	Q9SAR0	-	NP_192867	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1174223	833836	829933	19087	15214	AT5G38480	AT4G37770	GRF3	ACS8	GF14PSI ISOFORM|MXI10.21|MXI10_21|RCI1|general regulatory factor 3	1-amino-cyclopropane-1-carboxylate synthase 8|T28I19.50|T28I19_50	FRET	physical	Catala R (2014)	PUBMED:25122152	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P42644	-	NP_001031982|NP_568557	Q9T065	Q56Y32	NP_195491	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1174224	833836	826317	19087	11617	AT5G38480	AT4G08040	GRF3	ACS11	GF14PSI ISOFORM|MXI10.21|MXI10_21|RCI1|general regulatory factor 3	1-aminocyclopropane-1-carboxylate synthase 11|T17A2.2|T17A2_2	FRET	physical	Catala R (2014)	PUBMED:25122152	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P42644	-	NP_001031982|NP_568557	Q9S9U6	-	NP_567330	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1174227	816769	839984	2122	25219	AT2G22370	AT1G30970	AT2G22370	SUF4	F14M13.23|F14M13_23	F17F8.14|suppressor of FRIGIDA4	FRET	physical	Lai Z (2014)	PUBMED:24451981	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SJZ6	-	NP_565534	Q9C5G0	-	NP_001077634|NP_564369	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1174426	828841	841756	14128	26981	AT4G27330	AT1G53230	SPL	TCP3	F27G19.11|NOZZLE|NZZ|SPOROCYTELESS	F12M16.13|F12M16_13|TEOSINTE BRANCHED 1|cycloidea and PCF transcription factor 3	FRET	physical	Wei B (2015)	PUBMED:25378179	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O81836	NP_194463	Q9MAH8	-	NP_564624	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1174427	828841	836218	14128	21462	AT4G27330	AT5G60970	SPL	TCP5	F27G19.11|NOZZLE|NZZ|SPOROCYTELESS	MSL3.11|MSL3_11|TEOSINTE BRANCHED 1|cycloidea and PCF transcription factor 5	FRET	physical	Wei B (2015)	PUBMED:25378179	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O81836	NP_194463	Q9FME3	-	NP_200905	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1174440	828841	827568	14128	12861	AT4G27330	AT4G18390	SPL	TCP2	F27G19.11|NOZZLE|NZZ|SPOROCYTELESS	F28J12.50|F28J12_50|TEOSINTE BRANCHED 1|cycloidea and PCF transcription factor 2	FRET	physical	Wei B (2015)	PUBMED:25378179	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O81836	NP_194463	Q93V43	-	NP_567553|NP_001078407	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1174441	828841	821386	14128	6719	AT4G27330	AT3G18550	SPL	BRC1	F27G19.11|NOZZLE|NZZ|SPOROCYTELESS	ATTCP18|BRANCHED 1|TCP18	FRET	physical	Wei B (2015)	PUBMED:25378179	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O81836	NP_194463	A1YKT1	-	NP_001118656|NP_188485	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1174442	828841	830701	14128	15979	AT4G27330	AT5G08070	SPL	TCP17	F27G19.11|NOZZLE|NZZ|SPOROCYTELESS	T22D6.10|T22D6_10|TCP domain protein 17	FRET	physical	Wei B (2015)	PUBMED:25378179	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O81836	NP_194463	Q9LEZ9	-	NP_196424	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1174443	828841	839901	14128	25136	AT4G27330	AT1G30210	SPL	TCP24	F27G19.11|NOZZLE|NZZ|SPOROCYTELESS	ATTCP24|F12P21.11|F12P21_11|TEOSINTE BRANCHED 1|and PCF family 24|cycloidea	FRET	physical	Wei B (2015)	PUBMED:25378179	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O81836	NP_194463	Q9C758	-	NP_564351|NP_849730	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1174445	824920	831339	10236	16616	AT3G57530	AT5G14870	CPK32	CNGC18	ATCPK32|CDPK32|calcium-dependent protein kinase 32	ATCNGC18|CYCLIC NUCLEOTIDE-GATED CHANNEL 18|T9L3.170|T9L3_170	FRET	physical	Zhou L (2014)	PUBMED:24121288	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q6NLQ6	-	NP_191312	Q9LEQ3	-	NP_196991	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1174549	838600	819125	23839	4461	AT1G20110	AT2G45170	AT1G20110	ATG8E	T20H2.10|T20H2_10	ATATG8E|AUTOPHAGY 8E|T14P1.2	FRET	physical	Gao C (2015)	PUBMED:25624505	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9ASS2	NP_564103	Q8S926	-	NP_850431|NP_182042	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1174785	820499	818978	5833	4314	AT3G13110	AT2G43750	SERAT2;2	OASB	ATSERAT2;2|SAT-1|SAT-A|SAT-M|SAT3|SERINE ACETYLTRANSFERASE 3|SERINE ACETYLTRANSFERASE A|SERINE ACETYLTRANSFERASE-1|SERINE ACETYLTRANSFERASE-MITOCHONDRIAL|serine acetyltransferase 2;2	ACS1|ARABIDOPSIS CYSTEINE SYNTHASE 1|ARABIDOPSIS THALIANA CYSTEIN SYNTHASE-B|ATCS-B|CHLOROPLAST O-ACETYLSERINE SULFHYDRYLASE 1|CPACS1|CSASE B|CYSTEINE SYNTHASE|F18O19.14|O-acetylserine (thiol) lyase B	FRET	physical	Wirtz M (2012)	PUBMED:22730323	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q39218	-	NP_187918	P47999	Q0WW95	NP_001189745|NP_181903	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1237953	820242	843043	5576	28264	AT3G10730	AT1G67230	SUN2	LINC1	ARABIDOPSIS SAD1/UNC-84 DOMAIN PROTEIN 2|ATSUN2|SAD1/UNC-84 domain protein 2	F1N21.5|LITTLE NUCLEI1	FRET	physical	Graumann K (2014)	PUBMED:24667841	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9SG79	NP_566380	-	F4HRT5	NP_176892	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1237954	830381	843043	15660	28264	AT5G04990	AT1G67230	SUN1	LINC1	ARABIDOPSIS SAD1/UNC-84 DOMAIN PROTEIN 1|ATSUN1|MUG13.15|MUG13_15|SAD1/UNC-84 domain protein 1	F1N21.5|LITTLE NUCLEI1	FRET	physical	Graumann K (2014)	PUBMED:24667841	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9FF75	NP_196118	-	F4HRT5	NP_176892	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1237958	3708	672	109913	107140	-	-	ITPR1	BRCA1	ACV|CLA4|INSP3R1|IP3R|IP3R1|PPP1R94|SCA15|SCA16|SCA29	BRCAI|BRCC1|BROVCA1|FANCS|IRIS|PNCA4|PPP1R53|PSCP|RNF53	FRET	physical	Hedgepeth SC (2015)	PUBMED:25645916	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14643	Q59H91|B4DER3|B4DGH1	NP_001365381|NP_001093422|NP_001161744|NP_002213	P38398	E9PFZ0|A0A024R1V0	NP_009229|NP_009228|NP_009230|NP_009231|NP_009225	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1238127	834523	834523	19772	19772	AT5G44930	AT5G44930	ARAD2	ARAD2	ARABINAN DEFICIENT 2|ARABINOSYLTRANSFERASE|K21C13.11|K21C13_11	ARABINAN DEFICIENT 2|ARABINOSYLTRANSFERASE|K21C13.11|K21C13_11	FRET	physical	Harholt J (2012)	PUBMED:22270560	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FLA5	-	NP_851132|NP_199306	Q9FLA5	-	NP_851132|NP_199306	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238128	834523	818076	19772	3422	AT5G44930	AT2G35100	ARAD2	ARAD1	ARABINAN DEFICIENT 2|ARABINOSYLTRANSFERASE|K21C13.11|K21C13_11	ARABINAN DEFICIENT 1|ARABINOSYLTRANSFERASE|T4C15.23|T4C15_23	FRET	physical	Harholt J (2012)	PUBMED:22270560	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FLA5	-	NP_851132|NP_199306	Q6DBG8	-	NP_850241	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238129	818076	834523	3422	19772	AT2G35100	AT5G44930	ARAD1	ARAD2	ARABINAN DEFICIENT 1|ARABINOSYLTRANSFERASE|T4C15.23|T4C15_23	ARABINAN DEFICIENT 2|ARABINOSYLTRANSFERASE|K21C13.11|K21C13_11	FRET	physical	Harholt J (2012)	PUBMED:22270560	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q6DBG8	-	NP_850241	Q9FLA5	-	NP_851132|NP_199306	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238130	818076	818076	3422	3422	AT2G35100	AT2G35100	ARAD1	ARAD1	ARABINAN DEFICIENT 1|ARABINOSYLTRANSFERASE|T4C15.23|T4C15_23	ARABINAN DEFICIENT 1|ARABINOSYLTRANSFERASE|T4C15.23|T4C15_23	FRET	physical	Harholt J (2012)	PUBMED:22270560	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q6DBG8	-	NP_850241	Q6DBG8	-	NP_850241	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238137	835920	832549	21164	17824	AT5G58080	AT5G24800	RR18	BZIP9	ARR18|K21L19.7|K21L19_7|response regulator 18	ARABIDOPSIS THALIANA BASIC LEUCINE ZIPPER 9|ATBZIP9|BASIC LEUCINE ZIPPER O2 HOMOLOG 2|BZIP PROTEIN BZO2H2|BZO2H2|F6A4.10|F6A4_10|basic leucine zipper 9	FRET	physical	Veerabagu M (2014)	PUBMED:24948556	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9FGT7	-	NP_200616	Q9FUD3	-	NP_568457	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238138	835920	832990	21164	18262	AT5G58080	AT5G28770	RR18	BZO2H3	ARR18|K21L19.7|K21L19_7|response regulator 18	Arabidopsis thaliana basic leucine zipper 63|AtbZIP63|T32B20.4|T32B20_4	FRET	physical	Veerabagu M (2014)	PUBMED:24948556	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9FGT7	-	NP_200616	B9DGI8	-	NP_568508|NP_851088|NP_001031962	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238139	835920	828219	21164	13508	AT5G58080	AT4G02640	RR18	BZO2H1	ARR18|K21L19.7|K21L19_7|response regulator 18	ATBZIP10|Arabidopsis thaliana basic leucine zipper 10	FRET	physical	Veerabagu M (2014)	PUBMED:24948556	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9FGT7	-	NP_200616	O22763	-	NP_849290|NP_192173	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238147	819124	814686	4460	89	AT2G45160	AT2G01570	HAM1	RGA1	ARABIDOPSIS THALIANA HAIRY MERISTEM 1|ATHAM1|HAIRY MERISTEM 1|T14P1.3	F2I9.19|F2I9_19|REPRESSOR OF GA|REPRESSOR OF GA1-3 1|RGA	FRET	physical	Ma Z (2014)	PUBMED:25101599	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q7XJM8	B7ZWR8	NP_182041	Q9SLH3	-	NP_178266	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238156	829480	837362	14764	22603	AT4G33430	AT1G08420	BAK1	BSL2	ATBAK1|ATSERK3|BRI1-associated receptor kinase|ELG|ELONGATED|F17M5.190|F17M5_190|RECEPTOR KINASES LIKE SERK 10|RKS10|SERK3|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 3	BRI1 suppressor 1 (BSU1)-like 2|T27G7.10|T27G7_10	FRET	physical	Wu X (2014)	PUBMED:24924143	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q94F62	F4JIX9	NP_001190904|NP_567920	Q9SJF0	F4HW26	NP_001184935|NP_172318	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238173	828764	817240	14051	2592	AT4G26570	AT2G26980	CBL3	CIPK3	ATCBL3|T15N24.20|T15N24_20|calcineurin B-like 3	CBL-INTERACTING PROTEIN KINASE 3|SNF1-RELATED PROTEIN KINASE 3.17|SnRK3.17|T20P8.3|T20P8_3	FRET	physical	Tang RJ (2015)	PUBMED:25646412	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8LEM7	-	NP_849449|NP_194387	Q2V452	F4IVM9|F4IVM7	NP_850094|NP_850095|NP_850092|NP_850093|NP_001031427	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238174	828764	839349	14051	24584	AT4G26570	AT1G01140	CBL3	CIPK9	ATCBL3|T15N24.20|T15N24_20|calcineurin B-like 3	CBL-interacting protein kinase 9|F6F3.28|PKS6|PROTEIN KINASE 6|SNF1-RELATED PROTEIN KINASE 3.12|SnRK3.12	FRET	physical	Tang RJ (2015)	PUBMED:25646412	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8LEM7	-	NP_849449|NP_194387	Q9MAM1	-	NP_171622|NP_849571|NP_849570	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238175	828764	839907	14051	25142	AT4G26570	AT1G30270	CBL3	CIPK23	ATCBL3|T15N24.20|T15N24_20|calcineurin B-like 3	ATCIPK23|CBL-interacting protein kinase 23|F12P21.6|F12P21_6|LKS1|LOW-K+-SENSITIVE 1|SNF1-RELATED PROTEIN KINASE 3.23|SnRK3.23	FRET	physical	Tang RJ (2015)	PUBMED:25646412	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8LEM7	-	NP_849449|NP_194387	Q93VD3	-	NP_564353	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238176	828764	832246	14051	17521	AT4G26570	AT5G21326	CBL3	AT5G21326	ATCBL3|T15N24.20|T15N24_20|calcineurin B-like 3	-	FRET	physical	Tang RJ (2015)	PUBMED:25646412	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8LEM7	-	NP_849449|NP_194387	Q84VQ3	-	NP_850861	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238177	835697	817240	20941	2592	AT5G55990	AT2G26980	CBL2	CIPK3	ATCBL2|MDA7.3|MDA7_3|calcineurin B-like protein 2	CBL-INTERACTING PROTEIN KINASE 3|SNF1-RELATED PROTEIN KINASE 3.17|SnRK3.17|T20P8.3|T20P8_3	FRET	physical	Tang RJ (2015)	PUBMED:25646412	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8LAS7	-	NP_200410	Q2V452	F4IVM9|F4IVM7	NP_850094|NP_850095|NP_850092|NP_850093|NP_001031427	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238178	835697	839349	20941	24584	AT5G55990	AT1G01140	CBL2	CIPK9	ATCBL2|MDA7.3|MDA7_3|calcineurin B-like protein 2	CBL-interacting protein kinase 9|F6F3.28|PKS6|PROTEIN KINASE 6|SNF1-RELATED PROTEIN KINASE 3.12|SnRK3.12	FRET	physical	Tang RJ (2015)	PUBMED:25646412	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8LAS7	-	NP_200410	Q9MAM1	-	NP_171622|NP_849571|NP_849570	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238179	835697	839907	20941	25142	AT5G55990	AT1G30270	CBL2	CIPK23	ATCBL2|MDA7.3|MDA7_3|calcineurin B-like protein 2	ATCIPK23|CBL-interacting protein kinase 23|F12P21.6|F12P21_6|LKS1|LOW-K+-SENSITIVE 1|SNF1-RELATED PROTEIN KINASE 3.23|SnRK3.23	FRET	physical	Tang RJ (2015)	PUBMED:25646412	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8LAS7	-	NP_200410	Q93VD3	-	NP_564353	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238180	835697	832246	20941	17521	AT5G55990	AT5G21326	CBL2	AT5G21326	ATCBL2|MDA7.3|MDA7_3|calcineurin B-like protein 2	-	FRET	physical	Tang RJ (2015)	PUBMED:25646412	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8LAS7	-	NP_200410	Q84VQ3	-	NP_850861	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238181	850930	855418	31499	35540	YLR229C	YNL298W	CDC42	CLA4	Rho family GTPase CDC42|L000000276	ERC10|serine/threonine protein kinase CLA4|L000000564|L000002643	FRET	physical	Smith SE (2013)	PUBMED:24062340	559292	559292	Low Throughput	-	-	Figure 4	-	BIOGRID	P19073	-	NP_013330	P48562	-	NP_014101	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1238204	827991	817907	13282	3254	AT4G01690	AT2G33430	PPOX	DAL1	HEMG1|PPO1|PROTOPORPHYRINOGEN OXIDASE	DAL|DIFFERENTIATION AND GREENING-LIKE|F4P9.20|F4P9_20|differentiation and greening-like 1	FRET	physical	Zhang F (2014)	PUBMED:24497494	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P55826	-	NP_192078|NP_849283	-	O22793	NP_180901	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238205	827991	820729	13282	6063	AT4G01690	AT3G15000	PPOX	AT3G15000	HEMG1|PPO1|PROTOPORPHYRINOGEN OXIDASE	-	FRET	physical	Zhang F (2014)	PUBMED:24497494	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P55826	-	NP_192078|NP_849283	Q9LKA5	Q5XEU8	NP_566496	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238206	827991	837685	13282	22925	AT4G01690	AT1G11430	PPOX	AT1G11430	HEMG1|PPO1|PROTOPORPHYRINOGEN OXIDASE	T23J18.10|T23J18_10	FRET	physical	Zhang F (2014)	PUBMED:24497494	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P55826	-	NP_192078|NP_849283	-	Q9LPZ1	NP_172610	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238228	829901	842177	15182	27402	AT4G37460	AT1G58100	SRFR1	AT1G58100	F6G17.110|F6G17_110|SUPPRESSOR OF RPS4-RLD 1	T15M6.11	FRET	physical	Kim SH (2014)	PUBMED:24689742	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	F4JS25	-	NP_195462	Q9C518	-	NP_176107|NP_001077739	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238229	829901	823916	15182	9236	AT4G37460	AT3G47620	SRFR1	TCP14	F6G17.110|F6G17_110|SUPPRESSOR OF RPS4-RLD 1	AtTCP14|TEOSINTE BRANCHED|cycloidea and PCF (TCP) 14	FRET	physical	Kim SH (2014)	PUBMED:24689742	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	F4JS25	-	NP_195462	Q93Z00	-	NP_190346	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238230	829901	843305	15182	28526	AT4G37460	AT1G69690	SRFR1	AT1G69690	F6G17.110|F6G17_110|SUPPRESSOR OF RPS4-RLD 1	T6C23.11|T6C23_11	FRET	physical	Kim SH (2014)	PUBMED:24689742	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	F4JS25	-	NP_195462	Q9C9L2	-	NP_564973	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238253	814686	819738	89	5073	AT2G01570	AT3G05690	RGA1	NF-YA2	F2I9.19|F2I9_19|REPRESSOR OF GA|REPRESSOR OF GA1-3 1|RGA	ATHAP2B|F18C1.4|F18C1_4|HAP2B|HEME ACTIVATOR PROTEIN (YEAST) HOMOLOG 2B|UNE8|UNFERTILIZED EMBRYO SAC 8|nuclear factor Y|subunit A2	FRET	physical	Hou X (2014)	PUBMED:25105952	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SLH3	-	NP_178266	Q9M9X4	Q147N1	NP_187220	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238254	814686	837417	89	22658	AT2G01570	AT1G08970	RGA1	NF-YC9	F2I9.19|F2I9_19|REPRESSOR OF GA|REPRESSOR OF GA1-3 1|RGA	F7G19.16|F7G19_16|HAP5C|HEME ACTIVATED PROTEIN 5C|nuclear factor Y|subunit C9	FRET	physical	Hou X (2014)	PUBMED:25105952	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SLH3	-	NP_178266	Q8L4B2	B9DFS3	NP_973797|NP_973796|NP_172371|NP_849619	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238255	814686	834815	89	20063	AT2G01570	AT5G47640	RGA1	NF-YB2	F2I9.19|F2I9_19|REPRESSOR OF GA|REPRESSOR OF GA1-3 1|RGA	MNJ7.23|MNJ7_23|nuclear factor Y|subunit B2	FRET	physical	Hou X (2014)	PUBMED:25105952	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SLH3	-	NP_178266	Q9FGJ3	-	NP_199575	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238256	831441	819738	16717	5073	AT5G15840	AT3G05690	CO	NF-YA2	CONSTANS|F14F8.220|F14F8_220|FG	ATHAP2B|F18C1.4|F18C1_4|HAP2B|HEME ACTIVATOR PROTEIN (YEAST) HOMOLOG 2B|UNE8|UNFERTILIZED EMBRYO SAC 8|nuclear factor Y|subunit A2	FRET	physical	Hou X (2014)	PUBMED:25105952	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39057	-	NP_001031887|NP_197088	Q9M9X4	Q147N1	NP_187220	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238257	831441	837417	16717	22658	AT5G15840	AT1G08970	CO	NF-YC9	CONSTANS|F14F8.220|F14F8_220|FG	F7G19.16|F7G19_16|HAP5C|HEME ACTIVATED PROTEIN 5C|nuclear factor Y|subunit C9	FRET	physical	Hou X (2014)	PUBMED:25105952	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39057	-	NP_001031887|NP_197088	Q8L4B2	B9DFS3	NP_973797|NP_973796|NP_172371|NP_849619	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238258	831441	834815	16717	20063	AT5G15840	AT5G47640	CO	NF-YB2	CONSTANS|F14F8.220|F14F8_220|FG	MNJ7.23|MNJ7_23|nuclear factor Y|subunit B2	FRET	physical	Hou X (2014)	PUBMED:25105952	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39057	-	NP_001031887|NP_197088	Q9FGJ3	-	NP_199575	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238598	834676	831722	19925	16998	AT5G46330	AT5G01540	FLS2	LECRKA4.1	FLAGELLIN-SENSITIVE 2|MPL12.13|MPL12.8|MPL12_13	F7A7.60|F7A7_60|lectin receptor kinase a4.1	FRET	physical	Huang PY (2014)	PUBMED:24844677	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FL28	C0LGU8	NP_199445	Q9M021	-	NP_195774	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238599	834676	829480	19925	14764	AT5G46330	AT4G33430	FLS2	BAK1	FLAGELLIN-SENSITIVE 2|MPL12.13|MPL12.8|MPL12_13	ATBAK1|ATSERK3|BRI1-associated receptor kinase|ELG|ELONGATED|F17M5.190|F17M5_190|RECEPTOR KINASES LIKE SERK 10|RKS10|SERK3|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 3	FRET	physical	Huang PY (2014)	PUBMED:24844677	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FL28	C0LGU8	NP_199445	Q94F62	F4JIX9	NP_001190904|NP_567920	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238759	778332	101266456	2310871	2332634	-	Solyc01g094320.1.1	KPP	PLIM2a	-	-	FRET	physical	Gui CP (2014)	PUBMED:25194029	4081	4081	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q5DK69	NP_001234159	-	K4AZH3	NP_001288583	-	-	-	-	-	-	Solanum lycopersicum	Solanum lycopersicum
+1238763	544021	544021	2310432	2310432	-	-	PRK1	PRK1	LePRK1	LePRK1	FRET	physical	Gui CP (2014)	PUBMED:25194029	4081	4081	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	O64398	NP_001233883	-	O64398	NP_001233883	-	-	-	-	-	-	Solanum lycopersicum	Solanum lycopersicum
+1238764	544021	778332	2310432	2310871	-	-	PRK1	KPP	LePRK1	-	FRET	physical	Gui CP (2014)	PUBMED:25194029	4081	4081	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	O64398	NP_001233883	-	Q5DK69	NP_001234159	-	-	-	-	-	-	Solanum lycopersicum	Solanum lycopersicum
+1238773	837391	817702	22632	3049	AT1G08700	AT2G31440	PS1	AT2G31440	F22O13.18|F22O13_18|Presenilin-1	T28P16.7|T28P16_7	FRET	physical	Smolarkiewicz M (2014)	PUBMED:24723404	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O64668	Q0V7S4	NP_172346	Q8L9G7	-	NP_565724	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238774	817540	817702	2890	3049	AT2G29900	AT2G31440	PS2	AT2G31440	F6K5.3|F6K5_3|Presenilin-2	T28P16.7|T28P16_7	FRET	physical	Smolarkiewicz M (2014)	PUBMED:24723404	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SIK7	-	NP_180551	Q8L9G7	-	NP_565724	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238778	824430	817702	9748	3049	AT3G52640	AT2G31440	AT3G52640	AT2G31440	-	T28P16.7|T28P16_7	FRET	physical	Smolarkiewicz M (2014)	PUBMED:24723404	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8GUM5	F4J819|F4J820	NP_001030848|NP_974419|NP_190832	Q8L9G7	-	NP_565724	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238779	837391	824430	22632	9748	AT1G08700	AT3G52640	PS1	AT3G52640	F22O13.18|F22O13_18|Presenilin-1	-	FRET	physical	Smolarkiewicz M (2014)	PUBMED:24723404	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O64668	Q0V7S4	NP_172346	Q8GUM5	F4J819|F4J820	NP_001030848|NP_974419|NP_190832	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238780	830790	824430	16068	9748	AT5G09310	AT3G52640	AT5G09310	AT3G52640	T5E8.110|T5E8_110	-	FRET	physical	Smolarkiewicz M (2014)	PUBMED:24723404	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9FY84	-	NP_196493	Q8GUM5	F4J819|F4J820	NP_001030848|NP_974419|NP_190832	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238783	837391	830790	22632	16068	AT1G08700	AT5G09310	PS1	AT5G09310	F22O13.18|F22O13_18|Presenilin-1	T5E8.110|T5E8_110	FRET	physical	Smolarkiewicz M (2014)	PUBMED:24723404	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O64668	Q0V7S4	NP_172346	Q9FY84	-	NP_196493	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238784	817540	830790	2890	16068	AT2G29900	AT5G09310	PS2	AT5G09310	F6K5.3|F6K5_3|Presenilin-2	T5E8.110|T5E8_110	FRET	physical	Smolarkiewicz M (2014)	PUBMED:24723404	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SIK7	-	NP_180551	Q9FY84	-	NP_196493	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238785	824348	827555	9666	12848	AT3G51850	AT4G18290	CPK13	KAT2	calcium-dependent protein kinase 13	T9A21.140|T9A21_140|VOLTAGE-GATED POTASSIUM CHANNEL 2|potassium channel in Arabidopsis thaliana 2	FRET	physical	Ronzier E (2014)	PUBMED:25037208	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8W4I7	-	NP_190753	Q38849	-	NP_193563	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238800	830424	816035	15703	1394	AT5G05410	AT2G15430	DREB2A	NRPB3	DEHYDRATION-RESPONSIVE ELEMENT BINDING PROTEIN 2|DRE-binding protein 2A|DREB2|K18I23.22|K18I23_22	F26H6.5|F26H6_5|NRPD3|NRPE3A|RBP36A|RPB35.5A	FRET	physical	Sato H (2014)	PUBMED:25490919	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O82132	A8MSB1	NP_001031837|NP_196160	Q39211	-	NP_179145	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238809	816035	818472	1394	3812	AT2G15430	AT2G38880	NRPB3	NF-YB1	F26H6.5|F26H6_5|NRPD3|NRPE3A|RBP36A|RPB35.5A	ATHAP3|ATNF-YB1|HAP3|HAP3A|HEME ACTIVATOR PROTEIN (YEAST) HOMOLOG 3|HEME ACTIVATOR PROTEIN (YEAST) HOMOLOG 3A|NUCLEAR FACTOR Y SUBUNIT B1|T7F6.5|T7F6_5|nuclear factor Y|subunit B1	FRET	physical	Sato H (2014)	PUBMED:25490919	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39211	-	NP_179145	Q9SLG0	B6EUB6|Q3EBK1|F4ITZ4|A6XB86|F4ITZ0	NP_850304|NP_850305|NP_001031510|NP_001031511|NP_001031512|NP_001189705|NP_001189704|NP_030436	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238810	816035	834815	1394	20063	AT2G15430	AT5G47640	NRPB3	NF-YB2	F26H6.5|F26H6_5|NRPD3|NRPE3A|RBP36A|RPB35.5A	MNJ7.23|MNJ7_23|nuclear factor Y|subunit B2	FRET	physical	Sato H (2014)	PUBMED:25490919	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39211	-	NP_179145	Q9FGJ3	-	NP_199575	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238811	816035	827101	1394	12398	AT2G15430	AT4G14540	NRPB3	NF-YB3	F26H6.5|F26H6_5|NRPD3|NRPE3A|RBP36A|RPB35.5A	DL3310W|FCAALL.252|nuclear factor Y|subunit B3	FRET	physical	Sato H (2014)	PUBMED:25490919	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39211	-	NP_179145	O23310	-	NP_193190	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238812	816035	834818	1394	20066	AT2G15430	AT5G47670	NRPB3	NF-YB6	F26H6.5|F26H6_5|NRPD3|NRPE3A|RBP36A|RPB35.5A	L1L|LEC1-LIKE|MNJ7.26|MNJ7_26|nuclear factor Y|subunit B6	FRET	physical	Sato H (2014)	PUBMED:25490919	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39211	-	NP_179145	Q84W66	-	NP_199578|NP_001078727	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238813	816035	815843	1394	1204	AT2G15430	AT2G13570	NRPB3	NF-YB7	F26H6.5|F26H6_5|NRPD3|NRPE3A|RBP36A|RPB35.5A	T10F5.11|T10F5_11|nuclear factor Y|subunit B7	FRET	physical	Sato H (2014)	PUBMED:25490919	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39211	-	NP_179145	Q9SIT9	C0SV44	NP_178981	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238814	816035	830853	1394	16131	AT2G15430	AT5G09920	NRPB3	NRPB4	F26H6.5|F26H6_5|NRPD3|NRPE3A|RBP36A|RPB35.5A	ATRPB15.9|MYH9.13|MYH9_13|RNA POLYMERASE II 15.9 KDA SUBUNIT|RPB15.9|RPB15.9.9	FRET	physical	Sato H (2014)	PUBMED:25490919	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39211	-	NP_179145	O48890	-	NP_196554	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238817	819738	816035	5073	1394	AT3G05690	AT2G15430	NF-YA2	NRPB3	ATHAP2B|F18C1.4|F18C1_4|HAP2B|HEME ACTIVATOR PROTEIN (YEAST) HOMOLOG 2B|UNE8|UNFERTILIZED EMBRYO SAC 8|nuclear factor Y|subunit A2	F26H6.5|F26H6_5|NRPD3|NRPE3A|RBP36A|RPB35.5A	FRET	physical	Sato H (2014)	PUBMED:25490919	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9M9X4	Q147N1	NP_187220	Q39211	-	NP_179145	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238818	819738	827101	5073	12398	AT3G05690	AT4G14540	NF-YA2	NF-YB3	ATHAP2B|F18C1.4|F18C1_4|HAP2B|HEME ACTIVATOR PROTEIN (YEAST) HOMOLOG 2B|UNE8|UNFERTILIZED EMBRYO SAC 8|nuclear factor Y|subunit A2	DL3310W|FCAALL.252|nuclear factor Y|subunit B3	FRET	physical	Sato H (2014)	PUBMED:25490919	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9M9X4	Q147N1	NP_187220	O23310	-	NP_193190	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1238992	837906	827729	23146	13022	AT1G13460	AT4G19850	AT1G13460	AT4G19850	T6J4.19|T6J4_19	ARABIDOPSIS THALIANA PHLOEM PROTEIN 2-A2|ATPP2-A2|PP2-A2|PP2A2|T16H5.210|T16H5_210|phloem protein 2-A2	FRET	physical	Kataya AR (2015)	PUBMED:25489022	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8LF36	Q0V836	NP_172803|NP_973816	O81866	F4JTZ6	NP_001154254|NP_193720	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239019	843095	843903	28316	29122	AT1G67700	AT1G75690	AT1G67700	AT1G75690	F12A21.32	F10A5.12|F10A5_12	FRET	physical	Jin H (2014)	PUBMED:24632535	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	F4HTQ4|Q94A67|Q8LDL0	NP_564903|NP_850972|NP_001185346	Q8GSJ6	-	NP_177698	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239038	831303	818629	16580	3967	AT5G14520	AT2G40360	AT5G14520	AT2G40360	T15N1.10|T15N1_10	T3G21.13|T3G21_13	FRET	physical	Zografidis A (2014)	PUBMED:25443833	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q9LYK7	NP_196956	-	F4IH25	NP_181567	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239039	831303	831408	16580	16684	AT5G14520	AT5G15550	AT5G14520	AT5G15550	T15N1.10|T15N1_10	T20K14.160|T20K14_160	FRET	physical	Zografidis A (2014)	PUBMED:25443833	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q9LYK7	NP_196956	-	F4KB59|Q9LF27	NP_197059|NP_974784	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239044	836163	830878	21407	16156	AT5G60410	AT5G10140	SIZ1	FLC	AT5G60420|ATSIZ1|MUF9.5|MUF9_5	AGAMOUS-like 25|AGL25|FLF|FLOWERING LOCUS C|FLOWERING LOCUS F|MADS BOX PROTEIN FLOWERING LOCUS F|T31P16.130|T31P16_130	FRET	physical	Son GH (2014)	PUBMED:24218331	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q680Q4	-	NP_200849|NP_001119465|NP_001032108|NP_974969|NP_001032109	Q9S7Q7	Q58T15|A5JM49|Q58T14|Q5Q9J1	NP_001190272|NP_001154703|NP_001078563|NP_196576	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239061	817170	820816	2522	6150	AT2G26300	AT3G15730	GP ALPHA 1	PLDALPHA1	ARABIDOPSIS THALIANA G PROTEIN ALPHA SUBUNIT 1|ATGPA1|G PROTEIN ALPHA SUBUNIT|G PROTEIN ALPHA SUBUNIT 1|GPA1|T1D16.6|T1D16_6	PHOSPHOLIPASE D|PLD|phospholipase D alpha 1	FRET	physical	Gookin TE (2014)	PUBMED:25187041	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P18064	-	NP_180198	Q38882	Q0WV84	NP_188194	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239062	829597	820816	14879	6150	AT4G34460	AT3G15730	AGB1	PLDALPHA1	ARABIDOPSIS G-PROTEIN BETA SUBUNIT|ATAGB1|ELK4|ERECTA-LIKE 4|GTP binding protein beta 1|T4L20.40|T4L20_40	PHOSPHOLIPASE D|PLD|phospholipase D alpha 1	FRET	physical	Gookin TE (2014)	PUBMED:25187041	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P49177	F4JLD1|A8MR96|F4JLD2	NP_974683|NP_001078491|NP_849494|NP_195172	Q38882	Q0WV84	NP_188194	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239085	824214	832246	9532	17521	AT3G50500	AT5G21326	SNRK2.2	AT5G21326	PROTEIN KINASE|SNF1-RELATED PROTEIN KINASE 2-2|SNF1-related protein kinase 2.2|SNRK2-2|SPK-2-2|SRK2D	-	FRET	physical	Mogami J (2015)	PUBMED:25614064	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39192	F4J0N1	NP_001190047|NP_190619	Q84VQ3	-	NP_850861	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239086	829541	832246	14823	17521	AT4G33950	AT5G21326	OST1	AT5G21326	ATOST1|F17I5.140|F17I5_140|OPEN STOMATA 1|P44|SNF1-RELATED PROTEIN KINASE 2.6|SNRK2-6|SNRK2.6|SRK2E|SUCROSE NONFERMENTING 1-RELATED PROTEIN KINASE 2-6	-	FRET	physical	Mogami J (2015)	PUBMED:25614064	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q940H6	B3H6F9	NP_567945|NP_001119111	Q84VQ3	-	NP_850861	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239087	844164	832246	29383	17521	AT1G78290	AT5G21326	AT1G78290	AT5G21326	-	-	FRET	physical	Mogami J (2015)	PUBMED:25614064	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9M9E9	-	NP_974170|NP_001077839	Q84VQ3	-	NP_850861	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239215	838993	835392	24231	20637	AT1G23820	AT5G53120	SPDS1	SPDS3	F5O8.38|F5O8_38|spermidine synthase 1	ATSPDS3|MFH8.5|MFH8_5|SPERMIDINE SYNTHASE 3|SPMS	FRET	physical	Belda-Palazon B (2012)	PUBMED:23056524	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9ZUB3	F4I7M5	NP_973900|NP_173794	Q94BN2	F4KJ05	NP_001190527|NP_001078748|NP_001078749|NP_851178|NP_851179|NP_568785	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239216	843367	835392	28587	20637	AT1G70310	AT5G53120	SPDS2	SPDS3	F17O7.16|F17O7_16|spermidine synthase 2	ATSPDS3|MFH8.5|MFH8_5|SPERMIDINE SYNTHASE 3|SPMS	FRET	physical	Belda-Palazon B (2012)	PUBMED:23056524	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O48661	Q5PNT7	NP_177188	Q94BN2	F4KJ05	NP_001190527|NP_001078748|NP_001078749|NP_851178|NP_851179|NP_568785	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239217	838993	843367	24231	28587	AT1G23820	AT1G70310	SPDS1	SPDS2	F5O8.38|F5O8_38|spermidine synthase 1	F17O7.16|F17O7_16|spermidine synthase 2	FRET	physical	Belda-Palazon B (2012)	PUBMED:23056524	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9ZUB3	F4I7M5	NP_973900|NP_173794	O48661	Q5PNT7	NP_177188	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239224	836289	831587	21533	16863	AT5G61670	AT5G17230	AT5G61670	PSY	K11J9.20|K11J9_20	PHYTOENE SYNTHASE	FRET	physical	Zhou X (2015)	PUBMED:25675505	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q9FKF4	NP_974975|NP_200975	P37271	F4KGX7	NP_001031895|NP_001154715|NP_197225	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239225	830500	831587	15779	16863	AT5G06130	AT5G17230	AT5G06130	PSY	K16F4.10|K16F4_10	PHYTOENE SYNTHASE	FRET	physical	Zhou X (2015)	PUBMED:25675505	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q8VYD8|F4K2C6	NP_851031|NP_196231	P37271	F4KGX7	NP_001031895|NP_001154715|NP_197225	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239242	829981	841584	15261	26809	AT4G38240	AT1G51590	CGL1	MNS1	CGL|COMPLEX GLYCAN LESS|COMPLEX GLYCAN LESS 1|F20D10.360|F20D10_360|GNTI|N-ACETYLGLUCOSAMINYLTRANSFERASE I	ALPHA-MANNOSIDASE IB|F5D21.1|F5D21_1|MANIB|alpha-mannosidase 1	FRET	physical	Schoberer J (2013)	PUBMED:23400704	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9XGM8	F4JTL6|W8Q2W3	NP_849517|NP_001190951|NP_195537	Q9C512	-	NP_001031171|NP_175570	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239243	829981	829981	15261	15261	AT4G38240	AT4G38240	CGL1	CGL1	CGL|COMPLEX GLYCAN LESS|COMPLEX GLYCAN LESS 1|F20D10.360|F20D10_360|GNTI|N-ACETYLGLUCOSAMINYLTRANSFERASE I	CGL|COMPLEX GLYCAN LESS|COMPLEX GLYCAN LESS 1|F20D10.360|F20D10_360|GNTI|N-ACETYLGLUCOSAMINYLTRANSFERASE I	FRET	physical	Schoberer J (2013)	PUBMED:23400704	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9XGM8	F4JTL6|W8Q2W3	NP_849517|NP_001190951|NP_195537	Q9XGM8	F4JTL6|W8Q2W3	NP_849517|NP_001190951|NP_195537	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239247	835643	835643	20887	20887	AT5G55500	AT5G55500	XYLT	XYLT	2-XYLOSYLTRANSFERASE|ARABIDOPSIS THALIANA BETA-1|ATXYLT|beta-1	2-XYLOSYLTRANSFERASE|ARABIDOPSIS THALIANA BETA-1|ATXYLT|beta-1	FRET	physical	Schoberer J (2013)	PUBMED:23400704	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LDH0	W8PUA9	NP_568825	Q9LDH0	W8PUA9	NP_568825	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239248	835643	831347	20887	16624	AT5G55500	AT5G14950	XYLT	GMII	2-XYLOSYLTRANSFERASE|ARABIDOPSIS THALIANA BETA-1|ATXYLT|beta-1	ATGMII|F2G14.70|F2G14_70|golgi alpha-mannosidase II	FRET	physical	Schoberer J (2013)	PUBMED:23400704	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LDH0	W8PUA9	NP_568825	-	Q9LFR0	NP_196999	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239249	831347	831347	16624	16624	AT5G14950	AT5G14950	GMII	GMII	ATGMII|F2G14.70|F2G14_70|golgi alpha-mannosidase II	ATGMII|F2G14.70|F2G14_70|golgi alpha-mannosidase II	FRET	physical	Schoberer J (2013)	PUBMED:23400704	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9LFR0	NP_196999	-	Q9LFR0	NP_196999	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239270	816394	819311	1751	4646	AT2G18790	AT2G46970	PHYB	PIL1	HY3|MSF3.17|MSF3_17|OOP1|OUT OF PHASE 1|PHYTOCHROME B	F14M4.20|phytochrome interacting factor 3-like 1	FRET	physical	Choi H (2013)	PUBMED:23964902	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P14713	-	NP_179469	Q8L5W8	-	NP_182220	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239271	816394	834883	1751	20129	AT2G18790	AT5G48300	PHYB	ADG1	HY3|MSF3.17|MSF3_17|OOP1|OUT OF PHASE 1|PHYTOCHROME B	ADP GLUCOSE PYROPHOSPHORYLASE SMALL SUBUNIT|ADP glucose pyrophosphorylase 1|ADP-GLUCOSE PYROPHOSPHORYLASE SMALL SUBUNIT 1|APS1|K23F3.2|K23F3_2	FRET	physical	Choi H (2013)	PUBMED:23964902	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P14713	-	NP_179469	P55228	-	NP_199641	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239272	816394	817102	1751	2454	AT2G18790	AT2G25620	PHYB	DBP1	HY3|MSF3.17|MSF3_17|OOP1|OUT OF PHASE 1|PHYTOCHROME B	AtDBP1|DNA-binding protein phosphatase 1	FRET	physical	Choi H (2013)	PUBMED:23964902	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P14713	-	NP_179469	Q9SLA1	-	NP_180133	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239273	816394	843790	1751	29009	AT2G18790	AT1G74490	PHYB	AT1G74490	HY3|MSF3.17|MSF3_17|OOP1|OUT OF PHASE 1|PHYTOCHROME B	F1M20.17|F1M20_17	FRET	physical	Choi H (2013)	PUBMED:23964902	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P14713	-	NP_179469	-	Q7Y224	NP_177589	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239274	816394	817159	1751	2511	AT2G18790	AT2G26190	PHYB	AT2G26190	HY3|MSF3.17|MSF3_17|OOP1|OUT OF PHASE 1|PHYTOCHROME B	T1D16.17|T1D16_17	FRET	physical	Choi H (2013)	PUBMED:23964902	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P14713	-	NP_179469	-	O64851	NP_565618	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239275	816394	839587	1751	24822	AT2G18790	AT1G26960	PHYB	AtHB23	HY3|MSF3.17|MSF3_17|OOP1|OUT OF PHASE 1|PHYTOCHROME B	HB23|T2P11.15|T2P11_15|homeobox protein 23	FRET	physical	Choi H (2013)	PUBMED:23964902	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P14713	-	NP_179469	Q8LFD3	-	NP_564268	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1239823	94241	11337	125152	116465	-	HT004	TP53INP1	GABARAP	SIP|TP53DINP1|TP53INP1A|TP53INP1B|Teap|p53DINP1	ATG8A|GABARAP-a|MM46	FRET	physical	Seillier M (2012)	PUBMED:22421968	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q96A56	A0A024R9C8	NP_150601|NP_001129205	O95166	Q6IAW1	NP_009209	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1239824	94241	11345	125152	116473	-	-	TP53INP1	GABARAPL2	SIP|TP53DINP1|TP53INP1A|TP53INP1B|Teap|p53DINP1	ATG8|ATG8C|GATE-16|GATE16|GEF-2|GEF2	FRET	physical	Seillier M (2012)	PUBMED:22421968	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q96A56	A0A024R9C8	NP_150601|NP_001129205	P60520	-	NP_009216	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1239825	94241	84557	125152	124137	-	RP11-346K17.1	TP53INP1	MAP1LC3A	SIP|TP53DINP1|TP53INP1A|TP53INP1B|Teap|p53DINP1	ATG8E|LC3|LC3A|MAP1ALC3|MAP1BLC3	FRET	physical	Seillier M (2012)	PUBMED:22421968	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q96A56	A0A024R9C8	NP_150601|NP_001129205	Q9H492	-	NP_115903|NP_852610	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1239826	94241	8878	125152	114397	-	-	TP53INP1	SQSTM1	SIP|TP53DINP1|TP53INP1A|TP53INP1B|Teap|p53DINP1	A170|OSIL|PDB3|ZIP3|p60|p62|p62B	FRET	physical	Seillier M (2012)	PUBMED:22421968	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q96A56	A0A024R9C8	NP_150601|NP_001129205	Q13501	-	NP_003891|NP_001135771|NP_001135770	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1240449	5356	988	111370	107424	-	RP1-319D22.1	PLRG1	CDC5L	Cwc1|PRL1|PRP46|PRPF46|TANGO4	CDC5|CDC5-LIKE|CEF1|PCDC5RP|dJ319D22.1	FRET	physical	Lleres D (2010)	PUBMED:20467437	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O43660	-	NP_001188493|NP_002660	Q99459	-	NP_001244	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1240450	4670	5356	110751	111370	-	-	HNRNPM	PLRG1	CEAR|HNRNPM4|HNRPM|HNRPM4|HTGR1|NAGR1|hnRNP M	Cwc1|PRL1|PRP46|PRPF46|TANGO4	FRET	physical	Lleres D (2010)	PUBMED:20467437	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P52272	Q59ES8	NP_112480|NP_001284347|NP_005959	O43660	-	NP_001188493|NP_002660	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1240451	4670	988	110751	107424	-	RP1-319D22.1	HNRNPM	CDC5L	CEAR|HNRNPM4|HNRPM|HNRPM4|HTGR1|NAGR1|hnRNP M	CDC5|CDC5-LIKE|CEF1|PCDC5RP|dJ319D22.1	FRET	physical	Lleres D (2010)	PUBMED:20467437	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P52272	Q59ES8	NP_112480|NP_001284347|NP_005959	Q99459	-	NP_001244	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1241857	166793	7709	127934	113503	-	RP1-134O19.2	ZBTB49	ZBTB17	ZNF509	MIZ-1|ZNF151|ZNF60|pHZ-67	FRET	physical	Jeon BN (2014)	PUBMED:25245946	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q6ZSB9	Q32ML0|A8K936	NP_660334	Q13105	Q53EM1	NP_001274533|NP_001274532|NP_003434|NP_001311067|NP_001311066|NP_001229813	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1253962	819019	830302	4355	15582	AT2G44130	AT5G04230	AT2G44130	PAL3	F6E13.26	ATPAL3|F21E1.150|F21E1_150|phenyl alanine ammonia-lyase 3	FRET	physical	Zhang X (2015)	PUBMED:25502410	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O80582	-	NP_566009	P45725	F4JW69	NP_001190223|NP_196043	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1253963	819019	820196	4355	5530	AT2G44130	AT3G10340	AT2G44130	PAL4	F6E13.26	phenylalanine ammonia-lyase 4	FRET	physical	Zhang X (2015)	PUBMED:25502410	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O80582	-	NP_566009	Q9SS45	-	NP_187645	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1253964	844383	818280	29601	3624	AT1G80440	AT2G37040	AT1G80440	PAL1	T21F11.23|T21F11_23	ATPAL1|CI0004|PHE ammonia lyase 1|T1J8.22|T1J8_22	FRET	physical	Zhang X (2015)	PUBMED:25502410	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9M8L2	-	NP_565238	P35510	-	NP_181241	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1255211	332	56616	106829	121157	-	hCG_1782202	BIRC5	DIABLO	API4|EPR-1	DFNA64|SMAC	FRET	physical	Pavlyukov MS (2011)	PUBMED:21536684	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O15392	H3BLT4	NP_001159|NP_001012270|NP_001012271	Q9NR28	Q502X2|K7X1S0|A0A024RBT2	NP_001265232|NP_001265233|NP_001265231|NP_001358262|NP_620308|NP_063940|NP_001265271	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1255215	5468	7329	111464	113177	-	LA16c-358B7.1	PPARG	UBE2I	CIMT1|GLM1|NR1C3|PPARG1|PPARG2|PPARgamma	C358B7.1|P18|UBC9	FRET	physical	Hartig SM (2015)	PUBMED:26192107	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P37231	D2KUA6	NP_056953|NP_619725|NP_005028|NP_619726	P63279	B0QYN7|A8K503	NP_003336|NP_919236|NP_919237|NP_919235	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1255268	821259	818302	6592	3646	AT3G01090	AT2G37250	KIN10	ADK	AKIN10|SNF1 kinase homolog 10|SNF1-RELATED PROTEIN KINASE|SNF1-RELATED PROTEIN KINASE 1.1|SNRK1.1|T4P13.22|T4P13_22	ATPADK1|F3G5.4|F3G5_4|adenosine kinase	FRET	physical	Mohannath G (2014)	PUBMED:24498147	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q38997	-	NP_850488|NP_566130|NP_001118546	Q9ZUU1	-	NP_181262	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1255269	832154	825455	17430	10769	AT5G20320	AT3G62800	DCL4	DRB4	ATDCL4|DICER-LIKE 4|F5O24.210|F5O24_210	double-stranded-RNA-binding protein 4	FRET	physical	Mohannath G (2014)	PUBMED:24498147	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P84634	F4K482	NP_197532|NP_001190348	Q8H1D4	-	NP_974480|NP_001154686|NP_191839	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1255282	827395	835699	12688	20943	AT4G16860	AT5G56010	RPP4	HSP81-3	DL4460C|FCAALL.47|recognition of peronospora parasitica 4	AtHsp90-3|AtHsp90.3|HEAT SHOCK PROTEIN 81.3|HEAT SHOCK PROTEIN 90-3|HEAT SHOCK PROTEIN 90.3|HSP81.2|Hsp81.3|MDA7.5|MDA7_5|heat shock protein 81-3	FRET	physical	Bao F (2014)	PUBMED:24611624	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	F4JNA9	NP_193420	P51818	-	NP_200412	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1256333	823964	824408	9283	9726	AT3G48090	AT3G52430	EDS1	PAD4	ATEDS1|EDS1 PROTEIN|enhanced disease susceptibility 1	ARABIDOPSIS PHYTOALEXIN DEFICIENT 4|ATPAD4|PHYTOALEXIN DEFICIENT 4	FRET	physical	Gao F (2014)	PUBMED:25107649	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	B9DFM5|Q9SU72	NP_190392|NP_001030829	Q9S745	-	NP_190811	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1256334	100233033	100253457	3644977	3654871	GSVIVT00016176001	GSVIVT00016197001	EDS1	LOC100253457	-	-	FRET	physical	Gao F (2014)	PUBMED:25107649	29760	29760	Low Throughput	-	-	-	-	BIOGRID	-	F6GSX7|G3F1Q7	NP_001267967	-	D7SI06		-	-	-	-	-	-	Vitis vinifera	Vitis vinifera
+1257347	823706	837498	9026	22739	AT3G45640	AT1G09700	MPK3	HYL1	ATMAPK3|ATMPK3|T6D9.4|mitogen-activated protein kinase 3	DRB1|DSRNA-BINDING PROTEIN 1|F21M12.9|F21M12_9|HYPONASTIC LEAVES 1	FRET	physical	Raghuram B (2015)	PUBMED:25417716	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q39023	Q0WVS7	NP_190150	O04492	-	NP_563850	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1257353	819190	819857	4526	5192	AT2G45820	AT3G06720	AT2G45820	IMPA-1	F4I18.20	AIMP ALPHA|AT-IMP|ATKAP ALPHA|IMPA1|IMPORTIN ALPHA|IMPORTIN ALPHA ISOFORM 1	FRET	physical	Marin M (2012)	PUBMED:23027878	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O80837	-	NP_182106	Q96321	-	NP_187328|NP_850524	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1257354	819190	827302	4526	12596	AT2G45820	AT4G16143	AT2G45820	IMPA-2	F4I18.20	importin alpha isoform 2	FRET	physical	Marin M (2012)	PUBMED:23027878	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O80837	-	NP_182106	-	F4JL11	NP_567485|NP_001154239	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1257355	819190	827472	4526	12765	AT2G45820	AT4G02150	AT2G45820	MOS6	F4I18.20	6|ATIMPALPHA3|IMPA-3|IMPORTIN ALPHA 3|IMPORTIN ALPHA ISOFORM 3|MODIFIER OF SNC1|T10M13.16|T10M13_16	FRET	physical	Marin M (2012)	PUBMED:23027878	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O80837	-	NP_182106	O04294	Q4JHM3	NP_192124	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1257356	819190	839517	4526	24752	AT2G45820	AT1G02690	AT2G45820	IMPA-6	F4I18.20	T14P4.3|T14P4_3|importin alpha isoform 6	FRET	physical	Marin M (2012)	PUBMED:23027878	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O80837	-	NP_182106	-	Q9FWY7|F4HXL3	NP_973743|NP_171769	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1257359	823492	830996	8812	16274	AT3G43810	AT5G11260	CAM7	HY5	CALMODULIN 7	BZIP TRANSCRIPTION FACTOR HY5|ELONGATED HYPOCOTYL 5|F2I11.150|F2I11_150|REVERSAL OF THE DET PHENOTYPE 5|TED 5	FRET	physical	Abbas N (2014)	PUBMED:24610722	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P59220	Q1H5F3	NP_189967	O24646	Q1H5E5	NP_568246	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1257367	56413	56413	121143	121143	-	-	LTB4R2	LTB4R2	BLT2|BLTR2|JULF2|KPG_004|LTB4-R 2|LTB4-R2|NOP9	BLT2|BLTR2|JULF2|KPG_004|LTB4-R 2|LTB4-R2|NOP9	FRET	physical	Arcemisbehere L (2010)	PUBMED:20026606	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9NPC1	B4E292	NP_062813|NP_001158164	Q9NPC1	B4E292	NP_062813|NP_001158164	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1276627	2733	2733	108995	108995	-	-	GLE1	GLE1	GLE1L|LCCS|LCCS1|hGLE1	GLE1L|LCCS|LCCS1|hGLE1	FRET	physical	Folkmann AW (2013)	PUBMED:24243016	9606	9606	Low Throughput	-	-	Figure 3	-	BIOGRID	Q53GS7	B3KMG0	NP_001003722|NP_001490	Q53GS7	B3KMG0	NP_001003722|NP_001490	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1277200	819566	819566	4901	4901	AT3G04110	AT3G04110	GLR1.1	GLR1.1	ATGLR1.1|GLR1|GLUTAMATE RECEPTOR 1|T6K12.27|T6K12_27|glutamate receptor 1.1	ATGLR1.1|GLR1|GLUTAMATE RECEPTOR 1|T6K12.27|T6K12_27|glutamate receptor 1.1	FRET	physical	Price MB (2013)	PUBMED:24300102	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9M8W7	-	NP_187061	Q9M8W7	-	NP_187061	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1277203	839268	839268	24503	24503	AT1G05200	AT1G05200	GLR3.4	GLR3.4	ATGLR3.4|GLUR3|LIGAND-GATED CHANNEL-LIKE PROTEIN PRECURSOR|YUP8H12.19|YUP8H12_19|glutamate receptor 3.4	ATGLR3.4|GLUR3|LIGAND-GATED CHANNEL-LIKE PROTEIN PRECURSOR|YUP8H12.19|YUP8H12_19|glutamate receptor 3.4	FRET	physical	Price MB (2013)	PUBMED:24300102	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8GXJ4	Q53YX3	NP_001030971|NP_172012	Q8GXJ4	Q53YX3	NP_001030971|NP_172012	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1277582	8766	9727	114299	115076	-	-	RAB11A	RAB11FIP3	YL8	CART1|Rab11-FIP3	FRET	physical	Jing J (2009)	PUBMED:19327867	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P62491	A0A024R5Z8	NP_004654|NP_001193765	O75154	-	NP_055515|NP_001135744	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1277626	852977	856103	33328	36173	YGR086C	YPL004C	PIL1	LSP1	lipid-binding protein PIL1	lipid-binding protein LSP1	FRET	physical	Olivera-Couto A (2015)	PUBMED:25863055	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53252	-	NP_011600	Q12230	-	NP_015321	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1277627	856103	852977	36173	33328	YPL004C	YGR086C	LSP1	PIL1	lipid-binding protein LSP1	lipid-binding protein PIL1	FRET	physical	Olivera-Couto A (2015)	PUBMED:25863055	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q12230	-	NP_015321	P53252	-	NP_011600	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1277628	856103	856103	36173	36173	YPL004C	YPL004C	LSP1	LSP1	lipid-binding protein LSP1	lipid-binding protein LSP1	FRET	physical	Olivera-Couto A (2015)	PUBMED:25863055	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q12230	-	NP_015321	Q12230	-	NP_015321	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1277629	852977	852977	33328	33328	YGR086C	YGR086C	PIL1	PIL1	lipid-binding protein PIL1	lipid-binding protein PIL1	FRET	physical	Olivera-Couto A (2015)	PUBMED:25863055	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53252	-	NP_011600	P53252	-	NP_011600	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1277656	827272	839574	12566	24809	AT4G15900	AT1G01040	PRL1	DCL1	DL3990W|FCAALL.40|PRL1 PROTEIN|pleiotropic regulatory locus 1	ABNORMAL SUSPENSOR 1|ASU1|ATDCL1|CAF|CARPEL FACTORY|DICER-LIKE 1|EMB60|EMB76|EMBRYO DEFECTIVE 60|EMBRYO DEFECTIVE 76|SHORT INTEGUMENTS 1|SIN1|SUS1|SUSPENSOR 1|T25K16.4|T25K16_4	FRET	physical	Zhang S (2014)	PUBMED:25474114	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q42384	Q08A56	NP_193325	Q9SP32	F4HQG6	NP_171612|NP_001184881	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1277657	827272	817252	12566	2604	AT4G15900	AT2G27100	PRL1	SE	DL3990W|FCAALL.40|PRL1 PROTEIN|pleiotropic regulatory locus 1	SERRATE|T20P8.15|T20P8_15	FRET	physical	Zhang S (2014)	PUBMED:25474114	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q42384	Q08A56	NP_193325	Q9ZVD0	-	NP_565635	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1277658	827272	837498	12566	22739	AT4G15900	AT1G09700	PRL1	HYL1	DL3990W|FCAALL.40|PRL1 PROTEIN|pleiotropic regulatory locus 1	DRB1|DSRNA-BINDING PROTEIN 1|F21M12.9|F21M12_9|HYPONASTIC LEAVES 1	FRET	physical	Zhang S (2014)	PUBMED:25474114	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q42384	Q08A56	NP_193325	O04492	-	NP_563850	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1277659	827272	837506	12566	22747	AT4G15900	AT1G09770	PRL1	CDC5	DL3990W|FCAALL.40|PRL1 PROTEIN|pleiotropic regulatory locus 1	ARABIDOPSIS THALIANA CELL DIVISION CYCLE 5|ARABIDOPSIS THALIANA MYB DOMAIN CELL DIVISION CYCLE 5|ATCDC5|ATMYBCDC5|F21M12.15|F21M12_15|cell division cycle 5	FRET	physical	Zhang S (2014)	PUBMED:25474114	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q42384	Q08A56	NP_193325	P92948	-	NP_172448	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1277668	827622	827622	12915	12915	AT4G18880	AT4G18880	HSF A4A	HSF A4A	ARABIDOPSIS THALIANA HEAT SHOCK TRANSCRIPTION FACTOR A4A|AT-HSFA4A|F13C5.50|F13C5_50|heat shock transcription factor A4A	ARABIDOPSIS THALIANA HEAT SHOCK TRANSCRIPTION FACTOR A4A|AT-HSFA4A|F13C5.50|F13C5_50|heat shock transcription factor A4A	FRET	physical	Perez-Salamo I (2014)	PUBMED:24676858	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O49403	-	NP_193623	O49403	-	NP_193623	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1277675	823706	827622	9026	12915	AT3G45640	AT4G18880	MPK3	HSF A4A	ATMAPK3|ATMPK3|T6D9.4|mitogen-activated protein kinase 3	ARABIDOPSIS THALIANA HEAT SHOCK TRANSCRIPTION FACTOR A4A|AT-HSFA4A|F13C5.50|F13C5_50|heat shock transcription factor A4A	FRET	physical	Perez-Salamo I (2014)	PUBMED:24676858	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q39023	Q0WVS7	NP_190150	O49403	-	NP_193623	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1277676	818982	827622	4318	12915	AT2G43790	AT4G18880	MPK6	HSF A4A	ATMAPK6|ATMPK6|F18O19.10|MAP KINASE 6|MAPK6	ARABIDOPSIS THALIANA HEAT SHOCK TRANSCRIPTION FACTOR A4A|AT-HSFA4A|F13C5.50|F13C5_50|heat shock transcription factor A4A	FRET	physical	Perez-Salamo I (2014)	PUBMED:24676858	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q39026	-	NP_181907	O49403	-	NP_193623	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1277680	2908	3065	109165	109315	-	RP4-811H24.2	NR3C1	HDAC1	GCCR|GCR|GCRST|GR|GRL	GON-10|HD1|RPD3|RPD3L1	FRET	physical	Qiu Y (2011)	PUBMED:21127047	9606	9606	Low Throughput	-	-	figure 4	-	BIOGRID	P04150	E5KQF6|E5KQF5|F1D8N4	NP_001018087|NP_001018086|NP_001018085|NP_001018084|NP_001191187|NP_001351109|NP_001191191|NP_001191188|NP_001191189|NP_001351114|NP_001019265|NP_001191193|NP_001351112|NP_001351113|NP_001191194|NP_001351111|NP_001351110|NP_000167|NP_001191190|NP_001018661|NP_001191192	Q13547	Q6IT96	NP_004955	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1277859	340419	84133	131049	123905	UNQ9384/PRO34209	hCG_40978	RSPO2	ZNRF3	CRISTIN2	BK747E2.3|RNF203	FRET	physical	Moad HE (2013)	PUBMED:24050775	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q6UXX9	B3KVP3	NP_001269792|NP_848660	Q9ULT6	A0A024R1J1	NP_001193927|NP_115549	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1277860	84870	84133	124315	123905	-	hCG_40978	RSPO3	ZNRF3	CRISTIN1|PWTSR|THSD2	BK747E2.3|RNF203	FRET	physical	Moad HE (2013)	PUBMED:24050775	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9BXY4	-	NP_116173	Q9ULT6	A0A024R1J1	NP_001193927|NP_115549	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1277861	284654	84133	129926	123905	RP11-566C13.1	hCG_40978	RSPO1	ZNRF3	CRISTIN3|RSPO	BK747E2.3|RNF203	FRET	physical	Moad HE (2013)	PUBMED:24050775	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q2MKA7	-	NP_001033722|NP_001229837|NP_001229838|NP_001229839	Q9ULT6	A0A024R1J1	NP_001193927|NP_115549	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1278034	5465	8648	111461	114200	SC22CB-5E3.5	-	PPARA	NCOA1	NR1C1|PPAR|PPARalpha|hPPAR	F-SRC-1|KAT13A|RIP160|SRC1|bHLHe42|bHLHe74	FRET	physical	Mukherjee R (2002)	PUBMED:12163133	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q07869	F1D8S4	NP_005027|NP_001001928	Q15788	-	NP_001349879|NP_003734|NP_001349884|NP_671766|NP_671756|NP_001349881|NP_001349883	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1278156	828934	816614	14221	1967	AT4G28190	AT2G20825	ULT1	ULT2	F26K10.70|F26K10_70|ULT|ULTRAPETALA|ULTRAPETALA1	F5H14.2|F5H14_2|ULTRAPETALA 2	FRET	physical	Pires HR (2014)	PUBMED:25381352	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8GZA8	F4JKJ1|Q0V807	NP_001190857|NP_567799	Q8S8I2	-	NP_179677	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1278157	831518	816614	16794	1967	AT5G16560	AT2G20825	KAN	ULT2	KAN1|KANADI|KANADI 1|MQK4.31|MQK4_31	F5H14.2|F5H14_2|ULTRAPETALA 2	FRET	physical	Pires HR (2014)	PUBMED:25381352	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q93WJ9	-	NP_568334	Q8S8I2	-	NP_179677	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1278158	840116	816614	25350	1967	AT1G32240	AT2G20825	KAN2	ULT2	F27G20.7|F27G20_7|KANADI 2	F5H14.2|F5H14_2|ULTRAPETALA 2	FRET	physical	Pires HR (2014)	PUBMED:25381352	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9C616	-	NP_564392	Q8S8I2	-	NP_179677	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1278163	830051	817857	15331	3204	AT4G38960	AT2G32950	AT4G38960	COP1	F19H22.60|F19H22_60	ARABIDOPSIS THALIANA CONSTITUTIVE PHOTOMORPHOGENIC 1|ATCOP1|CONSTITUTIVE PHOTOMORPHOGENIC 1|DEETIOLATED MUTANT 340|DET340|EMB168|EMBRYO DEFECTIVE 168|FUS1|FUSCA 1|T21L14.11|T21L14_11	FRET	physical	Wang CQ (2015)	PUBMED:25841036	3702	3702	Low Throughput	-	-	-	-	BIOGRID	C0SVM5	F4JUJ1	NP_195607|NP_001190958|NP_001031811	P43254	-	NP_180854	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1278164	830051	817134	15331	2486	AT4G38960	AT2G25930	AT4G38960	ELF3	F19H22.60|F19H22_60	EARLY FLOWERING 3|F17H15.25|PYK20	FRET	physical	Wang CQ (2015)	PUBMED:25841036	3702	3702	Low Throughput	-	-	-	-	BIOGRID	C0SVM5	F4JUJ1	NP_195607|NP_001190958|NP_001031811	O82804	-	NP_180164	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1278167	835035	829376	20281	14662	AT5G49720	AT4G32410	GH9A1	CESA1	ATGH9A1|CELLULASE|DEC|DEFECTIVE CYTOKINESIS|IRREGULAR XYLEM 2|IRX2|K2I5.8|K2I5_8|KOR|KOR1|KORRIGAN|KORRIGAN 1|RADIALLY SWOLLEN 2|RSW2|TSD1|TUMOROUS SHOOT DEVELOPMENT 1|glycosyl hydrolase 9A1	AtCESA1|CELLULOSE SYNTHASE 1|F8B4.110|F8B4_110|RADIALLY SWOLLEN 1|RSW1	FRET	physical	Vain T (2014)	PUBMED:24948829	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q38890	-	NP_199783	O48946	W8PUJ0	NP_194967	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1278347	830051	831441	15331	16717	AT4G38960	AT5G15840	AT4G38960	CO	F19H22.60|F19H22_60	CONSTANS|F14F8.220|F14F8_220|FG	FRET	physical	Wang CQ (2014)	PUBMED:25228341	3702	3702	Low Throughput	-	-	-	-	BIOGRID	C0SVM5	F4JUJ1	NP_195607|NP_001190958|NP_001031811	Q39057	-	NP_001031887|NP_197088	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1278357	827164	827164	12461	12461	AT4G00270	AT4G00270	AT4G00270	AT4G00270	A_IG005I10.11|A_IG005I10_11|F5I10.11|F5I10_11	A_IG005I10.11|A_IG005I10_11|F5I10.11|F5I10_11	FRET	physical	Chevalier F (2008)	PUBMED:18162594	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9ASZ1	NP_567163	-	Q9ASZ1	NP_567163	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414810	816305	819124	1662	4460	AT2G17950	AT2G45160	WUS	HAM1	PGA6|T27K22.18|T27K22_18|WUS1|WUSCHEL|WUSCHEL 1	ARABIDOPSIS THALIANA HAIRY MERISTEM 1|ATHAM1|HAIRY MERISTEM 1|T14P1.3	FRET	physical	Zhou Y (2015)	PUBMED:25363783	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SB92	Q1PF51	NP_565429	Q7XJM8	B7ZWR8	NP_182041	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414811	816305	825234	1662	10548	AT2G17950	AT3G60630	WUS	HAM2	PGA6|T27K22.18|T27K22_18|WUS1|WUSCHEL|WUSCHEL 1	ARABIDOPSIS THALIANA HAIRY MERISTEM 2|ATHAM2|HAIRY MERISTEM 2	FRET	physical	Zhou Y (2015)	PUBMED:25363783	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SB92	Q1PF51	NP_565429	Q9M000	-	NP_191622	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414812	816305	829824	1662	15105	AT2G17950	AT4G36710	WUS	AT4G36710	PGA6|T27K22.18|T27K22_18|WUS1|WUSCHEL|WUSCHEL 1	AP22.56|AP22_56	FRET	physical	Zhou Y (2015)	PUBMED:25363783	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SB92	Q1PF51	NP_565429	O23210	-	NP_195389	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414845	834439	821259	19689	6592	AT5G44160	AT3G01090	NUC	KIN10	MLN1.8|MLN1_8|nutcracker	AKIN10|SNF1 kinase homolog 10|SNF1-RELATED PROTEIN KINASE|SNF1-RELATED PROTEIN KINASE 1.1|SNRK1.1|T4P13.22|T4P13_22	FRET	physical	Jeong EY (2015)	PUBMED:25929516	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FFH3	-	NP_199229	Q38997	-	NP_850488|NP_566130|NP_001118546	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414846	834439	822566	19689	7895	AT5G44160	AT3G29160	NUC	KIN11	MLN1.8|MLN1_8|nutcracker	AKIN11|ATKIN11|SNF1 kinase homolog 11|SNF1-RELATED PROTEIN KINASE|SNF1-RELATED PROTEIN KINASE 1.2|SNRK1.2	FRET	physical	Jeong EY (2015)	PUBMED:25929516	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FFH3	-	NP_199229	P92958	-	NP_566843|NP_974374|NP_974375	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414850	832065	838651	17341	23890	AT5G19450	AT1G20620	CDPK19	CAT3	CALCIUM-DEPENDENT PROTEIN KINASE 19|CPK8|F7K24.200|F7K24_200	ATCAT3|F5M15.5|F5M15_5|SEN2|SENESCENCE 2|catalase 3	FRET	physical	Zou JJ (2015)	PUBMED:25966761	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q42438	-	NP_197446|NP_850853	Q42547	B9DG18|Q2V4M4|F4HUL6	NP_001031073|NP_001031072|NP_564120|NP_973873	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414872	838388	829597	23627	14879	AT1G18080	AT4G34460	ATARCA	AGB1	RACK1A|RACK1A_AT|RECEPTOR FOR ACTIVATED C KINASE 1 A|T10F20.9|WD-40 REPEAT PROTEIN ATARCA	ARABIDOPSIS G-PROTEIN BETA SUBUNIT|ATAGB1|ELK4|ERECTA-LIKE 4|GTP binding protein beta 1|T4L20.40|T4L20_40	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O24456	-	NP_173248	P49177	F4JLD1|A8MR96|F4JLD2	NP_974683|NP_001078491|NP_849494|NP_195172	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414873	838388	826409	23627	11709	AT1G18080	AT4G08500	ATARCA	MEKK1	RACK1A|RACK1A_AT|RECEPTOR FOR ACTIVATED C KINASE 1 A|T10F20.9|WD-40 REPEAT PROTEIN ATARCA	ARAKIN|ATMEKK1|MAPK/ERK kinase kinase 1|MAPKKK8|T15F16.5|T15F16_5	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O24456	-	NP_173248	Q39008	-	NP_192590	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414874	838388	841591	23627	26816	AT1G18080	AT1G51660	ATARCA	MKK4	RACK1A|RACK1A_AT|RECEPTOR FOR ACTIVATED C KINASE 1 A|T10F20.9|WD-40 REPEAT PROTEIN ATARCA	ARABIDOPSIS THALIANA MITOGEN-ACTIVATED PROTEIN KINASE KINASE 4|ATMEK4|ATMKK4|F19C24.26|F19C24_26|MAP KINASE KINASE 4|mitogen-activated protein kinase kinase 4	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O24456	-	NP_173248	O80397	-	NP_175577	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414875	838388	821676	23627	7008	AT1G18080	AT3G21220	ATARCA	MKK5	RACK1A|RACK1A_AT|RECEPTOR FOR ACTIVATED C KINASE 1 A|T10F20.9|WD-40 REPEAT PROTEIN ATARCA	ARABIDOPSIS THALIANA MITOGEN-ACTIVATED PROTEIN KINASE KINASE 5|ATMAP2K_ALPHA|ATMEK5|ATMKK5|MAP KINASE KINASE 5|MAP2K_A|MEK5	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O24456	-	NP_173248	Q8RXG3	-	NP_188759	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414876	838388	823706	23627	9026	AT1G18080	AT3G45640	ATARCA	MPK3	RACK1A|RACK1A_AT|RECEPTOR FOR ACTIVATED C KINASE 1 A|T10F20.9|WD-40 REPEAT PROTEIN ATARCA	ATMAPK3|ATMPK3|T6D9.4|mitogen-activated protein kinase 3	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O24456	-	NP_173248	Q39023	Q0WVS7	NP_190150	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414877	838388	818982	23627	4318	AT1G18080	AT2G43790	ATARCA	MPK6	RACK1A|RACK1A_AT|RECEPTOR FOR ACTIVATED C KINASE 1 A|T10F20.9|WD-40 REPEAT PROTEIN ATARCA	ATMAPK6|ATMPK6|F18O19.10|MAP KINASE 6|MAPK6	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O24456	-	NP_173248	Q39026	-	NP_181907	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414878	841284	829597	26509	14879	AT1G48630	AT4G34460	RACK1B_AT	AGB1	F11I4.18|F11I4_18|receptor for activated C kinase 1B	ARABIDOPSIS G-PROTEIN BETA SUBUNIT|ATAGB1|ELK4|ERECTA-LIKE 4|GTP binding protein beta 1|T4L20.40|T4L20_40	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9C4Z6	-	NP_175296	P49177	F4JLD1|A8MR96|F4JLD2	NP_974683|NP_001078491|NP_849494|NP_195172	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414879	841284	826409	26509	11709	AT1G48630	AT4G08500	RACK1B_AT	MEKK1	F11I4.18|F11I4_18|receptor for activated C kinase 1B	ARAKIN|ATMEKK1|MAPK/ERK kinase kinase 1|MAPKKK8|T15F16.5|T15F16_5	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9C4Z6	-	NP_175296	Q39008	-	NP_192590	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414880	841284	841591	26509	26816	AT1G48630	AT1G51660	RACK1B_AT	MKK4	F11I4.18|F11I4_18|receptor for activated C kinase 1B	ARABIDOPSIS THALIANA MITOGEN-ACTIVATED PROTEIN KINASE KINASE 4|ATMEK4|ATMKK4|F19C24.26|F19C24_26|MAP KINASE KINASE 4|mitogen-activated protein kinase kinase 4	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9C4Z6	-	NP_175296	O80397	-	NP_175577	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414881	841284	821676	26509	7008	AT1G48630	AT3G21220	RACK1B_AT	MKK5	F11I4.18|F11I4_18|receptor for activated C kinase 1B	ARABIDOPSIS THALIANA MITOGEN-ACTIVATED PROTEIN KINASE KINASE 5|ATMAP2K_ALPHA|ATMEK5|ATMKK5|MAP KINASE KINASE 5|MAP2K_A|MEK5	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9C4Z6	-	NP_175296	Q8RXG3	-	NP_188759	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414882	841284	823706	26509	9026	AT1G48630	AT3G45640	RACK1B_AT	MPK3	F11I4.18|F11I4_18|receptor for activated C kinase 1B	ATMAPK3|ATMPK3|T6D9.4|mitogen-activated protein kinase 3	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9C4Z6	-	NP_175296	Q39023	Q0WVS7	NP_190150	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414883	841284	818982	26509	4318	AT1G48630	AT2G43790	RACK1B_AT	MPK6	F11I4.18|F11I4_18|receptor for activated C kinase 1B	ATMAPK6|ATMPK6|F18O19.10|MAP KINASE 6|MAPK6	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9C4Z6	-	NP_175296	Q39026	-	NP_181907	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414884	821338	829597	6671	14879	AT3G18130	AT4G34460	RACK1C_AT	AGB1	receptor for activated C kinase 1C	ARABIDOPSIS G-PROTEIN BETA SUBUNIT|ATAGB1|ELK4|ERECTA-LIKE 4|GTP binding protein beta 1|T4L20.40|T4L20_40	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LV28	-	NP_188441	P49177	F4JLD1|A8MR96|F4JLD2	NP_974683|NP_001078491|NP_849494|NP_195172	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414885	821338	826409	6671	11709	AT3G18130	AT4G08500	RACK1C_AT	MEKK1	receptor for activated C kinase 1C	ARAKIN|ATMEKK1|MAPK/ERK kinase kinase 1|MAPKKK8|T15F16.5|T15F16_5	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LV28	-	NP_188441	Q39008	-	NP_192590	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414886	821338	841591	6671	26816	AT3G18130	AT1G51660	RACK1C_AT	MKK4	receptor for activated C kinase 1C	ARABIDOPSIS THALIANA MITOGEN-ACTIVATED PROTEIN KINASE KINASE 4|ATMEK4|ATMKK4|F19C24.26|F19C24_26|MAP KINASE KINASE 4|mitogen-activated protein kinase kinase 4	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LV28	-	NP_188441	O80397	-	NP_175577	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414887	821338	821676	6671	7008	AT3G18130	AT3G21220	RACK1C_AT	MKK5	receptor for activated C kinase 1C	ARABIDOPSIS THALIANA MITOGEN-ACTIVATED PROTEIN KINASE KINASE 5|ATMAP2K_ALPHA|ATMEK5|ATMKK5|MAP KINASE KINASE 5|MAP2K_A|MEK5	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LV28	-	NP_188441	Q8RXG3	-	NP_188759	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414888	821338	823706	6671	9026	AT3G18130	AT3G45640	RACK1C_AT	MPK3	receptor for activated C kinase 1C	ATMAPK3|ATMPK3|T6D9.4|mitogen-activated protein kinase 3	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LV28	-	NP_188441	Q39023	Q0WVS7	NP_190150	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414889	821338	818982	6671	4318	AT3G18130	AT2G43790	RACK1C_AT	MPK6	receptor for activated C kinase 1C	ATMAPK6|ATMPK6|F18O19.10|MAP KINASE 6|MAPK6	FRET	physical	Cheng Z (2015)	PUBMED:25731164	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LV28	-	NP_188441	Q39026	-	NP_181907	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414899	832437	841786	17712	27011	AT5G23720	AT1G53510	PHS1	MPK18	MQM1.1|MQM1_1|PROPYZAMIDE-HYPERSENSITIVE 1	ARABIDOPSIS THALIANA MAP KINASE 18|ATMPK18|F22G10.12|mitogen-activated protein kinase 18	FRET	physical	Walia A (2009)	PUBMED:19392697	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q75QN6	F4KE96	NP_001031933|NP_851066|NP_197761	Q9C5C0	-	NP_175756	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1414908	843917	817371	29136	2721	AT1G75840	AT2G28250	ARAC5	NCRK	ARABIDOPSIS THALIANA GERANYLGERANYLATED PROTEIN 3|ATGP3|ATROP4|RAC-LIKE GTP BINDING PROTEIN|RAC-like GTP binding protein 5|RHO-LIKE GTP BINDING PROTEIN 4|ROP4	T3B23.8|T3B23_8	FRET	physical	Molendijk AJ (2008)	PUBMED:18088316	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q38937	-	NP_177712	Q8VYY5	-	NP_850115|NP_001031435	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1415212	819122	831841	4458	17117	AT2G45140	AT5G02100	PVA12	UNE18	T14P1.5|plant VAP homolog 12	ORP3A|OSBP(OXYSTEROL BINDING PROTEIN)-RELATED PROTEIN 3A|T7H20.150|T7H20_150|UNFERTILIZED EMBRYO SAC 18	FRET	physical	Saravanan RS (2009)	PUBMED:19207211	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SHC8	-	NP_182039	Q9LZM1	-	NP_195830	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1415218	4340185	4345634	809222	814671	-	-	Os06g0157700	Os08g0430500	-	-	FRET	physical	Purwestri YA (2009)	PUBMED:19179350	39947	39947	Low Throughput	-	-	-	-	BIOGRID	Q93WI9	E5RQ78	NP_001056860	Q6ZKC0	Q0J5J5	NP_001061856	-	-	-	-	-	-	Oryza sativa (Japonica)	Oryza sativa (Japonica)
+1416192	823811	835612	9131	20856	AT3G46580	AT5G55190	MBD5	RAN3	ATMBD5|MBD05|MDB05|METHYL-CPG-BINDING DOMAIN PROTEIN 05|methyl-CPG-binding domain protein 5	ATRAN3|MCO15.14|MCO15_14|RAN GTPASE 3	FRET	physical	Yano A (2006)	PUBMED:17008347	3702	3702	Low Throughput	-	-	BiFC	-	BIOGRID	Q9SNC0	-	NP_190242	Q8H156	-	NP_200330	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416641	818425	834637	3767	19886	AT2G38440	AT5G45970	SCAR2	RAC2	ATSCAR2|DIS3|IRREGULAR TRICHOME BRANCH1|ITB1|SCAR HOMOLOG 2|T19C21.7|T19C21_7|WAVE4	ARABIDOPSIS THALIANA RAC 2|ARAC2|ATRAC2|ATROP7|Arabidopsis RAC-like 2|MCL19.1|MCL19_1|RAC-like 2|RHO-RELATED PROTEIN FROM PLANTS 7|ROP7	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q5XPJ9	-	NP_181378	Q38903	-	NP_199409	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416642	827328	818425	12622	3767	AT4G16340	AT2G38440	SPK1	SCAR2	DL4200C|FCAALL.346|SPIKE1	ATSCAR2|DIS3|IRREGULAR TRICHOME BRANCH1|ITB1|SCAR HOMOLOG 2|T19C21.7|T19C21_7|WAVE4	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q8SAB7	NP_193367	Q5XPJ9	-	NP_181378	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416643	816795	816795	2148	2148	AT2G22640	AT2G22640	BRK1	BRK1	ATBRK1|BRICK1|HSPC300|T9I22.8|T9I22_8	ATBRK1|BRICK1|HSPC300|T9I22.8|T9I22_8	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q94JY4	-	NP_179849	Q94JY4	-	NP_179849	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416655	839965	3770404	25200	530765	AT1G30825	AT4G14147	DIS2	ARPC4	ACTIN-RELATED PROTEIN C2A|ARPC2A|DISTORTED TRICHOMES 2	-	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8LGI3	-	NP_564364	F4JUL9	F4JUL8	NP_001190726|NP_001031632	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416656	839965	839791	25200	25026	AT1G30825	AT1G29170	DIS2	WAVE2	ACTIN-RELATED PROTEIN C2A|ARPC2A|DISTORTED TRICHOMES 2	ATSCAR3|F28N24.14|F28N24_14|SCAR3|WASP (WISKOTT-ALDRICH SYNDROME PROTEIN)-FAMILY VERPROLIN HOMOLOGOUS PROTEIN 2	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8LGI3	-	NP_564364	Q9LP46	B3H7L7|B3H466	NP_001117376|NP_001117375|NP_174212	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416657	837876	816795	23116	2148	AT1G13180	AT2G22640	DIS1	BRK1	ACTIN-RELATED PROTEIN 3|ARABIDOPSIS THALIANA ACTIN-RELATED PROTEIN 3|ARP3|ATARP3|DISTORTED TRICHOMES 1|F3F19.20|F3F19_20	ATBRK1|BRICK1|HSPC300|T9I22.8|T9I22_8	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SAF1	-	NP_172777	Q94JY4	-	NP_179849	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416665	842338	3770404	27562	530765	AT1G60430	AT4G14147	ARPC3	ARPC4	T13D8.30|T13D8_30|actin-related protein C3	-	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q1ECJ7	-	NP_001077743|NP_564757	F4JUL9	F4JUL8	NP_001190726|NP_001031632	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416666	842338	816795	27562	2148	AT1G60430	AT2G22640	ARPC3	BRK1	T13D8.30|T13D8_30|actin-related protein C3	ATBRK1|BRICK1|HSPC300|T9I22.8|T9I22_8	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q1ECJ7	-	NP_001077743|NP_564757	Q94JY4	-	NP_179849	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416667	842338	817976	27562	3323	AT1G60430	AT2G34150	ARPC3	WAVE1	T13D8.30|T13D8_30|actin-related protein C3	ATRANGAP2|ATSCAR1|SCAR1|T14G11.27|T14G11_27|WISKOTT-ALDRICH SYNDROME PROTEIN FAMILY VERPROLIN HOMOLOGOUS PROTEIN 1	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q1ECJ7	-	NP_001077743|NP_564757	Q6AWX6	F4IGW2	NP_001031474|NP_850225	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416668	842338	818425	27562	3767	AT1G60430	AT2G38440	ARPC3	SCAR2	T13D8.30|T13D8_30|actin-related protein C3	ATSCAR2|DIS3|IRREGULAR TRICHOME BRANCH1|ITB1|SCAR HOMOLOG 2|T19C21.7|T19C21_7|WAVE4	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q1ECJ7	-	NP_001077743|NP_564757	Q5XPJ9	-	NP_181378	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416680	828714	818425	14001	3767	AT4G26080	AT2G38440	ABI1	SCAR2	ABA INSENSITIVE 1|AtABI1|F20B18.190|F20B18_190|PROTEIN PHOSPHATASE 2C ABI1	ATSCAR2|DIS3|IRREGULAR TRICHOME BRANCH1|ITB1|SCAR HOMOLOG 2|T19C21.7|T19C21_7|WAVE4	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P49597	-	NP_194338	Q5XPJ9	-	NP_181378	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416681	828714	827328	14001	12622	AT4G26080	AT4G16340	ABI1	SPK1	ABA INSENSITIVE 1|AtABI1|F20B18.190|F20B18_190|PROTEIN PHOSPHATASE 2C ABI1	DL4200C|FCAALL.346|SPIKE1	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P49597	-	NP_194338	-	Q8SAB7	NP_193367	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416695	818614	816795	3952	2148	AT2G40220	AT2G22640	ABI4	BRK1	ABA INSENSITIVE 4|ABSCISIC ACID-INSENSITIVE PROTEIN 4|ATABI4|GIN6|GLUCOSE INSENSITIVE 6|IMPAIRED SUCROSE INDUCTION 3|ISI3|SALOBRENO 5|SAN5|SIS5|SUCROSE UNCOUPLED 6|SUGAR-INSENSITIVE 5|SUN6|T7M7.16	ATBRK1|BRICK1|HSPC300|T9I22.8|T9I22_8	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	A0MES8	-	NP_181551	Q94JY4	-	NP_179849	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416696	818614	818425	3952	3767	AT2G40220	AT2G38440	ABI4	SCAR2	ABA INSENSITIVE 4|ABSCISIC ACID-INSENSITIVE PROTEIN 4|ATABI4|GIN6|GLUCOSE INSENSITIVE 6|IMPAIRED SUCROSE INDUCTION 3|ISI3|SALOBRENO 5|SAN5|SIS5|SUCROSE UNCOUPLED 6|SUGAR-INSENSITIVE 5|SUN6|T7M7.16	ATSCAR2|DIS3|IRREGULAR TRICHOME BRANCH1|ITB1|SCAR HOMOLOG 2|T19C21.7|T19C21_7|WAVE4	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	A0MES8	-	NP_181551	Q5XPJ9	-	NP_181378	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416697	818614	839791	3952	25026	AT2G40220	AT1G29170	ABI4	WAVE2	ABA INSENSITIVE 4|ABSCISIC ACID-INSENSITIVE PROTEIN 4|ATABI4|GIN6|GLUCOSE INSENSITIVE 6|IMPAIRED SUCROSE INDUCTION 3|ISI3|SALOBRENO 5|SAN5|SIS5|SUCROSE UNCOUPLED 6|SUGAR-INSENSITIVE 5|SUN6|T7M7.16	ATSCAR3|F28N24.14|F28N24_14|SCAR3|WASP (WISKOTT-ALDRICH SYNDROME PROTEIN)-FAMILY VERPROLIN HOMOLOGOUS PROTEIN 2	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	A0MES8	-	NP_181551	Q9LP46	B3H7L7|B3H466	NP_001117376|NP_001117375|NP_174212	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416702	816795	818425	2148	3767	AT2G22640	AT2G38440	BRK1	SCAR2	ATBRK1|BRICK1|HSPC300|T9I22.8|T9I22_8	ATSCAR2|DIS3|IRREGULAR TRICHOME BRANCH1|ITB1|SCAR HOMOLOG 2|T19C21.7|T19C21_7|WAVE4	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q94JY4	-	NP_179849	Q5XPJ9	-	NP_181378	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416703	816795	839791	2148	25026	AT2G22640	AT1G29170	BRK1	WAVE2	ATBRK1|BRICK1|HSPC300|T9I22.8|T9I22_8	ATSCAR3|F28N24.14|F28N24_14|SCAR3|WASP (WISKOTT-ALDRICH SYNDROME PROTEIN)-FAMILY VERPROLIN HOMOLOGOUS PROTEIN 2	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q94JY4	-	NP_179849	Q9LP46	B3H7L7|B3H466	NP_001117376|NP_001117375|NP_174212	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416712	818425	827328	3767	12622	AT2G38440	AT4G16340	SCAR2	SPK1	ATSCAR2|DIS3|IRREGULAR TRICHOME BRANCH1|ITB1|SCAR HOMOLOG 2|T19C21.7|T19C21_7|WAVE4	DL4200C|FCAALL.346|SPIKE1	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q5XPJ9	-	NP_181378	-	Q8SAB7	NP_193367	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416713	818425	838598	3767	23837	AT2G38440	AT1G20090	SCAR2	ROP2	ATSCAR2|DIS3|IRREGULAR TRICHOME BRANCH1|ITB1|SCAR HOMOLOG 2|T19C21.7|T19C21_7|WAVE4	ARAC4|ATRAC4|ATROP2|Arabidopsis RAC-like 4|GTP-BINDING PROTEIN ARAC4|RHO-related protein from plants 2|T20H2.12|T20H2_12	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q5XPJ9	-	NP_181378	Q38919	Q0WU07	NP_173437	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416714	818425	819077	3767	4413	AT2G38440	AT2G44690	SCAR2	ARAC9	ATSCAR2|DIS3|IRREGULAR TRICHOME BRANCH1|ITB1|SCAR HOMOLOG 2|T19C21.7|T19C21_7|WAVE4	ATROP8|Arabidopsis RAC-like 9|F16B22.18|RHO-RELATED PROTEIN FROM PLANTS 8|ROP8	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q5XPJ9	-	NP_181378	Q9XGU0	Q1ECR0	NP_566024	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1416726	827328	827328	12622	12622	AT4G16340	AT4G16340	SPK1	SPK1	DL4200C|FCAALL.346|SPIKE1	DL4200C|FCAALL.346|SPIKE1	FRET	physical	Uhrig JF (2007)	PUBMED:17267444	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q8SAB7	NP_193367	-	Q8SAB7	NP_193367	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1417020	836101	841923	21345	27148	AT5G59800	AT1G54840	MBD7	AT1G54840	ARABIDOPSIS THALIANA METHYL-CPG-BINDING DOMAIN 7|ATMBD7|MMN10.2|MMN10_2|methyl-CPG-binding domain 7	T22H22.23|T22H22_23	FRET	physical	Li Q (2015)	PUBMED:25933434	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FJF4	-	NP_200788	-	F4HYL2|Q8RWL4	NP_175881|NP_974031	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1417023	841923	836101	27148	21345	AT1G54840	AT5G59800	AT1G54840	MBD7	T22H22.23|T22H22_23	ARABIDOPSIS THALIANA METHYL-CPG-BINDING DOMAIN 7|ATMBD7|MMN10.2|MMN10_2|methyl-CPG-binding domain 7	FRET	physical	Li Q (2015)	PUBMED:25933434	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	F4HYL2|Q8RWL4	NP_175881|NP_974031	Q9FJF4	-	NP_200788	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1417028	836057	841923	21301	27148	AT5G59380	AT1G54840	MBD6	AT1G54840	ATMBD6|F2O15.4|F2O15_4|methyl-CPG-binding domain 6	T22H22.23|T22H22_23	FRET	physical	Li Q (2015)	PUBMED:25933434	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LTJ1	-	NP_200746	-	F4HYL2|Q8RWL4	NP_175881|NP_974031	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1417029	838680	836057	23919	21301	AT1G20870	AT5G59380	AT1G20870	MBD6	F9H16.15|F9H16_15	ATMBD6|F2O15.4|F2O15_4|methyl-CPG-binding domain 6	FRET	physical	Li Q (2015)	PUBMED:25933434	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9SYQ0	NP_173511	Q9LTJ1	-	NP_200746	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1417205	3028	5071	109278	111105	RP3-339A18.2	KB-152G3.1	HSD17B10	PARK2	17b-HSD10|ABAD|CAMR|DUPXp11.22|ERAB|HADH2|HCD2|MHBD|MRPP2|MRX17|MRX31|MRXS10|SCHAD|SDR5C1	AR-JP|LPRS2|PDJ|PRKN	FRET	physical	Bertolin G (2015)	PUBMED:25591737	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q99714	-	NP_004484|NP_001032900	O60260	X5DR79	NP_054643|NP_054642|NP_004553	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1417206	9868	5071	115201	111105	-	KB-152G3.1	TOMM70A	PARK2	-	AR-JP|LPRS2|PDJ|PRKN	FRET	physical	Bertolin G (2015)	PUBMED:25591737	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O94826	-	NP_055635	O60260	X5DR79	NP_054643|NP_054642|NP_004553	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1417207	65018	5071	122376	111105	-	KB-152G3.1	PINK1	PARK2	BRPK|PARK6	AR-JP|LPRS2|PDJ|PRKN	FRET	physical	Bertolin G (2015)	PUBMED:25591737	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9BXM7	-	NP_115785	O60260	X5DR79	NP_054643|NP_054642|NP_004553	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1417208	9804	3028	115144	109278	RP4-597N16.2	RP3-339A18.2	TOMM20	HSD17B10	MAS20|MOM19|TOM20	17b-HSD10|ABAD|CAMR|DUPXp11.22|ERAB|HADH2|HCD2|MHBD|MRPP2|MRX17|MRX31|MRXS10|SCHAD|SDR5C1	FRET	physical	Bertolin G (2015)	PUBMED:25591737	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q15388	A0A024R3W2	NP_055580	Q99714	-	NP_004484|NP_001032900	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1417209	65018	3028	122376	109278	-	RP3-339A18.2	PINK1	HSD17B10	BRPK|PARK6	17b-HSD10|ABAD|CAMR|DUPXp11.22|ERAB|HADH2|HCD2|MHBD|MRPP2|MRX17|MRX31|MRXS10|SCHAD|SDR5C1	FRET	physical	Bertolin G (2015)	PUBMED:25591737	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9BXM7	-	NP_115785	Q99714	-	NP_004484|NP_001032900	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1417210	10452	3028	115716	109278	-	RP3-339A18.2	TOMM40	HSD17B10	C19orf1|D19S1177E|PER-EC1|PEREC1|TOM40	17b-HSD10|ABAD|CAMR|DUPXp11.22|ERAB|HADH2|HCD2|MHBD|MRPP2|MRX17|MRX31|MRXS10|SCHAD|SDR5C1	FRET	physical	Bertolin G (2015)	PUBMED:25591737	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O96008	A0A024R0P9	NP_006105|NP_001122389|NP_001122388	Q99714	-	NP_004484|NP_001032900	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1417211	56993	3028	121308	109278	-	RP3-339A18.2	TOMM22	HSD17B10	1C9-2|MST065|MSTP065|TOM22	17b-HSD10|ABAD|CAMR|DUPXp11.22|ERAB|HADH2|HCD2|MHBD|MRPP2|MRX17|MRX31|MRXS10|SCHAD|SDR5C1	FRET	physical	Bertolin G (2015)	PUBMED:25591737	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9NS69	Q549C5	NP_064628	Q99714	-	NP_004484|NP_001032900	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1417212	65018	10059	122376	115370	-	-	PINK1	DNM1L	BRPK|PARK6	DLP1|DRP1|DVLP|DYMPLE|EMPF|HDYNIV	FRET	physical	Bertolin G (2015)	PUBMED:25591737	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9BXM7	-	NP_115785	O00429	G8JLD5|B4DYR6	NP_036193|NP_001265393|NP_001265392|NP_005681|NP_036192|NP_001265394|NP_001317309|NP_001265395	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1420305	832467	832467	17742	17742	AT5G24020	AT5G24020	MIND	MIND	ACCUMULATION AND REPLICATION OF CHLOROPLASTS 11|ARC11|ATMIND1|MZF18.10|MZF18_10	ACCUMULATION AND REPLICATION OF CHLOROPLASTS 11|ARC11|ATMIND1|MZF18.10|MZF18_10	FRET	physical	Aldridge C (2005)	PUBMED:16014621	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9MBA2	-	NP_197790	Q9MBA2	-	NP_197790	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1420306	821055	821055	6388	6388	AT3G17860	AT3G17860	JAZ3	JAZ3	JAI3|JASMONATE-INSENSITIVE 3|TIFY6B|jasmonate-zim-domain protein 3	JAI3|JASMONATE-INSENSITIVE 3|TIFY6B|jasmonate-zim-domain protein 3	FRET	physical	Chung HS (2009)	PUBMED:19151223	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LVI4	F4J6F9|A8MR24	NP_566590|NP_974330|NP_001078174	Q9LVI4	F4J6F9|A8MR24	NP_566590|NP_974330|NP_001078174	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1420363	843890	830996	29109	16274	AT1G75540	AT5G11260	STH2	HY5	F10A5.24|F10A5_24|salt tolerance homolog2	BZIP TRANSCRIPTION FACTOR HY5|ELONGATED HYPOCOTYL 5|F2I11.150|F2I11_150|REVERSAL OF THE DET PHENOTYPE 5|TED 5	FRET	physical	Datta S (2007)	PUBMED:17965270	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LQZ7	-	NP_177686	O24646	Q1H5E5	NP_568246	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1420364	843890	817857	29109	3204	AT1G75540	AT2G32950	STH2	COP1	F10A5.24|F10A5_24|salt tolerance homolog2	ARABIDOPSIS THALIANA CONSTITUTIVE PHOTOMORPHOGENIC 1|ATCOP1|CONSTITUTIVE PHOTOMORPHOGENIC 1|DEETIOLATED MUTANT 340|DET340|EMB168|EMBRYO DEFECTIVE 168|FUS1|FUSCA 1|T21L14.11|T21L14_11	FRET	physical	Datta S (2007)	PUBMED:17965270	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LQZ7	-	NP_177686	P43254	-	NP_180854	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1428657	829919	834197	15200	19448	AT4G37650	AT5G41920	SHR	AT5G41920	F19F18.140|F19F18_140|SGR7|SHOOT GRAVITROPISM 7|SHORT ROOT	MJC20.2|MJC20_2	FRET	physical	Long Y (2015)	PUBMED:26415082	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9SZF7	-	NP_195480	Q9FHZ1	-	NP_199007	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1428740	824214	837886	9532	23126	AT3G50500	AT1G13260	SNRK2.2	RAV1	PROTEIN KINASE|SNF1-RELATED PROTEIN KINASE 2-2|SNF1-related protein kinase 2.2|SNRK2-2|SPK-2-2|SRK2D	EDF4|ETHYLENE RESPONSE DNA BINDING FACTOR 4|T6J4.2|T6J4_2|related to ABI3/VP1 1	FRET	physical	Feng CZ (2014)	PUBMED:25231920	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39192	F4J0N1	NP_001190047|NP_190619	Q9ZWM9	-	NP_172784	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1428741	836822	837886	22064	23126	AT5G66880	AT1G13260	SNRK2.3	RAV1	SNRK2-3|SRK2I|SUCROSE NONFERMENTING 1 (SNF1)-RELATED PROTEIN KINASE 2-3|sucrose nonfermenting 1(SNF1)-related protein kinase 2.3	EDF4|ETHYLENE RESPONSE DNA BINDING FACTOR 4|T6J4.2|T6J4_2|related to ABI3/VP1 1	FRET	physical	Feng CZ (2014)	PUBMED:25231920	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39193	-	NP_201489	Q9ZWM9	-	NP_172784	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1428742	829541	837886	14823	23126	AT4G33950	AT1G13260	OST1	RAV1	ATOST1|F17I5.140|F17I5_140|OPEN STOMATA 1|P44|SNF1-RELATED PROTEIN KINASE 2.6|SNRK2-6|SNRK2.6|SRK2E|SUCROSE NONFERMENTING 1-RELATED PROTEIN KINASE 2-6	EDF4|ETHYLENE RESPONSE DNA BINDING FACTOR 4|T6J4.2|T6J4_2|related to ABI3/VP1 1	FRET	physical	Feng CZ (2014)	PUBMED:25231920	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q940H6	B3H6F9	NP_567945|NP_001119111	Q9ZWM9	-	NP_172784	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1428756	818491	836341	3830	21585	AT2G39050	AT5G62200	AT2G39050	AT5G62200	T7F6.22|T7F6_22	MMI9.3|MMI9_3	FRET	physical	Van Hove J (2015)	PUBMED:26259197	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q945P1	NP_565899	-	Q6NPM5	NP_201026	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1428967	843847	816705	29066	2058	AT1G75100	AT2G21660	JAC1	CCR2	F9E10.5|F9E10_5|J-domain protein required for chloroplast accumulation response 1	ATGPR7|ATGRP7|F2G1.4|GLYCINE RICH PROTEIN 7|GLYCINE-RICH RNA-BINDING PROTEIN 7|GR-RBP7|GRP7|and rna binding 2|circadian rhythm|cold	FRET	physical	Xiao J (2015)	PUBMED:26392261	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9C9Q4	-	NP_565101	Q03250	F4IHK9	NP_850017|NP_179760	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1428981	820049	832950	5383	18223	AT3G08970	AT5G28540	ATERDJ3A	BIP1	THERMOSENSITIVE MALE STERILE 1|TMS1	T26D3.10|T26D3_10	FRET	physical	Ma ZX (2015)	PUBMED:26186593	3702	3702	Low Throughput	-	-	Luciferase Complementary imaging	-	BIOGRID	Q9SR96	-	NP_187509	Q9LKR3	-	NP_198206	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1428982	820049	837429	5383	22670	AT3G08970	AT1G09080	ATERDJ3A	BIP3	THERMOSENSITIVE MALE STERILE 1|TMS1	F7G19.5|F7G19_5	FRET	physical	Ma ZX (2015)	PUBMED:26186593	3702	3702	Low Throughput	-	-	Luciferase Complementary imaging	-	BIOGRID	Q9SR96	-	NP_187509	Q8H1B3	-	NP_172382|NP_001184944	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1429254	829834	843788	15115	29007	AT4G36810	AT1G74470	GGPS1	AT1G74470	geranylgeranyl pyrophosphate synthase 1	F1M20.15|F1M20_15|GERANYLGERANYL REDUCTASE	FRET	physical	Ruiz-Sola M A (2016)	PUBMED:26224411	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P34802	Q0WUL9	NP_195399	Q9CA67	-	NP_177587	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1429255	829834	844187	15115	29406	AT4G36810	AT1G78510	GGPS1	SPS1	geranylgeranyl pyrophosphate synthase 1	T30F21.15|T30F21_15|solanesyl diphosphate synthase 1	FRET	physical	Ruiz-Sola M A (2016)	PUBMED:26224411	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P34802	Q0WUL9	NP_195399	Q8S948	-	NP_001077840|NP_177972	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1429256	829834	831587	15115	16863	AT4G36810	AT5G17230	GGPS1	PSY	geranylgeranyl pyrophosphate synthase 1	PHYTOENE SYNTHASE	FRET	physical	Ruiz-Sola M A (2016)	PUBMED:26224411	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P34802	Q0WUL9	NP_195399	P37271	F4KGX7	NP_001031895|NP_001154715|NP_197225	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1429665	837949	819864	23189	5199	AT1G13900	AT3G06790	AT1G13900	AT3G06790	F16A14.11|F16A14_11	-	FRET	physical	Law YS (2015)	PUBMED:26304849	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LMG7	-	NP_172843	-	Q84JZ6|Q9M7Y5	NP_974243|NP_187335	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1435228	820297	838144	5631	23384	AT3G11260	AT1G15750	WOX5	TPL	WUSCHEL related homeobox 5	F7H2.9|F7H2_9|TOPLESS|WSIP1|WUS-INTERACTING PROTEIN 1	FRET	physical	Pi L (2015)	PUBMED:26028217	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8H1D2	C0SVA6	NP_187735	Q94AI7	-	NP_001031051|NP_001031050|NP_849672|NP_563981	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1435229	820297	844388	5631	29606	AT3G11260	AT1G80490	WOX5	TPR1	WUSCHEL related homeobox 5	T21F11.18|T21F11_18|TOPLESS-related 1	FRET	physical	Pi L (2015)	PUBMED:26028217	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8H1D2	C0SVA6	NP_187735	Q0WV90	-	NP_849913|NP_178164	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1435230	820297	820936	5631	6270	AT3G11260	AT3G16830	WOX5	TPR2	WUSCHEL related homeobox 5	TOPLESS-related 2	FRET	physical	Pi L (2015)	PUBMED:26028217	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8H1D2	C0SVA6	NP_187735	Q9LRZ0	-	NP_188306	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1435231	820297	832761	5631	18036	AT3G11260	AT5G27030	WOX5	TPR3	WUSCHEL related homeobox 5	F2P16.14|F2P16_14|TOPLESS-related 3	FRET	physical	Pi L (2015)	PUBMED:26028217	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8H1D2	C0SVA6	NP_187735	Q84JM4	F4K2T3	NP_198055|NP_001190409	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1435232	820297	820831	5631	6165	AT3G11260	AT3G15880	WOX5	WSIP2	WUSCHEL related homeobox 5	TOPLESS-RELATED 4|TPR4|WUS-interacting protein 2	FRET	physical	Pi L (2015)	PUBMED:26028217	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8H1D2	C0SVA6	NP_187735	Q27GK7	F4J043	NP_001189905|NP_188209|NP_851003	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1435310	824599	832018	9916	17294	AT3G54320	AT5G19000	WRI1	BPM1	ACTIVATOR OF SPO(MIN)::LUC1|ASML1|ATWRI1|WRI|WRINKLED|WRINKLED 1	ATBPM1|BTB-POZ AND MATH DOMAIN 1|T16G12.40|T16G12_40	FRET	physical	Ma W (2015)	PUBMED:26305482	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q6X5Y6	A8MS57	NP_001030857|NP_191000|NP_974430	Q8L765	-	NP_197401|NP_001190334	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1435374	834259	831635	19509	16911	AT5G42520	AT5G17690	BPC6	TFL2	ARABIDOPSIS THALIANA BASIC PENTACYSTEINE 6|ATBPC6|BBR/BPC6|MDH9.22|MDH9_22|basic pentacysteine 6	LHP1|LIKE HETEROCHROMATIN PROTEIN 1|MVA3.4|MVA3_4|TERMINAL FLOWER 2	FRET	physical	Hecker A (2015)	PUBMED:26025051	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8L999	A8MQG2	NP_001078690|NP_001078691|NP_568605	Q946J8	Q058P7	NP_197271	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1435375	827392	831635	12685	16911	AT4G16845	AT5G17690	VRN2	TFL2	REDUCED VERNALIZATION RESPONSE 2	LHP1|LIKE HETEROCHROMATIN PROTEIN 1|MVA3.4|MVA3_4|TERMINAL FLOWER 2	FRET	physical	Hecker A (2015)	PUBMED:26025051	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8W5B1	F4JMM5	NP_974563|NP_567517	Q946J8	Q058P7	NP_197271	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1435384	834626	843609	19875	28828	AT5G45860	AT1G72770	PYL11	HAB1	K15I22.6|K15I22_6|PYR1-like 11|RCAR5|regulatory components of ABA receptor 5	F28P22.4|F28P22_4|homology to ABI1	FRET	physical	Lim CW (2015)	PUBMED:25969135	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9FJ50	-	NP_199398	Q9CAJ0	-	NP_001077815|NP_001185385|NP_177421	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1435385	828905	843609	14192	28828	AT4G27920	AT1G72770	PYL10	HAB1	PYR1-like 10|RCAR4|T13J8.30|T13J8_30|regulatory components of ABA receptor 4	F28P22.4|F28P22_4|homology to ABI1	FRET	physical	Lim CW (2015)	PUBMED:25969135	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8H1R0	-	NP_194521	Q9CAJ0	-	NP_001077815|NP_001185385|NP_177421	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1435446	839455	831441	24690	16717	AT1G02740	AT5G15840	AT1G02740	CO	T14P4.28	CONSTANS|F14F8.220|F14F8_220|FG	FRET	physical	Bu Z (2014)	PUBMED:25211338	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q4V3E2	NP_171774	Q39057	-	NP_001031887|NP_197088	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1435468	840158	829826	25392	15107	AT1G32640	AT4G36730	MYC2	GBF1	ATMYC2|F6N18.4|F6N18_4|JAI1|JASMONATE INSENSITIVE 1|JIN1|RD22BP1|ZBF1	AP22.21|AP22_21|G-box binding factor 1	FRET	physical	Maurya JP (2015)	PUBMED:26047210	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39204	-	NP_174541	P42774	Q5K1L6	NP_195391|NP_849510	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1437938	84335	84335	124059	124059	-	-	AKT1S1	AKT1S1	Lobe|PRAS40	Lobe|PRAS40	FRET	physical	Mo XL (2015)	PUBMED:26578655	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q96B36	A0A024QZF6	NP_115751|NP_001265089|NP_001265088|NP_001092102|NP_001092103	Q96B36	A0A024QZF6	NP_115751|NP_001265089|NP_001265088|NP_001092102|NP_001092103	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1437939	5894	2810	111831	109072	-	-	RAF1	SFN	CMD1NN|CRAF|NS5|Raf-1|c-Raf	YWHAS	FRET	physical	Mo XL (2015)	PUBMED:26578655	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P31947	-	NP_006133	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1437940	1030	1021	107464	107456	RP11-149I2.1	-	CDKN2B	CDK6	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	MCPH12|PLSTIRE	FRET	physical	Mo XL (2015)	PUBMED:26578655	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P42772	K7PPU3	NP_004927|NP_511042	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1437941	2810	2810	109072	109072	-	-	SFN	SFN	YWHAS	YWHAS	FRET	physical	Mo XL (2015)	PUBMED:26578655	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P31947	-	NP_006133	P31947	-	NP_006133	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1437942	7157	4193	113010	110358	-	-	TP53	MDM2	BCC7|LFS1|P53|TRP53	ACTFS|HDMX|hdm2	FRET	physical	Mo XL (2015)	PUBMED:26578655	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	Q00987	A7UKX8|Q96DS0|A7UKX9|A7UKX7|G3XA89	NP_001354919|NP_001265391|NP_002383|NP_001138811|NP_001138812|NP_001138809	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1437943	11186	11186	116356	116356	-	-	RASSF1	RASSF1	123F2|NORE2A|RASSF1A|RDA32|REH3P21	123F2|NORE2A|RASSF1A|RDA32|REH3P21	FRET	physical	Mo XL (2015)	PUBMED:26578655	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1437944	6789	11186	112665	116356	-	-	STK4	RASSF1	KRS2|MST1|TIIAC|YSK3	123F2|NORE2A|RASSF1A|RDA32|REH3P21	FRET	physical	Mo XL (2015)	PUBMED:26578655	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q13043	-	NP_006273|NP_001339314	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1437945	6789	6789	112665	112665	-	-	STK4	STK4	KRS2|MST1|TIIAC|YSK3	KRS2|MST1|TIIAC|YSK3	FRET	physical	Mo XL (2015)	PUBMED:26578655	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q13043	-	NP_006273|NP_001339314	Q13043	-	NP_006273|NP_001339314	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1437946	26524	6789	117727	112665	-	-	LATS2	STK4	KPM	KRS2|MST1|TIIAC|YSK3	FRET	physical	Mo XL (2015)	PUBMED:26578655	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q9NRM7	A0A024RDM3	NP_055387	Q13043	-	NP_006273|NP_001339314	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1437947	26524	10413	117727	115684	-	-	LATS2	YAP1	KPM	COB1|YAP|YAP2|YAP65|YKI	FRET	physical	Mo XL (2015)	PUBMED:26578655	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q9NRM7	A0A024RDM3	NP_055387	P46937	A0A024R3E4|Q86T74|K0KVU2	NP_001269030|NP_001181974|NP_001123617|NP_001269026|NP_001269029|NP_001269028|NP_001269027|NP_006097|NP_001181973	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1437948	8463	10413	114041	115684	-	-	TEAD2	YAP1	ETF|TEAD-2|TEF-4|TEF4	COB1|YAP|YAP2|YAP65|YKI	FRET	physical	Mo XL (2015)	PUBMED:26578655	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	P46937	A0A024R3E4|Q86T74|K0KVU2	NP_001269030|NP_001181974|NP_001123617|NP_001269026|NP_001269029|NP_001269028|NP_001269027|NP_006097|NP_001181973	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1437949	7534	10413	113366	115684	-	-	YWHAZ	YAP1	14-3-3-zeta|HEL-S-3|HEL4|KCIP-1|YWHAD	COB1|YAP|YAP2|YAP65|YKI	FRET	physical	Mo XL (2015)	PUBMED:26578655	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P63104	D0PNI1	NP_003397|NP_001129174|NP_001129171|NP_001129172|NP_001129173|NP_663723	P46937	A0A024R3E4|Q86T74|K0KVU2	NP_001269030|NP_001181974|NP_001123617|NP_001269026|NP_001269029|NP_001269028|NP_001269027|NP_006097|NP_001181973	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1437950	26524	11186	117727	116356	-	-	LATS2	RASSF1	KPM	123F2|NORE2A|RASSF1A|RDA32|REH3P21	FRET	physical	Mo XL (2015)	PUBMED:26578655	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q9NRM7	A0A024RDM3	NP_055387	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1437951	26524	26524	117727	117727	-	-	LATS2	LATS2	KPM	KPM	FRET	physical	Mo XL (2015)	PUBMED:26578655	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q9NRM7	A0A024RDM3	NP_055387	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1437979	838501	834727	23740	19975	AT1G19180	AT5G46830	JAZ1	NIG1	T29M8.5|T29M8_5|TIFY10A|jasmonate-zim-domain protein 1	ATNIG1|MZA15.1|NACL-INDUCIBLE GENE 1	FRET	physical	Qi T (2015)	PUBMED:26002869	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LMA8	Q3ED96	NP_564075|NP_973862	Q9LUK7	C0SVS8	NP_199495	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1437980	831162	834727	16440	19975	AT5G13220	AT5G46830	JAZ10	NIG1	JAS1|JASMONATE-ASSOCIATED 1|T31B5.40|T31B5_40|TIFY 9|TIFY DOMAIN PROTEIN 9|TIFY9|jasmonate-zim-domain protein 10	ATNIG1|MZA15.1|NACL-INDUCIBLE GENE 1	FRET	physical	Qi T (2015)	PUBMED:26002869	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q93ZM9	-	NP_568287|NP_001154713|NP_974776|NP_974775	Q9LUK7	C0SVS8	NP_199495	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1437986	840158	822401	25392	7731	AT1G32640	AT3G27810	MYC2	MYB21	ATMYC2|F6N18.4|F6N18_4|JAI1|JASMONATE INSENSITIVE 1|JIN1|RD22BP1|ZBF1	ARABIDOPSIS THALIANA MYB DOMAIN PROTEIN 3|AT3G27812|ATMYB21|ATMYB3|myb domain protein 21	FRET	physical	Qi T (2015)	PUBMED:26002869	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39204	-	NP_174541	Q9LK95	-	NP_189418	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1437987	834719	822401	19967	7731	AT5G46760	AT3G27810	AT5G46760	MYB21	MZA15.18|MZA15_18	ARABIDOPSIS THALIANA MYB DOMAIN PROTEIN 3|AT3G27812|ATMYB21|ATMYB3|myb domain protein 21	FRET	physical	Qi T (2015)	PUBMED:26002869	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9FIP9	-	NP_199488	Q9LK95	-	NP_189418	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1437988	827511	822401	12804	7731	AT4G17880	AT3G27810	AT4G17880	MYB21	T6K21.60|T6K21_60	ARABIDOPSIS THALIANA MYB DOMAIN PROTEIN 3|AT3G27812|ATMYB21|ATMYB3|myb domain protein 21	FRET	physical	Qi T (2015)	PUBMED:26002869	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O49687	-	NP_193522	Q9LK95	-	NP_189418	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1437989	834727	822401	19975	7731	AT5G46830	AT3G27810	NIG1	MYB21	ATNIG1|MZA15.1|NACL-INDUCIBLE GENE 1	ARABIDOPSIS THALIANA MYB DOMAIN PROTEIN 3|AT3G27812|ATMYB21|ATMYB3|myb domain protein 21	FRET	physical	Qi T (2015)	PUBMED:26002869	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LUK7	C0SVS8	NP_199495	Q9LK95	-	NP_189418	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1437990	840158	834033	25392	19284	AT1G32640	AT5G40350	MYC2	MYB24	ATMYC2|F6N18.4|F6N18_4|JAI1|JASMONATE INSENSITIVE 1|JIN1|RD22BP1|ZBF1	AtMYB24|MPO12.60|MPO12_60|myb domain protein 24	FRET	physical	Qi T (2015)	PUBMED:26002869	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39204	-	NP_174541	Q9SPG9	-	NP_198851	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1437991	834719	834033	19967	19284	AT5G46760	AT5G40350	AT5G46760	MYB24	MZA15.18|MZA15_18	AtMYB24|MPO12.60|MPO12_60|myb domain protein 24	FRET	physical	Qi T (2015)	PUBMED:26002869	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9FIP9	-	NP_199488	Q9SPG9	-	NP_198851	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1437992	827511	834033	12804	19284	AT4G17880	AT5G40350	AT4G17880	MYB24	T6K21.60|T6K21_60	AtMYB24|MPO12.60|MPO12_60|myb domain protein 24	FRET	physical	Qi T (2015)	PUBMED:26002869	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O49687	-	NP_193522	Q9SPG9	-	NP_198851	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1437993	834727	834033	19975	19284	AT5G46830	AT5G40350	NIG1	MYB24	ATNIG1|MZA15.1|NACL-INDUCIBLE GENE 1	AtMYB24|MPO12.60|MPO12_60|myb domain protein 24	FRET	physical	Qi T (2015)	PUBMED:26002869	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LUK7	C0SVS8	NP_199495	Q9SPG9	-	NP_198851	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1439215	818077	829298	3423	14584	AT2G35110	AT4G31700	GRL	RPS6	GNARLED|NAP1|NAPP|NCK-ASSOCIATED PROTEIN 1|T4C15.22|T4C15_22	F28M20.110|F28M20_110|RIBOSOMAL PROTEIN S6|RPS6A	FRET	physical	Son O (2015)	PUBMED:26241676	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q5S2C4	-	NP_001031485|NP_181056	O48549	A8MS03	NP_194898|NP_001078475	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1439216	818077	832328	3423	17603	AT2G35110	AT5G22650	GRL	HD2B	GNARLED|NAP1|NAPP|NCK-ASSOCIATED PROTEIN 1|T4C15.22|T4C15_22	ARABIDOPSIS HISTONE DEACETYLASE 2|ATHD2|ATHD2B|HD2|HDA4|HDT02|HDT2|HISTONE DEACETYLASE|HISTONE DEACETYLASE 2|MDJ22.7|MDJ22_7|histone deacetylase 2B	FRET	physical	Son O (2015)	PUBMED:26241676	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q5S2C4	-	NP_001031485|NP_181056	Q56WH4	-	NP_197657|NP_851056	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1441771	824359	824359	9677	9677	AT3G51960	AT3G51960	BZIP24	BZIP24	ATBZIP24|basic leucine zipper 24	ATBZIP24|basic leucine zipper 24	FRET	physical	Yang O (2009)	PUBMED:19248824	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q8GTS1|F4J5N9	NP_850680|NP_190764	-	Q8GTS1|F4J5N9	NP_850680|NP_190764	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1442502	818594	820284	3932	5618	AT2G40060	AT3G11130	AT2G40060	AT3G11130	T28M21.22|T28M21_22	F11B9.30	FRET	physical	Nishimura K (2015)	PUBMED:26193449	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O04209	-	NP_565921	Q0WNJ6	-	NP_187724	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1442508	838600	820419	23839	5753	AT1G20110	AT3G12400	AT1G20110	ELC	T20H2.10|T20H2_10	ATELC	FRET	physical	Gao C (2014)	PUBMED:25438943	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9ASS2	NP_564103	Q9LHG8	-	NP_566423	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1442509	838600	831232	23839	16510	AT1G20110	AT5G13860	AT1G20110	ELC-Like	T20H2.10|T20H2_10	ELCH-like|MAC12.18|MAC12_18	FRET	physical	Gao C (2014)	PUBMED:25438943	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9ASS2	NP_564103	Q9FFY6	-	NP_196890	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1442538	842281	823492	27506	8812	AT1G59870	AT3G43810	PEN3	CAM7	ABCG36|ARABIDOPSIS PLEIOTROPIC DRUG RESISTANCE 8|ARABIDOPSIS THALIANA ATP-BINDING CASSETTE G36|ATABCG36|ATP-BINDING CASSETTE G36|ATPDR8|F23H11.19|F23H11_19|PDR8|PENETRATION 3|PLEIOTROPIC DRUG RESISTANCE 8	CALMODULIN 7	FRET	physical	Campe R (2016)	PUBMED:26315018	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9XIE2	-	NP_176196	P59220	Q1H5F3	NP_189967	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1442541	830996	843845	16274	29064	AT5G11260	AT1G75080	HY5	BZR1	BZIP TRANSCRIPTION FACTOR HY5|ELONGATED HYPOCOTYL 5|F2I11.150|F2I11_150|REVERSAL OF THE DET PHENOTYPE 5|TED 5	BRASSINAZOLE-RESISTANT 1|F9E10.7|F9E10_7	FRET	physical	Li QF (2016)	PUBMED:26363272	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O24646	Q1H5E5	NP_568246	Q8S307	-	NP_565099|NP_974145	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1442552	820093	838774	5427	24013	AT3G01890	AT1G21700	AT3G01890	SWI3C	F1C9.33|F1C9_33	ATSWI3C|CHB4|CHROMATIN REMODELING COMPLEX SUBUNIT B|F8K7.13|F8K7_13|SWITCH/sucrose nonfermenting 3C	FRET	physical	Sacharowski SP (2015)	PUBMED:26106148	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q147F4	NP_566154	Q9XI07	-	NP_173589	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1442553	820093	829594	5427	14876	AT3G01890	AT4G34430	AT3G01890	CHB3	F1C9.33|F1C9_33	ATSWI3D|F10M10.200|F10M10_200|SWITCH/SUCROSE NONFERMENTING 3D	FRET	physical	Sacharowski SP (2015)	PUBMED:26106148	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q147F4	NP_566154	Q8VY05	-	NP_974682|NP_849563|NP_849564|NP_195169	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1442559	822181	822181	7512	7512	AT3G25860	AT3G25860	LTA2	LTA2	DIHYDROLIPOAMIDE S-ACETYLTRANSFERASE|PLASTID E2 SUBUNIT OF PYRUVATE DECARBOXYLASE|PLE2	DIHYDROLIPOAMIDE S-ACETYLTRANSFERASE|PLASTID E2 SUBUNIT OF PYRUVATE DECARBOXYLASE|PLE2	FRET	physical	Broz AK (2014)	PUBMED:24846799	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SQI8	-	NP_189215	Q9SQI8	-	NP_189215	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1442728	4336589	4349420	805626	818457	-	-	Os04g0550400	Os10g0565600	-	-	FRET	physical	Cao H (2015)	PUBMED:26143250	39947	39947	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q7XU27	-	NP_001053489	Q336R3	B7EV99	NP_001065421	-	-	-	-	-	-	Oryza sativa (Japonica)	Oryza sativa (Japonica)
+1442775	827102	843282	12399	28503	AT4G14550	AT1G69490	IAA14	NAP	DL3315C|FCAALL.254|SLR|SOLITARY ROOT|indole-3-acetic acid inducible 14	ACTIVATED BY AP3/PI|ANAC029|ATNAP|Arabidopsis NAC domain containing protein 29|F10D13.14|F10D13_14|NAC-LIKE	FRET	physical	Huang D (2015)	PUBMED:26002868	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q38832	Q0WRB1	NP_193191	O49255	-	NP_564966	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1442776	827102	843975	12399	29194	AT4G14550	AT1G76420	IAA14	CUC3	DL3315C|FCAALL.254|SLR|SOLITARY ROOT|indole-3-acetic acid inducible 14	ANAC031|Arabidopsis NAC domain containing protein 31|CUP SHAPED COTYLEDON3|F15M4.8|NAC368	FRET	physical	Huang D (2015)	PUBMED:26002868	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q38832	Q0WRB1	NP_193191	Q9S851	-	NP_177768	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1503719	844299	830501	29518	15780	AT1G79610	AT5G06140	NHX6	SNX1	ARABIDOPSIS NA+/H+ ANTIPORTER 6|ATNHX6|F20B17.4|F20B17_4|Na+/H+ antiporter 6	ARABIDOPSIS THALIANA SORTING NEXIN 1|ATSNX1|K16F4.11|K16F4_11|sorting nexin 1	FRET	physical	Ashnest JR (2015)	PUBMED:26416852	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8RWU6	-	NP_178079	Q9FG38	-	NP_196232	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1503724	830842	844187	16120	29406	AT5G09820	AT1G78510	AT5G09820	SPS1	MYH9.3|MYH9_3	T30F21.15|T30F21_15|solanesyl diphosphate synthase 1	FRET	physical	Kim EH (2015)	PUBMED:26432861	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q5M755	F4KFC4	NP_001031862|NP_196544	Q8S948	-	NP_001077840|NP_177972	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1503725	830842	838275	16120	23515	AT5G09820	AT1G17050	AT5G09820	SPS2	MYH9.3|MYH9_3	F20D23.25|F20D23_25|solanesyl diphosphate synthase 2	FRET	physical	Kim EH (2015)	PUBMED:26432861	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q5M755	F4KFC4	NP_001031862|NP_196544	Q76FS5	-	NP_173148	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1503728	823729	834676	9049	19925	AT3G45860	AT5G46330	CRK4	FLS2	cysteine-rich RLK (RECEPTOR-like protein kinase) 4	FLAGELLIN-SENSITIVE 2|MPL12.13|MPL12.8|MPL12_13	FRET	physical	Yeh YH (2015)	PUBMED:26029224	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LZU4	-	NP_190172	Q9FL28	C0LGU8	NP_199445	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1503729	828413	834676	13702	19925	AT4G23140	AT5G46330	CRK6	FLS2	F7H19.330|F7H19_330|RECEPTOR-LIKE PROTEIN KINASE|cysteine-rich RLK (RECEPTOR-like protein kinase) 6	FLAGELLIN-SENSITIVE 2|MPL12.13|MPL12.8|MPL12_13	FRET	physical	Yeh YH (2015)	PUBMED:26029224	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9C5S9	-	NP_849426|NP_567678	Q9FL28	C0LGU8	NP_199445	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1503730	825779	834676	11090	19925	AT4G04490	AT5G46330	CRK36	FLS2	T26N6.10|T26N6_10|cysteine-rich RLK (RECEPTOR-like protein kinase) 36	FLAGELLIN-SENSITIVE 2|MPL12.13|MPL12.8|MPL12_13	FRET	physical	Yeh YH (2015)	PUBMED:26029224	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9XEC6	-	NP_192358	Q9FL28	C0LGU8	NP_199445	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1504495	3090	2122	109337	108423	-	hCG_1640438	HIC1	MECOM	ZBTB29|ZNF901|hic-1	AML1-EVI-1|EVI1|MDS1|MDS1-EVI1|PRDM3	FRET	physical	Pradhan AK (2014)	PUBMED:24907396	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14526	A0PJI1	NP_001091672|NP_006488	Q13465|Q03112	E7EQ57|C7FEN9	NP_001098548|NP_001192123|NP_004982|NP_001098547|NP_001157472|NP_001157471|NP_005232	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1505185	830303	838518	15583	23757	AT5G04240	AT1G19350	ELF6	BES1	EARLY FLOWERING 6|F21E1.160|F21E1_160	107 PROTEIN|BRASSINAZOLE-RESISTANT 2|BRI1-EMS-SUPPRESSOR 1|BZR2|F18O14.7|F18O14_7	FRET	physical	Yu X (2008)	PUBMED:18467490	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q6BDA0	-	NP_196044	Q9LN63	F4HP45	NP_973863|NP_564081|NP_001077562|NP_973865|NP_973864	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1505191	819210	826364	4545	11664	AT2G46020	AT4G08150	BRM	KNAT1	ARABIDOPSIS THALIANA BRAHMA|ATBRM|BRAHMA|CHA2|CHR2|CHROMATIN REMODELING 2|T3F17.33	BP|BP1|BREVIPEDICELLUS|BREVIPEDICELLUS 1|F9M13.2|F9M13_2|KNOTTED-LIKE HOMEOBOX PROTEIN|KNOTTED-like from Arabidopsis thaliana	FRET	physical	Zhao M (2015)	PUBMED:25822547	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q6EVK6	-	NP_182126|NP_973695	P46639	-	NP_192555	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1505283	5371	7341	111384	113188	-	OK/SW-cl.43	PML	SUMO1	MYL|PP8675|RNF71|TRIM19	DAP1|GMP1|OFC10|PIC1|SENP2|SMT3|SMT3C|SMT3H3|UBL1	FRET	physical	Cappadocia L (2015)	PUBMED:25497731	9606	9606	Low Throughput	-	-	Figure 1|bioluminescence resonance energy transfer (BRET)	-	BIOGRID	P29590	-	NP_150250|NP_150253|NP_150252|NP_150247|NP_150241|NP_150242|NP_150243|NP_002666|NP_150249	P63165	A0A024R3Z2	NP_001358323|NP_001358322|NP_001358321|NP_001005782|NP_001005781|NP_003343	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1505453	819172	819174	4508	4510	AT2G45640	AT2G45660	SAP18	AGL20	ATSAP18|F17K2.17|SIN3 ASSOCIATED POLYPEPTIDE 18|SIN3 associated polypeptide P18	AGAMOUS-like 20|ATSOC1|F17K2.19|MADS-BOX PROTEIN AGL20|SOC1|SUPPRESSOR OF OVEREXPRESSION OF CO 1	FRET	physical	Liu C (2009)	PUBMED:19460347	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O64644	F4IG85	NP_001189753|NP_566050	O64645	-	NP_182090	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1505454	819172	828556	4508	13845	AT2G45640	AT4G24540	SAP18	AGL24	ATSAP18|F17K2.17|SIN3 ASSOCIATED POLYPEPTIDE 18|SIN3 associated polypeptide P18	AGAMOUS-like 24|F22K18.260|F22K18_260	FRET	physical	Liu C (2009)	PUBMED:19460347	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O64644	F4IG85	NP_001189753|NP_566050	O82794	-	NP_194185	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1505458	831635	816787	16911	2140	AT5G17690	AT2G22540	TFL2	SVP	LHP1|LIKE HETEROCHROMATIN PROTEIN 1|MVA3.4|MVA3_4|TERMINAL FLOWER 2	AGAMOUS-like 22|AGL22|AT2G22550|F14M13.6|F14M13_6|SHORT VEGETATIVE PHASE	FRET	physical	Liu C (2009)	PUBMED:19460347	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q946J8	Q058P7	NP_197271	Q9FVC1	A7XFU1	NP_179840|NP_001154528	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1505674	835956	836242	21200	21486	AT5G58430	AT5G61210	EXO70B1	SNAP33	ATEXO70B1|MQJ2.2|MQJ2_2|exocyst subunit exo70 family protein B1	ATSNAP33|ATSNAP33B|MAF19.2|MAF19_2|SNP33|soluble N-ethylmaleimide-sensitive factor adaptor protein 33	FRET	physical	Zhao T (2015)	PUBMED:25617755	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FGH9	-	NP_200651	Q9S7P9	-	NP_200929	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1505678	835956	838338	21200	23578	AT5G58430	AT1G17615	EXO70B1	AT1G17615	ATEXO70B1|MQJ2.2|MQJ2_2|exocyst subunit exo70 family protein B1	F1L3.31|F1L3_31	FRET	physical	Zhao T (2015)	PUBMED:25617755	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FGH9	-	NP_200651	-	Q4PT31	NP_173205	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1506952	81858	3678	123608	109884	PSEC0216	-	SHARPIN	ITGA5	SIPL1	CD49e|FNRA|VLA5A	FRET	physical	De Franceschi N (2015)	PUBMED:26600301	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9H0F6	Q6PJD5	NP_112236	P08648	-	NP_002196	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1507065	836120	844388	21364	29606	AT5G59980	AT1G80490	AT5G59980	TPR1	MMN10.23|MMN10_23	T21F11.18|T21F11_18|TOPLESS-related 1	FRET	physical	Fukazawa J (2014)	PUBMED:25035403	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	F4JXF0|F4JXF1	NP_200806|NP_001154789	Q0WV90	-	NP_849913|NP_178164	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1508103	7098	3122	112953	109367	-	DASS-397D15.1	TLR3	HLA-DRA	CD283|IIAE2	HLA-DRA1|MLRW	FRET	physical	Bourgeois-Daigneault MC (2013)	PUBMED:24600555	9606	9606	Low Throughput	-	-	Figure 2	-	BIOGRID	O15455	-	NP_003256	P01903	-	NP_061984	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1509033	838127	824585	23367	9902	AT1G15570	AT3G54180	CYCA2;3	CDKB1;1	CYCLIN A2;3|T16N11.8|T16N11_8	CDC2-LIKE GENE|CDC2B|CYCLIN-DEPENDENT KINASE B1;1|P34(CDC2)-LIKE PROTEIN	FRET	physical	Boudolf V (2009)	PUBMED:19458112	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q38819	-	NP_173010	P25859	-	NP_190986	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1509225	7189	7189	113041	113041	-	-	TRAF6	TRAF6	MGC:3310|RNF85	MGC:3310|RNF85	FRET	physical	Jiao S (2015)	PUBMED:25642822	9606	9606	Low Throughput	-	-	Figure 7|oligomerization	-	BIOGRID	Q9Y4K3	-	NP_004611|NP_665802	Q9Y4K3	-	NP_004611|NP_665802	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1509663	84433	51255	124073	119411	-	HSPC238	CARD11	RNF181	BENTA|BIMP3|CARMA1|IMD11|PPBL	-	FRET	physical	Pedersen SM (2015)	PUBMED:26711259	9606	9606	Low Throughput	-	-	BRET based high-throughput screen (BRIC)	-	BIOGRID	Q9BXL7	Q8TES3|A0A024R854	NP_001311210|NP_115791	Q9P0P0	-	NP_057578	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1510654	64170	55223	122094	120518	RP11-413M3.9	RP11-131M11.1	CARD9	TRIM62	CANDF2|hCARD9	DEAR1	FRET	physical	Cao Z (2015)	PUBMED:26488816	9606	9606	Low Throughput	-	-	BRET (bioluminescence resonance energy transfer)	-	BIOGRID	Q9H257	A0A024R8F1	NP_434700|NP_434701	Q9BVG3	-	NP_060677|NP_001317412	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1510726	818881	816394	4218	1751	AT2G42810	AT2G18790	PP5.2	PHYB	F7D19.19|F7D19_19|PAPP5|PP5|PROTEIN PHOSPHATASE 5|protein phosphatase 5.2	HY3|MSF3.17|MSF3_17|OOP1|OUT OF PHASE 1|PHYTOCHROME B	FRET	physical	Ryu JS (2005)	PUBMED:15707897	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q84XU2	-	NP_001031534|NP_565985	P14713	-	NP_179469	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1513618	12914	406	198875	106899	-	-	Crebbp	ARNTL	AW558298|CBP|CBP/p300|KAT3A|p300/CBP	BMAL1|BMAL1c|JAP3|MOP3|PASD3|TIC|bHLHe5	FRET	physical	Lee Y (2015)	PUBMED:26164627	10090	9606	Low Throughput	-	-	BiFC-FRET assay|Figure 1|Figure 4	-	BIOGRID	-	F8VPR5|Q6GQV9	NP_001020603	O00327	B2RCL8	NP_001284648|NP_001284651|NP_001284653|NP_001169|NP_001025443|NP_001025444	-	-	-	-	-	-	Mus musculus	Homo sapiens
+1513619	12914	9575	198875	114944	-	-	Crebbp	CLOCK	AW558298|CBP|CBP/p300|KAT3A|p300/CBP	KAT13D|bHLHe8	FRET	physical	Lee Y (2015)	PUBMED:26164627	10090	9606	Low Throughput	-	-	BiFC-FRET assay|Figure 1	-	BIOGRID	-	F8VPR5|Q6GQV9	NP_001020603	O15516	Q53EU0|Q3ZCT4	NP_004889|NP_001254772	-	-	-	-	-	-	Mus musculus	Homo sapiens
+1513622	12914	6612	198875	112496	-	-	Crebbp	SUMO3	AW558298|CBP|CBP/p300|KAT3A|p300/CBP	SMT3A|SMT3H1|SUMO-3|Smt3B	FRET	physical	Lee Y (2015)	PUBMED:26164627	10090	9606	Low Throughput	-	-	BiFC-FRET assay|Figure 4	-	BIOGRID	-	F8VPR5|Q6GQV9	NP_001020603	P55854	-	NP_001273345|NP_008867	-	-	-	-	-	-	Mus musculus	Homo sapiens
+1513631	83737	6456	123747	112353	-	-	ITCH	SH3GL2	ADMFD|AIF4|AIP4|NAPP1|dJ468O1.1	CNSA2|EEN-B1|SH3D2A|SH3P4	FRET	physical	Desrochers G (2015)	PUBMED:26613292	9606	9606	Low Throughput	-	-	BRET|Figure 1	-	BIOGRID	Q96J02	-	NP_001311126|NP_113671|NP_001244066|NP_001311127|NP_001244067	Q99962	Q7Z376	NP_003017	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1513632	83737	274	123747	106771	-	-	ITCH	BIN1	ADMFD|AIF4|AIP4|NAPP1|dJ468O1.1	AMPH2|AMPHL|SH3P9	FRET	physical	Desrochers G (2015)	PUBMED:26613292	9606	9606	Low Throughput	-	-	BRET|Figure 1	-	BIOGRID	Q96J02	-	NP_001311126|NP_113671|NP_001244066|NP_001311127|NP_001244067	O00499	A0A024RAJ2|A0A024RAE9|Q9BTH3|B7Z6Y2|A0A024RAF6|A0A024RAG8|A0A024RAI6|A0A024RAF1|A0A024RAI5|A0A024RAF0|A0A024RAI4|A0A024RAJ3|A0A024RAG9	NP_004296|NP_647601|NP_647600|NP_001307561|NP_001307569|NP_001307563|NP_001307562|NP_647599|NP_647598|NP_001307570|NP_001307571|NP_647595|NP_647594|NP_647597|NP_647596|NP_647593	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1513633	83737	29993	123747	119018	-	RP11-375E1__A.1	ITCH	PACSIN1	ADMFD|AIF4|AIP4|NAPP1|dJ468O1.1	SDPI	FRET	physical	Desrochers G (2015)	PUBMED:26613292	9606	9606	Low Throughput	-	-	BRET|Figure 1	-	BIOGRID	Q96J02	-	NP_001311126|NP_113671|NP_001244066|NP_001311127|NP_001244067	Q9BY11	Q5TZC3	NP_065855|NP_001186512	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1513634	83737	6453	123747	112351	-	-	ITCH	ITSN1	ADMFD|AIF4|AIP4|NAPP1|dJ468O1.1	ITSN|SH3D1A|SH3P17	FRET	physical	Desrochers G (2015)	PUBMED:26613292	9606	9606	Low Throughput	-	-	BRET|Figure 1	-	BIOGRID	Q96J02	-	NP_001311126|NP_113671|NP_001244066|NP_001311127|NP_001244067	Q15811	Q6PD56	NP_001317939|NP_001317938|NP_001317937|NP_001001132|NP_003015|NP_001317940|NP_001317941	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1513688	4670	7307	110751	113157	-	-	HNRNPM	U2AF1	CEAR|HNRNPM4|HNRPM|HNRPM4|HTGR1|NAGR1|hnRNP M	FP793|RN|RNU2AF1|U2AF35|U2AFBP	FRET	physical	Lleres D (2010)	PUBMED:20467437	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P52272	Q59ES8	NP_112480|NP_001284347|NP_005959	Q01081	Q7Z780	NP_001020374|NP_001020375|NP_006749	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1513689	4670	11338	110751	116466	-	-	HNRNPM	U2AF2	CEAR|HNRNPM4|HNRPM|HNRPM4|HTGR1|NAGR1|hnRNP M	U2AF65	FRET	physical	Lleres D (2010)	PUBMED:20467437	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P52272	Q59ES8	NP_112480|NP_001284347|NP_005959	P26368	-	NP_001012496|NP_009210	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1514703	824198	824665	9516	9981	AT3G50360	AT3G55000	CEN2	TON1A	ATCEN2|CEN1|CENTRIN 1|centrin2	T15C9.7|TON1|TONNEAU 1|TONNEAU 1A	FRET	physical	Azimzadeh J (2008)	PUBMED:18757558	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O82659	-	NP_190605	Q9FQ25	-	NP_567012	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1514704	829855	824665	15136	9981	AT4G37010	AT3G55000	CEN2	TON1A	AP22.11|AP22_11|centrin 2	T15C9.7|TON1|TONNEAU 1|TONNEAU 1A	FRET	physical	Azimzadeh J (2008)	PUBMED:18757558	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O23184	B6EUB9	NP_001031798|NP_195418	Q9FQ25	-	NP_567012	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1515037	2149	57561	108448	121616	-	-	F2R	ARRDC3	CF2R|HTR|PAR-1|PAR1|TR	TLIMP	FRET	physical	Dores MR (2015)	PUBMED:26490116	9606	9606	Low Throughput	-	-	Figure 1|bioluminescence resonance energy transfer	-	BIOGRID	P25116	Q2TNB2|A0A024RAP7	NP_001983|NP_001298242	Q96B67	-	NP_065852	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1515561	8878	5584	114397	111570	-	-	SQSTM1	PRKCI	A170|OSIL|PDB3|ZIP3|p60|p62|p62B	DXS1179E|PKCI|nPKC-iota	FRET	physical	Tsai LC (2015)	PUBMED:26187466	9606	9606	Low Throughput	-	-	Figure 3	-	BIOGRID	Q13501	-	NP_003891|NP_001135771|NP_001135770	P41743	-	NP_002731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1515562	8878	8878	114397	114397	-	-	SQSTM1	SQSTM1	A170|OSIL|PDB3|ZIP3|p60|p62|p62B	A170|OSIL|PDB3|ZIP3|p60|p62|p62B	FRET	physical	Tsai LC (2015)	PUBMED:26187466	9606	9606	Low Throughput	-	-	Figure 3	-	BIOGRID	Q13501	-	NP_003891|NP_001135771|NP_001135770	Q13501	-	NP_003891|NP_001135771|NP_001135770	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1515563	8878	2890	114397	109147	-	-	SQSTM1	GRIA1	A170|OSIL|PDB3|ZIP3|p60|p62|p62B	GLUH1|GLUR1|GLURA|GluA1|HBGR1	FRET	physical	Tsai LC (2015)	PUBMED:26187466	9606	9606	Low Throughput	-	-	Figure 5	-	BIOGRID	Q13501	-	NP_003891|NP_001135771|NP_001135770	P42261	Q59GL5	NP_001244949|NP_001244948|NP_001107655|NP_000818|NP_001244952|NP_001244950|NP_001244951	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1515590	834758	823492	20006	8812	AT5G47120	AT3G43810	BI1	CAM7	ARABIDOPSIS BAX INHIBITOR 1|ATBI-1|ATBI1|BAX INHIBITOR 1|BI-1|K14A3.7|K14A3_7	CALMODULIN 7	FRET	physical	Ihara-Ohori Y (2007)	PUBMED:17142482	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9LD45	-	NP_199523	P59220	Q1H5F3	NP_189967	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1516569	823585	831635	8905	16911	AT3G44600	AT5G17690	CYP71	TFL2	cyclophilin71	LHP1|LIKE HETEROCHROMATIN PROTEIN 1|MVA3.4|MVA3_4|TERMINAL FLOWER 2	FRET	physical	Li H (2011)	PUBMED:21596687	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8W4D0	-	NP_190046	Q946J8	Q058P7	NP_197271	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1518870	827496	818713	12789	4050	AT4G17750	AT2G41140	HSF1	CRK1	ARABIDOPSIS THALIANA CLASS A HEAT SHOCK FACTOR 1A|ARABIDOPSIS THALIANA HEAT SHOCK FACTOR 1|ATHSF1|ATHSFA1A|CLASS A HEAT SHOCK FACTOR 1A|DL4910C|FCAALL.107|HEAT SHOCK FACTOR|HSFA1A|heat shock factor 1	ATCBK3|ATCRK1|CDPK-related kinase 1|T3K9.9|T3K9_9	FRET	physical	Liu HT (2008)	PUBMED:18466301	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P41151	-	NP_193510	O80673	-	NP_181647	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1518969	829437	833502	14722	18756	AT4G33000	AT5G35410	CBL10	SOS2	ATCBL10|F26P21.120|F26P21_120|SCABP8|SOS3-LIKE CALCIUM BINDING PROTEIN 8|calcineurin B-like protein 10	ATSOS2|CBL-INTERACTING PROTEIN KINASE 24|CIPK24|K21B8.3|K21B8_3|SALT OVERLY SENSITIVE 2|SNF1-RELATED PROTEIN KINASE 3.11|SNRK3.11	FRET	physical	Kim BG (2007)	PUBMED:17825054	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q7FRS8	M5BEI3|B3H7L8	NP_195026|NP_849485|NP_001119105	Q9LDI3	M5BEH1	NP_198391	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1519441	828151	817553	13440	2903	AT4G01370	AT2G30020	MPK4	AT2G30020	ATMPK4|F2N1.1|F2N1_1|MAP kinase 4	AP2C1|F23F1.6|F23F1_6	FRET	physical	Schweighofer A (2007)	PUBMED:17630279	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q39024	-	NP_192046	O80871	F6LPR5	NP_180563	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1519442	818982	817553	4318	2903	AT2G43790	AT2G30020	MPK6	AT2G30020	ATMAPK6|ATMPK6|F18O19.10|MAP KINASE 6|MAPK6	AP2C1|F23F1.6|F23F1_6	FRET	physical	Schweighofer A (2007)	PUBMED:17630279	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q39026	-	NP_181907	O80871	F6LPR5	NP_180563	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1520678	834133	822415	19384	7745	AT5G41315	AT3G27920	GL3	MYB0	GLABRA 3|GLABROUS 3|MYC6.2	ATGL1|ATMYB0|GL1|GLABRA 1|TRICHOME DIFFERENTIATION PROTEIN GL1|myb domain protein 0	FRET	physical	Pesch M (2015)	PUBMED:25926482	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FN69	-	NP_680372	P27900	I6P6H3	NP_189430	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1520689	834133	832523	19384	17798	AT5G41315	AT5G24520	GL3	TTG1	GLABRA 3|GLABROUS 3|MYC6.2	ATTTG1|K18P6.4|K18P6_4|TRANSPARENT TESTA GLABRA 1|TTG|UNARMED 23|URM23	FRET	physical	Pesch M (2015)	PUBMED:25926482	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FN69	-	NP_680372	Q9XGN1	-	NP_851069|NP_197840|NP_851070	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1520968	9318	8451	114729	114029	-	RP11-391H12.1	COPS2	CUL4A	ALIEN|CSN2|SGN2|TRIP15	-	FRET	physical	Cavadini S (2016)	PUBMED:27029275	9606	9606	Low Throughput	-	-	TR-FRET	-	BIOGRID	P61201	Q59EL2	NP_004227|NP_001137359	Q13619	B2RBV7	NP_001341868|NP_001265443|NP_001341869|NP_001341871|NP_001341867|NP_001265442|NP_001008895|NP_003580|NP_001341870	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1520969	2873	1642	109131	108009	-	-	GPS1	DDB1	COPS1|CSN1	DDBA|UV-DDB1|XAP1|XPCE|XPE|XPE-BF	FRET	physical	Cavadini S (2016)	PUBMED:27029275	9606	9606	Low Throughput	-	-	TR-FRET	-	BIOGRID	Q13098	C9JFE4	NP_001317468|NP_001308018|NP_001308019|NP_001317470|NP_997657|NP_004118|NP_001308021|NP_001308020|NP_001308022	Q16531	-	NP_001914	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1521075	829555	825797	14837	11108	AT4G34090	AT4G04640	AT4G34090	ATPC1	F28A23.150|F28A23_150	T19J18.4|T19J18_4	FRET	physical	Mao J (2015)	PUBMED:25775508	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	F4JJY7|Q3E7I4|Q94JY0	NP_001190908|NP_974678|NP_567951	Q01908	-	NP_567265	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1523804	855144	856738	35293	36751	YMR117C	YER018C	SPC24	SPC25	L000004694	L000004695	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q04477	-	NP_013835	P40014	-	NP_010934	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1523805	854662	854085	34848	34332	YIL144W	YOL069W	NDC80	NUF2	HEC1|TID3|L000004311	L000001286	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P40460	-	NP_012122	P33895	-	NP_014572	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1523806	854085	854085	34332	34332	YOL069W	YOL069W	NUF2	NUF2	L000001286	L000001286	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	neighboring complex	-	BIOGRID	P33895	-	NP_014572	P33895	-	NP_014572	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1523807	854662	854662	34848	34848	YIL144W	YIL144W	NDC80	NDC80	HEC1|TID3|L000004311	HEC1|TID3|L000004311	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	neighboring complex	-	BIOGRID	P40460	-	NP_012122	P40460	-	NP_012122	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1523808	855144	855144	35293	35293	YMR117C	YMR117C	SPC24	SPC24	L000004694	L000004694	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	neighboring complex	-	BIOGRID	Q04477	-	NP_013835	Q04477	-	NP_013835	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1523809	854085	852535	34332	32928	YOL069W	YBR233W-A	NUF2	DAD3	L000001286	-	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P33895	-	NP_014572	P69850	-	NP_631876	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1523810	854085	851919	34332	32377	YOL069W	YDR320C-A	NUF2	DAD4	L000001286	HSK2	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P33895	-	NP_014572	P69851	-	NP_710144	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1523811	854085	853010	34332	33360	YOL069W	YGR113W	NUF2	DAM1	L000001286	L000004420	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P33895	-	NP_014572	P53267	-	NP_011628	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1523812	852535	852535	32928	32928	YBR233W-A	YBR233W-A	DAD3	DAD3	-	-	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	neighboring complex	-	BIOGRID	P69850	-	NP_631876	P69850	-	NP_631876	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1523813	851919	851919	32377	32377	YDR320C-A	YDR320C-A	DAD4	DAD4	HSK2	HSK2	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	neighboring complex	-	BIOGRID	P69851	-	NP_710144	P69851	-	NP_710144	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1523814	853010	853010	33360	33360	YGR113W	YGR113W	DAM1	DAM1	L000004420	L000004420	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	neighboring complex	-	BIOGRID	P53267	-	NP_011628	P53267	-	NP_011628	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1523815	850734	854085	31320	34332	YLR045C	YOL069W	STU2	NUF2	L000003019	L000001286	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P46675	-	NP_013146	P33895	-	NP_014572	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1523816	850734	854662	31320	34848	YLR045C	YIL144W	STU2	NDC80	L000003019	HEC1|TID3|L000004311	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P46675	-	NP_013146	P40460	-	NP_012122	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1523817	856738	852787	36751	33158	YER018C	YGL093W	SPC25	SPC105	L000004695	L000004697	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P40014	-	NP_010934	P53148	-	NP_011422	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1523818	856738	854827	36751	35002	YER018C	YIR010W	SPC25	DSN1	L000004695	MIND complex subunit DSN1|L000004645	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P40014	-	NP_010934	P40568	-	NP_012275	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1523819	856738	855843	36751	35929	YER018C	YPL233W	SPC25	NSL1	L000004695	MIND complex subunit NSL1|L000004652	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P40014	-	NP_010934	Q12143	-	NP_015091	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1523820	851197	851197	31731	31731	YAL034W-A	YAL034W-A	MTW1	MTW1	DSN3|NSL2|MIND complex subunit MTW1|S000007418	DSN3|NSL2|MIND complex subunit MTW1|S000007418	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	neighboring complex	-	BIOGRID	P39731	-	NP_009367	P39731	-	NP_009367	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1523821	854827	854827	35002	35002	YIR010W	YIR010W	DSN1	DSN1	MIND complex subunit DSN1|L000004645	MIND complex subunit DSN1|L000004645	FRET	physical	Aravamudhan P (2014)	PUBMED:24930965	559292	559292	Low Throughput	-	-	neighboring complex	-	BIOGRID	P40568	-	NP_012275	P40568	-	NP_012275	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1526179	824168	832196	9486	17471	AT3G50060	AT5G20730	MYB77	NPH4	myb domain protein 77	ARF7|AUXIN RESPONSE FACTOR 7|AUXIN-REGULATED TRANSCRIPTIONAL ACTIVATOR 7|AUXIN-RESPONSIVE TRANSCRIPTIONAL ACTIVATOR 7|BIP|BIPOSTO|IAA21|IAA23|IAA25|MASSUGU 1|MSG1|NON-PHOTOTROPHIC HYPOCOTYL|T1M15.130|T1M15_130|TIR5|TRANSPORT INHIBITOR RESPONSE 5|indole-3-acetic acid inducible 21|indole-3-acetic acid inducible 23|indole-3-acetic acid inducible 25	FRET	physical	Shin R (2007)	PUBMED:17675404	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9SN12	NP_190575	P93022	F4K5M5	NP_568400|NP_851046|NP_851047	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1526180	820793	832196	6127	17471	AT3G15540	AT5G20730	IAA19	NPH4	MASSUGU 2|MJK13.22|MSG2|indole-3-acetic acid inducible 19	ARF7|AUXIN RESPONSE FACTOR 7|AUXIN-REGULATED TRANSCRIPTIONAL ACTIVATOR 7|AUXIN-RESPONSIVE TRANSCRIPTIONAL ACTIVATOR 7|BIP|BIPOSTO|IAA21|IAA23|IAA25|MASSUGU 1|MSG1|NON-PHOTOTROPHIC HYPOCOTYL|T1M15.130|T1M15_130|TIR5|TRANSPORT INHIBITOR RESPONSE 5|indole-3-acetic acid inducible 21|indole-3-acetic acid inducible 23|indole-3-acetic acid inducible 25	FRET	physical	Shin R (2007)	PUBMED:17675404	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O24409	Q2VWA2	NP_188173	P93022	F4K5M5	NP_568400|NP_851046|NP_851047	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1526387	4352660	4324182	821697	793219	-	-	Os12g0586100	Os01g0656200	-	-	FRET	physical	Kim N (2015)	PUBMED:26300907	39947	39947	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q75V57	F6M7D3	NP_001067155	Q5SN75	-	NP_001043754	-	-	-	-	-	-	Oryza sativa (Japonica)	Oryza sativa (Japonica)
+1526388	4352660	4324201	821697	793238	-	-	Os12g0586100	Os01g0583100	-	-	FRET	physical	Kim N (2015)	PUBMED:26300907	39947	39947	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q75V57	F6M7D3	NP_001067155	Q0JLP9	-	NP_001043415	-	-	-	-	-	-	Oryza sativa (Japonica)	Oryza sativa (Japonica)
+1526415	829541	828714	14823	14001	AT4G33950	AT4G26080	OST1	ABI1	ATOST1|F17I5.140|F17I5_140|OPEN STOMATA 1|P44|SNF1-RELATED PROTEIN KINASE 2.6|SNRK2-6|SNRK2.6|SRK2E|SUCROSE NONFERMENTING 1-RELATED PROTEIN KINASE 2-6	ABA INSENSITIVE 1|AtABI1|F20B18.190|F20B18_190|PROTEIN PHOSPHATASE 2C ABI1	FRET	physical	Waadt R (2015)	PUBMED:26175513	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q940H6	B3H6F9	NP_567945|NP_001119111	P49597	-	NP_194338	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1526416	829541	824214	14823	9532	AT4G33950	AT3G50500	OST1	SNRK2.2	ATOST1|F17I5.140|F17I5_140|OPEN STOMATA 1|P44|SNF1-RELATED PROTEIN KINASE 2.6|SNRK2-6|SNRK2.6|SRK2E|SUCROSE NONFERMENTING 1-RELATED PROTEIN KINASE 2-6	PROTEIN KINASE|SNF1-RELATED PROTEIN KINASE 2-2|SNF1-related protein kinase 2.2|SNRK2-2|SPK-2-2|SRK2D	FRET	physical	Waadt R (2015)	PUBMED:26175513	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q940H6	B3H6F9	NP_567945|NP_001119111	Q39192	F4J0N1	NP_001190047|NP_190619	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1526417	829541	836822	14823	22064	AT4G33950	AT5G66880	OST1	SNRK2.3	ATOST1|F17I5.140|F17I5_140|OPEN STOMATA 1|P44|SNF1-RELATED PROTEIN KINASE 2.6|SNRK2-6|SNRK2.6|SRK2E|SUCROSE NONFERMENTING 1-RELATED PROTEIN KINASE 2-6	SNRK2-3|SRK2I|SUCROSE NONFERMENTING 1 (SNF1)-RELATED PROTEIN KINASE 2-3|sucrose nonfermenting 1(SNF1)-related protein kinase 2.3	FRET	physical	Waadt R (2015)	PUBMED:26175513	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q940H6	B3H6F9	NP_567945|NP_001119111	Q39193	-	NP_201489	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1526418	829541	844164	14823	29383	AT4G33950	AT1G78290	OST1	AT1G78290	ATOST1|F17I5.140|F17I5_140|OPEN STOMATA 1|P44|SNF1-RELATED PROTEIN KINASE 2.6|SNRK2-6|SNRK2.6|SRK2E|SUCROSE NONFERMENTING 1-RELATED PROTEIN KINASE 2-6	-	FRET	physical	Waadt R (2015)	PUBMED:26175513	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q940H6	B3H6F9	NP_567945|NP_001119111	Q9M9E9	-	NP_974170|NP_001077839	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1526419	829541	829541	14823	14823	AT4G33950	AT4G33950	OST1	OST1	ATOST1|F17I5.140|F17I5_140|OPEN STOMATA 1|P44|SNF1-RELATED PROTEIN KINASE 2.6|SNRK2-6|SNRK2.6|SRK2E|SUCROSE NONFERMENTING 1-RELATED PROTEIN KINASE 2-6	ATOST1|F17I5.140|F17I5_140|OPEN STOMATA 1|P44|SNF1-RELATED PROTEIN KINASE 2.6|SNRK2-6|SNRK2.6|SRK2E|SUCROSE NONFERMENTING 1-RELATED PROTEIN KINASE 2-6	FRET	physical	Waadt R (2015)	PUBMED:26175513	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q940H6	B3H6F9	NP_567945|NP_001119111	Q940H6	B3H6F9	NP_567945|NP_001119111	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1526451	832518	838144	17793	23384	AT5G24470	AT1G15750	PRR5	TPL	APRR5|T31K7.5|T31K7_5|pseudo-response regulator 5	F7H2.9|F7H2_9|TOPLESS|WSIP1|WUS-INTERACTING PROTEIN 1	FRET	physical	Wang L (2013)	PUBMED:23267111	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q6LA42	-	NP_568446	Q94AI7	-	NP_001031051|NP_001031050|NP_849672|NP_563981	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1526452	819292	838144	4627	23384	AT2G46790	AT1G15750	PRR9	TPL	APRR9|Arabidopsis pseudo-response regulator 9|F19D11.7|TL1|TOC1-LIKE PROTEIN 1|pseudo-response regulator 9	F7H2.9|F7H2_9|TOPLESS|WSIP1|WUS-INTERACTING PROTEIN 1	FRET	physical	Wang L (2013)	PUBMED:23267111	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8L500	Q56XM1|F4IJA1	NP_566085|NP_973703	Q94AI7	-	NP_001031051|NP_001031050|NP_849672|NP_563981	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1526453	831793	838144	17069	23384	AT5G02810	AT1G15750	PRR7	TPL	APRR7|F9G14.120|F9G14_120|pseudo-response regulator 7	F7H2.9|F7H2_9|TOPLESS|WSIP1|WUS-INTERACTING PROTEIN 1	FRET	physical	Wang L (2013)	PUBMED:23267111	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q93WK5	-	NP_568107	Q94AI7	-	NP_001031051|NP_001031050|NP_849672|NP_563981	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1526454	838144	838144	23384	23384	AT1G15750	AT1G15750	TPL	TPL	F7H2.9|F7H2_9|TOPLESS|WSIP1|WUS-INTERACTING PROTEIN 1	F7H2.9|F7H2_9|TOPLESS|WSIP1|WUS-INTERACTING PROTEIN 1	FRET	physical	Wang L (2013)	PUBMED:23267111	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q94AI7	-	NP_001031051|NP_001031050|NP_849672|NP_563981	Q94AI7	-	NP_001031051|NP_001031050|NP_849672|NP_563981	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1526467	817403	831442	2753	16718	AT2G28550	AT5G15850	RAP2.7	COL1	T17D12.11|T17D12_11|TARGET OF EARLY ACTIVATION TAGGED (EAT) 1|TOE1|related to AP2.7	ATCOL1|CONSTANS-like 1|F14F8.230|F14F8_230	FRET	physical	Zhang B (2015)	PUBMED:25934507	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SK03	F4IIR3	NP_001189625|NP_973553|NP_565674	O50055	-	NP_197089	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1526471	817403	843133	2753	28354	AT2G28550	AT1G68050	RAP2.7	FKF1	T17D12.11|T17D12_11|TARGET OF EARLY ACTIVATION TAGGED (EAT) 1|TOE1|related to AP2.7	ADO3|T23K23.10|T23K23_10|f box 1|flavin-binding|kelch repeat	FRET	physical	Zhang B (2015)	PUBMED:25934507	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SK03	F4IIR3	NP_001189625|NP_973553|NP_565674	Q9C9W9	-	NP_564919	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1526480	843442	840158	28662	25392	AT1G71020	AT1G32640	AT1G71020	MYC2	F23N20.1|F23N20_1	ATMYC2|F6N18.4|F6N18_4|JAI1|JASMONATE INSENSITIVE 1|JIN1|RD22BP1|ZBF1	FRET	physical	Jung C (2015)	PUBMED:26163577	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9C9A6	B3H660	NP_001117582|NP_177258	Q39204	-	NP_174541	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1526481	843442	834719	28662	19967	AT1G71020	AT5G46760	AT1G71020	AT5G46760	F23N20.1|F23N20_1	MZA15.18|MZA15_18	FRET	physical	Jung C (2015)	PUBMED:26163577	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9C9A6	B3H660	NP_001117582|NP_177258	Q9FIP9	-	NP_199488	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1526482	843442	827511	28662	12804	AT1G71020	AT4G17880	AT1G71020	AT4G17880	F23N20.1|F23N20_1	T6K21.60|T6K21_60	FRET	physical	Jung C (2015)	PUBMED:26163577	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9C9A6	B3H660	NP_001117582|NP_177258	O49687	-	NP_193522	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1526818	2167	3991	108465	110179	-	-	FABP4	LIPE	A-FABP|AFABP|ALBP|HEL-S-104|aP2	AOMS4|HSL|LHS	FRET	physical	Smith AJ (2004)	PUBMED:15456755	9606	9606	Low Throughput	-	-	Figure 5	-	BIOGRID	P15090	E7DVW4	NP_001433	Q05469	A8K8W7	NP_005348	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1527384	817586	818199	2935	3543	AT2G30360	AT2G36270	SIP4	ABI5	CBL-INTERACTING PROTEIN KINASE 11|CIPK11|PKS5|PROTEIN KINASE SOS2-LIKE 5|SNF1-RELATED PROTEIN KINASE 3.22|SNRK3.22|SOS3-interacting protein 4|T9D9.17|T9D9_17	ABA INSENSITIVE 5|F2H17.12|F2H17_12|GIA1|GROWTH-INSENSITIVITY TO ABA 1	FRET	physical	Zhou X (2015)	PUBMED:25858916	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O22932	-	NP_180595	Q9SJN0	-	NP_565840	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1527386	7430	2064	113271	108376	-	-	EZR	ERBB2	CVIL|CVL|HEL-S-105|VIL2	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Asp N (2016)	PUBMED:27029001	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P15311	-	NP_003370|NP_001104547	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1527656	1544	1544	107924	107924	-	-	CYP1A2	CYP1A2	CP12|P3-450|P450(PA)	CP12|P3-450|P450(PA)	FRET	physical	Reed JR (2012)	PUBMED:22738171	9606	9606	Low Throughput	-	-	BRET|Figure 6	-	BIOGRID	P05177	-	NP_000752	P05177	-	NP_000752	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1527663	838144	838518	23384	23757	AT1G15750	AT1G19350	TPL	BES1	F7H2.9|F7H2_9|TOPLESS|WSIP1|WUS-INTERACTING PROTEIN 1	107 PROTEIN|BRASSINAZOLE-RESISTANT 2|BRI1-EMS-SUPPRESSOR 1|BZR2|F18O14.7|F18O14_7	FRET	physical	Ryu H (2014)	PUBMED:24938150	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q94AI7	-	NP_001031051|NP_001031050|NP_849672|NP_563981	Q9LN63	F4HP45	NP_973863|NP_564081|NP_001077562|NP_973865|NP_973864	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1527670	822453	822453	7782	7782	AT3G28270	AT3G28270	AT3G28270	AT3G28270	-	-	FRET	physical	Kumar MN (2015)	PUBMED:26240315	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LHD9	-	NP_850644|NP_566836	Q9LHD9	-	NP_850644|NP_566836	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1527671	822453	838779	7782	24018	AT3G28270	AT1G21750	AT3G28270	PDIL1-1	-	ARABIDOPSIS THALIANA PROTEIN DISULFIDE ISOMERASE 5|ATPDI5|ATPDIL1-1|F8K7.19|F8K7_19|PDI-like 1-1|PDI5|PROTEIN DISULFIDE ISOMERASE 5	FRET	physical	Kumar MN (2015)	PUBMED:26240315	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LHD9	-	NP_850644|NP_566836	Q9XI01	F4HZN9	NP_849696|NP_173594	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1527672	822453	820839	7782	6173	AT3G28270	AT3G15950	AT3G28270	NAI2	-	-	FRET	physical	Kumar MN (2015)	PUBMED:26240315	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LHD9	-	NP_850644|NP_566836	Q9LSB4	-	NP_188216|NP_001030708	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1527681	830018	817722	15298	3069	AT4G38620	AT2G31660	MYB4	SAD2	ATMYB4|T9A14.11|myb domain protein 4	SUPER SENSITIVE TO ABA AND DROUGHT2|T9H9.18|T9H9_18|UNARMED 9|URM9	FRET	physical	Zhou M (2015)	PUBMED:26332741	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9SZP1	-	NP_195574	-	F4IRR2	NP_180724	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1527682	816173	817722	1530	3069	AT2G16720	AT2G31660	MYB7	SAD2	ARABIDOPSIS THALIANA MYB DOMAIN PROTEIN 7|ATMYB7|ATY49|T24I21.13|T24I21_13|myb domain protein 7	SUPER SENSITIVE TO ABA AND DROUGHT2|T9H9.18|T9H9_18|UNARMED 9|URM9	FRET	physical	Zhou M (2015)	PUBMED:26332741	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q42379	NP_179263	-	F4IRR2	NP_180724	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1527683	829651	817722	14933	3069	AT4G34990	AT2G31660	MYB32	SAD2	AtMYB32|M4E13.50|M4E13_50|myb domain protein 32	SUPER SENSITIVE TO ABA AND DROUGHT2|T9H9.18|T9H9_18|UNARMED 9|URM9	FRET	physical	Zhou M (2015)	PUBMED:26332741	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O49608	-	NP_195225	-	F4IRR2	NP_180724	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1527697	818568	837843	3906	23083	AT2G39810	AT1G12860	HOS1	SCRM2	HIGH EXPRESSION OF OSMOTICALLY RESPONSIVE GENES 1|T5I7.11|T5I7_11	F13K23.12|F13K23_12|ICE2|INDUCER OF CBF EXPRESSION 2|SCREAM 2	FRET	physical	Kim YS (2015)	PUBMED:26311645	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q84JU6	-	NP_181511	Q9LPW3	-	NP_172746	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1527845	66968	66853	211843	211763	-	-	Plin5	Pnpla2	2310076L09Rik|AI415325|AW109675|Lsdp5|MLDP|PAT-1	0610039C21Rik|1110001C14Rik|Atgl|TTS-2.2	FRET	physical	Granneman JG (2011)	PUBMED:21148142	10090	10090	Low Throughput	-	-	Figure 2	-	BIOGRID	Q8BVZ1	-	NP_001070816|NP_080150	Q8BJ56	-	NP_001157161|NP_080078	-	-	-	-	-	-	Mus musculus	Mus musculus
+1527903	833523	834842	18776	20090	AT5G35580	AT5G47910	AT5G35580	RBOHD	K2K18.3|K2K18_3	ATRBOHD|MCA23.25|MCA23_25|RESPIRATORY BURST OXIDASE|respiratory burst oxidase homologue D	FRET	physical	Lin ZJ (2015)	PUBMED:26432875	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	F4JZW1	NP_198408	Q9FIJ0	-	NP_199602	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1528098	7157	4193	113010	110358	-	-	TP53	MDM2	BCC7|LFS1|P53|TRP53	ACTFS|HDMX|hdm2	FRET	physical	Liu LJ (2016)	PUBMED:26883110	9606	9606	Low Throughput	-	-	nano-BRET	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	Q00987	A7UKX8|Q96DS0|A7UKX9|A7UKX7|G3XA89	NP_001354919|NP_001265391|NP_002383|NP_001138811|NP_001138812|NP_001138809	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1528282	653361	5321	575724	111338	-	-	NCF1	PLA2G4A	NCF1A|NOXO2|SH3PXD1A|p47phox	PLA2G4|cPLA2-alpha	FRET	physical	Shmelzer Z (2008)	PUBMED:18765662	9606	9606	Low Throughput	-	-	Figure 4	-	BIOGRID	P14598	-	NP_000256	P47712	-	NP_077734|NP_001298122	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1528285	3991	2167	110179	108465	-	-	LIPE	FABP4	AOMS4|HSL|LHS	A-FABP|AFABP|ALBP|HEL-S-104|aP2	FRET	physical	Smith AJ (2007)	PUBMED:17785468	9606	9606	Low Throughput	-	-	Figure 1	-	BIOGRID	Q05469	A8K8W7	NP_005348	P15090	E7DVW4	NP_001433	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1528289	26416	69253	204969	213316	RP24-137E7.1	-	Mapk14	Hspb2	CSBP2|Crk1|Csbp1|Mxi2|PRKM14|PRKM15|p38|p38-alpha|p38MAPK|p38a|p38alpha	27kDa|2810021G24Rik|HSP27|MKBP	FRET	physical	Zheng C (2006)	PUBMED:17015449	10090	10090	Low Throughput	-	-	Figure 3	-	BIOGRID	P47811	Q5U421	NP_001161985|NP_036081|NP_001161986|NP_001161980	Q99PR8	Q6P3C8	NP_077761|NP_001158180	-	-	-	-	-	-	Mus musculus	Mus musculus
+1528491	816471	826609	1826	11908	AT2G19520	AT4G10180	FVE	DET1	ACG1|ATMSI4|F3P11.12|F3P11_12|MSI4|MULTICOPY SUPPRESSOR OF IRA1 4|NFC04|NFC4|NUCLEOSOME/CHROMATIN ASSEMBLY FACTOR GROUP C|WD-40 REPEAT PROTEIN MSI4	ATDET1|DE-ETIOLATED 1|FUS2|FUSCA 2|T9A4.17	FRET	physical	Kang MY (2015)	PUBMED:25962685	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O22607	-	NP_565456	P48732	-	NP_192756	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1528492	826609	820557	11908	5891	AT4G10180	AT3G13550	DET1	FUS9	ATDET1|DE-ETIOLATED 1|FUS2|FUSCA 2|T9A4.17	CIN4|CONSTITUTIVE PHOTOMORPHOGENIC 10|COP10|CYTOKININ-INSENSITIVE 4|E2 UBIQUITIN-CONJUGATING ENZYME|EMB144|EMBRYO DEFECTIVE 144|FUSCA 9	FRET	physical	Kang MY (2015)	PUBMED:25962685	3702	3702	Low Throughput	-	-	-	-	BIOGRID	P48732	-	NP_192756	Q9LJD7	Q0WNL1|B9DGC9	NP_566459|NP_001030691	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1528493	817134	818596	2486	3934	AT2G25930	AT2G40080	ELF3	ELF4	EARLY FLOWERING 3|F17H15.25|PYK20	EARLY FLOWERING 4|T28M21.24|T28M21_24	FRET	physical	Kang MY (2015)	PUBMED:25962685	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O82804	-	NP_180164	O04211	-	NP_565922	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+1533882	23236	2776	116841	109038	RP4-654A7.1	RP11-494N1.1	PLCB1	GNAQ	EIEE12|PI-PLC|PLC-154|PLC-I|PLC154|PLCB1A|PLCB1B	CMC1|G-ALPHA-q|GAQ|SWS	FRET	physical	Dowal L (2006)	PUBMED:16754659	9606	9606	Low Throughput	-	-	Figure 5|in rat PC12 cells	-	BIOGRID	Q9NQ66	-	NP_056007|NP_877398	P50148	A0A024R240	NP_002063	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1536676	855555	853539	35662	33832	YNL166C	YJR076C	BNI5	CDC11	-	PSL9|septin CDC11|L000000251	FRET	physical	Booth EA (2016)	PUBMED:27806918	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53890	-	NP_014233	P32458	-	NP_012610	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+1536770	824773	4326903	10089	795940	AT3G56070	-	ROC2	Os01g0279300	ROTAMASE CYCLOPHILIN 2|ROTAMASE CYP 2	-	FRET	physical	Kaur G (2015)	PUBMED:26317213	3702	39947	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q38867	-	NP_001078301|NP_191166	Q0JNL7	B7E316	NP_001042747	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Oryza sativa (Japonica)
+1536832	51099	5346	119288	111361	CGI-58	-	ABHD5	PLIN1	CDS|CGI58|IECN2|NCIE2	FPLD4|PERI|PLIN	FRET	physical	Wang H (2009)	PUBMED:19717842	9606	9606	Low Throughput	-	-	Figure 3	-	BIOGRID	Q8WTS1	-	NP_057090	O60240	-	NP_002657|NP_001138783	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1536833	3991	5346	110179	111361	-	-	LIPE	PLIN1	AOMS4|HSL|LHS	FPLD4|PERI|PLIN	FRET	physical	Wang H (2009)	PUBMED:19717842	9606	9606	Low Throughput	-	-	Figure 3	-	BIOGRID	Q05469	A8K8W7	NP_005348	O60240	-	NP_002657|NP_001138783	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1536834	3991	440503	110179	136635	-	-	LIPE	PLIN5	AOMS4|HSL|LHS	LSDA5|LSDP5|MLDP|OXPAT	FRET	physical	Wang H (2009)	PUBMED:19717842	9606	9606	Low Throughput	-	-	Figure 3	-	BIOGRID	Q05469	A8K8W7	NP_005348	Q00G26	-	NP_001013728	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1536835	3991	123	110179	106635	-	RP11-151J10.1	LIPE	PLIN2	AOMS4|HSL|LHS	ADFP|ADRP	FRET	physical	Wang H (2009)	PUBMED:19717842	9606	9606	Low Throughput	-	-	Figure 3	-	BIOGRID	Q05469	A8K8W7	NP_005348	Q99541	Q6FHZ7	NP_001113	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1537560	58157	207	121798	106710	-	-	NGB	AKT1	-	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li L (2014)	PUBMED:23904011	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9NPG2	A0M8W9	NP_067080	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+1537563	5606	1432	111592	107819	-	RP1-179N16.5	MAP2K3	MAPK14	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	FRET	physical	Li L (2014)	PUBMED:23904011	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2197991	816819	829927	2172	15208	AT2G22880	AT4G37710	AT2G22880	AT4G37710	T20K9.9|T20K9_9	T28I19.3	FRET	physical	Wang H (2015)	PUBMED:26394921	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O81005	NP_179873	-	Q9SZG3	NP_195485	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2197993	829927	816819	15208	2172	AT4G37710	AT2G22880	AT4G37710	AT2G22880	T28I19.3	T20K9.9|T20K9_9	FRET	physical	Wang H (2015)	PUBMED:26394921	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9SZG3	NP_195485	-	O81005	NP_179873	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2197994	829927	829927	15208	15208	AT4G37710	AT4G37710	AT4G37710	AT4G37710	T28I19.3	T28I19.3	FRET	physical	Wang H (2015)	PUBMED:26394921	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9SZG3	NP_195485	-	Q9SZG3	NP_195485	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2197995	816819	816819	2172	2172	AT2G22880	AT2G22880	AT2G22880	AT2G22880	T20K9.9|T20K9_9	T20K9.9|T20K9_9	FRET	physical	Wang H (2015)	PUBMED:26394921	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	O81005	NP_179873	-	O81005	NP_179873	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2198773	843330	817857	28551	3204	AT1G69935	AT2G32950	SHW1	COP1	SHORT HYPOCOTYL IN WHITE LIGHT1	ARABIDOPSIS THALIANA CONSTITUTIVE PHOTOMORPHOGENIC 1|ATCOP1|CONSTITUTIVE PHOTOMORPHOGENIC 1|DEETIOLATED MUTANT 340|DET340|EMB168|EMBRYO DEFECTIVE 168|FUS1|FUSCA 1|T21L14.11|T21L14_11	FRET	physical	Srivastava AK (2015)	PUBMED:26474641	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	F4I3V6	NP_564981	P43254	-	NP_180854	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2198788	833556	827123	18809	12420	AT5G35770	AT4G14713	SAP	PPD1	MXH1.20|MXH1_20|STERILE APETALA	PEAPOD 1|PLANT-SPECIFIC PUTATIVE DNA-BINDING PROTEIN 1|TIFY4A	FRET	physical	Wang Z (2016)	PUBMED:27048938	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9FKH1	-	NP_198426	Q7XA73	F4JIE4	NP_567442|NP_974548	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2198789	833556	827125	18809	12422	AT5G35770	AT4G14720	SAP	PPD2	MXH1.20|MXH1_20|STERILE APETALA	DL3400C|FCAALL.297|PEAPOD 2|TIFY4B	FRET	physical	Wang Z (2016)	PUBMED:27048938	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9FKH1	-	NP_198426	Q8GY55	-	NP_193208	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2198795	829142	843562	14429	28782	AT4G30190	AT1G72300	HA2	AT1G72300	AHA2|F9N11.40|F9N11_40|H(+)-ATPase 2|P-TYPE H(+)-ATPASE ISOFORM 2|PLASMA MEMBRANE PROTON ATPASE 2|PMA2	T9N14.20|T9N14_20	FRET	physical	Fuglsang AT (2014)	PUBMED:25267325	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P19456	F4JPJ7	NP_194748|NP_001190870	Q9C7S5	C0LGI8	NP_177374	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2198797	837479	829308	22720	14594	AT1G09530	AT4G31800	PIF3	WRKY18	F14J9.19|F14J9_19|PAP3|PHOTOCURRENT 1|PHYTOCHROME INTERACTING FACTOR 3|PHYTOCHROME-ASSOCIATED PROTEIN 3|POC1|purple acid phosphatase 3	ARABIDOPSIS THALIANA WRKY DNA-BINDING PROTEIN 18|ATWRKY18|F11C18.16|WRKY DNA-binding protein 18	FRET	physical	Geilen K (2015)	PUBMED:26293691	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O80536	-	NP_172424|NP_849626	Q9C5T4	Q0WTZ3|F4JSS8	NP_567882|NP_001031766	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2198798	837479	844423	22720	29641	AT1G09530	AT1G80840	PIF3	WRKY40	F14J9.19|F14J9_19|PAP3|PHOTOCURRENT 1|PHYTOCHROME INTERACTING FACTOR 3|PHYTOCHROME-ASSOCIATED PROTEIN 3|POC1|purple acid phosphatase 3	ATWRKY40|F23A5.19|F23A5_19|WRKY DNA-binding protein 40	FRET	physical	Geilen K (2015)	PUBMED:26293691	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O80536	-	NP_172424|NP_849626	Q9SAH7	C0SV39	NP_178199	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2198799	818903	829308	4240	14594	AT2G43010	AT4G31800	PIF4	WRKY18	MFL8.13|MFL8_13|SRL2|phytochrome interacting factor 4	ARABIDOPSIS THALIANA WRKY DNA-BINDING PROTEIN 18|ATWRKY18|F11C18.16|WRKY DNA-binding protein 18	FRET	physical	Geilen K (2015)	PUBMED:26293691	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8W2F3	B9DFT8|F4IQ51	NP_565991|NP_850381	Q9C5T4	Q0WTZ3|F4JSS8	NP_567882|NP_001031766	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2198800	818903	844423	4240	29641	AT2G43010	AT1G80840	PIF4	WRKY40	MFL8.13|MFL8_13|SRL2|phytochrome interacting factor 4	ATWRKY40|F23A5.19|F23A5_19|WRKY DNA-binding protein 40	FRET	physical	Geilen K (2015)	PUBMED:26293691	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8W2F3	B9DFT8|F4IQ51	NP_565991|NP_850381	Q9SAH7	C0SV39	NP_178199	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2198815	814753	816413	156	1770	AT2G02220	AT2G18960	PSKR1	HA1	ATPSKR1|PHYTOSULFOKIN RECEPTOR|PHYTOSULFOKIN RECEPTOR 1|PSK RECEPTOR 1	AHA1|F19F24.16|F19F24_16|H(+)-ATPase 1|OPEN STOMATA 2|OST2|PLASMA MEMBRANE PROTON ATPASE|PMA	FRET	physical	Ladwig F (2015)	PUBMED:26071421	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9ZVR7	C0LGJ8	NP_178330	P20649	-	NP_179486	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2198816	814753	829142	156	14429	AT2G02220	AT4G30190	PSKR1	HA2	ATPSKR1|PHYTOSULFOKIN RECEPTOR|PHYTOSULFOKIN RECEPTOR 1|PSK RECEPTOR 1	AHA2|F9N11.40|F9N11_40|H(+)-ATPase 2|P-TYPE H(+)-ATPASE ISOFORM 2|PLASMA MEMBRANE PROTON ATPASE 2|PMA2	FRET	physical	Ladwig F (2015)	PUBMED:26071421	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9ZVR7	C0LGJ8	NP_178330	P19456	F4JPJ7	NP_194748|NP_001190870	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2198817	814753	829480	156	14764	AT2G02220	AT4G33430	PSKR1	BAK1	ATPSKR1|PHYTOSULFOKIN RECEPTOR|PHYTOSULFOKIN RECEPTOR 1|PSK RECEPTOR 1	ATBAK1|ATSERK3|BRI1-associated receptor kinase|ELG|ELONGATED|F17M5.190|F17M5_190|RECEPTOR KINASES LIKE SERK 10|RKS10|SERK3|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 3	FRET	physical	Ladwig F (2015)	PUBMED:26071421	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9ZVR7	C0LGJ8	NP_178330	Q94F62	F4JIX9	NP_001190904|NP_567920	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2198818	829159	816413	14446	1770	AT4G30360	AT2G18960	CNGC17	HA1	ATCNGC17|CYCLIC NUCLEOTIDE-GATED CHANNEL 17|F17I23.300|F17I23_300	AHA1|F19F24.16|F19F24_16|H(+)-ATPase 1|OPEN STOMATA 2|OST2|PLASMA MEMBRANE PROTON ATPASE|PMA	FRET	physical	Ladwig F (2015)	PUBMED:26071421	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8L7Z0	Q0WUI2	NP_194765	P20649	-	NP_179486	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2198819	829159	829142	14446	14429	AT4G30360	AT4G30190	CNGC17	HA2	ATCNGC17|CYCLIC NUCLEOTIDE-GATED CHANNEL 17|F17I23.300|F17I23_300	AHA2|F9N11.40|F9N11_40|H(+)-ATPase 2|P-TYPE H(+)-ATPASE ISOFORM 2|PLASMA MEMBRANE PROTON ATPASE 2|PMA2	FRET	physical	Ladwig F (2015)	PUBMED:26071421	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8L7Z0	Q0WUI2	NP_194765	P19456	F4JPJ7	NP_194748|NP_001190870	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2198820	829159	829480	14446	14764	AT4G30360	AT4G33430	CNGC17	BAK1	ATCNGC17|CYCLIC NUCLEOTIDE-GATED CHANNEL 17|F17I23.300|F17I23_300	ATBAK1|ATSERK3|BRI1-associated receptor kinase|ELG|ELONGATED|F17M5.190|F17M5_190|RECEPTOR KINASES LIKE SERK 10|RKS10|SERK3|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 3	FRET	physical	Ladwig F (2015)	PUBMED:26071421	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q8L7Z0	Q0WUI2	NP_194765	Q94F62	F4JIX9	NP_001190904|NP_567920	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2198850	850518	850518	31120	31120	YFL026W	YFL026W	STE2	STE2	alpha-factor pheromone receptor STE2|L000002112	alpha-factor pheromone receptor STE2|L000002112	FRET	physical	Stoneman MR (2016)	PUBMED:27993568	559292	559292	Low Throughput	-	-	Ste2 forms octamers and tetramers	-	BIOGRID	D6VTK4	-	NP_116627	D6VTK4	-	NP_116627	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2200946	829480	824137	14764	9455	AT4G33430	AT3G49750	BAK1	RLP44	ATBAK1|ATSERK3|BRI1-associated receptor kinase|ELG|ELONGATED|F17M5.190|F17M5_190|RECEPTOR KINASES LIKE SERK 10|RKS10|SERK3|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 3	AtRLP44|receptor like protein 44	FRET	physical	Wolf S (2014)	PUBMED:25288746	3702	3702	Low Throughput	-	-	BIFC assay	-	BIOGRID	Q94F62	F4JIX9	NP_001190904|NP_567920	-	Q9M2Y3	NP_190544	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2200975	835697	835868	20941	21112	AT5G55990	AT5G57630	CBL2	CIPK21	ATCBL2|MDA7.3|MDA7_3|calcineurin B-like protein 2	CBL-interacting protein kinase 21|MUA2.22|MUA2_22|SNF1-RELATED PROTEIN KINASE 3.4|SnRK3.4	FRET	physical	Pandey GK (2015)	PUBMED:26198257	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8LAS7	-	NP_200410	Q94CG0	-	NP_568860	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2200976	828764	835868	14051	21112	AT4G26570	AT5G57630	CBL3	CIPK21	ATCBL3|T15N24.20|T15N24_20|calcineurin B-like 3	CBL-interacting protein kinase 21|MUA2.22|MUA2_22|SNF1-RELATED PROTEIN KINASE 3.4|SnRK3.4	FRET	physical	Pandey GK (2015)	PUBMED:26198257	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8LEM7	-	NP_849449|NP_194387	Q94CG0	-	NP_568860	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2201013	832150	818157	17426	3501	AT5G20280	AT2G35840	SPS1F	AT2G35840	ATSPS1F|F5O24.170|F5O24_170|sucrose phosphate synthase 1F	F11F19.25|F11F19_25	FRET	physical	Maloney VJ (2015)	PUBMED:25873678	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q94BT0	W8PUZ7	NP_197528	Q9SJ66	-	NP_565828|NP_973609|NP_001189687	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2201063	821115	827747	6448	13040	AT3G02330	AT4G20020	AT3G02330	AT4G20020	F11A12.2|F11A12_2	F18F4.120|F18F4_120	FRET	physical	Glass F (2015)	PUBMED:26048647	3702	3702	Low Throughput	-	-	Fluorescence complementation assays	-	BIOGRID	Q9FWA6	-	NP_186882	-	O49429|F4JU25	NP_193735|NP_974579	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2201064	821115	820729	6448	6063	AT3G02330	AT3G15000	AT3G02330	AT3G15000	F11A12.2|F11A12_2	-	FRET	physical	Glass F (2015)	PUBMED:26048647	3702	3702	Low Throughput	-	-	Fluorescence complementation assays	-	BIOGRID	Q9FWA6	-	NP_186882	Q9LKA5	Q5XEU8	NP_566496	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2201070	825835	825835	11146	11146	AT4G04950	AT4G04950	AT4G04950	AT4G04950	T1J1.6|T1J1_6	T1J1.6|T1J1_6	FRET	physical	Knuesting J (2015)	PUBMED:25699589	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9ZPH2	-	NP_192404	Q9ZPH2	-	NP_192404	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2201096	839907	835809	25142	21053	AT1G30270	AT5G57050	CIPK23	ABI2	ATCIPK23|CBL-interacting protein kinase 23|F12P21.6|F12P21_6|LKS1|LOW-K+-SENSITIVE 1|SNF1-RELATED PROTEIN KINASE 3.23|SnRK3.23	ABA INSENSITIVE 2|AtABI2|MHM17.19|MHM17_19|PROTEIN PHOSPHATASE 2C	FRET	physical	Leran S (2015)	PUBMED:25943353	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q93VD3	-	NP_564353	O04719	-	NP_001119448|NP_200515	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2201097	835809	827481	21053	12774	AT5G57050	AT4G17615	ABI2	CBL1	ABA INSENSITIVE 2|AtABI2|MHM17.19|MHM17_19|PROTEIN PHOSPHATASE 2C	ARABIDOPSIS THALIANA CALCINEURIN B-LIKE PROTEIN|ATCBL1|FCAALL.122|SCABP5|SOS3-LIKE CALCIUM BINDING PROTEIN 5|calcineurin B-like protein 1	FRET	physical	Leran S (2015)	PUBMED:25943353	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	O04719	-	NP_001119448|NP_200515	O81445	F4JP88	NP_974566|NP_567533	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2201249	844055	844312	29274	29530	AT1G77180	AT1G79730	SKIP	ELF7	T14N5.5|T14N5_5	EARLY FLOWERING 7|F19K16.29|F19K16_29	FRET	physical	Cao Y (2015)	PUBMED:26384244	3702	3702	Low Throughput	-	-	-	-	BIOGRID	O80653	-	NP_565151|NP_001031291|NP_001185416	-	F4HQA1	NP_178091	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2201261	834666	839419	19915	24654	AT5G46240	AT1G04750	KAT1	VAMP721	MPL12.2|MPL12_2|potassium channel in Arabidopsis thaliana 1	AT VAMP7B|ATVAMP721|VAMP7B|VESICLE-ASSOCIATED MEMBRANE PROTEIN 7B|vesicle-associated membrane protein 721	FRET	physical	Zhang B (2015)	PUBMED:26002867	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q39128	Q67YG3	NP_199436	Q9ZTW3	Q681L9|Q67YV9	NP_001030968|NP_171967	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2201262	836756	825890	21998	11201	AT5G66240	AT4G05420	AT5G66240	DDB1A	K1L20.2|K1L20_2	C6L9.100|C6L9_100|damaged DNA binding protein 1A	FRET	physical	Beris D (2016)	PUBMED:26940493	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	-	Q8RXD8|Q9FH64|F4JZ57	NP_001190633|NP_569031|NP_851281	Q9M0V3	B3H6I9	NP_192451|NP_001118940	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2201303	838501	817403	23740	2753	AT1G19180	AT2G28550	JAZ1	RAP2.7	T29M8.5|T29M8_5|TIFY10A|jasmonate-zim-domain protein 1	T17D12.11|T17D12_11|TARGET OF EARLY ACTIVATION TAGGED (EAT) 1|TOE1|related to AP2.7	FRET	physical	Zhai Q (2015)	PUBMED:26410299	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LMA8	Q3ED96	NP_564075|NP_973862	Q9SK03	F4IIR3	NP_001189625|NP_973553|NP_565674	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2201304	838501	836134	23740	21378	AT1G19180	AT5G60120	JAZ1	TOE2	T29M8.5|T29M8_5|TIFY10A|jasmonate-zim-domain protein 1	MGO3.10|MGO3_10|target of early activation tagged (EAT) 2	FRET	physical	Zhai Q (2015)	PUBMED:26410299	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9LMA8	Q3ED96	NP_564075|NP_973862	Q9LVG2	F4JXG9	NP_200820|NP_001190576	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2204507	854555	853513	34756	33807	YOR373W	YJR053W	NUD1	BFA1	L000002752	IBD1	FRET	physical	Gryaznova Y (2016)	PUBMED:27159239	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32336	-	NP_015018	P47113	-	NP_012587	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2204508	851250	853513	31780	33807	YAL047C	YJR053W	SPC72	BFA1	LDB4|gamma-tubulin complex subunit SPC72|L000003455	IBD1	FRET	physical	Gryaznova Y (2016)	PUBMED:27159239	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P39723	-	NP_009352	P47113	-	NP_012587	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2204514	853824	855496	34090	35611	YKL042W	YNL225C	SPC42	CNM67	L000004148	L000004012	FRET	physical	Gryaznova Y (2016)	PUBMED:27159239	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P36094	-	NP_012882	P53865	-	NP_014174	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2204515	855077	853513	35231	33807	YMR055C	YJR053W	BUB2	BFA1	PAC7|L000000197	IBD1	FRET	physical	Gryaznova Y (2016)	PUBMED:27159239	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P26448	-	NP_013771	P47113	-	NP_012587	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2204941	836227	820202	21471	5536	AT5G61060	AT3G10390	HDA05	FLD	ATHDA5|HDA5|MAF19.7|MAF19_7|histone deacetylase 5	FLOWERING LOCUS D	FRET	physical	Luo M (2015)	PUBMED:25922987	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8RX28	F4K1Z5	NP_200914|NP_001190583	Q9CAE3	-	NP_187650	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2204942	836227	816471	21471	1826	AT5G61060	AT2G19520	HDA05	FVE	ATHDA5|HDA5|MAF19.7|MAF19_7|histone deacetylase 5	ACG1|ATMSI4|F3P11.12|F3P11_12|MSI4|MULTICOPY SUPPRESSOR OF IRA1 4|NFC04|NFC4|NUCLEOSOME/CHROMATIN ASSEMBLY FACTOR GROUP C|WD-40 REPEAT PROTEIN MSI4	FRET	physical	Luo M (2015)	PUBMED:25922987	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8RX28	F4K1Z5	NP_200914|NP_001190583	O22607	-	NP_565456	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2204943	836227	836431	21471	21674	AT5G61060	AT5G63110	HDA05	HDA6	ATHDA5|HDA5|MAF19.7|MAF19_7|histone deacetylase 5	ATHDA6|AXE1|HISTONE DEACETYLASE 6|MDC12.7|MDC12_7|RNA-MEDIATED TRANSCRIPTIONAL SILENCING 1|RPD3B|RTS1|SIL1	FRET	physical	Luo M (2015)	PUBMED:25922987	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q8RX28	F4K1Z5	NP_200914|NP_001190583	Q9FML2	B1PXB9	NP_201116	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2205048	839323	837357	24558	22598	AT1G03060	AT1G08370	SPI	DCP1	F10O3.12|F10O3_12|SPIRRIG	ATDCP1|decapping 1	FRET	physical	Steffens A (2015)	PUBMED:26133670	3702	3702	Low Throughput	-	-	BiFC assay|FRET	-	BIOGRID	-	F4HZB2	NP_171805	Q9SJF3	-	NP_563814	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2205049	839323	55802	24558	120914	AT1G03060	-	SPI	DCP1A	F10O3.12|F10O3_12|SPIRRIG	HSA275986|Nbla00360|SMAD4IP1|SMIF	Two-hybrid	physical	Steffens A (2015)	PUBMED:26133670	3702	9606	Low Throughput	-	-	FRET	-	BIOGRID	-	F4HZB2	NP_171805	Q9NPI6	-	NP_001277133|NP_060873|NP_001277136|NP_001277134|NP_001277135	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Homo sapiens
+2205050	839323	196513	24558	128216	AT1G03060	-	SPI	DCP1B	F10O3.12|F10O3_12|SPIRRIG	DCP1|hDcp1b	Two-hybrid	physical	Steffens A (2015)	PUBMED:26133670	3702	9606	Low Throughput	-	-	FRET	-	BIOGRID	-	F4HZB2	NP_171805	Q8IZD4	-	NP_689853|NP_001306221	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Homo sapiens
+2205051	839323	55802	24558	120914	AT1G03060	-	SPI	DCP1A	F10O3.12|F10O3_12|SPIRRIG	HSA275986|Nbla00360|SMAD4IP1|SMIF	Reconstituted Complex	physical	Steffens A (2015)	PUBMED:26133670	3702	9606	Low Throughput	-	-	FRET	-	BIOGRID	-	F4HZB2	NP_171805	Q9NPI6	-	NP_001277133|NP_060873|NP_001277136|NP_001277134|NP_001277135	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Homo sapiens
+2205052	839323	196513	24558	128216	AT1G03060	-	SPI	DCP1B	F10O3.12|F10O3_12|SPIRRIG	DCP1|hDcp1b	Reconstituted Complex	physical	Steffens A (2015)	PUBMED:26133670	3702	9606	Low Throughput	-	-	FRET	-	BIOGRID	-	F4HZB2	NP_171805	Q8IZD4	-	NP_689853|NP_001306221	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Homo sapiens
+2205053	839323	854016	24558	34268	AT1G03060	YOL149W	SPI	DCP1	F10O3.12|F10O3_12|SPIRRIG	MRT2|L000002960|L000003045|S000029311	Reconstituted Complex	physical	Steffens A (2015)	PUBMED:26133670	3702	559292	Low Throughput	-	-	FRET	-	BIOGRID	-	F4HZB2	NP_171805	Q12517	-	NP_014492	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Saccharomyces cerevisiae (S288c)
+2205054	839323	854016	24558	34268	AT1G03060	YOL149W	SPI	DCP1	F10O3.12|F10O3_12|SPIRRIG	MRT2|L000002960|L000003045|S000029311	Two-hybrid	physical	Steffens A (2015)	PUBMED:26133670	3702	559292	Low Throughput	-	-	FRET	-	BIOGRID	-	F4HZB2	NP_171805	Q12517	-	NP_014492	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Saccharomyces cerevisiae (S288c)
+2205055	8439	854016	114019	34268	-	YOL149W	NSMAF	DCP1	FAN	MRT2|L000002960|L000003045|S000029311	Two-hybrid	physical	Steffens A (2015)	PUBMED:26133670	9606	559292	Low Throughput	-	-	FRET	-	BIOGRID	Q92636	-	NP_003571|NP_001138244	Q12517	-	NP_014492	-	-	-	-	-	-	Homo sapiens	Saccharomyces cerevisiae (S288c)
+2205056	8439	55802	114019	120914	-	-	NSMAF	DCP1A	FAN	HSA275986|Nbla00360|SMAD4IP1|SMIF	Two-hybrid	physical	Steffens A (2015)	PUBMED:26133670	9606	9606	Low Throughput	-	-	FRET	-	BIOGRID	Q92636	-	NP_003571|NP_001138244	Q9NPI6	-	NP_001277133|NP_060873|NP_001277136|NP_001277134|NP_001277135	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2205057	8439	196513	114019	128216	-	-	NSMAF	DCP1B	FAN	DCP1|hDcp1b	Two-hybrid	physical	Steffens A (2015)	PUBMED:26133670	9606	9606	Low Throughput	-	-	FRET	-	BIOGRID	Q92636	-	NP_003571|NP_001138244	Q8IZD4	-	NP_689853|NP_001306221	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2205058	8439	837357	114019	22598	-	AT1G08370	NSMAF	DCP1	FAN	ATDCP1|decapping 1	Two-hybrid	physical	Steffens A (2015)	PUBMED:26133670	9606	3702	Low Throughput	-	-	FRET	-	BIOGRID	Q92636	-	NP_003571|NP_001138244	Q9SJF3	-	NP_563814	-	-	-	-	-	-	Homo sapiens	Arabidopsis thaliana (Columbia)
+2205059	8439	55802	114019	120914	-	-	NSMAF	DCP1A	FAN	HSA275986|Nbla00360|SMAD4IP1|SMIF	Reconstituted Complex	physical	Steffens A (2015)	PUBMED:26133670	9606	9606	Low Throughput	-	-	FRET	-	BIOGRID	Q92636	-	NP_003571|NP_001138244	Q9NPI6	-	NP_001277133|NP_060873|NP_001277136|NP_001277134|NP_001277135	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2205060	8439	196513	114019	128216	-	-	NSMAF	DCP1B	FAN	DCP1|hDcp1b	Reconstituted Complex	physical	Steffens A (2015)	PUBMED:26133670	9606	9606	Low Throughput	-	-	FRET	-	BIOGRID	Q92636	-	NP_003571|NP_001138244	Q8IZD4	-	NP_689853|NP_001306221	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2205061	8439	837357	114019	22598	-	AT1G08370	NSMAF	DCP1	FAN	ATDCP1|decapping 1	Reconstituted Complex	physical	Steffens A (2015)	PUBMED:26133670	9606	3702	Low Throughput	-	-	FRET	-	BIOGRID	Q92636	-	NP_003571|NP_001138244	Q9SJF3	-	NP_563814	-	-	-	-	-	-	Homo sapiens	Arabidopsis thaliana (Columbia)
+2205567	817170	821717	2522	7049	AT2G26300	AT3G21630	GP ALPHA 1	CERK1	ARABIDOPSIS THALIANA G PROTEIN ALPHA SUBUNIT 1|ATGPA1|G PROTEIN ALPHA SUBUNIT|G PROTEIN ALPHA SUBUNIT 1|GPA1|T1D16.6|T1D16_6	LYSM DOMAIN RECEPTOR-LIKE KINASE 1|LYSM RLK1|chitin elicitor receptor kinase 1	FRET	physical	Aranda-Sicilia MN (2015)	PUBMED:26414709	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P18064	-	NP_180198	A8R7E6	-	NP_566689	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2205568	825517	821717	10831	7049	AT3G63420	AT3G21630	GG1	CERK1	AGG1|ATAGG1|Ggamma-subunit 1|HETEROTRIMERIC G PROTEIN GAMMA-SUBUNIT	LYSM DOMAIN RECEPTOR-LIKE KINASE 1|LYSM RLK1|chitin elicitor receptor kinase 1	FRET	physical	Aranda-Sicilia MN (2015)	PUBMED:26414709	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9FDX9	-	NP_567147|NP_850741	A8R7E6	-	NP_566689	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2205569	825532	821717	10846	7049	AT3G22942	AT3G21630	AGG2	CERK1	G-protein gamma subunit 2	LYSM DOMAIN RECEPTOR-LIKE KINASE 1|LYSM RLK1|chitin elicitor receptor kinase 1	FRET	physical	Aranda-Sicilia MN (2015)	PUBMED:26414709	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q93V47	-	NP_850746	A8R7E6	-	NP_566689	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2205570	817170	829480	2522	14764	AT2G26300	AT4G33430	GP ALPHA 1	BAK1	ARABIDOPSIS THALIANA G PROTEIN ALPHA SUBUNIT 1|ATGPA1|G PROTEIN ALPHA SUBUNIT|G PROTEIN ALPHA SUBUNIT 1|GPA1|T1D16.6|T1D16_6	ATBAK1|ATSERK3|BRI1-associated receptor kinase|ELG|ELONGATED|F17M5.190|F17M5_190|RECEPTOR KINASES LIKE SERK 10|RKS10|SERK3|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 3	FRET	physical	Aranda-Sicilia MN (2015)	PUBMED:26414709	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P18064	-	NP_180198	Q94F62	F4JIX9	NP_001190904|NP_567920	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2205571	825517	829480	10831	14764	AT3G63420	AT4G33430	GG1	BAK1	AGG1|ATAGG1|Ggamma-subunit 1|HETEROTRIMERIC G PROTEIN GAMMA-SUBUNIT	ATBAK1|ATSERK3|BRI1-associated receptor kinase|ELG|ELONGATED|F17M5.190|F17M5_190|RECEPTOR KINASES LIKE SERK 10|RKS10|SERK3|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 3	FRET	physical	Aranda-Sicilia MN (2015)	PUBMED:26414709	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9FDX9	-	NP_567147|NP_850741	Q94F62	F4JIX9	NP_001190904|NP_567920	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2205572	825532	829480	10846	14764	AT3G22942	AT4G33430	AGG2	BAK1	G-protein gamma subunit 2	ATBAK1|ATSERK3|BRI1-associated receptor kinase|ELG|ELONGATED|F17M5.190|F17M5_190|RECEPTOR KINASES LIKE SERK 10|RKS10|SERK3|SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 3	FRET	physical	Aranda-Sicilia MN (2015)	PUBMED:26414709	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q93V47	-	NP_850746	Q94F62	F4JIX9	NP_001190904|NP_567920	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2205573	817170	834892	2522	20138	AT2G26300	AT5G48380	GP ALPHA 1	BIR1	ARABIDOPSIS THALIANA G PROTEIN ALPHA SUBUNIT 1|ATGPA1|G PROTEIN ALPHA SUBUNIT|G PROTEIN ALPHA SUBUNIT 1|GPA1|T1D16.6|T1D16_6	BAK1-interacting receptor-like kinase 1|K23F3.10	FRET	physical	Aranda-Sicilia MN (2015)	PUBMED:26414709	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	P18064	-	NP_180198	Q9ASS4	-	NP_568696	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2205574	825517	834892	10831	20138	AT3G63420	AT5G48380	GG1	BIR1	AGG1|ATAGG1|Ggamma-subunit 1|HETEROTRIMERIC G PROTEIN GAMMA-SUBUNIT	BAK1-interacting receptor-like kinase 1|K23F3.10	FRET	physical	Aranda-Sicilia MN (2015)	PUBMED:26414709	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9FDX9	-	NP_567147|NP_850741	Q9ASS4	-	NP_568696	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2205575	825532	834892	10846	20138	AT3G22942	AT5G48380	AGG2	BIR1	G-protein gamma subunit 2	BAK1-interacting receptor-like kinase 1|K23F3.10	FRET	physical	Aranda-Sicilia MN (2015)	PUBMED:26414709	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q93V47	-	NP_850746	Q9ASS4	-	NP_568696	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2205581	2908	2908	109165	109165	-	-	NR3C1	NR3C1	GCCR|GCR|GCRST|GR|GRL	GCCR|GCR|GCRST|GR|GRL	FRET	physical	Qiu Y (2011)	PUBMED:21127047	9606	9606	Low Throughput	-	-	figure 4B	-	BIOGRID	P04150	E5KQF6|E5KQF5|F1D8N4	NP_001018087|NP_001018086|NP_001018085|NP_001018084|NP_001191187|NP_001351109|NP_001191191|NP_001191188|NP_001191189|NP_001351114|NP_001019265|NP_001191193|NP_001351112|NP_001351113|NP_001191194|NP_001351111|NP_001351110|NP_000167|NP_001191190|NP_001018661|NP_001191192	P04150	E5KQF6|E5KQF5|F1D8N4	NP_001018087|NP_001018086|NP_001018085|NP_001018084|NP_001191187|NP_001351109|NP_001191191|NP_001191188|NP_001191189|NP_001351114|NP_001019265|NP_001191193|NP_001351112|NP_001351113|NP_001191194|NP_001351111|NP_001351110|NP_000167|NP_001191190|NP_001018661|NP_001191192	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2205746	5429	5111	111425	111142	RP11-22I24.1	-	POLH	PCNA	RAD30|RAD30A|XP-V|XPV	ATLD2	FRET	physical	Hedglin M (2016)	PUBMED:27770570	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9Y253	B4DG64|A0A024RD62|B3KN75	NP_006493|NP_001278898|NP_001278899	P12004	-	NP_872590|NP_002583	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2206003	825473	825473	10787	10787	AT3G62980	AT3G62980	TIR1	TIR1	TRANSPORT INHIBITOR RESPONSE 1	TRANSPORT INHIBITOR RESPONSE 1	FRET	physical	Dezfulian MH (2016)	PUBMED:27618443	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q570C0	-	NP_567135	Q570C0	-	NP_567135	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2206004	825473	843928	10787	29147	AT3G62980	AT1G75950	TIR1	SKP1	TRANSPORT INHIBITOR RESPONSE 1	ARABIDOPSIS SKP1 HOMOLOGUE 1|ASK1|ATSKP1|S phase kinase-associated protein 1|SKP1A|T4O12.17|T4O12_17|UFO INTERACTING PROTEIN 1|UIP1	FRET	physical	Dezfulian MH (2016)	PUBMED:27618443	3702	3702	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q570C0	-	NP_567135	Q39255	-	NP_565123	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2207070	1409	1411	107799	107801	-	-	CRYAA	CRYBA1	CRYA1|CTRCT9|HSPB4	CRYB1|CTRCT10	FRET	physical	Tiwary E (2015)	PUBMED:26657544	9606	9606	Low Throughput	-	-	FLIM-FRET	-	BIOGRID	P02489	E9PHE4	NP_000385	P05813	-	NP_005199	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2207071	1409	1410	107799	107800	-	-	CRYAA	CRYAB	CRYA1|CTRCT9|HSPB4	CMD1II|CRYA2|CTPP2|CTRCT16|HEL-S-101|HSPB5|MFM2	FRET	physical	Tiwary E (2015)	PUBMED:26657544	9606	9606	Low Throughput	-	-	FLIM-FRET	-	BIOGRID	P02489	E9PHE4	NP_000385	P02511	V9HW27	NP_001876|NP_001355175|NP_001355174|NP_001317308|NP_001276737|NP_001276736	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2208260	4193	4194	110358	110359	-	RP11-430C7.1	MDM2	MDM4	ACTFS|HDMX|hdm2	HDMX|MDMX|MRP1	FRET	physical	Liu T (2017)	PUBMED:27617579	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q00987	A7UKX8|Q96DS0|A7UKX9|A7UKX7|G3XA89	NP_001354919|NP_001265391|NP_002383|NP_001138811|NP_001138812|NP_001138809	O15151	Q68DC0|A0A087WTR9|Q59FS6|A0A087WUE3|A0A024R990|A0A087WZ58	NP_001265445|NP_001265447|NP_001265446|NP_002384|NP_001265448|NP_001191100|NP_001191101	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2208497	55740	5879	120858	111817	RP11-496N12.7	MIG5	ENAH	RAC1	ENA|MENA|NDPP1	Rac-1|TC-25|p21-Rac1	FRET	physical	Higashi M (2009)	PUBMED:19277120	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q8N8S7	-	NP_001364412|NP_060682|NP_001364411|NP_001364410|NP_001008493	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2208607	857	3738	107305	109941	-	RP11-284N8.3	CAV1	KCNA3	BSCL3|CGL3|LCCNS|MSTP085|PPH3|VIP21	HGK5|HLK3|HPCN3|HUKIII|KV1.3|MK3|PCN3	FRET	physical	Perez-Verdaguer M (2016)	PUBMED:26931497	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q03135	A0A024R757|Q2TNI1|Q59E85|Q7Z4F3|A9XTE5	NP_001744|NP_001166368|NP_001166366|NP_001166367	P22001	-	NP_002223	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2208633	154	57561	106663	121616	-	-	ADRB2	ARRDC3	ADRB2R|ADRBR|B2AR|BAR|BETA2AR	TLIMP	FRET	physical	Tian X (2016)	PUBMED:27226565	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P07550	-	NP_000015	Q96B67	-	NP_065852	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2208634	154	409	106663	106902	-	-	ADRB2	ARRB2	ADRB2R|ADRBR|B2AR|BAR|BETA2AR	ARB2|ARR2|BARR2	FRET	physical	Tian X (2016)	PUBMED:27226565	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P07550	-	NP_000015	P32121	K7ENA6|Q68DZ5|Q59EM5	NP_001244257|NP_001244259|NP_001244258|NP_001316993|NP_001244260|NP_004304|NP_945355	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2209074	27040	5335	117971	111351	-	RP3-511B24.2	LAT	PLCG1	LAT1|pp36	NCKAP3|PLC-II|PLC1|PLC148|PLCgamma1	FRET	physical	Matalon O (2016)	PUBMED:27221712	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O43561	A0A024QZD6	NP_001014989|NP_055202|NP_001014988|NP_001014987	P19174	Q4LE43|Q9UFY1	NP_002651|NP_877963	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2209075	27040	5336	117971	111352	-	RP11-510J16.3	LAT	PLCG2	LAT1|pp36	APLAID|FCAS3|PLC-IV|PLC-gamma-2	FRET	physical	Matalon O (2016)	PUBMED:27221712	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O43561	A0A024QZD6	NP_001014989|NP_055202|NP_001014988|NP_001014987	P16885	-	NP_002652	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2209080	27040	5777	117971	111742	-	-	LAT	PTPN6	LAT1|pp36	HCP|HCPH|HPTP1C|PTP-1C|SH-PTP1|SHP-1|SHP-1L|SHP1	FRET	physical	Matalon O (2016)	PUBMED:27221712	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O43561	A0A024QZD6	NP_001014989|NP_055202|NP_001014988|NP_001014987	P29350	Q53XS4	NP_536859|NP_536858|NP_002822	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2209084	5777	5336	111742	111352	-	RP11-510J16.3	PTPN6	PLCG2	HCP|HCPH|HPTP1C|PTP-1C|SH-PTP1|SHP-1|SHP-1L|SHP1	APLAID|FCAS3|PLC-IV|PLC-gamma-2	FRET	physical	Matalon O (2016)	PUBMED:27221712	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P29350	Q53XS4	NP_536859|NP_536858|NP_002822	P16885	-	NP_002652	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2209106	93107	3745	125002	109947	-	-	KCNG4	KCNB1	KV6.3|KV6.4	DRK1|EIEE26|KV2.1|h-DRK1	FRET	physical	David JP (2015)	PUBMED:26242757	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q8TDN1	Q547S7|Q32MC1	NP_758857	Q14721	-	NP_004966	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2209107	23630	3745	117161	109947	RP1-136J15.2	-	KCNE1L	KCNB1	KCNE5	DRK1|EIEE26|KV2.1|h-DRK1	FRET	physical	David JP (2015)	PUBMED:26242757	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UJ90	Q5JWV7	NP_036414	Q14721	-	NP_004966	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2209108	23630	93107	117161	125002	RP1-136J15.2	-	KCNE1L	KCNG4	KCNE5	KV6.3|KV6.4	FRET	physical	David JP (2015)	PUBMED:26242757	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9UJ90	Q5JWV7	NP_036414	Q8TDN1	Q547S7|Q32MC1	NP_758857	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2209504	6924	8065	112786	113743	MSTP059	-	TCEB3	CUL5	EloA|SIII|SIII p110|TCEB3A	VACM-1|VACM1	FRET	physical	Weems JC (2015)	PUBMED:25878247	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14241	-	NP_003189	Q93034	-	NP_003469	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2210736	1956	3688	108276	109894	-	RP11-479G22.2	EGFR	ITGB1	ERBB|ERBB1|HER1|NISBD2|PIG61|mENA	CD29|FNRB|GPIIA|MDF2|MSK12|VLA-BETA|VLAB	FRET	physical	Petras M (2013)	PUBMED:23595626	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P00533	-	NP_001333829|NP_001333828|NP_958440|NP_005219|NP_001333827|NP_001333826|NP_958441|NP_001333870|NP_958439	P05556	-	NP_002202|NP_596867|NP_391988	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2210737	1956	1956	108276	108276	-	-	EGFR	EGFR	ERBB|ERBB1|HER1|NISBD2|PIG61|mENA	ERBB|ERBB1|HER1|NISBD2|PIG61|mENA	FRET	physical	Petras M (2013)	PUBMED:23595626	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P00533	-	NP_001333829|NP_001333828|NP_958440|NP_005219|NP_001333827|NP_001333826|NP_958441|NP_001333870|NP_958439	P00533	-	NP_001333829|NP_001333828|NP_958440|NP_005219|NP_001333827|NP_001333826|NP_958441|NP_001333870|NP_958439	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2210749	9220	9220	114653	114653	-	-	TIAF1	TIAF1	MAJN|SPR210	MAJN|SPR210	FRET	physical	Chang JY (2012)	PUBMED:22534828	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O95411	-	NP_004731	O95411	-	NP_004731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2210750	9220	4089	114653	110264	-	-	TIAF1	SMAD4	MAJN|SPR210	DPC4|JIP|MADH4|MYHRS	FRET	physical	Chang JY (2012)	PUBMED:22534828	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O95411	-	NP_004731	Q13485	A0A024R274	NP_005350	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2210754	29997	29997	119021	119021	-	-	GLTSCR2	GLTSCR2	PICT-1|PICT1	PICT-1|PICT1	FRET	physical	Borodianskiy-Shteinberg T (2014)	PUBMED:24735870	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9NZM5	-	NP_056525	Q9NZM5	-	NP_056525	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2210775	116986	207	125549	106710	RP11-571M6.8	-	AGAP2	AKT1	CENTG1|GGAP2|PIKE	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Qi Q (2013)	PUBMED:22450747	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q99490	A0A024RB55|F8VVT9	NP_001116244|NP_055585	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2210776	7534	7534	113366	113366	-	-	YWHAZ	YWHAZ	14-3-3-zeta|HEL-S-3|HEL4|KCIP-1|YWHAD	14-3-3-zeta|HEL-S-3|HEL4|KCIP-1|YWHAD	FRET	physical	Qi Q (2013)	PUBMED:22450747	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P63104	D0PNI1	NP_003397|NP_001129174|NP_001129171|NP_001129172|NP_001129173|NP_663723	P63104	D0PNI1	NP_003397|NP_001129174|NP_001129171|NP_001129172|NP_001129173|NP_663723	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2211126	20937	12412	203586	198534	RP23-27I6.1	RP23-353J21.1	Suv39h1	Cbx1	AI852103|AL022883|DXHXS7466e|H3-K9-HMTase 1|KMT1A|mIS6	Cbx|Cbx-rs2|E430007M08Rik|HP1B|Hp1beta|M31|MOD1	FRET	physical	Raurell-Vila H (2017)	PUBMED:28059589	10090	10090	Low Throughput	-	-	-	-	BIOGRID	O54864	A2AC19	NP_001277645|NP_035644	P83917	-	NP_031648	-	-	-	-	-	-	Mus musculus	Mus musculus
+2211127	20937	12417	203586	198536	RP23-27I6.1	-	Suv39h1	Cbx3	AI852103|AL022883|DXHXS7466e|H3-K9-HMTase 1|KMT1A|mIS6	HP1g|M32	FRET	physical	Raurell-Vila H (2017)	PUBMED:28059589	10090	10090	Low Throughput	-	-	-	-	BIOGRID	O54864	A2AC19	NP_001277645|NP_035644	-	Q9DCC5|Q32P00	NP_031650	-	-	-	-	-	-	Mus musculus	Mus musculus
+2211128	20937	12419	203586	198538	RP23-27I6.1	-	Suv39h1	Cbx5	AI852103|AL022883|DXHXS7466e|H3-K9-HMTase 1|KMT1A|mIS6	2610029O15Rik|C75991|HP1|Hp1a|Hp1alpha	FRET	physical	Raurell-Vila H (2017)	PUBMED:28059589	10090	10090	Low Throughput	-	-	-	-	BIOGRID	O54864	A2AC19	NP_001277645|NP_035644	Q61686	-	NP_001103686|NP_001070257|NP_031652	-	-	-	-	-	-	Mus musculus	Mus musculus
+2211926	5737	185	111709	106691	RP5-944H6.1	-	PTGFR	AGTR1	FP	AG2S|AGTR1B|AT1|AT1AR|AT1B|AT1BR|AT1R|AT2R1|HAT1R	FRET	physical	Goupil E (2015)	PUBMED:25512374	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P43088	-	NP_001034674|NP_000950	P30556	Q53YY0|Q6NUP5|D3DNG8	NP_004826|NP_000676|NP_114438|NP_033611|NP_114038	BTO:0000007	HEK-293 cell	phenotype	-	-	-	Homo sapiens	Homo sapiens
+2212002	165140	409	127909	106902	-	-	OXER1	ARRB2	GPCR|GPR170|TG1019	ARB2|ARR2|BARR2	FRET	physical	Konya V (2014)	PUBMED:24733850	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q8TDS5	-	NP_683765	P32121	K7ENA6|Q68DZ5|Q59EM5	NP_001244257|NP_001244259|NP_001244258|NP_001316993|NP_001244260|NP_004304|NP_945355	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2296041	838680	836101	23919	21345	AT1G20870	AT5G59800	AT1G20870	MBD7	F9H16.15|F9H16_15	ARABIDOPSIS THALIANA METHYL-CPG-BINDING DOMAIN 7|ATMBD7|MMN10.2|MMN10_2|methyl-CPG-binding domain 7	FRET	physical	Li Q (2015)	PUBMED:25933434	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9SYQ0	NP_173511	Q9FJF4	-	NP_200788	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2296042	838680	841923	23919	27148	AT1G20870	AT1G54840	AT1G20870	AT1G54840	F9H16.15|F9H16_15	T22H22.23|T22H22_23	FRET	physical	Li Q (2015)	PUBMED:25933434	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	Q9SYQ0	NP_173511	-	F4HYL2|Q8RWL4	NP_175881|NP_974031	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2296649	836101	838680	21345	23919	AT5G59800	AT1G20870	MBD7	AT1G20870	ARABIDOPSIS THALIANA METHYL-CPG-BINDING DOMAIN 7|ATMBD7|MMN10.2|MMN10_2|methyl-CPG-binding domain 7	F9H16.15|F9H16_15	FRET	physical	Li Q (2015)	PUBMED:25933434	3702	3702	Low Throughput	-	-	-	-	BIOGRID	Q9FJF4	-	NP_200788	-	Q9SYQ0	NP_173511	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2296650	841923	838680	27148	23919	AT1G54840	AT1G20870	AT1G54840	AT1G20870	T22H22.23|T22H22_23	F9H16.15|F9H16_15	FRET	physical	Li Q (2015)	PUBMED:25933434	3702	3702	Low Throughput	-	-	-	-	BIOGRID	-	F4HYL2|Q8RWL4	NP_175881|NP_974031	-	Q9SYQ0	NP_173511	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2298077	7709	201501	113503	128390	RP1-134O19.2	-	ZBTB17	ZBTB7C	MIZ-1|ZNF151|ZNF60|pHZ-67	APM-1|APM1|ZBTB36|ZNF857C	FRET	physical	Lee KM (2012)	PUBMED:21804610	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13105	Q53EM1	NP_001274533|NP_001274532|NP_003434|NP_001311067|NP_001311066|NP_001229813	A1YPR0	B2RG49	NP_001034449	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2298078	51341	51341	119488	119488	-	-	ZBTB7A	ZBTB7A	FBI-1|FBI1|LRF|ZBTB7|ZNF857A|pokemon	FBI-1|FBI1|LRF|ZBTB7|ZNF857A|pokemon	FRET	physical	Lee KM (2012)	PUBMED:21804610	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O95365	Q8TB76	NP_001304919|NP_056982	O95365	Q8TB76	NP_001304919|NP_056982	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2298106	7709	604	113503	107076	RP1-134O19.2	-	ZBTB17	BCL6	MIZ-1|ZNF151|ZNF60|pHZ-67	BCL5|BCL6A|LAZ3|ZBTB27|ZNF51	FRET	physical	Lee KM (2012)	PUBMED:21804610	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13105	Q53EM1	NP_001274533|NP_001274532|NP_003434|NP_001311067|NP_001311066|NP_001229813	P41182	B5B0A5	NP_001124317|NP_001697|NP_001128210	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2311505	252554	252554	76064	76064	Dmel_CG33193	Dmel_CG33193	sav	sav	CG13831|CG13832|CG33193|DmelCG33193|Salvador/Shar-pei|anon-WO0172774.152|shar-pei	CG13831|CG13832|CG33193|DmelCG33193|Salvador/Shar-pei|anon-WO0172774.152|shar-pei	FRET	physical	Yue T (2012)	PUBMED:22280890	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q9VCR6	W8PHN8	NP_788721|NP_001189269	Q9VCR6	W8PHN8	NP_788721|NP_001189269	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2311742	31027	41703	57595	66780	Dmel_CG7413	Dmel_CG3041	Rbf	Orc2	CG7413|DmelCG7413|EG:34F3.3|FBF|RB|RBF1|Rb1|dRBF|pRb	CG3041|DmORC 2|DmORC2|DmOrc2p|DmelCG3041|ORC|Orc-2|Orc2p|dOrc2|fs(3)293|fs(3)293-19|k43|l(3)88Ab|l(3)A5|l(3)K43|l(3)SG44|l(3)dsl5|rDmORC	FRET	physical	Ahlander J (2008)	PUBMED:18665226	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q24472	-	NP_525036	Q24168	-	NP_731873	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2312076	31227	31227	57763	57763	Dmel_CG7952	Dmel_CG7952	gt	gt	CG7952|DmelCG7952|EG:BACH7M4.5|GIAN_DROME|Giant|l(1)3Aa|l(1)giant	CG7952|DmelCG7952|EG:BACH7M4.5|GIAN_DROME|Giant|l(1)3Aa|l(1)giant	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P39572	-	NP_525049	P39572	-	NP_525049	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2312077	31227	34371	57763	60459	Dmel_CG7952	Dmel_CG18619	gt	CG18619	CG7952|DmelCG7952|EG:BACH7M4.5|GIAN_DROME|Giant|l(1)3Aa|l(1)giant	BcDNA:RH73910|DmelCG18619	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P39572	-	NP_525049	-	Q8MYS1|Q9VL14|Q8IPC7|Q8IPC6	NP_609363|NP_723547|NP_723546|NP_723548	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2312078	31227	34725	57763	60763	Dmel_CG7952	Dmel_CG16815	gt	CG16815	CG7952|DmelCG7952|EG:BACH7M4.5|GIAN_DROME|Giant|l(1)3Aa|l(1)giant	DmelCG16815	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P39572	-	NP_525049	-	Q9VK15	NP_609622	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2312079	31227	36057	57763	61885	Dmel_CG7952	Dmel_CG2275	gt	Jra	CG7952|DmelCG7952|EG:BACH7M4.5|GIAN_DROME|Giant|l(1)3Aa|l(1)giant	AP-1|AP1|CG2275|D-Jun|D-jun/Jra|DJUN|DmelCG2275|JUN|V|c-Jun|cJun|d-JRA|dAP-1|dJRA|dm-Jun|l(2)46Ef|l(2)IA109|l(2R)IA109	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P39572	-	NP_525049	P18289	-	NP_724882|NP_476586|NP_001260844	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2312080	31227	3772082	57763	533679	Dmel_CG7952	Dmel_CG33956	gt	kay	CG7952|DmelCG7952|EG:BACH7M4.5|GIAN_DROME|Giant|l(1)3Aa|l(1)giant	AP-1|AP1|CG15507|CG15509|CG33956|D-Fos|D-fos/kay|DFOS|DFra|DmelCG33956|FOS|Fra|c-Fos|dAP-1|dlhD|fbz	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P39572	-	NP_525049	A8MPH9|P21525	C4JC86	NP_001027579|NP_001027578|NP_001287591|NP_001027580|NP_001027577	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2312081	31227	42930	57763	67856	Dmel_CG7952	Dmel_CG13624	gt	CG13624	CG7952|DmelCG7952|EG:BACH7M4.5|GIAN_DROME|Giant|l(1)3Aa|l(1)giant	DmelCG13624|anon-WO0153538.65	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P39572	-	NP_525049	Q9VC61	-	NP_733014|NP_001287505|NP_733012|NP_733013|NP_001036753|NP_001036752|NP_651271	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2312955	32039	35085	58454	61081	Dmel_CG18085	Dmel_CG15154	sev	Socs36E	7LES|7less|CG18085|CT3980|DROSEV|DROSEV1|DmHD-265|DmelCG18085|HD-265|sev(AC)[[14]]	CG15154|DmelCG15154|SOCS|anon-EST:Liang-2.2|clone 2.2|dSOCS|dmSocs36E|socs60E1	FRET	physical	Almudi I (2010)	PUBMED:20980384	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P13368	-	NP_511114	-	Q8INY1|Q9VJA1	NP_724096|NP_001260534|NP_523593	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2312956	32039	36497	58454	62256	Dmel_CG18085	Dmel_CG6033	sev	drk	7LES|7less|CG18085|CT3980|DROSEV|DROSEV1|DmHD-265|DmelCG18085|HD-265|sev(AC)[[14]]	24/1|CG6033|DmelCG6033|Drk/Grb2|E(sev)2B|GRB2|Grb-2|Grb/drk|Grb2/drk|P1112|Su(sev)R1|crkl|l(2)10626|l(2)k13809	FRET	physical	Almudi I (2010)	PUBMED:20980384	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P13368	-	NP_511114	Q08012	-	NP_725306|NP_725304|NP_725303|NP_725302|NP_476858	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2313293	32536	37851	58884	63430	Dmel_CG8544	Dmel_CG4005	sd	yki	CG8544|DROEXO|DROEXO2|DmelCG8544|EP(X)1088|EP1088|TEAD|anon-EST:Liang-2.14|clone 2.14|l(1)G0239|l(1)G0262|l(1)G0309|l(1)G0315|l(1)G0483|l(1)HF394|l(1)III|sp	CG4005|DmelCG4005|YAP	FRET	physical	Guo T (2013)	PUBMED:23999857	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P30052	A8JUY5|Q8IR25|A8JUY9|M9PH78|X2JFL9|E1JJ99	NP_001096992|NP_001096991|NP_001096990|NP_001245700|NP_001245702|NP_001259581|NP_511169|NP_001245701|NP_001096989|NP_001162762|NP_727900|NP_001259582|NP_001245698|NP_001245699|NP_001162761|NP_001259583|NP_001285299|NP_001245696|NP_001245697|NP_996450	Q45VV3	-	NP_611879|NP_001036568|NP_726414	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2313610	32855	32855	59167	59167	Dmel_CG6551	Dmel_CG6551	fu	fu	CG6551|Dm fu|DmelCG6551|dFu|fu[mel]|l(1)fu	CG6551|Dm fu|DmelCG6551|dFu|fu[mel]|l(1)fu	FRET	physical	Zhang Y (2011)	PUBMED:21844892	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P23647	-	NP_477499	P23647	-	NP_477499	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2313611	32855	32855	59167	59167	Dmel_CG6551	Dmel_CG6551	fu	fu	CG6551|Dm fu|DmelCG6551|dFu|fu[mel]|l(1)fu	CG6551|Dm fu|DmelCG6551|dFu|fu[mel]|l(1)fu	FRET	physical	Shi Q (2011)	PUBMED:21852395	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P23647	-	NP_477499	P23647	-	NP_477499	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2313957	32981	43402	59277	68278	Dmel_CG12530	Dmel_CG1520	Cdc42	WASp	CG12530|Cdc42Dm|D-CDC42|DCDC42|Dm Cdc42|DmCDC42|DmelCG12530|P40793	CG1520|D-WASP|Dm WASP|DmWASP|DmelCG1520|WSP|dWASP	FRET	physical	Sharifai N (2014)	PUBMED:24586421	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P40793	M9NFF8	NP_001245762|NP_001245763|NP_523414	-	Q9VAT0|Q86B74	NP_788755|NP_733257|NP_651637|NP_001263045	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2314263	33196	33196	59452	59452	Dmel_CG11561	Dmel_CG11561	smo	smo	CG11561|DmelCG11561|dSmo	CG11561|DmelCG11561|dSmo	FRET	physical	Zhao Y (2007)	PUBMED:17960137	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P91682	-	NP_523443	P91682	-	NP_523443	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2314264	33196	33196	59452	59452	Dmel_CG11561	Dmel_CG11561	smo	smo	CG11561|DmelCG11561|dSmo	CG11561|DmelCG11561|dSmo	FRET	physical	Chen Y (2010)	PUBMED:20844016	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P91682	-	NP_523443	P91682	-	NP_523443	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2314265	33196	33196	59452	59452	Dmel_CG11561	Dmel_CG11561	smo	smo	CG11561|DmelCG11561|dSmo	CG11561|DmelCG11561|dSmo	FRET	physical	Fan J (2012)	PUBMED:22537496	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P91682	-	NP_523443	P91682	-	NP_523443	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2314274	33196	35653	59452	61534	Dmel_CG11561	Dmel_CG1708	smo	cos	CG11561|DmelCG11561|dSmo	CG1708|COS2|COS[2]|Cos-2|DmCos2|DmelCG1708|KIF26A/B|Kif7|l(2)161/28|l(2)cos[[2]]|l(2)k16101|l(2)k16128	FRET	physical	Zhang Y (2011)	PUBMED:21844892	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P91682	-	NP_523443	O16844	-	NP_001260765|NP_477092	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2314275	33196	35653	59452	61534	Dmel_CG11561	Dmel_CG1708	smo	cos	CG11561|DmelCG11561|dSmo	CG1708|COS2|COS[2]|Cos-2|DmCos2|DmelCG1708|KIF26A/B|Kif7|l(2)161/28|l(2)cos[[2]]|l(2)k16101|l(2)k16128	FRET	physical	Shi Q (2011)	PUBMED:21852395	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P91682	-	NP_523443	O16844	-	NP_001260765|NP_477092	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2314288	33196	49045	59452	71932	Dmel_CG11561	Dmel_CG17998	smo	Gprk2	CG11561|DmelCG11561|dSmo	154978_at|CG17998|DmelCG17998|Gprk-2|nosh	FRET	physical	Chen Y (2010)	PUBMED:20844016	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P91682	-	NP_523443	P32866	-	NP_476867|NP_001263143	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2314476	33335	33335	59579	59579	Dmel_CG12193	Dmel_CG12193	Or22a	Or22a	22A.1|22a|AN11|CG12193|DOR22A.1|DOR22a|DOR53|Dmel Or22a|Dmel22a|DmelCG12193|Or22A.1|Or53	22A.1|22a|AN11|CG12193|DOR22A.1|DOR22a|DOR53|Dmel Or22a|Dmel22a|DmelCG12193|Or22A.1|Or53	FRET	physical	German PF (2013)	PUBMED:23196131	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P81909	I6LU58	NP_523453	P81909	I6LU58	NP_523453	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2314869	33619	252554	59819	76064	Dmel_CG12676	Dmel_CG33193	ed	sav	1X5|CG12676|CG15424|CG16842|CT13476|CT35484|DmelCG12676|E(Elp)24D|E(Elp)[24D]|l(2)k01102	CG13831|CG13832|CG33193|DmelCG33193|Salvador/Shar-pei|anon-WO0172774.152|shar-pei	FRET	physical	Yue T (2012)	PUBMED:22280890	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q9VQW7|M9PCI6	NP_001260013|NP_523469|NP_001260014	Q9VCR6	W8PHN8	NP_788721|NP_001189269	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2315002	33759	33759	59930	59930	Dmel_CG14029	Dmel_CG14029	vri	vri	CG14029|DmelCG14029|argo|jf23|l(2)25Db|l(2)jf23|mat(2)ea-G|mat(2)earlyRS32|mel_vri	CG14029|DmelCG14029|argo|jf23|l(2)25Db|l(2)jf23|mat(2)ea-G|mat(2)earlyRS32|mel_vri	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q9VMS4|Q7KTN9	NP_001285623|NP_001137792|NP_477191|NP_723075|NP_001285624	-	Q9VMS4|Q7KTN9	NP_001285623|NP_001137792|NP_477191|NP_723075|NP_001285624	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2315953	34724	3772082	60762	533679	Dmel_CG16813	Dmel_CG33956	CG16813	kay	DmelCG16813	AP-1|AP1|CG15507|CG15509|CG33956|D-Fos|D-fos/kay|DFOS|DFra|DmelCG33956|FOS|Fra|c-Fos|dAP-1|dlhD|fbz	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q9VK16	NP_609621|NP_001260438	A8MPH9|P21525	C4JC86	NP_001027579|NP_001027578|NP_001287591|NP_001027580|NP_001027577	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2315954	34725	37336	60763	62985	Dmel_CG16815	Dmel_CG9954	CG16815	maf-S	DmelCG16815	CG9954|DmelCG9954|Maf|MafS|anon-EST:Posey173|maf2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q9VK15	NP_609622	-	Q4QPP9	NP_001286639|NP_611500	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2315955	34725	3772082	60763	533679	Dmel_CG16815	Dmel_CG33956	CG16815	kay	DmelCG16815	AP-1|AP1|CG15507|CG15509|CG33956|D-Fos|D-fos/kay|DFOS|DFra|DmelCG33956|FOS|Fra|c-Fos|dAP-1|dlhD|fbz	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q9VK15	NP_609622	A8MPH9|P21525	C4JC86	NP_001027579|NP_001027578|NP_001287591|NP_001027580|NP_001027577	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2315956	34725	42743	60763	67688	Dmel_CG16815	Dmel_CG43286	CG16815	cnc	DmelCG16815	5134|BcDNA:RE05559|CG13826|CG17894|CG43286|CG4566|CG4578|CNC_DROME|DmelCG43286|Dmel_CG13826|Dmel_CG17894|Nrf2|anon-WO0153538.6|anon-WO0153538.7|cnc-C|l(3)03921|l(3)j5E7	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q9VK15	NP_609622	P20482	-	NP_001247258|NP_001247261|NP_001247260|NP_001247262|NP_001247256|NP_001247257|NP_732839|NP_732838|NP_001262864|NP_001262865|NP_732835|NP_732834|NP_732837|NP_732836|NP_732833|NP_001247259	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2315957	34725	47767	60763	70925	Dmel_CG16815	Dmel_CG8669	CG16815	crc	DmelCG16815	929|ATF-4|ATF4|ATF4/crc|CG8669|DmelCG8669|Ire1|dATF-4|l(2)crc	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q9VK15	NP_609622	-	Q9NIR3|Q9VID3|M9PBF8	NP_524897|NP_724333|NP_001260673|NP_001260672	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2316432	35227	8674049	61205	1073063	Dmel_CG10034	Dmel_CG42599	tj	Pif1A	CG10034|Dmaf|DmelCG10034|PL3|fs(2)eo-B|fs(2)eo2|fs(2)eoPL3|maf-L|maf1	BcDNA:GH12504|CG11773|CG11774|CG11776|CG32940|CG33719|CG42599|CG9808|DmelCG42599|Dmel_CG11776|Dmel_CG33719|PIF-1A|Pif1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	M9PG80|Q9VIW0	NP_001260582|NP_609969	-	Q86BA7|Q8WTI8|E1JIF4|Q8MRQ5	NP_001027157|NP_001189195|NP_001163556|NP_001027158	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2316580	35480	34725	61397	60763	Dmel_CG3136	Dmel_CG16815	Atf6	CG16815	CG3136|DmelCG3136	DmelCG16815	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q7K2V1|Q8SX87	NP_610159|NP_724403|NP_995745	-	Q9VK15	NP_609622	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2316581	35480	36057	61397	61885	Dmel_CG3136	Dmel_CG2275	Atf6	Jra	CG3136|DmelCG3136	AP-1|AP1|CG2275|D-Jun|D-jun/Jra|DJUN|DmelCG2275|JUN|V|c-Jun|cJun|d-JRA|dAP-1|dJRA|dm-Jun|l(2)46Ef|l(2)IA109|l(2R)IA109	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q7K2V1|Q8SX87	NP_610159|NP_724403|NP_995745	P18289	-	NP_724882|NP_476586|NP_001260844	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2316772	35644	35644	61527	61527	Dmel_CG1854	Dmel_CG1854	Or43a	Or43a	43B.1|43B1|43a|AN14|CG1854|DOR43B.1|DOR43a|DOR87|DmelCG1854|Or|Or43B.1|Or87	43B.1|43B1|43a|AN14|CG1854|DOR43B.1|DOR43a|DOR87|DmelCG1854|Or|Or43B.1|Or87	FRET	physical	Neuhaus EM (2005)	PUBMED:15592462	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P81917	-	NP_523647	P81917	-	NP_523647	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2316823	35653	35653	61534	61534	Dmel_CG1708	Dmel_CG1708	cos	cos	CG1708|COS2|COS[2]|Cos-2|DmCos2|DmelCG1708|KIF26A/B|Kif7|l(2)161/28|l(2)cos[[2]]|l(2)k16101|l(2)k16128	CG1708|COS2|COS[2]|Cos-2|DmCos2|DmelCG1708|KIF26A/B|Kif7|l(2)161/28|l(2)cos[[2]]|l(2)k16101|l(2)k16128	FRET	physical	Zhang Y (2011)	PUBMED:21844892	7227	7227	Low Throughput	-	-	-	-	FLYBASE	O16844	-	NP_001260765|NP_477092	O16844	-	NP_001260765|NP_477092	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2316997	35851	35851	61701	61701	Dmel_CG2411	Dmel_CG2411	ptc	ptc	BcDNA:RH36596|CG2411|Conf|DmelCG2411|Ptc_Dm|Ptch|com4|dPtc|l(2)k02507|pat|rubr|tuf	BcDNA:RH36596|CG2411|Conf|DmelCG2411|Ptc_Dm|Ptch|com4|dPtc|l(2)k02507|pat|rubr|tuf	FRET	physical	Lu X (2006)	PUBMED:16980583	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P18502	-	NP_523661	P18502	-	NP_523661	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2317142	36017	36017	61846	61846	Dmel_CG1584	Dmel_CG1584	Orc6	Orc6	CG1584|DmORC 6|DmORC6|DmelCG1584|ORC|rDmORC	CG1584|DmORC 6|DmORC6|DmelCG1584|ORC|rDmORC	FRET	physical	Akhmetova K (2015)	PUBMED:25355953	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q9Y1B2	-	NP_477319	Q9Y1B2	-	NP_477319	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2317182	36057	43867	61885	68679	Dmel_CG2275	Dmel_CG11405	Jra	Atf3	AP-1|AP1|CG2275|D-Jun|D-jun/Jra|DJUN|DmelCG2275|JUN|V|c-Jun|cJun|d-JRA|dAP-1|dJRA|dm-Jun|l(2)46Ef|l(2)IA109|l(2R)IA109	A3-3|CG11405|DmelCG11405|EG:33C11.1|dATF3	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P18289	-	NP_724882|NP_476586|NP_001260844	-	M9PIP2|Q9XZS8	NP_001259125|NP_001284769|NP_620473	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2317232	36104	53569	61922	72799	Dmel_CG2204	Dmel_CG5692	Galphao	raps	Bkh|CG2204|DG[[o]]|DGalpha0|DGalpha[[o]]|DROGPAD|DmelCG2204|G(o)alpha47A|G-alpha-47A|G-oalpha|G-oalpha47A|G[[o]]|G[[o]]alpha|G[[oalpha]]|Galpha47A|Galpha[[047A]]|Galpha[[0]]|Galpha[[o]]|Galphao47A|Go|Go-alpha|Goa|Goalpha|alpha(o)|dgo|dgoalpha	CG5692|DmelCG5692|PINS|Rad|rapsyn	FRET	physical	Luechtenborg AM (2015)	PUBMED:26487707	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P16378	D5AEN0	NP_523684|NP_724934|NP_724935|NP_995801|NP_995802|NP_788306|NP_788307|NP_788304|NP_788305|NP_001260869	-	Q9VB22	NP_524999	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2317932	36802	34725	62521	60763	Dmel_CG7786	Dmel_CG16815	CG7786	CG16815	DmelCG7786	DmelCG16815	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	A1ZAC2	NP_611101	-	Q9VK15	NP_609622	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2317933	36802	37336	62521	62985	Dmel_CG7786	Dmel_CG9954	CG7786	maf-S	DmelCG7786	CG9954|DmelCG9954|Maf|MafS|anon-EST:Posey173|maf2	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	A1ZAC2	NP_611101	-	Q4QPP9	NP_001286639|NP_611500	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2318225	37090	43725	62771	68568	Dmel_CG5581	Dmel_CG1775	Ote	Med	CG5581|DmelCG5581|hal|otefin	CG1775|DmelCG1775|E(zen)3|SMAD4|anon-EST:Posey121|dSmad4|l(3)11m-254|l(3)12m-137|l(3)SG36|l(3)SG70|l(3)XIIm137|medea	FRET	physical	Jiang X (2008)	PUBMED:18410727	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P20240	-	NP_476664	-	O62609|Q8IMG6	NP_733438|NP_733439|NP_524610	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2318325	37247	37247	62905	62905	Dmel_CG11228	Dmel_CG11228	hpo	hpo	CG11228|DmelCG11228|MST|MST2|dMST|hipo	CG11228|DmelCG11228|MST|MST2|dMST|hipo	FRET	physical	Jin Y (2012)	PUBMED:22215676	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q8T0S6	-	NP_611427|NP_001261092	Q8T0S6	-	NP_611427|NP_001261092	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2318769	3772082	34371	533679	60459	Dmel_CG33956	Dmel_CG18619	kay	CG18619	AP-1|AP1|CG15507|CG15509|CG33956|D-Fos|D-fos/kay|DFOS|DFra|DmelCG33956|FOS|Fra|c-Fos|dAP-1|dlhD|fbz	BcDNA:RH73910|DmelCG18619	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	A8MPH9|P21525	C4JC86	NP_001027579|NP_001027578|NP_001287591|NP_001027580|NP_001027577	-	Q8MYS1|Q9VL14|Q8IPC7|Q8IPC6	NP_609363|NP_723547|NP_723546|NP_723548	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2319159	37889	37889	63463	63463	Dmel_CG4354	Dmel_CG4354	slbo	slbo	C/EBP|CG4354|DC/EBP|Dm-c/EBP|DmC/EBP|DmelCG4354|fs(2)7|fs(2)8|fs(2)ry7|fs(2)ry8|slobo	C/EBP|CG4354|DC/EBP|Dm-c/EBP|DmC/EBP|DmelCG4354|fs(2)7|fs(2)8|fs(2)ry7|fs(2)ry8|slobo	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q02637	-	NP_001286836|NP_523843	Q02637	-	NP_001286836|NP_523843	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2319239	38001	38001	63569	63569	Dmel_CG15792	Dmel_CG15792	zip	zip	CG15792|DROMHC|Dm nmII|DmelCG15792|DmnmII|Dronm-MII|E(br)|MHC|Mhc-c|Mhc-c[1]|Myo|Myo II|Myo-II|Myo-II HC|Myo2|MyoII|NMM|NMMII|anon-WO0140519.37|l(2)02957|l(2)17F1|nmMHC|nmy-2|zip/MyoII|zpr	CG15792|DROMHC|Dm nmII|DmelCG15792|DmnmII|Dronm-MII|E(br)|MHC|Mhc-c|Mhc-c[1]|Myo|Myo II|Myo-II|Myo-II HC|Myo2|MyoII|NMM|NMMII|anon-WO0140519.37|l(2)02957|l(2)17F1|nmMHC|nmy-2|zip/MyoII|zpr	FRET	physical	Liu SL (2008)	PUBMED:17989074	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q99323	Q59E58|Q59E59	NP_001246516|NP_523860|NP_001189008|NP_001189009|NP_001189011|NP_001189010|NP_726506|NP_001014553|NP_001014552	Q99323	Q59E58|Q59E59	NP_001246516|NP_523860|NP_001189008|NP_001189009|NP_001189011|NP_001189010|NP_726506|NP_001014553|NP_001014552	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2320400	39243	42267	64617	67271	Dmel_CG6272	Dmel_CG17836	CG6272	Xrp1	BcDNA:GH10915|CT19628|DmelCG6272	2515|CG17836|DmelCG17836|anon-EST:Liang-2.44|clone 2.44|l(3)02515	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q9VTE8	NP_001261698|NP_648434	-	Q8IN74|Q9VE23	NP_001097833|NP_001262718|NP_001262719|NP_650761|NP_732386|NP_732385|NP_732384	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2320687	39682	39682	65001	65001	Dmel_CG7450	Dmel_CG7450	CrebA	CrebA	BBF-2|BBF2_DROME|BOX B Binding Factor-2|Bbbf2|BcDNA:SD05937|CG7450|CRE-BP|CREB|CREB-A|Creb A|DmelCG7450|dCREB-A|dCREBA|l(3)03576	BBF-2|BBF2_DROME|BOX B Binding Factor-2|Bbbf2|BcDNA:SD05937|CG7450|CRE-BP|CREB|CREB-A|Creb A|DmelCG7450|dCREB-A|dCREBA|l(3)03576	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P29747	Q1LZ07	NP_996096|NP_524087	P29747	Q1LZ07	NP_996096|NP_524087	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2321047	40090	40090	65366	65366	Dmel_CG9739	Dmel_CG9739	fz2	fz2	CG9739|D-Fz2|DFZ2|DFz-2|Dfrz2|Dfz[[2]]|Dm Fz2|DmelCG9739|dfz(2)|dfz2r|frz2|fz-2	CG9739|D-Fz2|DFZ2|DFz-2|Dfrz2|Dfz[[2]]|Dm Fz2|DmelCG9739|dfz(2)|dfz2r|frz2|fz-2	FRET	physical	Zhao Y (2007)	PUBMED:17960137	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q9VVX3	B7Z072|M9PFW3	NP_001137971|NP_001097643|NP_001262038|NP_730389|NP_524155|NP_001262037|NP_001262036	Q9VVX3	B7Z072|M9PFW3	NP_001137971|NP_001097643|NP_001262038|NP_730389|NP_524155|NP_001262037|NP_001262036	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2321332	40232	36538	65494	62292	Dmel_CG12306	Dmel_CG13345	polo	tum	0256/04|1324/08|CG12306|DmelCG12306|PLK1|POLO/PLK1|Polo kinase|anon-WO0172774.3|l(3)01673|l(3)77Aa|l(3)S025604|l(3)S132408	13345|AcGAP|CG13345|DRacGAP|DmelCG13345|RacGAP|RacGAP50C|RhoGAP-50C14|eon|i249|racGAP50	FRET	physical	Ebrahimi S (2010)	PUBMED:20628062	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P52304	-	NP_524179|NP_001014592	-	A1Z9I5	NP_610912	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2321659	40650	33335	65859	59579	Dmel_CG10609	Dmel_CG12193	Orco	Or22a	83A.2|83b|A45|CG10609|DOR45|DOR83b|DmelOrco|DmelCG10609|OR49|OR83B|vainsA	22A.1|22a|AN11|CG12193|DOR22A.1|DOR22a|DOR53|Dmel Or22a|Dmel22a|DmelCG12193|Or22A.1|Or53	FRET	physical	Neuhaus EM (2005)	PUBMED:15592462	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q9VNB5	-	NP_524235|NP_001097687	P81909	I6LU58	NP_523453	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2321660	40650	33335	65859	59579	Dmel_CG10609	Dmel_CG12193	Orco	Or22a	83A.2|83b|A45|CG10609|DOR45|DOR83b|DmelOrco|DmelCG10609|OR49|OR83B|vainsA	22A.1|22a|AN11|CG12193|DOR22A.1|DOR22a|DOR53|Dmel Or22a|Dmel22a|DmelCG12193|Or22A.1|Or53	FRET	physical	German PF (2013)	PUBMED:23196131	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q9VNB5	-	NP_524235|NP_001097687	P81909	I6LU58	NP_523453	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2321662	40650	35644	65859	61527	Dmel_CG10609	Dmel_CG1854	Orco	Or43a	83A.2|83b|A45|CG10609|DOR45|DOR83b|DmelOrco|DmelCG10609|OR49|OR83B|vainsA	43B.1|43B1|43a|AN14|CG1854|DOR43B.1|DOR43a|DOR87|DmelCG1854|Or|Or43B.1|Or87	FRET	physical	Neuhaus EM (2005)	PUBMED:15592462	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q9VNB5	-	NP_524235|NP_001097687	P81917	-	NP_523647	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2321664	40650	40650	65859	65859	Dmel_CG10609	Dmel_CG10609	Orco	Orco	83A.2|83b|A45|CG10609|DOR45|DOR83b|DmelOrco|DmelCG10609|OR49|OR83B|vainsA	83A.2|83b|A45|CG10609|DOR45|DOR83b|DmelOrco|DmelCG10609|OR49|OR83B|vainsA	FRET	physical	Neuhaus EM (2005)	PUBMED:15592462	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q9VNB5	-	NP_524235|NP_001097687	Q9VNB5	-	NP_524235|NP_001097687	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2321665	40650	40650	65859	65859	Dmel_CG10609	Dmel_CG10609	Orco	Orco	83A.2|83b|A45|CG10609|DOR45|DOR83b|DmelOrco|DmelCG10609|OR49|OR83B|vainsA	83A.2|83b|A45|CG10609|DOR45|DOR83b|DmelOrco|DmelCG10609|OR49|OR83B|vainsA	FRET	physical	German PF (2013)	PUBMED:23196131	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q9VNB5	-	NP_524235|NP_001097687	Q9VNB5	-	NP_524235|NP_001097687	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2321945	40848	38611	66045	64077	Dmel_CG1913	Dmel_CG10642	alphaTub84B	Klp64D	1t|ALPHA 84C|BEST:LD32507|CG1913|DM1alpha|DTA1|DmelCG1913|T|TBA1_DROME|Talpha1|Tub|Tuba84B|Tubalpha1|a-tub84B|a1t|aTub84B|alpha-Tub|alpha-Tub84B|alpha-tubulin|alpha-tubulin 84B|alpha1|alpha1t|alpha1tub|alpha1tub84B|alpha84B|alphaT|alphaTUB|alphaTub1|alphaTub84|alphat-1|anon-EST:Liang-1.59|anon-EST:Liang-2.30|chr3R:2914276..2914416|clone 1.59|clone 2.30|l(3)84Bd|l(3)g3|ms(3)nc33|nc33|tubulin	CG10642|DmKlp64D|DmelCG10642|KIF 3A|KIF3A|KLP4|KLP64Ddm|Klp 64D	FRET	physical	Girotra M (2017)	PUBMED:27976831	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P06603	-	NP_476772	-	Q9VRK9	NP_523934	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2321947	40848	39332	66045	64693	Dmel_CG1913	Dmel_CG7293	alphaTub84B	Klp68D	1t|ALPHA 84C|BEST:LD32507|CG1913|DM1alpha|DTA1|DmelCG1913|T|TBA1_DROME|Talpha1|Tub|Tuba84B|Tubalpha1|a-tub84B|a1t|aTub84B|alpha-Tub|alpha-Tub84B|alpha-tubulin|alpha-tubulin 84B|alpha1|alpha1t|alpha1tub|alpha1tub84B|alpha84B|alphaT|alphaTUB|alphaTub1|alphaTub84|alphat-1|anon-EST:Liang-1.59|anon-EST:Liang-2.30|chr3R:2914276..2914416|clone 1.59|clone 2.30|l(3)84Bd|l(3)g3|ms(3)nc33|nc33|tubulin	CG7293|DmKlp68D|DmelCG7293|KIF 3B|KIF3B|KLP-5|KLP5|KLP68Ddm|KLP[[64D/68D]]	FRET	physical	Girotra M (2017)	PUBMED:27976831	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P06603	-	NP_476772	P46867	M9PF68	NP_524029|NP_001261726	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2323798	42267	39243	67271	64617	Dmel_CG17836	Dmel_CG6272	Xrp1	CG6272	2515|CG17836|DmelCG17836|anon-EST:Liang-2.44|clone 2.44|l(3)02515	BcDNA:GH10915|CT19628|DmelCG6272	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q8IN74|Q9VE23	NP_001097833|NP_001262718|NP_001262719|NP_650761|NP_732386|NP_732385|NP_732384	-	Q9VTE8	NP_001261698|NP_648434	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2324114	42514	33335	67484	59579	Dmel_CG7000	Dmel_CG12193	Snmp1	Or22a	CG7000|DmelCG7000|SNMP	22A.1|22a|AN11|CG12193|DOR22A.1|DOR22a|DOR53|Dmel Or22a|Dmel22a|DmelCG12193|Or22A.1|Or53	FRET	physical	German PF (2013)	PUBMED:23196131	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q9VDD3	-	NP_001262803|NP_650953	P81909	I6LU58	NP_523453	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2324157	42549	43130	67515	68034	Dmel_CG18402	Dmel_CG17367	InR	Lnk	18402|CG18402|DIHR|DILR|DIR|DIRH|DIRbeta|DInR|Dir-a|Dir-b|DmelCG18402|INS|IR|Inr-alpha|Inr-beta|InsR|dInsR|er10|insulin/insulin-like growth factor receptor|l(3)05545|l(3)93Dj|l(3)er10|lnR	CG 17367|CG17367|CG5908|DmelCG17367|dSH2B	FRET	physical	Almudi I (2013)	PUBMED:23590848	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P09208	-	NP_001138095|NP_001138094|NP_001138093|NP_524436	-	Q7K137	NP_651438|NP_001287538|NP_733125|NP_733126|NP_001287537|NP_001287536	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2324168	42549	64880	67515	72865	Dmel_CG18402	Dmel_CG5686	InR	chico	18402|CG18402|DIHR|DILR|DIR|DIRH|DIRbeta|DInR|Dir-a|Dir-b|DmelCG18402|INS|IR|Inr-alpha|Inr-beta|InsR|dInsR|er10|insulin/insulin-like growth factor receptor|l(3)05545|l(3)93Dj|l(3)er10|lnR	BcDNA.GH11263|BcDNA:GH11263|CG5686|DmelCG5686|IRS|IRS/chico|anon-WO0078940.1|anon-WO0078940.4|chic|dIRS|fs(2)4|fs(2)ry4	FRET	physical	Almudi I (2013)	PUBMED:23590848	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P09208	-	NP_001138095|NP_001138094|NP_001138093|NP_524436	Q9XTN2	M9PCQ8	NP_723540|NP_001260316|NP_001188772	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2324785	42934	42934	67860	67860	Dmel_CG6668	Dmel_CG6668	atl	atl	CG6668|DmelCG6668	CG6668|DmelCG6668	FRET	physical	Liu TY (2015)	PUBMED:25825753	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q9VC57	-	NP_651274|NP_733020|NP_001287506	Q9VC57	-	NP_651274|NP_733020|NP_001287506	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2324930	43130	64880	68034	72865	Dmel_CG17367	Dmel_CG5686	Lnk	chico	CG 17367|CG17367|CG5908|DmelCG17367|dSH2B	BcDNA.GH11263|BcDNA:GH11263|CG5686|DmelCG5686|IRS|IRS/chico|anon-WO0078940.1|anon-WO0078940.4|chic|dIRS|fs(2)4|fs(2)ry4	FRET	physical	Almudi I (2013)	PUBMED:23590848	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q7K137	NP_651438|NP_001287538|NP_733125|NP_733126|NP_001287537|NP_001287536	Q9XTN2	M9PCQ8	NP_723540|NP_001260316|NP_001188772	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2325207	43402	32981	68278	59277	Dmel_CG1520	Dmel_CG12530	WASp	Cdc42	CG1520|D-WASP|Dm WASP|DmWASP|DmelCG1520|WSP|dWASP	CG12530|Cdc42Dm|D-CDC42|DCDC42|Dm Cdc42|DmCDC42|DmelCG12530|P40793	FRET	physical	Sharifai N (2014)	PUBMED:24586421	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q9VAT0|Q86B74	NP_788755|NP_733257|NP_651637|NP_001263045	P40793	M9NFF8	NP_001245762|NP_001245763|NP_523414	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2325278	43517	35584	68381	61480	Dmel_CG7831	Dmel_CG3265	ncd	Eb1	CG7831|DmNCD|DmelCG7831|KIF C1|KIFC1|ca|ca[nd]|l(3)05884|ndc	BcDNA.LD08743|BcDNA:LD08743|CG3265|Dm EB1|DmEB1|DmelCG3265|EB-1|S(DmcycE[JP])2.5|anon-EST:Liang-2.33|anon-EST:Liang-2.52|clone 2.33|clone 2.52|dEB-1|dEB1|l(2)04524|l(2)4524	FRET	physical	Szczesna E (2016)	PUBMED:27608966	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P20480	-	NP_001287592|NP_476651	-	Q9XZ57|A1Z6P3|Q7JZD3	NP_995752|NP_724495|NP_724496|NP_724497|NP_001260734|NP_610233	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2325707	43767	41565	68605	66658	Dmel_CG2125	Dmel_CG6054	ci	Su(fu)	CG2125|CID|Ce|Ci/GLI|Ci155|Ci[D]|DmelCG2125|Gli|Siah|ci-D|l(4)102ABc|l(4)13|l(4)17	CG6054|DmelCG6054|SUFU|dSufu	FRET	physical	Shi Q (2011)	PUBMED:21852395	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P19538	H9XVL6|H5V858|H9XVL7	NP_524617|NP_001245402|NP_001245401	-	Q9VG38	NP_536750	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2325878	43867	36057	68679	61885	Dmel_CG11405	Dmel_CG2275	Atf3	Jra	A3-3|CG11405|DmelCG11405|EG:33C11.1|dATF3	AP-1|AP1|CG2275|D-Jun|D-jun/Jra|DJUN|DmelCG2275|JUN|V|c-Jun|cJun|d-JRA|dAP-1|dJRA|dm-Jun|l(2)46Ef|l(2)IA109|l(2R)IA109	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	M9PIP2|Q9XZS8	NP_001259125|NP_001284769|NP_620473	P18289	-	NP_724882|NP_476586|NP_001260844	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2326091	44226	44226	68905	68905	Dmel_CG9415	Dmel_CG9415	Xbp1	Xbp1	138/3|CG 9415|CG9415|DmelCG9415|Dxbp-1|XBP-1|XbpI|anon-EST:Liang-1.41|clone 1.41|l(2)k13803	138/3|CG 9415|CG9415|DmelCG9415|Dxbp-1|XBP-1|XbpI|anon-EST:Liang-1.41|clone 1.41|l(2)k13803	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q8MLW7|Q5BI44	NP_524722|NP_726032	-	Q8MLW7|Q5BI44	NP_524722|NP_726032	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2326092	44226	47767	68905	70925	Dmel_CG9415	Dmel_CG8669	Xbp1	crc	138/3|CG 9415|CG9415|DmelCG9415|Dxbp-1|XBP-1|XbpI|anon-EST:Liang-1.41|clone 1.41|l(2)k13803	929|ATF-4|ATF4|ATF4/crc|CG8669|DmelCG8669|Ire1|dATF-4|l(2)crc	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q8MLW7|Q5BI44	NP_524722|NP_726032	-	Q9NIR3|Q9VID3|M9PBF8	NP_524897|NP_724333|NP_001260673|NP_001260672	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2326093	44226	8674049	68905	1073063	Dmel_CG9415	Dmel_CG42599	Xbp1	Pif1A	138/3|CG 9415|CG9415|DmelCG9415|Dxbp-1|XBP-1|XbpI|anon-EST:Liang-1.41|clone 1.41|l(2)k13803	BcDNA:GH12504|CG11773|CG11774|CG11776|CG32940|CG33719|CG42599|CG9808|DmelCG42599|Dmel_CG11776|Dmel_CG33719|PIF-1A|Pif1	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q8MLW7|Q5BI44	NP_524722|NP_726032	-	Q86BA7|Q8WTI8|E1JIF4|Q8MRQ5	NP_001027157|NP_001189195|NP_001163556|NP_001027158	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2326716	47091	40233	70577	65495	Dmel_CG1618	Dmel_CG6625	comt	alphaSnap	CG 1618|CG1618|DmNSF|DmelCG1618|NSF|NSF-1|NSF1|com|dNSF|dNSF-1|dNSF1	CG6625|DmelCG6625|SNAP|aSnap|alpha-SNAP|dSNAP|dalpha-SNAP|dalphaSNAP|l(3)77ABa|l(3)77ABc	FRET	physical	Yu W (2011)	PUBMED:21316453	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P46461	M9PH10	NP_001259506|NP_524877	Q23983	-	NP_524180	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2326944	49045	49045	71932	71932	Dmel_CG17998	Dmel_CG17998	Gprk2	Gprk2	154978_at|CG17998|DmelCG17998|Gprk-2|nosh	154978_at|CG17998|DmelCG17998|Gprk-2|nosh	FRET	physical	Chen Y (2010)	PUBMED:20844016	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P32866	-	NP_476867|NP_001263143	P32866	-	NP_476867|NP_001263143	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2327304	8674049	34724	1073063	60762	Dmel_CG42599	Dmel_CG16813	Pif1A	CG16813	BcDNA:GH12504|CG11773|CG11774|CG11776|CG32940|CG33719|CG42599|CG9808|DmelCG42599|Dmel_CG11776|Dmel_CG33719|PIF-1A|Pif1	DmelCG16813	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q86BA7|Q8WTI8|E1JIF4|Q8MRQ5	NP_001027157|NP_001189195|NP_001163556|NP_001027158	-	Q9VK16	NP_609621|NP_001260438	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2327305	8674049	36057	1073063	61885	Dmel_CG42599	Dmel_CG2275	Pif1A	Jra	BcDNA:GH12504|CG11773|CG11774|CG11776|CG32940|CG33719|CG42599|CG9808|DmelCG42599|Dmel_CG11776|Dmel_CG33719|PIF-1A|Pif1	AP-1|AP1|CG2275|D-Jun|D-jun/Jra|DJUN|DmelCG2275|JUN|V|c-Jun|cJun|d-JRA|dAP-1|dJRA|dm-Jun|l(2)46Ef|l(2)IA109|l(2R)IA109	FRET	physical	Reinke AW (2013)	PUBMED:23661758	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q86BA7|Q8WTI8|E1JIF4|Q8MRQ5	NP_001027157|NP_001189195|NP_001163556|NP_001027158	P18289	-	NP_724882|NP_476586|NP_001260844	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2327473	2260	3350	108551	109582	-	-	FGFR1	HTR1A	BFGFR|CD331|CEK|FGFBR|FGFR-1|FLG|FLT-2|FLT2|HBGFR|HH2|HRTFDS|KAL2|N-SAM|OGD|bFGF-R-1	5-HT-1A|5-HT1A|5HT1a|ADRB2RL1|ADRBRL1|G-21|PFMCD	FRET	physical	Borroto-Escuela DO (2012)	PUBMED:22035699	9606	9606	Low Throughput	-	-	Bioluminescent resonance energy transfer (BRET) assay	-	BIOGRID	P11362	-	NP_075598|NP_075593|NP_075594|NP_001167538|NP_056934|NP_001167536|NP_001167537|NP_001167534|NP_001167535	P08908	A8K5W4|Q5ZGX3	NP_000515	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2332716	855224	853743	35364	34018	YMR186W	YKL117W	HSC82	SBA1	HSP90|Hsp90 family chaperone HSC82|L000000813	CST18|L000004284|L000002999|S000029122	FRET	physical	Ratzke C (2014)	PUBMED:24947016	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P15108	-	NP_013911	P28707	-	NP_012805	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2333494	2067	2072	108379	108384	-	-	ERCC1	ERCC4	COFS4|RAD10|UV20	ERCC11|FANCQ|RAD1|XPF	FRET	physical	Friboulet L (2013)	PUBMED:24036546	9606	9606	Low Throughput	-	-	Fluorescence detected Proximity Ligation Assay (PLA)	-	BIOGRID	P07992	A0A024R0Q6	NP_973730|NP_001356343|NP_001356342|NP_001356341|NP_001974|NP_001159521|NP_001356345|NP_001356344|NP_001356337|NP_001356338	Q92889	-	NP_005227	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2333495	2067	7507	108379	113344	-	RP11-244N9.4	ERCC1	XPA	COFS4|RAD10|UV20	XP1|XPAC	FRET	physical	Friboulet L (2013)	PUBMED:24036546	9606	9606	Low Throughput	-	-	Fluorescence detected Proximity Ligation Assay (PLA)	-	BIOGRID	P07992	A0A024R0Q6	NP_973730|NP_001356343|NP_001356342|NP_001356341|NP_001974|NP_001159521|NP_001356345|NP_001356344|NP_001356337|NP_001356338	P23025	-	NP_000371	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2333496	2067	6117	108379	112037	-	-	ERCC1	RPA1	COFS4|RAD10|UV20	HSSB|MST075|REPA1|RF-A|RP-A|RPA70	FRET	physical	Friboulet L (2013)	PUBMED:24036546	9606	9606	Low Throughput	-	-	Fluorescence detected Proximity Ligation Assay (PLA)	-	BIOGRID	P07992	A0A024R0Q6	NP_973730|NP_001356343|NP_001356342|NP_001356341|NP_001974|NP_001159521|NP_001356345|NP_001356344|NP_001356337|NP_001356338	P27694	-	NP_002936|NP_001342049|NP_001342050	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2333497	2067	6118	108379	112038	-	RP4-547C9.3	ERCC1	RPA2	COFS4|RAD10|UV20	REPA2|RP-A p32|RP-A p34|RPA32	FRET	physical	Friboulet L (2013)	PUBMED:24036546	9606	9606	Low Throughput	-	-	Fluorescence detected Proximity Ligation Assay (PLA)	-	BIOGRID	P07992	A0A024R0Q6	NP_973730|NP_001356343|NP_001356342|NP_001356341|NP_001974|NP_001159521|NP_001356345|NP_001356344|NP_001356337|NP_001356338	P15927	B4DUL2	NP_001342057|NP_002937|NP_001284487|NP_001342058|NP_001273005	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2333498	2067	6119	108379	112039	-	-	ERCC1	RPA3	COFS4|RAD10|UV20	REPA3	FRET	physical	Friboulet L (2013)	PUBMED:24036546	9606	9606	Low Throughput	-	-	Fluorescence detected Proximity Ligation Assay (PLA)	-	BIOGRID	P07992	A0A024R0Q6	NP_973730|NP_001356343|NP_001356342|NP_001356341|NP_001974|NP_001159521|NP_001356345|NP_001356344|NP_001356337|NP_001356338	P35244	A4D105	NP_002938	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2334194	55215	2177	120511	108474	-	-	FANCI	FANCD2	KIAA1794	FA-D2|FA4|FACD|FAD|FAD2|FANCD	FRET	physical	Oka Y (2015)	PUBMED:25862789	9606	9606	Low Throughput	-	-	Proximity Ligation Assay	-	BIOGRID	Q9NVI1	B3KNW8	NP_001363840|NP_001106849|NP_001363839|NP_060663	Q9BXW9	A0A024R2G2	NP_001306913|NP_001018125|NP_001361183|NP_001361182|NP_149075|NP_001361184	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2335052	5932	2177	111867	108474	-	-	RBBP8	FANCD2	COM1|CTIP|JWDS|RIM|SAE2|SCKL2	FA-D2|FA4|FACD|FAD|FAD2|FANCD	FRET	physical	Murina O (2014)	PUBMED:24794434	9606	9606	Low Throughput	-	-	Proximity Ligation Assay	-	BIOGRID	Q99708	A0A024RC34	NP_976037|NP_976036|NP_002885	Q9BXW9	A0A024R2G2	NP_001306913|NP_001018125|NP_001361183|NP_001361182|NP_149075|NP_001361184	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2335894	855597	856577	35701	36606	YNL126W	YHR172W	SPC98	SPC97	L000003430	L000003543	FRET	physical	Lyon AS (2016)	PUBMED:27226487	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53540	-	NP_014273	P38863	-	NP_012042	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2344231	855471	855471	35589	35589	YNL250W	YNL250W	RAD50	RAD50	MRX complex DNA-binding subunit|L000001570	MRX complex DNA-binding subunit|L000001570	FRET	physical	Hohl M (2015)	PUBMED:25601756	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P12753	-	NP_014149	P12753	-	NP_014149	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2346407	851800	855836	32268	35923	YDR214W	YPL240C	AHA1	HSP82	-	HSP90|Hsp90 family chaperone HSP82|L000000822	FRET	physical	Stiegler SC (2017)	PUBMED:28851842	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q12449	-	NP_010500	P02829	-	NP_015084	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2346423	9025	7334	114492	113182	-	-	RNF8	UBE2N	hRNF8	HEL-S-71|UBC13|UBCHBEN; UBC13|UbcH-ben|UbcH13	FRET	physical	Weber E (2017)	PUBMED:27909234	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O76064	-	NP_898901|NP_003949	P61088	V9HW41	NP_003339	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2347523	6500	55294	112391	120581	-	-	SKP1	FBXW7	EMC19|OCP-II|OCP2|SKP1A|TCEB1L|p19A	AGO|CDC4|FBW6|FBW7|FBX30|FBXO30|FBXW6|SEL-10|SEL10|hAgo|hCdc4	FRET	physical	Reiterer V (2017)	PUBMED:28007894	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P63208	-	NP_733779|NP_008861	Q969H0	S4R3U4|G0Z2K0	NP_001013433|NP_361014|NP_060785|NP_001243998	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2351238	18412	64862	201982	249213	RP23-319B15.3	-	Sqstm1	Map1lc3b	A170|OSF-6|Osi|STAP|STONE14|p62	Map1lc3|Mpl3|zbs559	FRET	physical	Kraft LJ (2016)	PUBMED:27442348	10090	10116	Low Throughput	-	-	-	-	BIOGRID	Q64337	-	NP_001277698|NP_035148	Q62625	-	NP_074058	-	-	-	-	-	-	Mus musculus	Rattus norvegicus
+2351240	18412	18412	201982	201982	RP23-319B15.3	RP23-319B15.3	Sqstm1	Sqstm1	A170|OSF-6|Osi|STAP|STONE14|p62	A170|OSF-6|Osi|STAP|STONE14|p62	FRET	physical	Kraft LJ (2016)	PUBMED:27442348	10090	10090	Low Throughput	-	-	-	-	BIOGRID	Q64337	-	NP_001277698|NP_035148	Q64337	-	NP_001277698|NP_035148	-	-	-	-	-	-	Mus musculus	Mus musculus
+2375602	100506658	7082	111004	112937	hCG_1988850	-	OCLN	TJP1	BLCPMG|PPP1R115	ZO-1	FRET	physical	Doerfel MJ (2013)	PUBMED:23758859	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q16625	A8K3T2	NP_002529|NP_001192184|NP_001192183	Q07157	G5E9E7|A9CQZ8|G3V1L9|Q6MZU1|B4DZK4	NP_001287955|NP_001287954|NP_001341941|NP_001341943|NP_001341942|NP_001341944|NP_001317168|NP_783297|NP_003248	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2375603	100506658	9414	111004	114809	hCG_1988850	RP11-16N10.1	OCLN	TJP2	BLCPMG|PPP1R115	C9DUPq21.11|DFNA51|DUP9q21.11|PFIC4|X104|ZO2	FRET	physical	Doerfel MJ (2013)	PUBMED:23758859	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q16625	A8K3T2	NP_002529|NP_001192184|NP_001192183	Q9UDY2	B7Z954|B7Z2R3	NP_001356804|NP_001356800|NP_001356801|NP_001356802|NP_001356803|NP_004808|NP_001163886|NP_001163887|NP_001163885|NP_001356799|NP_001164101|NP_963923	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2375605	100506658	100506658	111004	111004	hCG_1988850	hCG_1988850	OCLN	OCLN	BLCPMG|PPP1R115	BLCPMG|PPP1R115	FRET	physical	Doerfel MJ (2013)	PUBMED:23758859	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q16625	A8K3T2	NP_002529|NP_001192184|NP_001192183	Q16625	A8K3T2	NP_002529|NP_001192184|NP_001192183	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2376049	2281	6262	108571	112174	-	RP4-626J7.1	FKBP1B	RYR2	FKBP12.6|FKBP1L|OTK4|PKBP1L|PPIase	ARVC2|ARVD2|RYR-2|RyR|VTSIP	FRET	physical	Wang R (2011)	PUBMED:21262961	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P68106	-	NP_004107|NP_473374	Q92736	-	NP_001026	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2376050	6262	6262	112174	112174	RP4-626J7.1	RP4-626J7.1	RYR2	RYR2	ARVC2|ARVD2|RYR-2|RyR|VTSIP	ARVC2|ARVD2|RYR-2|RyR|VTSIP	FRET	physical	Wang R (2011)	PUBMED:21262961	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q92736	-	NP_001026	Q92736	-	NP_001026	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2376079	7251	155030	113102	1205537	-	HIV1gp2	TSG101	gag	TSG10|VPS23	-	FRET	physical	Chutiwitoonchai N (2016)	PUBMED:27648839	9606	11676	Low Throughput	-	-	-	-	BIOGRID	Q99816	-	NP_006283	P04591	-	NP_057850	-	-	-	-	-	-	Homo sapiens	Human Immunodeficiency Virus 1
+2381345	10002	10002	115320	115320	-	-	NR2E3	NR2E3	ESCS|PNR|RNR|RP37|rd7	ESCS|PNR|RNR|RP37|rd7	FRET	physical	von Alpen D (2015)	PUBMED:25703721	9606	9606	Low Throughput	-	-	BRET2 assay	-	BIOGRID	Q9Y5X4	F1D8Q9	NP_055064|NP_057430	Q9Y5X4	F1D8Q9	NP_055064|NP_057430	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2381346	10002	9572	115320	114941	-	-	NR2E3	NR1D1	ESCS|PNR|RNR|RP37|rd7	EAR1|THRA1|THRAL|ear-1|hRev	FRET	physical	von Alpen D (2015)	PUBMED:25703721	9606	9606	Low Throughput	-	-	BRET2 assay	-	BIOGRID	Q9Y5X4	F1D8Q9	NP_055064|NP_057430	P20393	F1D8S3	NP_068370	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2381347	10002	1406	115320	107796	-	-	NR2E3	CRX	ESCS|PNR|RNR|RP37|rd7	CORD2|CRD|LCA7|OTX3	FRET	physical	von Alpen D (2015)	PUBMED:25703721	9606	9606	Low Throughput	-	-	BRET2 assay	-	BIOGRID	Q9Y5X4	F1D8Q9	NP_055064|NP_057430	O43186	-	NP_000545	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2381348	10002	4901	115320	110957	-	-	NR2E3	NRL	ESCS|PNR|RNR|RP37|rd7	D14S46E|NRL-MAF|RP27	FRET	physical	von Alpen D (2015)	PUBMED:25703721	9606	9606	Low Throughput	-	-	BRET2 assay	-	BIOGRID	Q9Y5X4	F1D8Q9	NP_055064|NP_057430	P54845	-	NP_006168	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2381349	1406	4901	107796	110957	-	-	CRX	NRL	CORD2|CRD|LCA7|OTX3	D14S46E|NRL-MAF|RP27	FRET	physical	von Alpen D (2015)	PUBMED:25703721	9606	9606	Low Throughput	-	-	BRET2 assay	-	BIOGRID	O43186	-	NP_000545	P54845	-	NP_006168	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2381350	4901	10002	110957	115320	-	-	NRL	NR2E3	D14S46E|NRL-MAF|RP27	ESCS|PNR|RNR|RP37|rd7	FRET	physical	von Alpen D (2015)	PUBMED:25703721	9606	9606	Low Throughput	-	-	BRET2 assay	-	BIOGRID	P54845	-	NP_006168	Q9Y5X4	F1D8Q9	NP_055064|NP_057430	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2381351	9572	10002	114941	115320	-	-	NR1D1	NR2E3	EAR1|THRA1|THRAL|ear-1|hRev	ESCS|PNR|RNR|RP37|rd7	FRET	physical	von Alpen D (2015)	PUBMED:25703721	9606	9606	Low Throughput	-	-	BRET2 assay	-	BIOGRID	P20393	F1D8S3	NP_068370	Q9Y5X4	F1D8Q9	NP_055064|NP_057430	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2381352	1406	10002	107796	115320	-	-	CRX	NR2E3	CORD2|CRD|LCA7|OTX3	ESCS|PNR|RNR|RP37|rd7	FRET	physical	von Alpen D (2015)	PUBMED:25703721	9606	9606	Low Throughput	-	-	BRET2 assay	-	BIOGRID	O43186	-	NP_000545	Q9Y5X4	F1D8Q9	NP_055064|NP_057430	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2383536	801	6261	107252	112173	-	-	CALM1	RYR1	CALML2|CAMI|CPVT4|DD132|PHKD|caM	CCO|MHS|MHS1|PPP1R137|RYDR|RYR|RYR-1|SKRR	FRET	physical	Boschek CB (2008)	PUBMED:18201104	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P62158	B4DJ51|E7ETZ0	NP_001350598|NP_001350599|NP_008819	P21817	-	NP_001036188|NP_000531	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2383537	801	490	107252	106980	-	-	CALM1	ATP2B1	CALML2|CAMI|CPVT4|DD132|PHKD|caM	PMCA1|PMCA1kb	FRET	physical	Boschek CB (2008)	PUBMED:18201104	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P62158	B4DJ51|E7ETZ0	NP_001350598|NP_001350599|NP_008819	P20020	A0A024RBC7	NP_001353450|NP_001353451|NP_001353452|NP_001353453|NP_001353454|NP_001353455|NP_001353456|NP_001673|NP_001353458|NP_001353459|NP_001353449|NP_001001323|NP_001353461|NP_001353460|NP_001353457	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2383538	801	85366	107252	124494	-	-	CALM1	MYLK2	CALML2|CAMI|CPVT4|DD132|PHKD|caM	KMLC|MLCK|MLCK2|skMLCK	FRET	physical	Boschek CB (2008)	PUBMED:18201104	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P62158	B4DJ51|E7ETZ0	NP_001350598|NP_001350599|NP_008819	Q9H1R3	-	NP_149109	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2384444	3091	8517	109338	114089	-	-	HIF1A	IKBKG	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	AMCBX1|FIP-3|FIP3|Fip3p|IKK-gamma|IMD33|IP|IP1|IP2|IPD2|NEMO|ZC2HC9	FRET	physical	Nowicka AM (2016)	PUBMED:26500060	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	Q9Y6K9	A0A087X1B1	NP_003630|NP_001138727|NP_001364244|NP_001364243|NP_001364242|NP_001364241|NP_001308326|NP_001308325|NP_001093327|NP_001093326	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2384445	2034	8517	108348	114089	-	-	EPAS1	IKBKG	ECYT4|HIF2A|HLF|MOP2|PASD2|bHLHe73	AMCBX1|FIP-3|FIP3|Fip3p|IKK-gamma|IMD33|IP|IP1|IP2|IPD2|NEMO|ZC2HC9	FRET	physical	Nowicka AM (2016)	PUBMED:26500060	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q99814	B3KW07	NP_001421	Q9Y6K9	A0A087X1B1	NP_003630|NP_001138727|NP_001364244|NP_001364243|NP_001364242|NP_001364241|NP_001308326|NP_001308325|NP_001093327|NP_001093326	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2385690	4780	9817	110852	115156	-	-	NFE2L2	KEAP1	NRF2	INrf2|KLHL19	FRET	physical	Quinti L (2017)	PUBMED:28533375	9606	9606	Low Throughput	-	-	interaction detected by FRET/fluorescence lifetime imaging microscopy (FLIM)	-	BIOGRID	Q16236	-	NP_006155|NP_001138884|NP_001138885|NP_001300829|NP_001300830|NP_001300831	Q14145	A0A024R7C0	NP_036421|NP_987096	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2385817	147	147	106657	106657	-	-	ADRA1B	ADRA1B	ADRA1|ALPHA1BAR	ADRA1|ALPHA1BAR	FRET	physical	Stanasila L (2003)	PUBMED:12888550	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P35368	-	NP_000670	P35368	-	NP_000670	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2385818	148	148	106658	106658	-	-	ADRA1A	ADRA1A	ADRA1C|ADRA1L1|ALPHA1AAR	ADRA1C|ADRA1L1|ALPHA1AAR	FRET	physical	Stanasila L (2003)	PUBMED:12888550	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P35348	B0ZBD3	NP_150645|NP_150646|NP_000671|NP_150647	P35348	B0ZBD3	NP_150645|NP_150646|NP_000671|NP_150647	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2385819	148	147	106658	106657	-	-	ADRA1A	ADRA1B	ADRA1C|ADRA1L1|ALPHA1AAR	ADRA1|ALPHA1BAR	FRET	physical	Stanasila L (2003)	PUBMED:12888550	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P35348	B0ZBD3	NP_150645|NP_150646|NP_000671|NP_150647	P35368	-	NP_000670	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2385898	853539	853539	33832	33832	YJR076C	YJR076C	CDC11	CDC11	PSL9|septin CDC11|L000000251	PSL9|septin CDC11|L000000251	FRET	physical	Booth EA (2015)	PUBMED:26416886	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32458	-	NP_012610	P32458	-	NP_012610	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2385899	853539	856507	33832	36540	YJR076C	YHR107C	CDC11	CDC12	PSL9|septin CDC11|L000000251	CLA10|PSL7|septin CDC12|L000000348|L000000252	FRET	physical	Booth EA (2015)	PUBMED:26416886	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32458	-	NP_012610	P32468	-	NP_011975	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2385900	853539	851024	33832	31579	YJR076C	YLR314C	CDC11	CDC3	PSL9|septin CDC11|L000000251	septin CDC3|L000000243	FRET	physical	Booth EA (2015)	PUBMED:26416886	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32458	-	NP_012610	P32457	-	NP_013418	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2385901	853539	850358	33832	30980	YJR076C	YCR002C	CDC11	CDC10	PSL9|septin CDC11|L000000251	septin CDC10|L000000250	FRET	physical	Booth EA (2015)	PUBMED:26416886	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32458	-	NP_012610	P25342	-	NP_009928	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2385902	851373	853539	31885	33832	YDL225W	YJR076C	SHS1	CDC11	SEP7|septin SHS1	PSL9|septin CDC11|L000000251	FRET	physical	Booth EA (2015)	PUBMED:26416886	559292	559292	Low Throughput	-	-	-	-	BIOGRID	Q07657	-	NP_010056	P32458	-	NP_012610	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2385903	855555	853539	35662	33832	YNL166C	YJR076C	BNI5	CDC11	-	PSL9|septin CDC11|L000000251	FRET	physical	Booth EA (2015)	PUBMED:26416886	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53890	-	NP_014233	P32458	-	NP_012610	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2385904	855555	856507	35662	36540	YNL166C	YHR107C	BNI5	CDC12	-	CLA10|PSL7|septin CDC12|L000000348|L000000252	FRET	physical	Booth EA (2015)	PUBMED:26416886	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53890	-	NP_014233	P32468	-	NP_011975	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2385905	855555	851024	35662	31579	YNL166C	YLR314C	BNI5	CDC3	-	septin CDC3|L000000243	FRET	physical	Booth EA (2015)	PUBMED:26416886	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53890	-	NP_014233	P32457	-	NP_013418	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2385906	855555	850358	35662	30980	YNL166C	YCR002C	BNI5	CDC10	-	septin CDC10|L000000250	FRET	physical	Booth EA (2015)	PUBMED:26416886	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53890	-	NP_014233	P25342	-	NP_009928	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2386774	904	10614	107343	115860	-	-	CCNT1	HEXIM1	CCNT|CYCT1|HIVE1	CLP1|EDG1|HIS1|MAQ1	FRET	physical	Schulte A (2005)	PUBMED:15855166	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O60563	A8K4M5	NP_001264771|NP_001231	O94992	-	NP_006451	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2386875	10193	10193	115488	115488	SBBI03	SBBI03	RNF41	RNF41	FLRF|NRDP1	FLRF|NRDP1	FRET	physical	Masschaele D (2017)	PUBMED:28542518	9606	9606	Low Throughput	-	-	homo-oligomerization detected using AlphaScreen where excitation illumination on a bait-coupled bead releases singlet oxygen leading to chemiluminescence-enhanced fluorophore emission on a proximal prey-coupled bead	-	BIOGRID	Q9H4P4	A0A024RB33	NP_919340|NP_001229755|NP_919339|NP_005776	Q9H4P4	A0A024RB33	NP_919340|NP_001229755|NP_919339|NP_005776	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2386877	55275	6293	120563	112200	PP13624	DADB-91M20.1	VPS53	VPS52	HCCS1|PCH2E|hVps53L	ARE1|SAC2|SACM2L|dJ1033B10.5	FRET	physical	Masschaele D (2017)	PUBMED:28542518	9606	9606	Low Throughput	-	-	interaction detected using AlphaScreen where illumination of a bait-coupled bead releases singlet oxygen leading to chemiluminescence-enhanced fluorophore emission on a proximal prey-coupled bead	-	BIOGRID	Q5VIR6	B3KS06	NP_001353182|NP_001353183|NP_001121631|NP_060759	Q8N1B4	B4DS44|B3KMF7	NP_072047|NP_001276103|NP_001276104|NP_001276105	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2387324	972	960	107410	107398	-	AL133330.1	CD74	CD44	DHLAG|HLADG|II|Ia-GAMMA	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Yoo SA (2016)	PUBMED:27872288	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P04233	-	NP_001020330|NP_001020329|NP_004346	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2387762	6532	3303	112423	109535	-	DAQB-147D11.1	SLC6A4	HSPA1A	5-HTT|5-HTTLPR|5HTT|HTT|OCD1|SERT|SERT1|hSERT	HEL-S-103|HSP70-1|HSP70-1A|HSP70I|HSP72|HSPA1	FRET	physical	El-Kasaby A (2014)	PUBMED:25202009	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P31645	B2R7Y7	NP_001036	P08107	A8K5I0|B3KTT5	NP_005336	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2387826	8878	5590	114397	111576	-	RP11-181G12.1	SQSTM1	PRKCZ	A170|OSIL|PDB3|ZIP3|p60|p62|p62B	PKC-ZETA|PKC2	Co-localization	physical	Tobias IS (2016)	PUBMED:27143478	9606	9606	Low Throughput	-	-	interaction inferred from loss of FRET fluorescence: hit protein (a C kinase) binds to bait protein fused to C kinase activity reporter (CKAR) allowing active hit protein variants to phosphorylate the reporter inter-fluorophore spacer disrupting fluorescence resonance energy transfer (FRET)	-	BIOGRID	Q13501	-	NP_003891|NP_001135771|NP_001135770	Q05513	-	NP_001028754|NP_002735|NP_001229803|NP_001028753	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2387827	50855	5590	119157	111576	-	RP11-181G12.1	PARD6A	PRKCZ	PAR-6A|PAR6|PAR6C|PAR6alpha|TAX40|TIP-40	PKC-ZETA|PKC2	Co-localization	physical	Tobias IS (2016)	PUBMED:27143478	9606	9606	Low Throughput	-	-	interaction inferred from loss of FRET fluorescence: hit protein (a C kinase) binds to bait protein fused to C kinase activity reporter (CKAR) allowing active hit protein variants to phosphorylate the reporter inter-fluorophore spacer disrupting fluorescence resonance energy transfer (FRET)	-	BIOGRID	Q9NPB6	-	NP_058644|NP_001032358	Q05513	-	NP_001028754|NP_002735|NP_001229803|NP_001028753	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2387830	852501	852501	32899	32899	YBR202W	YBR202W	MCM7	MCM7	CDC47|MCM DNA helicase complex subunit MCM7|L000002760	CDC47|MCM DNA helicase complex subunit MCM7|L000002760	FRET	physical	Ticau S (2015)	PUBMED:25892223	559292	559292	Low Throughput	-	-	double-hexamer of Mcm2-7 bound to DNA	-	BIOGRID	P38132	-	NP_009761	P38132	-	NP_009761	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2391253	10188	998	115485	107433	-	RP1-224A6.5	TNK2	CDC42	ACK|ACK-1|ACK1|p21cdc42Hs	CDC42Hs|G25K	FRET	physical	Tetley GJN (2017)	PUBMED:28539360	9606	9606	Low Throughput	-	-	scintillation proximity assay (SPA)	-	BIOGRID	Q07912	B3KXJ4|C9J1X3	NP_001010938|NP_001294975|NP_005772	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2391502	775	9992	107229	115313	-	-	CACNA1C	KCNE2	CACH2|CACN2|CACNL1A1|CCHL1A1|CaV1.2|LQT8|TS	ATFB4|LQT5|LQT6|MIRP1	FRET	physical	Liu W (2014)	PUBMED:24681347	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13936	Q59GU3|Q5V9X9	NP_955630|NP_001161097|NP_001161096|NP_001161095|NP_001123312|NP_001123313|NP_001123310|NP_001123311|NP_001123316|NP_001123314|NP_001123315|NP_001123318|NP_000710|NP_001123299|NP_001123309|NP_001123308|NP_001123305|NP_001123304|NP_001123307|NP_001123306|NP_001123301|NP_001123303|NP_001123302	Q9Y6J6	-	NP_751951	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2393787	17931	107589	201677	223417	-	RP24-532J13.1	Ppp1r12a	Mylk	1200015F06Rik|5730577I22Rik|AA792106|AV099298|D10Ertd625e|Mypt1	9530072E15Rik|A930019C19Rik|AW489456|KRP|MLCK108|MLCK210|Mlck|nmMlck|smMLCK	FRET	physical	Khromov AS (2012)	PUBMED:22544752	10090	10090	Low Throughput	-	-	Proximity Ligation Assay	-	BIOGRID	Q9DBR7	-	NP_082168	-	B1B1A8	NP_647461	-	-	-	-	-	-	Mus musculus	Mus musculus
+2396478	9164888	9164922	1258609	1258643	snR14	snR6	snR14	snR6	U4|L000001965	U6|L000001961	FRET	physical	Hardin JW (2015)	PUBMED:26503251	559292	559292	Low Throughput	-	-	-	-	BIOGRID	-	-	-	-	-	-	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2396487	850518	856394	31120	36430	YFL026W	YHR005C	STE2	GPA1	alpha-factor pheromone receptor STE2|L000002112	CDC70|DAC1|SCG1|guanine nucleotide-binding protein subunit alpha|L000000720	FRET	physical	Cevheroglu O (2017)	PUBMED:28958779	559292	559292	Low Throughput	-	-	BRET	-	BIOGRID	D6VTK4	-	NP_116627	P08539	-	NP_011868	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2446647	6493	405	112384	106898	-	-	SIM2	ARNT	HMC13F06|HMC29C01|SIM|bHLHe15	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Sullivan AE (2016)	PUBMED:27472814	9606	9606	Low Throughput	-	-	Proximity Ligation Assay	-	BIOGRID	Q14190	-	NP_005060|NP_033664	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2446648	6493	9500	112384	114879	-	PRO2292	SIM2	MAGED1	HMC13F06|HMC29C01|SIM|bHLHe15	DLXIN-1|NRAGE	FRET	physical	Sullivan AE (2016)	PUBMED:27472814	9606	9606	Low Throughput	-	-	Proximity Ligation Assay	-	BIOGRID	Q14190	-	NP_005060|NP_033664	Q9Y5V3	-	NP_001005333|NP_001005332|NP_008917	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2446649	6492	9915	112383	115244	-	-	SIM1	ARNT2	bHLHe14	WEDAS|bHLHe1	FRET	physical	Sullivan AE (2016)	PUBMED:27472814	9606	9606	Low Throughput	-	-	Proximity Ligation Assay	-	BIOGRID	P81133	-	NP_005059	Q9HBZ2	Q7Z3A3|X5DQN9|Q86TN1	NP_055677	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2446650	9500	266743	114879	129335	PRO2292	-	MAGED1	NPAS4	DLXIN-1|NRAGE	Le-PAS|NXF|PASD10|bHLHe79	FRET	physical	Sullivan AE (2016)	PUBMED:27472814	9606	9606	Low Throughput	-	-	Proximity Ligation Assay	-	BIOGRID	Q9Y5V3	-	NP_001005333|NP_001005332|NP_008917	Q8IUM7	-	NP_849195	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2446651	9500	6492	114879	112383	PRO2292	-	MAGED1	SIM1	DLXIN-1|NRAGE	bHLHe14	FRET	physical	Sullivan AE (2016)	PUBMED:27472814	9606	9606	Low Throughput	-	-	Proximity Ligation Assay	-	BIOGRID	Q9Y5V3	-	NP_001005333|NP_001005332|NP_008917	P81133	-	NP_005059	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2446652	9500	9915	114879	115244	PRO2292	-	MAGED1	ARNT2	DLXIN-1|NRAGE	WEDAS|bHLHe1	FRET	physical	Sullivan AE (2016)	PUBMED:27472814	9606	9606	Low Throughput	-	-	Proximity Ligation Assay	-	BIOGRID	Q9Y5V3	-	NP_001005333|NP_001005332|NP_008917	Q9HBZ2	Q7Z3A3|X5DQN9|Q86TN1	NP_055677	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2446757	855492	855492	35609	35609	YNL229C	YNL229C	URE2	URE2	[URE3]|L000002439	[URE3]|L000002439	FRET	physical	Lou F (2017)	PUBMED:28650509	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P23202	-	NP_014170	P23202	-	NP_014170	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2447729	10193	6293	115488	112200	SBBI03	DADB-91M20.1	RNF41	VPS52	FLRF|NRDP1	ARE1|SAC2|SACM2L|dJ1033B10.5	FRET	physical	Lievens S (2016)	PUBMED:27803151	9606	9606	Low Throughput	-	-	Alpha screen assay	-	BIOGRID	Q9H4P4	A0A024RB33	NP_919340|NP_001229755|NP_919339|NP_005776	Q8N1B4	B4DS44|B3KMF7	NP_072047|NP_001276103|NP_001276104|NP_001276105	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2447730	10193	140459	115488	126612	SBBI03	RP11-483H20.7	RNF41	ASB6	FLRF|NRDP1	-	FRET	physical	Lievens S (2016)	PUBMED:27803151	9606	9606	Low Throughput	-	-	Alpha screen assay	-	BIOGRID	Q9H4P4	A0A024RB33	NP_919340|NP_001229755|NP_919339|NP_005776	Q9NWX5	F6TX30	NP_060343|NP_821066|NP_001189332	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2451213	854938	854938	35102	35102	YML064C	YML064C	TEM1	TEM1	Ras family GTPase TEM1|L000002282	Ras family GTPase TEM1|L000002282	FRET	physical	Cohen-Khait R (2017)	PUBMED:29211984	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P38987	-	NP_013647	P38987	-	NP_013647	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2454432	851458	851458	31962	31962	YDL100C	YDL100C	GET3	GET3	ARR4|guanine nucleotide exchange factor GET3	ARR4|guanine nucleotide exchange factor GET3	FRET	physical	Chio US (2017)	PUBMED:28973888	559292	559292	Low Throughput	-	-	dimer	-	BIOGRID	Q12154	-	NP_010183	Q12154	-	NP_010183	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455073	852406	855979	32813	36057	YBR109C	YPL124W	CMD1	SPC29	calmodulin|CaM|L000000365	LPH3|NIP29|L000001253	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P06787	-	NP_009667	P33419	-	NP_015201	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455074	853824	855979	34090	36057	YKL042W	YPL124W	SPC42	SPC29	L000004148	LPH3|NIP29|L000001253	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P36094	-	NP_012882	P33419	-	NP_015201	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455075	855979	851957	36057	32412	YPL124W	YDR356W	SPC29	SPC110	LPH3|NIP29|L000001253	NUF1|XCM1|L000001285	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P33419	-	NP_015201	P32380	-	NP_010643	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455076	851957	853824	32412	34090	YDR356W	YKL042W	SPC110	SPC42	NUF1|XCM1|L000001285	L000004148	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32380	-	NP_010643	P36094	-	NP_012882	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455077	855496	853824	35611	34090	YNL225C	YKL042W	CNM67	SPC42	L000004012	L000004148	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53865	-	NP_014174	P36094	-	NP_012882	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455078	852406	855496	32813	35611	YBR109C	YNL225C	CMD1	CNM67	calmodulin|CaM|L000000365	L000004012	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P06787	-	NP_009667	P53865	-	NP_014174	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455079	853824	852406	34090	32813	YKL042W	YBR109C	SPC42	CMD1	L000004148	calmodulin|CaM|L000000365	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P36094	-	NP_012882	P06787	-	NP_009667	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455080	855496	851957	35611	32412	YNL225C	YDR356W	CNM67	SPC110	L000004012	NUF1|XCM1|L000001285	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53865	-	NP_014174	P32380	-	NP_010643	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455081	853824	855496	34090	35611	YKL042W	YNL225C	SPC42	CNM67	L000004148	L000004012	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P36094	-	NP_012882	P53865	-	NP_014174	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455082	852406	851957	32813	32412	YBR109C	YDR356W	CMD1	SPC110	calmodulin|CaM|L000000365	NUF1|XCM1|L000001285	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P06787	-	NP_009667	P32380	-	NP_010643	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455083	851957	855979	32412	36057	YDR356W	YPL124W	SPC110	SPC29	NUF1|XCM1|L000001285	LPH3|NIP29|L000001253	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32380	-	NP_010643	P33419	-	NP_015201	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455084	855496	852406	35611	32813	YNL225C	YBR109C	CNM67	CMD1	L000004012	calmodulin|CaM|L000000365	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53865	-	NP_014174	P06787	-	NP_009667	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455085	855979	855496	36057	35611	YPL124W	YNL225C	SPC29	CNM67	LPH3|NIP29|L000001253	L000004012	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P33419	-	NP_015201	P53865	-	NP_014174	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455086	852406	853824	32813	34090	YBR109C	YKL042W	CMD1	SPC42	calmodulin|CaM|L000000365	L000004148	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P06787	-	NP_009667	P36094	-	NP_012882	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455087	855496	855496	35611	35611	YNL225C	YNL225C	CNM67	CNM67	L000004012	L000004012	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53865	-	NP_014174	P53865	-	NP_014174	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455088	851957	855496	32412	35611	YDR356W	YNL225C	SPC110	CNM67	NUF1|XCM1|L000001285	L000004012	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32380	-	NP_010643	P53865	-	NP_014174	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455089	853824	853824	34090	34090	YKL042W	YKL042W	SPC42	SPC42	L000004148	L000004148	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P36094	-	NP_012882	P36094	-	NP_012882	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455090	853824	851957	34090	32412	YKL042W	YDR356W	SPC42	SPC110	L000004148	NUF1|XCM1|L000001285	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P36094	-	NP_012882	P32380	-	NP_010643	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455091	855979	853824	36057	34090	YPL124W	YKL042W	SPC29	SPC42	LPH3|NIP29|L000001253	L000004148	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P33419	-	NP_015201	P36094	-	NP_012882	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455092	855496	855979	35611	36057	YNL225C	YPL124W	CNM67	SPC29	L000004012	LPH3|NIP29|L000001253	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P53865	-	NP_014174	P33419	-	NP_015201	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455093	851957	852406	32412	32813	YDR356W	YBR109C	SPC110	CMD1	NUF1|XCM1|L000001285	calmodulin|CaM|L000000365	FRET	physical	Viswanath S (2017)	PUBMED:28814505	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P32380	-	NP_010643	P06787	-	NP_009667	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2455698	12048	53417	198323	207311	RP23-106A3.4	-	Bcl2l1	Hif3a	Bcl(X)L|Bcl-XL|Bcl2l|BclX|bcl-x|bcl2-L-1	Ipas|MOP7|NEPAS|bHLHe17	FRET	physical	Torii S (2011)	PUBMED:21546903	10090	10090	Low Throughput	-	-	-	-	BIOGRID	Q64373	O35843|Q5HZH3	NP_001276668|NP_033873|NP_001276646|NP_001276645	Q0VBL6	E9Q6J3	NP_058564|NP_001156422	-	-	-	-	-	-	Mus musculus	Mus musculus
+2459180	8350	80152	113946	123143	-	-	HIST1H3A	CENPT	H3/A|H3FA	C16orf56|CENP-T	FRET	physical	Abendroth C (2015)	PUBMED:25775162	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P68431	-	NP_003520	Q96BT3	B3KPB2	NP_079358	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2459181	80152	387103	123143	132240	-	-	CENPT	CENPW	C16orf56|CENP-T	C6orf173|CENP-W|CUG2	FRET	physical	Abendroth C (2015)	PUBMED:25775162	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q96BT3	B3KPB2	NP_079358	Q5EE01	-	NP_001273454|NP_001012525|NP_001273453	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2459182	8350	387103	113946	132240	-	-	HIST1H3A	CENPW	H3/A|H3FA	C6orf173|CENP-W|CUG2	FRET	physical	Abendroth C (2015)	PUBMED:25775162	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P68431	-	NP_003520	Q5EE01	-	NP_001273454|NP_001012525|NP_001273453	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2459183	1059	387103	107488	132240	-	-	CENPB	CENPW	-	C6orf173|CENP-W|CUG2	FRET	physical	Abendroth C (2015)	PUBMED:25775162	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P07199	-	NP_001801	Q5EE01	-	NP_001273454|NP_001012525|NP_001273453	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2459184	79019	378708	122488	132044	CTA-250D10.18-008	-	CENPM	APITD1	C22orf18|CENP-M|PANE1|bK250D10.2	CENP-S|CENPS|FAAP16|MHF1	FRET	physical	Abendroth C (2015)	PUBMED:25775162	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9NSP4	A0A024R1Q3	NP_001103685|NP_001002876|NP_076958	Q8N2Z9	-	NP_954988	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2459185	79019	8350	122488	113946	CTA-250D10.18-008	-	CENPM	HIST1H3A	C22orf18|CENP-M|PANE1|bK250D10.2	H3/A|H3FA	FRET	physical	Abendroth C (2015)	PUBMED:25775162	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9NSP4	A0A024R1Q3	NP_001103685|NP_001002876|NP_076958	P68431	-	NP_003520	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2459193	3091	405	109338	106898	-	-	HIF1A	ARNT	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Wotzlaw C (2007)	PUBMED:17197389	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2459213	9101	10193	114555	115488	-	SBBI03	USP8	RNF41	HumORF8|SPG59|UBPY	FLRF|NRDP1	FRET	physical	De Ceuninck L (2013)	PUBMED:23750007	9606	9606	Low Throughput	-	-	AlphaScreen Assay	-	BIOGRID	P40818	A8K8N5|A0A024R5S4	NP_001122082|NP_005145|NP_001269978	Q9H4P4	A0A024RB33	NP_919340|NP_001229755|NP_919339|NP_005776	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2459457	51734	1191	119704	107603	HSPC270	AAG4	MSRB1	CLU	SELR|SELX|SEPX1|SepR	APO-J|APOJ|CLI|CLU1|CLU2|KUB1|NA1/NA2|SGP-2|SGP2|SP-40|TRPM-2|TRPM2	FRET	physical	Chen P (2013)	PUBMED:23805218	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9NZV6	-	NP_057416	P10909	-	NP_001822	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2459463	351	1191	106848	107603	-	AAG4	APP	CLU	AAA|ABETA|ABPP|AD1|APPI|CTFgamma|CVAP|PN-II|PN2	APO-J|APOJ|CLI|CLU1|CLU2|KUB1|NA1/NA2|SGP-2|SGP2|SP-40|TRPM-2|TRPM2	FRET	physical	Chen P (2013)	PUBMED:23805218	9606	9606	Low Throughput	-	-	Source of APP not clear	-	BIOGRID	P05067	B4DGD0|E9PG40|B4DJT9	NP_958817|NP_958816|NP_001191230|NP_001191231|NP_001191232|NP_000475|NP_001372182|NP_001129488|NP_001129603|NP_001129601|NP_001129602	P10909	-	NP_001822	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2459930	850505	856876	31108	36882	YFL038C	YER136W	YPT1	GDI1	Rab family GTPase YPT1|YP2|L000002543	SEC19|L000000699	FRET	physical	Zhao L (2016)	PUBMED:27213482	559292	559292	Low Throughput	-	-	proximity ligation assay	-	BIOGRID	P01123	-	NP_116615	P39958	-	NP_011062	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2459932	3845	3845	110043	110043	-	-	KRAS	KRAS	C-K-RAS|CFC2|K-RAS2A|K-RAS2B|K-RAS4A|K-RAS4B|KI-RAS|KRAS1|KRAS2|NS|NS3|RASK2	C-K-RAS|CFC2|K-RAS2A|K-RAS2B|K-RAS4A|K-RAS4B|KI-RAS|KRAS1|KRAS2|NS|NS3|RASK2	FRET	physical	Zhao L (2016)	PUBMED:27213482	9606	9606	Low Throughput	-	-	proximity ligation assay	-	BIOGRID	P01116	A0A024RAV5|I1SRC5|L7RSL8	NP_001356716|NP_203524|NP_001356715|NP_004976	P01116	A0A024RAV5|I1SRC5|L7RSL8	NP_001356716|NP_203524|NP_001356715|NP_004976	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2460865	2260	5335	108551	111351	-	RP3-511B24.2	FGFR1	PLCG1	BFGFR|CD331|CEK|FGFBR|FGFR-1|FLG|FLT-2|FLT2|HBGFR|HH2|HRTFDS|KAL2|N-SAM|OGD|bFGF-R-1	NCKAP3|PLC-II|PLC1|PLC148|PLCgamma1	FRET	physical	Browaeys-Poly E (2010)	PUBMED:20932831	9606	9606	Low Throughput	-	-	BRET actually used	-	BIOGRID	P11362	-	NP_075598|NP_075593|NP_075594|NP_001167538|NP_056934|NP_001167536|NP_001167537|NP_001167534|NP_001167535	P19174	Q4LE43|Q9UFY1	NP_002651|NP_877963	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2460866	2260	2888	108551	109145	-	-	FGFR1	GRB14	BFGFR|CD331|CEK|FGFBR|FGFR-1|FLG|FLT-2|FLT2|HBGFR|HH2|HRTFDS|KAL2|N-SAM|OGD|bFGF-R-1	-	FRET	physical	Browaeys-Poly E (2010)	PUBMED:20932831	9606	9606	Low Throughput	-	-	BRET actually used	-	BIOGRID	P11362	-	NP_075598|NP_075593|NP_075594|NP_001167538|NP_056934|NP_001167536|NP_001167537|NP_001167534|NP_001167535	Q14449	-	NP_004481	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2460870	2260	2260	108551	108551	-	-	FGFR1	FGFR1	BFGFR|CD331|CEK|FGFBR|FGFR-1|FLG|FLT-2|FLT2|HBGFR|HH2|HRTFDS|KAL2|N-SAM|OGD|bFGF-R-1	BFGFR|CD331|CEK|FGFBR|FGFR-1|FLG|FLT-2|FLT2|HBGFR|HH2|HRTFDS|KAL2|N-SAM|OGD|bFGF-R-1	FRET	physical	Romero-Fernandez W (2011)	PUBMED:21621521	9606	9606	Low Throughput	-	-	BRET actually used	-	BIOGRID	P11362	-	NP_075598|NP_075593|NP_075594|NP_001167538|NP_056934|NP_001167536|NP_001167537|NP_001167534|NP_001167535	P11362	-	NP_075598|NP_075593|NP_075594|NP_001167538|NP_056934|NP_001167536|NP_001167537|NP_001167534|NP_001167535	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2466641	2646	2645	108916	108915	-	-	GCKR	GCK	FGQTL5|GKRP	FGQTL3|GK|GLK|HHF3|HK4|HKIV|HXKP|LGLK|MODY2	FRET	physical	Rees MG (2012)	PUBMED:22038520	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14397	-	NP_001477	P35557	Q53Y25	NP_000153|NP_277042|NP_277043	BTO:0000567	HeLa cell	phenotype	-	-	-	Homo sapiens	Homo sapiens
+2466992	8550	11315	114120	116446	-	CTA-215D11.1	MAPKAPK5	PARK7	MAPKAP-K5|MK-5|MK5|PRAK	DJ-1|DJ1|HEL-S-67p	FRET	physical	Tang J (2014)	PUBMED:25383140	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q8IW41	-	NP_620777|NP_003659	Q99497	V9HWC2	NP_009193|NP_001116849	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2474340	1326	79155	107719	122573	RP11-449I17.8	RP3-474M20.1	MAP3K8	TNIP2	COT|EST|ESTF|MEKK8|TPL2|Tpl-2|c-COT	ABIN2|FLIP1|KLIP	FRET	physical	Besson B (2017)	PUBMED:29084252	9606	9606	Low Throughput	-	-	BRET|RelAp43, p105	-	BIOGRID	P41279	-	NP_001231063|NP_005195	Q8NFZ5	D6RGJ2	NP_077285|NP_001154999|NP_001278945	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2474341	4790	79155	110857	122573	-	RP3-474M20.1	NFKB1	TNIP2	EBP-1|KBF1|NF-kB1|NF-kappa-B|NF-kappaB|NFKB-p105|NFKB-p50|NFkappaB|p105|p50	ABIN2|FLIP1|KLIP	FRET	physical	Besson B (2017)	PUBMED:29084252	9606	9606	Low Throughput	-	-	BRET|RelAp43, p105	-	BIOGRID	P19838	A0A024RDJ4	NP_001158884|NP_003989|NP_001306155	Q8NFZ5	D6RGJ2	NP_077285|NP_001154999|NP_001278945	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2474342	4790	1326	110857	107719	-	RP11-449I17.8	NFKB1	MAP3K8	EBP-1|KBF1|NF-kB1|NF-kappa-B|NF-kappaB|NFKB-p105|NFKB-p50|NFkappaB|p105|p50	COT|EST|ESTF|MEKK8|TPL2|Tpl-2|c-COT	FRET	physical	Besson B (2017)	PUBMED:29084252	9606	9606	Low Throughput	-	-	BRET|RelAp43, p105	-	BIOGRID	P19838	A0A024RDJ4	NP_001158884|NP_003989|NP_001306155	P41279	-	NP_001231063|NP_005195	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2474343	5970	1326	111902	107719	-	RP11-449I17.8	RELA	MAP3K8	NFKB3|p65	COT|EST|ESTF|MEKK8|TPL2|Tpl-2|c-COT	FRET	physical	Besson B (2017)	PUBMED:29084252	9606	9606	Low Throughput	-	-	BRET|RelAp43, p105	-	BIOGRID	Q04206	A0A087X0W8	NP_001230914|NP_068810|NP_001230913|NP_001138610	P41279	-	NP_001231063|NP_005195	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2474344	5970	79155	111902	122573	-	RP3-474M20.1	RELA	TNIP2	NFKB3|p65	ABIN2|FLIP1|KLIP	FRET	physical	Besson B (2017)	PUBMED:29084252	9606	9606	Low Throughput	-	-	BRET|RelAp43, p105	-	BIOGRID	Q04206	A0A087X0W8	NP_001230914|NP_068810|NP_001230913|NP_001138610	Q8NFZ5	D6RGJ2	NP_077285|NP_001154999|NP_001278945	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2474559	3091	10524	109338	115779	-	-	HIF1A	KAT5	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	ESA1|HTATIP|HTATIP1|PLIP|TIP|TIP60|ZC2HC5|cPLA2	FRET	physical	Perez-Perri JI (2016)	PUBMED:27320910	9606	9606	Low Throughput	-	-	nanoBRET assay	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	Q92993	A0A024R597|A0A024R5E8	NP_006379|NP_001193762|NP_874368|NP_874369	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2474560	3091	8607	109338	114166	-	-	HIF1A	RUVBL1	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	ECP54|INO80H|NMP238|PONTIN|Pontin52|RVB1|TIH1|TIP49|TIP49A	FRET	physical	Perez-Perri JI (2016)	PUBMED:27320910	9606	9606	Low Throughput	-	-	nanoBRET assay	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	Q9Y265	-	NP_003698|NP_001306013|NP_001306015	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2474561	3091	10856	109338	116067	-	CGI-46	HIF1A	RUVBL2	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	ECP51|INO80J|REPTIN|RVB2|TIH2|TIP48|TIP49B	FRET	physical	Perez-Perri JI (2016)	PUBMED:27320910	9606	9606	Low Throughput	-	-	nanoBRET assay	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	Q9Y230	B3KNL2	NP_006657|NP_001308120|NP_001308119	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2475486	31621	39571	58106	64906	Dmel_CG4536	Dmel_CG5842	iav	nan	CG4536|CT14708|DmIav|DmelCG4536|TRPV|hypoB|osm-9	CG5842|CT18317|DmNan|DmelCG5842|OCR|TRPV	FRET	physical	Nesterov A (2015)	PUBMED:25950634	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q9W3W0	NP_572353	-	M9PI57|Q9VUD5	NP_001261833|NP_648696	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2476611	36592	43916	62342	68714	Dmel_CG34379	Dmel_CG9774	Shroom	Rok	CG13942|CG13944|CG34379|CG8603|DmelCG34379|Dmel_CG13942|Dmel_CG8603|Shrm|dShrm|dmShroom	CG9774|DROK|DRhk|DmelCG9774|ROCK|ROCK-1|ROCK1|ROCK2|ROKalpha/beta|Rhk|RhoK|Rok/ROCK	FRET	physical	Mohan S (2012)	PUBMED:22493320	7227	7227	Low Throughput	-	-	-	-	FLYBASE	A1Z9P3	-	NP_001097307|NP_610952|NP_725378|NP_001286417	-	X2JE40|X2JKQ8|X2JC83|Q9VXE3	NP_001285335|NP_001285337|NP_001285336|NP_536796	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2477325	33196	33196	59452	59452	Dmel_CG11561	Dmel_CG11561	smo	smo	CG11561|DmelCG11561|dSmo	CG11561|DmelCG11561|dSmo	FRET	physical	Jiang K (2016)	PUBMED:26863604	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P91682	-	NP_523443	P91682	-	NP_523443	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2477807	33473	31179	59696	57723	Dmel_CG3139	Dmel_CG3981	Syt1	Unc-76	CG3139|D. Syt I|DSYT|DSYT2|DSypt|DmelCG3139|Droso1|STY1|SYT|SYT I|Syt 1|Syt-1|SytI|dsyt1|dsytI|l(2)23AB1|l(2)23Ba|l(2)k05909	BcDNA:GH10260|CG18851|CG3981|DmelCG3981|Dunc-76|EG:67A9.1|l(1)G0066|l(1)G0158|l(1)G0310|l(1)G0333|l(1)G0360	FRET	physical	Toda H (2008)	PUBMED:19056884	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P21521	X2J4C1|X2J979	NP_001259965|NP_001259966|NP_722838|NP_995619|NP_523460|NP_001285567|NP_001285568|NP_722839|NP_001356906	-	Q9W525|M9PGS9	NP_001259172|NP_001259173|NP_726792|NP_569981	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2477900	33196	33196	59452	59452	Dmel_CG11561	Dmel_CG11561	smo	smo	CG11561|DmelCG11561|dSmo	CG11561|DmelCG11561|dSmo	FRET	physical	Maier D (2014)	PUBMED:25009998	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P91682	-	NP_523443	P91682	-	NP_523443	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2478387	35540	42186	61444	67207	Dmel_CG1765	Dmel_CG31196	EcR	14-3-3epsilon	CG1765|CG8347|DEcR|Dhr23|DmEcR|DmelCG1765|ECR-C|EcR-A|EcR-B|EcR-B1|EcR1b|EcRA|EcRB-1|EcRB1|EcRC|EcdR|NR1H1|anon-WO0229075.1|lie|ms(2)06410|ms(2)42A|snt	14-3-3|14-3-3 epsilon|14-3-3-e|14-3-3-epsilon|14-3-30epsilon|14-3-3e|14-3-3omicron|14.3.3 epsilon|1433epsilon|143E_DROME|CG31196|CT24092|D14-3-3e|D14-3-3epsilon|DmelCG31196|EK3-5|PAR-5|PAR5|SR3-9|Su(Raf)3B|anon-WO0172774.141|anon-WO02059370.52|eps|l(3)j2B10	FRET	physical	Ng YS (2017)	PUBMED:28365999	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P34021	E1JGY2|A4UZ51	NP_724460|NP_001163061|NP_724456|NP_724457|NP_724458|NP_724459	P92177	C6TP70	NP_732310|NP_732311|NP_732312|NP_732309	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2478510	36810	36810	62529	62529	Dmel_CG7765	Dmel_CG7765	Khc	Khc	CG7765|DK|DKH|DmK|DmKHC|DmelCG7765|Dmkin|KIF 5A|KIF5B|KIN|Kin-1|Kinesin-1|kinesin|l(2)W12|l(2)k13219|l(2)k13314|l(2R)W12|pgs	CG7765|DK|DKH|DmK|DmKHC|DmelCG7765|Dmkin|KIF 5A|KIF5B|KIN|Kin-1|Kinesin-1|kinesin|l(2)W12|l(2)k13219|l(2)k13314|l(2R)W12|pgs	FRET	physical	Hackney DD (2009)	PUBMED:19320433	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P17210	-	NP_476590	P17210	-	NP_476590	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2479887	35653	33196	61534	59452	Dmel_CG1708	Dmel_CG11561	cos	smo	CG1708|COS2|COS[2]|Cos-2|DmCos2|DmelCG1708|KIF26A/B|Kif7|l(2)161/28|l(2)cos[[2]]|l(2)k16101|l(2)k16128	CG11561|DmelCG11561|dSmo	FRET	physical	Maier D (2014)	PUBMED:25009998	7227	7227	Low Throughput	-	-	-	-	FLYBASE	O16844	-	NP_001260765|NP_477092	P91682	-	NP_523443	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2480689	42249	39332	67255	64693	Dmel_CG12345	Dmel_CG7293	Cha	Klp68D	CG12345|CHAT|CLAT_DROME|CT23399|Cat|DChAT|DmelCG12345|l(3)91Cc	CG7293|DmKlp68D|DmelCG7293|KIF 3B|KIF3B|KLP-5|KLP5|KLP68Ddm|KLP[[64D/68D]]	FRET	physical	Dey S (2018)	PUBMED:29795337	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P07668	-	NP_477004|NP_996239	P46867	M9PF68	NP_524029|NP_001261726	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2481589	40232	40232	65494	65494	Dmel_CG12306	Dmel_CG12306	polo	polo	0256/04|1324/08|CG12306|DmelCG12306|PLK1|POLO/PLK1|Polo kinase|anon-WO0172774.3|l(3)01673|l(3)77Aa|l(3)S025604|l(3)S132408	0256/04|1324/08|CG12306|DmelCG12306|PLK1|POLO/PLK1|Polo kinase|anon-WO0172774.3|l(3)01673|l(3)77Aa|l(3)S025604|l(3)S132408	FRET	physical	Kachaner D (2017)	PUBMED:29167465	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P52304	-	NP_524179|NP_001014592	P52304	-	NP_524179|NP_001014592	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2482030	43767	43767	68605	68605	Dmel_CG2125	Dmel_CG2125	ci	ci	CG2125|CID|Ce|Ci/GLI|Ci155|Ci[D]|DmelCG2125|Gli|Siah|ci-D|l(4)102ABc|l(4)13|l(4)17	CG2125|CID|Ce|Ci/GLI|Ci155|Ci[D]|DmelCG2125|Gli|Siah|ci-D|l(4)102ABc|l(4)13|l(4)17	FRET	physical	Zhang Q (2009)	PUBMED:19955409	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P19538	H9XVL6|H5V858|H9XVL7	NP_524617|NP_001245402|NP_001245401	P19538	H9XVL6|H5V858|H9XVL7	NP_524617|NP_001245402|NP_001245401	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2490268	79155	7251	122573	113102	RP3-474M20.1	-	TNIP2	TSG101	ABIN2|FLIP1|KLIP	TSG10|VPS23	FRET	physical	Banks CA (2016)	PUBMED:27609421	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q8NFZ5	D6RGJ2	NP_077285|NP_001154999|NP_001278945	Q99816	-	NP_006283	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2492285	81858	10096	123608	115403	PSEC0216	-	SHARPIN	ACTR3	SIPL1	ARP3	FRET	physical	Khan MH (2017)	PUBMED:28775156	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9H0F6	Q6PJD5	NP_112236	P61158	A0A024RAI1|B4DXW1	NP_001264069|NP_005712	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2494151	6924	2074	112786	108386	MSTP059	-	TCEB3	ERCC6	EloA|SIII|SIII p110|TCEB3A	ARMD5|CKN2|COFS|COFS1|CSB|RAD26|UVSS1	FRET	physical	Weems JC (2017)	PUBMED:28292928	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14241	-	NP_003189	Q03468	Q59FF6	NP_001333369|NP_000115	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2494152	8065	2074	113743	108386	-	-	CUL5	ERCC6	VACM-1|VACM1	ARMD5|CKN2|COFS|COFS1|CSB|RAD26|UVSS1	FRET	physical	Weems JC (2017)	PUBMED:28292928	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q93034	-	NP_003469	Q03468	Q59FF6	NP_001333369|NP_000115	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2494153	6924	8065	112786	113743	MSTP059	-	TCEB3	CUL5	EloA|SIII|SIII p110|TCEB3A	VACM-1|VACM1	FRET	physical	Weems JC (2017)	PUBMED:28292928	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14241	-	NP_003189	Q93034	-	NP_003469	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2497023	2260	2260	108551	108551	-	-	FGFR1	FGFR1	BFGFR|CD331|CEK|FGFBR|FGFR-1|FLG|FLT-2|FLT2|HBGFR|HH2|HRTFDS|KAL2|N-SAM|OGD|bFGF-R-1	BFGFR|CD331|CEK|FGFBR|FGFR-1|FLG|FLT-2|FLT2|HBGFR|HH2|HRTFDS|KAL2|N-SAM|OGD|bFGF-R-1	FRET	physical	Comps-Agrar L (2015)	PUBMED:26272615	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P11362	-	NP_075598|NP_075593|NP_075594|NP_001167538|NP_056934|NP_001167536|NP_001167537|NP_001167534|NP_001167535	P11362	-	NP_075598|NP_075593|NP_075594|NP_001167538|NP_056934|NP_001167536|NP_001167537|NP_001167534|NP_001167535	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2497024	2260	152831	108551	127468	-	-	FGFR1	KLB	BFGFR|CD331|CEK|FGFBR|FGFR-1|FLG|FLT-2|FLT2|HBGFR|HH2|HRTFDS|KAL2|N-SAM|OGD|bFGF-R-1	BKL	FRET	physical	Comps-Agrar L (2015)	PUBMED:26272615	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P11362	-	NP_075598|NP_075593|NP_075594|NP_001167538|NP_056934|NP_001167536|NP_001167537|NP_001167534|NP_001167535	Q86Z14	B4DYH5	NP_783864	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2498469	10524	29128	115779	118893	-	-	KAT5	UHRF1	ESA1|HTATIP|HTATIP1|PLIP|TIP|TIP60|ZC2HC5|cPLA2	ICBP90|Np95|RNF106|hNP95|hUHRF1|huNp95	FRET	physical	Ashraf W (2017)	PUBMED:29268763	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q92993	A0A024R597|A0A024R5E8	NP_006379|NP_001193762|NP_874368|NP_874369	Q96T88	A0A087WVR3	NP_001276980|NP_001276981|NP_001041666|NP_001276979|NP_037414	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2512319	10397	335	115669	106832	-	-	NDRG1	APOA1	CAP43|CMT4D|DRG-1|DRG1|GC4|HMSNL|NDR1|NMSL|PROXY1|RIT42|RTP|TARG1|TDD5	-	FRET	physical	Hunter M (2005)	PUBMED:15922294	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q92597	Q8N959	NP_001128714|NP_001361774|NP_001361775|NP_001361776|NP_001245362|NP_001245361|NP_001361773|NP_006087	P02647	A0A024R3E3	NP_000030	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2512320	10397	336	115669	106833	-	-	NDRG1	APOA2	CAP43|CMT4D|DRG-1|DRG1|GC4|HMSNL|NDR1|NMSL|PROXY1|RIT42|RTP|TARG1|TDD5	Apo-AII|ApoA-II|apoAII	FRET	physical	Hunter M (2005)	PUBMED:15922294	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q92597	Q8N959	NP_001128714|NP_001361774|NP_001361775|NP_001361776|NP_001245362|NP_001245361|NP_001361773|NP_006087	P02652	-	NP_001634	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2515183	861	3091	107309	109338	-	-	RUNX1	HIF1A	AML1|AML1-EVI-1|AMLCR1|CBFA2|EVI-1|PEBP2aB	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	FRET	physical	Peng ZG (2008)	PUBMED:17684492	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q01196	-	NP_001745|NP_001116079|NP_001001890	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2515340	3476	4281	109698	110427	RP13-46G5.1	RP11-120D5.1	IGBP1	MID1	ALPHA-4|IBP1	BBBG1|FXY|GBBB1|MIDIN|OGS1|OS|OSX|RNF59|TRIM18|XPRF|ZNFXY	FRET	physical	Monteiro O (2018)	PUBMED:29499308	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P78318	-	NP_001357121|NP_001357122|NP_001357123|NP_001542	O15344	A0A087X255|A0A024RBV4|A0A087X0X0	NP_001180209|NP_001180208|NP_150631|NP_150632|NP_001180210|NP_001180207|NP_001180206|NP_000372|NP_001092094|NP_001334662	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2515600	3091	405	109338	106898	-	-	HIF1A	ARNT	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Miranda E (2013)	PUBMED:23796364	9606	9606	Low Throughput	-	-	Proximity Ligation Assay	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2515907	10419	11072	115688	116255	-	-	PRMT5	DUSP14	HRMT1L5|IBP72|JBP1|SKB1|SKB1Hs	MKP-L|MKP6	FRET	physical	Yang CY (2018)	PUBMED:29920217	9606	9606	Low Throughput	-	-	Alpha technology|Source of PRMT5 not clear	-	BIOGRID	O14744	B4DV00	NP_001034708|NP_001269883|NP_001269882|NP_001269885|NP_001269884|NP_006100	O95147	Q6FI36	NP_008957	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2516013	2118	3091	108419	109338	-	-	ETV4	HIF1A	E1A-F|E1AF|PEA3|PEAS3	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	FRET	physical	Wollenick K (2012)	PUBMED:22075993	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P43268	-	NP_001977|NP_001248368|NP_001248367|NP_001073143|NP_001248366	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2516014	2118	2034	108419	108348	-	-	ETV4	EPAS1	E1A-F|E1AF|PEA3|PEAS3	ECYT4|HIF2A|HLF|MOP2|PASD2|bHLHe73	FRET	physical	Wollenick K (2012)	PUBMED:22075993	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P43268	-	NP_001977|NP_001248368|NP_001248367|NP_001073143|NP_001248366	Q99814	B3KW07	NP_001421	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2516500	4780	9817	110852	115156	-	-	NFE2L2	KEAP1	NRF2	INrf2|KLHL19	FRET	physical	Zhou B (2018)	PUBMED:30473361	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q16236	-	NP_006155|NP_001138884|NP_001138885|NP_001300829|NP_001300830|NP_001300831	Q14145	A0A024R7C0	NP_036421|NP_987096	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2521132	8318	84296	113915	124023	UNQ374/PRO710	-	CDC45	GINS4	CDC45L|CDC45L2|PORC-PI-1	SLD5	FRET	physical	Park SY (2012)	PUBMED:22374673	9606	9606	Low Throughput	-	-	Bimolecular fluorescence complementation (BiFC) assay	-	BIOGRID	O75419	-	NP_001356220|NP_003495|NP_001171481|NP_001171482	Q9BRT9	-	NP_115712	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2521133	8318	4171	113915	110339	UNQ374/PRO710	-	CDC45	MCM2	CDC45L|CDC45L2|PORC-PI-1	BM28|CCNL1|CDCL1|D3S3194|MITOTIN|cdc19	FRET	physical	Park SY (2012)	PUBMED:22374673	9606	9606	Low Throughput	-	-	Bimolecular fluorescence complementation (BiFC) assay	-	BIOGRID	O75419	-	NP_001356220|NP_003495|NP_001171481|NP_001171482	P49736	-	NP_004517	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2521134	4171	84296	110339	124023	-	-	MCM2	GINS4	BM28|CCNL1|CDCL1|D3S3194|MITOTIN|cdc19	SLD5	FRET	physical	Park SY (2012)	PUBMED:22374673	9606	9606	Low Throughput	-	-	Bimolecular fluorescence complementation (BiFC) assay	-	BIOGRID	P49736	-	NP_004517	Q9BRT9	-	NP_115712	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2521159	2247	1464	108538	107846	-	-	FGF2	CSPG4	BFGF|FGF-2|FGFB|HBGF-2	HMW-MAA|MCSP|MCSPG|MEL-CSPG|MSK16|NG2	FRET	physical	Cattaruzza S (2013)	PUBMED:23124902	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P09038	-	NP_001997	Q6UVK1	-	NP_001888	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2521160	2261	1464	108552	107846	-	-	FGFR3	CSPG4	ACH|CD333|CEK2|HSFGFR3EX|JTK4	HMW-MAA|MCSP|MCSPG|MEL-CSPG|MSK16|NG2	FRET	physical	Cattaruzza S (2013)	PUBMED:23124902	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P22607	Q0IJ44|X5D2G8	NP_000133|NP_075254|NP_001156685	Q6UVK1	-	NP_001888	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2521180	3091	54583	109338	120060	-	PNAS-118	HIF1A	EGLN1	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	C1orf12|ECYT3|HIF-PH2|HIFPH2|HPH-2|HPH2|PHD2|SM20|ZMYND6	FRET	physical	Pientka FK (2012)	PUBMED:22946054	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	Q9GZT9	R4SCQ0	NP_001364189|NP_071334|NP_001364190	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2521265	18014	6929	201735	112791	-	-	Neurog1	TCF3	AKA|Math4C|Neurod3|bHLHa6|ngn1	E2A|E47|ITF1|TCF-3|VDIR|bHLHb21	FRET	physical	Wang C (2006)	PUBMED:16775630	10090	9606	Low Throughput	-	-	-	-	BIOGRID	P70660	-	NP_035026	P15923	Q2TB39|X6REB3	NP_001129611|NP_003191	-	-	-	-	-	-	Mus musculus	Homo sapiens
+2521266	11924	6929	198240	112791	-	-	Neurog2	TCF3	Atoh4|Math4A|bHLHa8|ngn-2|ngn2	E2A|E47|ITF1|TCF-3|VDIR|bHLHb21	FRET	physical	Wang C (2006)	PUBMED:16775630	10090	9606	Low Throughput	-	-	-	-	BIOGRID	P70447	Q6GTH9	NP_033848	P15923	Q2TB39|X6REB3	NP_001129611|NP_003191	-	-	-	-	-	-	Mus musculus	Homo sapiens
+2521267	17172	6929	201314	112791	-	-	Ascl1	TCF3	AI225900|ASH1|Mash1|bHLHa46	E2A|E47|ITF1|TCF-3|VDIR|bHLHb21	FRET	physical	Wang C (2006)	PUBMED:16775630	10090	9606	Low Throughput	-	-	-	-	BIOGRID	Q02067	-	NP_032579	P15923	Q2TB39|X6REB3	NP_001129611|NP_003191	-	-	-	-	-	-	Mus musculus	Homo sapiens
+2521268	18012	6929	201733	112791	RP23-387G11.1	-	Neurod1	TCF3	BETA2|BHF-1|Neurod|bHLHa3	E2A|E47|ITF1|TCF-3|VDIR|bHLHb21	FRET	physical	Wang C (2006)	PUBMED:16775630	10090	9606	Low Throughput	-	-	-	-	BIOGRID	Q60867	-	NP_035024	P15923	Q2TB39|X6REB3	NP_001129611|NP_003191	-	-	-	-	-	-	Mus musculus	Homo sapiens
+2521491	64127	51510	122077	119579	-	CGI-34	NOD2	CHMP5	ACUG|BLAU|CARD15|CD|CLR16.3|IBD1|NLRC2|NOD2B|PSORAS1	C9orf83|HSPC177|PNAS-2|SNF7DC2|Vps60	FRET	physical	Thiebaut R (2016)	PUBMED:27812135	9606	9606	Low Throughput	-	-	assayed using bioluminescent resonance energy transfer (BRET)	-	BIOGRID	Q9HC29	-	NP_001280486|NP_071445	Q9NZZ3	-	NP_001182465|NP_057494	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2521492	64127	54882	122077	120230	-	PP2500	NOD2	ANKHD1	ACUG|BLAU|CARD15|CD|CLR16.3|IBD1|NLRC2|NOD2B|PSORAS1	MASK|VBARP	FRET	physical	Thiebaut R (2016)	PUBMED:27812135	9606	9606	Low Throughput	-	-	assayed using bioluminescent resonance energy transfer (BRET)	-	BIOGRID	Q9HC29	-	NP_001280486|NP_071445	Q8IWZ3	-	NP_001183959|NP_060217|NP_060448|NP_078944	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2521493	64127	23641	122077	117169	-	-	NOD2	LDOC1	ACUG|BLAU|CARD15|CD|CLR16.3|IBD1|NLRC2|NOD2B|PSORAS1	BCUR1|Mar7|Mart7	FRET	physical	Thiebaut R (2016)	PUBMED:27812135	9606	9606	Low Throughput	-	-	assayed using bioluminescent resonance energy transfer (BRET)	-	BIOGRID	Q9HC29	-	NP_001280486|NP_071445	O95751	-	NP_036449	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2521494	64127	10807	122077	116021	-	RP11-413M3.3	NOD2	SDCCAG3	ACUG|BLAU|CARD15|CD|CLR16.3|IBD1|NLRC2|NOD2B|PSORAS1	NY-CO-3	FRET	physical	Thiebaut R (2016)	PUBMED:27812135	9606	9606	Low Throughput	-	-	assayed using bioluminescent resonance energy transfer (BRET)	-	BIOGRID	Q9HC29	-	NP_001280486|NP_071445	Q96C92	-	NP_006634|NP_001034797|NP_001034796	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2521495	64127	54776	122077	120144	-	-	NOD2	PPP1R12C	ACUG|BLAU|CARD15|CD|CLR16.3|IBD1|NLRC2|NOD2B|PSORAS1	LENG3|MBS85|p84|p85	FRET	physical	Thiebaut R (2016)	PUBMED:27812135	9606	9606	Low Throughput	-	-	assayed using bioluminescent resonance energy transfer (BRET)	-	BIOGRID	Q9HC29	-	NP_001280486|NP_071445	Q9BZL4	-	NP_060077|NP_001258547	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2521496	64127	28227	122077	118179	-	LL0YNC03-56G10.1	NOD2	PPP2R3B	ACUG|BLAU|CARD15|CD|CLR16.3|IBD1|NLRC2|NOD2B|PSORAS1	NYREN8|PPP2R3L|PPP2R3LY|PR48	FRET	physical	Thiebaut R (2016)	PUBMED:27812135	9606	9606	Low Throughput	-	-	assayed using bioluminescent resonance energy transfer (BRET)	-	BIOGRID	Q9HC29	-	NP_001280486|NP_071445	Q9Y5P8	-	NP_037371	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2521497	64127	85440	122077	124527	-	RP4-740B20.2	NOD2	DOCK7	ACUG|BLAU|CARD15|CD|CLR16.3|IBD1|NLRC2|NOD2B|PSORAS1	EIEE23|ZIR2	FRET	physical	Thiebaut R (2016)	PUBMED:27812135	9606	9606	Low Throughput	-	-	assayed using bioluminescent resonance energy transfer (BRET)	-	BIOGRID	Q9HC29	-	NP_001280486|NP_071445	Q96N67	-	NP_001354490|NP_001258928|NP_001258929|NP_001317543|NP_212132|NP_001258931|NP_001258930	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2521498	8767	64127	114300	122077	WUGSC:H_RG437L15.1	-	RIPK2	NOD2	CARD3|CARDIAK|CCK|GIG30|RICK|RIP2	ACUG|BLAU|CARD15|CD|CLR16.3|IBD1|NLRC2|NOD2B|PSORAS1	FRET	physical	Thiebaut R (2016)	PUBMED:27812135	9606	9606	Low Throughput	-	-	assayed using bioluminescent resonance energy transfer (BRET)	-	BIOGRID	O43353	-	NP_003812|NP_001362289	Q9HC29	-	NP_001280486|NP_071445	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2521499	90933	64127	124780	122077	-	-	TRIM41	NOD2	RINCK	ACUG|BLAU|CARD15|CD|CLR16.3|IBD1|NLRC2|NOD2B|PSORAS1	FRET	physical	Thiebaut R (2016)	PUBMED:27812135	9606	9606	Low Throughput	-	-	assayed using bioluminescent resonance energy transfer (BRET)	-	BIOGRID	Q8WV44	-	NP_291027|NP_963921	Q9HC29	-	NP_001280486|NP_071445	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2521500	256815	64127	129180	122077	RP11-792P23.2	-	C10orf67	NOD2	-	ACUG|BLAU|CARD15|CD|CLR16.3|IBD1|NLRC2|NOD2B|PSORAS1	FRET	physical	Thiebaut R (2016)	PUBMED:27812135	9606	9606	Low Throughput	-	-	assayed using bioluminescent resonance energy transfer (BRET)	-	BIOGRID	Q8IYJ2	-	NP_714925	Q9HC29	-	NP_001280486|NP_071445	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2521514	853268	851752	33589	32225	YJL171C	YDR172W	YJL171C	SUP35	-	GST1|PNM2|SAL3|SUF12|SUP2|SUP36|translation termination factor GTPase eRF3|eRF3|[PSI(+)]|[PSI]|L000002200	FRET	physical	Sergeeva AV (2018)	PUBMED:30558459	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P46992	-	NP_012364	P05453	-	NP_010457	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2521515	853268	850329	33589	30955	YJL171C	YCL028W	YJL171C	RNQ1	-	prion domain-containing protein RNQ1|[PIN(+)]|S000007471	FRET	physical	Sergeeva AV (2018)	PUBMED:30558459	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P46992	-	NP_012364	P25367	-	NP_009902	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2524608	29775	79188	118908	122601	RP5-889J22__B.2	UNQ2564/PRO6244	CARD10	TMEM43	BIMP1|CARMA3	ARVC5|ARVD5|EDMD7|LUMA	FRET	physical	Jiang C (2017)	PUBMED:27991920	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	Q9BWT7	-	NP_055365	Q9BTV4	A0A024R2F9	NP_077310	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2524698	4763	3362	110836	109594	-	-	NF1	HTR6	NFNS|VRNF|WSS	5-HT6|5-HT6R	FRET	physical	Deraredj Nadim W (2016)	PUBMED:27791021	9606	9606	Low Throughput	-	-	BRET assay	-	BIOGRID	P21359	-	NP_001121619|NP_000258|NP_001035957	P50406	-	NP_000862	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2524724	2034	405	108348	106898	-	-	EPAS1	ARNT	ECYT4|HIF2A|HLF|MOP2|PASD2|bHLHe73	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Konietzny R (2009)	PUBMED:19845609	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q99814	B3KW07	NP_001421	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2524725	3091	405	109338	106898	-	-	HIF1A	ARNT	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Konietzny R (2009)	PUBMED:19845609	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2524920	9039	8883	114503	114402	-	HPP1	UBA3	NAE1	NAE2|UBE1C|hUBA3	A-116A10.1|APPBP1|ula-1	FRET	physical	Malik-Chaudhry HK (2018)	PUBMED:29973603	9606	9606	Low Throughput	-	-	Sources of UBA3 and NAE1 not clear	-	BIOGRID	Q8TBC4	-	NP_937838|NP_003959|NP_001350790	Q13564	-	NP_001273429|NP_003896|NP_001018169|NP_001018170	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2525784	1956	3598	108276	109812	-	-	EGFR	IL13RA2	ERBB|ERBB1|HER1|NISBD2|PIG61|mENA	CD213A2|CT19|IL-13R|IL13BP	FRET	physical	Newman JP (2017)	PUBMED:29203859	9606	9606	Low Throughput	-	-	PLA assay	-	BIOGRID	P00533	-	NP_001333829|NP_001333828|NP_958440|NP_005219|NP_001333827|NP_001333826|NP_958441|NP_001333870|NP_958439	Q14627	-	NP_000631	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2526424	4089	51741	110264	119707	-	-	SMAD4	WWOX	DPC4|JIP|MADH4|MYHRS	D16S432E|FOR|FRA16D|HHCMA56|PRO0128|SCAR12|SDR41C1|WOX1	FRET	physical	Hsu LJ (2017)	PUBMED:27845895	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13485	A0A024R274	NP_005350	Q9NZC7	-	NP_057457|NP_570859|NP_001278926|NP_570607	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2526643	558	1956	107036	108276	-	-	AXL	EGFR	ARK|JTK11|Tyro7|UFO	ERBB|ERBB1|HER1|NISBD2|PIG61|mENA	FRET	physical	Vouri M (2016)	PUBMED:27775700	9606	9606	Low Throughput	-	-	BiFC assay	-	BIOGRID	P30530	M0R0W6	NP_068713|NP_001690|NP_001265528	P00533	-	NP_001333829|NP_001333828|NP_958440|NP_005219|NP_001333827|NP_001333826|NP_958441|NP_001333870|NP_958439	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2526646	2066	4915	108378	110970	-	RP11-263K15.1	ERBB4	NTRK2	ALS19|HER4|p180erbB4	GP145-TrkB|TRKB|trk-B	FRET	physical	Pandya CD (2014)	PUBMED:25052836	9606	9606	Low Throughput	-	-	PLA assay	-	BIOGRID	Q15303	-	NP_005226|NP_001036064	Q16620	Q548C2|Q5VWE5|A0A024R230	NP_001356465|NP_001018076|NP_001018074|NP_001018075|NP_001356462|NP_001356463|NP_001356461|NP_001356464|NP_006171|NP_001007098|NP_001278866	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2526750	855836	2908	35923	109165	YPL240C	-	HSP82	NR3C1	HSP90|Hsp90 family chaperone HSP82|L000000822	GCCR|GCR|GCRST|GR|GRL	FRET	physical	Rutz DA (2018)	PUBMED:29662162	559292	9606	Low Throughput	-	-	-	-	BIOGRID	P02829	-	NP_015084	P04150	E5KQF6|E5KQF5|F1D8N4	NP_001018087|NP_001018086|NP_001018085|NP_001018084|NP_001191187|NP_001351109|NP_001191191|NP_001191188|NP_001191189|NP_001351114|NP_001019265|NP_001191193|NP_001351112|NP_001351113|NP_001191194|NP_001351111|NP_001351110|NP_000167|NP_001191190|NP_001018661|NP_001191192	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Homo sapiens
+2527991	3640931	3643927	1224025	1227021	CR_04470W_A	C2_10210C_A	GPI2	RAS1	IPF4293.2|orf6.6750|CaO19.538|CaO6.6750|orf19.538|CAWG_01782|IPF26801.1|IPF4293|CR_04470W_B|CR_04470W|orf19.8171|Contig4-2736_0013|CA4249|CaO19.8171	CA2261|CaO6.4089|IPF6849.2|C2_10210C|orf19.1760|orf19.9329|Contig4-1964_0005|CAWG_06092|CaO19.1760|orf6.4089|CaO19.9329|C2_10210C_B|IPF25567.1	FRET	physical	Jain P (2018)	PUBMED:29907567	237561	237561	Low Throughput	-	-	C. albicans strain BWP17	-	BIOGRID	-	Q5A6L6		Q59XU5	-		-	-	-	-	-	-	Candida albicans (SC5314)	Candida albicans (SC5314)
+2532442	5294	146850	111312	127016	-	-	PIK3CG	PIK3R6	PI3CG|PI3K|PI3Kgamma|PIK3|p110gamma|p120-PI3K	C17orf38|HsT41028|p84 PIKAP|p87(PIKAP)|p87PIKAP	FRET	physical	Voigt P (2006)	PUBMED:16476736	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P48736	A0A024R720|A8K9G9	NP_002640|NP_001269355|NP_001269356	Q5UE93	B3KRK9	NP_001277140|NP_001010855	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2532443	5294	23533	111312	117079	-	-	PIK3CG	PIK3R5	PI3CG|PI3K|PI3Kgamma|PIK3|p110gamma|p120-PI3K	F730038I15Rik|FOAP-2|P101-PI3K|p101	FRET	physical	Voigt P (2006)	PUBMED:16476736	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P48736	A0A024R720|A8K9G9	NP_002640|NP_001269355|NP_001269356	Q8WYR1	J3KSW1|L7RT34	NP_001238784|NP_001238780|NP_001238781|NP_001238782|NP_055123|NP_001136105	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2532488	405	2034	106898	108348	-	-	ARNT	EPAS1	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	ECYT4|HIF2A|HLF|MOP2|PASD2|bHLHe73	FRET	physical	Kim SH (2015)	PUBMED:26160453	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	Q99814	B3KW07	NP_001421	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2532491	405	64344	106898	122143	-	-	ARNT	HIF3A	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	HIF-3A|IPAS|MOP7|PASD7|bHLHe17	FRET	physical	Kim SH (2015)	PUBMED:26160453	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	Q9Y2N7	B2RBI6|H0YDZ5	NP_690007|NP_071907|NP_690009|NP_690008	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2532604	10657	3667	115900	109874	-	-	KHDRBS1	IRS1	Sam68|p62|p68	HIRS-1	FRET	physical	Quintana-Portillo R (2012)	PUBMED:22005517	9606	9606	Low Throughput	-	-	BRET experiment	-	BIOGRID	Q07666	-	NP_006550|NP_001258807	P35568	A0A024R499	NP_005535	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2532846	1793	160622	108128	127762	RP11-82L9.1	-	DOCK1	GRASP	DOCK180|ced5	TAMALIN	FRET	physical	Attar MA (2013)	PUBMED:23441967	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14185	B2RUU3	NP_001277152|NP_001364490|NP_001364485|NP_001364472|NP_001364473|NP_001364489|NP_001364475|NP_001364476|NP_001364477|NP_001371|NP_001364479|NP_001364487|NP_001364483|NP_001364482	Q7Z6J2	-	NP_859062|NP_001258785	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2533319	17295	16412	201403	200826	-	-	Met	Itgb1	AI838057|HGF|HGFR|Par4|c-Met	4633401G24Rik|AA409975|AA960159|CD29|ENSMUSG00000051907|Fnrb|Gm9863|gpIIa	FRET	physical	Jahangiri A (2017)	PUBMED:28973887	10090	10090	Low Throughput	-	-	PLA assay	-	BIOGRID	-	F8VQL0|A4FUV6	NP_032617	P09055	-	NP_034708	-	-	-	-	-	-	Mus musculus	Mus musculus
+2536301	5663	4851	111642	110913	-	-	PSEN1	NOTCH1	AD3|FAD|PS-1|PS1|S182	AOS5|AOVD1|TAN1|hN1	FRET	physical	Wang BJ (2017)	PUBMED:28351972	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P49768	A0A024R6A3	NP_000012|NP_015557	P46531	-	NP_060087	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2536302	5663	351	111642	106848	-	-	PSEN1	APP	AD3|FAD|PS-1|PS1|S182	AAA|ABETA|ABPP|AD1|APPI|CTFgamma|CVAP|PN-II|PN2	FRET	physical	Wang BJ (2017)	PUBMED:28351972	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P49768	A0A024R6A3	NP_000012|NP_015557	P05067	B4DGD0|E9PG40|B4DJT9	NP_958817|NP_958816|NP_001191230|NP_001191231|NP_001191232|NP_000475|NP_001372182|NP_001129488|NP_001129603|NP_001129601|NP_001129602	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2536303	5663	23385	111642	116961	-	RP11-517F10.1	PSEN1	NCSTN	AD3|FAD|PS-1|PS1|S182	ATAG1874	FRET	physical	Wang BJ (2017)	PUBMED:28351972	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P49768	A0A024R6A3	NP_000012|NP_015557	Q92542	B4DR82	NP_001277115|NP_056146|NP_001277113	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2536355	3560	3561	109775	109776	RP5-1170K4.6	-	IL2RB	IL2RG	CD122|IL15RB|P70-75	CD132|CIDX|IL-2RG|IMD4|P64|SCIDX|SCIDX1	FRET	physical	Pillet AH (2010)	PUBMED:20816854	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P14784	-	NP_000869	P31785	-	NP_000197	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2536710	2740	5869	109002	111807	-	-	GLP1R	RAB5B	-	-	FRET	physical	Zhang M (2014)	PUBMED:25044020	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P43220	-	NP_002053	P61020	A0A024RB09	NP_002859|NP_001238965|NP_001238966	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2536711	2740	5878	109002	111816	-	-	GLP1R	RAB5C	-	L1880|RAB5CL|RAB5L|RABL	FRET	physical	Zhang M (2014)	PUBMED:25044020	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P43220	-	NP_002053	P51148	A0A024R1U4	NP_001238968|NP_004574|NP_958842	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2536712	2740	10857	109002	116068	-	-	GLP1R	PGRMC1	-	HPR6.6|MPR	FRET	physical	Zhang M (2014)	PUBMED:25044020	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P43220	-	NP_002053	O00264	Q6IB11	NP_006658|NP_001269550	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2536713	2740	857	109002	107305	-	-	GLP1R	CAV1	-	BSCL3|CGL3|LCCNS|MSTP085|PPH3|VIP21	FRET	physical	Zhang M (2014)	PUBMED:25044020	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P43220	-	NP_002053	Q03135	A0A024R757|Q2TNI1|Q59E85|Q7Z4F3|A9XTE5	NP_001744|NP_001166368|NP_001166366|NP_001166367	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2537501	3643	2888	109854	109145	-	-	INSR	GRB14	CD220|HHF5	-	FRET	physical	Nouaille S (2006)	PUBMED:16934761	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P06213	-	NP_000199|NP_001073285	Q14449	-	NP_004481	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2537521	10273	3308	115563	109540	LA16c-313D11.6	-	STUB1	HSPA4	CHIP|HSPABP2|NY-CO-7|SCAR16|SDCCAG7|UBOX1	APG-2|HEL-S-5a|HS24/P52|HSPH2|RY|hsp70|hsp70RY	Biochemical Activity	physical	Kanack AJ (2018)	PUBMED:29317501	9606	9606	Low Throughput	-	Phosphorylation	standard and TR-FRET (time resolved fluorescence resonance entry transfer) in vitro ubiquitination reactions with UBE1 as E1, UbcH5C as E2, CHIP as E3 and HSP70 as substrate	-	BIOGRID	Q9UNE7	-	NP_005852|NP_001280126	P34932	-	NP_002145	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2540079	94275	11798	220497	198149	RP23-272D10.5	RP23-207E14.3	Maged1	Xiap	2810433C11Rik|5430405L04Rik|DXBwg1492e|Dlixin|Dlxin-1|Dlxin1|MAGE-D1|NRAGE|mFLJ00163	1110015C02Rik|Aipa|Api3|Birc4|IAP3|ILP-1|MIHA	FRET	physical	Rochira JA (2011)	PUBMED:21789165	10090	10090	Low Throughput	-	-	-	-	BIOGRID	Q9QYH6	-	NP_062765	Q60989	-	NP_001288570|NP_001288568|NP_033818	-	-	-	-	-	-	Mus musculus	Mus musculus
+2540189	51109	9403	119298	114800	CGI-82	-	RDH11	SEP15	ARSDR1|CGI82|HCBP12|MDT1|PSDR1|RALR1|RDJCSS|SCALD|SDR7C1	-	FRET	physical	Tian J (2018)	PUBMED:29410696	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q8TC12	-	NP_001239579|NP_057110	O60613	-	NP_976086|NP_004252	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2540195	11078	3757	116261	109959	HRIHFB2122	-	TRIOBP	KCNH2	DFNB28|TAP68|TARA|dJ37E16.4	ERG-1|ERG1|H-ERG|HERG|HERG1|Kv11.1|LQT2|SQT1	FRET	physical	Jones DK (2018)	PUBMED:29507111	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9H2D6	-	NP_008963|NP_619538|NP_001034230	Q12809	Q15BH2	NP_742054|NP_000229|NP_001191727|NP_742053	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2540196	3757	11078	109959	116261	-	HRIHFB2122	KCNH2	TRIOBP	ERG-1|ERG1|H-ERG|HERG|HERG1|Kv11.1|LQT2|SQT1	DFNB28|TAP68|TARA|dJ37E16.4	FRET	physical	Jones DK (2018)	PUBMED:29507111	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q12809	Q15BH2	NP_742054|NP_000229|NP_001191727|NP_742053	Q9H2D6	-	NP_008963|NP_619538|NP_001034230	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2540197	3757	3757	109959	109959	-	-	KCNH2	KCNH2	ERG-1|ERG1|H-ERG|HERG|HERG1|Kv11.1|LQT2|SQT1	ERG-1|ERG1|H-ERG|HERG|HERG1|Kv11.1|LQT2|SQT1	FRET	physical	Jones DK (2018)	PUBMED:29507111	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q12809	Q15BH2	NP_742054|NP_000229|NP_001191727|NP_742053	Q12809	Q15BH2	NP_742054|NP_000229|NP_001191727|NP_742053	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2540516	4998	5925	111040	111860	-	RP11-174I10.1	ORC1	RB1	HSORC1|ORC1L|PARC1	OSRC|PPP1R130|RB|p105-Rb|pRb|pp110	FRET	physical	Mendoza-Maldonado R (2010)	PUBMED:21085491	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13415	Q96F82|B7Z8H0	NP_001177747|NP_001177748|NP_004144	P06400	A0A024RDV3	NP_000312	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2540652	852338	852295	32751	32711	YBR049C	YBR010W	REB1	HHT1	GRF2|DNA-binding protein REB1|L000001601	BUR5|SIN2|histone H3|L000000772	FRET	physical	Donovan BT (2019)	PUBMED:30888317	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P21538	-	NP_009605	P61830	-	NP_009564	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2540653	852338	851811	32751	32277	YBR049C	YDR225W	REB1	HTA1	GRF2|DNA-binding protein REB1|L000001601	H2A1|SPT11|histone H2A|L000000827	FRET	physical	Donovan BT (2019)	PUBMED:30888317	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P21538	-	NP_009605	P04911	-	NP_010511	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2540654	853523	852295	33817	32711	YJR060W	YBR010W	CBF1	HHT1	CEP1|CPF1|CP1|L000000311|L000000401	BUR5|SIN2|histone H3|L000000772	FRET	physical	Donovan BT (2019)	PUBMED:30888317	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P17106	-	NP_012594	P61830	-	NP_009564	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2540655	853523	851811	33817	32277	YJR060W	YDR225W	CBF1	HTA1	CEP1|CPF1|CP1|L000000311|L000000401	H2A1|SPT11|histone H2A|L000000827	FRET	physical	Donovan BT (2019)	PUBMED:30888317	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P17106	-	NP_012594	P04911	-	NP_010511	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2542362	851545	856129	32038	36195	YDL017W	YPR018W	CDC7	RLF2	LSD6|SAS1|serine/threonine protein kinase CDC7|L000000247	CAC1|L000003990	FRET	physical	Young TJ (2019)	PUBMED:30728156	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P06243	-	NP_010267	Q12495	-	NP_015343	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2542506	207	644	106710	107113	-	-	AKT1	BLVRA	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	BLVR|BVR|BVRA	FRET	physical	Miralem T (2016)	PUBMED:27166089	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	P53004	-	NP_000703|NP_001240752	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2542507	208	644	106711	107113	-	-	AKT2	BLVRA	HIHGHH|PKBB|PKBBETA|PRKBB|RAC-BETA	BLVR|BVR|BVRA	FRET	physical	Miralem T (2016)	PUBMED:27166089	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P31751	B4DG79	NP_001317440|NP_001229957|NP_001617|NP_001229956	P53004	-	NP_000703|NP_001240752	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2544691	76757	76757	218297	218297	-	-	Trdn	Trdn	2310045H21Rik|EG432451|TDN	2310045H21Rik|EG432451|TDN	FRET	physical	Rossi D (2014)	PUBMED:24325401	10090	10090	Low Throughput	-	-	-	-	BIOGRID	E9Q9K5	-	NP_084002	E9Q9K5	-	NP_084002	-	-	-	-	-	-	Mus musculus	Mus musculus
+2549730	5770	3643	111736	109854	-	-	PTPN1	INSR	PTP1B	CD220|HHF5	FRET	physical	Romsicki Y (2004)	PUBMED:14722096	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P18031	A8K3M3|B4DSN5	NP_002818|NP_001265547	P06213	-	NP_000199|NP_001073285	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2550322	850767	851259	31351	31786	YLR078C	YAL005C	BOS1	SSA1	SEC32|L000000192	YG100|Hsp70 family ATPase SSA1|L000002069	FRET	physical	Cho H (2018)	PUBMED:29973361	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P25385	-	NP_013179	P10591	-	NP_009396	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2550324	850767	854168	31351	34410	YLR078C	YOR007C	BOS1	SGT2	SEC32|L000000192	L000004506	FRET	physical	Cho H (2018)	PUBMED:29973361	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P25385	-	NP_013179	Q12118	-	NP_014649	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2569998	1107	8350	107532	113946	-	-	CHD3	HIST1H3A	Mi-2a|Mi2-ALPHA|ZFH	H3/A|H3FA	Reconstituted Complex	physical	Tencer AH (2017)	PUBMED:29020631	9606	9606	Low Throughput	-	-	assayed using NMR (nuclear magnetic resonance), tryptophan fluorescence, GST pull-downs, fluorescence polarization and FRET (fluorescent resonance energy transfer)	-	BIOGRID	Q12873	B3KWV4|Q2TAZ1	NP_005843|NP_001005273|NP_001005271	P68431	-	NP_003520	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2573153	5893	6117	111830	112037	RP11-359B12.2	-	RAD52	RPA1	-	HSSB|MST075|REPA1|RF-A|RP-A|RPA70	FRET	physical	Ma CJ (2017)	PUBMED:28551686	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P43351	Q5DR82|F5H3Q1|B7Z5Q6|B7Z2G8|F5GX32	NP_001284350|NP_001284351|NP_001284349|NP_001284348|NP_602296	P27694	-	NP_002936|NP_001342049|NP_001342050	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2573154	5893	5888	111830	111825	RP11-359B12.2	-	RAD52	RAD51	-	BRCC5|HRAD51|HsRad51|HsT16930|MRMV2|RAD51A|RECA	FRET	physical	Ma CJ (2017)	PUBMED:28551686	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P43351	Q5DR82|F5H3Q1|B7Z5Q6|B7Z2G8|F5GX32	NP_001284350|NP_001284351|NP_001284349|NP_001284348|NP_602296	Q06609	-	NP_001157742|NP_002866|NP_001157741|NP_597994	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2594593	10525	23621	115780	117154	-	-	HYOU1	BACE1	GRP-170|Grp170|HSP12A|ORP-150|ORP150	ASP2|BACE|HSPC104	FRET	physical	Chanana N (2018)	PUBMED:29266373	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9Y4L1	Q6IN67|B7Z602|B7Z766|B3KXH0	NP_006380|NP_001124463	P56817	A0A024R3F9|A0A024R3D7|Q5W9H2|B7Z3Z4|B7Z3K2|A0A024R3E8|A0A024R3D5	NP_620428|NP_620429|NP_001193978|NP_036236|NP_001193977|NP_620427	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2595799	5888	57634	111825	121676	-	-	RAD51	EP400	BRCC5|HRAD51|HsRad51|HsT16930|MRMV2|RAD51A|RECA	CAGH32|P400|TNRC12	FRET	physical	Courilleau C (2012)	PUBMED:23266955	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q06609	-	NP_001157742|NP_002866|NP_001157741|NP_597994	Q96L91	-	NP_056224	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2595800	10524	57634	115779	121676	-	-	KAT5	EP400	ESA1|HTATIP|HTATIP1|PLIP|TIP|TIP60|ZC2HC5|cPLA2	CAGH32|P400|TNRC12	FRET	physical	Courilleau C (2012)	PUBMED:23266955	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q92993	A0A024R597|A0A024R5E8	NP_006379|NP_001193762|NP_874368|NP_874369	Q96L91	-	NP_056224	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2596387	192176	218952	228662	230085	RP23-436K3.1	RP23-359O5.1	Flna	Fermt2	ABP-280|Dilp2|F730004A14Rik|Fln1|GENA 379|filamin-1	AA960555|Kindlin-2|Mig2|Plekhc1	FRET	physical	Brahme NN (2013)	PUBMED:24165133	10090	10090	Low Throughput	-	-	-	-	BIOGRID	Q8BTM8	B7FAU9	NP_034357|NP_001277350	Q8CIB5	Q3TLE2	NP_666166	-	-	-	-	-	-	Mus musculus	Mus musculus
+2598346	598	572	107070	107048	RP5-857M17.3	-	BCL2L1	BAD	BCL-XL/S|BCL2L|BCLX|BCLXL|BCLXS|Bcl-X|PPP1R52|bcl-xL|bcl-xS	BBC2|BCL2L8	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q07817	Q5TE63	NP_612815|NP_001309171|NP_001309169|NP_001309168|NP_001304850|NP_001182|NP_001304849|NP_001304848	Q92934	A0A024R562	NP_004313|NP_116784	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598355	331	842	106828	107292	RP1-315G1.5	RP11-265F14.3	XIAP	CASP9	API3|BIRC4|IAP-3|ILP1|MIHA|XLP2|hIAP-3|hIAP3	APAF-3|APAF3|ICE-LAP6|MCH6|PPP1R56	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P98170	B2R9R2	NP_001365519|NP_001158|NP_001365521|NP_001365520|NP_001191330	P55211	-	NP_001264983|NP_127463|NP_001220	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598356	467	1649	106957	108016	RP11-338C15.1	-	ATF3	DDIT3	-	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598357	627	4909	107096	110964	-	-	BDNF	NTF4	ANON2|BULN2	GLC10|GLC1O|NT-4|NT-4/5|NT-5|NT4|NT5|NTF5	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P23560	-	NP_733931|NP_733930|NP_001700|NP_001137278|NP_001137284|NP_733928|NP_733929|NP_001137288|NP_001137277|NP_001137286|NP_001137281|NP_001137280|NP_001137283|NP_001137282|NP_001137285|NP_001137279|NP_733927	P34130	A0A024QZE4	NP_006170	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598358	868	2885	107316	109142	Nbla00127	-	CBLB	GRB2	Cbl-b|RNF56	ASH|EGFRBP-GRB2|Grb3-3|MST084|MSTP084|NCKAP2	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q13191	B3KSS7	NP_001308751|NP_001308740|NP_001308717|NP_001308742|NP_001308737|NP_001308720|NP_001308723|NP_001308735|NP_001308722|NP_001308728|NP_001308736|NP_001308745|NP_001308719|NP_001308718|NP_733762|NP_001308749|NP_001308715|NP_001308726|NP_001308727|NP_001308724|NP_001308725	P62993	B0LPF3	NP_002077|NP_987102	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598359	896	1021	107336	107456	RP5-973N23.3	-	CCND3	CDK6	-	MCPH12|PLSTIRE	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P30281	B3KP19|Q5T8J1	NP_001751|NP_001274356|NP_001274363|NP_001129598|NP_001129489|NP_001129597	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598360	1017	1163	107452	107582	-	RP11-307C12.6	CDK2	CKS1B	CDKN2|p33(CDK2)	CKS1|PNAS-16|PNAS-18|ckshs1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P24941	A0A024RB77|A0A024RB10|B4DDL9|E7ESI2	NP_001789|NP_439892|NP_001277159	P61024	Q5T178	NP_001817	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598361	1026	8900	107460	114417	-	-	CDKN1A	CCNA1	CAP20|CDKN1|CIP1|MDA-6|P21|SDI1|WAF1|p21CIP1	CT146	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P38936	A0A024RCX5	NP_001361441|NP_000380|NP_001361440|NP_001361442|NP_001361439|NP_001361438|NP_001278478|NP_510867|NP_001207706|NP_001207707	P78396	-	NP_001104517|NP_001104516|NP_001104515|NP_003905	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598362	1027	8900	107461	114417	-	-	CDKN1B	CCNA1	CDKN4|KIP1|MEN1B|MEN4|P27KIP1	CT146	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P46527	Q6I9V6	NP_004055	P78396	-	NP_001104517|NP_001104516|NP_001104515|NP_003905	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598363	1649	2353	108016	108636	-	-	DDIT3	FOS	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	AP-1|C-FOS|p55	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	P01100	Q6FG41	NP_005243	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598364	1810	10589	108144	115838	-	-	DR1	DRAP1	NC2|NC2-BETA	NC2-alpha	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q01658	Q658N3	NP_001929	Q14919	-	NP_006433	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598365	2237	5111	108528	111142	-	-	FEN1	PCNA	FEN-1|MF1|RAD2	ATLD2	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P39748	Q6FHX6	NP_004102	P12004	-	NP_872590|NP_002583	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598366	3040	3043	109290	109293	-	-	HBA2	HBB	HBA-T2|HBH	CD113t-C|beta-globin	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P69905	D1MGQ2	NP_000508	P68871	D9YZU5	NP_000509	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598367	3726	10538	109929	115792	-	-	JUNB	BATF	AP-1	B-ATF|BATF1|SFA-2|SFA2	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P17275	Q5U079	NP_002220	Q16520	-	NP_006390	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598368	3937	9402	110129	114799	-	RP3-370M22.1	LCP2	GRAP2	SLP-76|SLP76	GADS|GRAP-2|GRB2L|GRBLG|GRID|GRPL|GrbX|Grf40|Mona|P38	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q13094	-	NP_005556	O75791	Q6FI14|B7Z8E3	NP_001278757|NP_001278755|NP_001278754|NP_001278753|NP_004801	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598369	4000	4001	110186	110187	RP11-54H19.1	-	LMNA	LMNB1	CDCD1|CDDC|CMD1A|CMT2B1|EMD2|FPL|FPLD|FPLD2|HGPS|IDC|LDP1|LFP|LGMD1B|LMN1|LMNC|LMNL1|PRO1	ADLD|LMN|LMN2|LMNB	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P02545	Q5TCI8	NP_001244303|NP_005563|NP_733821|NP_733822|NP_001269553|NP_001269555|NP_001269554	P20700	B4DZT3	NP_001185486|NP_005564	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598370	4085	8379	110260	113971	-	-	MAD2L1	MAD1L1	HSMAD2|MAD2	MAD1|PIG9|TP53I9|TXBP181	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q13257	-	NP_002349	Q9Y6D9	-	NP_001013859|NP_001013858|NP_003541|NP_001291453|NP_001291452|NP_001291454	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598371	4686	22916	110766	116578	RP11-546O6.1	PIG55	NCBP1	NCBP2	CBP80|NCBP|Sto1	CBC2|CBP20|NIP1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q09161	A0A024R179	NP_002477|NP_001338435|NP_001338436|NP_001338433|NP_001338434	P52298	-	NP_001294965|NP_001036005|NP_031388	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598372	4771	9146	110844	114593	-	-	NF2	HGS	ACN|BANF|SCH	HRS	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	O14964	-	NP_004703	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598373	5195	5824	111218	111782	-	OK/SW-cl.22	PEX14	PEX19	NAPP2|PBD13A|Pex14p|dJ734G22.2	D1S2223E|HK33|PBD12A|PMP1|PMPI|PXF|PXMP1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	O75381	-	NP_004556	P40855	-	NP_001180573|NP_002848	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598374	5710	5886	111683	111823	RP11-126K1.1	-	PSMD4	RAD23A	AF|AF-1|ASF|MCB1|Rpn10|S5A|pUB-R5	HHR23A|HR23A	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P55036	Q5VWC4	NP_002801|NP_001317621	P54725	A8K1J3|A0A024R7G8	NP_005044|NP_001257291|NP_001257292	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598375	5824	9409	111782	114804	OK/SW-cl.22	-	PEX19	PEX16	D1S2223E|HK33|PBD12A|PMP1|PMPI|PXF|PXMP1	PBD8A|PBD8B	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P40855	-	NP_001180573|NP_002848	Q9Y5Y5	-	NP_004804|NP_476515	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598376	6271	6285	112179	112193	RP1-178F15.1	-	S100A1	S100B	S100|S100-alpha|S100A	NEF|S100|S100-B|S100beta	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P23297	-	NP_006262	P04271	-	NP_006263	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598377	8767	10392	114300	115664	WUGSC:H_RG437L15.1	-	RIPK2	NOD1	CARD3|CARDIAK|CCK|GIG30|RICK|RIP2	CARD4|CLR7.1|NLRC1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	O43353	-	NP_003812|NP_001362289	Q9Y239	G3XAL1|A0A024RA73	NP_006083	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598378	27258	57819	118105	121778	MDS017	DAAP-21F2.6	LSM3	LSM2	SMX4|USS2|YLR438C	C6orf28|G7B|YBL026W|snRNP	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P62310	-	NP_055278	Q9Y333	-	NP_067000	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598439	8115	207	113783	106710	-	-	TCL1A	AKT1	TCL1	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P56279	A0A024R6G5	NP_001092195|NP_068801	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598440	842	331	107292	106828	RP11-265F14.3	RP1-315G1.5	CASP9	XIAP	APAF-3|APAF3|ICE-LAP6|MCH6|PPP1R56	API3|BIRC4|IAP-3|ILP1|MIHA|XLP2|hIAP-3|hIAP3	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P55211	-	NP_001264983|NP_127463|NP_001220	P98170	B2R9R2	NP_001365519|NP_001158|NP_001365521|NP_001365520|NP_001191330	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598441	663	392	107131	106885	-	-	BNIP2	ARHGAP1	BNIP-2|NIP2	CDC42GAP|RHOGAP|RHOGAP1|p50rhoGAP	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q12982	J3KN59	NP_001307604|NP_004321|NP_001307603	Q07960	-	NP_004299	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598442	1649	467	108016	106957	-	RP11-338C15.1	DDIT3	ATF3	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	-	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	P18847	-	NP_001035709|NP_001193413|NP_001193417|NP_001665|NP_001193415|NP_001025458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598443	4909	627	110964	107096	-	-	NTF4	BDNF	GLC10|GLC1O|NT-4|NT-4/5|NT-5|NT4|NT5|NTF5	ANON2|BULN2	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P34130	A0A024QZE4	NP_006170	P23560	-	NP_733931|NP_733930|NP_001700|NP_001137278|NP_001137284|NP_733928|NP_733929|NP_001137288|NP_001137277|NP_001137286|NP_001137281|NP_001137280|NP_001137283|NP_001137282|NP_001137285|NP_001137279|NP_733927	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598444	1021	896	107456	107336	-	RP5-973N23.3	CDK6	CCND3	MCPH12|PLSTIRE	-	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q00534	-	NP_001138778|NP_001250	P30281	B3KP19|Q5T8J1	NP_001751|NP_001274356|NP_001274363|NP_001129598|NP_001129489|NP_001129597	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598445	1163	1017	107582	107452	RP11-307C12.6	-	CKS1B	CDK2	CKS1|PNAS-16|PNAS-18|ckshs1	CDKN2|p33(CDK2)	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P61024	Q5T178	NP_001817	P24941	A0A024RB77|A0A024RB10|B4DDL9|E7ESI2	NP_001789|NP_439892|NP_001277159	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598446	8900	1026	114417	107460	-	-	CCNA1	CDKN1A	CT146	CAP20|CDKN1|CIP1|MDA-6|P21|SDI1|WAF1|p21CIP1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P78396	-	NP_001104517|NP_001104516|NP_001104515|NP_003905	P38936	A0A024RCX5	NP_001361441|NP_000380|NP_001361440|NP_001361442|NP_001361439|NP_001361438|NP_001278478|NP_510867|NP_001207706|NP_001207707	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598447	8900	1027	114417	107461	-	-	CCNA1	CDKN1B	CT146	CDKN4|KIP1|MEN1B|MEN4|P27KIP1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P78396	-	NP_001104517|NP_001104516|NP_001104515|NP_003905	P46527	Q6I9V6	NP_004055	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598448	2353	1649	108636	108016	-	-	FOS	DDIT3	AP-1|C-FOS|p55	CEBPZ|CHOP|CHOP-10|CHOP10|GADD153	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P01100	Q6FG41	NP_005243	P35638	Q53YD1	NP_001181986|NP_001181985|NP_001181984|NP_001181983|NP_001181982|NP_004074	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598449	10589	1810	115838	108144	-	-	DRAP1	DR1	NC2-alpha	NC2|NC2-BETA	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q14919	-	NP_006433	Q01658	Q658N3	NP_001929	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598450	7409	2885	113252	109142	-	-	VAV1	GRB2	VAV	ASH|EGFRBP-GRB2|Grb3-3|MST084|MSTP084|NCKAP2	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P15498	Q96D37|B2R8B5	NP_005419|NP_001245135|NP_001245136	P62993	B0LPF3	NP_002077|NP_987102	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598451	3043	3040	109293	109290	-	-	HBB	HBA2	CD113t-C|beta-globin	HBA-T2|HBH	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P68871	D9YZU5	NP_000509	P69905	D1MGQ2	NP_000508	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598452	5925	3065	111860	109315	RP11-174I10.1	RP4-811H24.2	RB1	HDAC1	OSRC|PPP1R130|RB|p105-Rb|pRb|pp110	GON-10|HD1|RPD3|RPD3L1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P06400	A0A024RDV3	NP_000312	Q13547	Q6IT96	NP_004955	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598453	10538	3726	115792	109929	-	-	BATF	JUNB	B-ATF|BATF1|SFA-2|SFA2	AP-1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q16520	-	NP_006390	P17275	Q5U079	NP_002220	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598454	9402	3937	114799	110129	RP3-370M22.1	-	GRAP2	LCP2	GADS|GRAP-2|GRB2L|GRBLG|GRID|GRPL|GrbX|Grf40|Mona|P38	SLP-76|SLP76	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	O75791	Q6FI14|B7Z8E3	NP_001278757|NP_001278755|NP_001278754|NP_001278753|NP_004801	Q13094	-	NP_005556	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598455	8379	4085	113971	110260	-	-	MAD1L1	MAD2L1	MAD1|PIG9|TP53I9|TXBP181	HSMAD2|MAD2	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q9Y6D9	-	NP_001013859|NP_001013858|NP_003541|NP_001291453|NP_001291452|NP_001291454	Q13257	-	NP_002349	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598456	4089	4088	110264	110263	-	-	SMAD4	SMAD3	DPC4|JIP|MADH4|MYHRS	HSPC193|HsT17436|JV15-2|LDS1C|LDS3|MADH3	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q13485	A0A024R274	NP_005350	P84022	Q9P0T0|A0A024R5Z3	NP_001138576|NP_001138574|NP_001138575|NP_005893	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598457	22916	4686	116578	110766	PIG55	RP11-546O6.1	NCBP2	NCBP1	CBC2|CBP20|NIP1	CBP80|NCBP|Sto1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P52298	-	NP_001294965|NP_001036005|NP_031388	Q09161	A0A024R179	NP_002477|NP_001338435|NP_001338436|NP_001338433|NP_001338434	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598458	5824	5195	111782	111218	OK/SW-cl.22	-	PEX19	PEX14	D1S2223E|HK33|PBD12A|PMP1|PMPI|PXF|PXMP1	NAPP2|PBD13A|Pex14p|dJ734G22.2	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P40855	-	NP_001180573|NP_002848	O75381	-	NP_004556	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598459	10818	5781	116031	111745	-	-	FRS2	PTPN11	FRS2A|FRS2alpha|SNT|SNT-1|SNT1	BPTP3|CFC|NS1|PTP-1D|PTP2C|SH-PTP2|SH-PTP3|SHP2	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q8WU20	L7RTG7	NP_006645|NP_001265286|NP_001265285|NP_001265284|NP_001265283|NP_001265282|NP_001265280|NP_001036020	Q06124	-	NP_001361554|NP_001317366|NP_002825|NP_542168	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598460	8504	5824	114076	111782	RP1-20N2.3	OK/SW-cl.22	PEX3	PEX19	PBD10A|TRG18	D1S2223E|HK33|PBD12A|PMP1|PMPI|PXF|PXMP1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P56589	-	NP_003621	P40855	-	NP_001180573|NP_002848	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598461	8799	5824	114327	111782	-	OK/SW-cl.22	PEX11B	PEX19	PEX11-BETA|PEX14B	D1S2223E|HK33|PBD12A|PMP1|PMPI|PXF|PXMP1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	O96011	A0A024R4E7	NP_001171724|NP_003837	P40855	-	NP_001180573|NP_002848	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598462	9409	5824	114804	111782	-	OK/SW-cl.22	PEX16	PEX19	PBD8A|PBD8B	D1S2223E|HK33|PBD12A|PMP1|PMPI|PXF|PXMP1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q9Y5Y5	-	NP_004804|NP_476515	P40855	-	NP_001180573|NP_002848	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598463	6285	6271	112193	112179	-	RP1-178F15.1	S100B	S100A1	NEF|S100|S100-B|S100beta	S100|S100-alpha|S100A	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P04271	-	NP_006263	P23297	-	NP_006262	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598464	6285	6277	112193	112185	-	-	S100B	S100A6	NEF|S100|S100-B|S100beta	2A9|5B10|CABP|CACY|PRA	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P04271	-	NP_006263	P06703	-	NP_055439	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598465	6502	6500	112393	112391	-	-	SKP2	SKP1	FBL1|FBXL1|FLB1|p45	EMC19|OCP-II|OCP2|SKP1A|TCEB1L|p19A	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q13309	A0A024R069	NP_116026|NP_001230049|NP_005974	P63208	-	NP_733779|NP_008861	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598466	8945	6500	114457	112391	RP11-529I10.2	-	BTRC	SKP1	BETA-TRCP|FBW1A|FBXW1|FBXW1A|FWD1|bTrCP|bTrCP1|betaTrCP	EMC19|OCP-II|OCP2|SKP1A|TCEB1L|p19A	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q9Y297	B2R8L3|B7Z3H4|Q68DS0	NP_003930|NP_378663|NP_001243785	P63208	-	NP_733779|NP_008861	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598467	57819	27258	121778	118105	DAAP-21F2.6	MDS017	LSM2	LSM3	C6orf28|G7B|YBL026W|snRNP	SMX4|USS2|YLR438C	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q9Y333	-	NP_067000	P62310	-	NP_055278	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598489	3109	5664	109354	111643	DAAP-27A1.4	-	HLA-DMB	PSEN2	D6S221E|RING7	AD3L|AD4|CMD1V|PS2|STM2	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P28068	-	NP_002109	P49810	-	NP_036618|NP_000438	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598495	402	23568	106895	117110	-	-	ARL2	ARL2BP	ARFL2	BART|BART1|RP66	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P36404	Q53YD8	NP_001186674|NP_001658	Q9Y2Y0	A0A024R6U9	NP_036238	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598496	892	1024	107333	107458	RP1-199J3.1	-	CCNC	CDK8	CycC	K35	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P24863	E5RFK5|Q7Z4L3	NP_005181|NP_001013417	P49336	-	NP_001251	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598497	9685	10490	115038	115753	-	-	CLINT1	VTI1B	CLINT|ENTH|EPN4|EPNR	VTI1|VTI1-LIKE|VTI1L|VTI2|v-SNARE|vti1-rp1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q14677	-	NP_001182485|NP_001182484|NP_055481	Q9UEU0	-	NP_006361	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598498	1460	1457	107843	107841	DADB-127H9.2	-	CSNK2B	CSNK2A1	CK2B|CK2N|CSK2B|G5A	CK2A1|CKII|CSNK2A3	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P67870	N0E4C7	NP_001269314|NP_001311	P68400	-	NP_808228|NP_001886|NP_001349700|NP_001349699|NP_808227	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598499	9775	57703	115119	121727	-	-	EIF4A3	CWC22	DDX48|MUK34|NMP265|NUK34|RCPS|eIF4AIII	EIF4GL|NCM|fSAPb	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P38919	A0A024R8W0	NP_055555	Q9HCG8	-	NP_065994|NP_001362959|NP_001362958|NP_001362962|NP_001362961	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598500	8880	22827	114399	116502	-	-	FUBP1	PUF60	FBP|FUBP	FIR|RoBPI|SIAHBP1|VRJS	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q96AE4	B4DT31	NP_001362986|NP_003893|NP_001290362|NP_001362985|NP_001362984	Q9UHX1	-	NP_001349826|NP_001349824|NP_001258029|NP_001258028|NP_001258027|NP_001258026|NP_001258025|NP_001349825|NP_001129505|NP_510965|NP_055096	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598501	3117	3119	109362	109364	DAQB-109B10.1	DADB-249P12.2	HLA-DQA1	HLA-DQB1	CD|CELIAC1|DQ-A1|GSE|HLA-DQA	CELIAC1|HLA-DQB|IDDM1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P01909	Q8MH44|Q08AS3|Q30063|Q5Y7H0|L8E864|Q5Y7D2	NP_002113	P01920	Q5Y7A9|Q5Y7D3|Q5SU54|Q5Y7D6	NP_001230890|NP_002114|NP_001230891	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598502	3593	51561	109807	119611	-	UNQ2498/PRO5798	IL12B	IL23A	CLMF|CLMF2|IL-12B|IMD28|IMD29|NKSF|NKSF2	IL-23|IL-23A|IL23P19|P19|SGRF	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P29460	-	NP_002178	Q9NPF7	-	NP_057668	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598503	4116	9939	110290	115265	RP5-1024G6.4	HSPC114	MAGOH	RBM8A	MAGOH1|MAGOHA	BOV-1A|BOV-1B|BOV-1C|C1DELq21.1|DEL1q21.1|MDS014|RBM8|RBM8B|TAR|Y14|ZNRP|ZRNP1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P61326	-	NP_002361	Q9Y5S9	A0A023T787	NP_005096	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598504	5594	6195	111580	112109	-	RP11-492M19.2	MAPK1	RPS6KA1	ERK|ERK-2|ERK2|ERT1|MAPK2|P42MAPK|PRKM1|PRKM2|p38|p40|p41|p41mapk|p42-MAPK	HU-1|MAPKAPK1A|RSK|RSK1|p90Rsk	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P28482	Q1HBJ4|Q499G7	NP_002736|NP_620407	Q15418	E9PRI4	NP_002944|NP_001317370|NP_001006666	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598505	22919	22924	116581	116584	-	-	MAPRE1	MAPRE3	EB1	EB3|EBF3|EBF3-S|RP3	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q15691	-	NP_036457	Q9UPY8	-	NP_001289979|NP_036458	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598506	4909	4915	110964	110970	-	RP11-263K15.1	NTF4	NTRK2	GLC10|GLC1O|NT-4|NT-4/5|NT-5|NT4|NT5|NTF5	GP145-TrkB|TRKB|trk-B	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P34130	A0A024QZE4	NP_006170	Q16620	Q548C2|Q5VWE5|A0A024R230	NP_001356465|NP_001018076|NP_001018074|NP_001018075|NP_001356462|NP_001356463|NP_001356461|NP_001356464|NP_006171|NP_001007098|NP_001278866	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598507	5007	9218	111048	114651	-	-	OSBP	VAPA	OSBP1	VAP-33|VAP-A|VAP33|hVAP-33	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P22059	-	NP_002547	Q9P0L0	-	NP_919415|NP_003565	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598508	9128	10465	114576	115728	RP11-110L1.4	-	PRPF4	PPIH	HPRP4|HPRP4P|PRP4|Prp4p|RP70|SNRNP60	CYP-20|CYPH|SnuCyp-20|USA-CYP	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	O43172	Q5T1M7	NP_001231855|NP_004688	O43447	Q6FH36	NP_001317439|NP_006338	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598509	5879	23647	111817	117174	MIG5	-	RAC1	ARFIP2	Rac-1|TC-25|p21-Rac1	POR1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	P53365	B4DUZ3|B4DXH2|A0A087X1E4	NP_036534|NP_001229785|NP_001229784|NP_001229783	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598510	55072	10616	120389	115862	-	RP5-852M4.4	RNF31	RBCK1	HOIP|ZIBRA	C20orf18|HOIL-1|HOIL1|PBMEI|RBCK2|RNF54|UBCE7IP3|XAP3|XAP4|ZRANB4	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q96EP0	-	NP_060469|NP_001297261	Q9BYM8	-	NP_001310885|NP_001310889|NP_001310887|NP_006453|NP_112506	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598511	6606	6607	112490	112491	-	-	SMN1	SMN2	BCD541|GEMIN1|SMA|SMA1|SMA2|SMA3|SMA4|SMA@|SMN|SMNT|T-BCD541|TDRD16A	BCD541|C-BCD541|GEMIN1|SMNC|TDRD16B	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q16637	-	NP_075012|NP_001284644|NP_000335	Q16637	-	NP_059107|NP_075013|NP_075015|NP_075014	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598512	8835	8065	114362	113743	-	-	SOCS2	CUL5	CIS2|Cish2|SOCS-2|SSI-2|SSI2|STATI2	VACM-1|VACM1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	O14508	A0A024RBD2	NP_003868|NP_001257400|NP_001257396|NP_001257397|NP_001257398|NP_001257399	Q93034	-	NP_003469	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598513	10617	51652	115863	119660	-	CGI-149	STAMBP	CHMP3	AMSH|MICCAP	NEDF|VPS24	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	O95630	-	NP_998787|NP_006454|NP_001340904|NP_001340905|NP_001340902|NP_001340903|NP_001340900|NP_001340901|NP_001340898|NP_001340899|NP_001340896|NP_001340897|NP_964010	Q9Y3E7	-	NP_057163|NP_001005753|NP_001180446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598514	7137	7134	112991	112988	-	-	TNNI3	TNNC1	CMD1FF|CMD2A|CMH7|RCM1|TNNC1|cTnI	CMD1Z|CMH13|TN-C|TNC|TNNC	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P19429	Q6FGX2	NP_000354	P63316	Q6FH91	NP_003271	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598515	124590	10083	125876	115392	-	-	USH1G	USH1C	ANKS4A|SANS	AIE-75|DFNB18|DFNB18A|NY-CO-37|NY-CO-38|PDZ-45|PDZ-73|PDZ-73/NY-CO-38|PDZ73|PDZD7C|ush1cpst	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q495M9	B4DL95	NP_001269418|NP_775748	Q9Y6N9	-	NP_710142|NP_005700|NP_001284693	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598516	7518	79840	113352	122931	-	-	XRCC4	NHEJ1	-	XLF	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q13426	A0A024RAL0|Q7Z763|A0A024RAQ8	NP_001304942|NP_071801|NP_003392|NP_001304941|NP_072044	Q9H9Q4	-	NP_079058	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598534	3735	7965	109938	113684	-	PRO0992	KARS	AIMP2	CMTRIB|DFNB89|KARS1|KARS2|KRS	JTV-1|JTV1|P38	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q15046	-	NP_001365077|NP_005539|NP_001123561	Q13155	A0A024QZY1|A8MU58	NP_001313539|NP_001313538|NP_001313536|NP_001313535|NP_001349714|NP_001349716|NP_001313540|NP_006294	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598535	23568	402	117110	106895	-	-	ARL2BP	ARL2	BART|BART1|RP66	ARFL2	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q9Y2Y0	A0A024R6U9	NP_036238	P36404	Q53YD8	NP_001186674|NP_001658	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598536	1024	892	107458	107333	-	RP1-199J3.1	CDK8	CCNC	K35	CycC	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P49336	-	NP_001251	P24863	E5RFK5|Q7Z4L3	NP_005181|NP_001013417	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598537	1457	1460	107841	107843	-	DADB-127H9.2	CSNK2A1	CSNK2B	CK2A1|CKII|CSNK2A3	CK2B|CK2N|CSK2B|G5A	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P68400	-	NP_808228|NP_001886|NP_001349700|NP_001349699|NP_808227	P67870	N0E4C7	NP_001269314|NP_001311	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598538	3119	3117	109364	109362	DADB-249P12.2	DAQB-109B10.1	HLA-DQB1	HLA-DQA1	CELIAC1|HLA-DQB|IDDM1	CD|CELIAC1|DQ-A1|GSE|HLA-DQA	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P01920	Q5Y7A9|Q5Y7D3|Q5SU54|Q5Y7D6	NP_001230890|NP_002114|NP_001230891	P01909	Q8MH44|Q08AS3|Q30063|Q5Y7H0|L8E864|Q5Y7D2	NP_002113	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598539	9939	4116	115265	110290	HSPC114	RP5-1024G6.4	RBM8A	MAGOH	BOV-1A|BOV-1B|BOV-1C|C1DELq21.1|DEL1q21.1|MDS014|RBM8|RBM8B|TAR|Y14|ZNRP|ZRNP1	MAGOH1|MAGOHA	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q9Y5S9	A0A023T787	NP_005096	P61326	-	NP_002361	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598540	6195	5594	112109	111580	RP11-492M19.2	-	RPS6KA1	MAPK1	HU-1|MAPKAPK1A|RSK|RSK1|p90Rsk	ERK|ERK-2|ERK2|ERT1|MAPK2|P42MAPK|PRKM1|PRKM2|p38|p40|p41|p41mapk|p42-MAPK	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q15418	E9PRI4	NP_002944|NP_001317370|NP_001006666	P28482	Q1HBJ4|Q499G7	NP_002736|NP_620407	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598541	22924	22919	116584	116581	-	-	MAPRE3	MAPRE1	EB3|EBF3|EBF3-S|RP3	EB1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q9UPY8	-	NP_001289979|NP_036458	Q15691	-	NP_036457	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598542	4915	4909	110970	110964	RP11-263K15.1	-	NTRK2	NTF4	GP145-TrkB|TRKB|trk-B	GLC10|GLC1O|NT-4|NT-4/5|NT-5|NT4|NT5|NTF5	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q16620	Q548C2|Q5VWE5|A0A024R230	NP_001356465|NP_001018076|NP_001018074|NP_001018075|NP_001356462|NP_001356463|NP_001356461|NP_001356464|NP_006171|NP_001007098|NP_001278866	P34130	A0A024QZE4	NP_006170	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598543	8874	5058	114393	111095	RP11-494P5.1	-	ARHGEF7	PAK1	BETA-PIX|COOL-1|COOL1|Nbla10314|P50|P50BP|P85|P85COOL1|P85SPR|PAK3|PIXB	PAKalpha	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q14155	A0A024RDY9|B7Z6G2	NP_001340979|NP_001340978|NP_001340977|NP_001340976|NP_001340975|NP_663788|NP_001340986|NP_001340987|NP_001340984|NP_001340985|NP_001340982|NP_001340983|NP_001340980|NP_001340981|NP_001307781|NP_001307780|NP_001340988|NP_001340989|NP_003890|NP_001106984|NP_001106985|NP_001106983|NP_001317526|NP_001317527|NP_001340990|NP_001307783|NP_001307782	Q13153	A0A024R5P0	NP_001363231|NP_001122092|NP_001363197|NP_001363198|NP_001363199|NP_002567|NP_001363200	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598544	22841	8766	116514	114299	-	-	RAB11FIP2	RAB11A	Rab11-FIP2|nRip11	YL8	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q7L804	-	NP_001317096|NP_055719	P62491	A0A024R5Z8	NP_004654|NP_001193765	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598545	64145	5867	122084	111805	-	-	RBSN	RAB4A	Rabenosyn-5|ZFYVE20	HRES-1|HRES-1/RAB4|HRES1|RAB4	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q9H1K0	A0A024R2H4	NP_001289307|NP_071735	P20338	A0A024R3U9|A0A087WYT5	NP_004569|NP_001258927	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598546	7276	5950	113127	111884	-	PRO2222	TTR	RBP4	CTS|CTS1|HEL111|HsT2651|PALB|TBPA	RDCCAS	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P02766	E9KL36	NP_000362	P02753	-	NP_001310446|NP_006735|NP_001310447	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598547	80010	116028	123066	125466	RP11-346I8.1	-	RMI1	RMI2	BLAP75|C9orf76|FAAP75	BLAP18|C16orf75	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q9H9A7	-	NP_079221	Q96E14	-	NP_689521	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598548	10616	55072	115862	120389	RP5-852M4.4	-	RBCK1	RNF31	C20orf18|HOIL-1|HOIL1|PBMEI|RBCK2|RNF54|UBCE7IP3|XAP3|XAP4|ZRANB4	HOIP|ZIBRA	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q9BYM8	-	NP_001310885|NP_001310889|NP_001310887|NP_006453|NP_112506	Q96EP0	-	NP_060469|NP_001297261	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598549	6607	6606	112491	112490	-	-	SMN2	SMN1	BCD541|C-BCD541|GEMIN1|SMNC|TDRD16B	BCD541|GEMIN1|SMA|SMA1|SMA2|SMA3|SMA4|SMA@|SMN|SMNT|T-BCD541|TDRD16A	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q16637	-	NP_059107|NP_075013|NP_075015|NP_075014	Q16637	-	NP_075012|NP_001284644|NP_000335	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598550	8065	8835	113743	114362	-	-	CUL5	SOCS2	VACM-1|VACM1	CIS2|Cish2|SOCS-2|SSI-2|SSI2|STATI2	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q93034	-	NP_003469	O14508	A0A024RBD2	NP_003868|NP_001257400|NP_001257396|NP_001257397|NP_001257398|NP_001257399	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598551	7134	7137	112988	112991	-	-	TNNC1	TNNI3	CMD1Z|CMH13|TN-C|TNC|TNNC	CMD1FF|CMD2A|CMH7|RCM1|TNNC1|cTnI	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P63316	Q6FH91	NP_003271	P19429	Q6FGX2	NP_000354	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598552	10083	124590	115392	125876	-	-	USH1C	USH1G	AIE-75|DFNB18|DFNB18A|NY-CO-37|NY-CO-38|PDZ-45|PDZ-73|PDZ-73/NY-CO-38|PDZ73|PDZD7C|ush1cpst	ANKS4A|SANS	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q9Y6N9	-	NP_710142|NP_005700|NP_001284693	Q495M9	B4DL95	NP_001269418|NP_775748	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598553	79840	7518	122931	113352	-	-	NHEJ1	XRCC4	XLF	-	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q9H9Q4	-	NP_079058	Q13426	A0A024RAL0|Q7Z763|A0A024RAQ8	NP_001304942|NP_071801|NP_003392|NP_001304941|NP_072044	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598591	3383	3683	109610	109889	-	-	ICAM1	ITGAL	BB2|CD54|P3.58	CD11A|LFA-1|LFA1A	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P05362	-	NP_000192	P20701	B2RAL6	NP_002200|NP_001107852	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598593	25558	6804	247589	112676	-	-	Stxbp1	STX1A	ANC18HA|Munc18-1|NSEC1A|Sec1|Unc18-1|n-sec1|nSec1|rbSec1|rbSec1A|rbSec1B	HPC-1|P35-1|STX1|SYN1A	FRET	physical	Trepte P (2018)	PUBMED:29997244	10116	9606	Low Throughput	-	-	BRET	-	BIOGRID	P61765	-	NP_037170	Q16623	A8MZ54|Q75ME0	NP_001159375|NP_004594	-	-	-	-	-	-	Rattus norvegicus	Homo sapiens
+2598595	2280	2475	108570	108757	RP11-314N13.2	-	FKBP1A	MTOR	FKBP-12|FKBP-1A|FKBP1|FKBP12|PKC12|PKCI2|PPIASE	FRAP|FRAP1|FRAP2|RAFT1|RAPT1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P62942	Q0VDC6|A0A087WTS4	NP_463460|NP_000792|NP_001186715	P42345	-	NP_004949|NP_001373430|NP_001373429	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598597	4193	7157	110358	113010	-	-	MDM2	TP53	ACTFS|HDMX|hdm2	BCC7|LFS1|P53|TRP53	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q00987	A7UKX8|Q96DS0|A7UKX9|A7UKX7|G3XA89	NP_001354919|NP_001265391|NP_002383|NP_001138811|NP_001138812|NP_001138809	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598599	3297	3297	109530	109530	-	-	HSF1	HSF1	HSTF1	HSTF1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q00613	-	NP_005517	Q00613	-	NP_005517	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598600	7415	137886	113258	126491	-	-	VCP	UBXN2B	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	p37	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	Q14CS0	E5RJ36	NP_001071087|NP_001317464	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598601	137886	7415	126491	113258	-	-	UBXN2B	VCP	p37	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q14CS0	E5RJ36	NP_001071087|NP_001317464	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598602	7415	55968	113258	121014	-	RP4-776F14.2	VCP	NSFL1C	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	P47|UBX1|UBXD10|UBXN2C|dJ776F14.1	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	Q9UNZ2	Q53FE8	NP_061327|NP_001193665|NP_057227	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598603	55968	7415	121014	113258	RP4-776F14.2	-	NSFL1C	VCP	P47|UBX1|UBXD10|UBXN2C|dJ776F14.1	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q9UNZ2	Q53FE8	NP_061327|NP_001193665|NP_057227	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598620	7415	80700	113258	123263	-	-	VCP	UBXN6	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	UBXD1|UBXDC2	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	Q9BZV1	-	NP_079517|NP_001164562	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598621	80700	7415	123263	113258	-	-	UBXN6	VCP	UBXD1|UBXDC2	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q9BZV1	-	NP_079517|NP_001164562	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598622	7415	23190	113258	116799	-	-	VCP	UBXN4	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	UBXD2|UBXDC1|erasin	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	Q92575	-	NP_055422	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598623	23190	7415	116799	113258	-	-	UBXN4	VCP	UBXD2|UBXDC1|erasin	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q92575	-	NP_055422	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598624	7415	127733	113258	126082	-	-	VCP	UBXN10	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	UBXD3	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	Q96LJ8	-	NP_689589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598625	127733	7415	126082	113258	-	-	UBXN10	VCP	UBXD3	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q96LJ8	-	NP_689589	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598626	7415	165324	113258	127913	-	-	VCP	UBXN2A	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	UBXD4	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	P68543	-	NP_859064	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598627	165324	7415	127913	113258	-	-	UBXN2A	VCP	UBXD4	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P68543	-	NP_859064	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598628	7415	91544	113258	124844	-	PP2243	VCP	UBXN11	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	COA-1|SOC|SOCI|UBXD5	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	Q5T124	-	NP_663320|NP_001070730|NP_892120	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598629	91544	7415	124844	113258	PP2243	-	UBXN11	VCP	COA-1|SOC|SOCI|UBXD5	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q5T124	-	NP_663320|NP_001070730|NP_892120	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598630	7415	7993	113258	113702	-	-	VCP	UBXN8	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	D8S2298E|REP8|UBXD6	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	O00124	-	NP_001269118|NP_005662|NP_001269128	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598631	7993	7415	113702	113258	-	-	UBXN8	VCP	D8S2298E|REP8|UBXD6	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	O00124	-	NP_001269118|NP_005662|NP_001269128	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598632	7415	23197	113258	116806	-	-	VCP	FAF2	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	ETEA|UBXD8|UBXN3B	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	Q96CS3	-	NP_055428	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598633	23197	7415	116806	113258	-	-	FAF2	VCP	ETEA|UBXD8|UBXN3B	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q96CS3	-	NP_055428	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598634	7415	79058	113258	122516	-	-	VCP	ASPSCR1	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	ASPCR1|ASPL|ASPS|RCC17|TUG|UBXD9|UBXN9	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	Q9BZE9	-	NP_001238817|NP_076988|NP_001317457	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598635	79058	7415	122516	113258	-	-	ASPSCR1	VCP	ASPCR1|ASPL|ASPS|RCC17|TUG|UBXD9|UBXN9	ALS14|HEL-220|HEL-S-70|IBMPFD|IBMPFD1|TERA|p97	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	Q9BZE9	-	NP_001238817|NP_076988|NP_001317457	P55072	Q96IF9|V9HW80	NP_009057|NP_001341857|NP_001341856	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598649	3267	80331	109503	123242	-	-	AGFG1	DNAJC5	HRB|RAB|RIP	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P52594	-	NP_004495|NP_001128660|NP_001128661|NP_001128659	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598650	163	80331	106672	123242	-	-	AP2B1	DNAJC5	ADTB2|AP105B|AP2-BETA|CLAPB1	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P63010	Q96EL6	NP_001273|NP_001025177	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598651	23705	80331	117218	123242	-	-	CADM1	DNAJC5	BL2|IGSF4|IGSF4A|NECL2|Necl-2|RA175|ST17|SYNCAM|TSLC1|sTSLC-1|sgIGSF|synCAM1	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q9BY67	A0A4Z1|X5DQR8|X5DQS5|X5D8W0|X5D7A8	NP_001287973|NP_001091987|NP_001287972|NP_001287974|NP_055148	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598652	8618	80331	114174	123242	-	-	CADPS	DNAJC5	CADPS1|CAPS|CAPS1	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q9ULU8	-	NP_003707|NP_899631|NP_899630	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598653	8573	80331	114141	123242	RP11-540L11.1	-	CASK	DNAJC5	CAGH39|CAMGUK|CMG|FGS4|LIN2|MICPCH|MRXSNA|TNRC8	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	O14936	-	NP_001354650|NP_001119527|NP_001119526|NP_003679	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598654	1182	80331	107596	123242	-	-	CLCN3	DNAJC5	CLC3|ClC-3	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P51790	B3KXK0	NP_001820|NP_776297|NP_001230303|NP_001230301	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598655	1947	80331	108267	123242	RP3-496G1.1	-	EFNB1	DNAJC5	CFND|CFNS|EFB1|EFL3|EPLG2|Elk-L|LERK2	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P98172	-	NP_004420	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598656	23085	80331	116714	123242	-	-	ERC1	DNAJC5	Cast2|ELKS|ERC-1|RAB6IP2	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q8IUD2	G8JLD3	NP_829883|NP_001288177|NP_829884	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598657	23149	80331	116764	123242	-	-	FCHO1	DNAJC5	-	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	O14526	B7ZAZ3	NP_001154831|NP_001154830|NP_055937|NP_001154829	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598658	2918	80331	109175	123242	-	-	GRM8	DNAJC5	GLUR8|GPRC1H|MGLUR8|mGlu8	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	O00222	-	NP_001120795|NP_000836	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598659	8825	80331	114352	123242	-	-	LIN7A	DNAJC5	LIN-7A|LIN7|MALS-1|TIP-33|VELI1	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	O14910	-	NP_004655|NP_001311352	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598660	55327	80331	120608	123242	-	-	LIN7C	DNAJC5	LIN-7-C|LIN-7C|MALS-3|MALS3|VELI3	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q9NUP9	-	NP_060832	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598661	25977	80331	117461	123242	-	-	NECAP1	DNAJC5	EIEE21	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q8NC96	-	NP_056324	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598662	9369	80331	114770	123242	-	-	NRXN3	DNAJC5	C14orf60	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q9HDB5|Q9Y4C0	-	NP_004787|NP_620426|NP_001098720|NP_001258949	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598663	8650	80331	114202	123242	-	-	NUMB	DNAJC5	C14orf41|S171|c14_5527	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P49757	A0A024R681|A0A024R684|A0A024R6F4|A0A024R6C4	NP_001005744|NP_001005745|NP_001005743|NP_003735|NP_001307043	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598664	8500	80331	114072	123242	-	-	PPFIA1	DNAJC5	LIP.1|LIP1|LIPRIN	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q13136	B3KVS8	NP_803172|NP_001364935|NP_003617	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598665	8497	80331	114069	123242	-	-	PPFIA4	DNAJC5	-	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	O75335	B3KN22	NP_055868|NP_001291260|NP_001291261	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598666	27342	80331	118154	123242	-	-	RABGEF1	DNAJC5	RABEX5|RAP1|rabex-5	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q9UJ41	A0A024RDL6|B3KMF1|A8K3R3	NP_001354668|NP_001354669|NP_001354679|NP_001354678|NP_001354671|NP_001354670|NP_001354673|NP_001354672|NP_001354675|NP_001354674|NP_001354677|NP_001354676|NP_001354653|NP_001354652|NP_001354651|NP_001354657|NP_001354656|NP_001354655|NP_001354654|NP_001273990|NP_001273991|NP_001354659|NP_001354658|NP_055319|NP_001354684|NP_001354685|NP_001354680|NP_001354681|NP_001354682|NP_001354683|NP_001354666|NP_001354667|NP_001354664|NP_001354665|NP_001354662|NP_001354663|NP_001354660|NP_001354661|NP_001273989	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598667	9522	80331	114899	123242	-	-	SCAMP1	DNAJC5	SCAMP|SCAMP37	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	O15126	B4E2V7|A0A087WXB0	NP_001277158|NP_004857	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598668	10067	80331	115378	123242	-	-	SCAMP3	DNAJC5	C1orf3	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	O14828	-	NP_443069|NP_005689	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598669	192683	80331	128182	123242	-	-	SCAMP5	DNAJC5	-	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q8TAC9	-	NP_620417|NP_001171582|NP_001171583	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598670	6457	80331	112354	123242	-	-	SH3GL3	DNAJC5	CNSA3|EEN-B2|HsT19371|SH3D2C|SH3P13	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q99963	A0A024R215	NP_001288037|NP_001288038|NP_001311116|NP_001311115|NP_001311114|NP_001311113|NP_001311112|NP_001311111|NP_003018	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598671	57030	80331	121331	123242	-	-	SLC17A7	DNAJC5	BNPI|VGLUT1	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q9P2U7	-	NP_064705	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598672	246213	80331	128880	123242	-	-	SLC17A8	DNAJC5	DFNA25|VGLUT3	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q8NDX2	-	NP_001138760|NP_647480	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598673	6571	80331	112459	123242	-	-	SLC18A2	DNAJC5	SVAT|SVMT|VAT2|VMAT2	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q05940	-	NP_003045	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598674	7781	80331	113562	123242	-	-	SLC30A3	DNAJC5	ZNT3	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q99726	-	NP_003450	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598675	140679	80331	126644	123242	-	-	SLC32A1	DNAJC5	VGAT|VIAAT	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q9H598	-	NP_542119	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598676	9342	80331	114748	123242	-	-	SNAP29	DNAJC5	CEDNIK|SNAP-29	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	O95721	-	NP_004773	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598677	9892	80331	115222	123242	RP1-120N9.1	-	SNAP91	DNAJC5	AP180|CALM	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	O60641	E9PDG8|H0UI15|B7Z2N2	NP_001363618|NP_001363639|NP_001363650|NP_001363652|NP_001363655|NP_001363657|NP_001363669|NP_001363615|NP_001363614|NP_001363671|NP_001363670|NP_001363611|NP_001363610|NP_001363613|NP_001363612|NP_001363637|NP_001363636|NP_001363635|NP_001363634|NP_001363619|NP_001363632|NP_001363631|NP_001363630|NP_055656|NP_001363638|NP_001363633|NP_001229721|NP_001229722|NP_001229723|NP_001243647|NP_001243646|NP_001363624|NP_001363604|NP_001363623|NP_001363644|NP_001350606|NP_001363648|NP_001363649|NP_001363646|NP_001363647|NP_001363621|NP_001363645|NP_001363642|NP_001363643|NP_001363640|NP_001363641|NP_001363660|NP_001363608|NP_001363663|NP_001363664|NP_001363665|NP_001363666|NP_001363667|NP_001363668|NP_001363625|NP_001363626|NP_001363627|NP_001363620|NP_001363607|NP_001363622|NP_001363605|NP_001363617|NP_001363616|NP_001363662|NP_001363628|NP_001363629	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598678	6622	80331	112506	123242	-	-	SNCA	DNAJC5	NACP|PARK1|PARK4|PD1	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P37840	H6UYS5	NP_000336|NP_009292|NP_001362216|NP_001362217|NP_001362214|NP_001362215|NP_001139526|NP_001139527	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598679	23673	80331	117191	123242	RP3-426I6.4	-	STX12	DNAJC5	STX13|STX14	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q86Y82	-	NP_803173	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598680	6809	80331	112678	123242	-	-	STX3	DNAJC5	STX3A	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q13277	Q53YE2	NP_001171511|NP_004168	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598681	6810	80331	112679	123242	-	-	STX4	DNAJC5	STX4A|p35-2	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q12846	B7Z425	NP_001259024|NP_001259025|NP_004595	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598682	10228	80331	115522	123242	-	-	STX6	DNAJC5	-	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	O43752	-	NP_005810|NP_001273139	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598683	8417	80331	114003	123242	RP11-560I21.1	-	STX7	DNAJC5	-	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	O15400	-	NP_003560|NP_001313509|NP_001313507|NP_001313508	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598684	9900	80331	115229	123242	PSEC0174	-	SV2A	DNAJC5	SV2	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q7L0J3	B4E000	NP_001315604|NP_001315603|NP_055664|NP_001265648	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598685	6855	80331	112721	123242	-	-	SYP	DNAJC5	MRX96|MRXSYP	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P08247	-	NP_003170	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598686	6857	80331	112723	123242	-	-	SYT1	DNAJC5	P65|SVP65|SYT	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P21579	J3KQA0|A0A024RBE9	NP_005630|NP_001278830|NP_001129278|NP_001129277	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598687	91683	80331	124864	123242	-	-	SYT12	DNAJC5	SYT11|sytXII	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q8IV01	Q8NDM9|B0AZL9	NP_001171351|NP_001305702|NP_808878|NP_001305704	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598688	6861	80331	112725	123242	-	-	SYT5	DNAJC5	-	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	O00445	A0A024R4N8|Q4FD32	NP_001284703|NP_003171	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598689	143425	80331	126802	123242	-	-	SYT9	DNAJC5	-	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q86SS6	-	NP_783860	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598690	6843	80331	112710	123242	-	-	VAMP1	DNAJC5	SPAX1|SYB1|VAMP-1	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P23763	F5GZV7	NP_055046|NP_058439|NP_954740|NP_001284367	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598691	6844	80331	112711	123242	-	-	VAMP2	DNAJC5	SYB2|VAMP-2	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	P63027	F8WCA0	NP_001317054|NP_055047	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598692	9341	80331	114747	123242	-	-	VAMP3	DNAJC5	CEB	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q15836	Q6FGG2	NP_004772	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598693	8674	80331	114222	123242	RP4-560B9.3	-	VAMP4	DNAJC5	VAMP-4|VAMP24	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	O75379	Q6IAZ3	NP_001172056|NP_003753	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598694	23390	80331	116965	123242	HSPC294	-	ZDHHC17	DNAJC5	HIP14|HIP3|HYPH	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q8IUH5	-	NP_056151|NP_001346555	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598695	64145	80331	122084	123242	-	-	RBSN	DNAJC5	Rabenosyn-5|ZFYVE20	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput|Low Throughput	-	-	BRET	-	BIOGRID	Q9H1K0	A0A024R2H4	NP_001289307|NP_071735	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598715	22899	80331	116563	123242	-	-	ARHGEF15	DNAJC5	ARGEF15|E5|Ephexin5|Vsm-RhoGEF	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	O94989	-	NP_079290|NP_776089	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598716	84726	80331	124226	123242	RP11-334J6.1	-	PRRC2B	DNAJC5	BAT2L|BAT2L1|KIAA0515|LQFBS-1	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q5JSZ5	Q9BU62	NP_037450|NP_001371747|NP_001371752|NP_001371751|NP_001371750	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598717	685	80331	107150	123242	-	-	BTC	DNAJC5	-	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P35070	-	NP_001720	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598718	914	80331	107352	123242	RP4-655N15.2	-	CD2	DNAJC5	LFA-2|SRBC|T11	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P06729	Q53F96	NP_001758	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598719	93659	80331	125048	123242	-	-	CGB5	DNAJC5	HCG	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P01233	-	NP_149032	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598720	355	80331	106851	123242	RP11-399O19.7	-	FAS	DNAJC5	ALPS1A|APO-1|APT1|CD95|FAS1|FASTM|TNFRSF6	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P25445	Q59FU8	NP_690610|NP_690611|NP_000034	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598721	3040	80331	109290	123242	-	-	HBA2	DNAJC5	HBA-T2|HBH	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P69905	D1MGQ2	NP_000508	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598722	9146	80331	114593	123242	-	-	HGS	DNAJC5	HRS	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	O14964	-	NP_004703	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598723	22889	80331	116555	123242	RP11-336K24.1	-	KIAA0907	DNAJC5	BLOM7	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q7Z7F0	-	NP_055764	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598724	5718	80331	111690	123242	-	-	PSMD12	DNAJC5	Rpn5|p55	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	O00232	-	NP_001303270|NP_002807|NP_777360	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598725	5819	80331	111777	123242	-	-	PVRL2	DNAJC5	CD112|HVEB|PRR2|PVRR2	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	Q92692	-	NP_002847|NP_001036189	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2598726	6529	80331	112420	123242	-	-	SLC6A1	DNAJC5	GABATHG|GABATR|GAT1	CLN4|CLN4B|CSP|DNAJC5A|NCL	FRET	physical	Trepte P (2018)	PUBMED:29997244	9606	9606	High Throughput	-	-	BRET	-	BIOGRID	P30531	A0A024R2G0	NP_003033	Q9H3Z4	Q6AHX3	NP_079495	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2599854	854063	851671	34312	32152	YOL090W	YDR097C	MSH2	MSH6	PMS5|mismatch repair ATPase MSH2|L000001190	PMS3|PMS6|mismatch repair ATPase MSH6|L000003135|L000004503|S000029377	FRET	physical	Li Y (2019)	PUBMED:31480444	559292	559292	Low Throughput	-	-	-	-	BIOGRID	P25847	-	NP_014551	Q03834	-	NP_010382	-	-	-	-	-	-	Saccharomyces cerevisiae (S288c)	Saccharomyces cerevisiae (S288c)
+2609879	56647	1026	121161	107460	-	-	BCCIP	CDKN1A	TOK-1|TOK1	CAP20|CDKN1|CIP1|MDA-6|P21|SDI1|WAF1|p21CIP1	FRET	physical	Fan J (2009)	PUBMED:19713748	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9P287	-	NP_057651|NP_510868|NP_510869	P38936	A0A024RCX5	NP_001361441|NP_000380|NP_001361440|NP_001361442|NP_001361439|NP_001361438|NP_001278478|NP_510867|NP_001207706|NP_001207707	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2609902	5111	7507	111142	113344	-	RP11-244N9.4	PCNA	XPA	ATLD2	XP1|XPAC	FRET	physical	Gilljam KM (2012)	PUBMED:23152873	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P12004	-	NP_872590|NP_002583	P23025	-	NP_000371	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2609904	7507	7507	113344	113344	RP11-244N9.4	RP11-244N9.4	XPA	XPA	XP1|XPAC	XP1|XPAC	FRET	physical	Gilljam KM (2012)	PUBMED:23152873	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P23025	-	NP_000371	P23025	-	NP_000371	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2618335	838388	827028	23627	12325	AT1G18080	AT4G13940	ATARCA	MEE58	RACK1A|RACK1A_AT|RECEPTOR FOR ACTIVATED C KINASE 1 A|T10F20.9|WD-40 REPEAT PROTEIN ATARCA	ATSAHH1|DL3010W|EMB1395|EMBRYO DEFECTIVE 1395|FCAALL.35|HOG1|HOMOLOGY-DEPENDENT GENE SILENCING 1|MATERNAL EFFECT EMBRYO ARREST 58|S-ADENOSYL-L-HOMOCYSTEIN HYDROLASE 1|S-ADENOSYL-L-HOMOCYSTEINE HYDROLASE|SAHH1	FRET	physical	Guo J (2019)	PUBMED:31606202	3702	3702	High Throughput	-	-	BiFC assay	-	BIOGRID	O24456	-	NP_173248	O23255	A8MQP1|F4JTV4|F4JTV5	NP_001031628|NP_001078387|NP_001031627|NP_193130	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2618336	838388	821921	23627	7253	AT1G18080	AT3G23400	ATARCA	FIB4	RACK1A|RACK1A_AT|RECEPTOR FOR ACTIVATED C KINASE 1 A|T10F20.9|WD-40 REPEAT PROTEIN ATARCA	fibrillin 4	FRET	physical	Guo J (2019)	PUBMED:31606202	3702	3702	High Throughput	-	-	BiFC assay	-	BIOGRID	O24456	-	NP_173248	Q9LW57	-	NP_566728	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2618337	838388	828889	23627	14176	AT1G18080	AT4G27750	ATARCA	ISI1	RACK1A|RACK1A_AT|RECEPTOR FOR ACTIVATED C KINASE 1 A|T10F20.9|WD-40 REPEAT PROTEIN ATARCA	IMPAIRED SUCROSE INDUCTION 1|T29A15.240|T29A15_240	FRET	physical	Guo J (2019)	PUBMED:31606202	3702	3702	High Throughput	-	-	BiFC assay	-	BIOGRID	O24456	-	NP_173248	-	Q84J43	NP_194505	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2618338	838388	836652	23627	21894	AT1G18080	AT5G65270	ATARCA	RABA4a	RACK1A|RACK1A_AT|RECEPTOR FOR ACTIVATED C KINASE 1 A|T10F20.9|WD-40 REPEAT PROTEIN ATARCA	AtRABA4a|MQN23.22|MQN23_22|RAB GTPase homolog A4A	FRET	physical	Guo J (2019)	PUBMED:31606202	3702	3702	High Throughput	-	-	BiFC assay	-	BIOGRID	O24456	-	NP_173248	Q9FJN8	-	NP_201330	-	-	-	-	-	-	Arabidopsis thaliana (Columbia)	Arabidopsis thaliana (Columbia)
+2622078	134549	4162	126408	110332	-	-	SHROOM1	MCAM	APXL2	CD146|MUC18	FRET	physical	Dye DE (2009)	PUBMED:19137261	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q2M3G4	-	NP_597713|NP_001166171	P43121	A0A024R3I5	NP_006491	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2623882	1813	1813	108147	108147	-	-	DRD2	DRD2	D2DR|D2R	D2DR|D2R	FRET	physical	Baragli A (2007)	PUBMED:17706924	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P14416	A0A024R3C5|A0A024R3I6	NP_057658|NP_000786	P14416	A0A024R3C5|A0A024R3I6	NP_057658|NP_000786	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2623883	1813	6752	108147	112630	-	-	DRD2	SSTR2	D2DR|D2R	-	FRET	physical	Baragli A (2007)	PUBMED:17706924	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P14416	A0A024R3C5|A0A024R3I6	NP_057658|NP_000786	P30874	-	NP_001041	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2623886	24318	54305	246498	248525	-	-	Drd2	Sstr2	-	Smstr2	FRET	physical	Baragli A (2007)	PUBMED:17706924	10116	10116	Low Throughput	-	-	-	-	BIOGRID	P61169	-	NP_036679	P30680	-	NP_062221	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+2623970	3745	9218	109947	114651	-	-	KCNB1	VAPA	DRK1|EIEE26|KV2.1|h-DRK1	VAP-33|VAP-A|VAP33|hVAP-33	FRET	physical	Johnson B (2018)	PUBMED:29941597	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14721	-	NP_004966	Q9P0L0	-	NP_919415|NP_003565	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2623971	3745	9217	109947	114650	-	RP5-1018E9.1	KCNB1	VAPB	DRK1|EIEE26|KV2.1|h-DRK1	ALS8|VAMP-B|VAP-B	FRET	physical	Johnson B (2018)	PUBMED:29941597	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14721	-	NP_004966	O95292	Q6ZSP7|Q53XM7	NP_001182606|NP_004729	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2623986	5802965	2543233	858103	279661	SPAC11H11.06	SPAC630.03	arp2	arp3	SPAC22F8.01	act2	FRET	physical	Espinoza-Sanchez S (2018)	PUBMED:30150414	284812	284812	Low Throughput	-	-	-	-	BIOGRID	Q9UUJ1	-		P32390	-	NP_592898	-	-	-	-	-	-	Schizosaccharomyces pombe (972h)	Schizosaccharomyces pombe (972h)
+2623987	2540002	2540144	276546	276681	SPBC14C8.06	SPBC1778.08c	arc1	arc3	sop2	arc21	FRET	physical	Espinoza-Sanchez S (2018)	PUBMED:30150414	284812	284812	Low Throughput	-	-	-	-	BIOGRID	P78774	-	NP_595909	Q9Y7J4	-	NP_596291	-	-	-	-	-	-	Schizosaccharomyces pombe (972h)	Schizosaccharomyces pombe (972h)
+2624157	8452	9817	114030	115156	-	-	CUL3	KEAP1	CUL-3|PHA2E	INrf2|KLHL19	FRET	physical	Poore DD (2019)	PUBMED:30383469	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13618	B7Z600|A0A024R475	NP_001244127|NP_001244126|NP_003581	Q14145	A0A024R7C0	NP_036421|NP_987096	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2624158	4780	9817	110852	115156	-	-	NFE2L2	KEAP1	NRF2	INrf2|KLHL19	FRET	physical	Poore DD (2019)	PUBMED:30383469	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q16236	-	NP_006155|NP_001138884|NP_001138885|NP_001300829|NP_001300830|NP_001300831	Q14145	A0A024R7C0	NP_036421|NP_987096	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2632315	1812	1814	108146	108148	-	-	DRD1	DRD3	DADR|DRD1A	D3DR|ETM1|FET1	FRET	physical	Fiorentini C (2008)	PUBMED:18424554	9606	9606	Low Throughput	-	-	BRET	-	BIOGRID	P21728	-	NP_000785	P35462	A1A4V4|X5D2G4|E9PCM4|A8K8E4	NP_000787|NP_001277738|NP_001269492|NP_387512	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2632493	54165	9040	119920	114504	-	-	DCUN1D1	UBE2M	DCNL1|DCUN1L1|RP42|SCCRO|SCRO|Tes3	UBC-RS2|UBC12|hUbc12	FRET	physical	Wang S (2019)	PUBMED:30803229	9606	9606	Low Throughput	-	-	assayed using HTRF (homogeneous time-resolved fluorescence) with DCN1-bound fluorophore as donor and UBC12-bound fluorophore as acceptor	-	BIOGRID	Q96GG9	C9JVE2	NP_065691|NP_001295030	P61081	A0A024R4T4	NP_003960	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2632502	10324	4703	115607	110783	-	-	KLHL41	NEB	KBTBD10|Krp1|NEM9|SARCOSIN	NEB177D|NEM2	FRET	physical	Jirka C (2019)	PUBMED:30986853	9606	9606	Low Throughput	-	-	assayed using HTRF (homogeneous time-resolved fluorescence) with KLHL41-bound fluorophore as donor and various hit protein-bound fluorophores as acceptor	-	BIOGRID	O60662	-	NP_006054	P20929	Q05C45|Q96MF8|Q14214	NP_001157980|NP_001157979|NP_001258137|NP_004534	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2632503	10324	4892	115607	110951	-	RP11-190F19.1	KLHL41	NRAP	KBTBD10|Krp1|NEM9|SARCOSIN	N-RAP	FRET	physical	Jirka C (2019)	PUBMED:30986853	9606	9606	Low Throughput	-	-	assayed using HTRF (homogeneous time-resolved fluorescence) with KLHL41-bound fluorophore as donor and various hit protein-bound fluorophores as acceptor	-	BIOGRID	O60662	-	NP_006054	Q86VF7	-	NP_006166|NP_932326|NP_001248392	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2633113	8945	1499	114457	107880	RP11-529I10.2	OK/SW-cl.35	BTRC	CTNNB1	BETA-TRCP|FBW1A|FBXW1|FBXW1A|FWD1|bTrCP|bTrCP1|betaTrCP	CTNNB|MRD19|armadillo	Reconstituted Complex	physical	Simonetta KR (2019)	PUBMED:30926793	9606	9606	Low Throughput	-	-	assayed using TR-FRET (time-resolved fluorescence resonance energy transfer) with beta-TrCP-bound fluorophore as donor and beta-catenin-bound fluorophore as acceptor; FP (fluorescence polarization) experiments; and SPR (surface plasmon resonance) experiments	-	BIOGRID	Q9Y297	B2R8L3|B7Z3H4|Q68DS0	NP_003930|NP_378663|NP_001243785	P35222	B4DGU4|A0A024R2Q3	NP_001091680|NP_001091679|NP_001895|NP_001317658	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2633217	6924	8065	112786	113743	MSTP059	-	TCEB3	CUL5	EloA|SIII|SIII p110|TCEB3A	VACM-1|VACM1	FRET	physical	Weems JC (2019)	PUBMED:30794906	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14241	-	NP_003189	Q93034	-	NP_003469	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2634379	2932	8851	109187	114376	-	-	GSK3B	CDK5R1	-	CDK5P35|CDK5R|NCK5A|p23|p25|p35|p35nck5a	FRET	physical	Chow HM (2014)	PUBMED:25331900	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P49841	Q6FI27	NP_001139628|NP_001341525|NP_002084	Q15078	Q8N619	NP_003876	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2634380	1020	8851	107455	114376	-	-	CDK5	CDK5R1	PSSALRE	CDK5P35|CDK5R|NCK5A|p23|p25|p35|p35nck5a	FRET	physical	Chow HM (2014)	PUBMED:25331900	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q00535	-	NP_001157882|NP_004926	Q15078	Q8N619	NP_003876	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2634415	2064	5709	108376	111682	-	-	ERBB2	PSMD3	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	P58|RPN3|S3|TSTA2	FRET	physical	Fararjeh AS (2019)	PUBMED:31013812	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	O43242	-	NP_002800	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2634960	55670	55670	120802	120802	-	-	PEX26	PEX26	PBD7A|PBD7B|PEX26M1T|Pex26pM1T	PBD7A|PBD7B|PEX26M1T|Pex26pM1T	FRET	physical	Guder P (2019)	PUBMED:30366024	9606	9606	Low Throughput	-	-	assayed using BRET (bioluminescent resonance energy transfer) with PEX26-bound fluorophore as donor and PEX26-bound fluorophore as acceptor	-	BIOGRID	Q7Z412	A0A024R100|Q7Z2D7	NP_001186248|NP_001121121|NP_060399	Q7Z412	A0A024R100|Q7Z2D7	NP_001186248|NP_001121121|NP_060399	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2634962	55670	5190	120802	111213	-	RP1-125M3.3	PEX26	PEX6	PBD7A|PBD7B|PEX26M1T|Pex26pM1T	PAF-2|PAF2|PBD4A|PDB4B|PXAAA1	FRET	physical	Guder P (2019)	PUBMED:30366024	9606	9606	Low Throughput	-	-	assayed using BRET (bioluminescent resonance energy transfer)	-	BIOGRID	Q7Z412	A0A024R100|Q7Z2D7	NP_001186248|NP_001121121|NP_060399	Q13608	A0A024RD09	NP_001303242|NP_000278	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2634963	55670	5824	120802	111782	-	OK/SW-cl.22	PEX26	PEX19	PBD7A|PBD7B|PEX26M1T|Pex26pM1T	D1S2223E|HK33|PBD12A|PMP1|PMPI|PXF|PXMP1	FRET	physical	Guder P (2019)	PUBMED:30366024	9606	9606	Low Throughput	-	-	assayed using BRET (bioluminescent resonance energy transfer)	-	BIOGRID	Q7Z412	A0A024R100|Q7Z2D7	NP_001186248|NP_001121121|NP_060399	P40855	-	NP_001180573|NP_002848	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2634964	55670	5195	120802	111218	-	-	PEX26	PEX14	PBD7A|PBD7B|PEX26M1T|Pex26pM1T	NAPP2|PBD13A|Pex14p|dJ734G22.2	FRET	physical	Guder P (2019)	PUBMED:30366024	9606	9606	Low Throughput	-	-	assayed using BRET (bioluminescent resonance energy transfer)	-	BIOGRID	Q7Z412	A0A024R100|Q7Z2D7	NP_001186248|NP_001121121|NP_060399	O75381	-	NP_004556	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2635220	4780	9817	110852	115156	-	-	NFE2L2	KEAP1	NRF2	INrf2|KLHL19	FRET	physical	Dikovskaya D (2019)	PUBMED:30793592	9606	9606	Low Throughput	-	-	assayed using FLIM-FRET (fluorescence lifetime imaging microscopy-fluorescence resonance energy transfer) with Nrf2-bound fluorophore as donor and Keap1-bound fluorophore as acceptor	-	BIOGRID	Q16236	-	NP_006155|NP_001138884|NP_001138885|NP_001300829|NP_001300830|NP_001300831	Q14145	A0A024R7C0	NP_036421|NP_987096	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2635243	55611	7316	120751	113164	HSPC263	-	OTUB1	UBC	OTB1|OTU1	HMG20	Biochemical Activity	physical	Bialas J (2019)	PUBMED:30718280	9606	9606	Low Throughput	-	Phosphorylation	in vitro deubiquitination with OTUB1 as deubiquitinase and di-ubiquitin as substrate, assayed using immunoblots and FRET (fluorescence resonance energy transfer)	-	BIOGRID	Q96FW1	B3KUV5	NP_060140	P0CG48	-	NP_066289	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2635274	2555	2566	108829	108840	-	-	GABRA2	GABRG2	-	CAE2|ECA2|GEFSP3	FRET	physical	Lorenz-Guertin JM (2019)	PUBMED:31080408	9606	9606	Low Throughput	-	-	assayed using FRET (fluorescence resonance energy transfer) with GABRA2 (alpha2)-bound fluorophore as donor and GABRG2 (gamma2)-bound fluorophore as acceptor	-	BIOGRID	P47869	A0A024R9X6	NP_001273756|NP_001107647|NP_000798	P18507	-	NP_001362270|NP_001362271|NP_001362272|NP_001362273|NP_001362274|NP_001362275|NP_001362276|NP_001362277|NP_944494|NP_001362279|NP_001362269|NP_001362268|NP_944493|NP_001362278|NP_000807	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2638231	2915	87	109172	106602	-	-	GRM5	ACTN1	GPRC1E|MGLUR5|PPP1R86|mGlu5	BDPLT15	FRET	physical	Cabello N (2007)	PUBMED:17311919	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P41594	A8K5P7	NP_000833|NP_001137303	P12814	A0A024R694	NP_001093|NP_001123477|NP_001123476	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2638362	51741	7157	119707	113010	-	-	WWOX	TP53	D16S432E|FOR|FRA16D|HHCMA56|PRO0128|SCAR12|SDR41C1|WOX1	BCC7|LFS1|P53|TRP53	FRET	physical	Chou PY (2019)	PUBMED:31315632	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9NZC7	-	NP_057457|NP_570859|NP_001278926|NP_570607	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2638363	9220	7157	114653	113010	-	-	TIAF1	TP53	MAJN|SPR210	BCC7|LFS1|P53|TRP53	FRET	physical	Chou PY (2019)	PUBMED:31315632	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O95411	-	NP_004731	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640196	1268	6755	107668	112633	RP1-23D17.1	-	CNR1	SSTR5	CANN6|CB-R|CB1|CB1A|CB1K5|CB1R|CNR	SS-5-R	FRET	physical	Zou S (2017)	PUBMED:27984180	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P21554	V5KA96|S5TLS4	NP_001153698|NP_149421|NP_057167|NP_001153731|NP_001153730	P35346	-	NP_001166031|NP_001044	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640197	1268	1268	107668	107668	RP1-23D17.1	RP1-23D17.1	CNR1	CNR1	CANN6|CB-R|CB1|CB1A|CB1K5|CB1R|CNR	CANN6|CB-R|CB1|CB1A|CB1K5|CB1R|CNR	FRET	physical	Zou S (2017)	PUBMED:27984180	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P21554	V5KA96|S5TLS4	NP_001153698|NP_149421|NP_057167|NP_001153731|NP_001153730	P21554	V5KA96|S5TLS4	NP_001153698|NP_149421|NP_057167|NP_001153731|NP_001153730	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640198	6755	6755	112633	112633	-	-	SSTR5	SSTR5	SS-5-R	SS-5-R	FRET	physical	Zou S (2017)	PUBMED:27984180	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P35346	-	NP_001166031|NP_001044	P35346	-	NP_001166031|NP_001044	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640549	340273	1969	131028	108288	tcag7.1091	-	ABCB5	EPHA2	ABCB5alpha|ABCB5beta|EST422562	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q2M3G0	A0A024RA03	NP_848654|NP_001157465|NP_001157414|NP_001157413	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640550	340273	2264	131028	108555	tcag7.1091	-	ABCB5	FGFR4	ABCB5alpha|ABCB5beta|EST422562	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q2M3G0	A0A024RA03	NP_848654|NP_001157465|NP_001157414|NP_001157413	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640551	207	207	106710	106710	-	-	AKT1	AKT1	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640552	84335	84335	124059	124059	-	-	AKT1S1	AKT1S1	Lobe|PRAS40	Lobe|PRAS40	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q96B36	A0A024QZF6	NP_115751|NP_001265089|NP_001265088|NP_001092102|NP_001092103	Q96B36	A0A024QZF6	NP_115751|NP_001265089|NP_001265088|NP_001092102|NP_001092103	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640553	369	369	106864	106864	RP1-230G1.1	RP1-230G1.1	ARAF	ARAF	A-RAF|ARAF1|PKS2|RAFA1	A-RAF|ARAF1|PKS2|RAFA1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640554	369	8678	106864	114226	RP1-230G1.1	-	ARAF	BECN1	A-RAF|ARAF1|PKS2|RAFA1	ATG6|VPS30|beclin1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640555	369	1019	106864	107454	RP1-230G1.1	-	ARAF	CDK4	A-RAF|ARAF1|PKS2|RAFA1	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640556	369	1969	106864	108288	RP1-230G1.1	-	ARAF	EPHA2	A-RAF|ARAF1|PKS2|RAFA1	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640557	369	3265	106864	109501	RP1-230G1.1	-	ARAF	HRAS	A-RAF|ARAF1|PKS2|RAFA1	C-BAS/HAS|C-H-RAS|C-HA-RAS1|CTLO|H-RASIDX|HAMSV|HRAS1|RASH1|p21ras	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	P01112	X5D945	NP_001123914|NP_005334|NP_789765	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640558	369	5606	106864	111592	RP1-230G1.1	-	ARAF	MAP2K3	A-RAF|ARAF1|PKS2|RAFA1	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640559	369	4609	106864	110694	RP1-230G1.1	-	ARAF	MYC	A-RAF|ARAF1|PKS2|RAFA1	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640560	369	11186	106864	116356	RP1-230G1.1	-	ARAF	RASSF1	A-RAF|ARAF1|PKS2|RAFA1	123F2|NORE2A|RASSF1A|RDA32|REH3P21	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640561	369	6794	106864	112670	RP1-230G1.1	-	ARAF	STK11	A-RAF|ARAF1|PKS2|RAFA1	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640562	369	7532	106864	113364	RP1-230G1.1	-	ARAF	YWHAG	A-RAF|ARAF1|PKS2|RAFA1	14-3-3GAMMA|PPP1R170	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	P61981	-	NP_036611	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640563	405	207	106898	106710	-	-	ARNT	AKT1	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640564	405	405	106898	106898	-	-	ARNT	ARNT	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640565	405	894	106898	107334	-	-	ARNT	CCND2	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640566	405	898	106898	107338	-	-	ARNT	CCNE1	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640567	405	1019	106898	107454	-	-	ARNT	CDK4	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640568	405	1021	106898	107456	-	-	ARNT	CDK6	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640569	405	1029	106898	107463	-	-	ARNT	CDKN2A	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640570	405	1030	106898	107464	-	RP11-149I2.1	ARNT	CDKN2B	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640571	405	1969	106898	108288	-	-	ARNT	EPHA2	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640572	405	2264	106898	108555	-	-	ARNT	FGFR4	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640573	405	6794	106898	112670	-	-	ARNT	STK11	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640574	6790	207	112666	106710	RP5-1167H4.6	-	AURKA	AKT1	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640575	6790	898	112666	107338	RP5-1167H4.6	-	AURKA	CCNE1	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640576	6790	1969	112666	108288	RP5-1167H4.6	-	AURKA	EPHA2	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640577	6790	26524	112666	117727	RP5-1167H4.6	-	AURKA	LATS2	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640578	6790	7248	112666	113099	RP5-1167H4.6	-	AURKA	TSC1	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	LAM|TSC	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640579	8678	8678	114226	114226	-	-	BECN1	BECN1	ATG6|VPS30|beclin1	ATG6|VPS30|beclin1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640580	8678	1021	114226	107456	-	-	BECN1	CDK6	ATG6|VPS30|beclin1	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640581	8678	1029	114226	107463	-	-	BECN1	CDKN2A	ATG6|VPS30|beclin1	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640582	8678	1969	114226	108288	-	-	BECN1	EPHA2	ATG6|VPS30|beclin1	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640583	8678	2264	114226	108555	-	-	BECN1	FGFR4	ATG6|VPS30|beclin1	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640584	8678	2648	114226	108918	-	-	BECN1	KAT2A	ATG6|VPS30|beclin1	GCN5|GCN5L2|PCAF-b|hGCN5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	Q92830	-	NP_066564	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640585	8678	26524	114226	117727	-	-	BECN1	LATS2	ATG6|VPS30|beclin1	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640586	8678	5606	114226	111592	-	-	BECN1	MAP2K3	ATG6|VPS30|beclin1	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640587	8678	4771	114226	110844	-	-	BECN1	NF2	ATG6|VPS30|beclin1	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640588	8678	7248	114226	113099	-	-	BECN1	TSC1	ATG6|VPS30|beclin1	LAM|TSC	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640589	673	673	107141	107141	-	-	BRAF	BRAF	B-RAF1|BRAF1|NS7|RAFB1	B-RAF1|BRAF1|NS7|RAFB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P15056	-	NP_001365399|NP_001365396|NP_001365397|NP_001365402|NP_001365403|NP_001365400|NP_001365401|NP_001365404|NP_004324|NP_001341538|NP_001361173|NP_001361187|NP_001365398	P15056	-	NP_001365399|NP_001365396|NP_001365397|NP_001365402|NP_001365403|NP_001365400|NP_001365401|NP_001365404|NP_004324|NP_001341538|NP_001361173|NP_001361187|NP_001365398	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640590	673	3265	107141	109501	-	-	BRAF	HRAS	B-RAF1|BRAF1|NS7|RAFB1	C-BAS/HAS|C-H-RAS|C-HA-RAS1|CTLO|H-RASIDX|HAMSV|HRAS1|RASH1|p21ras	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P15056	-	NP_001365399|NP_001365396|NP_001365397|NP_001365402|NP_001365403|NP_001365400|NP_001365401|NP_001365404|NP_004324|NP_001341538|NP_001361173|NP_001361187|NP_001365398	P01112	X5D945	NP_001123914|NP_005334|NP_789765	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640591	673	2810	107141	109072	-	-	BRAF	SFN	B-RAF1|BRAF1|NS7|RAFB1	YWHAS	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P15056	-	NP_001365399|NP_001365396|NP_001365397|NP_001365402|NP_001365403|NP_001365400|NP_001365401|NP_001365404|NP_004324|NP_001341538|NP_001361173|NP_001361187|NP_001365398	P31947	-	NP_006133	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640592	673	7532	107141	113364	-	-	BRAF	YWHAG	B-RAF1|BRAF1|NS7|RAFB1	14-3-3GAMMA|PPP1R170	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P15056	-	NP_001365399|NP_001365396|NP_001365397|NP_001365402|NP_001365403|NP_001365400|NP_001365401|NP_001365404|NP_004324|NP_001341538|NP_001361173|NP_001361187|NP_001365398	P61981	-	NP_036611	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640593	673	7534	107141	113366	-	-	BRAF	YWHAZ	B-RAF1|BRAF1|NS7|RAFB1	14-3-3-zeta|HEL-S-3|HEL4|KCIP-1|YWHAD	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P15056	-	NP_001365399|NP_001365396|NP_001365397|NP_001365402|NP_001365403|NP_001365400|NP_001365401|NP_001365404|NP_004324|NP_001341538|NP_001361173|NP_001361187|NP_001365398	P63104	D0PNI1	NP_003397|NP_001129174|NP_001129171|NP_001129172|NP_001129173|NP_663723	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640594	23624	894	117156	107334	-	-	CBLC	CCND2	CBL-3|CBL-SL|RNF57	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9ULV8	-	NP_001124324|NP_036248	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640595	23624	1969	117156	108288	-	-	CBLC	EPHA2	CBL-3|CBL-SL|RNF57	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9ULV8	-	NP_001124324|NP_036248	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640596	23624	4771	117156	110844	-	-	CBLC	NF2	CBL-3|CBL-SL|RNF57	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9ULV8	-	NP_001124324|NP_036248	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640597	23624	6794	117156	112670	-	-	CBLC	STK11	CBL-3|CBL-SL|RNF57	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9ULV8	-	NP_001124324|NP_036248	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640598	894	6790	107334	112666	-	RP5-1167H4.6	CCND2	AURKA	KIAK0002|MPPH3	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P30279	-	NP_001750	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640599	894	894	107334	107334	-	-	CCND2	CCND2	KIAK0002|MPPH3	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P30279	-	NP_001750	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640600	894	898	107334	107338	-	-	CCND2	CCNE1	KIAK0002|MPPH3	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P30279	-	NP_001750	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640601	894	1969	107334	108288	-	-	CCND2	EPHA2	KIAK0002|MPPH3	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P30279	-	NP_001750	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640602	894	2264	107334	108555	-	-	CCND2	FGFR4	KIAK0002|MPPH3	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P30279	-	NP_001750	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640603	894	26524	107334	117727	-	-	CCND2	LATS2	KIAK0002|MPPH3	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P30279	-	NP_001750	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640604	894	6794	107334	112670	-	-	CCND2	STK11	KIAK0002|MPPH3	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P30279	-	NP_001750	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640605	894	8463	107334	114041	-	-	CCND2	TEAD2	KIAK0002|MPPH3	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P30279	-	NP_001750	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640606	960	207	107398	106710	AL133330.1	-	CD44	AKT1	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640607	960	2264	107398	108555	AL133330.1	-	CD44	FGFR4	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640608	1019	207	107454	106710	-	-	CDK4	AKT1	CMM3|PSK-J3	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P11802	A0A024RBB6	NP_000066	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640609	1019	894	107454	107334	-	-	CDK4	CCND2	CMM3|PSK-J3	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P11802	A0A024RBB6	NP_000066	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640610	1019	960	107454	107398	-	AL133330.1	CDK4	CD44	CMM3|PSK-J3	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P11802	A0A024RBB6	NP_000066	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640611	1019	1019	107454	107454	-	-	CDK4	CDK4	CMM3|PSK-J3	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P11802	A0A024RBB6	NP_000066	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640612	1019	1969	107454	108288	-	-	CDK4	EPHA2	CMM3|PSK-J3	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P11802	A0A024RBB6	NP_000066	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640613	1019	2264	107454	108555	-	-	CDK4	FGFR4	CMM3|PSK-J3	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P11802	A0A024RBB6	NP_000066	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640614	1019	26524	107454	117727	-	-	CDK4	LATS2	CMM3|PSK-J3	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P11802	A0A024RBB6	NP_000066	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640615	1019	6794	107454	112670	-	-	CDK4	STK11	CMM3|PSK-J3	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P11802	A0A024RBB6	NP_000066	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640616	1021	207	107456	106710	-	-	CDK6	AKT1	MCPH12|PLSTIRE	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q00534	-	NP_001138778|NP_001250	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640617	1021	894	107456	107334	-	-	CDK6	CCND2	MCPH12|PLSTIRE	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q00534	-	NP_001138778|NP_001250	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640618	1021	898	107456	107338	-	-	CDK6	CCNE1	MCPH12|PLSTIRE	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q00534	-	NP_001138778|NP_001250	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640619	1021	960	107456	107398	-	AL133330.1	CDK6	CD44	MCPH12|PLSTIRE	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q00534	-	NP_001138778|NP_001250	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640620	1021	1019	107456	107454	-	-	CDK6	CDK4	MCPH12|PLSTIRE	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q00534	-	NP_001138778|NP_001250	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640621	1021	1021	107456	107456	-	-	CDK6	CDK6	MCPH12|PLSTIRE	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q00534	-	NP_001138778|NP_001250	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640622	1021	1969	107456	108288	-	-	CDK6	EPHA2	MCPH12|PLSTIRE	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q00534	-	NP_001138778|NP_001250	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640623	1021	2264	107456	108555	-	-	CDK6	FGFR4	MCPH12|PLSTIRE	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q00534	-	NP_001138778|NP_001250	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640624	1021	26524	107456	117727	-	-	CDK6	LATS2	MCPH12|PLSTIRE	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q00534	-	NP_001138778|NP_001250	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640625	1021	6794	107456	112670	-	-	CDK6	STK11	MCPH12|PLSTIRE	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q00534	-	NP_001138778|NP_001250	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640626	1029	894	107463	107334	-	-	CDKN2A	CCND2	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640627	1029	898	107463	107338	-	-	CDKN2A	CCNE1	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640628	1029	1029	107463	107463	-	-	CDKN2A	CDKN2A	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640629	1029	1969	107463	108288	-	-	CDKN2A	EPHA2	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640630	1029	6794	107463	112670	-	-	CDKN2A	STK11	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640631	1030	207	107464	106710	RP11-149I2.1	-	CDKN2B	AKT1	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42772	K7PPU3	NP_004927|NP_511042	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640632	1030	894	107464	107334	RP11-149I2.1	-	CDKN2B	CCND2	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42772	K7PPU3	NP_004927|NP_511042	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640633	1030	1019	107464	107454	RP11-149I2.1	-	CDKN2B	CDK4	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42772	K7PPU3	NP_004927|NP_511042	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640634	1030	1021	107464	107456	RP11-149I2.1	-	CDKN2B	CDK6	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42772	K7PPU3	NP_004927|NP_511042	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640635	1030	1029	107464	107463	RP11-149I2.1	-	CDKN2B	CDKN2A	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42772	K7PPU3	NP_004927|NP_511042	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640636	1030	1030	107464	107464	RP11-149I2.1	RP11-149I2.1	CDKN2B	CDKN2B	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42772	K7PPU3	NP_004927|NP_511042	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640637	1031	207	107465	106710	RP11-278J17.2	-	CDKN2C	AKT1	INK4C|p18|p18-INK4C	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42773	Q6ICV4	NP_001253|NP_523240	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640638	1031	894	107465	107334	RP11-278J17.2	-	CDKN2C	CCND2	INK4C|p18|p18-INK4C	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42773	Q6ICV4	NP_001253|NP_523240	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640639	1031	1019	107465	107454	RP11-278J17.2	-	CDKN2C	CDK4	INK4C|p18|p18-INK4C	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42773	Q6ICV4	NP_001253|NP_523240	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640640	1031	1021	107465	107456	RP11-278J17.2	-	CDKN2C	CDK6	INK4C|p18|p18-INK4C	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42773	Q6ICV4	NP_001253|NP_523240	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640641	1031	2264	107465	108555	RP11-278J17.2	-	CDKN2C	FGFR4	INK4C|p18|p18-INK4C	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42773	Q6ICV4	NP_001253|NP_523240	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640642	1602	1602	107972	107972	RP11-512J14.1	RP11-512J14.1	DACH1	DACH1	DACH	DACH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UI36	A0A087WY66|A0A087WZA7	NP_542938|NP_004383|NP_542937	Q9UI36	A0A087WY66|A0A087WZA7	NP_542938|NP_004383|NP_542937	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640643	1602	2308	107972	108597	RP11-512J14.1	-	DACH1	FOXO1	DACH	FKH1|FKHR|FOXO1A	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UI36	A0A087WY66|A0A087WZA7	NP_542938|NP_004383|NP_542937	Q12778	-	NP_002006	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640644	1602	4609	107972	110694	RP11-512J14.1	-	DACH1	MYC	DACH	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UI36	A0A087WY66|A0A087WZA7	NP_542938|NP_004383|NP_542937	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640645	1602	6658	107972	112541	RP11-512J14.1	-	DACH1	SOX3	DACH	GHDX|MRGH|PHP|PHPX|SOXB	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UI36	A0A087WY66|A0A087WZA7	NP_542938|NP_004383|NP_542937	P41225	-	NP_005625	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640646	1602	8463	107972	114041	RP11-512J14.1	-	DACH1	TEAD2	DACH	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UI36	A0A087WY66|A0A087WZA7	NP_542938|NP_004383|NP_542937	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640647	1956	4771	108276	110844	-	-	EGFR	NF2	ERBB|ERBB1|HER1|NISBD2|PIG61|mENA	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P00533	-	NP_001333829|NP_001333828|NP_958440|NP_005219|NP_001333827|NP_001333826|NP_958441|NP_001333870|NP_958439	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640648	1969	207	108288	106710	-	-	EPHA2	AKT1	ARCC2|CTPA|CTPP1|CTRCT6|ECK	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P29317	A0A024QZA8	NP_004422|NP_001316019	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640649	1969	1030	108288	107464	-	RP11-149I2.1	EPHA2	CDKN2B	ARCC2|CTPA|CTPP1|CTRCT6|ECK	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P29317	A0A024QZA8	NP_004422|NP_001316019	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640650	1969	1969	108288	108288	-	-	EPHA2	EPHA2	ARCC2|CTPA|CTPP1|CTRCT6|ECK	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P29317	A0A024QZA8	NP_004422|NP_001316019	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640651	1969	5606	108288	111592	-	-	EPHA2	MAP2K3	ARCC2|CTPA|CTPP1|CTRCT6|ECK	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P29317	A0A024QZA8	NP_004422|NP_001316019	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640652	2064	894	108376	107334	-	-	ERBB2	CCND2	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640653	2064	1030	108376	107464	-	RP11-149I2.1	ERBB2	CDKN2B	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640654	2064	2264	108376	108555	-	-	ERBB2	FGFR4	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640655	2064	26524	108376	117727	-	-	ERBB2	LATS2	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640656	2064	6794	108376	112670	-	-	ERBB2	STK11	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640657	2264	207	108555	106710	-	-	FGFR4	AKT1	CD334|JTK2|TKF	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640658	2264	1030	108555	107464	-	RP11-149I2.1	FGFR4	CDKN2B	CD334|JTK2|TKF	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640659	2264	1969	108555	108288	-	-	FGFR4	EPHA2	CD334|JTK2|TKF	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640660	2264	2264	108555	108555	-	-	FGFR4	FGFR4	CD334|JTK2|TKF	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640661	2264	5606	108555	111592	-	-	FGFR4	MAP2K3	CD334|JTK2|TKF	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640662	51343	207	119489	106710	-	-	FZR1	AKT1	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640663	51343	405	119489	106898	-	-	FZR1	ARNT	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640664	51343	1021	119489	107456	-	-	FZR1	CDK6	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640665	51343	1029	119489	107463	-	-	FZR1	CDKN2A	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640666	51343	1030	119489	107464	-	RP11-149I2.1	FZR1	CDKN2B	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640667	51343	1969	119489	108288	-	-	FZR1	EPHA2	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640668	51343	2064	119489	108376	-	-	FZR1	ERBB2	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640669	51343	2264	119489	108555	-	-	FZR1	FGFR4	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640670	51343	51343	119489	119489	-	-	FZR1	FZR1	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640671	51343	26524	119489	117727	-	-	FZR1	LATS2	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640672	51343	4609	119489	110694	-	-	FZR1	MYC	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640673	51343	6794	119489	112670	-	-	FZR1	STK11	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640674	51343	7015	119489	112874	-	-	FZR1	TERT	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640675	148979	148979	127182	127182	-	-	GLIS1	GLIS1	-	-	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8NBF1	-	NP_671726	Q8NBF1	-	NP_671726	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640676	148979	6658	127182	112541	-	-	GLIS1	SOX3	-	GHDX|MRGH|PHP|PHPX|SOXB	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8NBF1	-	NP_671726	P41225	-	NP_005625	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640677	148979	6929	127182	112791	-	-	GLIS1	TCF3	-	E2A|E47|ITF1|TCF-3|VDIR|bHLHb21	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8NBF1	-	NP_671726	P15923	Q2TB39|X6REB3	NP_001129611|NP_003191	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640678	84662	207	124182	106710	-	-	GLIS2	AKT1	NKL|NPHP7	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640679	84662	8678	124182	114226	-	-	GLIS2	BECN1	NKL|NPHP7	ATG6|VPS30|beclin1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640680	84662	898	124182	107338	-	-	GLIS2	CCNE1	NKL|NPHP7	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640681	84662	1019	124182	107454	-	-	GLIS2	CDK4	NKL|NPHP7	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640682	84662	1021	124182	107456	-	-	GLIS2	CDK6	NKL|NPHP7	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640683	84662	1969	124182	108288	-	-	GLIS2	EPHA2	NKL|NPHP7	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640684	84662	2064	124182	108376	-	-	GLIS2	ERBB2	NKL|NPHP7	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640685	84662	2264	124182	108555	-	-	GLIS2	FGFR4	NKL|NPHP7	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640686	84662	84662	124182	124182	-	-	GLIS2	GLIS2	NKL|NPHP7	NKL|NPHP7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	Q9BZE0	-	NP_115964	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640687	84662	4233	124182	110391	-	-	GLIS2	MET	NKL|NPHP7	AUTS9|HGFR|RCCP2|c-Met	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640688	84662	4609	124182	110694	-	-	GLIS2	MYC	NKL|NPHP7	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640689	84662	4771	124182	110844	-	-	GLIS2	NF2	NKL|NPHP7	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640690	84662	6794	124182	112670	-	-	GLIS2	STK11	NKL|NPHP7	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640691	84662	8463	124182	114041	-	-	GLIS2	TEAD2	NKL|NPHP7	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640692	2911	894	109168	107334	-	-	GRM1	CCND2	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640693	2911	960	109168	107398	-	AL133330.1	GRM1	CD44	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640694	2911	1030	109168	107464	-	RP11-149I2.1	GRM1	CDKN2B	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640695	2911	1969	109168	108288	-	-	GRM1	EPHA2	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640696	2911	2264	109168	108555	-	-	GRM1	FGFR4	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640697	3082	1969	109330	108288	-	-	HGF	EPHA2	DFNB39|F-TCF|HGFB|HPTA|SF	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640698	3082	26524	109330	117727	-	-	HGF	LATS2	DFNB39|F-TCF|HGFB|HPTA|SF	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640699	3082	4609	109330	110694	-	-	HGF	MYC	DFNB39|F-TCF|HGFB|HPTA|SF	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640700	3082	6794	109330	112670	-	-	HGF	STK11	DFNB39|F-TCF|HGFB|HPTA|SF	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640701	3091	1029	109338	107463	-	-	HIF1A	CDKN2A	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640702	2648	894	108918	107334	-	-	KAT2A	CCND2	GCN5|GCN5L2|PCAF-b|hGCN5	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q92830	-	NP_066564	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640703	2648	6794	108918	112670	-	-	KAT2A	STK11	GCN5|GCN5L2|PCAF-b|hGCN5	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q92830	-	NP_066564	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640704	11014	8678	116204	114226	tcag7.840	-	KDELR2	BECN1	ELP-1|ERD2.2	ATG6|VPS30|beclin1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640705	11014	894	116204	107334	tcag7.840	-	KDELR2	CCND2	ELP-1|ERD2.2	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640706	11014	960	116204	107398	tcag7.840	AL133330.1	KDELR2	CD44	ELP-1|ERD2.2	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640707	11014	1969	116204	108288	tcag7.840	-	KDELR2	EPHA2	ELP-1|ERD2.2	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640708	11014	2264	116204	108555	tcag7.840	-	KDELR2	FGFR4	ELP-1|ERD2.2	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640709	11014	2911	116204	109168	tcag7.840	-	KDELR2	GRM1	ELP-1|ERD2.2	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640710	11014	3480	116204	109701	tcag7.840	-	KDELR2	IGF1R	ELP-1|ERD2.2	CD221|IGFIR|IGFR|JTK13	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	P08069	C9J5X1	NP_000866|NP_001278787	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640711	11014	2648	116204	108918	tcag7.840	-	KDELR2	KAT2A	ELP-1|ERD2.2	GCN5|GCN5L2|PCAF-b|hGCN5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	Q92830	-	NP_066564	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640712	11014	11014	116204	116204	tcag7.840	tcag7.840	KDELR2	KDELR2	ELP-1|ERD2.2	ELP-1|ERD2.2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	P33947	A0A024QZT7	NP_001094073|NP_006845	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640713	11014	26524	116204	117727	tcag7.840	-	KDELR2	LATS2	ELP-1|ERD2.2	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640714	11014	4609	116204	110694	tcag7.840	-	KDELR2	MYC	ELP-1|ERD2.2	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640715	11014	4771	116204	110844	tcag7.840	-	KDELR2	NF2	ELP-1|ERD2.2	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640716	11014	5156	116204	111182	tcag7.840	-	KDELR2	PDGFRA	ELP-1|ERD2.2	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	P16234	-	NP_006197	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640717	11014	6794	116204	112670	tcag7.840	-	KDELR2	STK11	ELP-1|ERD2.2	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640718	9817	9817	115156	115156	-	-	KEAP1	KEAP1	INrf2|KLHL19	INrf2|KLHL19	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14145	A0A024R7C0	NP_036421|NP_987096	Q14145	A0A024R7C0	NP_036421|NP_987096	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640719	3845	369	110043	106864	-	RP1-230G1.1	KRAS	ARAF	C-K-RAS|CFC2|K-RAS2A|K-RAS2B|K-RAS4A|K-RAS4B|KI-RAS|KRAS1|KRAS2|NS|NS3|RASK2	A-RAF|ARAF1|PKS2|RAFA1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01116	A0A024RAV5|I1SRC5|L7RSL8	NP_001356716|NP_203524|NP_001356715|NP_004976	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640720	3845	673	110043	107141	-	-	KRAS	BRAF	C-K-RAS|CFC2|K-RAS2A|K-RAS2B|K-RAS4A|K-RAS4B|KI-RAS|KRAS1|KRAS2|NS|NS3|RASK2	B-RAF1|BRAF1|NS7|RAFB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01116	A0A024RAV5|I1SRC5|L7RSL8	NP_001356716|NP_203524|NP_001356715|NP_004976	P15056	-	NP_001365399|NP_001365396|NP_001365397|NP_001365402|NP_001365403|NP_001365400|NP_001365401|NP_001365404|NP_004324|NP_001341538|NP_001361173|NP_001361187|NP_001365398	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640721	3845	5894	110043	111831	-	-	KRAS	RAF1	C-K-RAS|CFC2|K-RAS2A|K-RAS2B|K-RAS4A|K-RAS4B|KI-RAS|KRAS1|KRAS2|NS|NS3|RASK2	CMD1NN|CRAF|NS5|Raf-1|c-Raf	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01116	A0A024RAV5|I1SRC5|L7RSL8	NP_001356716|NP_203524|NP_001356715|NP_004976	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640722	26524	207	117727	106710	-	-	LATS2	AKT1	KPM	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NRM7	A0A024RDM3	NP_055387	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640723	26524	1030	117727	107464	-	RP11-149I2.1	LATS2	CDKN2B	KPM	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NRM7	A0A024RDM3	NP_055387	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640724	26524	1969	117727	108288	-	-	LATS2	EPHA2	KPM	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NRM7	A0A024RDM3	NP_055387	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640725	26524	2264	117727	108555	-	-	LATS2	FGFR4	KPM	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NRM7	A0A024RDM3	NP_055387	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640726	26524	26524	117727	117727	-	-	LATS2	LATS2	KPM	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NRM7	A0A024RDM3	NP_055387	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640727	5606	207	111592	106710	-	-	MAP2K3	AKT1	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640728	5606	405	111592	106898	-	-	MAP2K3	ARNT	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640729	5606	6790	111592	112666	-	RP5-1167H4.6	MAP2K3	AURKA	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640730	5606	894	111592	107334	-	-	MAP2K3	CCND2	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640731	5606	1019	111592	107454	-	-	MAP2K3	CDK4	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640732	5606	1021	111592	107456	-	-	MAP2K3	CDK6	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640733	5607	207	111593	106710	-	-	MAP2K5	AKT1	HsT17454|MAPKK5|MEK5|PRKMK5	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640734	5607	894	111593	107334	-	-	MAP2K5	CCND2	HsT17454|MAPKK5|MEK5|PRKMK5	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640735	5607	960	111593	107398	-	AL133330.1	MAP2K5	CD44	HsT17454|MAPKK5|MEK5|PRKMK5	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640736	5607	1019	111593	107454	-	-	MAP2K5	CDK4	HsT17454|MAPKK5|MEK5|PRKMK5	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640737	5607	1021	111593	107456	-	-	MAP2K5	CDK6	HsT17454|MAPKK5|MEK5|PRKMK5	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640738	5607	1029	111593	107463	-	-	MAP2K5	CDKN2A	HsT17454|MAPKK5|MEK5|PRKMK5	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640739	5607	1030	111593	107464	-	RP11-149I2.1	MAP2K5	CDKN2B	HsT17454|MAPKK5|MEK5|PRKMK5	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640740	5607	1969	111593	108288	-	-	MAP2K5	EPHA2	HsT17454|MAPKK5|MEK5|PRKMK5	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640741	5607	2064	111593	108376	-	-	MAP2K5	ERBB2	HsT17454|MAPKK5|MEK5|PRKMK5	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640742	5607	2264	111593	108555	-	-	MAP2K5	FGFR4	HsT17454|MAPKK5|MEK5|PRKMK5	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640743	5607	84662	111593	124182	-	-	MAP2K5	GLIS2	HsT17454|MAPKK5|MEK5|PRKMK5	NKL|NPHP7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	Q9BZE0	-	NP_115964	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640744	5607	2911	111593	109168	-	-	MAP2K5	GRM1	HsT17454|MAPKK5|MEK5|PRKMK5	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640745	5607	3082	111593	109330	-	-	MAP2K5	HGF	HsT17454|MAPKK5|MEK5|PRKMK5	DFNB39|F-TCF|HGFB|HPTA|SF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640746	5607	26524	111593	117727	-	-	MAP2K5	LATS2	HsT17454|MAPKK5|MEK5|PRKMK5	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640747	5607	5606	111593	111592	-	-	MAP2K5	MAP2K3	HsT17454|MAPKK5|MEK5|PRKMK5	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640748	5607	5607	111593	111593	-	-	MAP2K5	MAP2K5	HsT17454|MAPKK5|MEK5|PRKMK5	HsT17454|MAPKK5|MEK5|PRKMK5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640749	5607	4233	111593	110391	-	-	MAP2K5	MET	HsT17454|MAPKK5|MEK5|PRKMK5	AUTS9|HGFR|RCCP2|c-Met	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640750	5607	4609	111593	110694	-	-	MAP2K5	MYC	HsT17454|MAPKK5|MEK5|PRKMK5	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640751	5607	4771	111593	110844	-	-	MAP2K5	NF2	HsT17454|MAPKK5|MEK5|PRKMK5	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640752	5607	5156	111593	111182	-	-	MAP2K5	PDGFRA	HsT17454|MAPKK5|MEK5|PRKMK5	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P16234	-	NP_006197	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640753	5607	5894	111593	111831	-	-	MAP2K5	RAF1	HsT17454|MAPKK5|MEK5|PRKMK5	CMD1NN|CRAF|NS5|Raf-1|c-Raf	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640754	5607	6794	111593	112670	-	-	MAP2K5	STK11	HsT17454|MAPKK5|MEK5|PRKMK5	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640755	5607	8463	111593	114041	-	-	MAP2K5	TEAD2	HsT17454|MAPKK5|MEK5|PRKMK5	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640756	5608	5606	111594	111592	-	-	MAP2K6	MAP2K3	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640757	5608	5607	111594	111593	-	-	MAP2K6	MAP2K5	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	HsT17454|MAPKK5|MEK5|PRKMK5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640758	5608	5608	111594	111594	-	-	MAP2K6	MAP2K6	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640759	5608	1432	111594	107819	-	RP1-179N16.5	MAP2K6	MAPK14	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640760	4217	26524	110381	117727	RP3-325F22.4	-	MAP3K5	LATS2	ASK1|MAPKKK5|MEKK5	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q99683	-	NP_005914	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640761	4217	4217	110381	110381	RP3-325F22.4	RP3-325F22.4	MAP3K5	MAP3K5	ASK1|MAPKKK5|MEKK5	ASK1|MAPKKK5|MEKK5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q99683	-	NP_005914	Q99683	-	NP_005914	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640762	1432	207	107819	106710	RP1-179N16.5	-	MAPK14	AKT1	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640763	1432	5606	107819	111592	RP1-179N16.5	-	MAPK14	MAP2K3	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640764	4193	1029	110358	107463	-	-	MDM2	CDKN2A	ACTFS|HDMX|hdm2	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q00987	A7UKX8|Q96DS0|A7UKX9|A7UKX7|G3XA89	NP_001354919|NP_001265391|NP_002383|NP_001138811|NP_001138812|NP_001138809	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640765	4194	4193	110359	110358	RP11-430C7.1	-	MDM4	MDM2	HDMX|MDMX|MRP1	ACTFS|HDMX|hdm2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O15151	Q68DC0|A0A087WTR9|Q59FS6|A0A087WUE3|A0A024R990|A0A087WZ58	NP_001265445|NP_001265447|NP_001265446|NP_002384|NP_001265448|NP_001191100|NP_001191101	Q00987	A7UKX8|Q96DS0|A7UKX9|A7UKX7|G3XA89	NP_001354919|NP_001265391|NP_002383|NP_001138811|NP_001138812|NP_001138809	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640766	4233	894	110391	107334	-	-	MET	CCND2	AUTS9|HGFR|RCCP2|c-Met	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640767	4233	1969	110391	108288	-	-	MET	EPHA2	AUTS9|HGFR|RCCP2|c-Met	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640768	4233	2264	110391	108555	-	-	MET	FGFR4	AUTS9|HGFR|RCCP2|c-Met	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640769	4233	6794	110391	112670	-	-	MET	STK11	AUTS9|HGFR|RCCP2|c-Met	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640770	4609	207	110694	106710	-	-	MYC	AKT1	MRTL|MYCC|bHLHe39|c-Myc	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640771	4609	405	110694	106898	-	-	MYC	ARNT	MRTL|MYCC|bHLHe39|c-Myc	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640772	4609	6790	110694	112666	-	RP5-1167H4.6	MYC	AURKA	MRTL|MYCC|bHLHe39|c-Myc	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640773	4609	898	110694	107338	-	-	MYC	CCNE1	MRTL|MYCC|bHLHe39|c-Myc	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640774	4609	1019	110694	107454	-	-	MYC	CDK4	MRTL|MYCC|bHLHe39|c-Myc	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640775	4609	1021	110694	107456	-	-	MYC	CDK6	MRTL|MYCC|bHLHe39|c-Myc	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640776	4609	1029	110694	107463	-	-	MYC	CDKN2A	MRTL|MYCC|bHLHe39|c-Myc	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640777	4609	1030	110694	107464	-	RP11-149I2.1	MYC	CDKN2B	MRTL|MYCC|bHLHe39|c-Myc	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640778	4609	2264	110694	108555	-	-	MYC	FGFR4	MRTL|MYCC|bHLHe39|c-Myc	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640779	4609	3091	110694	109338	-	-	MYC	HIF1A	MRTL|MYCC|bHLHe39|c-Myc	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640780	4609	2648	110694	108918	-	-	MYC	KAT2A	MRTL|MYCC|bHLHe39|c-Myc	GCN5|GCN5L2|PCAF-b|hGCN5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	Q92830	-	NP_066564	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640781	4609	26524	110694	117727	-	-	MYC	LATS2	MRTL|MYCC|bHLHe39|c-Myc	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640782	4609	5606	110694	111592	-	-	MYC	MAP2K3	MRTL|MYCC|bHLHe39|c-Myc	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640783	4609	4609	110694	110694	-	-	MYC	MYC	MRTL|MYCC|bHLHe39|c-Myc	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640784	4609	6794	110694	112670	-	-	MYC	STK11	MRTL|MYCC|bHLHe39|c-Myc	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640785	4609	8463	110694	114041	-	-	MYC	TEAD2	MRTL|MYCC|bHLHe39|c-Myc	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640786	4609	7015	110694	112874	-	-	MYC	TERT	MRTL|MYCC|bHLHe39|c-Myc	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640787	4609	7248	110694	113099	-	-	MYC	TSC1	MRTL|MYCC|bHLHe39|c-Myc	LAM|TSC	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640788	4771	207	110844	106710	-	-	NF2	AKT1	ACN|BANF|SCH	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640789	4771	405	110844	106898	-	-	NF2	ARNT	ACN|BANF|SCH	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640790	4771	6790	110844	112666	-	RP5-1167H4.6	NF2	AURKA	ACN|BANF|SCH	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640791	4771	894	110844	107334	-	-	NF2	CCND2	ACN|BANF|SCH	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640792	4771	898	110844	107338	-	-	NF2	CCNE1	ACN|BANF|SCH	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640793	4771	960	110844	107398	-	AL133330.1	NF2	CD44	ACN|BANF|SCH	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640794	4771	1019	110844	107454	-	-	NF2	CDK4	ACN|BANF|SCH	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640795	4771	1021	110844	107456	-	-	NF2	CDK6	ACN|BANF|SCH	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640796	4771	1030	110844	107464	-	RP11-149I2.1	NF2	CDKN2B	ACN|BANF|SCH	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640797	4771	1031	110844	107465	-	RP11-278J17.2	NF2	CDKN2C	ACN|BANF|SCH	INK4C|p18|p18-INK4C	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	P42773	Q6ICV4	NP_001253|NP_523240	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640798	4771	1969	110844	108288	-	-	NF2	EPHA2	ACN|BANF|SCH	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640799	4771	2264	110844	108555	-	-	NF2	FGFR4	ACN|BANF|SCH	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640800	4771	26524	110844	117727	-	-	NF2	LATS2	ACN|BANF|SCH	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640801	4771	5606	110844	111592	-	-	NF2	MAP2K3	ACN|BANF|SCH	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640802	4771	4609	110844	110694	-	-	NF2	MYC	ACN|BANF|SCH	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640803	4771	6794	110844	112670	-	-	NF2	STK11	ACN|BANF|SCH	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640804	4771	7015	110844	112874	-	-	NF2	TERT	ACN|BANF|SCH	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640805	4771	7248	110844	113099	-	-	NF2	TSC1	ACN|BANF|SCH	LAM|TSC	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640806	4782	4782	110854	110854	-	-	NFIC	NFIC	CTF|CTF5|NF-I|NFI	CTF|CTF5|NF-I|NFI	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08651	B7Z4T6	NP_001231931|NP_001231933|NP_001231934|NP_005588|NP_995315	P08651	B7Z4T6	NP_001231931|NP_001231933|NP_001231934|NP_005588|NP_995315	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640807	5156	207	111182	106710	-	-	PDGFRA	AKT1	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640808	5156	1019	111182	107454	-	-	PDGFRA	CDK4	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640809	5156	1030	111182	107464	-	RP11-149I2.1	PDGFRA	CDKN2B	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640810	5156	1969	111182	108288	-	-	PDGFRA	EPHA2	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640811	5156	2264	111182	108555	-	-	PDGFRA	FGFR4	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640812	5156	26524	111182	117727	-	-	PDGFRA	LATS2	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640813	5156	5606	111182	111592	-	-	PDGFRA	MAP2K3	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640814	5156	4609	111182	110694	-	-	PDGFRA	MYC	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640815	5156	4771	111182	110844	-	-	PDGFRA	NF2	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640816	5156	5156	111182	111182	-	-	PDGFRA	PDGFRA	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	P16234	-	NP_006197	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640817	5290	5295	111308	111313	-	-	PIK3CA	PIK3R1	CLOVE|CWS5|MCAP|MCM|MCMTC|PI3K|p110-alpha	AGM7|GRB1|IMD36|p85|p85-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42336	-	NP_006209	P27986	-	NP_852665|NP_852664|NP_001229395|NP_852556	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640818	5894	207	111831	106710	-	-	RAF1	AKT1	CMD1NN|CRAF|NS5|Raf-1|c-Raf	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640819	5894	1019	111831	107454	-	-	RAF1	CDK4	CMD1NN|CRAF|NS5|Raf-1|c-Raf	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640820	5894	1021	111831	107456	-	-	RAF1	CDK6	CMD1NN|CRAF|NS5|Raf-1|c-Raf	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640821	5894	1030	111831	107464	-	RP11-149I2.1	RAF1	CDKN2B	CMD1NN|CRAF|NS5|Raf-1|c-Raf	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640822	5894	2264	111831	108555	-	-	RAF1	FGFR4	CMD1NN|CRAF|NS5|Raf-1|c-Raf	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640823	5894	3265	111831	109501	-	-	RAF1	HRAS	CMD1NN|CRAF|NS5|Raf-1|c-Raf	C-BAS/HAS|C-H-RAS|C-HA-RAS1|CTLO|H-RASIDX|HAMSV|HRAS1|RASH1|p21ras	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P01112	X5D945	NP_001123914|NP_005334|NP_789765	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640824	5894	5606	111831	111592	-	-	RAF1	MAP2K3	CMD1NN|CRAF|NS5|Raf-1|c-Raf	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640825	5894	4771	111831	110844	-	-	RAF1	NF2	CMD1NN|CRAF|NS5|Raf-1|c-Raf	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640826	5894	5156	111831	111182	-	-	RAF1	PDGFRA	CMD1NN|CRAF|NS5|Raf-1|c-Raf	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P16234	-	NP_006197	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640827	5894	8463	111831	114041	-	-	RAF1	TEAD2	CMD1NN|CRAF|NS5|Raf-1|c-Raf	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640828	5894	7534	111831	113366	-	-	RAF1	YWHAZ	CMD1NN|CRAF|NS5|Raf-1|c-Raf	14-3-3-zeta|HEL-S-3|HEL4|KCIP-1|YWHAD	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P63104	D0PNI1	NP_003397|NP_001129174|NP_001129171|NP_001129172|NP_001129173|NP_663723	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640829	11186	207	116356	106710	-	-	RASSF1	AKT1	123F2|NORE2A|RASSF1A|RDA32|REH3P21	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640830	11186	1021	116356	107456	-	-	RASSF1	CDK6	123F2|NORE2A|RASSF1A|RDA32|REH3P21	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640831	11186	1029	116356	107463	-	-	RASSF1	CDKN2A	123F2|NORE2A|RASSF1A|RDA32|REH3P21	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640832	11186	2264	116356	108555	-	-	RASSF1	FGFR4	123F2|NORE2A|RASSF1A|RDA32|REH3P21	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640833	11186	84662	116356	124182	-	-	RASSF1	GLIS2	123F2|NORE2A|RASSF1A|RDA32|REH3P21	NKL|NPHP7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	Q9BZE0	-	NP_115964	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640834	11186	26524	116356	117727	-	-	RASSF1	LATS2	123F2|NORE2A|RASSF1A|RDA32|REH3P21	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640835	11186	5606	116356	111592	-	-	RASSF1	MAP2K3	123F2|NORE2A|RASSF1A|RDA32|REH3P21	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640836	11186	4609	116356	110694	-	-	RASSF1	MYC	123F2|NORE2A|RASSF1A|RDA32|REH3P21	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640837	11186	4771	116356	110844	-	-	RASSF1	NF2	123F2|NORE2A|RASSF1A|RDA32|REH3P21	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640838	11186	5894	116356	111831	-	-	RASSF1	RAF1	123F2|NORE2A|RASSF1A|RDA32|REH3P21	CMD1NN|CRAF|NS5|Raf-1|c-Raf	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640839	11186	11186	116356	116356	-	-	RASSF1	RASSF1	123F2|NORE2A|RASSF1A|RDA32|REH3P21	123F2|NORE2A|RASSF1A|RDA32|REH3P21	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640840	11186	6794	116356	112670	-	-	RASSF1	STK11	123F2|NORE2A|RASSF1A|RDA32|REH3P21	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640841	11186	6788	116356	112664	-	-	RASSF1	STK3	123F2|NORE2A|RASSF1A|RDA32|REH3P21	KRS1|MST2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	Q13188	A0A087WZ06	NP_001243242|NP_001243241|NP_006272	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640842	11186	6789	116356	112665	-	-	RASSF1	STK4	123F2|NORE2A|RASSF1A|RDA32|REH3P21	KRS2|MST1|TIIAC|YSK3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	Q13043	-	NP_006273|NP_001339314	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640843	5970	1969	111902	108288	-	-	RELA	EPHA2	NFKB3|p65	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q04206	A0A087X0W8	NP_001230914|NP_068810|NP_001230913|NP_001138610	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640844	5970	5970	111902	111902	-	-	RELA	RELA	NFKB3|p65	NFKB3|p65	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q04206	A0A087X0W8	NP_001230914|NP_068810|NP_001230913|NP_001138610	Q04206	A0A087X0W8	NP_001230914|NP_068810|NP_001230913|NP_001138610	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640845	2810	2810	109072	109072	-	-	SFN	SFN	YWHAS	YWHAS	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P31947	-	NP_006133	P31947	-	NP_006133	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640846	6597	4609	112481	110694	-	-	SMARCA4	MYC	BAF190|BAF190A|BRG1|MRD16|RTPS2|SNF2|SNF2L4|SNF2LB|SWI2|hSNF2b	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P51532	A7E2E1|Q9HBD4|B3KNW7	NP_003063|NP_001122319|NP_001122318|NP_001122317|NP_001122316|NP_001122320|NP_001122321|NP_001361386	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640847	6597	11186	112481	116356	-	-	SMARCA4	RASSF1	BAF190|BAF190A|BRG1|MRD16|RTPS2|SNF2|SNF2L4|SNF2LB|SWI2|hSNF2b	123F2|NORE2A|RASSF1A|RDA32|REH3P21	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P51532	A7E2E1|Q9HBD4|B3KNW7	NP_003063|NP_001122319|NP_001122318|NP_001122317|NP_001122316|NP_001122320|NP_001122321|NP_001361386	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640848	6658	6658	112541	112541	-	-	SOX3	SOX3	GHDX|MRGH|PHP|PHPX|SOXB	GHDX|MRGH|PHP|PHPX|SOXB	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P41225	-	NP_005625	P41225	-	NP_005625	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640849	6658	8463	112541	114041	-	-	SOX3	TEAD2	GHDX|MRGH|PHP|PHPX|SOXB	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P41225	-	NP_005625	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640850	6659	6790	112542	112666	-	RP5-1167H4.6	SOX4	AURKA	EVI16	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q06945	-	NP_003098	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640851	6659	1029	112542	107463	-	-	SOX4	CDKN2A	EVI16	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q06945	-	NP_003098	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640852	6659	1602	112542	107972	-	RP11-512J14.1	SOX4	DACH1	EVI16	DACH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q06945	-	NP_003098	Q9UI36	A0A087WY66|A0A087WZA7	NP_542938|NP_004383|NP_542937	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640853	6659	54904	112542	120250	-	DC28	SOX4	WHSC1L1	EVI16	NSD3|pp14328	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q06945	-	NP_003098	Q9BZ95	-	NP_060248|NP_075447	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640854	6794	207	112670	106710	-	-	STK11	AKT1	LKB1|PJS|hLKB1	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15831	-	NP_000446	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640855	6794	898	112670	107338	-	-	STK11	CCNE1	LKB1|PJS|hLKB1	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15831	-	NP_000446	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640856	6794	1030	112670	107464	-	RP11-149I2.1	STK11	CDKN2B	LKB1|PJS|hLKB1	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15831	-	NP_000446	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640857	6794	2264	112670	108555	-	-	STK11	FGFR4	LKB1|PJS|hLKB1	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15831	-	NP_000446	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640858	6794	26524	112670	117727	-	-	STK11	LATS2	LKB1|PJS|hLKB1	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15831	-	NP_000446	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640859	6794	5606	112670	111592	-	-	STK11	MAP2K3	LKB1|PJS|hLKB1	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15831	-	NP_000446	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640860	6794	6794	112670	112670	-	-	STK11	STK11	LKB1|PJS|hLKB1	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15831	-	NP_000446	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640861	6929	6790	112791	112666	-	RP5-1167H4.6	TCF3	AURKA	E2A|E47|ITF1|TCF-3|VDIR|bHLHb21	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P15923	Q2TB39|X6REB3	NP_001129611|NP_003191	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640862	6929	6929	112791	112791	-	-	TCF3	TCF3	E2A|E47|ITF1|TCF-3|VDIR|bHLHb21	E2A|E47|ITF1|TCF-3|VDIR|bHLHb21	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P15923	Q2TB39|X6REB3	NP_001129611|NP_003191	P15923	Q2TB39|X6REB3	NP_001129611|NP_003191	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640863	8463	1969	114041	108288	-	-	TEAD2	EPHA2	ETF|TEAD-2|TEF-4|TEF4	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640864	8463	8463	114041	114041	-	-	TEAD2	TEAD2	ETF|TEAD-2|TEF-4|TEF4	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640865	7132	894	112986	107334	-	-	TNFRSF1A	CCND2	CD120a|FPF|MS5|TBP1|TNF-R|TNF-R-I|TNF-R55|TNFAR|TNFR1|TNFR1-d2|TNFR55|TNFR60|p55|p55-R|p60	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P19438	-	NP_001333021|NP_001333020|NP_001056	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640866	7157	1019	113010	107454	-	-	TP53	CDK4	BCC7|LFS1|P53|TRP53	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640867	7157	1969	113010	108288	-	-	TP53	EPHA2	BCC7|LFS1|P53|TRP53	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640868	7157	4193	113010	110358	-	-	TP53	MDM2	BCC7|LFS1|P53|TRP53	ACTFS|HDMX|hdm2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	Q00987	A7UKX8|Q96DS0|A7UKX9|A7UKX7|G3XA89	NP_001354919|NP_001265391|NP_002383|NP_001138811|NP_001138812|NP_001138809	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640869	7157	4194	113010	110359	-	RP11-430C7.1	TP53	MDM4	BCC7|LFS1|P53|TRP53	HDMX|MDMX|MRP1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	O15151	Q68DC0|A0A087WTR9|Q59FS6|A0A087WUE3|A0A024R990|A0A087WZ58	NP_001265445|NP_001265447|NP_001265446|NP_002384|NP_001265448|NP_001191100|NP_001191101	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640870	7157	4771	113010	110844	-	-	TP53	NF2	BCC7|LFS1|P53|TRP53	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640871	7157	7157	113010	113010	-	-	TP53	TP53	BCC7|LFS1|P53|TRP53	BCC7|LFS1|P53|TRP53	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640872	7248	898	113099	107338	-	-	TSC1	CCNE1	LAM|TSC	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640873	7248	7248	113099	113099	-	-	TSC1	TSC1	LAM|TSC	LAM|TSC	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640874	94015	2064	125087	108376	-	-	TTYH2	ERBB2	C17orf29	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BSA4	Q8N3U8|B4DKD1	NP_443101|NP_116035	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640875	94015	2264	125087	108555	-	-	TTYH2	FGFR4	C17orf29	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BSA4	Q8N3U8|B4DKD1	NP_443101|NP_116035	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640876	94015	2911	125087	109168	-	-	TTYH2	GRM1	C17orf29	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BSA4	Q8N3U8|B4DKD1	NP_443101|NP_116035	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640877	94015	2648	125087	108918	-	-	TTYH2	KAT2A	C17orf29	GCN5|GCN5L2|PCAF-b|hGCN5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BSA4	Q8N3U8|B4DKD1	NP_443101|NP_116035	Q92830	-	NP_066564	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640878	94015	11014	125087	116204	-	tcag7.840	TTYH2	KDELR2	C17orf29	ELP-1|ERD2.2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BSA4	Q8N3U8|B4DKD1	NP_443101|NP_116035	P33947	A0A024QZT7	NP_001094073|NP_006845	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640879	94015	4771	125087	110844	-	-	TTYH2	NF2	C17orf29	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BSA4	Q8N3U8|B4DKD1	NP_443101|NP_116035	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640880	94015	5156	125087	111182	-	-	TTYH2	PDGFRA	C17orf29	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BSA4	Q8N3U8|B4DKD1	NP_443101|NP_116035	P16234	-	NP_006197	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640881	94015	94015	125087	125087	-	-	TTYH2	TTYH2	C17orf29	C17orf29	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BSA4	Q8N3U8|B4DKD1	NP_443101|NP_116035	Q9BSA4	Q8N3U8|B4DKD1	NP_443101|NP_116035	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640882	54904	4609	120250	110694	DC28	-	WHSC1L1	MYC	NSD3|pp14328	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZ95	-	NP_060248|NP_075447	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640883	54904	54904	120250	120250	DC28	DC28	WHSC1L1	WHSC1L1	NSD3|pp14328	NSD3|pp14328	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZ95	-	NP_060248|NP_075447	Q9BZ95	-	NP_060248|NP_075447	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640884	7490	4609	113327	110694	-	-	WT1	MYC	AWT1|EWS-WT1|GUD|NPHS4|WAGR|WIT-2|WT33	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P19544	Q6PI38	NP_000369|NP_077744|NP_001185481|NP_001185480|NP_077742	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640885	7490	7490	113327	113327	-	-	WT1	WT1	AWT1|EWS-WT1|GUD|NPHS4|WAGR|WIT-2|WT33	AWT1|EWS-WT1|GUD|NPHS4|WAGR|WIT-2|WT33	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P19544	Q6PI38	NP_000369|NP_077744|NP_001185481|NP_001185480|NP_077742	P19544	Q6PI38	NP_000369|NP_077744|NP_001185481|NP_001185480|NP_077742	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640886	10413	8463	115684	114041	-	-	YAP1	TEAD2	COB1|YAP|YAP2|YAP65|YKI	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46937	A0A024R3E4|Q86T74|K0KVU2	NP_001269030|NP_001181974|NP_001123617|NP_001269026|NP_001269029|NP_001269028|NP_001269027|NP_006097|NP_001181973	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640887	10413	7532	115684	113364	-	-	YAP1	YWHAG	COB1|YAP|YAP2|YAP65|YKI	14-3-3GAMMA|PPP1R170	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46937	A0A024R3E4|Q86T74|K0KVU2	NP_001269030|NP_001181974|NP_001123617|NP_001269026|NP_001269029|NP_001269028|NP_001269027|NP_006097|NP_001181973	P61981	-	NP_036611	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640888	7532	84335	113364	124059	-	-	YWHAG	AKT1S1	14-3-3GAMMA|PPP1R170	Lobe|PRAS40	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P61981	-	NP_036611	Q96B36	A0A024QZF6	NP_115751|NP_001265089|NP_001265088|NP_001092102|NP_001092103	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640889	7532	2308	113364	108597	-	-	YWHAG	FOXO1	14-3-3GAMMA|PPP1R170	FKH1|FKHR|FOXO1A	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P61981	-	NP_036611	Q12778	-	NP_002006	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640890	7532	26524	113364	117727	-	-	YWHAG	LATS2	14-3-3GAMMA|PPP1R170	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P61981	-	NP_036611	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640891	7532	5894	113364	111831	-	-	YWHAG	RAF1	14-3-3GAMMA|PPP1R170	CMD1NN|CRAF|NS5|Raf-1|c-Raf	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P61981	-	NP_036611	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640892	7532	6794	113364	112670	-	-	YWHAG	STK11	14-3-3GAMMA|PPP1R170	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P61981	-	NP_036611	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640893	7532	7532	113364	113364	-	-	YWHAG	YWHAG	14-3-3GAMMA|PPP1R170	14-3-3GAMMA|PPP1R170	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P61981	-	NP_036611	P61981	-	NP_036611	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640894	7532	7534	113364	113366	-	-	YWHAG	YWHAZ	14-3-3GAMMA|PPP1R170	14-3-3-zeta|HEL-S-3|HEL4|KCIP-1|YWHAD	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P61981	-	NP_036611	P63104	D0PNI1	NP_003397|NP_001129174|NP_001129171|NP_001129172|NP_001129173|NP_663723	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640895	7534	26524	113366	117727	-	-	YWHAZ	LATS2	14-3-3-zeta|HEL-S-3|HEL4|KCIP-1|YWHAD	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P63104	D0PNI1	NP_003397|NP_001129174|NP_001129171|NP_001129172|NP_001129173|NP_663723	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640896	7534	7534	113366	113366	-	-	YWHAZ	YWHAZ	14-3-3-zeta|HEL-S-3|HEL4|KCIP-1|YWHAD	14-3-3-zeta|HEL-S-3|HEL4|KCIP-1|YWHAD	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P63104	D0PNI1	NP_003397|NP_001129174|NP_001129171|NP_001129172|NP_001129173|NP_663723	P63104	D0PNI1	NP_003397|NP_001129174|NP_001129171|NP_001129172|NP_001129173|NP_663723	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640897	340273	894	131028	107334	tcag7.1091	-	ABCB5	CCND2	ABCB5alpha|ABCB5beta|EST422562	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q2M3G0	A0A024RA03	NP_848654|NP_001157465|NP_001157414|NP_001157413	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640898	340273	960	131028	107398	tcag7.1091	AL133330.1	ABCB5	CD44	ABCB5alpha|ABCB5beta|EST422562	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q2M3G0	A0A024RA03	NP_848654|NP_001157465|NP_001157414|NP_001157413	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640899	340273	2064	131028	108376	tcag7.1091	-	ABCB5	ERBB2	ABCB5alpha|ABCB5beta|EST422562	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q2M3G0	A0A024RA03	NP_848654|NP_001157465|NP_001157414|NP_001157413	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640900	340273	5894	131028	111831	tcag7.1091	-	ABCB5	RAF1	ABCB5alpha|ABCB5beta|EST422562	CMD1NN|CRAF|NS5|Raf-1|c-Raf	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q2M3G0	A0A024RA03	NP_848654|NP_001157465|NP_001157414|NP_001157413	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640901	340273	6794	131028	112670	tcag7.1091	-	ABCB5	STK11	ABCB5alpha|ABCB5beta|EST422562	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q2M3G0	A0A024RA03	NP_848654|NP_001157465|NP_001157414|NP_001157413	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640902	369	207	106864	106710	RP1-230G1.1	-	ARAF	AKT1	A-RAF|ARAF1|PKS2|RAFA1	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640903	369	894	106864	107334	RP1-230G1.1	-	ARAF	CCND2	A-RAF|ARAF1|PKS2|RAFA1	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640904	369	1021	106864	107456	RP1-230G1.1	-	ARAF	CDK6	A-RAF|ARAF1|PKS2|RAFA1	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640905	369	1030	106864	107464	RP1-230G1.1	RP11-149I2.1	ARAF	CDKN2B	A-RAF|ARAF1|PKS2|RAFA1	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640906	369	2264	106864	108555	RP1-230G1.1	-	ARAF	FGFR4	A-RAF|ARAF1|PKS2|RAFA1	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640907	369	84662	106864	124182	RP1-230G1.1	-	ARAF	GLIS2	A-RAF|ARAF1|PKS2|RAFA1	NKL|NPHP7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	Q9BZE0	-	NP_115964	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640908	369	26524	106864	117727	RP1-230G1.1	-	ARAF	LATS2	A-RAF|ARAF1|PKS2|RAFA1	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640909	369	5607	106864	111593	RP1-230G1.1	-	ARAF	MAP2K5	A-RAF|ARAF1|PKS2|RAFA1	HsT17454|MAPKK5|MEK5|PRKMK5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640910	369	4771	106864	110844	RP1-230G1.1	-	ARAF	NF2	A-RAF|ARAF1|PKS2|RAFA1	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640911	369	2810	106864	109072	RP1-230G1.1	-	ARAF	SFN	A-RAF|ARAF1|PKS2|RAFA1	YWHAS	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	P31947	-	NP_006133	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640912	369	7157	106864	113010	RP1-230G1.1	-	ARAF	TP53	A-RAF|ARAF1|PKS2|RAFA1	BCC7|LFS1|P53|TRP53	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640913	369	7248	106864	113099	RP1-230G1.1	-	ARAF	TSC1	A-RAF|ARAF1|PKS2|RAFA1	LAM|TSC	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640914	369	7534	106864	113366	RP1-230G1.1	-	ARAF	YWHAZ	A-RAF|ARAF1|PKS2|RAFA1	14-3-3-zeta|HEL-S-3|HEL4|KCIP-1|YWHAD	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	P63104	D0PNI1	NP_003397|NP_001129174|NP_001129171|NP_001129172|NP_001129173|NP_663723	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640915	405	960	106898	107398	-	AL133330.1	ARNT	CD44	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640916	405	1031	106898	107465	-	RP11-278J17.2	ARNT	CDKN2C	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	INK4C|p18|p18-INK4C	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	P42773	Q6ICV4	NP_001253|NP_523240	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640917	405	2064	106898	108376	-	-	ARNT	ERBB2	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640918	405	3091	106898	109338	-	-	ARNT	HIF1A	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640919	405	26524	106898	117727	-	-	ARNT	LATS2	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640920	405	8463	106898	114041	-	-	ARNT	TEAD2	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640921	6790	4217	112666	110381	RP5-1167H4.6	RP3-325F22.4	AURKA	MAP3K5	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	ASK1|MAPKKK5|MEKK5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	Q99683	-	NP_005914	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640922	6790	6794	112666	112670	RP5-1167H4.6	-	AURKA	STK11	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640923	6790	8463	112666	114041	RP5-1167H4.6	-	AURKA	TEAD2	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640924	8678	207	114226	106710	-	-	BECN1	AKT1	ATG6|VPS30|beclin1	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640925	8678	405	114226	106898	-	-	BECN1	ARNT	ATG6|VPS30|beclin1	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640926	8678	894	114226	107334	-	-	BECN1	CCND2	ATG6|VPS30|beclin1	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640927	8678	1019	114226	107454	-	-	BECN1	CDK4	ATG6|VPS30|beclin1	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640928	8678	1030	114226	107464	-	RP11-149I2.1	BECN1	CDKN2B	ATG6|VPS30|beclin1	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640929	8678	2064	114226	108376	-	-	BECN1	ERBB2	ATG6|VPS30|beclin1	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640930	8678	4194	114226	110359	-	RP11-430C7.1	BECN1	MDM4	ATG6|VPS30|beclin1	HDMX|MDMX|MRP1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	O15151	Q68DC0|A0A087WTR9|Q59FS6|A0A087WUE3|A0A024R990|A0A087WZ58	NP_001265445|NP_001265447|NP_001265446|NP_002384|NP_001265448|NP_001191100|NP_001191101	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640931	8678	5156	114226	111182	-	-	BECN1	PDGFRA	ATG6|VPS30|beclin1	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	P16234	-	NP_006197	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640932	8678	5894	114226	111831	-	-	BECN1	RAF1	ATG6|VPS30|beclin1	CMD1NN|CRAF|NS5|Raf-1|c-Raf	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640933	8678	4087	114226	110262	-	-	BECN1	SMAD2	ATG6|VPS30|beclin1	JV18|JV18-1|MADH2|MADR2|hMAD-2|hSMAD2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	Q15796	B7Z5N5|Q53XR6	NP_001003652|NP_001129409|NP_005892	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640934	8678	6794	114226	112670	-	-	BECN1	STK11	ATG6|VPS30|beclin1	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640935	8678	8463	114226	114041	-	-	BECN1	TEAD2	ATG6|VPS30|beclin1	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640936	8678	7015	114226	112874	-	-	BECN1	TERT	ATG6|VPS30|beclin1	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640937	673	207	107141	106710	-	-	BRAF	AKT1	B-RAF1|BRAF1|NS7|RAFB1	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P15056	-	NP_001365399|NP_001365396|NP_001365397|NP_001365402|NP_001365403|NP_001365400|NP_001365401|NP_001365404|NP_004324|NP_001341538|NP_001361173|NP_001361187|NP_001365398	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640938	673	369	107141	106864	-	RP1-230G1.1	BRAF	ARAF	B-RAF1|BRAF1|NS7|RAFB1	A-RAF|ARAF1|PKS2|RAFA1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P15056	-	NP_001365399|NP_001365396|NP_001365397|NP_001365402|NP_001365403|NP_001365400|NP_001365401|NP_001365404|NP_004324|NP_001341538|NP_001361173|NP_001361187|NP_001365398	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640939	673	6790	107141	112666	-	RP5-1167H4.6	BRAF	AURKA	B-RAF1|BRAF1|NS7|RAFB1	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P15056	-	NP_001365399|NP_001365396|NP_001365397|NP_001365402|NP_001365403|NP_001365400|NP_001365401|NP_001365404|NP_004324|NP_001341538|NP_001361173|NP_001361187|NP_001365398	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640940	673	26524	107141	117727	-	-	BRAF	LATS2	B-RAF1|BRAF1|NS7|RAFB1	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P15056	-	NP_001365399|NP_001365396|NP_001365397|NP_001365402|NP_001365403|NP_001365400|NP_001365401|NP_001365404|NP_004324|NP_001341538|NP_001361173|NP_001361187|NP_001365398	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640941	673	5606	107141	111592	-	-	BRAF	MAP2K3	B-RAF1|BRAF1|NS7|RAFB1	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P15056	-	NP_001365399|NP_001365396|NP_001365397|NP_001365402|NP_001365403|NP_001365400|NP_001365401|NP_001365404|NP_004324|NP_001341538|NP_001361173|NP_001361187|NP_001365398	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640942	673	5608	107141	111594	-	-	BRAF	MAP2K6	B-RAF1|BRAF1|NS7|RAFB1	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P15056	-	NP_001365399|NP_001365396|NP_001365397|NP_001365402|NP_001365403|NP_001365400|NP_001365401|NP_001365404|NP_004324|NP_001341538|NP_001361173|NP_001361187|NP_001365398	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640943	673	11186	107141	116356	-	-	BRAF	RASSF1	B-RAF1|BRAF1|NS7|RAFB1	123F2|NORE2A|RASSF1A|RDA32|REH3P21	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P15056	-	NP_001365399|NP_001365396|NP_001365397|NP_001365402|NP_001365403|NP_001365400|NP_001365401|NP_001365404|NP_004324|NP_001341538|NP_001361173|NP_001361187|NP_001365398	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640944	673	6794	107141	112670	-	-	BRAF	STK11	B-RAF1|BRAF1|NS7|RAFB1	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P15056	-	NP_001365399|NP_001365396|NP_001365397|NP_001365402|NP_001365403|NP_001365400|NP_001365401|NP_001365404|NP_004324|NP_001341538|NP_001361173|NP_001361187|NP_001365398	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640945	673	7015	107141	112874	-	-	BRAF	TERT	B-RAF1|BRAF1|NS7|RAFB1	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P15056	-	NP_001365399|NP_001365396|NP_001365397|NP_001365402|NP_001365403|NP_001365400|NP_001365401|NP_001365404|NP_004324|NP_001341538|NP_001361173|NP_001361187|NP_001365398	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640946	23624	207	117156	106710	-	-	CBLC	AKT1	CBL-3|CBL-SL|RNF57	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9ULV8	-	NP_001124324|NP_036248	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640947	23624	1021	117156	107456	-	-	CBLC	CDK6	CBL-3|CBL-SL|RNF57	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9ULV8	-	NP_001124324|NP_036248	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640948	23624	1030	117156	107464	-	RP11-149I2.1	CBLC	CDKN2B	CBL-3|CBL-SL|RNF57	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9ULV8	-	NP_001124324|NP_036248	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640949	23624	2064	117156	108376	-	-	CBLC	ERBB2	CBL-3|CBL-SL|RNF57	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9ULV8	-	NP_001124324|NP_036248	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640950	23624	2264	117156	108555	-	-	CBLC	FGFR4	CBL-3|CBL-SL|RNF57	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9ULV8	-	NP_001124324|NP_036248	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640951	23624	26524	117156	117727	-	-	CBLC	LATS2	CBL-3|CBL-SL|RNF57	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9ULV8	-	NP_001124324|NP_036248	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640952	23624	5606	117156	111592	-	-	CBLC	MAP2K3	CBL-3|CBL-SL|RNF57	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9ULV8	-	NP_001124324|NP_036248	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640953	23624	4194	117156	110359	-	RP11-430C7.1	CBLC	MDM4	CBL-3|CBL-SL|RNF57	HDMX|MDMX|MRP1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9ULV8	-	NP_001124324|NP_036248	O15151	Q68DC0|A0A087WTR9|Q59FS6|A0A087WUE3|A0A024R990|A0A087WZ58	NP_001265445|NP_001265447|NP_001265446|NP_002384|NP_001265448|NP_001191100|NP_001191101	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640954	23624	4609	117156	110694	-	-	CBLC	MYC	CBL-3|CBL-SL|RNF57	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9ULV8	-	NP_001124324|NP_036248	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640955	23624	5894	117156	111831	-	-	CBLC	RAF1	CBL-3|CBL-SL|RNF57	CMD1NN|CRAF|NS5|Raf-1|c-Raf	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9ULV8	-	NP_001124324|NP_036248	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640956	23624	7015	117156	112874	-	-	CBLC	TERT	CBL-3|CBL-SL|RNF57	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9ULV8	-	NP_001124324|NP_036248	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640957	23624	7157	117156	113010	-	-	CBLC	TP53	CBL-3|CBL-SL|RNF57	BCC7|LFS1|P53|TRP53	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9ULV8	-	NP_001124324|NP_036248	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640958	894	207	107334	106710	-	-	CCND2	AKT1	KIAK0002|MPPH3	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P30279	-	NP_001750	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640959	894	4217	107334	110381	-	RP3-325F22.4	CCND2	MAP3K5	KIAK0002|MPPH3	ASK1|MAPKKK5|MEKK5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P30279	-	NP_001750	Q99683	-	NP_005914	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640960	894	7015	107334	112874	-	-	CCND2	TERT	KIAK0002|MPPH3	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P30279	-	NP_001750	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640961	894	7248	107334	113099	-	-	CCND2	TSC1	KIAK0002|MPPH3	LAM|TSC	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P30279	-	NP_001750	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640962	898	207	107338	106710	-	-	CCNE1	AKT1	CCNE	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P24864	-	NP_001229	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640963	898	898	107338	107338	-	-	CCNE1	CCNE1	CCNE	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P24864	-	NP_001229	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640964	960	894	107398	107334	AL133330.1	-	CD44	CCND2	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640965	960	960	107398	107398	AL133330.1	AL133330.1	CD44	CD44	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640966	960	1969	107398	108288	AL133330.1	-	CD44	EPHA2	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640967	960	26524	107398	117727	AL133330.1	-	CD44	LATS2	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640968	960	6794	107398	112670	AL133330.1	-	CD44	STK11	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640969	998	1969	107433	108288	RP1-224A6.5	-	CDC42	EPHA2	CDC42Hs|G25K	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640970	1019	898	107454	107338	-	-	CDK4	CCNE1	CMM3|PSK-J3	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P11802	A0A024RBB6	NP_000066	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640971	1019	4217	107454	110381	-	RP3-325F22.4	CDK4	MAP3K5	CMM3|PSK-J3	ASK1|MAPKKK5|MEKK5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P11802	A0A024RBB6	NP_000066	Q99683	-	NP_005914	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640972	1019	8463	107454	114041	-	-	CDK4	TEAD2	CMM3|PSK-J3	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P11802	A0A024RBB6	NP_000066	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640973	1019	7015	107454	112874	-	-	CDK4	TERT	CMM3|PSK-J3	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P11802	A0A024RBB6	NP_000066	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640974	1019	7248	107454	113099	-	-	CDK4	TSC1	CMM3|PSK-J3	LAM|TSC	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P11802	A0A024RBB6	NP_000066	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640975	1021	9817	107456	115156	-	-	CDK6	KEAP1	MCPH12|PLSTIRE	INrf2|KLHL19	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q00534	-	NP_001138778|NP_001250	Q14145	A0A024R7C0	NP_036421|NP_987096	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640976	1021	4217	107456	110381	-	RP3-325F22.4	CDK6	MAP3K5	MCPH12|PLSTIRE	ASK1|MAPKKK5|MEKK5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q00534	-	NP_001138778|NP_001250	Q99683	-	NP_005914	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640977	1021	8463	107456	114041	-	-	CDK6	TEAD2	MCPH12|PLSTIRE	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q00534	-	NP_001138778|NP_001250	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640978	1021	7015	107456	112874	-	-	CDK6	TERT	MCPH12|PLSTIRE	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q00534	-	NP_001138778|NP_001250	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640979	1021	7248	107456	113099	-	-	CDK6	TSC1	MCPH12|PLSTIRE	LAM|TSC	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q00534	-	NP_001138778|NP_001250	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640980	1029	207	107463	106710	-	-	CDKN2A	AKT1	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640981	1029	960	107463	107398	-	AL133330.1	CDKN2A	CD44	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640982	1029	1019	107463	107454	-	-	CDKN2A	CDK4	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640983	1029	1021	107463	107456	-	-	CDKN2A	CDK6	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640984	1029	2264	107463	108555	-	-	CDKN2A	FGFR4	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640985	1029	26524	107463	117727	-	-	CDKN2A	LATS2	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640986	1029	4217	107463	110381	-	RP3-325F22.4	CDKN2A	MAP3K5	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	ASK1|MAPKKK5|MEKK5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	Q99683	-	NP_005914	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640987	1029	8463	107463	114041	-	-	CDKN2A	TEAD2	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640988	1029	7015	107463	112874	-	-	CDKN2A	TERT	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640989	1029	7248	107463	113099	-	-	CDKN2A	TSC1	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	LAM|TSC	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640990	1030	898	107464	107338	RP11-149I2.1	-	CDKN2B	CCNE1	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42772	K7PPU3	NP_004927|NP_511042	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640991	1030	960	107464	107398	RP11-149I2.1	AL133330.1	CDKN2B	CD44	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42772	K7PPU3	NP_004927|NP_511042	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640992	1031	898	107465	107338	RP11-278J17.2	-	CDKN2C	CCNE1	INK4C|p18|p18-INK4C	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42773	Q6ICV4	NP_001253|NP_523240	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640993	1031	1030	107465	107464	RP11-278J17.2	RP11-149I2.1	CDKN2C	CDKN2B	INK4C|p18|p18-INK4C	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42773	Q6ICV4	NP_001253|NP_523240	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640994	1031	1969	107465	108288	RP11-278J17.2	-	CDKN2C	EPHA2	INK4C|p18|p18-INK4C	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42773	Q6ICV4	NP_001253|NP_523240	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640995	1031	26524	107465	117727	RP11-278J17.2	-	CDKN2C	LATS2	INK4C|p18|p18-INK4C	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42773	Q6ICV4	NP_001253|NP_523240	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640996	1031	6794	107465	112670	RP11-278J17.2	-	CDKN2C	STK11	INK4C|p18|p18-INK4C	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42773	Q6ICV4	NP_001253|NP_523240	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640997	1602	6790	107972	112666	RP11-512J14.1	RP5-1167H4.6	DACH1	AURKA	DACH	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UI36	A0A087WY66|A0A087WZA7	NP_542938|NP_004383|NP_542937	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640998	1602	4771	107972	110844	RP11-512J14.1	-	DACH1	NF2	DACH	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UI36	A0A087WY66|A0A087WZA7	NP_542938|NP_004383|NP_542937	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2640999	1602	6794	107972	112670	RP11-512J14.1	-	DACH1	STK11	DACH	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UI36	A0A087WY66|A0A087WZA7	NP_542938|NP_004383|NP_542937	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641000	1602	6929	107972	112791	RP11-512J14.1	-	DACH1	TCF3	DACH	E2A|E47|ITF1|TCF-3|VDIR|bHLHb21	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UI36	A0A087WY66|A0A087WZA7	NP_542938|NP_004383|NP_542937	P15923	Q2TB39|X6REB3	NP_001129611|NP_003191	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641001	1602	7015	107972	112874	RP11-512J14.1	-	DACH1	TERT	DACH	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UI36	A0A087WY66|A0A087WZA7	NP_542938|NP_004383|NP_542937	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641002	2064	207	108376	106710	-	-	ERBB2	AKT1	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641003	2064	6790	108376	112666	-	RP5-1167H4.6	ERBB2	AURKA	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641004	2064	960	108376	107398	-	AL133330.1	ERBB2	CD44	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641005	2064	1019	108376	107454	-	-	ERBB2	CDK4	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641006	2064	1021	108376	107456	-	-	ERBB2	CDK6	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641007	2064	1031	108376	107465	-	RP11-278J17.2	ERBB2	CDKN2C	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	INK4C|p18|p18-INK4C	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	P42773	Q6ICV4	NP_001253|NP_523240	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641008	2064	1969	108376	108288	-	-	ERBB2	EPHA2	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641009	2264	898	108555	107338	-	-	FGFR4	CCNE1	CD334|JTK2|TKF	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641010	2308	7534	108597	113366	-	-	FOXO1	YWHAZ	FKH1|FKHR|FOXO1A	14-3-3-zeta|HEL-S-3|HEL4|KCIP-1|YWHAD	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q12778	-	NP_002006	P63104	D0PNI1	NP_003397|NP_001129174|NP_001129171|NP_001129172|NP_001129173|NP_663723	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641011	51343	84335	119489	124059	-	-	FZR1	AKT1S1	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	Lobe|PRAS40	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	Q96B36	A0A024QZF6	NP_115751|NP_001265089|NP_001265088|NP_001092102|NP_001092103	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641012	51343	6790	119489	112666	-	RP5-1167H4.6	FZR1	AURKA	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641013	51343	8678	119489	114226	-	-	FZR1	BECN1	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	ATG6|VPS30|beclin1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641014	51343	894	119489	107334	-	-	FZR1	CCND2	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641015	51343	898	119489	107338	-	-	FZR1	CCNE1	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641016	51343	1019	119489	107454	-	-	FZR1	CDK4	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641017	51343	3091	119489	109338	-	-	FZR1	HIF1A	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641018	51343	2648	119489	108918	-	-	FZR1	KAT2A	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	GCN5|GCN5L2|PCAF-b|hGCN5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	Q92830	-	NP_066564	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641019	51343	5606	119489	111592	-	-	FZR1	MAP2K3	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641020	51343	4217	119489	110381	-	RP3-325F22.4	FZR1	MAP3K5	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	ASK1|MAPKKK5|MEKK5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	Q99683	-	NP_005914	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641021	51343	4233	119489	110391	-	-	FZR1	MET	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	AUTS9|HGFR|RCCP2|c-Met	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641022	51343	4771	119489	110844	-	-	FZR1	NF2	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641023	51343	5156	119489	111182	-	-	FZR1	PDGFRA	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	P16234	-	NP_006197	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641024	51343	8463	119489	114041	-	-	FZR1	TEAD2	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641025	148979	405	127182	106898	-	-	GLIS1	ARNT	-	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8NBF1	-	NP_671726	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641026	148979	1021	127182	107456	-	-	GLIS1	CDK6	-	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8NBF1	-	NP_671726	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641027	148979	1029	127182	107463	-	-	GLIS1	CDKN2A	-	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8NBF1	-	NP_671726	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641028	148979	26524	127182	117727	-	-	GLIS1	LATS2	-	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8NBF1	-	NP_671726	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641029	148979	4609	127182	110694	-	-	GLIS1	MYC	-	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8NBF1	-	NP_671726	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641030	148979	5970	127182	111902	-	-	GLIS1	RELA	-	NFKB3|p65	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8NBF1	-	NP_671726	Q04206	A0A087X0W8	NP_001230914|NP_068810|NP_001230913|NP_001138610	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641031	148979	8463	127182	114041	-	-	GLIS1	TEAD2	-	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q8NBF1	-	NP_671726	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641032	84662	405	124182	106898	-	-	GLIS2	ARNT	NKL|NPHP7	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641033	84662	23624	124182	117156	-	-	GLIS2	CBLC	NKL|NPHP7	CBL-3|CBL-SL|RNF57	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	Q9ULV8	-	NP_001124324|NP_036248	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641034	84662	894	124182	107334	-	-	GLIS2	CCND2	NKL|NPHP7	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641035	84662	960	124182	107398	-	AL133330.1	GLIS2	CD44	NKL|NPHP7	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641036	84662	1029	124182	107463	-	-	GLIS2	CDKN2A	NKL|NPHP7	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641037	84662	1030	124182	107464	-	RP11-149I2.1	GLIS2	CDKN2B	NKL|NPHP7	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641038	84662	51343	124182	119489	-	-	GLIS2	FZR1	NKL|NPHP7	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641039	84662	148979	124182	127182	-	-	GLIS2	GLIS1	NKL|NPHP7	-	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	Q8NBF1	-	NP_671726	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641040	84662	3091	124182	109338	-	-	GLIS2	HIF1A	NKL|NPHP7	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641041	84662	26524	124182	117727	-	-	GLIS2	LATS2	NKL|NPHP7	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641042	84662	5606	124182	111592	-	-	GLIS2	MAP2K3	NKL|NPHP7	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641043	84662	4217	124182	110381	-	RP3-325F22.4	GLIS2	MAP3K5	NKL|NPHP7	ASK1|MAPKKK5|MEKK5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	Q99683	-	NP_005914	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641044	84662	4193	124182	110358	-	-	GLIS2	MDM2	NKL|NPHP7	ACTFS|HDMX|hdm2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	Q00987	A7UKX8|Q96DS0|A7UKX9|A7UKX7|G3XA89	NP_001354919|NP_001265391|NP_002383|NP_001138811|NP_001138812|NP_001138809	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641045	84662	4194	124182	110359	-	RP11-430C7.1	GLIS2	MDM4	NKL|NPHP7	HDMX|MDMX|MRP1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	O15151	Q68DC0|A0A087WTR9|Q59FS6|A0A087WUE3|A0A024R990|A0A087WZ58	NP_001265445|NP_001265447|NP_001265446|NP_002384|NP_001265448|NP_001191100|NP_001191101	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641046	84662	5894	124182	111831	-	-	GLIS2	RAF1	NKL|NPHP7	CMD1NN|CRAF|NS5|Raf-1|c-Raf	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641047	84662	6658	124182	112541	-	-	GLIS2	SOX3	NKL|NPHP7	GHDX|MRGH|PHP|PHPX|SOXB	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	P41225	-	NP_005625	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641048	84662	7015	124182	112874	-	-	GLIS2	TERT	NKL|NPHP7	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZE0	-	NP_115964	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641049	2911	8678	109168	114226	-	-	GRM1	BECN1	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	ATG6|VPS30|beclin1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641050	2911	898	109168	107338	-	-	GRM1	CCNE1	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641051	2911	1019	109168	107454	-	-	GRM1	CDK4	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641052	2911	1021	109168	107456	-	-	GRM1	CDK6	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641053	2911	1031	109168	107465	-	RP11-278J17.2	GRM1	CDKN2C	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	INK4C|p18|p18-INK4C	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	P42773	Q6ICV4	NP_001253|NP_523240	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641054	2911	2064	109168	108376	-	-	GRM1	ERBB2	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641055	2911	3480	109168	109701	-	-	GRM1	IGF1R	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	CD221|IGFIR|IGFR|JTK13	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	P08069	C9J5X1	NP_000866|NP_001278787	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641056	2911	2648	109168	108918	-	-	GRM1	KAT2A	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	GCN5|GCN5L2|PCAF-b|hGCN5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	Q92830	-	NP_066564	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641057	2911	26524	109168	117727	-	-	GRM1	LATS2	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641058	2911	4609	109168	110694	-	-	GRM1	MYC	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641059	2911	4771	109168	110844	-	-	GRM1	NF2	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641060	2911	5156	109168	111182	-	-	GRM1	PDGFRA	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	P16234	-	NP_006197	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641061	2911	5894	109168	111831	-	-	GRM1	RAF1	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	CMD1NN|CRAF|NS5|Raf-1|c-Raf	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641062	2911	6794	109168	112670	-	-	GRM1	STK11	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641063	2911	7015	109168	112874	-	-	GRM1	TERT	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641064	3082	405	109330	106898	-	-	HGF	ARNT	DFNB39|F-TCF|HGFB|HPTA|SF	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641065	3082	894	109330	107334	-	-	HGF	CCND2	DFNB39|F-TCF|HGFB|HPTA|SF	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641066	3082	1019	109330	107454	-	-	HGF	CDK4	DFNB39|F-TCF|HGFB|HPTA|SF	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641067	3082	1021	109330	107456	-	-	HGF	CDK6	DFNB39|F-TCF|HGFB|HPTA|SF	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641068	3082	1029	109330	107463	-	-	HGF	CDKN2A	DFNB39|F-TCF|HGFB|HPTA|SF	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641069	3082	1030	109330	107464	-	RP11-149I2.1	HGF	CDKN2B	DFNB39|F-TCF|HGFB|HPTA|SF	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641070	3082	2064	109330	108376	-	-	HGF	ERBB2	DFNB39|F-TCF|HGFB|HPTA|SF	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641071	3082	2264	109330	108555	-	-	HGF	FGFR4	DFNB39|F-TCF|HGFB|HPTA|SF	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641072	3082	84662	109330	124182	-	-	HGF	GLIS2	DFNB39|F-TCF|HGFB|HPTA|SF	NKL|NPHP7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	Q9BZE0	-	NP_115964	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641073	3082	4194	109330	110359	-	RP11-430C7.1	HGF	MDM4	DFNB39|F-TCF|HGFB|HPTA|SF	HDMX|MDMX|MRP1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	O15151	Q68DC0|A0A087WTR9|Q59FS6|A0A087WUE3|A0A024R990|A0A087WZ58	NP_001265445|NP_001265447|NP_001265446|NP_002384|NP_001265448|NP_001191100|NP_001191101	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641074	3082	4233	109330	110391	-	-	HGF	MET	DFNB39|F-TCF|HGFB|HPTA|SF	AUTS9|HGFR|RCCP2|c-Met	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641075	3082	4771	109330	110844	-	-	HGF	NF2	DFNB39|F-TCF|HGFB|HPTA|SF	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641076	3082	5156	109330	111182	-	-	HGF	PDGFRA	DFNB39|F-TCF|HGFB|HPTA|SF	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	P16234	-	NP_006197	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641077	3082	5894	109330	111831	-	-	HGF	RAF1	DFNB39|F-TCF|HGFB|HPTA|SF	CMD1NN|CRAF|NS5|Raf-1|c-Raf	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641078	3082	8463	109330	114041	-	-	HGF	TEAD2	DFNB39|F-TCF|HGFB|HPTA|SF	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641079	3091	207	109338	106710	-	-	HIF1A	AKT1	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641080	3091	6790	109338	112666	-	RP5-1167H4.6	HIF1A	AURKA	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641081	3091	894	109338	107334	-	-	HIF1A	CCND2	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641082	3091	1019	109338	107454	-	-	HIF1A	CDK4	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641083	3091	1021	109338	107456	-	-	HIF1A	CDK6	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641084	3091	1030	109338	107464	-	RP11-149I2.1	HIF1A	CDKN2B	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641085	3091	1969	109338	108288	-	-	HIF1A	EPHA2	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641086	3091	2264	109338	108555	-	-	HIF1A	FGFR4	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641087	3091	26524	109338	117727	-	-	HIF1A	LATS2	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641088	3091	6794	109338	112670	-	-	HIF1A	STK11	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641089	3091	8463	109338	114041	-	-	HIF1A	TEAD2	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641090	3265	3265	109501	109501	-	-	HRAS	HRAS	C-BAS/HAS|C-H-RAS|C-HA-RAS1|CTLO|H-RASIDX|HAMSV|HRAS1|RASH1|p21ras	C-BAS/HAS|C-H-RAS|C-HA-RAS1|CTLO|H-RASIDX|HAMSV|HRAS1|RASH1|p21ras	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01112	X5D945	NP_001123914|NP_005334|NP_789765	P01112	X5D945	NP_001123914|NP_005334|NP_789765	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641091	3480	1019	109701	107454	-	-	IGF1R	CDK4	CD221|IGFIR|IGFR|JTK13	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08069	C9J5X1	NP_000866|NP_001278787	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641092	3480	1030	109701	107464	-	RP11-149I2.1	IGF1R	CDKN2B	CD221|IGFIR|IGFR|JTK13	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08069	C9J5X1	NP_000866|NP_001278787	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641093	3480	2264	109701	108555	-	-	IGF1R	FGFR4	CD221|IGFIR|IGFR|JTK13	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08069	C9J5X1	NP_000866|NP_001278787	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641094	2648	207	108918	106710	-	-	KAT2A	AKT1	GCN5|GCN5L2|PCAF-b|hGCN5	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q92830	-	NP_066564	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641095	2648	898	108918	107338	-	-	KAT2A	CCNE1	GCN5|GCN5L2|PCAF-b|hGCN5	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q92830	-	NP_066564	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641096	2648	1021	108918	107456	-	-	KAT2A	CDK6	GCN5|GCN5L2|PCAF-b|hGCN5	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q92830	-	NP_066564	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641097	2648	1030	108918	107464	-	RP11-149I2.1	KAT2A	CDKN2B	GCN5|GCN5L2|PCAF-b|hGCN5	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q92830	-	NP_066564	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641098	2648	26524	108918	117727	-	-	KAT2A	LATS2	GCN5|GCN5L2|PCAF-b|hGCN5	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q92830	-	NP_066564	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641099	2648	7248	108918	113099	-	-	KAT2A	TSC1	GCN5|GCN5L2|PCAF-b|hGCN5	LAM|TSC	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q92830	-	NP_066564	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641100	11014	207	116204	106710	tcag7.840	-	KDELR2	AKT1	ELP-1|ERD2.2	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641101	11014	1019	116204	107454	tcag7.840	-	KDELR2	CDK4	ELP-1|ERD2.2	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641102	11014	1021	116204	107456	tcag7.840	-	KDELR2	CDK6	ELP-1|ERD2.2	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641103	11014	1030	116204	107464	tcag7.840	RP11-149I2.1	KDELR2	CDKN2B	ELP-1|ERD2.2	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641104	11014	2064	116204	108376	tcag7.840	-	KDELR2	ERBB2	ELP-1|ERD2.2	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641105	11014	5606	116204	111592	tcag7.840	-	KDELR2	MAP2K3	ELP-1|ERD2.2	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641106	11014	4233	116204	110391	tcag7.840	-	KDELR2	MET	ELP-1|ERD2.2	AUTS9|HGFR|RCCP2|c-Met	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P33947	A0A024QZT7	NP_001094073|NP_006845	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641107	26524	898	117727	107338	-	-	LATS2	CCNE1	KPM	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NRM7	A0A024RDM3	NP_055387	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641108	26524	5606	117727	111592	-	-	LATS2	MAP2K3	KPM	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NRM7	A0A024RDM3	NP_055387	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641109	5606	960	111592	107398	-	AL133330.1	MAP2K3	CD44	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641110	5606	998	111592	107433	-	RP1-224A6.5	MAP2K3	CDC42	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	CDC42Hs|G25K	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641111	5606	1030	111592	107464	-	RP11-149I2.1	MAP2K3	CDKN2B	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641112	5606	1031	111592	107465	-	RP11-278J17.2	MAP2K3	CDKN2C	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	INK4C|p18|p18-INK4C	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	P42773	Q6ICV4	NP_001253|NP_523240	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641113	5606	2064	111592	108376	-	-	MAP2K3	ERBB2	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641114	5606	3091	111592	109338	-	-	MAP2K3	HIF1A	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641115	5606	2648	111592	108918	-	-	MAP2K3	KAT2A	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	GCN5|GCN5L2|PCAF-b|hGCN5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	Q92830	-	NP_066564	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641116	5606	5606	111592	111592	-	-	MAP2K3	MAP2K3	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641117	5606	4217	111592	110381	-	RP3-325F22.4	MAP2K3	MAP3K5	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	ASK1|MAPKKK5|MEKK5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	Q99683	-	NP_005914	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641118	5606	4233	111592	110391	-	-	MAP2K3	MET	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	AUTS9|HGFR|RCCP2|c-Met	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641119	5607	405	111593	106898	-	-	MAP2K5	ARNT	HsT17454|MAPKK5|MEK5|PRKMK5	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641120	5607	8678	111593	114226	-	-	MAP2K5	BECN1	HsT17454|MAPKK5|MEK5|PRKMK5	ATG6|VPS30|beclin1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641121	5607	1031	111593	107465	-	RP11-278J17.2	MAP2K5	CDKN2C	HsT17454|MAPKK5|MEK5|PRKMK5	INK4C|p18|p18-INK4C	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P42773	Q6ICV4	NP_001253|NP_523240	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641122	5607	51343	111593	119489	-	-	MAP2K5	FZR1	HsT17454|MAPKK5|MEK5|PRKMK5	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641123	5607	3091	111593	109338	-	-	MAP2K5	HIF1A	HsT17454|MAPKK5|MEK5|PRKMK5	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641124	5607	4194	111593	110359	-	RP11-430C7.1	MAP2K5	MDM4	HsT17454|MAPKK5|MEK5|PRKMK5	HDMX|MDMX|MRP1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	O15151	Q68DC0|A0A087WTR9|Q59FS6|A0A087WUE3|A0A024R990|A0A087WZ58	NP_001265445|NP_001265447|NP_001265446|NP_002384|NP_001265448|NP_001191100|NP_001191101	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641125	5607	7015	111593	112874	-	-	MAP2K5	TERT	HsT17454|MAPKK5|MEK5|PRKMK5	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641126	5607	7157	111593	113010	-	-	MAP2K5	TP53	HsT17454|MAPKK5|MEK5|PRKMK5	BCC7|LFS1|P53|TRP53	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641127	5607	7248	111593	113099	-	-	MAP2K5	TSC1	HsT17454|MAPKK5|MEK5|PRKMK5	LAM|TSC	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13163	A0A024R5Y2|A0A024R5X5	NP_001193733|NP_002748|NP_660143	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641128	5608	207	111594	106710	-	-	MAP2K6	AKT1	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641129	5608	8678	111594	114226	-	-	MAP2K6	BECN1	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	ATG6|VPS30|beclin1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641130	5608	894	111594	107334	-	-	MAP2K6	CCND2	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641131	5608	1030	111594	107464	-	RP11-149I2.1	MAP2K6	CDKN2B	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641132	5608	1969	111594	108288	-	-	MAP2K6	EPHA2	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641133	5608	2264	111594	108555	-	-	MAP2K6	FGFR4	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641134	5608	84662	111594	124182	-	-	MAP2K6	GLIS2	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	NKL|NPHP7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	Q9BZE0	-	NP_115964	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641135	5608	3082	111594	109330	-	-	MAP2K6	HGF	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	DFNB39|F-TCF|HGFB|HPTA|SF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641136	5608	3265	111594	109501	-	-	MAP2K6	HRAS	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	C-BAS/HAS|C-H-RAS|C-HA-RAS1|CTLO|H-RASIDX|HAMSV|HRAS1|RASH1|p21ras	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	P01112	X5D945	NP_001123914|NP_005334|NP_789765	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641137	5608	5894	111594	111831	-	-	MAP2K6	RAF1	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	CMD1NN|CRAF|NS5|Raf-1|c-Raf	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641138	5608	6794	111594	112670	-	-	MAP2K6	STK11	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641139	4217	2264	110381	108555	RP3-325F22.4	-	MAP3K5	FGFR4	ASK1|MAPKKK5|MEKK5	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q99683	-	NP_005914	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641140	4217	6794	110381	112670	RP3-325F22.4	-	MAP3K5	STK11	ASK1|MAPKKK5|MEKK5	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q99683	-	NP_005914	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641141	4217	8463	110381	114041	RP3-325F22.4	-	MAP3K5	TEAD2	ASK1|MAPKKK5|MEKK5	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q99683	-	NP_005914	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641142	4217	7015	110381	112874	RP3-325F22.4	-	MAP3K5	TERT	ASK1|MAPKKK5|MEKK5	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q99683	-	NP_005914	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641143	1432	405	107819	106898	RP1-179N16.5	-	MAPK14	ARNT	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641144	1432	894	107819	107334	RP1-179N16.5	-	MAPK14	CCND2	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641145	1432	1019	107819	107454	RP1-179N16.5	-	MAPK14	CDK4	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641146	1432	1021	107819	107456	RP1-179N16.5	-	MAPK14	CDK6	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641147	1432	1029	107819	107463	RP1-179N16.5	-	MAPK14	CDKN2A	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641148	1432	1969	107819	108288	RP1-179N16.5	-	MAPK14	EPHA2	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641149	1432	2264	107819	108555	RP1-179N16.5	-	MAPK14	FGFR4	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641150	1432	2648	107819	108918	RP1-179N16.5	-	MAPK14	KAT2A	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	GCN5|GCN5L2|PCAF-b|hGCN5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	Q92830	-	NP_066564	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641151	1432	26524	107819	117727	RP1-179N16.5	-	MAPK14	LATS2	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641152	1432	4609	107819	110694	RP1-179N16.5	-	MAPK14	MYC	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641153	1432	4771	107819	110844	RP1-179N16.5	-	MAPK14	NF2	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641154	1432	6794	107819	112670	RP1-179N16.5	-	MAPK14	STK11	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641155	1432	7248	107819	113099	RP1-179N16.5	-	MAPK14	TSC1	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	LAM|TSC	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641156	4193	6794	110358	112670	-	-	MDM2	STK11	ACTFS|HDMX|hdm2	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q00987	A7UKX8|Q96DS0|A7UKX9|A7UKX7|G3XA89	NP_001354919|NP_001265391|NP_002383|NP_001138811|NP_001138812|NP_001138809	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641157	4194	960	110359	107398	RP11-430C7.1	AL133330.1	MDM4	CD44	HDMX|MDMX|MRP1	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O15151	Q68DC0|A0A087WTR9|Q59FS6|A0A087WUE3|A0A024R990|A0A087WZ58	NP_001265445|NP_001265447|NP_001265446|NP_002384|NP_001265448|NP_001191100|NP_001191101	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641158	4194	1019	110359	107454	RP11-430C7.1	-	MDM4	CDK4	HDMX|MDMX|MRP1	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O15151	Q68DC0|A0A087WTR9|Q59FS6|A0A087WUE3|A0A024R990|A0A087WZ58	NP_001265445|NP_001265447|NP_001265446|NP_002384|NP_001265448|NP_001191100|NP_001191101	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641159	4194	1029	110359	107463	RP11-430C7.1	-	MDM4	CDKN2A	HDMX|MDMX|MRP1	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O15151	Q68DC0|A0A087WTR9|Q59FS6|A0A087WUE3|A0A024R990|A0A087WZ58	NP_001265445|NP_001265447|NP_001265446|NP_002384|NP_001265448|NP_001191100|NP_001191101	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641160	4194	1030	110359	107464	RP11-430C7.1	RP11-149I2.1	MDM4	CDKN2B	HDMX|MDMX|MRP1	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O15151	Q68DC0|A0A087WTR9|Q59FS6|A0A087WUE3|A0A024R990|A0A087WZ58	NP_001265445|NP_001265447|NP_001265446|NP_002384|NP_001265448|NP_001191100|NP_001191101	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641161	4194	1969	110359	108288	RP11-430C7.1	-	MDM4	EPHA2	HDMX|MDMX|MRP1	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O15151	Q68DC0|A0A087WTR9|Q59FS6|A0A087WUE3|A0A024R990|A0A087WZ58	NP_001265445|NP_001265447|NP_001265446|NP_002384|NP_001265448|NP_001191100|NP_001191101	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641162	4194	2264	110359	108555	RP11-430C7.1	-	MDM4	FGFR4	HDMX|MDMX|MRP1	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O15151	Q68DC0|A0A087WTR9|Q59FS6|A0A087WUE3|A0A024R990|A0A087WZ58	NP_001265445|NP_001265447|NP_001265446|NP_002384|NP_001265448|NP_001191100|NP_001191101	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641163	4194	26524	110359	117727	RP11-430C7.1	-	MDM4	LATS2	HDMX|MDMX|MRP1	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O15151	Q68DC0|A0A087WTR9|Q59FS6|A0A087WUE3|A0A024R990|A0A087WZ58	NP_001265445|NP_001265447|NP_001265446|NP_002384|NP_001265448|NP_001191100|NP_001191101	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641164	4233	960	110391	107398	-	AL133330.1	MET	CD44	AUTS9|HGFR|RCCP2|c-Met	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641165	4233	1019	110391	107454	-	-	MET	CDK4	AUTS9|HGFR|RCCP2|c-Met	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641166	4233	1021	110391	107456	-	-	MET	CDK6	AUTS9|HGFR|RCCP2|c-Met	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641167	4233	1030	110391	107464	-	RP11-149I2.1	MET	CDKN2B	AUTS9|HGFR|RCCP2|c-Met	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641168	4233	26524	110391	117727	-	-	MET	LATS2	AUTS9|HGFR|RCCP2|c-Met	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641169	4233	7015	110391	112874	-	-	MET	TERT	AUTS9|HGFR|RCCP2|c-Met	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641170	4436	207	110573	106710	-	-	MSH2	AKT1	COCA1|FCC1|HNPCC|HNPCC1|LCFS2	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P43246	E9PHA6	NP_000242|NP_001245210	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641171	4436	1969	110573	108288	-	-	MSH2	EPHA2	COCA1|FCC1|HNPCC|HNPCC1|LCFS2	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P43246	E9PHA6	NP_000242|NP_001245210	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641172	4436	2264	110573	108555	-	-	MSH2	FGFR4	COCA1|FCC1|HNPCC|HNPCC1|LCFS2	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P43246	E9PHA6	NP_000242|NP_001245210	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641173	4436	4609	110573	110694	-	-	MSH2	MYC	COCA1|FCC1|HNPCC|HNPCC1|LCFS2	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P43246	E9PHA6	NP_000242|NP_001245210	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641174	4609	1031	110694	107465	-	RP11-278J17.2	MYC	CDKN2C	MRTL|MYCC|bHLHe39|c-Myc	INK4C|p18|p18-INK4C	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	P42773	Q6ICV4	NP_001253|NP_523240	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641175	4609	1969	110694	108288	-	-	MYC	EPHA2	MRTL|MYCC|bHLHe39|c-Myc	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641176	4609	2064	110694	108376	-	-	MYC	ERBB2	MRTL|MYCC|bHLHe39|c-Myc	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641177	4609	4193	110694	110358	-	-	MYC	MDM2	MRTL|MYCC|bHLHe39|c-Myc	ACTFS|HDMX|hdm2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	Q00987	A7UKX8|Q96DS0|A7UKX9|A7UKX7|G3XA89	NP_001354919|NP_001265391|NP_002383|NP_001138811|NP_001138812|NP_001138809	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641178	4609	4233	110694	110391	-	-	MYC	MET	MRTL|MYCC|bHLHe39|c-Myc	AUTS9|HGFR|RCCP2|c-Met	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641179	4609	4087	110694	110262	-	-	MYC	SMAD2	MRTL|MYCC|bHLHe39|c-Myc	JV18|JV18-1|MADH2|MADR2|hMAD-2|hSMAD2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P01106	-	NP_002458|NP_001341799	Q15796	B7Z5N5|Q53XR6	NP_001003652|NP_001129409|NP_005892	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641180	4763	207	110836	106710	-	-	NF1	AKT1	NFNS|VRNF|WSS	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P21359	-	NP_001121619|NP_000258|NP_001035957	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641181	4763	1969	110836	108288	-	-	NF1	EPHA2	NFNS|VRNF|WSS	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P21359	-	NP_001121619|NP_000258|NP_001035957	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641182	4763	5606	110836	111592	-	-	NF1	MAP2K3	NFNS|VRNF|WSS	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P21359	-	NP_001121619|NP_000258|NP_001035957	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641183	4771	2064	110844	108376	-	-	NF2	ERBB2	ACN|BANF|SCH	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641184	4771	3091	110844	109338	-	-	NF2	HIF1A	ACN|BANF|SCH	HIF-1A|HIF-1alpha|HIF1|HIF1-ALPHA|MOP1|PASD8|bHLHe78	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	Q16665	D0VY79	NP_001521|NP_001230013|NP_851397	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641185	4771	3480	110844	109701	-	-	NF2	IGF1R	ACN|BANF|SCH	CD221|IGFIR|IGFR|JTK13	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	P08069	C9J5X1	NP_000866|NP_001278787	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641186	4771	2648	110844	108918	-	-	NF2	KAT2A	ACN|BANF|SCH	GCN5|GCN5L2|PCAF-b|hGCN5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	Q92830	-	NP_066564	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641187	4771	4217	110844	110381	-	RP3-325F22.4	NF2	MAP3K5	ACN|BANF|SCH	ASK1|MAPKKK5|MEKK5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	Q99683	-	NP_005914	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641188	4771	4194	110844	110359	-	RP11-430C7.1	NF2	MDM4	ACN|BANF|SCH	HDMX|MDMX|MRP1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	O15151	Q68DC0|A0A087WTR9|Q59FS6|A0A087WUE3|A0A024R990|A0A087WZ58	NP_001265445|NP_001265447|NP_001265446|NP_002384|NP_001265448|NP_001191100|NP_001191101	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641189	4771	4233	110844	110391	-	-	NF2	MET	ACN|BANF|SCH	AUTS9|HGFR|RCCP2|c-Met	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641190	4771	4771	110844	110844	-	-	NF2	NF2	ACN|BANF|SCH	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641191	4782	23624	110854	117156	-	-	NFIC	CBLC	CTF|CTF5|NF-I|NFI	CBL-3|CBL-SL|RNF57	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08651	B7Z4T6	NP_001231931|NP_001231933|NP_001231934|NP_005588|NP_995315	Q9ULV8	-	NP_001124324|NP_036248	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641192	4782	1602	110854	107972	-	RP11-512J14.1	NFIC	DACH1	CTF|CTF5|NF-I|NFI	DACH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08651	B7Z4T6	NP_001231931|NP_001231933|NP_001231934|NP_005588|NP_995315	Q9UI36	A0A087WY66|A0A087WZA7	NP_542938|NP_004383|NP_542937	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641193	4782	1969	110854	108288	-	-	NFIC	EPHA2	CTF|CTF5|NF-I|NFI	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08651	B7Z4T6	NP_001231931|NP_001231933|NP_001231934|NP_005588|NP_995315	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641194	4782	148979	110854	127182	-	-	NFIC	GLIS1	CTF|CTF5|NF-I|NFI	-	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08651	B7Z4T6	NP_001231931|NP_001231933|NP_001231934|NP_005588|NP_995315	Q8NBF1	-	NP_671726	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641195	4782	84662	110854	124182	-	-	NFIC	GLIS2	CTF|CTF5|NF-I|NFI	NKL|NPHP7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08651	B7Z4T6	NP_001231931|NP_001231933|NP_001231934|NP_005588|NP_995315	Q9BZE0	-	NP_115964	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641196	4782	26524	110854	117727	-	-	NFIC	LATS2	CTF|CTF5|NF-I|NFI	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08651	B7Z4T6	NP_001231931|NP_001231933|NP_001231934|NP_005588|NP_995315	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641197	4782	5606	110854	111592	-	-	NFIC	MAP2K3	CTF|CTF5|NF-I|NFI	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08651	B7Z4T6	NP_001231931|NP_001231933|NP_001231934|NP_005588|NP_995315	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641198	4782	1432	110854	107819	-	RP1-179N16.5	NFIC	MAPK14	CTF|CTF5|NF-I|NFI	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08651	B7Z4T6	NP_001231931|NP_001231933|NP_001231934|NP_005588|NP_995315	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641199	4782	4609	110854	110694	-	-	NFIC	MYC	CTF|CTF5|NF-I|NFI	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08651	B7Z4T6	NP_001231931|NP_001231933|NP_001231934|NP_005588|NP_995315	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641200	4782	5970	110854	111902	-	-	NFIC	RELA	CTF|CTF5|NF-I|NFI	NFKB3|p65	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08651	B7Z4T6	NP_001231931|NP_001231933|NP_001231934|NP_005588|NP_995315	Q04206	A0A087X0W8	NP_001230914|NP_068810|NP_001230913|NP_001138610	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641201	4782	6658	110854	112541	-	-	NFIC	SOX3	CTF|CTF5|NF-I|NFI	GHDX|MRGH|PHP|PHPX|SOXB	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08651	B7Z4T6	NP_001231931|NP_001231933|NP_001231934|NP_005588|NP_995315	P41225	-	NP_005625	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641202	4782	8463	110854	114041	-	-	NFIC	TEAD2	CTF|CTF5|NF-I|NFI	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08651	B7Z4T6	NP_001231931|NP_001231933|NP_001231934|NP_005588|NP_995315	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641203	5156	405	111182	106898	-	-	PDGFRA	ARNT	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641204	5156	6790	111182	112666	-	RP5-1167H4.6	PDGFRA	AURKA	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641205	5156	894	111182	107334	-	-	PDGFRA	CCND2	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641206	5156	960	111182	107398	-	AL133330.1	PDGFRA	CD44	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641207	5156	1021	111182	107456	-	-	PDGFRA	CDK6	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641208	5156	1029	111182	107463	-	-	PDGFRA	CDKN2A	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641209	5156	1031	111182	107465	-	RP11-278J17.2	PDGFRA	CDKN2C	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	INK4C|p18|p18-INK4C	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	P42773	Q6ICV4	NP_001253|NP_523240	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641210	5156	2064	111182	108376	-	-	PDGFRA	ERBB2	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641211	5156	6794	111182	112670	-	-	PDGFRA	STK11	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641212	5156	7015	111182	112874	-	-	PDGFRA	TERT	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P16234	-	NP_006197	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641213	5290	369	111308	106864	-	RP1-230G1.1	PIK3CA	ARAF	CLOVE|CWS5|MCAP|MCM|MCMTC|PI3K|p110-alpha	A-RAF|ARAF1|PKS2|RAFA1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42336	-	NP_006209	P10398	Q96II5|A0A024R178	NP_001645|NP_001243126|NP_001243125	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641214	5290	894	111308	107334	-	-	PIK3CA	CCND2	CLOVE|CWS5|MCAP|MCM|MCMTC|PI3K|p110-alpha	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42336	-	NP_006209	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641215	5290	1956	111308	108276	-	-	PIK3CA	EGFR	CLOVE|CWS5|MCAP|MCM|MCMTC|PI3K|p110-alpha	ERBB|ERBB1|HER1|NISBD2|PIG61|mENA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42336	-	NP_006209	P00533	-	NP_001333829|NP_001333828|NP_958440|NP_005219|NP_001333827|NP_001333826|NP_958441|NP_001333870|NP_958439	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641216	5290	84662	111308	124182	-	-	PIK3CA	GLIS2	CLOVE|CWS5|MCAP|MCM|MCMTC|PI3K|p110-alpha	NKL|NPHP7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42336	-	NP_006209	Q9BZE0	-	NP_115964	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641217	5290	4609	111308	110694	-	-	PIK3CA	MYC	CLOVE|CWS5|MCAP|MCM|MCMTC|PI3K|p110-alpha	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42336	-	NP_006209	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641218	5290	6794	111308	112670	-	-	PIK3CA	STK11	CLOVE|CWS5|MCAP|MCM|MCMTC|PI3K|p110-alpha	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P42336	-	NP_006209	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641219	5295	207	111313	106710	-	-	PIK3R1	AKT1	AGM7|GRB1|IMD36|p85|p85-ALPHA	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P27986	-	NP_852665|NP_852664|NP_001229395|NP_852556	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641220	5728	207	111700	106710	-	-	PTEN	AKT1	10q23del|BZS|CWS1|DEC|GLM2|MHAM|MMAC1|PTEN1|TEP1	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P60484	F6KD01	NP_001291646|NP_000305	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641221	5728	894	111700	107334	-	-	PTEN	CCND2	10q23del|BZS|CWS1|DEC|GLM2|MHAM|MMAC1|PTEN1|TEP1	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P60484	F6KD01	NP_001291646|NP_000305	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641222	5728	1969	111700	108288	-	-	PTEN	EPHA2	10q23del|BZS|CWS1|DEC|GLM2|MHAM|MMAC1|PTEN1|TEP1	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P60484	F6KD01	NP_001291646|NP_000305	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641223	5728	5606	111700	111592	-	-	PTEN	MAP2K3	10q23del|BZS|CWS1|DEC|GLM2|MHAM|MMAC1|PTEN1|TEP1	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P60484	F6KD01	NP_001291646|NP_000305	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641224	5728	4609	111700	110694	-	-	PTEN	MYC	10q23del|BZS|CWS1|DEC|GLM2|MHAM|MMAC1|PTEN1|TEP1	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P60484	F6KD01	NP_001291646|NP_000305	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641225	5894	405	111831	106898	-	-	RAF1	ARNT	CMD1NN|CRAF|NS5|Raf-1|c-Raf	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641226	5894	894	111831	107334	-	-	RAF1	CCND2	CMD1NN|CRAF|NS5|Raf-1|c-Raf	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641227	5894	960	111831	107398	-	AL133330.1	RAF1	CD44	CMD1NN|CRAF|NS5|Raf-1|c-Raf	CDW44|CSPG8|ECMR-III|HCELL|HUTCH-I|IN|LHR|MC56|MDU2|MDU3|MIC4|Pgp1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P16070	-	NP_000601|NP_001189485|NP_001001389|NP_001189486|NP_001001390|NP_001189484|NP_001001392|NP_001001391	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641228	5894	1029	111831	107463	-	-	RAF1	CDKN2A	CMD1NN|CRAF|NS5|Raf-1|c-Raf	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641229	5894	1031	111831	107465	-	RP11-278J17.2	RAF1	CDKN2C	CMD1NN|CRAF|NS5|Raf-1|c-Raf	INK4C|p18|p18-INK4C	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P42773	Q6ICV4	NP_001253|NP_523240	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641230	5894	1969	111831	108288	-	-	RAF1	EPHA2	CMD1NN|CRAF|NS5|Raf-1|c-Raf	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641231	5894	2064	111831	108376	-	-	RAF1	ERBB2	CMD1NN|CRAF|NS5|Raf-1|c-Raf	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641232	5894	9817	111831	115156	-	-	RAF1	KEAP1	CMD1NN|CRAF|NS5|Raf-1|c-Raf	INrf2|KLHL19	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	Q14145	A0A024R7C0	NP_036421|NP_987096	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641233	5894	26524	111831	117727	-	-	RAF1	LATS2	CMD1NN|CRAF|NS5|Raf-1|c-Raf	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641234	5894	4217	111831	110381	-	RP3-325F22.4	RAF1	MAP3K5	CMD1NN|CRAF|NS5|Raf-1|c-Raf	ASK1|MAPKKK5|MEKK5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	Q99683	-	NP_005914	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641235	5894	4233	111831	110391	-	-	RAF1	MET	CMD1NN|CRAF|NS5|Raf-1|c-Raf	AUTS9|HGFR|RCCP2|c-Met	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641236	5894	4609	111831	110694	-	-	RAF1	MYC	CMD1NN|CRAF|NS5|Raf-1|c-Raf	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641237	5894	4763	111831	110836	-	-	RAF1	NF1	CMD1NN|CRAF|NS5|Raf-1|c-Raf	NFNS|VRNF|WSS	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P21359	-	NP_001121619|NP_000258|NP_001035957	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641238	5894	5894	111831	111831	-	-	RAF1	RAF1	CMD1NN|CRAF|NS5|Raf-1|c-Raf	CMD1NN|CRAF|NS5|Raf-1|c-Raf	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641239	5894	7015	111831	112874	-	-	RAF1	TERT	CMD1NN|CRAF|NS5|Raf-1|c-Raf	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04049	B4E0X2|L7RRS6	NP_001341624|NP_001341620|NP_001341621|NP_001341622|NP_001341623|NP_002871|NP_001341619|NP_001341618	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641240	11186	6790	116356	112666	-	RP5-1167H4.6	RASSF1	AURKA	123F2|NORE2A|RASSF1A|RDA32|REH3P21	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641241	11186	894	116356	107334	-	-	RASSF1	CCND2	123F2|NORE2A|RASSF1A|RDA32|REH3P21	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641242	11186	898	116356	107338	-	-	RASSF1	CCNE1	123F2|NORE2A|RASSF1A|RDA32|REH3P21	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641243	11186	1019	116356	107454	-	-	RASSF1	CDK4	123F2|NORE2A|RASSF1A|RDA32|REH3P21	CMM3|PSK-J3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	P11802	A0A024RBB6	NP_000066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641244	11186	1030	116356	107464	-	RP11-149I2.1	RASSF1	CDKN2B	123F2|NORE2A|RASSF1A|RDA32|REH3P21	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641245	11186	1969	116356	108288	-	-	RASSF1	EPHA2	123F2|NORE2A|RASSF1A|RDA32|REH3P21	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641246	11186	2064	116356	108376	-	-	RASSF1	ERBB2	123F2|NORE2A|RASSF1A|RDA32|REH3P21	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641247	11186	51343	116356	119489	-	-	RASSF1	FZR1	123F2|NORE2A|RASSF1A|RDA32|REH3P21	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641248	11186	2911	116356	109168	-	-	RASSF1	GRM1	123F2|NORE2A|RASSF1A|RDA32|REH3P21	GPRC1A|MGLU1|MGLUR1|PPP1R85|SCAR13	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	Q13255	Q59HC2	NP_001264993|NP_000829|NP_001264994|NP_001264995|NP_001264996	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641249	11186	2648	116356	108918	-	-	RASSF1	KAT2A	123F2|NORE2A|RASSF1A|RDA32|REH3P21	GCN5|GCN5L2|PCAF-b|hGCN5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	Q92830	-	NP_066564	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641250	11186	11014	116356	116204	-	tcag7.840	RASSF1	KDELR2	123F2|NORE2A|RASSF1A|RDA32|REH3P21	ELP-1|ERD2.2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	P33947	A0A024QZT7	NP_001094073|NP_006845	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641251	11186	5608	116356	111594	-	-	RASSF1	MAP2K6	123F2|NORE2A|RASSF1A|RDA32|REH3P21	MAPKK6|MEK6|MKK6|PRKMK6|SAPKK-3|SAPKK3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	P52564	A0A024R8K3|A8K3Y2	NP_002749|NP_001317379	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641252	11186	4233	116356	110391	-	-	RASSF1	MET	123F2|NORE2A|RASSF1A|RDA32|REH3P21	AUTS9|HGFR|RCCP2|c-Met	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641253	11186	5970	116356	111902	-	-	RASSF1	RELA	123F2|NORE2A|RASSF1A|RDA32|REH3P21	NFKB3|p65	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	Q04206	A0A087X0W8	NP_001230914|NP_068810|NP_001230913|NP_001138610	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641254	11186	8463	116356	114041	-	-	RASSF1	TEAD2	123F2|NORE2A|RASSF1A|RDA32|REH3P21	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641255	11186	7015	116356	112874	-	-	RASSF1	TERT	123F2|NORE2A|RASSF1A|RDA32|REH3P21	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641256	11186	7248	116356	113099	-	-	RASSF1	TSC1	123F2|NORE2A|RASSF1A|RDA32|REH3P21	LAM|TSC	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641257	5925	4609	111860	110694	RP11-174I10.1	-	RB1	MYC	OSRC|PPP1R130|RB|p105-Rb|pRb|pp110	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P06400	A0A024RDV3	NP_000312	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641258	5970	405	111902	106898	-	-	RELA	ARNT	NFKB3|p65	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q04206	A0A087X0W8	NP_001230914|NP_068810|NP_001230913|NP_001138610	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641259	5970	6790	111902	112666	-	RP5-1167H4.6	RELA	AURKA	NFKB3|p65	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q04206	A0A087X0W8	NP_001230914|NP_068810|NP_001230913|NP_001138610	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641260	5970	894	111902	107334	-	-	RELA	CCND2	NFKB3|p65	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q04206	A0A087X0W8	NP_001230914|NP_068810|NP_001230913|NP_001138610	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641261	5970	3480	111902	109701	-	-	RELA	IGF1R	NFKB3|p65	CD221|IGFIR|IGFR|JTK13	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q04206	A0A087X0W8	NP_001230914|NP_068810|NP_001230913|NP_001138610	P08069	C9J5X1	NP_000866|NP_001278787	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641262	5970	2648	111902	108918	-	-	RELA	KAT2A	NFKB3|p65	GCN5|GCN5L2|PCAF-b|hGCN5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q04206	A0A087X0W8	NP_001230914|NP_068810|NP_001230913|NP_001138610	Q92830	-	NP_066564	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641263	5970	26524	111902	117727	-	-	RELA	LATS2	NFKB3|p65	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q04206	A0A087X0W8	NP_001230914|NP_068810|NP_001230913|NP_001138610	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641264	5970	4609	111902	110694	-	-	RELA	MYC	NFKB3|p65	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q04206	A0A087X0W8	NP_001230914|NP_068810|NP_001230913|NP_001138610	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641265	6098	2264	112025	108555	RP1-179P9.1	-	ROS1	FGFR4	MCF3|ROS|c-ros-1	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P08922	-	NP_002935	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641266	2810	2308	109072	108597	-	-	SFN	FOXO1	YWHAS	FKH1|FKHR|FOXO1A	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P31947	-	NP_006133	Q12778	-	NP_002006	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641267	4086	1602	110261	107972	-	RP11-512J14.1	SMAD1	DACH1	BSP-1|BSP1|JV4-1|JV41|MADH1|MADR1	DACH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15797	-	NP_001003688|NP_005891	Q9UI36	A0A087WY66|A0A087WZA7	NP_542938|NP_004383|NP_542937	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641268	4086	5606	110261	111592	-	-	SMAD1	MAP2K3	BSP-1|BSP1|JV4-1|JV41|MADH1|MADR1	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15797	-	NP_001003688|NP_005891	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641269	4086	4087	110261	110262	-	-	SMAD1	SMAD2	BSP-1|BSP1|JV4-1|JV41|MADH1|MADR1	JV18|JV18-1|MADH2|MADR2|hMAD-2|hSMAD2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15797	-	NP_001003688|NP_005891	Q15796	B7Z5N5|Q53XR6	NP_001003652|NP_001129409|NP_005892	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641270	4086	6794	110261	112670	-	-	SMAD1	STK11	BSP-1|BSP1|JV4-1|JV41|MADH1|MADR1	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15797	-	NP_001003688|NP_005891	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641271	4087	26524	110262	117727	-	-	SMAD2	LATS2	JV18|JV18-1|MADH2|MADR2|hMAD-2|hSMAD2	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15796	B7Z5N5|Q53XR6	NP_001003652|NP_001129409|NP_005892	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641272	6597	6794	112481	112670	-	-	SMARCA4	STK11	BAF190|BAF190A|BRG1|MRD16|RTPS2|SNF2|SNF2L4|SNF2LB|SWI2|hSNF2b	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P51532	A7E2E1|Q9HBD4|B3KNW7	NP_003063|NP_001122319|NP_001122318|NP_001122317|NP_001122316|NP_001122320|NP_001122321|NP_001361386	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641273	6658	6790	112541	112666	-	RP5-1167H4.6	SOX3	AURKA	GHDX|MRGH|PHP|PHPX|SOXB	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P41225	-	NP_005625	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641274	6658	1029	112541	107463	-	-	SOX3	CDKN2A	GHDX|MRGH|PHP|PHPX|SOXB	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P41225	-	NP_005625	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641275	6658	4609	112541	110694	-	-	SOX3	MYC	GHDX|MRGH|PHP|PHPX|SOXB	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P41225	-	NP_005625	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641276	6658	4771	112541	110844	-	-	SOX3	NF2	GHDX|MRGH|PHP|PHPX|SOXB	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P41225	-	NP_005625	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641277	6658	7015	112541	112874	-	-	SOX3	TERT	GHDX|MRGH|PHP|PHPX|SOXB	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P41225	-	NP_005625	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641278	6659	207	112542	106710	-	-	SOX4	AKT1	EVI16	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q06945	-	NP_003098	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641279	6659	51343	112542	119489	-	-	SOX4	FZR1	EVI16	CDC20C|CDH1|FZR|FZR2|HCDH|HCDH1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q06945	-	NP_003098	Q9UM11	-	NP_057347|NP_001129669|NP_001129670	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641280	6659	3845	112542	110043	-	-	SOX4	KRAS	EVI16	C-K-RAS|CFC2|K-RAS2A|K-RAS2B|K-RAS4A|K-RAS4B|KI-RAS|KRAS1|KRAS2|NS|NS3|RASK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q06945	-	NP_003098	P01116	A0A024RAV5|I1SRC5|L7RSL8	NP_001356716|NP_203524|NP_001356715|NP_004976	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641281	6659	4609	112542	110694	-	-	SOX4	MYC	EVI16	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q06945	-	NP_003098	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641282	6659	4763	112542	110836	-	-	SOX4	NF1	EVI16	NFNS|VRNF|WSS	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q06945	-	NP_003098	P21359	-	NP_001121619|NP_000258|NP_001035957	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641283	6659	4771	112542	110844	-	-	SOX4	NF2	EVI16	ACN|BANF|SCH	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q06945	-	NP_003098	P35240	A0A024R1J9|A0A024R1D9|A0A024R1J8|A0A024R1F6|A0A024R1I0	NP_000259|NP_861971|NP_861970|NP_861546|NP_861966|NP_861967|NP_057502|NP_861968|NP_861969	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641284	6659	6597	112542	112481	-	-	SOX4	SMARCA4	EVI16	BAF190|BAF190A|BRG1|MRD16|RTPS2|SNF2|SNF2L4|SNF2LB|SWI2|hSNF2b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q06945	-	NP_003098	P51532	A7E2E1|Q9HBD4|B3KNW7	NP_003063|NP_001122319|NP_001122318|NP_001122317|NP_001122316|NP_001122320|NP_001122321|NP_001361386	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641285	6659	6794	112542	112670	-	-	SOX4	STK11	EVI16	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q06945	-	NP_003098	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641286	6659	7015	112542	112874	-	-	SOX4	TERT	EVI16	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q06945	-	NP_003098	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641287	6659	7248	112542	113099	-	-	SOX4	TSC1	EVI16	LAM|TSC	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q06945	-	NP_003098	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641288	6794	1969	112670	108288	-	-	STK11	EPHA2	LKB1|PJS|hLKB1	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15831	-	NP_000446	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641289	6788	6788	112664	112664	-	-	STK3	STK3	KRS1|MST2	KRS1|MST2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13188	A0A087WZ06	NP_001243242|NP_001243241|NP_006272	Q13188	A0A087WZ06	NP_001243242|NP_001243241|NP_006272	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641290	6788	6789	112664	112665	-	-	STK3	STK4	KRS1|MST2	KRS2|MST1|TIIAC|YSK3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13188	A0A087WZ06	NP_001243242|NP_001243241|NP_006272	Q13043	-	NP_006273|NP_001339314	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641291	6789	6789	112665	112665	-	-	STK4	STK4	KRS2|MST1|TIIAC|YSK3	KRS2|MST1|TIIAC|YSK3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q13043	-	NP_006273|NP_001339314	Q13043	-	NP_006273|NP_001339314	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641292	6929	2648	112791	108918	-	-	TCF3	KAT2A	E2A|E47|ITF1|TCF-3|VDIR|bHLHb21	GCN5|GCN5L2|PCAF-b|hGCN5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P15923	Q2TB39|X6REB3	NP_001129611|NP_003191	Q92830	-	NP_066564	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641293	8463	207	114041	106710	-	-	TEAD2	AKT1	ETF|TEAD-2|TEF-4|TEF4	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641294	8463	1030	114041	107464	-	RP11-149I2.1	TEAD2	CDKN2B	ETF|TEAD-2|TEF-4|TEF4	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641295	8463	2264	114041	108555	-	-	TEAD2	FGFR4	ETF|TEAD-2|TEF-4|TEF4	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641296	8463	26524	114041	117727	-	-	TEAD2	LATS2	ETF|TEAD-2|TEF-4|TEF4	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641297	8463	5606	114041	111592	-	-	TEAD2	MAP2K3	ETF|TEAD-2|TEF-4|TEF4	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641298	8463	6794	114041	112670	-	-	TEAD2	STK11	ETF|TEAD-2|TEF-4|TEF4	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641299	7015	207	112874	106710	-	-	TERT	AKT1	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O14746	-	NP_937983|NP_001180305	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641300	7015	898	112874	107338	-	-	TERT	CCNE1	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	CCNE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O14746	-	NP_937983|NP_001180305	P24864	-	NP_001229	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641301	7015	1030	112874	107464	-	RP11-149I2.1	TERT	CDKN2B	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O14746	-	NP_937983|NP_001180305	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641302	7015	2264	112874	108555	-	-	TERT	FGFR4	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O14746	-	NP_937983|NP_001180305	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641303	7015	5606	112874	111592	-	-	TERT	MAP2K3	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O14746	-	NP_937983|NP_001180305	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641304	7015	6794	112874	112670	-	-	TERT	STK11	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O14746	-	NP_937983|NP_001180305	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641305	7015	8463	112874	114041	-	-	TERT	TEAD2	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	O14746	-	NP_937983|NP_001180305	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641306	7132	207	112986	106710	-	-	TNFRSF1A	AKT1	CD120a|FPF|MS5|TBP1|TNF-R|TNF-R-I|TNF-R55|TNFAR|TNFR1|TNFR1-d2|TNFR55|TNFR60|p55|p55-R|p60	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P19438	-	NP_001333021|NP_001333020|NP_001056	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641307	7132	1021	112986	107456	-	-	TNFRSF1A	CDK6	CD120a|FPF|MS5|TBP1|TNF-R|TNF-R-I|TNF-R55|TNFAR|TNFR1|TNFR1-d2|TNFR55|TNFR60|p55|p55-R|p60	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P19438	-	NP_001333021|NP_001333020|NP_001056	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641308	7132	1030	112986	107464	-	RP11-149I2.1	TNFRSF1A	CDKN2B	CD120a|FPF|MS5|TBP1|TNF-R|TNF-R-I|TNF-R55|TNFAR|TNFR1|TNFR1-d2|TNFR55|TNFR60|p55|p55-R|p60	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P19438	-	NP_001333021|NP_001333020|NP_001056	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641309	7132	6794	112986	112670	-	-	TNFRSF1A	STK11	CD120a|FPF|MS5|TBP1|TNF-R|TNF-R-I|TNF-R55|TNFAR|TNFR1|TNFR1-d2|TNFR55|TNFR60|p55|p55-R|p60	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P19438	-	NP_001333021|NP_001333020|NP_001056	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641310	7132	7132	112986	112986	-	-	TNFRSF1A	TNFRSF1A	CD120a|FPF|MS5|TBP1|TNF-R|TNF-R-I|TNF-R55|TNFAR|TNFR1|TNFR1-d2|TNFR55|TNFR60|p55|p55-R|p60	CD120a|FPF|MS5|TBP1|TNF-R|TNF-R-I|TNF-R55|TNFAR|TNFR1|TNFR1-d2|TNFR55|TNFR60|p55|p55-R|p60	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P19438	-	NP_001333021|NP_001333020|NP_001056	P19438	-	NP_001333021|NP_001333020|NP_001056	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641311	7157	207	113010	106710	-	-	TP53	AKT1	BCC7|LFS1|P53|TRP53	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641312	7157	405	113010	106898	-	-	TP53	ARNT	BCC7|LFS1|P53|TRP53	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641313	7157	1021	113010	107456	-	-	TP53	CDK6	BCC7|LFS1|P53|TRP53	MCPH12|PLSTIRE	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	Q00534	-	NP_001138778|NP_001250	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641314	7157	1029	113010	107463	-	-	TP53	CDKN2A	BCC7|LFS1|P53|TRP53	ARF|CDK4I|CDKN2|CMM2|INK4|INK4A|MLM|MTS-1|MTS1|P14|P14ARF|P16|P16-INK4A|P16INK4|P16INK4A|P19|P19ARF|TP16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	Q8N726|P42771	G3XAG3|K7PML8	NP_478102|NP_001182061|NP_000068|NP_478104	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641315	7157	1030	113010	107464	-	RP11-149I2.1	TP53	CDKN2B	BCC7|LFS1|P53|TRP53	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641316	7157	2064	113010	108376	-	-	TP53	ERBB2	BCC7|LFS1|P53|TRP53	CD340|HER-2|HER-2/neu|HER2|MLN 19|NEU|NGL|TKR1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	P04626	F5H1T4|J3QLU9|X5DNK3	NP_001005862|NP_001276867|NP_001369735|NP_001369727|NP_001369726|NP_001369725|NP_001369724|NP_001369723|NP_001369722|NP_001369721|NP_001369720|NP_001369730|NP_001369729|NP_001369728|NP_001369714|NP_004439|NP_001369715|NP_001276866|NP_001369717|NP_001369712|NP_001369713|NP_001276865|NP_001369711|NP_001369716|NP_001369731|NP_001369732|NP_001369733|NP_001369718|NP_001369719	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641317	7157	2264	113010	108555	-	-	TP53	FGFR4	BCC7|LFS1|P53|TRP53	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641318	7157	2648	113010	108918	-	-	TP53	KAT2A	BCC7|LFS1|P53|TRP53	GCN5|GCN5L2|PCAF-b|hGCN5	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	Q92830	-	NP_066564	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641319	7157	26524	113010	117727	-	-	TP53	LATS2	BCC7|LFS1|P53|TRP53	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641320	7157	5606	113010	111592	-	-	TP53	MAP2K3	BCC7|LFS1|P53|TRP53	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641321	7157	4233	113010	110391	-	-	TP53	MET	BCC7|LFS1|P53|TRP53	AUTS9|HGFR|RCCP2|c-Met	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	P08581	A0A024R759|A0A024R728|B4DLF5	NP_001120972|NP_001311331|NP_001311330|NP_000236	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641322	7157	4609	113010	110694	-	-	TP53	MYC	BCC7|LFS1|P53|TRP53	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641323	7157	5156	113010	111182	-	-	TP53	PDGFRA	BCC7|LFS1|P53|TRP53	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	P16234	-	NP_006197	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641324	7157	5970	113010	111902	-	-	TP53	RELA	BCC7|LFS1|P53|TRP53	NFKB3|p65	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	Q04206	A0A087X0W8	NP_001230914|NP_068810|NP_001230913|NP_001138610	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641325	7157	6794	113010	112670	-	-	TP53	STK11	BCC7|LFS1|P53|TRP53	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641326	7157	8463	113010	114041	-	-	TP53	TEAD2	BCC7|LFS1|P53|TRP53	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P04637	H2EHT1|A0A087WT22|A0A087WXZ1|Q53GA5|A0A087X1Q1|K7PPA8	NP_001119586|NP_001119590|NP_001119584|NP_000537|NP_001263627|NP_001263626|NP_001263625|NP_001119588|NP_001263628|NP_001119587|NP_001263624|NP_001119585|NP_001263690|NP_001119589|NP_001263689	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641327	7248	207	113099	106710	-	-	TSC1	AKT1	LAM|TSC	AKT|CWS6|PKB|PKB-ALPHA|PRKBA|RAC|RAC-ALPHA	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	P31749	B0LPE5|B3KVH4	NP_005154|NP_001014432|NP_001014431|NP_001369359|NP_001369362|NP_001369361|NP_001369360	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641328	7248	1030	113099	107464	-	RP11-149I2.1	TSC1	CDKN2B	LAM|TSC	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641329	7248	2264	113099	108555	-	-	TSC1	FGFR4	LAM|TSC	CD334|JTK2|TKF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641330	7248	26524	113099	117727	-	-	TSC1	LATS2	LAM|TSC	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q92574	Q86WV8|X5D9D2|Q32NF0	NP_001155898|NP_001155899|NP_001349106|NP_000359	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641331	94015	894	125087	107334	-	-	TTYH2	CCND2	C17orf29	KIAK0002|MPPH3	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BSA4	Q8N3U8|B4DKD1	NP_443101|NP_116035	P30279	-	NP_001750	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641332	94015	1030	125087	107464	-	RP11-149I2.1	TTYH2	CDKN2B	C17orf29	CDK4I|INK4B|MTS2|P15|TP15|p15INK4b	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BSA4	Q8N3U8|B4DKD1	NP_443101|NP_116035	P42772	K7PPU3	NP_004927|NP_511042	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641333	94015	3480	125087	109701	-	-	TTYH2	IGF1R	C17orf29	CD221|IGFIR|IGFR|JTK13	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BSA4	Q8N3U8|B4DKD1	NP_443101|NP_116035	P08069	C9J5X1	NP_000866|NP_001278787	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641334	54904	23624	120250	117156	DC28	-	WHSC1L1	CBLC	NSD3|pp14328	CBL-3|CBL-SL|RNF57	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZ95	-	NP_060248|NP_075447	Q9ULV8	-	NP_001124324|NP_036248	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641335	54904	84662	120250	124182	DC28	-	WHSC1L1	GLIS2	NSD3|pp14328	NKL|NPHP7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZ95	-	NP_060248|NP_075447	Q9BZE0	-	NP_115964	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641336	54904	4782	120250	110854	DC28	-	WHSC1L1	NFIC	NSD3|pp14328	CTF|CTF5|NF-I|NFI	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZ95	-	NP_060248|NP_075447	P08651	B7Z4T6	NP_001231931|NP_001231933|NP_001231934|NP_005588|NP_995315	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641337	54904	6658	120250	112541	DC28	-	WHSC1L1	SOX3	NSD3|pp14328	GHDX|MRGH|PHP|PHPX|SOXB	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZ95	-	NP_060248|NP_075447	P41225	-	NP_005625	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641338	54904	6929	120250	112791	DC28	-	WHSC1L1	TCF3	NSD3|pp14328	E2A|E47|ITF1|TCF-3|VDIR|bHLHb21	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZ95	-	NP_060248|NP_075447	P15923	Q2TB39|X6REB3	NP_001129611|NP_003191	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641339	54904	8463	120250	114041	DC28	-	WHSC1L1	TEAD2	NSD3|pp14328	ETF|TEAD-2|TEF-4|TEF4	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZ95	-	NP_060248|NP_075447	Q15562	A0A024QZE2	NP_001243588|NP_001243589|NP_001243591|NP_001243590|NP_001243587|NP_003589	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641340	54904	7015	120250	112874	DC28	-	WHSC1L1	TERT	NSD3|pp14328	CMM9|DKCA2|DKCB4|EST2|PFBMFT1|TCS1|TP2|TRT|hEST2|hTRT	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	Q9BZ95	-	NP_060248|NP_075447	O14746	-	NP_937983|NP_001180305	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641341	7490	84662	113327	124182	-	-	WT1	GLIS2	AWT1|EWS-WT1|GUD|NPHS4|WAGR|WIT-2|WT33	NKL|NPHP7	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P19544	Q6PI38	NP_000369|NP_077744|NP_001185481|NP_001185480|NP_077742	Q9BZE0	-	NP_115964	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641342	7490	6659	113327	112542	-	-	WT1	SOX4	AWT1|EWS-WT1|GUD|NPHS4|WAGR|WIT-2|WT33	EVI16	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P19544	Q6PI38	NP_000369|NP_077744|NP_001185481|NP_001185480|NP_077742	Q06945	-	NP_003098	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641343	7490	6794	113327	112670	-	-	WT1	STK11	AWT1|EWS-WT1|GUD|NPHS4|WAGR|WIT-2|WT33	LKB1|PJS|hLKB1	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P19544	Q6PI38	NP_000369|NP_077744|NP_001185481|NP_001185480|NP_077742	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641344	10413	26524	115684	117727	-	-	YAP1	LATS2	COB1|YAP|YAP2|YAP65|YKI	KPM	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46937	A0A024R3E4|Q86T74|K0KVU2	NP_001269030|NP_001181974|NP_001123617|NP_001269026|NP_001269029|NP_001269028|NP_001269027|NP_006097|NP_001181973	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641345	10413	7534	115684	113366	-	-	YAP1	YWHAZ	COB1|YAP|YAP2|YAP65|YKI	14-3-3-zeta|HEL-S-3|HEL4|KCIP-1|YWHAD	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P46937	A0A024R3E4|Q86T74|K0KVU2	NP_001269030|NP_001181974|NP_001123617|NP_001269026|NP_001269029|NP_001269028|NP_001269027|NP_006097|NP_001181973	P63104	D0PNI1	NP_003397|NP_001129174|NP_001129171|NP_001129172|NP_001129173|NP_663723	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641346	7532	3082	113364	109330	-	-	YWHAG	HGF	14-3-3GAMMA|PPP1R170	DFNB39|F-TCF|HGFB|HPTA|SF	FRET	physical	Li Z (2017)	PUBMED:28205554	9606	9606	High Throughput	-	-	Time-resolved fluorescence energy transfer (TR-FRET)	-	BIOGRID	P61981	-	NP_036611	P14210	-	NP_001010933|NP_001010932|NP_001010931|NP_000592|NP_001010934	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641347	5606	405	111592	106898	-	-	MAP2K3	ARNT	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	HIF-1-beta|HIF-1beta|HIF1-beta|HIF1B|HIF1BETA|TANGO|bHLHe2	FRET	physical	Ivanov AA (2017)	PUBMED:28628118	9606	9606	High Throughput	-	-	-	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	P27540	A8K6P0|Q53F30|B0AZM1	NP_001337153|NP_001337155|NP_001659|NP_001337154|NP_001184254|NP_848514|NP_001272964|NP_001272965	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641348	5606	6790	111592	112666	-	RP5-1167H4.6	MAP2K3	AURKA	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	AIK|ARK1|AURA|AURORA2|BTAK|PPP1R47|STK15|STK6|STK7	FRET	physical	Ivanov AA (2017)	PUBMED:28628118	9606	9606	High Throughput	-	-	-	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	O14965	-	NP_001310233|NP_940836|NP_940837|NP_003591|NP_001310232|NP_001310234|NP_940835|NP_940838|NP_940839	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641349	5606	8678	111592	114226	-	-	MAP2K3	BECN1	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	ATG6|VPS30|beclin1	FRET	physical	Ivanov AA (2017)	PUBMED:28628118	9606	9606	High Throughput	-	-	-	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641350	5606	1969	111592	108288	-	-	MAP2K3	EPHA2	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	ARCC2|CTPA|CTPP1|CTRCT6|ECK	FRET	physical	Ivanov AA (2017)	PUBMED:28628118	9606	9606	High Throughput	-	-	-	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	P29317	A0A024QZA8	NP_004422|NP_001316019	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641351	5606	2264	111592	108555	-	-	MAP2K3	FGFR4	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	CD334|JTK2|TKF	FRET	physical	Ivanov AA (2017)	PUBMED:28628118	9606	9606	High Throughput	-	-	-	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	P22455	B4DVP5|J3KPQ0	NP_002002|NP_998812|NP_075252|NP_001278909	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641352	5606	1432	111592	107819	-	RP1-179N16.5	MAP2K3	MAPK14	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	CSBP|CSBP1|CSBP2|CSPB1|EXIP|Mxi2|PRKM14|PRKM15|RK|SAPK2A|p38|p38ALPHA	FRET	physical	Ivanov AA (2017)	PUBMED:28628118	9606	9606	High Throughput	-	-	-	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	Q16539	B4E0K5|A0A024RD15|L7RSM2	NP_620581|NP_001306|NP_620582|NP_620583	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641353	5606	4609	111592	110694	-	-	MAP2K3	MYC	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	MRTL|MYCC|bHLHe39|c-Myc	FRET	physical	Ivanov AA (2017)	PUBMED:28628118	9606	9606	High Throughput	-	-	-	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	P01106	-	NP_002458|NP_001341799	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641354	5606	5156	111592	111182	-	-	MAP2K3	PDGFRA	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	CD140A|PDGFR-2|PDGFR2|RHEPDGFRA	FRET	physical	Ivanov AA (2017)	PUBMED:28628118	9606	9606	High Throughput	-	-	-	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	P16234	-	NP_006197	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641355	5606	11186	111592	116356	-	-	MAP2K3	RASSF1	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	123F2|NORE2A|RASSF1A|RDA32|REH3P21	FRET	physical	Ivanov AA (2017)	PUBMED:28628118	9606	9606	High Throughput	-	-	-	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	Q9NS23	-	NP_001193886|NP_733832|NP_009113|NP_733830|NP_733831	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641356	5606	6794	111592	112670	-	-	MAP2K3	STK11	MAPKK3|MEK3|MKK3|PRKMK3|SAPKK-2|SAPKK2	LKB1|PJS|hLKB1	FRET	physical	Ivanov AA (2017)	PUBMED:28628118	9606	9606	High Throughput	-	-	-	-	BIOGRID	P46734	Q6FI23	NP_001303261|NP_002747|NP_659731	Q15831	-	NP_000446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641801	6532	6844	112423	112711	-	-	SLC6A4	VAMP2	5-HTT|5-HTTLPR|5HTT|HTT|OCD1|SERT|SERT1|hSERT	SYB2|VAMP-2	FRET	physical	Mueller HK (2014)	PUBMED:24878716	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P31645	B2R7Y7	NP_001036	P63027	F8WCA0	NP_001317054|NP_055047	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641896	5071	9868	111105	115201	KB-152G3.1	-	PARK2	TOMM70A	AR-JP|LPRS2|PDJ|PRKN	-	FRET	physical	Bonello F (2019)	PUBMED:30629163	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O60260	X5DR79	NP_054643|NP_054642|NP_004553	O94826	-	NP_055635	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641897	10452	5071	115716	111105	-	KB-152G3.1	TOMM40	PARK2	C19orf1|D19S1177E|PER-EC1|PEREC1|TOM40	AR-JP|LPRS2|PDJ|PRKN	FRET	physical	Bonello F (2019)	PUBMED:30629163	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O96008	A0A024R0P9	NP_006105|NP_001122389|NP_001122388	O60260	X5DR79	NP_054643|NP_054642|NP_004553	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641898	10059	5071	115370	111105	-	KB-152G3.1	DNM1L	PARK2	DLP1|DRP1|DVLP|DYMPLE|EMPF|HDYNIV	AR-JP|LPRS2|PDJ|PRKN	FRET	physical	Bonello F (2019)	PUBMED:30629163	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O00429	G8JLD5|B4DYR6	NP_036193|NP_001265393|NP_001265392|NP_005681|NP_036192|NP_001265394|NP_001317309|NP_001265395	O60260	X5DR79	NP_054643|NP_054642|NP_004553	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2641899	10059	54471	115370	119977	-	RP5-1104E15.5	DNM1L	MIEF1	DLP1|DRP1|DVLP|DYMPLE|EMPF|HDYNIV	HSU79252|MID51|SMCR7L|dJ1104E15.3	FRET	physical	Bonello F (2019)	PUBMED:30629163	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O00429	G8JLD5|B4DYR6	NP_036193|NP_001265393|NP_001265392|NP_005681|NP_036192|NP_001265394|NP_001317309|NP_001265395	Q9NQG6	A0A024R1L3	NP_061881|NP_001291493	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2643801	55576	3693	120727	109899	-	-	STAB2	ITGB5	FEEL2|FELE-2|FELL2|FEX2|HARE	-	FRET	physical	Kim S (2012)	PUBMED:22566688	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q8WWQ8	-	NP_060034	P18084	L7RT22	NP_002204	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2643847	10257	4354	115551	110494	RP11-74A12.1	-	ABCC4	MPP1	MOAT-B|MOATB|MRP4	AAG12|DXS552E|EMP55|MRG1|PEMP	FRET	physical	Pitre A (2017)	PUBMED:29146910	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O15439	B7Z3Q7	NP_001288758|NP_001288759|NP_001098985|NP_005836	Q00013	B4E325	NP_001159933|NP_001159932|NP_002427|NP_001159934	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2648282	2693	2693	108960	108960	-	-	GHSR	GHSR	-	-	FRET	physical	Navarro G (2016)	PUBMED:27129257	9606	9606	Low Throughput	-	-	bioluminescence resonance energy transfer	-	BIOGRID	Q92847	-	NP_940799|NP_004113	Q92847	-	NP_940799|NP_004113	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2648283	1812	2693	108146	108960	-	-	DRD1	GHSR	DADR|DRD1A	-	FRET	physical	Navarro G (2016)	PUBMED:27129257	9606	9606	Low Throughput	-	-	bioluminescence resonance energy transfer	-	BIOGRID	P21728	-	NP_000785	Q92847	-	NP_940799|NP_004113	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2659006	1489669	1489669	4383917	4383917	SARS-CoV-3a	SARS-CoV-3a	ORF3a	ORF3a	3a|ns3a|U274X1|SARS-CoV sars3a|ORF3a|SARS-CoV ORF3a|X1|AP3A_CVHSA|PRO_0000106131	3a|ns3a|U274X1|SARS-CoV sars3a|ORF3a|SARS-CoV ORF3a|X1|AP3A_CVHSA|PRO_0000106131	FRET	physical	Lu W (2006)	PUBMED:16894145	694009	694009	Low Throughput	-	-	homotetramers	-	BIOGRID	P59632	-	NP_828852	P59632	-	NP_828852	-	-	-	-	-	-	Severe acute respiratory syndrome-related coronavirus	Severe acute respiratory syndrome-related coronavirus
+2659369	1489680	1489680	4383948	4383951	SARS-CoV-1ab-nsp10ab	SARS-CoV-1ab-nsp14ab	nsp10ab	nsp14ab	nsp10|sars1ab|orf1ab|SARS-CoV nsp10ab|SARS-CoV nsp10|SARS-CoV sars1ab|orf1ab-nsp10|orf1ab-nsp10ab|pp1ab|Growth factor-like peptide|GFL|R1AB_CVHSA|PRO_0000037317	nsp14|sars1ab|orf1ab|SARS-CoV nsp14ab|SARS-CoV nsp14|SARS-CoV sars1ab|orf1ab-nsp14|orf1ab-nsp14ab|pp1ab|Guanine-N7 methyltransferase|ExoN|R1AB_CVHSA|PRO_0000037320	FRET	physical	Bouvet M (2014)	PUBMED:25074927	694009	694009	Low Throughput	-	-	-	-	BIOGRID	P0C6X7	-	NP_828868	P0C6X7	-	NP_828871	-	-	-	-	-	-	Severe acute respiratory syndrome-related coronavirus	Severe acute respiratory syndrome-related coronavirus
+2659372	1489680	1489680	4383948	4383953	SARS-CoV-1ab-nsp10ab	SARS-CoV-1ab-nsp16ab	nsp10ab	nsp16ab	nsp10|sars1ab|orf1ab|SARS-CoV nsp10ab|SARS-CoV nsp10|SARS-CoV sars1ab|orf1ab-nsp10|orf1ab-nsp10ab|pp1ab|Growth factor-like peptide|GFL|R1AB_CVHSA|PRO_0000037317	nsp16|sars1ab|orf1ab|SARS-CoV nsp16ab|SARS-CoV nsp16|SARS-CoV sars1ab|orf1ab-nsp16|orf1ab-nsp16ab|pp1ab|2-O-methyltransferase|R1AB_CVHSA|PRO_0000037322	FRET	physical	Bouvet M (2014)	PUBMED:25074927	694009	694009	Low Throughput	-	-	-	-	BIOGRID	P0C6X7	-	NP_828868	P0C6X7	-	NP_828873	-	-	-	-	-	-	Severe acute respiratory syndrome-related coronavirus	Severe acute respiratory syndrome-related coronavirus
+2660040	154	1815	106663	108149	-	-	ADRB2	DRD4	ADRB2R|ADRBR|B2AR|BAR|BETA2AR	D4DR	FRET	physical	Rebois RV (2012)	PUBMED:22759790	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P07550	-	NP_000015	P21917	-	NP_000788	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2660041	108	1815	106622	108149	-	-	ADCY2	DRD4	AC2|HBAC2	D4DR	FRET	physical	Rebois RV (2012)	PUBMED:22759790	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q08462	Q71UM8	NP_065433	P21917	-	NP_000788	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2660042	2770	1815	109032	108149	-	-	GNAI1	DRD4	Gi	D4DR	FRET	physical	Rebois RV (2012)	PUBMED:22759790	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P63096	-	NP_001243343|NP_002060	P21917	-	NP_000788	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2660043	2770	54331	109032	119933	-	-	GNAI1	GNG2	Gi	-	FRET	physical	Rebois RV (2012)	PUBMED:22759790	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P63096	-	NP_001243343|NP_002060	P59768	-	NP_444292|NP_001230702|NP_001230703	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2660044	2770	154	109032	106663	-	-	GNAI1	ADRB2	Gi	ADRB2R|ADRBR|B2AR|BAR|BETA2AR	FRET	physical	Rebois RV (2012)	PUBMED:22759790	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P63096	-	NP_001243343|NP_002060	P07550	-	NP_000015	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2660045	108	54331	106622	119933	-	-	ADCY2	GNG2	AC2|HBAC2	-	FRET	physical	Rebois RV (2012)	PUBMED:22759790	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q08462	Q71UM8	NP_065433	P59768	-	NP_444292|NP_001230702|NP_001230703	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2660137	8829	7422	114356	113265	RP11-342D11.1	RP1-261G23.1	NRP1	VEGFA	BDCA4|CD304|NP1|NRP|VEGF165R	MVCD1|VEGF|VPF	FRET	physical	Auriau J (2018)	PUBMED:30236477	9606	9606	Low Throughput	-	-	HTRF|Sources of NRP1 and VEGFA not clear	-	BIOGRID	O14786	Q59F20|Q6AWA9|Q68DN3|E9PEP6|A8K9V7	NP_001316997|NP_003864|NP_001231901|NP_001231902|NP_001019799|NP_001019800	P15692	A0A024RD33|A2A2V4|A0A024RD37	NP_001165099|NP_001165098|NP_001020541|NP_001020540|NP_001020537|NP_001165093|NP_001020539|NP_003367|NP_001165097|NP_001165096|NP_001165095|NP_001165094|NP_001020538|NP_001273973|NP_001165101|NP_001165100|NP_001191314|NP_001191313|NP_001028928	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2660138	3791	7422	109992	113265	-	RP1-261G23.1	KDR	VEGFA	CD309|FLK1|VEGFR|VEGFR2	MVCD1|VEGF|VPF	FRET	physical	Auriau J (2018)	PUBMED:30236477	9606	9606	Low Throughput	-	-	HTRF|Sources of VEGFR2/KDR and VEGFA not clear	-	BIOGRID	P35968	A0A024RD88	NP_002244	P15692	A0A024RD33|A2A2V4|A0A024RD37	NP_001165099|NP_001165098|NP_001020541|NP_001020540|NP_001020537|NP_001165093|NP_001020539|NP_003367|NP_001165097|NP_001165096|NP_001165095|NP_001165094|NP_001020538|NP_001273973|NP_001165101|NP_001165100|NP_001191314|NP_001191313|NP_001028928	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2660139	7422	7422	113265	113265	RP1-261G23.1	RP1-261G23.1	VEGFA	VEGFA	MVCD1|VEGF|VPF	MVCD1|VEGF|VPF	FRET	physical	Auriau J (2018)	PUBMED:30236477	9606	9606	Low Throughput	-	-	HTRF; Interaction dependent on NRP1|Source of VEGFA not clear	-	BIOGRID	P15692	A0A024RD33|A2A2V4|A0A024RD37	NP_001165099|NP_001165098|NP_001020541|NP_001020540|NP_001020537|NP_001165093|NP_001020539|NP_003367|NP_001165097|NP_001165096|NP_001165095|NP_001165094|NP_001020538|NP_001273973|NP_001165101|NP_001165100|NP_001191314|NP_001191313|NP_001028928	P15692	A0A024RD33|A2A2V4|A0A024RD37	NP_001165099|NP_001165098|NP_001020541|NP_001020540|NP_001020537|NP_001165093|NP_001020539|NP_003367|NP_001165097|NP_001165096|NP_001165095|NP_001165094|NP_001020538|NP_001273973|NP_001165101|NP_001165100|NP_001191314|NP_001191313|NP_001028928	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2660140	8829	2247	114356	108538	RP11-342D11.1	-	NRP1	FGF2	BDCA4|CD304|NP1|NRP|VEGF165R	BFGF|FGF-2|FGFB|HBGF-2	FRET	physical	Auriau J (2018)	PUBMED:30236477	9606	9606	Low Throughput	-	-	HTRF|Sources of NRP1 and FGF2 not clear	-	BIOGRID	O14786	Q59F20|Q6AWA9|Q68DN3|E9PEP6|A8K9V7	NP_001316997|NP_003864|NP_001231901|NP_001231902|NP_001019799|NP_001019800	P09038	-	NP_001997	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2691237	60	64714	106575	122240	-	LA16c-314G4.2	ACTB	PDIA2	BRWS1|PS1TP5BP1	PDA2|PDI|PDIP|PDIR	FRET	physical	Sobierajska K (2014)	PUBMED:24415753	9606	9606	Low Throughput	-	-	assayed using FRET-AP (fluorescence resonance energy transfer - acceptor photobleaching)	-	BIOGRID	P60709	Q1KLZ0|B3KWQ3	NP_001092	Q13087	-	NP_006840	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2691993	4217	26524	110381	117727	RP3-325F22.4	-	MAP3K5	LATS2	ASK1|MAPKKK5|MEKK5	KPM	FRET	physical	Rusnak L (2018)	PUBMED:30496488	9606	9606	High Throughput	-	-	assayed using TR-FRET (time-resolved fluorescence resonance energy transfer)	-	BIOGRID	Q99683	-	NP_005914	Q9NRM7	A0A024RDM3	NP_055387	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2692368	81840	18212	219891	201869	-	-	Sorcs2	Ntrk2	N28137|mKIAA1329	GP145-TrkB/GP95-TrkB|Tkrb|trk-B|trkB	FRET	physical	Glerup S (2016)	PUBMED:27457814	10090	10090	Low Throughput	-	-	PLA	-	BIOGRID	Q9EPR5	Q8BI61|Q8BI74	NP_112151	P15209	Q3UHE3	NP_032771|NP_001269890|NP_001020245	-	-	-	-	-	-	Mus musculus	Mus musculus
+2745893	1739	2902	108083	109159	-	RP11-350O14.1	DLG1	GRIN1	DLGH1|SAP-97|SAP97|dJ1061C18.1.1|hdlg	GluN1|MRD8|NMD-R1|NMDA1|NMDAR1|NR1	FRET	physical	Lin EI (2013)	PUBMED:23864692	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q12959	B4DF78	NP_004078|NP_001091894|NP_001350794|NP_001353151|NP_001353150|NP_001191317|NP_001191316|NP_001191315|NP_001353137|NP_001353136|NP_001353135|NP_001353134|NP_001353133|NP_001353132|NP_001353139|NP_001353138|NP_001353146|NP_001353147|NP_001353144|NP_001353145|NP_001353142|NP_001353143|NP_001353140|NP_001353141|NP_001353148|NP_001353149|NP_001277912	Q05586	Q5VSF9|Q59GW0	NP_000823|NP_001172019|NP_067544|NP_001172020|NP_015566	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2745894	1739	2890	108083	109147	-	-	DLG1	GRIA1	DLGH1|SAP-97|SAP97|dJ1061C18.1.1|hdlg	GLUH1|GLUR1|GLURA|GluA1|HBGR1	FRET	physical	Lin EI (2013)	PUBMED:23864692	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q12959	B4DF78	NP_004078|NP_001091894|NP_001350794|NP_001353151|NP_001353150|NP_001191317|NP_001191316|NP_001191315|NP_001353137|NP_001353136|NP_001353135|NP_001353134|NP_001353133|NP_001353132|NP_001353139|NP_001353138|NP_001353146|NP_001353147|NP_001353144|NP_001353145|NP_001353142|NP_001353143|NP_001353140|NP_001353141|NP_001353148|NP_001353149|NP_001277912	P42261	Q59GL5	NP_001244949|NP_001244948|NP_001107655|NP_000818|NP_001244952|NP_001244950|NP_001244951	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2745895	1739	8573	108083	114141	-	RP11-540L11.1	DLG1	CASK	DLGH1|SAP-97|SAP97|dJ1061C18.1.1|hdlg	CAGH39|CAMGUK|CMG|FGS4|LIN2|MICPCH|MRXSNA|TNRC8	FRET	physical	Lin EI (2013)	PUBMED:23864692	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q12959	B4DF78	NP_004078|NP_001091894|NP_001350794|NP_001353151|NP_001353150|NP_001191317|NP_001191316|NP_001191315|NP_001353137|NP_001353136|NP_001353135|NP_001353134|NP_001353133|NP_001353132|NP_001353139|NP_001353138|NP_001353146|NP_001353147|NP_001353144|NP_001353145|NP_001353142|NP_001353143|NP_001353140|NP_001353141|NP_001353148|NP_001353149|NP_001277912	O14936	-	NP_001354650|NP_001119527|NP_001119526|NP_003679	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2746323	64855	9817	122328	115156	RP11-356B19.6	-	FAM129B	KEAP1	C9orf88|MEG-3|MINERVA|OC58|bA356B19.6	INrf2|KLHL19	FRET	physical	Cheng KC (2019)	PUBMED:31262713	9606	9606	Low Throughput	-	-	assayed using FLIM-FRET (fluorescence lifetime imaging microscopy-fluorescence resonance energy transfer) with FAM129B-bound fluorophore as donor and Keap1-bound fluorophore as acceptor	-	BIOGRID	Q96TA1	A0A024R872	NP_001030611|NP_073744	Q14145	A0A024R7C0	NP_036421|NP_987096	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2746567	1489669	857	4383917	107305	SARS-CoV-3a	-	ORF3a	CAV1	3a|ns3a|U274X1|SARS-CoV sars3a|ORF3a|SARS-CoV ORF3a|X1|AP3A_CVHSA|PRO_0000106131	BSCL3|CGL3|LCCNS|MSTP085|PPH3|VIP21	FRET	physical	Padhan K (2007)	PUBMED:17947532	694009	9606	Low Throughput	-	-	-	-	BIOGRID	P59632	-	NP_828852	Q03135	A0A024R757|Q2TNI1|Q59E85|Q7Z4F3|A9XTE5	NP_001744|NP_001166368|NP_001166366|NP_001166367	-	-	-	-	-	-	Severe acute respiratory syndrome-related coronavirus	Homo sapiens
+2751895	572	598	107048	107070	-	RP5-857M17.3	BAD	BCL2L1	BBC2|BCL2L8	BCL-XL/S|BCL2L|BCLX|BCLXL|BCLXS|Bcl-X|PPP1R52|bcl-xL|bcl-xS	FRET	physical	Trepte P (2015)	PUBMED:26264872	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q92934	A0A024R562	NP_004313|NP_116784	Q07817	Q5TE63	NP_612815|NP_001309171|NP_001309169|NP_001309168|NP_001304850|NP_001182|NP_001304849|NP_001304848	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2753660	9730	64919	115079	122343	-	-	VPRBP	BCL11B	DCAF1	ATL1|ATL1-alpha|ATL1-beta|ATL1-delta|ATL1-gamma|CTIP-2|CTIP2|RIT1|ZNF856B|hRIT1-alpha	FRET	physical	Forouzanfar F (2019)	PUBMED:31511615	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q9Y4B6	-	NP_055518|NP_001336097|NP_001165375|NP_001336100|NP_001336099|NP_001336098	Q9C0K0	L8B862|L8B567|L8B7P7|L8B8F6	NP_612808|NP_001269166|NP_001269167|NP_075049	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2756740	8678	26168	114226	117594	-	-	BECN1	SENP3	ATG6|VPS30|beclin1	SMT3IP1|SSP3|Ulp1	FRET	physical	Liu K (2020)	PUBMED:31373534	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14457	W0FFG4|A0A024R1X5	NP_001300927|NP_001300928|NP_001300929|NP_003757	Q9H4L4	-	NP_056485	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2756797	11146	2280	116318	108570	-	RP11-314N13.2	GLMN	FKBP1A	FAP|FAP48|FAP68|FKBPAP|GLML|GVM|VMGLOM	FKBP-12|FKBP-1A|FKBP1|FKBP12|PKC12|PKCI2|PPIASE	FRET	physical	Haehle A (2019)	PUBMED:31490997	9606	9606	Low Throughput	-	-	assayed using FRET (fluorescence resonance energy transfer) and HTRF (homogeneous time-resolved fluorescence resonance energy transfer), including competition assays	-	BIOGRID	Q92990	B4DJ85	NP_001306612|NP_444504	P62942	Q0VDC6|A0A087WTS4	NP_463460|NP_000792|NP_001186715	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2756798	11146	2289	116318	108579	-	RP3-340B19.6	GLMN	FKBP5	FAP|FAP48|FAP68|FKBPAP|GLML|GVM|VMGLOM	AIG6|FKBP51|FKBP54|P54|PPIase|Ptg-10	FRET	physical	Haehle A (2019)	PUBMED:31490997	9606	9606	Low Throughput	-	-	assayed using FRET (fluorescence resonance energy transfer) and HTRF (homogeneous time-resolved fluorescence resonance energy transfer), including competition assays	-	BIOGRID	Q92990	B4DJ85	NP_001306612|NP_444504	Q13451	Q2TA84	NP_001139249|NP_001139248|NP_001139247|NP_004108	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2756799	11146	2288	116318	108578	-	-	GLMN	FKBP4	FAP|FAP48|FAP68|FKBPAP|GLML|GVM|VMGLOM	FKBP51|FKBP52|FKBP59|HBI|Hsp56|PPIase|p52	FRET	physical	Haehle A (2019)	PUBMED:31490997	9606	9606	Low Throughput	-	-	assayed using FRET (fluorescence resonance energy transfer) and HTRF (homogeneous time-resolved fluorescence resonance energy transfer), including competition assays	-	BIOGRID	Q92990	B4DJ85	NP_001306612|NP_444504	Q02790	-	NP_002005	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2756825	8517	1540	114089	107920	-	HSPC057	IKBKG	CYLD	AMCBX1|FIP-3|FIP3|Fip3p|IKK-gamma|IMD33|IP|IP1|IP2|IPD2|NEMO|ZC2HC9	BRSS|CDMT|CYLD1|CYLDI|EAC|MFT|MFT1|SBS|TEM|USPL2	FRET	physical	Uematsu A (2019)	PUBMED:31366726	9606	9606	Low Throughput	-	-	assayed using AlphaScreen	-	BIOGRID	Q9Y6K9	A0A087X1B1	NP_003630|NP_001138727|NP_001364244|NP_001364243|NP_001364242|NP_001364241|NP_001308326|NP_001308325|NP_001093327|NP_001093326	Q9NQC7	A0A024R6T1	NP_001365676|NP_056062|NP_001035814|NP_001365680|NP_001365681|NP_001365682|NP_001365679|NP_001365678|NP_001035877|NP_001365674|NP_001365677|NP_001365675|NP_001365673|NP_001365672	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2756826	142678	1540	126769	107920	RP11-345P4.1	HSPC057	MIB2	CYLD	ZZANK1|ZZZ5	BRSS|CDMT|CYLD1|CYLDI|EAC|MFT|MFT1|SBS|TEM|USPL2	FRET	physical	Uematsu A (2019)	PUBMED:31366726	9606	9606	Low Throughput	-	-	assayed using AlphaScreen	-	BIOGRID	Q96AX9	-	NP_001164159|NP_001164158|NP_001164160|NP_001164157|NP_543151	Q9NQC7	A0A024R6T1	NP_001365676|NP_056062|NP_001035814|NP_001365680|NP_001365681|NP_001365682|NP_001365679|NP_001365678|NP_001035877|NP_001365674|NP_001365677|NP_001365675|NP_001365673|NP_001365672	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2757052	7436	7804	113277	113579	RP11-320E16.1	RP5-1024G6.8	VLDLR	LRP8	CARMQ1|CHRMQ1|VLDLRCH	APOER2|HSZ75190|LRP-8|MCI1	FRET	physical	Dlugosz P (2019)	PUBMED:30873003	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P98155	Q5VVF5	NP_003374|NP_001309155|NP_001309154|NP_001018066	Q14114	-	NP_059992|NP_150643|NP_004622|NP_001018064	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2757055	7804	7804	113579	113579	RP5-1024G6.8	RP5-1024G6.8	LRP8	LRP8	APOER2|HSZ75190|LRP-8|MCI1	APOER2|HSZ75190|LRP-8|MCI1	FRET	physical	Dlugosz P (2019)	PUBMED:30873003	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q14114	-	NP_059992|NP_150643|NP_004622|NP_001018064	Q14114	-	NP_059992|NP_150643|NP_004622|NP_001018064	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2757056	7436	7436	113277	113277	RP11-320E16.1	RP11-320E16.1	VLDLR	VLDLR	CARMQ1|CHRMQ1|VLDLRCH	CARMQ1|CHRMQ1|VLDLRCH	FRET	physical	Dlugosz P (2019)	PUBMED:30873003	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P98155	Q5VVF5	NP_003374|NP_001309155|NP_001309154|NP_001018066	P98155	Q5VVF5	NP_003374|NP_001309155|NP_001309154|NP_001018066	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2758887	2902	2903	109159	109160	RP11-350O14.1	RP11-297M9.2	GRIN1	GRIN2A	GluN1|MRD8|NMD-R1|NMDA1|NMDAR1|NR1	EPND|FESD|GluN2A|LKS|NMDAR2A|NR2A	FRET	physical	Qiu S (2005)	PUBMED:15888440	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q05586	Q5VSF9|Q59GW0	NP_000823|NP_001172019|NP_067544|NP_001172020|NP_015566	Q12879	Q59EW6|Q547U9	NP_001127880|NP_001127879|NP_000824	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2758888	2902	2904	109159	109161	RP11-350O14.1	-	GRIN1	GRIN2B	GluN1|MRD8|NMD-R1|NMDA1|NMDAR1|NR1	GluN2B|MRD6|NMDAR2B|NR2B|hNR3	FRET	physical	Qiu S (2005)	PUBMED:15888440	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q05586	Q5VSF9|Q59GW0	NP_000823|NP_001172019|NP_067544|NP_001172020|NP_015566	Q13224	-	NP_000825	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2758889	2902	2902	109159	109159	RP11-350O14.1	RP11-350O14.1	GRIN1	GRIN1	GluN1|MRD8|NMD-R1|NMDA1|NMDAR1|NR1	GluN1|MRD8|NMD-R1|NMDA1|NMDAR1|NR1	FRET	physical	Qiu S (2005)	PUBMED:15888440	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q05586	Q5VSF9|Q59GW0	NP_000823|NP_001172019|NP_067544|NP_001172020|NP_015566	Q05586	Q5VSF9|Q59GW0	NP_000823|NP_001172019|NP_067544|NP_001172020|NP_015566	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2758890	2903	2903	109160	109160	RP11-297M9.2	RP11-297M9.2	GRIN2A	GRIN2A	EPND|FESD|GluN2A|LKS|NMDAR2A|NR2A	EPND|FESD|GluN2A|LKS|NMDAR2A|NR2A	FRET	physical	Qiu S (2005)	PUBMED:15888440	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q12879	Q59EW6|Q547U9	NP_001127880|NP_001127879|NP_000824	Q12879	Q59EW6|Q547U9	NP_001127880|NP_001127879|NP_000824	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2758891	2904	2904	109161	109161	-	-	GRIN2B	GRIN2B	GluN2B|MRD6|NMDAR2B|NR2B|hNR3	GluN2B|MRD6|NMDAR2B|NR2B|hNR3	FRET	physical	Qiu S (2005)	PUBMED:15888440	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q13224	-	NP_000825	Q13224	-	NP_000825	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2758892	2903	2904	109160	109161	RP11-297M9.2	-	GRIN2A	GRIN2B	EPND|FESD|GluN2A|LKS|NMDAR2A|NR2A	GluN2B|MRD6|NMDAR2B|NR2B|hNR3	FRET	physical	Qiu S (2005)	PUBMED:15888440	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q12879	Q59EW6|Q547U9	NP_001127880|NP_001127879|NP_000824	Q13224	-	NP_000825	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2758902	1786	29128	108123	118893	-	-	DNMT1	UHRF1	ADCADN|AIM|CXXC9|DNMT|HSN1E|MCMT	ICBP90|Np95|RNF106|hNP95|hUHRF1|huNp95	FRET	physical	Zaayter L (2019)	PUBMED:31322780	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P26358	I6L9H2	NP_001305660|NP_001370|NP_001305659|NP_001124295	Q96T88	A0A087WVR3	NP_001276980|NP_001276981|NP_001041666|NP_001276979|NP_037414	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2766047	6272	4915	112180	110970	-	RP11-263K15.1	SORT1	NTRK2	Gp95|LDLCQ6|NT3	GP145-TrkB|TRKB|trk-B	FRET	physical	Vaegter CB (2011)	PUBMED:21102451	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q99523	-	NP_002950|NP_001192157	Q16620	Q548C2|Q5VWE5|A0A024R230	NP_001356465|NP_001018076|NP_001018074|NP_001018075|NP_001356462|NP_001356463|NP_001356461|NP_001356464|NP_006171|NP_001007098|NP_001278866	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2766676	1268	1268	107668	107668	RP1-23D17.1	RP1-23D17.1	CNR1	CNR1	CANN6|CB-R|CB1|CB1A|CB1K5|CB1R|CNR	CANN6|CB-R|CB1|CB1A|CB1K5|CB1R|CNR	FRET	physical	Bagher AM (2013)	PUBMED:24091169	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P21554	V5KA96|S5TLS4	NP_001153698|NP_149421|NP_057167|NP_001153731|NP_001153730	P21554	V5KA96|S5TLS4	NP_001153698|NP_149421|NP_057167|NP_001153731|NP_001153730	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2766894	43740575	43740575	4383847	4383847	GU280_gp10	GU280_gp10	N	N	nuc|nucleocapsid|SARS-CoV2 N|N protein|ncap|SARS-CoV-2 N|Nucleoprotein|NCAP_SARS2|PRO_0000449656	nuc|nucleocapsid|SARS-CoV2 N|N protein|ncap|SARS-CoV-2 N|Nucleoprotein|NCAP_SARS2|PRO_0000449656	FRET	physical	Cubuk J (2020)	DOI:10.1101/2020.06.17.158121	2697049	2697049	Low Throughput	-	-	-	-	BIOGRID	P0DTC9	-	YP_009724397	P0DTC9	-	YP_009724397	-	-	-	-	-	-	Severe acute respiratory syndrome coronavirus 2	Severe acute respiratory syndrome coronavirus 2
+2777502	2695	576	108962	107052	-	RP11-73M7.7	GIP	BAI2	-	-	FRET	physical	Zencir S (2011)	PUBMED:21787750	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P09681	-	NP_004114	O60241	-	NP_001281265|NP_001281264|NP_001694	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2777520	1739	3356	108083	109588	-	RP11-147L20.2	DLG1	HTR2A	DLGH1|SAP-97|SAP97|dJ1061C18.1.1|hdlg	5-HT2A|HTR2	FRET	physical	Dunn HA (2014)	PUBMED:24989932	9606	9606	Low Throughput	-	-	-	-	BIOGRID	Q12959	B4DF78	NP_004078|NP_001091894|NP_001350794|NP_001353151|NP_001353150|NP_001191317|NP_001191316|NP_001191315|NP_001353137|NP_001353136|NP_001353135|NP_001353134|NP_001353133|NP_001353132|NP_001353139|NP_001353138|NP_001353146|NP_001353147|NP_001353144|NP_001353145|NP_001353142|NP_001353143|NP_001353140|NP_001353141|NP_001353148|NP_001353149|NP_001277912	P28223	-	NP_001159419|NP_000612	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2777525	1742	409	108086	106902	-	-	DLG4	ARRB2	PSD95|SAP-90|SAP90	ARB2|ARR2|BARR2	FRET	physical	Dunn HA (2016)	PUBMED:26898829	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P78352	B9EGL1|B7Z647	NP_001308003|NP_001308006|NP_001356495|NP_001308004|NP_001122299|NP_001308005|NP_001356	P32121	K7ENA6|Q68DZ5|Q59EM5	NP_001244257|NP_001244259|NP_001244258|NP_001316993|NP_001244260|NP_004304|NP_945355	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2782954	25601	24807	247631	246930	-	-	Oprm1	Tacr1	MORA|Oprm|Oprrm1	Tac1r	FRET	physical	Pfeiffer M (2003)	PUBMED:14532289	10116	10116	Low Throughput	-	-	BRET	-	BIOGRID	P33535	-	NP_001033688|NP_001033689|NP_001033686|NP_001033690|NP_037203	P14600	-	NP_036799	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+2782955	25601	25601	247631	247631	-	-	Oprm1	Oprm1	MORA|Oprm|Oprrm1	MORA|Oprm|Oprrm1	FRET	physical	Pfeiffer M (2003)	PUBMED:14532289	10116	10116	Low Throughput	-	-	BRET	-	BIOGRID	P33535	-	NP_001033688|NP_001033689|NP_001033686|NP_001033690|NP_037203	P33535	-	NP_001033688|NP_001033689|NP_001033686|NP_001033690|NP_037203	-	-	-	-	-	-	Rattus norvegicus	Rattus norvegicus
+2783256	6737	25939	112615	117436	-	RP1-132F21.1	TRIM21	SAMHD1	RNF81|RO52|Ro/SSA|SSA|SSA1	CHBL2|DCIP|HDDC1|MOP-5|SBBI88	FRET	physical	Li Z (2020)	PUBMED:31797533	9606	9606	Low Throughput	-	-	-	-	BIOGRID	P19474	-	NP_003132	Q9Y3Z3	Q59H15	NP_001350662|NP_056289|NP_001350658	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2809229	387	9826	106880	115164	-	RP11-356J7.2	RHOA	ARHGEF11	ARH12|ARHA|RHO12|RHOH12	GTRAP48|PDZ-RHOGEF	Reconstituted Complex	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	Low Throughput	-	-	interaction inferred from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	O15085	-	NP_055599|NP_937879|NP_001364348|NP_001364347	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2809230	387	23365	106880	116945	-	-	RHOA	ARHGEF12	ARH12|ARHA|RHO12|RHOH12	LARG|PRO2792	Reconstituted Complex	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	Low Throughput	-	-	interaction inferred from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q9NZN5	E9PMR6|B4E2K6	NP_001185594|NP_001288013|NP_056128	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2809231	387	4168	106880	110336	-	RP6-88D7.2	RHOA	MCF2	ARH12|ARHA|RHO12|RHOH12	ARHGEF21|DBL	Reconstituted Complex	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	Low Throughput	-	-	interaction inferred from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	P10911	B2R9S6	NP_001165347|NP_001165350|NP_001165349|NP_001093325|NP_005360|NP_001165348	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2809232	5879	4168	111817	110336	MIG5	RP6-88D7.2	RAC1	MCF2	Rac-1|TC-25|p21-Rac1	ARHGEF21|DBL	Reconstituted Complex	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	Low Throughput	-	-	interaction inferred from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	P10911	B2R9S6	NP_001165347|NP_001165350|NP_001165349|NP_001093325|NP_005360|NP_001165348	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2809233	998	153478	107433	127497	RP1-224A6.5	-	CDC42	PLEKHG4B	CDC42Hs|G25K	-	Reconstituted Complex	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	Low Throughput	-	-	interaction inferred from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q96PX9	-	NP_443141	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2809234	998	4168	107433	110336	RP1-224A6.5	RP6-88D7.2	CDC42	MCF2	CDC42Hs|G25K	ARHGEF21|DBL	Reconstituted Complex	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	Low Throughput	-	-	interaction inferred from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	P10911	B2R9S6	NP_001165347|NP_001165350|NP_001165349|NP_001093325|NP_005360|NP_001165348	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2809293	154	4155	106663	110325	-	-	ADRB2	MBP	ADRB2R|ADRBR|B2AR|BAR|BETA2AR	-	FRET	physical	Sokolina K (2017)	PUBMED:28298427	9606	9606	Low Throughput	-	-	assayed using BRET (bioluminescent resonance energy transfer)	-	BIOGRID	P07550	-	NP_000015	P02686	A0A024R384	NP_002376|NP_001020272|NP_001020271|NP_001020263|NP_001020252|NP_001020261	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2809294	154	5621	106663	111606	-	RP5-1068H6.2	ADRB2	PRNP	ADRB2R|ADRBR|B2AR|BAR|BETA2AR	ASCR|AltPrP|CD230|CJD|GSS|KURU|PRIP|PrP|PrP27-30|PrP33-35C|PrPc|p27-30	FRET	physical	Sokolina K (2017)	PUBMED:28298427	9606	9606	Low Throughput	-	-	assayed using BRET (bioluminescent resonance energy transfer)	-	BIOGRID	P07550	-	NP_000015	P04156|F7VJQ1	Q53YK7	NP_001073592|NP_000302|NP_001073590|NP_001073591|NP_898902|NP_001258490	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2809295	1230	4155	107635	110325	-	-	CCR1	MBP	CD191|CKR-1|CKR1|CMKBR1|HM145|MIP1aR|SCYAR1	-	FRET	physical	Sokolina K (2017)	PUBMED:28298427	9606	9606	Low Throughput	-	-	assayed using BRET (bioluminescent resonance energy transfer)	-	BIOGRID	P32246	Q5U003	NP_001286	P02686	A0A024R384	NP_002376|NP_001020272|NP_001020271|NP_001020263|NP_001020252|NP_001020261	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2809296	1230	5621	107635	111606	-	RP5-1068H6.2	CCR1	PRNP	CD191|CKR-1|CKR1|CMKBR1|HM145|MIP1aR|SCYAR1	ASCR|AltPrP|CD230|CJD|GSS|KURU|PRIP|PrP|PrP27-30|PrP33-35C|PrPc|p27-30	FRET	physical	Sokolina K (2017)	PUBMED:28298427	9606	9606	Low Throughput	-	-	assayed using BRET (bioluminescent resonance energy transfer)	-	BIOGRID	P32246	Q5U003	NP_001286	P04156|F7VJQ1	Q53YK7	NP_001073592|NP_000302|NP_001073590|NP_001073591|NP_898902|NP_001258490	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2809297	2150	5621	108449	111606	-	RP5-1068H6.2	F2RL1	PRNP	GPR11|PAR2	ASCR|AltPrP|CD230|CJD|GSS|KURU|PRIP|PrP|PrP27-30|PrP33-35C|PrPc|p27-30	FRET	physical	Sokolina K (2017)	PUBMED:28298427	9606	9606	Low Throughput	-	-	assayed using BRET (bioluminescent resonance energy transfer)	-	BIOGRID	P55085	-	NP_005233	P04156|F7VJQ1	Q53YK7	NP_001073592|NP_000302|NP_001073590|NP_001073591|NP_898902|NP_001258490	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2809298	8324	5621	113920	111606	-	RP5-1068H6.2	FZD7	PRNP	FzE3	ASCR|AltPrP|CD230|CJD|GSS|KURU|PRIP|PrP|PrP27-30|PrP33-35C|PrPc|p27-30	FRET	physical	Sokolina K (2017)	PUBMED:28298427	9606	9606	Low Throughput	-	-	assayed using BRET (bioluminescent resonance energy transfer)	-	BIOGRID	O75084	-	NP_003498	P04156|F7VJQ1	Q53YK7	NP_001073592|NP_000302|NP_001073590|NP_001073591|NP_898902|NP_001258490	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2809299	5724	4155	111696	110325	-	-	PTAFR	MBP	PAFR	-	FRET	physical	Sokolina K (2017)	PUBMED:28298427	9606	9606	Low Throughput	-	-	assayed using BRET (bioluminescent resonance energy transfer)	-	BIOGRID	P25105	A8K7N8	NP_001158193|NP_000943|NP_001158194|NP_001158195	P02686	A0A024R384	NP_002376|NP_001020272|NP_001020271|NP_001020263|NP_001020252|NP_001020261	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2809300	5724	5621	111696	111606	-	RP5-1068H6.2	PTAFR	PRNP	PAFR	ASCR|AltPrP|CD230|CJD|GSS|KURU|PRIP|PrP|PrP27-30|PrP33-35C|PrPc|p27-30	FRET	physical	Sokolina K (2017)	PUBMED:28298427	9606	9606	Low Throughput	-	-	assayed using BRET (bioluminescent resonance energy transfer)	-	BIOGRID	P25105	A8K7N8	NP_001158193|NP_000943|NP_001158194|NP_001158195	P04156|F7VJQ1	Q53YK7	NP_001073592|NP_000302|NP_001073590|NP_001073591|NP_898902|NP_001258490	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2809308	135	2861	106647	109119	-	-	ADORA2A	GPR37	A2aR|ADORA2|RDC8	EDNRBL|PAELR|hET(B)R-LP	FRET	physical	Sokolina K (2017)	PUBMED:28298427	9606	9606	Low Throughput	-	-	assayed using BRET (bioluminescent resonance energy transfer)	-	BIOGRID	P29274	B3KVQ4|X5DNB4|A8K1F6	NP_001265429|NP_001265428|NP_001265427|NP_001265426|NP_000666	O15354	-	NP_005293	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2809761	6582	928	112469	107366	RP11-317M22.2	GIG2	SLC22A2	CD9	OCT2	BTCC-1|DRAP-27|MIC3|MRP-1|TSPAN-29|TSPAN29	FRET	physical	Snieder B (2019)	PUBMED:31318583	9606	9606	Low Throughput	-	-	-	-	BIOGRID	O15244	-	NP_003049	P21926	B4DK09	NP_001317241|NP_001760	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2837335	187968	187592	52644	52280	T01G9.3	R04F11.1	dma-1	hpo-30	CELE_T01G9.3	CELE_R04F11.1	FRET	physical	Zou W (2018)	PUBMED:29738713	6239	6239	Low Throughput	-	-	-	-	WORMBASE	-	Q22075	NP_492253	-	Q21731	NP_506087	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+2837699	181255	174144	46167	39482	F59F5.6	CELE_C52E12.2	syd-2	unc-104	CELE_F59F5.6|sad-2	-	FRET	physical	Wagner OI (2009)	PUBMED:19880746	6239	6239	Low Throughput	-	-	-	-	WORMBASE	Q21049	-	NP_509768	P23678	-	NP_741019|NP_001022041	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+2837903	179259	175667	44297	40900	C01B7.6	C26E6.5	rpm-1	fsn-1	CELE_C01B7.6|sam-1|sad-3|rpm-3|syd-3	CELE_C26E6.5	FRET	physical	Desbois M (2018)	PUBMED:29997255	6239	6239	Low Throughput	-	-	-	-	WORMBASE	Q17551	-	NP_505267	Q18223	-	NP_498046	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+2838002	177374	177374	42496	42496	CELE_M03D4.1	CELE_M03D4.1	zen-4	zen-4	-	-	FRET	physical	Davies T (2015)	PUBMED:25875822	6239	6239	Low Throughput	-	-	-	-	WORMBASE	-	G5EC43|Q8MQ04|G5EG83	NP_001023311|NP_001023310|NP_001023312|NP_001023309	-	G5EC43|Q8MQ04|G5EG83	NP_001023311|NP_001023310|NP_001023312|NP_001023309	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+2838829	176465	178402	41657	43484	CELE_D2045.1	CELE_Y57G11C.10	atx-2	gdi-1	-	-	FRET	physical	Bar DZ (2016)	PUBMED:27457958	6239	6239	Low Throughput	-	-	-	-	WORMBASE	-	D4PH96|G5ED29|B2D6K7|Q5FC83	NP_001021230|NP_001122690|NP_001021231|NP_001255079	-	E9P8A8|G5EBR1|Q2V4S2	NP_001041043|NP_001255836|NP_001041044	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+2839149	177685	3565057	42794	532375	CELE_F20C5.2	Y50D7A.6	klp-11	klp-20	-	CELE_Y50D7A.6|krp85	FRET	physical	Vukajlovic M (2011)	PUBMED:21917588	6239	6239	Low Throughput	-	-	-	-	WORMBASE	-	Q19633|Q8MQ68	NP_741473|NP_001023139|NP_001129855|NP_001129854|NP_001255329|NP_001255330	-	Q965T6	NP_497178	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+2839843	175201	175221	40475	40492	CELE_Y55B1BM.1	CELE_C09F5.2	stim-1	orai-1	-	-	FRET	physical	Kim KM (2018)	PUBMED:29712850	6239	6239	Low Throughput	-	-	-	-	WORMBASE	G5EF60	-	NP_741073|NP_001022916|NP_741074	Q09232	B6VQ32	NP_001254834|NP_001254835	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+2839849	190611	190611	55194	55194	CELE_Y71H2AM.19	CELE_Y71H2AM.19	laf-1	laf-1	-	-	FRET	physical	Kim Y (2016)	PUBMED:27546789	6239	6239	Low Throughput	-	-	-	-	WORMBASE	-	Q4W5R4|D0PV95	NP_001254858|NP_001254859	-	Q4W5R4|D0PV95	NP_001254858|NP_001254859	-	-	-	-	-	-	Caenorhabditis elegans	Caenorhabditis elegans
+2839907	998	50649	107433	119114	RP1-224A6.5	-	CDC42	ARHGEF4	CDC42Hs|G25K	ASEF|ASEF1|GEF4|STM6	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q9NR80	Q9NTG0	NP_127462|NP_056135	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839908	998	23229	107433	116834	RP1-224A6.5	RP11-357C3.4	CDC42	ARHGEF9	CDC42Hs|G25K	COLLYBISTIN|EIEE8|HPEM-2|PEM-2|PEM2	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	O43307	B1AMR3	NP_001166950|NP_001166951|NP_056000	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839909	998	9639	107433	114998	RP1-224A6.5	-	CDC42	ARHGEF10	CDC42Hs|G25K	GEF10|SNCV	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	O15013	-	NP_055444	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839910	998	22899	107433	116563	RP1-224A6.5	-	CDC42	ARHGEF15	CDC42Hs|G25K	ARGEF15|E5|Ephexin5|Vsm-RhoGEF	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	O94989	-	NP_079290|NP_776089	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839911	998	26084	107433	117537	RP1-224A6.5	-	CDC42	ARHGEF26	CDC42Hs|G25K	CSGEF|HMFN1864|SGEF	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q96DR7	B3KXG0	NP_001238891|NP_001238892|NP_056410	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839912	998	23268	107433	116869	RP1-224A6.5	RP11-114F7.3	CDC42	DNMBP	CDC42Hs|G25K	ARHGEF36|TUBA	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q6XZF7	-	NP_001305255|NP_001305256|NP_056036	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839913	998	2245	107433	108536	RP1-224A6.5	RP1-112K5.1	CDC42	FGD1	CDC42Hs|G25K	AAS|FGDY|MRXS16|ZFYVE3	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	P98174	A0A024R9Y5	NP_004454	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839914	998	221472	107433	128730	RP1-224A6.5	RP3-405J24.2	CDC42	FGD2	CDC42Hs|G25K	ZFYVE4	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q7Z6J4	-	NP_775829	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839915	998	89846	107433	124618	RP1-224A6.5	RP11-274J16.4	CDC42	FGD3	CDC42Hs|G25K	ZFYVE5	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q5JSP0	A8K9G1|A0A024R252	NP_001077005|NP_001273922|NP_149077	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839916	998	121512	107433	125734	RP1-224A6.5	-	CDC42	FGD4	CDC42Hs|G25K	CMT4H|FRABP|ZFYVE6	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q96M96	E9PJX4|F8W1R0|B7Z493	NP_640334	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839917	998	4168	107433	110336	RP1-224A6.5	RP6-88D7.2	CDC42	MCF2	CDC42Hs|G25K	ARHGEF21|DBL	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	P10911	B2R9S6	NP_001165347|NP_001165350|NP_001165349|NP_001093325|NP_005360|NP_001165348	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839918	998	23263	107433	116865	RP1-224A6.5	RP11-98F14.2	CDC42	MCF2L	CDC42Hs|G25K	ARHGEF14|DBS|OST	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	O15068	-	NP_079255|NP_001307745|NP_001307744|NP_001106203|NP_001307746	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839919	998	57480	107433	121550	RP1-224A6.5	RP11-25C17.1	CDC42	PLEKHG1	CDC42Hs|G25K	ARHGEF41	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q9ULL1	Q5JYA6	NP_001025055	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839920	998	26030	107433	117496	RP1-224A6.5	-	CDC42	PLEKHG3	CDC42Hs|G25K	ARHGEF43|KIAA0599	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	A1L390	-	NP_001295076|NP_056364	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839921	998	25894	107433	117402	RP1-224A6.5	-	CDC42	PLEKHG4	CDC42Hs|G25K	ARHGEF44|PRTPHN1|SCA4	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q58EX7	A0A024R6X4	NP_001123203|NP_001123200|NP_001123201|NP_056247|NP_001123199	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839922	998	153478	107433	127497	RP1-224A6.5	-	CDC42	PLEKHG4B	CDC42Hs|G25K	-	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q96PX9	-	NP_443141	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839923	998	57580	107433	121633	RP1-224A6.5	-	CDC42	PREX1	CDC42Hs|G25K	P-REX1	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q8TCU6	-	NP_065871	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839924	998	80243	107433	123199	RP1-224A6.5	-	CDC42	PREX2	CDC42Hs|G25K	6230420N16Rik|DEP.2|DEPDC2|P-REX2|PPP1R129	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q70Z35	-	NP_079146|NP_079446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839925	998	5924	107433	111859	RP1-224A6.5	-	CDC42	RASGRF2	CDC42Hs|G25K	GRF2|RAS-GRF2	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	O14827	Q68DX5	NP_008840	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839926	998	221178	107433	128693	RP1-224A6.5	RP11-307N16.3	CDC42	SPATA13	CDC42Hs|G25K	ARHGEF29|ASEF2	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q96N96	A0A024RDM6|E9PFR9|B4DMC2	NP_001159743|NP_694568|NP_001273724|NP_001273723|NP_001273722|NP_001273721	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839927	998	7074	107433	112930	RP1-224A6.5	-	CDC42	TIAM1	CDC42Hs|G25K	-	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q13009	-	NP_003244	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839928	998	7409	107433	113252	RP1-224A6.5	-	CDC42	VAV1	CDC42Hs|G25K	VAV	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	P15498	Q96D37|B2R8B5	NP_005419|NP_001245135|NP_001245136	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839929	5879	9639	111817	114998	MIG5	-	RAC1	ARHGEF10	Rac-1|TC-25|p21-Rac1	GEF10|SNCV	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	O15013	-	NP_055444	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839930	5879	26084	111817	117537	MIG5	-	RAC1	ARHGEF26	Rac-1|TC-25|p21-Rac1	CSGEF|HMFN1864|SGEF	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q96DR7	B3KXG0	NP_001238891|NP_001238892|NP_056410	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839931	5879	23268	111817	116869	MIG5	RP11-114F7.3	RAC1	DNMBP	Rac-1|TC-25|p21-Rac1	ARHGEF36|TUBA	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q6XZF7	-	NP_001305255|NP_001305256|NP_056036	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839932	5879	1795	111817	108130	MIG5	-	RAC1	DOCK3	Rac-1|TC-25|p21-Rac1	MOCA|PBP	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q8IZD9	-	NP_004938	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839933	5879	210293	111817	229145	MIG5	-	RAC1	Dock10	Rac-1|TC-25|p21-Rac1	9330153B10Rik|A630054M16Rik|Jr4|Jr5|R75174|ZIZ3|Zizimin3|mKIAA0694	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q8BZN6	A0A087WQ86|E9QM99	NP_001272856|NP_780500	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2839934	5879	152273	111817	127439	MIG5	-	RAC1	FGD5	Rac-1|TC-25|p21-Rac1	ZFYVE23	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q6ZNL6	-	NP_689749	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839935	5879	4168	111817	110336	MIG5	RP6-88D7.2	RAC1	MCF2	Rac-1|TC-25|p21-Rac1	ARHGEF21|DBL	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	P10911	B2R9S6	NP_001165347|NP_001165350|NP_001165349|NP_001093325|NP_005360|NP_001165348	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839936	5879	23263	111817	116865	MIG5	RP11-98F14.2	RAC1	MCF2L	Rac-1|TC-25|p21-Rac1	ARHGEF14|DBS|OST	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	O15068	-	NP_079255|NP_001307745|NP_001307744|NP_001106203|NP_001307746	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839937	5879	57480	111817	121550	MIG5	RP11-25C17.1	RAC1	PLEKHG1	Rac-1|TC-25|p21-Rac1	ARHGEF41	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q9ULL1	Q5JYA6	NP_001025055	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839938	5879	55200	111817	120497	MIG5	-	RAC1	PLEKHG6	Rac-1|TC-25|p21-Rac1	MyoGEF	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q3KR16	-	NP_001138329|NP_001138328|NP_060643	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839939	5879	57580	111817	121633	MIG5	-	RAC1	PREX1	Rac-1|TC-25|p21-Rac1	P-REX1	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q8TCU6	-	NP_065871	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839940	5879	80243	111817	123199	MIG5	-	RAC1	PREX2	Rac-1|TC-25|p21-Rac1	6230420N16Rik|DEP.2|DEPDC2|P-REX2|PPP1R129	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q70Z35	-	NP_079146|NP_079446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839941	5879	5924	111817	111859	MIG5	-	RAC1	RASGRF2	Rac-1|TC-25|p21-Rac1	GRF2|RAS-GRF2	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	O14827	Q68DX5	NP_008840	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839942	5879	7074	111817	112930	MIG5	-	RAC1	TIAM1	Rac-1|TC-25|p21-Rac1	-	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q13009	-	NP_003244	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839943	5879	24001	111817	204849	MIG5	-	RAC1	Tiam2	Rac-1|TC-25|p21-Rac1	3000002F19Rik|STEF|mKIAA2016	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q6ZPF3	-	NP_036008|NP_001273686|NP_001273687|NP_001116470	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2839944	5879	7204	111817	113055	MIG5	-	RAC1	TRIO	Rac-1|TC-25|p21-Rac1	ARHGEF23|tgat	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	O75962	-	NP_009049	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839945	5879	7409	111817	113252	MIG5	-	RAC1	VAV1	Rac-1|TC-25|p21-Rac1	VAV	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	P15498	Q96D37|B2R8B5	NP_005419|NP_001245135|NP_001245136	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839946	5879	22325	111817	204501	MIG5	RP23-113K24.1	RAC1	Vav2	Rac-1|TC-25|p21-Rac1	2810040F13Rik|AI847175	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q60992	-	NP_033526	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2839947	387	11214	106880	116383	-	-	RHOA	AKAP13	ARH12|ARHA|RHO12|RHOH12	AKAP-13|AKAP-Lbc|ARHGEF13|BRX|HA-3|Ht31|LBC|PRKA13|PROTO-LB|PROTO-LBC|c-lbc|p47	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q12802	B0AZU4|A8MYJ1	NP_009131|NP_001257475|NP_006729	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839948	387	9138	106880	114585	-	-	RHOA	ARHGEF1	ARH12|ARHA|RHO12|RHOH12	GEF1|LBCL2|LSC|P115-RHOGEF|SUB1.5	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q92888	A0A024R0R1	NP_945353|NP_945328|NP_004697	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839949	387	16800	106880	201114	-	-	RHOA	Arhgef2	ARH12|ARHA|RHO12|RHOH12	AA408978|GEF|GEF-H1|GEFH1|LFP40|Lbcl1|Lfc|P40|mKIAA0651	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q60875	H3BJ40|H3BJ45	NP_001185842|NP_032513|NP_001185840|NP_001185841	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2839950	387	71704	106880	214868	-	-	RHOA	Arhgef3	ARH12|ARHA|RHO12|RHOH12	1200004I24Rik|9830169H03Rik|C76747|Xpln	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q91X46	-	NP_082147|NP_001276615|NP_001276616|NP_001276617	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2839951	387	50649	106880	119114	-	-	RHOA	ARHGEF4	ARH12|ARHA|RHO12|RHOH12	ASEF|ASEF1|GEF4|STM6	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q9NR80	Q9NTG0	NP_127462|NP_056135	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839952	387	7984	106880	113696	-	-	RHOA	ARHGEF5	ARH12|ARHA|RHO12|RHOH12	GEF5|P60|TIM|TIM1	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q12774	-	NP_005426	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839953	387	9639	106880	114998	-	-	RHOA	ARHGEF10	ARH12|ARHA|RHO12|RHOH12	GEF10|SNCV	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	O15013	-	NP_055444	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839954	387	9826	106880	115164	-	RP11-356J7.2	RHOA	ARHGEF11	ARH12|ARHA|RHO12|RHOH12	GTRAP48|PDZ-RHOGEF	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	O15085	-	NP_055599|NP_937879|NP_001364348|NP_001364347	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839955	387	23365	106880	116945	-	-	RHOA	ARHGEF12	ARH12|ARHA|RHO12|RHOH12	LARG|PRO2792	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q9NZN5	E9PMR6|B4E2K6	NP_001185594|NP_001288013|NP_056128	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839956	387	22899	106880	116563	-	-	RHOA	ARHGEF15	ARH12|ARHA|RHO12|RHOH12	ARGEF15|E5|Ephexin5|Vsm-RhoGEF	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	O94989	-	NP_079290|NP_776089	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839957	387	9828	106880	115166	-	-	RHOA	ARHGEF17	ARH12|ARHA|RHO12|RHOH12	P164RHOGEF|TEM4|p164-RhoGEF	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q96PE2	-	NP_055601	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839958	387	128272	106880	126104	-	RP4-733M16.1	RHOA	ARHGEF19	ARH12|ARHA|RHO12|RHOH12	WGEF	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q8IW93	-	NP_694945	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839959	387	115557	106880	125438	-	-	RHOA	ARHGEF25	ARH12|ARHA|RHO12|RHOH12	GEFT|p63RhoGEF	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q86VW2	-	NP_001104740|NP_891992	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839960	387	64283	106880	122127	-	-	RHOA	ARHGEF28	ARH12|ARHA|RHO12|RHOH12	RGNEF|RIP2|p190RHOGEF	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q8N1W1	-	NP_001231293|NP_001073948|NP_001171164	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839961	387	13605	106880	199370	-	-	RHOA	Ect2	ARH12|ARHA|RHO12|RHOH12	AI528536|mKIAA4037	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q07139	-	NP_001171096|NP_001171097|NP_031926	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2839962	387	4168	106880	110336	-	RP6-88D7.2	RHOA	MCF2	ARH12|ARHA|RHO12|RHOH12	ARHGEF21|DBL	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	P10911	B2R9S6	NP_001165347|NP_001165350|NP_001165349|NP_001093325|NP_005360|NP_001165348	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839963	387	23263	106880	116865	-	RP11-98F14.2	RHOA	MCF2L	ARH12|ARHA|RHO12|RHOH12	ARHGEF14|DBS|OST	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	O15068	-	NP_079255|NP_001307745|NP_001307744|NP_001106203|NP_001307746	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839964	387	10276	106880	115565	-	RP11-116G8.1	RHOA	NET1	ARH12|ARHA|RHO12|RHOH12	ARHGEF8|NET1A	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q7Z628	Q5SQI7|Q5SQI5	NP_005854|NP_001040625	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839965	387	25791	106880	117324	-	-	RHOA	NGEF	ARH12|ARHA|RHO12|RHOH12	ARHGEF27|EPHEXIN	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q8N5V2	-	NP_062824|NP_001107562	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839966	387	25894	106880	117402	-	-	RHOA	PLEKHG4	ARH12|ARHA|RHO12|RHOH12	ARHGEF44|PRTPHN1|SCA4	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q58EX7	A0A024R6X4	NP_001123203|NP_001123200|NP_001123201|NP_056247|NP_001123199	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839967	387	269608	106880	234677	-	RP23-284C20.1	RHOA	Plekhg5	ARH12|ARHA|RHO12|RHOH12	BC023181|Syx	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q66T02	B1AS67	NP_001272928	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2839968	387	55200	106880	120497	-	-	RHOA	PLEKHG6	ARH12|ARHA|RHO12|RHOH12	MyoGEF	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q3KR16	-	NP_001138329|NP_001138328|NP_060643	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839969	387	57580	106880	121633	-	-	RHOA	PREX1	ARH12|ARHA|RHO12|RHOH12	P-REX1	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q8TCU6	-	NP_065871	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839970	387	80243	106880	123199	-	-	RHOA	PREX2	ARH12|ARHA|RHO12|RHOH12	6230420N16Rik|DEP.2|DEPDC2|P-REX2|PPP1R129	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q70Z35	-	NP_079146|NP_079446	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839971	387	5924	106880	111859	-	-	RHOA	RASGRF2	ARH12|ARHA|RHO12|RHOH12	GRF2|RAS-GRF2	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	O14827	Q68DX5	NP_008840	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839972	387	7074	106880	112930	-	-	RHOA	TIAM1	ARH12|ARHA|RHO12|RHOH12	-	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q13009	-	NP_003244	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839973	387	7409	106880	113252	-	-	RHOA	VAV1	ARH12|ARHA|RHO12|RHOH12	VAV	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	P15498	Q96D37|B2R8B5	NP_005419|NP_001245135|NP_001245136	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839974	387	22325	106880	204501	-	RP23-113K24.1	RHOA	Vav2	ARH12|ARHA|RHO12|RHOH12	2810040F13Rik|AI847175	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q60992	-	NP_033526	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2839975	387	10451	106880	115715	-	-	RHOA	VAV3	ARH12|ARHA|RHO12|RHOH12	-	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGEF activity assay using cells transfected with (a) the FRET sensor of the bait protein together with RhoGDI and (b) the prey/hit protein from a RhoGEF cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q9UKW4	-	NP_006104|NP_001073343	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839976	998	116985	107433	125548	RP1-224A6.5	-	CDC42	ARAP1	CDC42Hs|G25K	CENTD2	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q96P48	-	NP_001035207|NP_001128662|NP_056057	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839977	998	116984	107433	125547	RP1-224A6.5	-	CDC42	ARAP2	CDC42Hs|G25K	CENTD1|PARX	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q8WZ64	A7E2A5	NP_056045	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839978	998	106952	107433	223164	RP1-224A6.5	-	CDC42	Arap3	CDC42Hs|G25K	Centd3|Drag1|E030006K04Rik|cnt-d3	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q8R5G7	-	NP_001192265|NP_631945	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2839979	998	228359	107433	230727	RP1-224A6.5	RP23-12H6.1	CDC42	Arhgap1	CDC42Hs|G25K	B230365D05Rik|C76222|Cdc42GAP|p50rhoGAP	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q5FWK3	A2AH25|Q8BQW4	NP_666236|NP_001139374	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2839980	998	89839	107433	124615	RP1-224A6.5	-	CDC42	ARHGAP11B	CDC42Hs|G25K	B-T|FAM7B1	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q3KRB8	-	NP_001034930	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839981	998	57569	107433	121622	RP1-224A6.5	-	CDC42	ARHGAP20	CDC42Hs|G25K	RARHOGAP	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q9P2F6	-	NP_001245344|NP_001245345|NP_001245346|NP_001245347|NP_065860	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839982	998	58504	107433	121832	RP1-224A6.5	-	CDC42	ARHGAP22	CDC42Hs|G25K	RhoGAP2|RhoGap22	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q7Z5H3	-	NP_067049|NP_001242954|NP_001242955|NP_001242953|NP_001334664|NP_001334667	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839983	998	226652	107433	230542	RP1-224A6.5	-	CDC42	Arhgap30	CDC42Hs|G25K	6030405P05Rik|Gm102|mFLJ00267	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q640N3	E9QMX7	NP_001005508	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2839984	998	57514	107433	121578	RP1-224A6.5	-	CDC42	ARHGAP31	CDC42Hs|G25K	AOS1|CDGAP	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q2M1Z3	-	NP_065805	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839985	998	80728	107433	123278	RP1-224A6.5	-	CDC42	ARHGAP39	CDC42Hs|G25K	CrGAP|Vilse	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q9C0H5	B3KS00	NP_001295136|NP_001295137|NP_079527	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839986	998	343578	107433	131266	RP1-224A6.5	RP5-1100H13.4	CDC42	ARHGAP40	CDC42Hs|G25K	C20orf95|dJ1100H13.4	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	-	-	NP_001157903	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839987	998	51306	107433	119457	RP1-224A6.5	-	CDC42	FAM13B	CDC42Hs|G25K	ARHGAP49|C5orf5|FAM13B1|KHCHP|N61	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q9NYF5	-	NP_057687|NP_001095271|NP_001095270	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839988	998	51291	107433	119442	RP1-224A6.5	-	CDC42	GMIP	CDC42Hs|G25K	ARHGAP46	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q9P107	A0A024R7N1|B4DLZ1	NP_001275928|NP_001275927|NP_057657	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839989	998	25486	107433	247519	RP1-224A6.5	-	CDC42	Myo9b	CDC42Hs|G25K	-	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10116	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	-	-	NP_001257996|NP_037116|NP_001257995	-	-	-	-	-	-	Homo sapiens	Rattus norvegicus
+2839990	998	14270	107433	199721	RP1-224A6.5	-	CDC42	Srgap2	CDC42Hs|G25K	9930124L22Rik|AI448945|FBP2|Fnbp2|srGAP3	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q91Z67	A0A087WNM1	NP_001074480	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2839991	998	9754	107433	115102	RP1-224A6.5	-	CDC42	STARD8	CDC42Hs|G25K	ARHGAP38|DLC3|STARTGAP3	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P60953	A0A024RAE4|A0A024RAE6	NP_426359|NP_001782|NP_001034891	Q92502	-	NP_001135975|NP_001135976|NP_055540	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839992	5879	116985	111817	125548	MIG5	-	RAC1	ARAP1	Rac-1|TC-25|p21-Rac1	CENTD2	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q96P48	-	NP_001035207|NP_001128662|NP_056057	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839993	5879	116984	111817	125547	MIG5	-	RAC1	ARAP2	Rac-1|TC-25|p21-Rac1	CENTD1|PARX	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q8WZ64	A7E2A5	NP_056045	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839994	5879	106952	111817	223164	MIG5	-	RAC1	Arap3	Rac-1|TC-25|p21-Rac1	Centd3|Drag1|E030006K04Rik|cnt-d3	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q8R5G7	-	NP_001192265|NP_631945	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2839995	5879	393	111817	106886	MIG5	-	RAC1	ARHGAP4	Rac-1|TC-25|p21-Rac1	C1|RGC1|RhoGAP4|SrGAP4|p115	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	P98171	-	NP_001657|NP_001158213	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839996	5879	64333	111817	122140	MIG5	-	RAC1	ARHGAP9	Rac-1|TC-25|p21-Rac1	10C|RGL1	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q9BRR9	-	NP_001306779|NP_001306780|NP_001306781|NP_115885|NP_001073625|NP_001073626	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839997	5879	94134	111817	125122	MIG5	-	RAC1	ARHGAP12	Rac-1|TC-25|p21-Rac1	-	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q8IWW6	Q1RLN5	NP_001257628|NP_060757|NP_001257624|NP_001257625|NP_001257626|NP_001257627	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2839998	5879	76117	111817	217972	MIG5	RP23-211K16.1	RAC1	Arhgap15	Rac-1|TC-25|p21-Rac1	5830480G12Rik	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q811M1	B1AW40|B2X2D4	NP_001288761|NP_001288760|NP_722542|NP_001020548	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2839999	5879	57569	111817	121622	MIG5	-	RAC1	ARHGAP20	Rac-1|TC-25|p21-Rac1	RARHOGAP	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q9P2F6	-	NP_001245344|NP_001245345|NP_001245346|NP_001245347|NP_065860	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840000	5879	58504	111817	121832	MIG5	-	RAC1	ARHGAP22	Rac-1|TC-25|p21-Rac1	RhoGAP2|RhoGap22	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q7Z5H3	-	NP_067049|NP_001242954|NP_001242955|NP_001242953|NP_001334664|NP_001334667	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840001	5879	57636	111817	121677	MIG5	-	RAC1	ARHGAP23	Rac-1|TC-25|p21-Rac1	-	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q9P227	-	NP_001186346	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840002	5879	454752	111817	727275	MIG5	-	RAC1	ARHGAP27	Rac-1|TC-25|p21-Rac1	-	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9598	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	-	H2QD90		-	-	-	-	-	-	Homo sapiens	Pan troglodytes
+2840003	5879	226652	111817	230542	MIG5	-	RAC1	Arhgap30	Rac-1|TC-25|p21-Rac1	6030405P05Rik|Gm102|mFLJ00267	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q640N3	E9QMX7	NP_001005508	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2840004	5879	57514	111817	121578	MIG5	-	RAC1	ARHGAP31	Rac-1|TC-25|p21-Rac1	AOS1|CDGAP	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q2M1Z3	-	NP_065805	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840005	5879	233071	111817	231366	MIG5	-	RAC1	Arhgap33	Rac-1|TC-25|p21-Rac1	AW324378|NOMA-GAP|Snx26|TCGAP	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q80YF9	Q3UQS4	NP_001276599|NP_001276611|NP_839983	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2840006	5879	2909	111817	109166	MIG5	-	RAC1	ARHGAP35	Rac-1|TC-25|p21-Rac1	GRF-1|GRLF1|P190-A|P190A|p190ARhoGAP|p190RhoGAP	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q9NRY4	-	NP_004482	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840007	5879	80728	111817	123278	MIG5	-	RAC1	ARHGAP39	Rac-1|TC-25|p21-Rac1	CrGAP|Vilse	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q9C0H5	B3KS00	NP_001295136|NP_001295137|NP_079527	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840008	5879	9912	111817	115241	MIG5	-	RAC1	ARHGAP44	Rac-1|TC-25|p21-Rac1	NPC-A-10|RICH2	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q17R89	Q69Z00|E7ERK8	NP_001308093|NP_055674|NP_001308096|NP_001308095	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840009	5879	1123	111817	107547	MIG5	-	RAC1	CHN1	Rac-1|TC-25|p21-Rac1	ARHGAP2|CHN|DURS2|NC|RHOGAP2	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	P15882	-	NP_001193531|NP_001358442|NP_001813|NP_001020372|NP_001358443	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840010	5879	1124	111817	107548	MIG5	tcag7.1311	RAC1	CHN2	Rac-1|TC-25|p21-Rac1	ARHGAP3|BCH|CHN2-3|RHOGAP3	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	P52757	B3VCG5|B7Z1W9|B7Z215|B7Z232|B3VCF9|B3VCF4|B3VCF5|B3VCF6|B7Z1V0	NP_001280000|NP_001280001|NP_001280002|NP_001280010|NP_001280004|NP_001280005|NP_001280006|NP_001280007|NP_001280008|NP_001280009|NP_004058|NP_001035025|NP_001279998|NP_001279999	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840011	5879	10144	111817	115447	MIG5	-	RAC1	FAM13A	Rac-1|TC-25|p21-Rac1	ARHGAP48|FAM13A1	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	O94988	-	NP_055698|NP_001252508|NP_001252509|NP_001252507|NP_001015045	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840012	5879	51306	111817	119457	MIG5	-	RAC1	FAM13B	Rac-1|TC-25|p21-Rac1	ARHGAP49|C5orf5|FAM13B1|KHCHP|N61	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q9NYF5	-	NP_057687|NP_001095271|NP_001095270	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840013	5879	51291	111817	119442	MIG5	-	RAC1	GMIP	Rac-1|TC-25|p21-Rac1	ARHGAP46	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q9P107	A0A024R7N1|B4DLZ1	NP_001275928|NP_001275927|NP_057657	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840014	5879	25486	111817	247519	MIG5	-	RAC1	Myo9b	Rac-1|TC-25|p21-Rac1	-	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10116	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	-	-	NP_001257996|NP_037116|NP_001257995	-	-	-	-	-	-	Homo sapiens	Rattus norvegicus
+2840015	5879	29127	111817	118892	MIG5	-	RAC1	RACGAP1	Rac-1|TC-25|p21-Rac1	CYK4|HsCYK-4|ID-GAP|MgcRacGAP	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q9H0H5	A0A024R136|B2RE34	NP_001306929|NP_001119576|NP_001119575|NP_037409|NP_001306935|NP_001306934|NP_001306928|NP_001306936|NP_001306931|NP_001306930|NP_001306933|NP_001306932	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840016	5879	10928	111817	116131	MIG5	-	RAC1	RALBP1	Rac-1|TC-25|p21-Rac1	RIP1|RLIP1|RLIP76	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q15311	-	NP_006779	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840017	5879	23616	111817	117149	MIG5	-	RAC1	SH3BP1	Rac-1|TC-25|p21-Rac1	ARHGAP43	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q9Y3L3	-	NP_061830	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840018	5879	57522	111817	121583	MIG5	-	RAC1	SRGAP1	Rac-1|TC-25|p21-Rac1	ARHGAP13	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q7Z6B7	-	NP_065813|NP_001333130	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840019	5879	14270	111817	199721	MIG5	-	RAC1	Srgap2	Rac-1|TC-25|p21-Rac1	9930124L22Rik|AI448945|FBP2|Fnbp2|srGAP3	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q91Z67	A0A087WNM1	NP_001074480	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2840020	5879	9901	111817	115230	MIG5	-	RAC1	SRGAP3	Rac-1|TC-25|p21-Rac1	ARHGAP14|MEGAP|SRGAP2|WRP	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	O43295	-	NP_001028289|NP_055665	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840021	5879	84144	111817	123912	MIG5	RP11-33E12.1	RAC1	SYDE2	Rac-1|TC-25|p21-Rac1	-	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q5VT97	-	NP_115560	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840022	5879	72536	111817	215423	MIG5	-	RAC1	Tagap	Rac-1|TC-25|p21-Rac1	2610315E15Rik	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	B2RWW0	-	NP_666080	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2840023	5879	109934	111817	225161	MIG5	RP23-48B14.2	RAC1	Abr	Rac-1|TC-25|p21-Rac1	-	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P63000	A4D2P1|A4D2P0	NP_008839|NP_061485	Q5SSL4	E9PUE7	NP_942597|NP_942598|NP_001278115|NP_001333599|NP_932135	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2840024	387	116984	106880	125547	-	-	RHOA	ARAP2	ARH12|ARHA|RHO12|RHOH12	CENTD1|PARX	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q8WZ64	A7E2A5	NP_056045	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840025	387	228359	106880	230727	-	RP23-12H6.1	RHOA	Arhgap1	ARH12|ARHA|RHO12|RHOH12	B230365D05Rik|C76222|Cdc42GAP|p50rhoGAP	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q5FWK3	A2AH25|Q8BQW4	NP_666236|NP_001139374	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2840026	387	394	106880	106887	-	-	RHOA	ARHGAP5	ARH12|ARHA|RHO12|RHOH12	GFI2|RhoGAP5|p190-B|p190BRhoGAP	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q13017	-	NP_001164|NP_001025226	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840027	387	11856	106880	198200	-	RP23-24O15.2	RHOA	Arhgap6	ARH12|ARHA|RHO12|RHOH12	AI504284|RhoGAPX-1	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	O54834	Q8C8B2	NP_001274459|NP_848869|NP_033837	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2840028	387	73167	106880	215811	-	-	RHOA	Arhgap8	ARH12|ARHA|RHO12|RHOH12	3110043J09Rik	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q9CXP4	-	NP_001158100|NP_082731|NP_001158099|NP_001192263	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2840029	387	79658	106880	122784	-	-	RHOA	ARHGAP10	ARH12|ARHA|RHO12|RHOH12	GRAF2|PS-GAP|PSGAP	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	A1A4S6	-	NP_078881	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840030	387	9824	106880	115162	-	RP11-1000B6.5	RHOA	ARHGAP11A	ARH12|ARHA|RHO12|RHOH12	GAP (1-12)	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q6P4F7	-	NP_055598|NP_001273409|NP_001273408|NP_955389	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840031	387	89839	106880	124615	-	-	RHOA	ARHGAP11B	ARH12|ARHA|RHO12|RHOH12	B-T|FAM7B1	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q3KRB8	-	NP_001034930	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840032	387	84986	106880	124412	-	-	RHOA	ARHGAP19	ARH12|ARHA|RHO12|RHOH12	-	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q14CB8	-	NP_001191229|NP_116289|NP_001243352	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840033	387	57569	106880	121622	-	-	RHOA	ARHGAP20	ARH12|ARHA|RHO12|RHOH12	RARHOGAP	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q9P2F6	-	NP_001245344|NP_001245345|NP_001245346|NP_001245347|NP_065860	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840034	387	57584	106880	121636	-	RP11-324E23.2	RHOA	ARHGAP21	ARH12|ARHA|RHO12|RHOH12	ARHGAP10	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q5T5U3	-	NP_001354379|NP_001354376|NP_001354377|NP_001354380|NP_001354381|NP_065875|NP_001354383|NP_001354382|NP_001354378|NP_001354384	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840035	387	58504	106880	121832	-	-	RHOA	ARHGAP22	ARH12|ARHA|RHO12|RHOH12	RhoGAP2|RhoGap22	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q7Z5H3	-	NP_067049|NP_001242954|NP_001242955|NP_001242953|NP_001334664|NP_001334667	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840036	387	57636	106880	121677	-	-	RHOA	ARHGAP23	ARH12|ARHA|RHO12|RHOH12	-	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q9P227	-	NP_001186346	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840037	387	23092	106880	116720	-	-	RHOA	ARHGAP26	ARH12|ARHA|RHO12|RHOH12	GRAF|GRAF1|OPHN1L|OPHN1L1	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q9UNA1	-	NP_001129080|NP_001336476|NP_055886	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840038	387	268970	106880	234587	-	-	RHOA	Arhgap28	ARH12|ARHA|RHO12|RHOH12	AU044757|AW550892|E130310N06	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q8BN58	E9Q642	NP_766552	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2840039	387	9411	106880	114806	-	RP11-255E17.1	RHOA	ARHGAP29	ARH12|ARHA|RHO12|RHOH12	PARG1	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q52LW3	-	NP_001315596|NP_004806|NP_001315594|NP_001315593|NP_001315595	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840040	387	226652	106880	230542	-	-	RHOA	Arhgap30	ARH12|ARHA|RHO12|RHOH12	6030405P05Rik|Gm102|mFLJ00267	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q640N3	E9QMX7	NP_001005508	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2840041	387	57514	106880	121578	-	-	RHOA	ARHGAP31	ARH12|ARHA|RHO12|RHOH12	AOS1|CDGAP	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q2M1Z3	-	NP_065805	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840042	387	2909	106880	109166	-	-	RHOA	ARHGAP35	ARH12|ARHA|RHO12|RHOH12	GRF-1|GRLF1|P190-A|P190A|p190ARhoGAP|p190RhoGAP	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q9NRY4	-	NP_004482	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840043	387	343578	106880	131266	-	RP5-1100H13.4	RHOA	ARHGAP40	ARH12|ARHA|RHO12|RHOH12	C20orf95|dJ1100H13.4	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	-	-	NP_001157903	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840044	387	10395	106880	115667	-	-	RHOA	DLC1	ARH12|ARHA|RHO12|RHOH12	ARHGAP7|HP|STARD12|p122-RhoGAP	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q96QB1	A8K119	NP_872584|NP_001157743|NP_006085|NP_079043|NP_001303597	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840045	387	51291	106880	119442	-	-	RHOA	GMIP	ARH12|ARHA|RHO12|RHOH12	ARHGAP46	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q9P107	A0A024R7N1|B4DLZ1	NP_001275928|NP_001275927|NP_057657	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840046	387	4649	106880	110733	-	-	RHOA	MYO9A	ARH12|ARHA|RHO12|RHOH12	-	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	B2RTY4	-	NP_008832	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840047	387	25486	106880	247519	-	-	RHOA	Myo9b	ARH12|ARHA|RHO12|RHOH12	-	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10116	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	-	-	NP_001257996|NP_037116|NP_001257995	-	-	-	-	-	-	Homo sapiens	Rattus norvegicus
+2840048	387	9754	106880	115102	-	-	RHOA	STARD8	ARH12|ARHA|RHO12|RHOH12	ARHGAP38|DLC3|STARTGAP3	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	9606	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q92502	-	NP_001135975|NP_001135976|NP_055540	-	-	-	-	-	-	Homo sapiens	Homo sapiens
+2840049	387	243362	106880	232505	-	-	RHOA	Stard13	ARH12|ARHA|RHO12|RHOH12	DLC2|GT650	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	Q923Q2	F8WIY7|Q3UWP1	NP_666370|NP_001156965	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2840050	387	72536	106880	215423	-	-	RHOA	Tagap	ARH12|ARHA|RHO12|RHOH12	2610315E15Rik	FRET	physical	Mueller PM (2020)	PUBMED:32203420	9606	10090	High Throughput	-	-	interaction implied from FRET-based RhoGAP activity assay using cells transfected with (a) the FRET sensor of the bait protein and (b) the prey/hit protein from a RhoGAP cDNA library; scores are p-values with an apparent cut-off of 0.05	-	BIOGRID	P61586	Q9BVT0|A0A024R324	NP_001300872|NP_001300873|NP_001300870|NP_001655|NP_001300876|NP_001300874|NP_001300875	B2RWW0	-	NP_666080	-	-	-	-	-	-	Homo sapiens	Mus musculus
+2869032	31151	37386	57697	63025	Dmel_CG11579	Dmel_CG3722	arm	shg	CG11579|Dm Arm|DmelCG11579|EG:86E4.6|beta-Cat|beta-cat-arm|beta-catenin|beta-catenin/Arm|betacat|bgr;-Cat|l(1)2Bv|l(1)G0192|l(1)G0234|l(1)G0410|l(1)arm|t12687 ALR Dm	CADH|CG3722|CT12481|Cad|CadE|D E-cad|D-CAD2|D-cad|DCAD|DCAD2|DE|DE Cad|DE Cadh|DE-CAD|DE-CAD2|DE-Cadh|DE-Cadherin|DEC|DECAD|DECadh|DE[cyto]|DmelCG3722|E-CAD|E-Ca|E-Cadherin|ECAD|ECad2|ECadh|N-cad|com5|gp150|l(2)10469|l(2)k03401|l(2)k10220|shg/DE-Cad	FRET	physical	Roeper JC (2018)	PUBMED:30024850	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P18824	M9PGG4	NP_996328|NP_599100|NP_001259149|NP_476665|NP_476666|NP_726775	Q24298	-	NP_476722	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2869038	31162	31162	57707	57707	Dmel_CG43934	Dmel_CG43934	Hr4	Hr4	CG16902|CG3600|CG42527|CG43692|CG43934|DHR4|DmelCG43934|Dmel_CG16902|Dmel_CG3600|Dmel_CG42527|EG:133E12.2|EG:BACH61I5.1|EP(X)1232|EP1232|GRF|NR6A2|null	CG16902|CG3600|CG42527|CG43692|CG43934|DHR4|DmelCG43934|Dmel_CG16902|Dmel_CG3600|Dmel_CG42527|EG:133E12.2|EG:BACH61I5.1|EP(X)1232|EP1232|GRF|NR6A2|null	FRET	physical	Nil Z (2019)	PUBMED:31491385	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q9W539	M9PGH1|M9PDJ1|M9PIR5|M9PGQ8|M9PGA3|M9PDJ5|M9PGA1	NP_001259156|NP_001259157|NP_001033823|NP_001259158|NP_001259159|NP_001259161|NP_001259160|NP_001259163|NP_001259162	Q9W539	M9PGH1|M9PDJ1|M9PIR5|M9PGQ8|M9PGA3|M9PDJ5|M9PGA1	NP_001259156|NP_001259157|NP_001033823|NP_001259158|NP_001259159|NP_001259161|NP_001259160|NP_001259163|NP_001259162	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2869815	35047	35047	61043	61043	Dmel_CG6667	Dmel_CG6667	dl	dl	CG6667|DmelCG6667|Dor|Dorsal|GSd447|NFkappaB|REL|anon-EST:GressD7|d|fs(2)k10816|mat(2)dorsal	CG6667|DmelCG6667|Dor|Dorsal|GSd447|NFkappaB|REL|anon-EST:GressD7|d|fs(2)k10816|mat(2)dorsal	FRET	physical	Nil Z (2019)	PUBMED:31491385	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P15330	E1JHK3|C7LA93	NP_724052|NP_724053|NP_724054|NP_001286014|NP_001163000|NP_001163001	P15330	E1JHK3|C7LA93	NP_724052|NP_724053|NP_724054|NP_001286014|NP_001163000|NP_001163001	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2870654	38562	38562	64036	64036	Dmel_CG42540	Dmel_CG42540	CG42540	CG42540	CG13718|CG13719|CG32245|CG7468|DmelCG42540|Dmel_CG13719|Dmel_CG32245	CG13718|CG13719|CG32245|CG7468|DmelCG42540|Dmel_CG13719|Dmel_CG32245	FRET	physical	Nil Z (2019)	PUBMED:31491385	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q9VZA4	M9PEM4|M9PHF2|M9PEB7|H8F4R7|X2JC20|Q9VZA5|M9NF13	NP_001286936|NP_729016|NP_652337|NP_647917|NP_001246627|NP_001261419|NP_729018|NP_001261421|NP_001261420	Q9VZA4	M9PEM4|M9PHF2|M9PEB7|H8F4R7|X2JC20|Q9VZA5|M9NF13	NP_001286936|NP_729016|NP_652337|NP_647917|NP_001246627|NP_001261419|NP_729018|NP_001261421|NP_001261420	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2870679	38611	39332	64077	64693	Dmel_CG10642	Dmel_CG7293	Klp64D	Klp68D	CG10642|DmKlp64D|DmelCG10642|KIF 3A|KIF3A|KLP4|KLP64Ddm|Klp 64D	CG7293|DmKlp68D|DmelCG7293|KIF 3B|KIF3B|KLP-5|KLP5|KLP68Ddm|KLP[[64D/68D]]	FRET	physical	Ahmed Z (2019)	PUBMED:31420166	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q9VRK9	NP_523934	P46867	M9PF68	NP_524029|NP_001261726	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2870680	38611	39332	64077	64693	Dmel_CG10642	Dmel_CG7293	Klp64D	Klp68D	CG10642|DmKlp64D|DmelCG10642|KIF 3A|KIF3A|KLP4|KLP64Ddm|Klp 64D	CG7293|DmKlp68D|DmelCG7293|KIF 3B|KIF3B|KLP-5|KLP5|KLP68Ddm|KLP[[64D/68D]]	FRET	physical	Ahmed Z (2020)	PUBMED:31784087	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q9VRK9	NP_523934	P46867	M9PF68	NP_524029|NP_001261726	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2870745	39018	39018	64423	64423	Dmel_CG43782	Dmel_CG43782	orb2	orb2	CG43113|CG43782|CG5735|DmelCG43782|Dmel_CG43113|Dmel_CG5735|Dmel_CG5741|anon-WO0140519.222	CG43113|CG43782|CG5735|DmelCG43782|Dmel_CG43113|Dmel_CG5735|Dmel_CG5741|anon-WO0140519.222	FRET	physical	Nil Z (2019)	PUBMED:31491385	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q9VSR3	A4V1P2	NP_648266|NP_729427|NP_729429|NP_729428|NP_001261608	Q9VSR3	A4V1P2	NP_648266|NP_729427|NP_729429|NP_729428|NP_001261608	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2870798	39409	53554	64761	72787	Dmel_CG10698	Dmel_CG1487	CrzR	krz	CG10698|Crz-R|DCR|DGRHRII|DmelCG10698|GRH-RII|GRHRII|GRHRII_Dro|anon-WO0170980.196|anon-WO0170980.197	0952/14|CG1487|DmelCG1487|Kurz|l(3)S095214	FRET	physical	Chai F (2019)	PUBMED:31325455	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	M9PF00|Q9VTW7	NP_001261755|NP_648571	-	Q9V393	NP_524988|NP_001247400	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2870884	39748	39748	65059	65059	Dmel_CG5830	Dmel_CG5830	CG5830	CG5830	DmelCG5830	DmelCG5830	FRET	physical	Nil Z (2019)	PUBMED:31491385	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q9VUX0|M9PFN0	NP_001261912|NP_648825	-	Q9VUX0|M9PFN0	NP_001261912|NP_648825	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2871052	40616	40616	65830	65830	Dmel_CG2530	Dmel_CG2530	corto	corto	7128|CG2530|CP-1|Ccf|DmelCG2530|anon-WO02059370.59|l(3)07128|l(3)neo31|l(3)neo32	7128|CG2530|CP-1|Ccf|DmelCG2530|anon-WO02059370.59|l(3)07128|l(3)neo31|l(3)neo32	FRET	physical	Nil Z (2019)	PUBMED:31491385	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P41046	-	NP_001287166|NP_524231|NP_001246921|NP_001246923|NP_001246922	P41046	-	NP_001287166|NP_524231|NP_001246921|NP_001246923|NP_001246922	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2871859	43767	41565	68605	66658	Dmel_CG2125	Dmel_CG6054	ci	Su(fu)	CG2125|CID|Ce|Ci/GLI|Ci155|Ci[D]|DmelCG2125|Gli|Siah|ci-D|l(4)102ABc|l(4)13|l(4)17	CG6054|DmelCG6054|SUFU|dSufu	FRET	physical	Han Y (2019)	PUBMED:31279575	7227	7227	Low Throughput	-	-	-	-	FLYBASE	P19538	H9XVL6|H5V858|H9XVL7	NP_524617|NP_001245402|NP_001245401	-	Q9VG38	NP_536750	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2871874	43832	37007	68658	62693	Dmel_CG11081	Dmel_CG6446	PlexA	Sema-1b	BcDNA:GM05237|CG11081|D-Plex A|DPlexA|DmelCG11081|Plex1|PlexA1|lincRNA.927|plex|plex A	BcDNA:GH03186|CG6446|D-semaIII|DmelCG6446|Sema 1b|Sema III|Sema1b|sema-III	FRET	physical	Rozbesky D (2020)	PUBMED:32500924	7227	7227	Low Throughput	-	-	-	-	FLYBASE	-	Q0KIF1|Q9V491|H9XVP3	NP_524637|NP_726627|NP_726628|NP_001245428	-	Q7KK54	NP_001163178|NP_611244|NP_995879	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
+2871937	44353	38218	68999	63751	Dmel_CG18247	Dmel_CG2086	shark	drpr	CG18247|DmelCG18247|Dtk7|SYK/SHARK|Syk|Tk7|l(2)W4|l(2R)W4	BcDNA:GH03529|CG18172|CG2086|CT41022|CT6730|DmelCG2086	FRET	physical	Williamson AP (2018)	PUBMED:30139739	7227	7227	Low Throughput	-	-	-	-	FLYBASE	Q24145	-	NP_524743	-	Q9W0A1|Q9W0A0|M9PDW5|M9PGU6|M9NEX8|M9PBI3	NP_001246549|NP_728660|NP_001261276|NP_001261277|NP_001261275|NP_477450	-	-	-	-	-	-	Drosophila melanogaster	Drosophila melanogaster
Binary file test-data/roc/human_hv1h2.png has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/roc/human_hv1h2.txt	Sun Nov 22 14:15:24 2020 +0000
@@ -0,0 +1,20796 @@
+sp|P04601|NEF_HV1H2	sp|Q96CW1|AP2M1_HUMAN	495.9	3TB8_A	5FPI_A	6OWT_N	6QH5_N
+sp|P04601|NEF_HV1H2	sp|Q9BXS5|AP1M1_HUMAN	474.5	3TB8_A	4P6Z_M	4EN2_B	6CRI_M
+sp|P04601|NEF_HV1H2	sp|Q9Y6Q5|AP1M2_HUMAN	442.4	3TB8_A	4P6Z_M	4EN2_B	6CRI_M
+sp|P69723|VIF_HV1H2	sp|Q13951|PEBB_HUMAN	412.1	4N9F_b	6P59_C	4N9F_b	6P59_A
+sp|P04601|NEF_HV1H2	sp|P53677|AP3M2_HUMAN	406.8	3TB8_A	2XA7_M	6OWT_N	6QH5_N
+sp|P04601|NEF_HV1H2	sp|Q9Y2T2|AP3M1_HUMAN	404.8	3TB8_A	6QH5_N	6OWT_N	6QH5_N
+sp|P04601|NEF_HV1H2	sp|O00189|AP4M1_HUMAN	353.7	3TB8_A	2XA7_M	6OWT_N	6QH5_N
+sp|P69723|VIF_HV1H2	sp|Q13616|CUL1_HUMAN	328.9	4N9F_b	1LDJ_A	4N9F_b	4JGH_D
+sp|P69723|VIF_HV1H2	sp|Q13620|CUL4B_HUMAN	295.0	4N9F_b	2HYE_C	4N9F_b	4JGH_D
+sp|P69726|VPR_HV1H2	sp|P13051|UNG_HUMAN	291.6	1ESX_A	3FCI_A	5JK7_F	3FCI_A
+sp|P69726|VPR_HV1H2	sp|Q10570|CPSF1_HUMAN	291.6	1ESX_A	6F9N_A	5JK7_F	5JK7_B
+sp|P69726|VPR_HV1H2	sp|Q15393|SF3B3_HUMAN	291.6	1ESX_A	6FF7_v	5JK7_F	5JK7_B
+sp|P69726|VPR_HV1H2	sp|Q16531|DDB1_HUMAN	291.6	1ESX_A	5JK7_B	5JK7_F	5JK7_B
+sp|P69723|VIF_HV1H2	sp|Q9NRW3|ABC3C_HUMAN	286.5	4N9F_b	5CQH_A	6NIL_F	5HX4_A
+sp|P69723|VIF_HV1H2	sp|Q93034|CUL5_HUMAN	286.1	4N9F_b	6V9I_C	4N9F_b	4JGH_D
+sp|P69723|VIF_HV1H2	sp|Q13619|CUL4A_HUMAN	281.7	4N9F_b	2HYE_C	4N9F_b	4JGH_D
+sp|P69723|VIF_HV1H2	sp|Q13618|CUL3_HUMAN	278.9	4N9F_b	2HYE_C	4N9F_b	4JGH_D
+sp|P69723|VIF_HV1H2	sp|Q8IUX4|ABC3F_HUMAN	275.2	4N9F_b	6P3X_B	6NIL_F	5HX4_A
+sp|P04608|TAT_HV1H2	sp|A0A0B4J2F2|SIK1B_HUMAN	264.2	3MI9_C	3FE3_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|O00444|PLK4_HUMAN	264.2	3MI9_C	6N45_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|O14965|AURKA_HUMAN	264.2	3MI9_C	4DEE_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|O15264|MK13_HUMAN	264.2	3MI9_C	3COI_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|O76039|CDKL5_HUMAN	264.2	3MI9_C	4BGQ_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|O95747|OXSR1_HUMAN	264.2	3MI9_C	5DBX_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|O96017|CHK2_HUMAN	264.2	3MI9_C	3I6U_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P06493|CDK1_HUMAN	264.2	3MI9_C	6GU2_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P11801|KPSH1_HUMAN	264.2	3MI9_C	4B99_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P20794|MAK_HUMAN	264.2	3MI9_C	6O9L_8	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P21127|CD11B_HUMAN	264.2	3MI9_C	6O9L_8	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P24941|CDK2_HUMAN	264.2	3MI9_C	1FVV_C	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P42685|FRK_HUMAN	264.2	3MI9_C	1AD5_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P50613|CDK7_HUMAN	264.2	3MI9_C	6O9L_8	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P50750|CDK9_HUMAN	264.2	3MI9_C	3MI9_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P53350|PLK1_HUMAN	264.2	3MI9_C	3FC2_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P53778|MK12_HUMAN	264.2	3MI9_C	1CM8_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P54646|AAPK2_HUMAN	264.2	3MI9_C	5ISO_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P57059|SIK1_HUMAN	264.2	3MI9_C	3FE3_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q00526|CDK3_HUMAN	264.2	3MI9_C	6Q4G_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q00532|CDKL1_HUMAN	264.2	3MI9_C	4AGU_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q00534|CDK6_HUMAN	264.2	3MI9_C	1BLX_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q00535|CDK5_HUMAN	264.2	3MI9_C	1UNL_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q00536|CDK16_HUMAN	264.2	3MI9_C	3MTL_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q00537|CDK17_HUMAN	264.2	3MI9_C	3MTL_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q12851|M4K2_HUMAN	264.2	3MI9_C	5J5T_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q13554|KCC2B_HUMAN	264.2	3MI9_C	5U6Y_C	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q13555|KCC2G_HUMAN	264.2	3MI9_C	5U6Y_C	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q13557|KCC2D_HUMAN	264.2	3MI9_C	5U6Y_C	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q14004|CDK13_HUMAN	264.2	3MI9_C	5EFQ_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q14012|KCC1A_HUMAN	264.2	3MI9_C	6QP5_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q15131|CDK10_HUMAN	264.2	3MI9_C	4B99_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q16539|MK14_HUMAN	264.2	3MI9_C	4LOP_C	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q5MAI5|CDKL4_HUMAN	264.2	3MI9_C	4AGU_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q7L7X3|TAOK1_HUMAN	264.2	3MI9_C	2GCD_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q8IVH8|M4K3_HUMAN	264.2	3MI9_C	5J5T_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q8IVW4|CDKL3_HUMAN	264.2	3MI9_C	3ZDU_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q8TD08|MK15_HUMAN	264.2	3MI9_C	3OZ6_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q8TDC3|BRSK1_HUMAN	264.2	3MI9_C	4YNZ_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q92772|CDKL2_HUMAN	264.2	3MI9_C	4BBM_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q96GD4|AURKB_HUMAN	264.2	3MI9_C	4C2W_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9BYT3|STK33_HUMAN	264.2	3MI9_C	2WEL_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9H2G2|SLK_HUMAN	264.2	3MI9_C	6EIM_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9H2K8|TAOK3_HUMAN	264.2	3MI9_C	6BDN_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9H4B4|PLK3_HUMAN	264.2	3MI9_C	4B6L_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9NQU5|PAK6_HUMAN	264.2	3MI9_C	4FIE_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9NRH2|SNRK_HUMAN	264.2	3MI9_C	5YKS_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9NYV4|CDK12_HUMAN	264.2	3MI9_C	4CXA_C	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9P0L2|MARK1_HUMAN	264.2	3MI9_C	6C9D_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9UBE8|NLK_HUMAN	264.2	3MI9_C	4B99_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9UKE5|TNIK_HUMAN	264.2	3MI9_C	4U3Y_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9UL54|TAOK2_HUMAN	264.2	3MI9_C	2GCD_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9UPZ9|CILK1_HUMAN	264.2	3MI9_C	4J1R_D	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9UQ88|CD11A_HUMAN	264.2	3MI9_C	6O9L_8	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9UQB9|AURKC_HUMAN	264.2	3MI9_C	4C2W_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9UQM7|KCC2A_HUMAN	264.2	3MI9_C	5U6Y_C	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9Y4K4|M4K5_HUMAN	264.2	3MI9_C	5J5T_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9Y6R4|M3K4_HUMAN	264.2	3MI9_C	5FM3_A	3MI9_C	3MI9_A
+sp|P69726|VPR_HV1H2	sp|Q8N136|DAW1_HUMAN	264.1	1ESX_A	5NNZ_B	5JK7_F	5JK7_E
+sp|P04608|TAT_HV1H2	sp|O95819|M4K4_HUMAN	263.9	3MI9_C	4U3Y_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P31751|AKT2_HUMAN	263.6	3MI9_C	4EJN_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P53355|DAPK1_HUMAN	263.5	3MI9_C	1WMK_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P28482|MK01_HUMAN	263.3	3MI9_C	4QTE_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q96RR4|KKCC2_HUMAN	263.3	3MI9_C	5UY6_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|O60563|CCNT1_HUMAN	262.7	3MI9_C	6GZH_B	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q13164|MK07_HUMAN	262.4	3MI9_C	4IC7_D	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q8IZL9|CDK20_HUMAN	262.4	3MI9_C	6O9L_8	3MI9_C	3MI9_A
+sp|P69723|VIF_HV1H2	sp|Q13617|CUL2_HUMAN	262.0	4N9F_b	5N4W_A	4N9F_b	4JGH_D
+sp|P69723|VIF_HV1H2	sp|Q96AK3|ABC3D_HUMAN	261.5	4N9F_b	6P3X_B	6NIL_F	5HX4_A
+sp|P04608|TAT_HV1H2	sp|P27361|MK03_HUMAN	260.3	3MI9_C	4QTE_A	3MI9_C	3MI9_A
+sp|P69726|VPR_HV1H2	sp|Q9NVX2|NLE1_HUMAN	259.7	1ESX_A	4WJV_A	5JK7_F	5JK7_E
+sp|P04608|TAT_HV1H2	sp|P15735|PHKG2_HUMAN	259.4	3MI9_C	2Y7J_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9UIK4|DAPK2_HUMAN	258.5	3MI9_C	1WMK_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q13233|M3K1_HUMAN	258.1	3MI9_C	4B99_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P45984|MK09_HUMAN	258.0	3MI9_C	3TTJ_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9Y243|AKT3_HUMAN	256.9	3MI9_C	4EJN_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P11802|CDK4_HUMAN	256.8	3MI9_C	6P8E_B	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|Q13427|PPIG_HUMAN	256.4	1L6N_A	5YZG_3	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|Q13427|PPIG_HUMAN	256.4	1L6N_A	5YZG_3	2XGY_A	5KV6_A
+sp|P04608|TAT_HV1H2	sp|Q32MK0|MYLK3_HUMAN	256.0	3MI9_C	2X4F_A	3MI9_C	3MI9_A
+sp|P69723|VIF_HV1H2	sp|Q9GZX7|AICDA_HUMAN	256.0	4N9F_b	5CQD_A	6NIL_F	5HX4_A
+sp|P04608|TAT_HV1H2	sp|Q9BXA6|TSSK6_HUMAN	255.8	3MI9_C	4B99_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q6P0Q8|MAST2_HUMAN	255.4	3MI9_C	2VD5_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q15831|STK11_HUMAN	255.2	3MI9_C	2WTK_C	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|P62937|PPIA_HUMAN	255.1	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|P62937|PPIA_HUMAN	255.1	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04608|TAT_HV1H2	sp|O94921|CDK14_HUMAN	254.8	3MI9_C	3MTL_A	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|Q9UNP9|PPIE_HUMAN	254.0	1L6N_A	5YZG_1	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|Q9UNP9|PPIE_HUMAN	254.0	1L6N_A	5YZG_1	2XGY_A	5KV6_A
+sp|P04608|TAT_HV1H2	sp|Q8TD19|NEK9_HUMAN	254.0	3MI9_C	4B9D_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9UEE5|ST17A_HUMAN	254.0	3MI9_C	5J5T_A	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|Q9UQG0|POK11_HUMAN	253.8	1L6N_A	5OVN_A	1R0A_A	1R0A_A
+sp|P04608|TAT_HV1H2	sp|Q16816|PHKG1_HUMAN	253.8	3MI9_C	1PHK_A	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|P30414|NKTR_HUMAN	253.6	1L6N_A	5YZG_3	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|P30414|NKTR_HUMAN	253.6	1L6N_A	5YZG_3	2XGY_A	5KV6_A
+sp|P04585|POL_HV1H2	sp|P30405|PPIF_HUMAN	253.2	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|P30405|PPIF_HUMAN	253.2	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04585|POL_HV1H2	sp|P62495|ERF1_HUMAN	252.9	1L6N_A	1DT9_A	5DMQ_A	5DMQ_B
+sp|P04608|TAT_HV1H2	sp|Q07002|CDK18_HUMAN	252.5	3MI9_C	3MTL_A	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|P63135|POK7_HUMAN	252.3	1L6N_A	5OVN_A	1R0A_A	1R0A_A
+sp|P04608|TAT_HV1H2	sp|P49840|GSK3A_HUMAN	251.9	3MI9_C	4NM3_A	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|P63132|PO113_HUMAN	251.5	1L6N_A	1R0A_A	1R0A_A	1R0A_A
+sp|P04585|POL_HV1H2	sp|P63145|GAK24_HUMAN	251.4	1L6N_A	6SSL_I	6HWI_B	6HWI_B
+sp|P04591|GAG_HV1H2	sp|P63145|GAK24_HUMAN	251.4	1L6N_A	6SSL_I	6HWI_B	6HWI_B
+sp|P04608|TAT_HV1H2	sp|Q8N5S9|KKCC1_HUMAN	251.1	3MI9_C	6CCF_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q15759|MK11_HUMAN	251.0	3MI9_C	2YIX_A	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|P63128|POK9_HUMAN	250.2	1L6N_A	6SSK_B	6HWI_B	6HWI_B
+sp|P04591|GAG_HV1H2	sp|P63128|POK9_HUMAN	250.2	1L6N_A	6SSK_B	6HWI_B	6HWI_B
+sp|P04608|TAT_HV1H2	sp|P53779|MK10_HUMAN	250.2	3MI9_C	3TTJ_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q96QS6|KPSH2_HUMAN	250.0	3MI9_C	5U6Y_C	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9BZL6|KPCD2_HUMAN	249.0	3MI9_C	3PFQ_A	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|P62684|GA113_HUMAN	248.5	1L6N_A	6SSK_B	6HWI_B	6HWI_B
+sp|P04591|GAG_HV1H2	sp|P62684|GA113_HUMAN	248.5	1L6N_A	6SSK_B	6HWI_B	6HWI_B
+sp|P04608|TAT_HV1H2	sp|P04049|RAF1_HUMAN	248.5	3MI9_C	6NYB_A	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|P63133|POK8_HUMAN	248.0	1L6N_A	5OVN_A	1R0A_A	1R0A_A
+sp|P04608|TAT_HV1H2	sp|Q15139|KPCD1_HUMAN	247.8	3MI9_C	3PFQ_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q86YV6|MYLK4_HUMAN	247.6	3MI9_C	2X4F_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9UQ07|MOK_HUMAN	247.6	3MI9_C	4NM3_A	3MI9_C	3MI9_A
+sp|P69723|VIF_HV1H2	sp|Q9UH17|ABC3B_HUMAN	247.4	4N9F_b	6P3X_B	6NIL_F	5HX4_A
+sp|P04585|POL_HV1H2	sp|Q9BXR3|POK6_HUMAN	246.8	1L6N_A	5OVN_A	1R0A_A	1R0A_A
+sp|P69726|VPR_HV1H2	sp|P61964|WDR5_HUMAN	246.8	1ESX_A	6U8B_A	5JK7_F	5JK7_E
+sp|P04585|POL_HV1H2	sp|Q9QC07|POK18_HUMAN	246.7	1L6N_A	5OVN_A	1R0A_A	1R0A_A
+sp|P69726|VPR_HV1H2	sp|Q8TC44|POC1B_HUMAN	246.7	1ESX_A	4J87_A	5JK7_F	5JK7_E
+sp|P04608|TAT_HV1H2	sp|Q8IY84|NIM1_HUMAN	246.6	3MI9_C	4YNZ_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P49841|GSK3B_HUMAN	246.2	3MI9_C	1J1B_B	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|P63136|POK25_HUMAN	246.1	1L6N_A	4G1Q_B	4G1Q_A	4G1Q_B
+sp|P69723|VIF_HV1H2	sp|P31941|ABC3A_HUMAN	245.9	4N9F_b	5CQI_A	6NIL_F	5HX4_A
+sp|Q96RW7|HMCN1_HUMAN	sp|P04578|ENV_HV1H2	245.2	3DMK_A	6PWU_E	6MET_A	3J70_P
+sp|P04585|POL_HV1H2	sp|Q08752|PPID_HUMAN	244.8	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|Q08752|PPID_HUMAN	244.8	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04585|POL_HV1H2	sp|Q9HDB9|GAK5_HUMAN	244.4	1L6N_A	6SSL_I	6HWI_B	6HWI_B
+sp|P04591|GAG_HV1H2	sp|Q9HDB9|GAK5_HUMAN	244.4	1L6N_A	6SSL_I	6HWI_B	6HWI_B
+sp|P04608|TAT_HV1H2	sp|Q16644|MAPK3_HUMAN	243.8	3MI9_C	3FHR_A	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|P23284|PPIB_HUMAN	243.7	1L6N_A	4FRU_A	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|P23284|PPIB_HUMAN	243.7	1L6N_A	4FRU_A	2XGY_A	5KV6_A
+sp|P04608|TAT_HV1H2	sp|Q16659|MK06_HUMAN	243.3	3MI9_C	2I6L_A	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|Q9WJR5|POK19_HUMAN	243.2	1L6N_A	5OVN_A	5OVN_B	5OVN_A
+sp|P04608|TAT_HV1H2	sp|O94806|KPCD3_HUMAN	243.2	3MI9_C	3PFQ_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|O94768|ST17B_HUMAN	242.9	3MI9_C	6Y6H_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P45983|MK08_HUMAN	242.9	3MI9_C	3TTJ_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q96J92|WNK4_HUMAN	242.1	3MI9_C	5O2C_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|O14578|CTRO_HUMAN	241.3	3MI9_C	6P5M_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9BWU1|CDK19_HUMAN	241.2	3MI9_C	4F6U_A	3MI9_C	3MI9_A
+sp|P51681|CCR5_HUMAN	sp|P04578|ENV_HV1H2	240.5	5UIW_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q96Q40|CDK15_HUMAN	240.1	3MI9_C	3MTL_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|O43781|DYRK3_HUMAN	239.5	3MI9_C	5Y86_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P46734|MP2K3_HUMAN	239.5	3MI9_C	3FME_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q96PF2|TSSK2_HUMAN	238.9	3MI9_C	4B99_A	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|P10266|POK10_HUMAN	238.7	1L6N_A	4G1Q_B	5OVN_B	5OVN_A
+sp|P04608|TAT_HV1H2	sp|Q92630|DYRK2_HUMAN	237.5	3MI9_C	5LXC_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q5VST9|OBSCN_HUMAN	236.6	3MI9_C	3DMK_A	3MI9_C	3MI9_A
+sp|P69726|VPR_HV1H2	sp|Q8NBT0|POC1A_HUMAN	235.9	1ESX_A	4WJV_A	5JK7_F	5JK7_E
+sp|P04608|TAT_HV1H2	sp|O60583|CCNT2_HUMAN	235.8	3MI9_C	6GZH_B	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q15772|SPEG_HUMAN	235.6	3MI9_C	3B43_A	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|O43447|PPIH_HUMAN	235.2	1L6N_A	1MZW_A	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|O43447|PPIH_HUMAN	235.2	1L6N_A	1MZW_A	2XGY_A	5KV6_A
+sp|P04608|TAT_HV1H2	sp|P49137|MAPK2_HUMAN	235.2	3MI9_C	1KWP_A	3MI9_C	3MI9_A
+sp|P69726|VPR_HV1H2	sp|P43034|LIS1_HUMAN	235.2	1ESX_A	1VYH_D	5JK7_F	5JK7_E
+sp|P04608|TAT_HV1H2	sp|P49336|CDK8_HUMAN	234.1	3MI9_C	4F6U_A	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|P45877|PPIC_HUMAN	233.3	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|P45877|PPIC_HUMAN	233.3	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04608|TAT_HV1H2	sp|P43250|GRK6_HUMAN	232.5	3MI9_C	3NYO_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P45985|MP2K4_HUMAN	232.5	3MI9_C	3ALO_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P49759|CLK1_HUMAN	232.1	3MI9_C	6KHD_B	3MI9_C	3MI9_A
+sp|Q8NDA2|HMCN2_HUMAN	sp|P04578|ENV_HV1H2	231.3	3DMK_A	6PWU_E	6MET_A	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q86VZ2|WDR5B_HUMAN	231.2	1ESX_A	6E1Z_B	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q9BZK7|TBL1R_HUMAN	231.2	1ESX_A	4LG9_A	5JK7_F	5JK7_E
+sp|P04608|TAT_HV1H2	sp|P11309|PIM1_HUMAN	230.8	3MI9_C	5TUR_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q99640|PMYT1_HUMAN	230.8	3MI9_C	5VCZ_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9HAZ1|CLK4_HUMAN	230.5	3MI9_C	6KHE_A	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|P49792|RBP2_HUMAN	230.4	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|P49792|RBP2_HUMAN	230.4	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P69723|VIF_HV1H2	sp|Q9HC16|ABC3G_HUMAN	230.4	4N9F_b	6P3X_B	6NIL_F	5HX4_A
+sp|P04608|TAT_HV1H2	sp|P19784|CSK22_HUMAN	230.3	3MI9_C	6HMQ_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q86V86|PIM3_HUMAN	229.0	3MI9_C	5TUR_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9HBH9|MKNK2_HUMAN	228.8	3MI9_C	2AC3_A	3MI9_C	3MI9_A
+sp|P04601|NEF_HV1H2	sp|P48444|COPD_HUMAN	228.6	3TB8_A	5NZR_D	6OWT_N	6QH5_N
+sp|P04608|TAT_HV1H2	sp|P52564|MP2K6_HUMAN	228.0	3MI9_C	3FME_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P25098|ARBK1_HUMAN	227.7	3MI9_C	3V5W_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P68400|CSK21_HUMAN	227.6	3MI9_C	6SPW_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9H2X6|HIPK2_HUMAN	227.1	3MI9_C	6P5S_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P49760|CLK2_HUMAN	226.6	3MI9_C	6KHE_A	3MI9_C	3MI9_A
+sp|P69726|VPR_HV1H2	sp|O60907|TBL1X_HUMAN	225.5	1ESX_A	4LG9_A	5JK7_F	5JK7_E
+sp|P30874|SSR2_HUMAN	sp|P04578|ENV_HV1H2	225.0	4PXZ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q9NR20|DYRK4_HUMAN	224.9	3MI9_C	5LXC_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9Y463|DYR1B_HUMAN	224.2	3MI9_C	6S1H_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|O14733|MP2K7_HUMAN	223.5	3MI9_C	5Y90_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9H1R3|MYLK2_HUMAN	223.3	3MI9_C	2X4F_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q8IW41|MAPK5_HUMAN	223.0	3MI9_C	1NXK_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P31152|MK04_HUMAN	222.3	3MI9_C	2I6L_A	3MI9_C	3MI9_A
+sp|Q8WZ42|TITIN_HUMAN	sp|P04578|ENV_HV1H2	222.2	3B43_A	6PWU_E	6MET_A	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q9H422|HIPK3_HUMAN	221.0	3MI9_C	6P5S_A	3MI9_C	3MI9_A
+sp|P32246|CCR1_HUMAN	sp|P04578|ENV_HV1H2	220.6	5T1A_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9BQ87|TBL1Y_HUMAN	220.1	1ESX_A	4LG9_A	5JK7_F	5JK7_E
+sp|P04585|POL_HV1H2	sp|A0A0B4J2A2|PAL4C_HUMAN	219.2	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J2A2|PAL4C_HUMAN	219.2	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04608|TAT_HV1H2	sp|P49761|CLK3_HUMAN	219.2	3MI9_C	6KHF_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q8NEV1|CSK23_HUMAN	217.1	3MI9_C	5ONI_B	3MI9_C	3MI9_A
+sp|P41597|CCR2_HUMAN	sp|P04578|ENV_HV1H2	216.2	6GPS_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q6VAB6|KSR2_HUMAN	216.1	3MI9_C	5KKR_B	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q9BUB5|MKNK1_HUMAN	215.6	3MI9_C	2AC3_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q13627|DYR1A_HUMAN	215.5	3MI9_C	6S1H_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|O75460|ERN1_HUMAN	215.4	3MI9_C	4Z7H_B	3MI9_C	3MI9_A
+sp|Q9HCK4|ROBO2_HUMAN	sp|P04578|ENV_HV1H2	215.2	6IAA_A	6PWU_E	6MET_A	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q76MJ5|ERN2_HUMAN	215.1	3MI9_C	6HX1_A	3MI9_C	3MI9_A
+sp|P69726|VPR_HV1H2	sp|Q5JTN6|WDR38_HUMAN	214.1	1ESX_A	4J87_A	5JK7_F	5JK7_E
+sp|P04608|TAT_HV1H2	sp|Q8NE63|HIPK4_HUMAN	213.7	3MI9_C	6P5S_A	3MI9_C	3MI9_A
+sp|P30872|SSR1_HUMAN	sp|P04578|ENV_HV1H2	213.4	6OS2_A	6PWU_E	6MEO_B	3J70_P
+sp|P35348|ADA1A_HUMAN	sp|P04578|ENV_HV1H2	213.2	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q8IVT5|KSR1_HUMAN	212.7	3MI9_C	5KKR_B	3MI9_C	3MI9_A
+sp|P41145|OPRK_HUMAN	sp|P04578|ENV_HV1H2	212.5	4DJH_B	6PWU_E	6MEO_B	3J70_P
+sp|P35346|SSR5_HUMAN	sp|P04578|ENV_HV1H2	212.4	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|Q8IXY8|PPIL6_HUMAN	212.3	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|Q8IXY8|PPIL6_HUMAN	212.3	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04608|TAT_HV1H2	sp|P34947|GRK5_HUMAN	212.3	3MI9_C	4TND_A	3MI9_C	3MI9_A
+sp|P69726|VPR_HV1H2	sp|O14727|APAF_HUMAN	212.2	1ESX_A	5JUY_B	5JK7_F	5JK7_E
+sp|P04585|POL_HV1H2	sp|A0A075B759|PAL4E_HUMAN	211.9	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04585|POL_HV1H2	sp|P0DN26|PAL4F_HUMAN	211.9	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|A0A075B759|PAL4E_HUMAN	211.9	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|P0DN26|PAL4F_HUMAN	211.9	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P51679|CCR4_HUMAN	sp|P04578|ENV_HV1H2	211.9	3OE0_A	6PWU_E	6MEO_B	3J70_P
+sp|P35368|ADA1B_HUMAN	sp|P04578|ENV_HV1H2	211.7	5ZHP_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q38SD2|LRRK1_HUMAN	211.6	3MI9_C	6HLU_A	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|P0DN37|PAL4G_HUMAN	211.4	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|P0DN37|PAL4G_HUMAN	211.4	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04608|TAT_HV1H2	sp|Q13523|PRP4B_HUMAN	210.9	3MI9_C	6QX9_K	3MI9_C	3MI9_A
+sp|P04585|POL_HV1H2	sp|A0A075B767|PAL4H_HUMAN	210.8	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|A0A075B767|PAL4H_HUMAN	210.8	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P69723|VIF_HV1H2	sp|Q6NTF7|ABC3H_HUMAN	210.8	4N9F_b	5CQI_A	6NIL_F	5HX4_A
+sp|P35372|OPRM_HUMAN	sp|P04578|ENV_HV1H2	210.8	6DDE_R	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|O75909|CCNK_HUMAN	210.7	3MI9_C	6B3E_B	3MI9_C	2PK2_B
+sp|P69726|VPR_HV1H2	sp|Q969H0|FBXW7_HUMAN	210.2	1ESX_A	2OVR_B	5JK7_F	5JK7_E
+sp|P69723|VIF_HV1H2	sp|Q9Y235|ABEC2_HUMAN	209.6	4N9F_b	6P40_B	6NIL_F	5HX4_A
+sp|P51685|CCR8_HUMAN	sp|P04578|ENV_HV1H2	209.6	6GPX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|Q9Y536|PAL4A_HUMAN	209.5	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|Q9Y536|PAL4A_HUMAN	209.5	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04585|POL_HV1H2	sp|F5H284|PAL4D_HUMAN	209.1	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|F5H284|PAL4D_HUMAN	209.1	1L6N_A	1IHG_A	2XGY_A	5KV6_A
+sp|P32745|SSR3_HUMAN	sp|P04578|ENV_HV1H2	207.1	5NJ6_A	6PWU_E	6MEO_B	3J70_P
+sp|P31391|SSR4_HUMAN	sp|P04578|ENV_HV1H2	206.9	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|O43172|PRP4_HUMAN	206.4	1ESX_A	5O9Z_F	5JK7_F	5JK7_E
+sp|P41146|OPRX_HUMAN	sp|P04578|ENV_HV1H2	206.2	5DHG_B	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|O00506|STK25_HUMAN	205.9	3MI9_C	4W8D_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O14936|CSKP_HUMAN	205.9	3MI9_C	6LNM_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O14976|GAK_HUMAN	205.9	3MI9_C	3N0A_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O15021|MAST4_HUMAN	205.9	3MI9_C	2JDO_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O15075|DCLK1_HUMAN	205.9	3MI9_C	4ATU_I	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O15530|PDPK1_HUMAN	205.9	3MI9_C	5LVM_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O43293|DAPK3_HUMAN	205.9	3MI9_C	4PF4_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O60229|KALRN_HUMAN	205.9	3MI9_C	3UTO_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O60285|NUAK1_HUMAN	205.9	3MI9_C	1TKI_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O60307|MAST3_HUMAN	205.9	3MI9_C	2JDO_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O75116|ROCK2_HUMAN	205.9	3MI9_C	4WOT_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O75676|KS6A4_HUMAN	205.9	3MI9_C	4OLI_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O75716|STK16_HUMAN	205.9	3MI9_C	2BUJ_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O75914|PAK3_HUMAN	205.9	3MI9_C	4FIE_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O75962|TRIO_HUMAN	205.9	3MI9_C	6D8Z_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O94804|STK10_HUMAN	205.9	3MI9_C	6EIM_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O95382|M3K6_HUMAN	205.9	3MI9_C	5UOX_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O95835|LATS1_HUMAN	205.9	3MI9_C	5NCL_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|O96013|PAK4_HUMAN	205.9	3MI9_C	4FIE_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P00519|ABL1_HUMAN	205.9	3MI9_C	5MO4_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P04626|ERBB2_HUMAN	205.9	3MI9_C	5MY6_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P05129|KPCG_HUMAN	205.9	3MI9_C	3PFQ_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P05771|KPCB_HUMAN	205.9	3MI9_C	3PFQ_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P07332|FES_HUMAN	205.9	3MI9_C	6JMF_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P08581|MET_HUMAN	205.9	3MI9_C	6GCU_D	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P10398|ARAF_HUMAN	205.9	3MI9_C	6NYB_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P15056|BRAF_HUMAN	205.9	3MI9_C	6NYB_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P17252|KPCA_HUMAN	205.9	3MI9_C	3PFQ_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P17612|KAPCA_HUMAN	205.9	3MI9_C	5N1G_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P22612|KAPCG_HUMAN	205.9	3MI9_C	4WB7_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P22694|KAPCB_HUMAN	205.9	3MI9_C	5N1F_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P23443|KS6B1_HUMAN	205.9	3MI9_C	4L44_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P24723|KPCL_HUMAN	205.9	3MI9_C	3PFQ_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P27448|MARK3_HUMAN	205.9	3MI9_C	6C9D_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P29317|EPHA2_HUMAN	205.9	3MI9_C	3FL7_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P30530|UFO_HUMAN	205.9	3MI9_C	5U6B_D	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P31749|AKT1_HUMAN	205.9	3MI9_C	4EJN_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P32298|GRK4_HUMAN	205.9	3MI9_C	4YHJ_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P33981|TTK_HUMAN	205.9	3MI9_C	6GVJ_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P35626|ARBK2_HUMAN	205.9	3MI9_C	3V5W_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P36507|MP2K2_HUMAN	205.9	3MI9_C	3EQI_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P41279|M3K8_HUMAN	205.9	3MI9_C	5IU2_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P41743|KPCI_HUMAN	205.9	3MI9_C	5LI9_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P42679|MATK_HUMAN	205.9	3MI9_C	1K9A_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P42681|TXK_HUMAN	205.9	3MI9_C	4XI2_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P42684|ABL2_HUMAN	205.9	3MI9_C	5MO4_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P51817|PRKX_HUMAN	205.9	3MI9_C	1FOT_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P51955|NEK2_HUMAN	205.9	3MI9_C	6TM5_Q	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P51956|NEK3_HUMAN	205.9	3MI9_C	5FM3_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P51957|NEK4_HUMAN	205.9	3MI9_C	4B9D_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P57058|HUNK_HUMAN	205.9	3MI9_C	4YNZ_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q02750|MP2K1_HUMAN	205.9	3MI9_C	3EQI_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q04759|KPCT_HUMAN	205.9	3MI9_C	3PFQ_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q04912|RON_HUMAN	205.9	3MI9_C	4QT8_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q05513|KPCZ_HUMAN	205.9	3MI9_C	5LI9_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q05655|KPCD_HUMAN	205.9	3MI9_C	3PFQ_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q06418|TYRO3_HUMAN	205.9	3MI9_C	3QUP_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q07912|ACK1_HUMAN	205.9	3MI9_C	4HZS_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q09013|DMPK_HUMAN	205.9	3MI9_C	2VD5_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q12866|MERTK_HUMAN	205.9	3MI9_C	3BRB_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q13043|STK4_HUMAN	205.9	3MI9_C	6AO5_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q13131|AAPK1_HUMAN	205.9	3MI9_C	4CFH_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q13163|MP2K5_HUMAN	205.9	3MI9_C	4IC7_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q13177|PAK2_HUMAN	205.9	3MI9_C	4FIE_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q13188|STK3_HUMAN	205.9	3MI9_C	4LGD_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q13237|KGP2_HUMAN	205.9	3MI9_C	4RZ7_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q13546|RIPK1_HUMAN	205.9	3MI9_C	4NEU_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q13976|KGP1_HUMAN	205.9	3MI9_C	4RZ7_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q14680|MELK_HUMAN	205.9	3MI9_C	5TVT_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q15303|ERBB4_HUMAN	205.9	3MI9_C	2AHX_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q15349|KS6A2_HUMAN	205.9	3MI9_C	4OLI_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q15418|KS6A1_HUMAN	205.9	3MI9_C	4NIF_D	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q15569|TESK1_HUMAN	205.9	3MI9_C	4G3F_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q15746|MYLK_HUMAN	205.9	3MI9_C	3UTO_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q15835|GRK1_HUMAN	205.9	3MI9_C	3C4Z_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q16512|PKN1_HUMAN	205.9	3MI9_C	4OTH_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q16513|PKN2_HUMAN	205.9	3MI9_C	4OTH_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q16566|KCC4_HUMAN	205.9	3MI9_C	2W4O_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q56UN5|M3K19_HUMAN	205.9	3MI9_C	6J5T_I	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q59H18|TNI3K_HUMAN	205.9	3MI9_C	4YFI_C	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q6A1A2|PDPK2_HUMAN	205.9	3MI9_C	5LVM_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q6DT37|MRCKG_HUMAN	205.9	3MI9_C	4AW2_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q6P2M8|KCC1B_HUMAN	205.9	3MI9_C	6QP5_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q6P3R8|NEK5_HUMAN	205.9	3MI9_C	4B9D_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q6PHR2|ULK3_HUMAN	205.9	3MI9_C	6FDY_U	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q6XUX3|DUSTY_HUMAN	205.9	3MI9_C	5TE0_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q6ZN16|M3K15_HUMAN	205.9	3MI9_C	5ULM_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q7KZI7|MARK2_HUMAN	205.9	3MI9_C	6C9D_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q7Z2Y5|NRK_HUMAN	205.9	3MI9_C	6RA7_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q86SG6|NEK8_HUMAN	205.9	3MI9_C	5FM3_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q86UE8|TLK2_HUMAN	205.9	3MI9_C	5O0Y_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q86UX6|ST32C_HUMAN	205.9	3MI9_C	4FR4_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q86Z02|HIPK1_HUMAN	205.9	3MI9_C	6P5S_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q8IU85|KCC1D_HUMAN	205.9	3MI9_C	6T29_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q8IWQ3|BRSK2_HUMAN	205.9	3MI9_C	4YNZ_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q8IYT8|ULK2_HUMAN	205.9	3MI9_C	6QAU_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q8N165|PDK1L_HUMAN	205.9	3MI9_C	5TE0_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q8N4C8|MINK1_HUMAN	205.9	3MI9_C	4U3Y_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q8N568|DCLK2_HUMAN	205.9	3MI9_C	4ATU_I	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q8NCB2|CAMKV_HUMAN	205.9	3MI9_C	6QP5_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q8NEV4|MYO3A_HUMAN	205.9	3MI9_C	2DFS_M	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q8WTQ7|GRK7_HUMAN	205.9	3MI9_C	3C4Z_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q8WU08|ST32A_HUMAN	205.9	3MI9_C	4FR4_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q8WXR4|MYO3B_HUMAN	205.9	3MI9_C	1O1A_G	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q92918|M4K1_HUMAN	205.9	3MI9_C	6NFY_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q96BR1|SGK3_HUMAN	205.9	3MI9_C	2R5T_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q96C45|ULK4_HUMAN	205.9	3MI9_C	6U5L_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q96L34|MARK4_HUMAN	205.9	3MI9_C	6C9D_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q96LW2|KS6R_HUMAN	205.9	3MI9_C	4OTD_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q96NX5|KCC1G_HUMAN	205.9	3MI9_C	2JAM_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q96PN8|TSSK3_HUMAN	205.9	3MI9_C	3UC4_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q96PY6|NEK1_HUMAN	205.9	3MI9_C	4B9D_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q96RG2|PASK_HUMAN	205.9	3MI9_C	3DLS_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q99683|M3K5_HUMAN	205.9	3MI9_C	5ULM_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q99759|M3K3_HUMAN	205.9	3MI9_C	5WNL_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9BXA7|TSSK1_HUMAN	205.9	3MI9_C	4B99_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9BYP7|WNK3_HUMAN	205.9	3MI9_C	5O2C_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9C098|DCLK3_HUMAN	205.9	3MI9_C	5JZN_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9H0K1|SIK2_HUMAN	205.9	3MI9_C	4YNZ_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9H4A3|WNK1_HUMAN	205.9	3MI9_C	5O2C_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9HBY8|SGK2_HUMAN	205.9	3MI9_C	3HDM_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9NRM7|LATS2_HUMAN	205.9	3MI9_C	5NCL_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9NRP7|STK36_HUMAN	205.9	3MI9_C	4B99_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9NWZ3|IRAK4_HUMAN	205.9	3MI9_C	6MOM_D	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9NY57|ST32B_HUMAN	205.9	3MI9_C	4FR4_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9NYY3|PLK2_HUMAN	205.9	3MI9_C	4I6B_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9P1W9|PIM2_HUMAN	205.9	3MI9_C	4X7Q_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9P286|PAK5_HUMAN	205.9	3MI9_C	4FIE_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9P289|STK26_HUMAN	205.9	3MI9_C	4W8D_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9P2K8|E2AK4_HUMAN	205.9	3MI9_C	6N3O_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9UBS0|KS6B2_HUMAN	205.9	3MI9_C	4L44_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9UEW8|STK39_HUMAN	205.9	3MI9_C	5DBX_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9UKI8|TLK1_HUMAN	205.9	3MI9_C	5O0Y_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9Y2H1|ST38L_HUMAN	205.9	3MI9_C	6BXI_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9Y2H9|MAST1_HUMAN	205.9	3MI9_C	5U7Q_D	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9Y2K2|SIK3_HUMAN	205.9	3MI9_C	4YNZ_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9Y2U5|M3K2_HUMAN	205.9	3MI9_C	5FM3_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9Y3S1|WNK2_HUMAN	205.9	3MI9_C	5O2C_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9Y572|RIPK3_HUMAN	205.9	3MI9_C	4M69_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9Y6E0|STK24_HUMAN	205.9	3MI9_C	3A7I_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q8TAS1|UHMK1_HUMAN	205.8	3MI9_C	2VD5_A	4OGR_D	4OR5_F
+sp|P04585|POL_HV1H2	sp|Q9H2H8|PPIL3_HUMAN	205.3	1L6N_A	1XYH_A	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|Q9H2H8|PPIL3_HUMAN	205.3	1L6N_A	1XYH_A	2XGY_A	5KV6_A
+sp|P04608|TAT_HV1H2	sp|Q8TEA7|TBCK_HUMAN	205.1	3MI9_C	6JL7_A	3MI9_C	3MI9_A
+sp|Q13585|MTR1L_HUMAN	sp|P04578|ENV_HV1H2	204.9	4U15_B	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q9BQI3|E2AK1_HUMAN	203.5	3MI9_C	5FM3_A	4OGR_D	4OR5_F
+sp|P47211|GALR1_HUMAN	sp|P04578|ENV_HV1H2	203.5	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|P00540|MOS_HUMAN	203.4	3MI9_C	5WNJ_A	4OGR_D	4OR5_F
+sp|O43614|OX2R_HUMAN	sp|P04578|ENV_HV1H2	202.7	5WQC_A	6PWU_E	6MEO_B	3J70_P
+sp|O43603|GALR2_HUMAN	sp|P04578|ENV_HV1H2	202.4	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q92626|PXDN_HUMAN	202.2	6PWU_E	5MFA_A	2NY2_A	4HJJ_L
+sp|P51677|CCR3_HUMAN	sp|P04578|ENV_HV1H2	202.1	5T1A_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q8N0X2|SPG16_HUMAN	201.3	1ESX_A	4WJV_A	5JK7_F	5JK7_E
+sp|P14416|DRD2_HUMAN	sp|P04578|ENV_HV1H2	201.1	3PBL_A	6PWU_E	6MEO_B	3J70_P
+sp|P29371|NK3R_HUMAN	sp|P04578|ENV_HV1H2	201.1	6J21_A	6PWU_E	6MEO_B	3J70_P
+sp|P08588|ADRB1_HUMAN	sp|P04578|ENV_HV1H2	200.4	6KR8_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q96DI7|SNR40_HUMAN	200.3	1ESX_A	6ID1_E	5JK7_F	5JK7_E
+sp|O94779|CNTN5_HUMAN	sp|P04578|ENV_HV1H2	199.6	6IAA_A	6PWU_E	6MET_A	3J70_P
+sp|P98160|PGBM_HUMAN	sp|P04578|ENV_HV1H2	199.1	3DMK_A	6PWU_E	6MET_A	3J70_P
+sp|P41143|OPRD_HUMAN	sp|P04578|ENV_HV1H2	198.9	4EJ4_A	6PWU_E	6MEO_B	3J70_P
+sp|P32302|CXCR5_HUMAN	sp|P04578|ENV_HV1H2	198.8	3OE0_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9BVA0|KTNB1_HUMAN	198.7	1ESX_A	5LB7_A	5JK7_F	5JK7_E
+sp|P04585|POL_HV1H2	sp|Q96BP3|PPWD1_HUMAN	198.5	1L6N_A	5YZG_2	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|Q96BP3|PPWD1_HUMAN	198.5	1L6N_A	5YZG_2	2XGY_A	5KV6_A
+sp|P08912|ACM5_HUMAN	sp|P04578|ENV_HV1H2	198.2	6OL9_A	6PWU_E	6MEO_B	3J70_P
+sp|P25103|NK1R_HUMAN	sp|P04578|ENV_HV1H2	198.0	6HLP_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9GZQ6|NPFF1_HUMAN	sp|P04578|ENV_HV1H2	198.0	5WQC_A	6PWU_E	6MEO_B	3J70_P
+sp|P34981|TRFR_HUMAN	sp|P04578|ENV_HV1H2	197.6	5WQC_A	6PWU_E	6MEO_B	3J70_P
+sp|P25024|CXCR1_HUMAN	sp|P04578|ENV_HV1H2	197.4	2LNL_A	6PWU_E	6MEO_B	3J70_P
+sp|P25100|ADA1D_HUMAN	sp|P04578|ENV_HV1H2	197.3	5WIV_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|P51825|AFF1_HUMAN	197.0	3MI9_C	6R80_A	4OGR_D	4IMY_H
+sp|P25025|CXCR2_HUMAN	sp|P04578|ENV_HV1H2	196.9	3ODU_B	6PWU_E	6MEO_B	3J70_P
+sp|Q6WRI0|IGS10_HUMAN	sp|P04578|ENV_HV1H2	196.7	3DMK_A	6PWU_E	6MET_A	3J70_P
+sp|P07550|ADRB2_HUMAN	sp|P04578|ENV_HV1H2	196.3	2R4R_A	6PWU_E	6MEO_B	3J70_P
+sp|P21452|NK2R_HUMAN	sp|P04578|ENV_HV1H2	196.3	6J21_A	6PWU_E	6MEO_B	3J70_P
+sp|P49238|CX3C1_HUMAN	sp|P04578|ENV_HV1H2	196.2	5T1A_A	6PWU_E	6MEO_B	3J70_P
+sp|P08908|5HT1A_HUMAN	sp|P04578|ENV_HV1H2	196.1	5V54_B	6PWU_E	6MEO_B	3J70_P
+sp|P30556|AGTR1_HUMAN	sp|P04578|ENV_HV1H2	195.6	6OS2_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|P36894|BMR1A_HUMAN	195.5	3MI9_C	3MDY_A	3MI9_C	3MI9_A
+sp|P34969|5HT7R_HUMAN	sp|P04578|ENV_HV1H2	195.5	5NJ6_A	6PWU_E	6MEO_B	3J70_P
+sp|P51684|CCR6_HUMAN	sp|P04578|ENV_HV1H2	195.5	6WWZ_R	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|Q13356|PPIL2_HUMAN	195.0	1L6N_A	1ZKC_B	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|Q13356|PPIL2_HUMAN	195.0	1L6N_A	1ZKC_B	2XGY_A	5KV6_A
+sp|P28222|5HT1B_HUMAN	sp|P04578|ENV_HV1H2	195.0	4IAR_A	6PWU_E	6MEO_B	3J70_P
+sp|P08913|ADA2A_HUMAN	sp|P04578|ENV_HV1H2	194.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|O00238|BMR1B_HUMAN	194.5	3MI9_C	3MDY_A	3MI9_C	3MI9_A
+sp|P69726|VPR_HV1H2	sp|Q9NSI6|BRWD1_HUMAN	194.4	1ESX_A	1VYH_D	5JK7_F	5JK7_E
+sp|P25021|HRH2_HUMAN	sp|P04578|ENV_HV1H2	194.4	5X33_A	6PWU_E	6MEO_B	3J70_P
+sp|P35414|APJ_HUMAN	sp|P04578|ENV_HV1H2	194.4	5VBL_B	6PWU_E	6MEO_B	3J70_P
+sp|Q92847|GHSR_HUMAN	sp|P04578|ENV_HV1H2	194.3	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|P20309|ACM3_HUMAN	sp|P04578|ENV_HV1H2	194.0	4U14_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9UHM6|OPN4_HUMAN	sp|P04578|ENV_HV1H2	194.0	6OS0_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q15542|TAF5_HUMAN	193.9	1ESX_A	6MZM_G	5JK7_F	5JK7_E
+sp|P51686|CCR9_HUMAN	sp|P04578|ENV_HV1H2	193.9	5LWE_B	6PWU_E	6MEO_B	3J70_P
+sp|P28221|5HT1D_HUMAN	sp|P04578|ENV_HV1H2	193.5	4IAQ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|P37173|TGFR2_HUMAN	193.4	3MI9_C	5E92_A	3MI9_C	3MI9_A
+sp|P69726|VPR_HV1H2	sp|Q13685|AAMP_HUMAN	193.4	1ESX_A	4ZOX_A	5JK7_F	5JK7_E
+sp|Q99705|MCHR1_HUMAN	sp|P04578|ENV_HV1H2	193.0	6OS0_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q9NZJ5|E2AK3_HUMAN	192.9	3MI9_C	4X7K_A	3MI9_C	3MI9_A
+sp|P48039|MTR1A_HUMAN	sp|P04578|ENV_HV1H2	192.8	6ME2_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NR99|MXRA5_HUMAN	sp|P04578|ENV_HV1H2	192.4	3DMK_A	6PWU_E	6MET_A	3J70_P
+sp|P49286|MTR1B_HUMAN	sp|P04578|ENV_HV1H2	191.7	6ME6_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q96JA1|LRIG1_HUMAN	191.5	6PWU_E	4U7L_A	6NIJ_B	5WHZ_L
+sp|P04608|TAT_HV1H2	sp|Q04771|ACVR1_HUMAN	191.4	3MI9_C	5OXG_C	3MI9_C	3MI9_A
+sp|P49685|GPR15_HUMAN	sp|P04578|ENV_HV1H2	191.4	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P61073|CXCR4_HUMAN	sp|P04578|ENV_HV1H2	191.4	3ODU_B	6PWU_E	6MEO_B	3J70_P
+sp|Q9Y271|CLTR1_HUMAN	sp|P04578|ENV_HV1H2	191.0	6RZ4_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q7RTN6|STRAA_HUMAN	190.9	3MI9_C	2WTK_B	3MI9_C	3MI9_A
+sp|P50052|AGTR2_HUMAN	sp|P04578|ENV_HV1H2	190.9	5XJM_A	6PWU_E	6MEO_B	3J70_P
+sp|Q92626|PXDN_HUMAN	sp|P04585|POL_HV1H2	190.8	5MFA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q92626|PXDN_HUMAN	sp|P04591|GAG_HV1H2	190.8	5MFA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9Y5X5|NPFF2_HUMAN	sp|P04578|ENV_HV1H2	190.7	5WQC_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|Q9Y3C6|PPIL1_HUMAN	190.4	1L6N_A	2X7K_A	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|Q9Y3C6|PPIL1_HUMAN	190.4	1L6N_A	2X7K_A	2XGY_A	5KV6_A
+sp|P18089|ADA2B_HUMAN	sp|P04578|ENV_HV1H2	190.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P29274|AA2AR_HUMAN	sp|P04578|ENV_HV1H2	190.3	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q9C0K7|STRAB_HUMAN	190.2	3MI9_C	2WTK_B	4OGR_D	4OR5_F
+sp|P32238|CCKAR_HUMAN	sp|P04578|ENV_HV1H2	190.0	4GRV_A	6PWU_E	6MEO_B	3J70_P
+sp|P21728|DRD1_HUMAN	sp|P04578|ENV_HV1H2	190.0	5YC8_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|Q6UX04|CWC27_HUMAN	189.9	1L6N_A	5Z56_z	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|Q6UX04|CWC27_HUMAN	189.9	1L6N_A	5Z56_z	2XGY_A	5KV6_A
+sp|Q96RI9|TAAR9_HUMAN	sp|P04578|ENV_HV1H2	189.8	5DSG_B	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q6ZMY6|WDR88_HUMAN	188.9	1ESX_A	4ZOX_A	5JK7_F	5JK7_E
+sp|P04608|TAT_HV1H2	sp|Q96KB5|TOPK_HUMAN	188.8	3MI9_C	5J0A_B	4OGR_D	4OR5_F
+sp|P49683|PRLHR_HUMAN	sp|P04578|ENV_HV1H2	188.8	4ZJC_A	6PWU_E	6MEO_B	3J70_P
+sp|Q13639|5HT4R_HUMAN	sp|P04578|ENV_HV1H2	188.8	5DSG_B	6PWU_E	6MEO_B	3J70_P
+sp|Q96RI8|TAAR6_HUMAN	sp|P04578|ENV_HV1H2	188.7	5DSG_B	6PWU_E	6MEO_B	3J70_P
+sp|P32249|GP183_HUMAN	sp|P04578|ENV_HV1H2	188.5	6OS1_A	6PWU_E	6MEO_B	3J70_P
+sp|P08100|OPSD_HUMAN	sp|P04578|ENV_HV1H2	188.4	1U19_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q6RI45|BRWD3_HUMAN	187.7	1ESX_A	4WJV_A	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q96J01|THOC3_HUMAN	187.6	1ESX_A	6QTS_A	5JK7_F	5JK7_E
+sp|P04608|TAT_HV1H2	sp|Q9UPE1|SRPK3_HUMAN	187.3	3MI9_C	5MY8_A	3MI9_C	3MI9_A
+sp|P21918|DRD5_HUMAN	sp|P04578|ENV_HV1H2	187.3	4U14_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|O43660|PLRG1_HUMAN	187.1	1ESX_A	6FF7_D	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q8WWQ0|PHIP_HUMAN	187.1	1ESX_A	4WJV_A	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q9C0J8|WDR33_HUMAN	186.9	1ESX_A	6URO_B	5JK7_F	5JK7_E
+sp|P48146|NPBW2_HUMAN	sp|P04578|ENV_HV1H2	186.9	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q92519|TRIB2_HUMAN	186.8	3MI9_C	5CEM_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|P78396|CCNA1_HUMAN	186.1	3MI9_C	6Q6G_S	3MI9_C	2PK2_B
+sp|Q9P1P5|TAAR2_HUMAN	sp|P04578|ENV_HV1H2	186.1	4U14_A	6PWU_E	6MEO_B	3J70_P
+sp|P29275|AA2BR_HUMAN	sp|P04578|ENV_HV1H2	185.9	5NM4_A	6PWU_E	6MEO_B	3J70_P
+sp|P28223|5HT2A_HUMAN	sp|P04578|ENV_HV1H2	185.6	6A94_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8WXD9|CSKI1_HUMAN	sp|P04578|ENV_HV1H2	185.6	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q99677|LPAR4_HUMAN	sp|P04578|ENV_HV1H2	185.5	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9P0K7|RAI14_HUMAN	sp|P04578|ENV_HV1H2	185.5	1OY3_D	6PWU_E	6QFK_A	6B0N_G
+sp|P49146|NPY2R_HUMAN	sp|P04578|ENV_HV1H2	185.4	6J21_A	6PWU_E	6MEO_B	3J70_P
+sp|P46094|XCR1_HUMAN	sp|P04578|ENV_HV1H2	185.1	5T1A_A	6PWU_E	6MEO_B	3J70_P
+sp|Q969N4|TAAR8_HUMAN	sp|P04578|ENV_HV1H2	185.1	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96RW7|HMCN1_HUMAN	sp|P04585|POL_HV1H2	185.1	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|Q96RW7|HMCN1_HUMAN	sp|P04591|GAG_HV1H2	185.1	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|P69726|VPR_HV1H2	sp|P62873|GBB1_HUMAN	185.0	1ESX_A	5KDO_B	5JK7_F	5JK7_E
+sp|P35367|HRH1_HUMAN	sp|P04578|ENV_HV1H2	185.0	3RZE_A	6PWU_E	6MEO_B	3J70_P
+sp|P35462|DRD3_HUMAN	sp|P04578|ENV_HV1H2	185.0	3PBL_A	6PWU_E	6MEO_B	3J70_P
+sp|P30939|5HT1F_HUMAN	sp|P04578|ENV_HV1H2	184.7	5WIU_A	6PWU_E	6MEO_B	3J70_P
+sp|P49682|CXCR3_HUMAN	sp|P04578|ENV_HV1H2	184.6	3OE0_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|P30291|WEE1_HUMAN	184.5	3MI9_C	1X8B_A	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P37023|ACVL1_HUMAN	184.3	3MI9_C	5OXG_C	3MI9_C	3MI9_A
+sp|P08172|ACM2_HUMAN	sp|P04578|ENV_HV1H2	184.3	6U1N_R	6PWU_E	6MEO_B	3J70_P
+sp|Q8WZ42|TITIN_HUMAN	sp|P04585|POL_HV1H2	184.3	3B43_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8WZ42|TITIN_HUMAN	sp|P04591|GAG_HV1H2	184.3	3B43_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q9NXP7|GIN1_HUMAN	183.9	1L6N_A	3S3O_A	6U8Q_C	6PUY_B
+sp|P04578|ENV_HV1H2	sp|Q9Y6N7|ROBO1_HUMAN	183.8	6PWU_E	6IAA_A	2NY2_A	4HJJ_L
+sp|P11229|ACM1_HUMAN	sp|P04578|ENV_HV1H2	183.8	4U14_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|O00311|CDC7_HUMAN	183.7	3MI9_C	6YA6_A	4OGR_D	4OR5_F
+sp|O43613|OX1R_HUMAN	sp|P04578|ENV_HV1H2	183.7	4ZJC_A	6PWU_E	6MEO_B	3J70_P
+sp|P28566|5HT1E_HUMAN	sp|P04578|ENV_HV1H2	183.5	4IAR_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9H7D7|WDR26_HUMAN	182.9	1ESX_A	6MZM_G	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q2TAY7|SMU1_HUMAN	182.3	1ESX_A	6Q8F_B	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q12788|TBL3_HUMAN	182.2	1ESX_A	6RXU_U	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q9UNX4|WDR3_HUMAN	182.1	1ESX_A	5WLC_L	5JK7_F	5JK7_E
+sp|O14718|OPSX_HUMAN	sp|P04578|ENV_HV1H2	182.1	5ZHP_A	6PWU_E	6MEO_B	3J70_P
+sp|Q13304|GPR17_HUMAN	sp|P04578|ENV_HV1H2	182.1	5NJ6_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NYM4|GPR83_HUMAN	sp|P04578|ENV_HV1H2	182.0	5WQC_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|P51816|AFF2_HUMAN	181.5	3MI9_C	6KN5_A	4OGR_D	4IMY_H
+sp|P69726|VPR_HV1H2	sp|O75529|TAF5L_HUMAN	181.2	1ESX_A	6T9K_D	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|P16520|GBB3_HUMAN	180.9	1ESX_A	5KDO_B	5JK7_F	5JK7_E
+sp|P30411|BKRB2_HUMAN	sp|P04578|ENV_HV1H2	180.9	6OS1_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	tr|A0A1B0GUL7|A0A1B0GUL7_HUMAN	180.7	3MI9_C	3W8Q_A	4OGR_D	4OR5_F
+sp|P03999|OPSB_HUMAN	sp|P04578|ENV_HV1H2	180.7	2G87_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9GZS3|WDR61_HUMAN	180.3	1ESX_A	3OW8_B	5JK7_F	5JK7_E
+sp|P25106|ACKR3_HUMAN	sp|P04578|ENV_HV1H2	180.2	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|P36897|TGFR1_HUMAN	180.1	3MI9_C	3KCF_D	4OGR_D	4OR5_F
+sp|Q96RJ0|TAAR1_HUMAN	sp|P04578|ENV_HV1H2	179.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|P0C263|SBK2_HUMAN	179.4	3MI9_C	4B99_A	3MI9_C	3MI9_A
+sp|P69726|VPR_HV1H2	sp|P62879|GBB2_HUMAN	179.3	1ESX_A	5KDO_B	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q99973|TEP1_HUMAN	179.2	1ESX_A	3SFZ_A	5JK7_F	5JK7_E
+sp|Q96P65|QRFPR_HUMAN	sp|P04578|ENV_HV1H2	179.2	5WQC_A	6PWU_E	6MEO_B	3J70_P
+sp|P43146|DCC_HUMAN	sp|P04578|ENV_HV1H2	179.1	4YH7_A	6PWU_E	6MET_A	3J70_P
+sp|P04608|TAT_HV1H2	sp|P34925|RYK_HUMAN	179.0	3MI9_C	6TUA_A	4OGR_D	4OR5_F
+sp|Q96JA1|LRIG1_HUMAN	sp|P04585|POL_HV1H2	179.0	4U7L_A	1L6N_A	5T70_G	3GV2_A
+sp|Q96JA1|LRIG1_HUMAN	sp|P04591|GAG_HV1H2	179.0	4U7L_A	1L6N_A	5T70_G	3GV2_A
+sp|O75832|PSD10_HUMAN	sp|P04578|ENV_HV1H2	178.8	4NIK_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q9HB89|NMUR1_HUMAN	sp|P04578|ENV_HV1H2	178.7	5T04_A	6PWU_E	6MEO_B	3J70_P
+sp|P32247|BRS3_HUMAN	sp|P04578|ENV_HV1H2	178.5	4GRV_A	6PWU_E	6MEO_B	3J70_P
+sp|P25929|NPY1R_HUMAN	sp|P04578|ENV_HV1H2	178.3	5ZBH_A	6PWU_E	6MEO_B	3J70_P
+sp|P32248|CCR7_HUMAN	sp|P04578|ENV_HV1H2	178.3	3OE0_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|O14775|GNB5_HUMAN	178.2	1ESX_A	6N9G_D	5JK7_F	5JK7_E
+sp|Q9GZQ4|NMUR2_HUMAN	sp|P04578|ENV_HV1H2	178.1	5WQC_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9HAV0|GBB4_HUMAN	177.8	1ESX_A	5KDO_B	5JK7_F	5JK7_E
+sp|Q16581|C3AR_HUMAN	sp|P04578|ENV_HV1H2	177.7	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q8N9V3|WSDU1_HUMAN	177.6	1ESX_A	5WUK_A	5JK7_F	5JK7_E
+sp|Q9NPB9|ACKR4_HUMAN	sp|P04578|ENV_HV1H2	177.1	3OE0_A	6PWU_E	6MEO_B	3J70_P
+sp|P32239|GASR_HUMAN	sp|P04578|ENV_HV1H2	177.0	4GRV_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q9UHB7|AFF4_HUMAN	176.7	3MI9_C	6KN5_A	4OGR_D	4IMY_H
+sp|O75475|PSIP1_HUMAN	sp|P04585|POL_HV1H2	176.6	6S01_K	1L6N_A	2B4J_C	5HOT_A
+sp|P04608|TAT_HV1H2	sp|P51826|AFF3_HUMAN	176.5	3MI9_C	6KN5_A	4OGR_D	4IMY_H
+sp|P08173|ACM4_HUMAN	sp|P04578|ENV_HV1H2	176.4	6KP6_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|P78362|SRPK2_HUMAN	176.3	3MI9_C	5MY8_A	3MI9_C	3MI9_A
+sp|P04608|TAT_HV1H2	sp|Q96SB4|SRPK1_HUMAN	176.2	3MI9_C	6FAD_C	3MI9_C	3MI9_A
+sp|P69726|VPR_HV1H2	sp|Q9Y3Z3|SAMH1_HUMAN	176.2	1ESX_A	6DWD_D	4CC9_B	4CC9_C
+sp|P28335|5HT2C_HUMAN	sp|P04578|ENV_HV1H2	176.2	6A93_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8N283|ANR35_HUMAN	sp|P04578|ENV_HV1H2	176.1	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P04608|TAT_HV1H2	sp|P27037|AVR2A_HUMAN	175.7	3MI9_C	3SOC_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|P14635|CCNB1_HUMAN	175.5	3MI9_C	6GU2_B	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q9UHY1|NRBP_HUMAN	175.5	3MI9_C	2X4F_A	3MI9_C	3MI9_A
+sp|P46663|BKRB1_HUMAN	sp|P04578|ENV_HV1H2	175.5	6OS0_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q8NB16|MLKL_HUMAN	175.3	3MI9_C	4BTF_A	3MI9_C	3MI9_A
+sp|Q9UK73|FEM1B_HUMAN	sp|P04578|ENV_HV1H2	175.1	5JHQ_A	6PWU_E	6QFK_A	6B0N_G
+sp|P48145|NPBW1_HUMAN	sp|P04578|ENV_HV1H2	175.0	5NJ6_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|P63244|RACK1_HUMAN	174.9	1ESX_A	4AOW_A	5JK7_F	5JK7_E
+sp|P46091|GPR1_HUMAN	sp|P04578|ENV_HV1H2	174.9	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P18825|ADA2C_HUMAN	sp|P04578|ENV_HV1H2	174.8	6KUW_A	6PWU_E	6MEO_B	3J70_P
+sp|O00590|ACKR2_HUMAN	sp|P04578|ENV_HV1H2	174.7	6OS2_A	6PWU_E	6MEO_B	3J70_P
+sp|Q92859|NEO1_HUMAN	sp|P04578|ENV_HV1H2	174.6	6IAA_A	6PWU_E	6MET_A	3J70_P
+sp|P04000|OPSR_HUMAN	sp|P04578|ENV_HV1H2	174.6	1U19_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|Q13362|2A5G_HUMAN	174.5	1L6N_A	6NTS_B	6VOY_C	6VOY_E
+sp|P04585|POL_HV1H2	sp|Q14738|2A5D_HUMAN	174.5	1L6N_A	6NTS_B	6VOY_C	6VOY_E
+sp|P04585|POL_HV1H2	sp|Q15172|2A5A_HUMAN	174.5	1L6N_A	6NTS_B	6VOY_C	6VOY_E
+sp|P04585|POL_HV1H2	sp|Q15173|2A5B_HUMAN	174.5	1L6N_A	6NTS_B	6VOY_C	6VOY_E
+sp|P04585|POL_HV1H2	sp|Q16537|2A5E_HUMAN	174.5	1L6N_A	6NTS_B	6VOY_C	6VOY_E
+sp|O60469|DSCAM_HUMAN	sp|P04578|ENV_HV1H2	174.3	3DMK_A	6PWU_E	6MET_A	3J70_P
+sp|P04001|OPSG_HUMAN	sp|P04578|ENV_HV1H2	174.3	2G87_A	6PWU_E	6MEO_B	3J70_P
+sp|P0DN77|OPSG2_HUMAN	sp|P04578|ENV_HV1H2	174.3	1U19_A	6PWU_E	6MEO_B	3J70_P
+sp|P0DN78|OPSG3_HUMAN	sp|P04578|ENV_HV1H2	174.3	2G87_A	6PWU_E	6MEO_B	3J70_P
+sp|Q969F8|KISSR_HUMAN	sp|P04578|ENV_HV1H2	174.2	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q96GX5|GWL_HUMAN	174.1	3MI9_C	5LOH_B	4OGR_D	4OR5_F
+sp|P69726|VPR_HV1H2	sp|Q15269|PWP2_HUMAN	173.9	1ESX_A	5WLC_L	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	tr|A0A0B4J2E5|A0A0B4J2E5_HUMAN	173.9	1ESX_A	5WLC_L	5JK7_F	5JK7_E
+sp|Q8IYU2|HACE1_HUMAN	sp|P04578|ENV_HV1H2	173.8	5LP8_B	6PWU_E	6QFK_A	6B0N_G
+sp|O14974|MYPT1_HUMAN	sp|P04578|ENV_HV1H2	173.3	1S70_B	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NDA2|HMCN2_HUMAN	sp|P04585|POL_HV1H2	172.9	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8NDA2|HMCN2_HUMAN	sp|P04591|GAG_HV1H2	172.9	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|P69726|VPR_HV1H2	sp|Q9BVC4|LST8_HUMAN	172.8	1ESX_A	6BCU_E	5JK7_F	5JK7_E
+sp|P43657|LPAR6_HUMAN	sp|P04578|ENV_HV1H2	172.6	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|O76071|CIAO1_HUMAN	172.5	1ESX_A	3FM0_A	5JK7_F	5JK7_E
+sp|O14804|TAAR5_HUMAN	sp|P04578|ENV_HV1H2	172.5	5DSG_B	6PWU_E	6MEO_B	3J70_P
+sp|P13945|ADRB3_HUMAN	sp|P04578|ENV_HV1H2	172.2	6A93_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|P35606|COPB2_HUMAN	171.9	1ESX_A	5NZT_C	5JK7_F	5JK7_E
+sp|O60755|GALR3_HUMAN	sp|P04578|ENV_HV1H2	171.9	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q7Z6G8|ANS1B_HUMAN	sp|P04578|ENV_HV1H2	171.9	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P04578|ENV_HV1H2	sp|O94898|LRIG2_HUMAN	171.8	6PWU_E	3ZYJ_A	6NIJ_B	5WHZ_L
+sp|P04578|ENV_HV1H2	sp|Q96MS0|ROBO3_HUMAN	171.8	6PWU_E	6IAA_A	2NY2_A	4HJJ_L
+sp|P04608|TAT_HV1H2	sp|Q16671|AMHR2_HUMAN	171.8	3MI9_C	3G2F_A	4OGR_D	4OR5_F
+sp|P04578|ENV_HV1H2	sp|Q8WX93|PALLD_HUMAN	171.7	6PWU_E	3B43_A	6FY1_G	4HJJ_H
+sp|P04601|NEF_HV1H2	sp|Q8WXE9|STON2_HUMAN	171.7	3TB8_A	5WRL_A	6OWT_N	6QH5_N
+sp|Q969V1|MCHR2_HUMAN	sp|P04578|ENV_HV1H2	171.6	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q8NE28|STKL1_HUMAN	171.2	3MI9_C	5VDK_A	3MI9_C	3MI9_A
+sp|P04578|ENV_HV1H2	sp|Q86TC9|MYPN_HUMAN	170.9	6PWU_E	3B43_A	6FY1_G	4HJJ_H
+sp|P04585|POL_HV1H2	sp|Q8WUA2|PPIL4_HUMAN	170.8	1L6N_A	5EX1_B	2XGY_A	5KV6_A
+sp|P04591|GAG_HV1H2	sp|Q8WUA2|PPIL4_HUMAN	170.8	1L6N_A	5EX1_B	2XGY_A	5KV6_A
+sp|Q99788|CML1_HUMAN	sp|P04578|ENV_HV1H2	170.7	6D26_A	6PWU_E	6MEO_B	3J70_P
+sp|P21917|DRD4_HUMAN	sp|P04578|ENV_HV1H2	170.3	5WIU_A	6PWU_E	6MEO_B	3J70_P
+sp|A1KZ92|PXDNL_HUMAN	sp|P04585|POL_HV1H2	170.2	5MFA_A	1L6N_A	5T70_G	3GV2_A
+sp|A1KZ92|PXDNL_HUMAN	sp|P04591|GAG_HV1H2	170.2	5MFA_A	1L6N_A	5T70_G	3GV2_A
+sp|O00533|NCHL1_HUMAN	sp|P04578|ENV_HV1H2	170.0	6IAA_A	6PWU_E	6MET_A	3J70_P
+sp|Q99527|GPER1_HUMAN	sp|P04578|ENV_HV1H2	170.0	3OE0_A	6PWU_E	6MEO_B	3J70_P
+sp|P41595|5HT2B_HUMAN	sp|P04578|ENV_HV1H2	169.5	5TVN_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q86TI4|WDR86_HUMAN	169.4	1ESX_A	6G6O_B	5JK7_F	5JK7_E
+sp|P51582|P2RY4_HUMAN	sp|P04578|ENV_HV1H2	169.4	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8TC84|FANK1_HUMAN	sp|P04578|ENV_HV1H2	169.4	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P04608|TAT_HV1H2	sp|P51841|GUC2F_HUMAN	169.2	3MI9_C	4IM0_A	4OGR_D	4OR5_F
+sp|P69726|VPR_HV1H2	sp|O75083|WDR1_HUMAN	169.2	1ESX_A	1NR0_A	5JK7_F	5JK7_E
+sp|O94898|LRIG2_HUMAN	sp|P04585|POL_HV1H2	169.2	3ZYJ_A	1L6N_A	5T70_G	3GV2_A
+sp|O94898|LRIG2_HUMAN	sp|P04591|GAG_HV1H2	169.2	3ZYJ_A	1L6N_A	5T70_G	3GV2_A
+sp|P69726|VPR_HV1H2	sp|Q9Y297|FBW1A_HUMAN	169.1	1ESX_A	6TTU_T	5JK7_F	5JK7_E
+sp|O43193|MTLR_HUMAN	sp|P04578|ENV_HV1H2	169.1	5NJ6_A	6PWU_E	6MEO_B	3J70_P
+sp|P21554|CNR1_HUMAN	sp|P04578|ENV_HV1H2	169.1	6N4B_R	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|P53621|COPA_HUMAN	169.0	1ESX_A	5NZR_A	5JK7_F	5JK7_E
+sp|Q9P1P4|TAAR3_HUMAN	sp|P04578|ENV_HV1H2	168.9	4U14_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8WZ74|CTTB2_HUMAN	sp|P04578|ENV_HV1H2	168.5	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q9UPC5|GPR34_HUMAN	sp|P04578|ENV_HV1H2	168.5	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9Y6N7|ROBO1_HUMAN	sp|P04585|POL_HV1H2	168.4	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9Y6N7|ROBO1_HUMAN	sp|P04591|GAG_HV1H2	168.4	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|O00574|CXCR6_HUMAN	sp|P04578|ENV_HV1H2	168.2	5NJ6_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9HCK4|ROBO2_HUMAN	sp|P04585|POL_HV1H2	168.2	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9HCK4|ROBO2_HUMAN	sp|P04591|GAG_HV1H2	168.2	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|P69726|VPR_HV1H2	sp|Q9NRL3|STRN4_HUMAN	168.0	1ESX_A	5VH9_B	5JK7_F	5JK7_E
+sp|P28336|NMBR_HUMAN	sp|P04578|ENV_HV1H2	167.5	6IGK_A	6PWU_E	6MEO_B	3J70_P
+sp|P30550|GRPR_HUMAN	sp|P04578|ENV_HV1H2	167.5	6D26_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9UKP6|UR2R_HUMAN	sp|P04578|ENV_HV1H2	167.5	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|O15218|GP182_HUMAN	sp|P04578|ENV_HV1H2	167.3	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9UKB1|FBW1B_HUMAN	167.2	1ESX_A	6WNX_A	5JK7_F	5JK7_E
+sp|O60237|MYPT2_HUMAN	sp|P04578|ENV_HV1H2	167.2	1S70_B	6PWU_E	6QFK_A	6B0N_G
+sp|Q04721|NOTC2_HUMAN	sp|P04578|ENV_HV1H2	167.2	2OO4_A	6PWU_E	6QFK_A	6B0N_G
+sp|P04578|ENV_HV1H2	sp|Q8IWV2|CNTN4_HUMAN	167.0	6PWU_E	6IAA_A	6NIJ_B	5WHZ_L
+sp|P69726|VPR_HV1H2	sp|Q04726|TLE3_HUMAN	167.0	1ESX_A	4OM3_C	5JK7_F	5JK7_E
+sp|Q6UXM1|LRIG3_HUMAN	sp|P04585|POL_HV1H2	166.7	4U7L_A	1L6N_A	5T70_G	3GV2_A
+sp|Q6UXM1|LRIG3_HUMAN	sp|P04591|GAG_HV1H2	166.7	4U7L_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q6UXM1|LRIG3_HUMAN	166.6	6PWU_E	4U7L_A	6NIJ_B	5WHZ_L
+sp|P04608|TAT_HV1H2	sp|Q8NER5|ACV1C_HUMAN	166.6	3MI9_C	3KCF_D	4OGR_D	4OR5_F
+sp|P40616|ARL1_HUMAN	sp|P04601|NEF_HV1H2	166.4	3L82_B	3TB8_A	6CRI_L	6CRI_Z
+sp|Q9GZV1|ANKR2_HUMAN	sp|P04578|ENV_HV1H2	166.3	3UXG_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q9Y5Y3|GPR45_HUMAN	sp|P04578|ENV_HV1H2	166.3	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NSD7|RL3R1_HUMAN	sp|P04578|ENV_HV1H2	166.2	5VBL_B	6PWU_E	6MEO_B	3J70_P
+sp|Q9Y5N1|HRH3_HUMAN	sp|P04578|ENV_HV1H2	166.1	5ZHP_A	6PWU_E	6MEO_B	3J70_P
+sp|P47898|5HT5A_HUMAN	sp|P04578|ENV_HV1H2	165.5	5WIV_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|A1KZ92|PXDNL_HUMAN	165.2	6PWU_E	5MFA_A	6NIJ_B	5WHZ_L
+sp|Q9NS75|CLTR2_HUMAN	sp|P04578|ENV_HV1H2	165.0	6RZ8_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8WXE0|CSKI2_HUMAN	sp|P04578|ENV_HV1H2	164.8	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P69726|VPR_HV1H2	sp|Q04727|TLE4_HUMAN	164.7	1ESX_A	4OM3_D	5JK7_F	5JK7_E
+sp|Q86TC9|MYPN_HUMAN	sp|P04585|POL_HV1H2	164.7	3B43_A	1L6N_A	5T70_G	3GV2_A
+sp|Q86TC9|MYPN_HUMAN	sp|P04591|GAG_HV1H2	164.7	3B43_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9H3N8|HRH4_HUMAN	sp|P04578|ENV_HV1H2	164.5	5NJ6_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6W5P4|NPSR1_HUMAN	sp|P04578|ENV_HV1H2	164.3	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P37288|V1AR_HUMAN	sp|P04578|ENV_HV1H2	164.2	5NJ6_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96P66|GP101_HUMAN	sp|P04578|ENV_HV1H2	164.2	4U14_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|O60508|PRP17_HUMAN	164.1	1ESX_A	6ID1_W	5JK7_F	5JK7_E
+sp|Q7Z5N4|SDK1_HUMAN	sp|P04578|ENV_HV1H2	163.8	5K6W_B	6PWU_E	6MET_A	3J70_P
+sp|P69723|VIF_HV1H2	sp|P41238|ABEC1_HUMAN	163.7	4N9F_b	5W0R_B	6NIL_F	5HX4_A
+sp|P04578|ENV_HV1H2	sp|Q58EX2|SDK2_HUMAN	163.6	6PWU_E	5K6W_B	2NY2_A	4HJJ_L
+sp|Q96T49|PP16B_HUMAN	sp|P04578|ENV_HV1H2	163.6	1S70_B	6PWU_E	6QFK_A	6B0N_G
+sp|P04608|TAT_HV1H2	sp|Q8WWL7|CCNB3_HUMAN	163.3	3MI9_C	6Q6G_S	3MI9_C	2PK2_B
+sp|P21730|C5AR1_HUMAN	sp|P04578|ENV_HV1H2	163.1	6C1R_B	6PWU_E	6MEO_B	3J70_P
+sp|P55085|PAR2_HUMAN	sp|P04578|ENV_HV1H2	163.1	5NJ6_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q8IZU2|WDR17_HUMAN	162.9	1ESX_A	5H1J_A	5JK7_F	5JK7_E
+sp|O00254|PAR3_HUMAN	sp|P04578|ENV_HV1H2	162.7	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8WXK3|ASB13_HUMAN	sp|P04578|ENV_HV1H2	162.7	3ZKJ_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q9H1Y3|OPN3_HUMAN	sp|P04578|ENV_HV1H2	162.6	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q13705|AVR2B_HUMAN	162.5	3MI9_C	4ASX_A	4OGR_D	4OR5_F
+sp|P04578|ENV_HV1H2	sp|O15394|NCAM2_HUMAN	162.3	6PWU_E	2JLL_A	6NIJ_B	5WHZ_L
+sp|Q8WX93|PALLD_HUMAN	sp|P04585|POL_HV1H2	162.3	3B43_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8WX93|PALLD_HUMAN	sp|P04591|GAG_HV1H2	162.3	3B43_A	1L6N_A	5T70_G	3GV2_A
+sp|P30542|AA1R_HUMAN	sp|P04578|ENV_HV1H2	162.1	5UEN_B	6PWU_E	6MEO_B	3J70_P
+sp|P46093|GPR4_HUMAN	sp|P04578|ENV_HV1H2	161.9	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|P30559|OXYR_HUMAN	sp|P04578|ENV_HV1H2	161.8	6IGK_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8IYL9|PSYR_HUMAN	sp|P04578|ENV_HV1H2	161.8	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9BXC1|GP174_HUMAN	sp|P04578|ENV_HV1H2	161.7	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|P36405|ARL3_HUMAN	sp|P04601|NEF_HV1H2	161.6	1FZQ_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04608|TAT_HV1H2	sp|Q96RU8|TRIB1_HUMAN	161.6	3MI9_C	5CEM_A	4OGR_D	4OR5_F
+sp|P47901|V1BR_HUMAN	sp|P04578|ENV_HV1H2	161.6	5NJ6_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|O95067|CCNB2_HUMAN	161.5	3MI9_C	6Q6G_S	3MI9_C	2PK2_B
+sp|Q8TD84|DSCL1_HUMAN	sp|P04578|ENV_HV1H2	161.3	3DMK_A	6PWU_E	6MET_A	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q04724|TLE1_HUMAN	161.3	1ESX_A	4OM3_D	5JK7_F	5JK7_E
+sp|P32004|L1CAM_HUMAN	sp|P04578|ENV_HV1H2	161.2	6IAA_A	6PWU_E	6MET_A	3J70_P
+sp|Q8TDS4|HCAR2_HUMAN	sp|P04578|ENV_HV1H2	161.1	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|O14843|FFAR3_HUMAN	sp|P04578|ENV_HV1H2	161.0	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|P21462|FPR1_HUMAN	sp|P04578|ENV_HV1H2	160.9	6OMM_R	6PWU_E	6MEO_B	3J70_P
+sp|P25090|FPR2_HUMAN	sp|P04578|ENV_HV1H2	160.9	6OMM_R	6PWU_E	6MEO_B	3J70_P
+sp|Q9Y6X6|MYO16_HUMAN	sp|P04578|ENV_HV1H2	160.8	3JBH_H	6PWU_E	6QFK_A	6B0N_G
+sp|P46531|NOTC1_HUMAN	sp|P04578|ENV_HV1H2	160.7	3ETO_B	6PWU_E	6QFK_A	6B0N_G
+sp|P69726|VPR_HV1H2	sp|Q7Z4S6|KI21A_HUMAN	160.4	1ESX_A	5MM7_K	5JK7_F	5JK7_E
+sp|P0DMS8|AA3R_HUMAN	sp|P04578|ENV_HV1H2	160.2	5UEN_B	6PWU_E	6MEO_B	3J70_P
+sp|P49019|HCAR3_HUMAN	sp|P04578|ENV_HV1H2	160.2	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|P0DQD5|NPY42_HUMAN	sp|P04578|ENV_HV1H2	160.1	5ZBH_A	6PWU_E	6MEO_B	3J70_P
+sp|P50391|NPY4R_HUMAN	sp|P04578|ENV_HV1H2	160.1	5ZBH_A	6PWU_E	6MEO_B	3J70_P
+sp|P47900|P2RY1_HUMAN	sp|P04578|ENV_HV1H2	159.8	4XNV_A	6PWU_E	6MEO_B	3J70_P
+sp|Q06547|GABP1_HUMAN	sp|P04578|ENV_HV1H2	159.8	1AWC_B	6PWU_E	6QFK_A	6B0N_G
+sp|P69726|VPR_HV1H2	sp|Q9Y3F4|STRAP_HUMAN	159.6	1ESX_A	4WJV_A	5JK7_F	5JK7_E
+sp|O15529|GPR42_HUMAN	sp|P04578|ENV_HV1H2	159.6	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6ZW76|ANKS3_HUMAN	sp|P04578|ENV_HV1H2	159.6	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P04608|TAT_HV1H2	sp|O43187|IRAK2_HUMAN	159.5	3MI9_C	6Z1Q_B	4OGR_D	4OR5_F
+sp|Q9UM47|NOTC3_HUMAN	sp|P04578|ENV_HV1H2	159.5	5CZX_B	6PWU_E	6QFK_A	6B0N_G
+sp|Q15760|GPR19_HUMAN	sp|P04578|ENV_HV1H2	159.4	5WIV_A	6PWU_E	6MEO_B	3J70_P
+sp|P30989|NTR1_HUMAN	sp|P04578|ENV_HV1H2	159.2	6OSA_R	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|O43815|STRN_HUMAN	159.1	1ESX_A	4WJV_A	5JK7_F	5JK7_E
+sp|Q9BXA5|SUCR1_HUMAN	sp|P04578|ENV_HV1H2	159.1	6RNK_A	6PWU_E	6MEO_B	3J70_P
+sp|P25105|PTAFR_HUMAN	sp|P04578|ENV_HV1H2	159.0	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8N6U8|GP161_HUMAN	sp|P04578|ENV_HV1H2	158.8	5DSG_B	6PWU_E	6MEO_B	3J70_P
+sp|Q8TCW9|PKR1_HUMAN	sp|P04578|ENV_HV1H2	158.8	6J21_A	6PWU_E	6MEO_B	3J70_P
+sp|P84077|ARF1_HUMAN	sp|P04601|NEF_HV1H2	158.7	3L82_B	3TB8_A	6CRI_L	6CRI_Z
+sp|A0A0A6YYL3|POTEB_HUMAN	sp|P04578|ENV_HV1H2	158.7	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|H3BUK9|POTB2_HUMAN	sp|P04578|ENV_HV1H2	158.7	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P24530|EDNRB_HUMAN	sp|P04578|ENV_HV1H2	158.7	6IGK_A	6PWU_E	6MEO_B	3J70_P
+sp|P61204|ARF3_HUMAN	sp|P04601|NEF_HV1H2	158.5	3L82_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P69726|VPR_HV1H2	sp|Q13033|STRN3_HUMAN	158.5	1ESX_A	4WJV_A	5JK7_F	5JK7_E
+sp|O00270|GPR31_HUMAN	sp|P04578|ENV_HV1H2	158.5	5NJ6_A	6PWU_E	6MEO_B	3J70_P
+sp|Q86VZ1|P2RY8_HUMAN	sp|P04578|ENV_HV1H2	158.5	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9BY21|GPR87_HUMAN	sp|P04578|ENV_HV1H2	158.5	4PXZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9GZK6|OR2J1_HUMAN	sp|P04578|ENV_HV1H2	158.5	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q92527|ANKR7_HUMAN	sp|P04578|ENV_HV1H2	158.4	6CF6_B	6PWU_E	6QFK_A	6B0N_G
+sp|P25089|FPR3_HUMAN	sp|P04578|ENV_HV1H2	158.3	6OMM_R	6PWU_E	6MEO_B	3J70_P
+sp|Q96MS0|ROBO3_HUMAN	sp|P04585|POL_HV1H2	158.1	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q96MS0|ROBO3_HUMAN	sp|P04591|GAG_HV1H2	158.1	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9BZZ2|SN_HUMAN	sp|P04578|ENV_HV1H2	158.0	1E07_A	6PWU_E	6MET_A	3J70_P
+sp|Q86YR6|POTED_HUMAN	sp|P04578|ENV_HV1H2	157.7	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P04578|ENV_HV1H2	sp|P13591|NCAM1_HUMAN	157.5	6PWU_E	6IAA_A	6NIJ_B	5WHZ_L
+sp|P04608|TAT_HV1H2	sp|Q8N2I9|STK40_HUMAN	157.4	3MI9_C	5L2Q_A	3MI9_C	3MI9_A
+sp|A0JP26|POTB3_HUMAN	sp|P04578|ENV_HV1H2	157.3	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P25116|PAR1_HUMAN	sp|P04578|ENV_HV1H2	157.3	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q12860|CNTN1_HUMAN	sp|P04578|ENV_HV1H2	157.2	6IAA_A	6PWU_E	6MET_A	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q9P232|CNTN3_HUMAN	156.9	6PWU_E	6IAA_A	6NIJ_B	5WHZ_L
+sp|Q99466|NOTC4_HUMAN	sp|P04578|ENV_HV1H2	156.9	4XBM_B	6PWU_E	6QFK_A	6B0N_G
+sp|P69726|VPR_HV1H2	sp|O75037|KI21B_HUMAN	156.6	1ESX_A	5MM7_K	5JK7_F	5JK7_E
+sp|Q6S545|POTEH_HUMAN	sp|P04578|ENV_HV1H2	156.6	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q6S8J3|POTEE_HUMAN	sp|P04578|ENV_HV1H2	156.6	6FML_J	6PWU_E	6QFK_A	6B0N_G
+sp|Q6S5H5|POTEG_HUMAN	sp|P04578|ENV_HV1H2	156.5	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P69726|VPR_HV1H2	sp|Q9Y6I7|WSB1_HUMAN	156.4	1ESX_A	4J87_A	5JK7_F	5JK7_E
+sp|Q15743|OGR1_HUMAN	sp|P04578|ENV_HV1H2	156.4	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q9P121|NTRI_HUMAN	156.3	6PWU_E	5UV6_B	6FY1_G	4HJJ_H
+sp|P04608|TAT_HV1H2	sp|P30281|CCND3_HUMAN	156.3	3MI9_C	3G33_D	3MI9_C	2PK2_B
+sp|B2RU33|POTEC_HUMAN	sp|P04578|ENV_HV1H2	156.3	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NGA1|OR1M1_HUMAN	sp|P04578|ENV_HV1H2	156.2	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9BZL4|PP12C_HUMAN	sp|P04578|ENV_HV1H2	156.1	1S70_B	6PWU_E	6QFK_A	6B0N_G
+sp|P69726|VPR_HV1H2	sp|Q9UMS4|PRP19_HUMAN	156.0	1ESX_A	6J6G_q	5JK7_F	5JK7_E
+sp|A5A3E0|POTEF_HUMAN	sp|P04578|ENV_HV1H2	156.0	6FML_J	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NFJ6|PKR2_HUMAN	sp|P04578|ENV_HV1H2	155.8	5NM4_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P62820|RAB1A_HUMAN	155.7	3TB8_A	5SZH_B	6CRI_Z	6DFF_C
+sp|P04608|TAT_HV1H2	sp|Q9NSY0|NRBP2_HUMAN	155.6	3MI9_C	1X8B_A	3MI9_C	3MI9_A
+sp|Q14330|GPR18_HUMAN	sp|P04578|ENV_HV1H2	155.6	5NJ6_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q9H0R1|AP5M1_HUMAN	155.5	3TB8_A	4P6Z_M	4EN2_B	6CRI_M
+sp|P04608|TAT_HV1H2	sp|P30279|CCND2_HUMAN	155.5	3MI9_C	3G33_B	3MI9_C	2PK2_B
+sp|P69726|VPR_HV1H2	sp|Q6UXN9|WDR82_HUMAN	155.4	1ESX_A	5VH9_B	5JK7_F	5JK7_E
+sp|Q15327|ANKR1_HUMAN	sp|P04578|ENV_HV1H2	155.3	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q86SG2|ANR23_HUMAN	sp|P04578|ENV_HV1H2	155.3	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q9H0U4|RAB1B_HUMAN	sp|P04601|NEF_HV1H2	155.1	5SZH_B	3TB8_A	6CRI_L	6CRI_Z
+sp|O76001|OR2J3_HUMAN	sp|P04578|ENV_HV1H2	155.1	6OS2_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|P24385|CCND1_HUMAN	154.9	3MI9_C	2W96_A	3MI9_C	2PK2_B
+sp|O00155|GPR25_HUMAN	sp|P04578|ENV_HV1H2	154.9	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8TAK5|GABP2_HUMAN	sp|P04578|ENV_HV1H2	154.9	1AWC_B	6PWU_E	6QFK_A	6B0N_G
+sp|Q9UQ52|CNTN6_HUMAN	sp|P04578|ENV_HV1H2	154.8	6IAA_A	6PWU_E	6MET_A	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q9Y6Q2|STON1_HUMAN	154.8	3TB8_A	2PR9_A	6OWT_N	6QH5_N
+sp|P41231|P2RY2_HUMAN	sp|P04578|ENV_HV1H2	154.8	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9BZF9|UACA_HUMAN	sp|P04578|ENV_HV1H2	154.8	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P04578|ENV_HV1H2	sp|Q13449|LSAMP_HUMAN	154.6	6PWU_E	5UV6_B	6FY1_G	4HJJ_H
+sp|P04608|TAT_HV1H2	sp|Q6P3W7|SCYL2_HUMAN	154.6	3MI9_C	3VWA_B	4OGR_D	4OR5_F
+sp|Q9BXC0|HCAR1_HUMAN	sp|P04578|ENV_HV1H2	154.6	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGX1|O2T34_HUMAN	sp|P04578|ENV_HV1H2	154.5	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9Y2T5|GPR52_HUMAN	sp|P04578|ENV_HV1H2	154.5	6LI1_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P51153|RAB13_HUMAN	154.4	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|P69726|VPR_HV1H2	sp|Q04725|TLE2_HUMAN	154.4	1ESX_A	4OM3_D	5JK7_F	5JK7_E
+sp|Q8NH03|OR2T3_HUMAN	sp|P04578|ENV_HV1H2	154.4	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P98160|PGBM_HUMAN	sp|P04585|POL_HV1H2	154.2	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|P98160|PGBM_HUMAN	sp|P04591|GAG_HV1H2	154.2	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|Q92859|NEO1_HUMAN	sp|P04585|POL_HV1H2	153.9	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q92859|NEO1_HUMAN	sp|P04591|GAG_HV1H2	153.9	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q01718|ACTHR_HUMAN	sp|P04578|ENV_HV1H2	153.8	6W25_A	6PWU_E	6MEO_B	3J70_P
+sp|P21453|S1PR1_HUMAN	sp|P04578|ENV_HV1H2	153.7	3V2Y_A	6PWU_E	6MEO_B	3J70_P
+sp|O95918|OR2H2_HUMAN	sp|P04578|ENV_HV1H2	153.6	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGC6|OR4KH_HUMAN	sp|P04578|ENV_HV1H2	153.6	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q99679|GPR21_HUMAN	sp|P04578|ENV_HV1H2	153.6	6LI1_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q92823|NRCAM_HUMAN	153.4	6PWU_E	6IAA_A	6FY1_G	4HJJ_H
+sp|Q92928|RAB1C_HUMAN	sp|P04601|NEF_HV1H2	153.4	5SZH_B	3TB8_A	6CRI_L	6CRI_Z
+sp|O76002|OR2J2_HUMAN	sp|P04578|ENV_HV1H2	153.4	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|P10586|PTPRF_HUMAN	153.3	6PWU_E	6KR4_C	2NY2_A	4HJJ_L
+sp|P04578|ENV_HV1H2	sp|Q02246|CNTN2_HUMAN	153.2	6PWU_E	6IAA_A	6NIJ_B	5WHZ_L
+sp|P69726|VPR_HV1H2	sp|Q8N157|AHI1_HUMAN	153.2	1ESX_A	4J87_A	5JK7_F	5JK7_E
+sp|Q9BZJ6|GPR63_HUMAN	sp|P04578|ENV_HV1H2	153.2	6OS2_A	6PWU_E	6MEO_B	3J70_P
+sp|A6QL64|AN36A_HUMAN	sp|P04578|ENV_HV1H2	153.0	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P62330|ARF6_HUMAN	sp|P04601|NEF_HV1H2	152.9	3L82_B	3TB8_A	6CRI_L	6CRI_Z
+sp|O00421|CCRL2_HUMAN	sp|P04578|ENV_HV1H2	152.9	5T1A_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|O95428|PPN_HUMAN	152.8	6PWU_E	3VN4_A	6NIJ_B	5WHZ_L
+sp|P04578|ENV_HV1H2	sp|Q14982|OPCM_HUMAN	152.5	6PWU_E	5UV6_B	6FY1_G	4HJJ_H
+sp|P04585|POL_HV1H2	sp|A6NKG5|RTL1_HUMAN	152.5	1L6N_A	4OL8_F	4OL8_B	4OL8_F
+sp|P0CG38|POTEI_HUMAN	sp|P04578|ENV_HV1H2	152.5	6FML_J	6PWU_E	6QFK_A	6B0N_G
+sp|P0CG39|POTEJ_HUMAN	sp|P04578|ENV_HV1H2	152.5	6FML_J	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NHA8|OR1FC_HUMAN	sp|P04578|ENV_HV1H2	152.5	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q92823|NRCAM_HUMAN	sp|P04585|POL_HV1H2	152.4	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q92823|NRCAM_HUMAN	sp|P04591|GAG_HV1H2	152.4	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|P34982|OR1D2_HUMAN	sp|P04578|ENV_HV1H2	152.3	4YAY_A	6PWU_E	6MEO_B	3J70_P
+sp|Q14678|KANK1_HUMAN	sp|P04578|ENV_HV1H2	152.3	5YBE_A	6PWU_E	6QFK_A	6B0N_G
+sp|O60469|DSCAM_HUMAN	sp|P04585|POL_HV1H2	152.2	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|O60469|DSCAM_HUMAN	sp|P04591|GAG_HV1H2	152.2	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|P69726|VPR_HV1H2	sp|Q9UM11|FZR1_HUMAN	152.0	1ESX_A	4UI9_R	5JK7_F	5JK7_E
+sp|A6NI47|POTEM_HUMAN	sp|P04578|ENV_HV1H2	152.0	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q5JPF3|AN36C_HUMAN	sp|P04578|ENV_HV1H2	151.6	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P04601|NEF_HV1H2	sp|P61019|RAB2A_HUMAN	151.5	3TB8_A	2A5J_A	6CRI_Z	6DFF_C
+sp|P04608|TAT_HV1H2	sp|Q02846|GUC2D_HUMAN	151.5	3MI9_C	4IM0_A	4OGR_D	4OR5_F
+sp|A2A2Z9|AN18B_HUMAN	sp|P04578|ENV_HV1H2	151.4	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P50406|5HT6R_HUMAN	sp|P04578|ENV_HV1H2	151.3	6OL9_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6S8J7|POTEA_HUMAN	sp|P04578|ENV_HV1H2	151.3	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P04578|ENV_HV1H2	sp|Q8IVU1|IGDC3_HUMAN	151.2	6PWU_E	4PBX_A	2NY2_A	4HJJ_L
+sp|Q8NG98|OR7D4_HUMAN	sp|P04578|ENV_HV1H2	151.2	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8TF21|ANR24_HUMAN	sp|P04578|ENV_HV1H2	151.2	1OY3_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q7Z4V5|HDGR2_HUMAN	sp|P04585|POL_HV1H2	151.1	6S01_K	1L6N_A	2B4J_C	5HOT_A
+sp|Q8NGH3|OR2D3_HUMAN	sp|P04578|ENV_HV1H2	150.9	5IU7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9H1C0|LPAR5_HUMAN	sp|P04578|ENV_HV1H2	150.9	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9UBY5|LPAR3_HUMAN	sp|P04578|ENV_HV1H2	150.8	4Z35_A	6PWU_E	6MEO_B	3J70_P
+sp|O75147|OBSL1_HUMAN	sp|P04578|ENV_HV1H2	150.7	3DMK_A	6PWU_E	6MET_A	3J70_P
+sp|Q9GZK7|O11A1_HUMAN	sp|P04578|ENV_HV1H2	150.7	6IGK_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q12834|CDC20_HUMAN	150.5	1ESX_A	6Q6H_R	5JK7_F	5JK7_E
+sp|P13591|NCAM1_HUMAN	sp|P04585|POL_HV1H2	150.5	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|P13591|NCAM1_HUMAN	sp|P04591|GAG_HV1H2	150.5	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8IZ08|GP135_HUMAN	sp|P04578|ENV_HV1H2	150.5	4U14_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9Y3N9|OR2W1_HUMAN	sp|P04578|ENV_HV1H2	150.5	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P84085|ARF5_HUMAN	sp|P04601|NEF_HV1H2	150.4	3L82_B	3TB8_A	6CRI_L	6CRI_Z
+sp|Q96R47|O2A14_HUMAN	sp|P04578|ENV_HV1H2	150.4	3VW7_A	6PWU_E	6MEO_B	3J70_P
+tr|A0A4W9AIG4|A0A4W9AIG4_HUMAN	sp|P04578|ENV_HV1H2	150.4	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q4KMG0|CDON_HUMAN	sp|P04578|ENV_HV1H2	150.3	6IAA_A	6PWU_E	6MET_A	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q99570|PI3R4_HUMAN	150.2	3MI9_C	5KC2_B	3MI9_C	3MI9_A
+sp|Q96BM9|ARL8A_HUMAN	sp|P04601|NEF_HV1H2	150.0	4ILE_A	3TB8_A	6CRI_L	6CRI_Z
+sp|O14581|OR7AH_HUMAN	sp|P04578|ENV_HV1H2	150.0	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q99500|S1PR3_HUMAN	sp|P04578|ENV_HV1H2	150.0	3V2Y_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NQS5|GPR84_HUMAN	sp|P04578|ENV_HV1H2	149.9	5DSG_B	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q8WUD1|RAB2B_HUMAN	149.8	3TB8_A	2A5J_A	6CRI_Z	6DFF_C
+sp|O43194|GPR39_HUMAN	sp|P04578|ENV_HV1H2	149.7	5T04_A	6PWU_E	6MEO_B	3J70_P
+sp|Q5TZ20|OR2G6_HUMAN	sp|P04578|ENV_HV1H2	149.7	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P30518|V2R_HUMAN	sp|P04578|ENV_HV1H2	149.6	6U1N_R	6PWU_E	6MEO_B	3J70_P
+sp|Q9BXX2|AN30B_HUMAN	sp|P04578|ENV_HV1H2	149.6	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q9BWV1|BOC_HUMAN	sp|P04585|POL_HV1H2	149.4	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9BWV1|BOC_HUMAN	sp|P04591|GAG_HV1H2	149.4	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|P51149|RAB7A_HUMAN	sp|P04601|NEF_HV1H2	149.2	1VG8_B	3TB8_A	6CRI_L	6CRI_Z
+sp|Q96RA2|OR7D2_HUMAN	sp|P04578|ENV_HV1H2	149.2	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q7Z3B1|NEGR1_HUMAN	149.1	6PWU_E	6DLD_D	6FY1_G	4HJJ_H
+sp|Q15391|P2Y14_HUMAN	sp|P04578|ENV_HV1H2	149.1	4PXZ_A	6PWU_E	6MEO_B	3J70_P
+sp|P0C645|OR4E1_HUMAN	sp|P04578|ENV_HV1H2	149.0	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|P16473|TSHR_HUMAN	sp|P04578|ENV_HV1H2	149.0	4MQW_X	6PWU_E	6MEO_B	3J70_P
+sp|P43146|DCC_HUMAN	sp|P04585|POL_HV1H2	149.0	4YH7_A	1L6N_A	5T70_G	3GV2_A
+sp|P43146|DCC_HUMAN	sp|P04591|GAG_HV1H2	149.0	4YH7_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9H210|OR2D2_HUMAN	sp|P04578|ENV_HV1H2	149.0	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9P1Q5|OR1A1_HUMAN	sp|P04578|ENV_HV1H2	149.0	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q5JQS5|OR2BB_HUMAN	sp|P04578|ENV_HV1H2	148.9	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGJ9|O51T1_HUMAN	sp|P04578|ENV_HV1H2	148.9	6RZ4_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6WRI0|IGS10_HUMAN	sp|P04585|POL_HV1H2	148.8	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|Q6WRI0|IGS10_HUMAN	sp|P04591|GAG_HV1H2	148.8	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|P61018|RAB4B_HUMAN	148.7	3TB8_A	2BME_D	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|Q15286|RAB35_HUMAN	148.7	3TB8_A	6IF2_B	6CRI_Z	6DFF_C
+sp|Q5SQ80|A20A2_HUMAN	sp|P04578|ENV_HV1H2	148.7	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q5VUR7|A20A3_HUMAN	sp|P04578|ENV_HV1H2	148.7	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NGB4|OR4S1_HUMAN	sp|P04578|ENV_HV1H2	148.7	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGS0|OR1N1_HUMAN	sp|P04578|ENV_HV1H2	148.7	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NVJ2|ARL8B_HUMAN	sp|P04601|NEF_HV1H2	148.6	4ILE_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04608|TAT_HV1H2	sp|Q99986|VRK1_HUMAN	148.5	3MI9_C	2RSV_A	3MI9_C	3MI9_A
+sp|Q8NGN6|O10G7_HUMAN	sp|P04578|ENV_HV1H2	148.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NP72|RAB18_HUMAN	sp|P04601|NEF_HV1H2	148.3	6JMG_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q4UJ75|A20A4_HUMAN	sp|P04578|ENV_HV1H2	148.3	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q9H765|ASB8_HUMAN	sp|P04578|ENV_HV1H2	148.3	1OY3_D	6PWU_E	6QFK_A	6B0N_G
+tr|A0A126GWI2|A0A126GWI2_HUMAN	sp|P04578|ENV_HV1H2	148.3	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q5TYW2|A20A1_HUMAN	sp|P04578|ENV_HV1H2	148.1	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q6U736|OPN5_HUMAN	sp|P04578|ENV_HV1H2	148.1	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q6Q0C0|TRAF7_HUMAN	148.0	1ESX_A	6ID1_r	5JK7_F	5JK7_E
+sp|Q8NGN3|O10G4_HUMAN	sp|P04578|ENV_HV1H2	148.0	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|O94856|NFASC_HUMAN	147.8	6PWU_E	3P3Y_A	6FY1_G	4HJJ_H
+sp|Q7Z5N4|SDK1_HUMAN	sp|P04585|POL_HV1H2	147.8	5K6W_B	1L6N_A	5T70_G	3GV2_A
+sp|Q7Z5N4|SDK1_HUMAN	sp|P04591|GAG_HV1H2	147.8	5K6W_B	1L6N_A	5T70_G	3GV2_A
+sp|Q8NGR9|OR1N2_HUMAN	sp|P04578|ENV_HV1H2	147.8	6RZ4_A	6PWU_E	6MEO_B	3J70_P
+sp|P36404|ARL2_HUMAN	sp|P04601|NEF_HV1H2	147.7	3DOE_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q9UGF6|OR5V1_HUMAN	sp|P04578|ENV_HV1H2	147.7	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P18085|ARF4_HUMAN	sp|P04601|NEF_HV1H2	147.6	3L82_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P25101|EDNRA_HUMAN	sp|P04578|ENV_HV1H2	147.6	6IGK_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8IVF6|AN18A_HUMAN	sp|P04578|ENV_HV1H2	147.6	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q9GZK3|OR2B2_HUMAN	sp|P04578|ENV_HV1H2	147.6	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q9NRW1|RAB6B_HUMAN	147.5	3TB8_A	3BBP_B	6CRI_Z	6DFF_C
+sp|Q8N2N9|AN36B_HUMAN	sp|P04578|ENV_HV1H2	147.5	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P69726|VPR_HV1H2	sp|Q8NA23|WDR31_HUMAN	147.4	1ESX_A	4J87_A	5JK7_F	5JK7_E
+sp|P33032|MC5R_HUMAN	sp|P04578|ENV_HV1H2	147.4	6W25_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH73|OR4S2_HUMAN	sp|P04578|ENV_HV1H2	147.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96P68|OXGR1_HUMAN	sp|P04578|ENV_HV1H2	147.4	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|O60336|MABP1_HUMAN	147.3	1ESX_A	6U42_5	5JK7_F	5JK7_E
+sp|Q15077|P2RY6_HUMAN	sp|P04578|ENV_HV1H2	147.3	6RZ4_A	6PWU_E	6MEO_B	3J70_P
+sp|Q92633|LPAR1_HUMAN	sp|P04578|ENV_HV1H2	147.3	4Z35_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P62491|RB11A_HUMAN	147.2	3TB8_A	2F9M_A	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|Q15907|RB11B_HUMAN	147.2	3TB8_A	2F9M_A	6CRI_Z	6DFF_C
+sp|Q5CZ79|AN20B_HUMAN	sp|P04578|ENV_HV1H2	147.1	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P46092|CCR10_HUMAN	sp|P04578|ENV_HV1H2	147.0	3ODU_B	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P20336|RAB3A_HUMAN	146.9	3TB8_A	1ZBD_A	6CRI_Z	6DFF_C
+sp|O76099|OR7C1_HUMAN	sp|P04578|ENV_HV1H2	146.9	4YAY_A	6PWU_E	6MEO_B	3J70_P
+sp|P32245|MC4R_HUMAN	sp|P04578|ENV_HV1H2	146.9	6W25_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NR99|MXRA5_HUMAN	sp|P04585|POL_HV1H2	146.9	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9NR99|MXRA5_HUMAN	sp|P04591|GAG_HV1H2	146.9	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|P61106|RAB14_HUMAN	146.8	3TB8_A	1Z0F_A	6CRI_Z	6DFF_C
+sp|Q15771|RAB30_HUMAN	sp|P04601|NEF_HV1H2	146.8	2EW1_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q9P121|NTRI_HUMAN	sp|P04585|POL_HV1H2	146.8	5UV6_B	1L6N_A	5T70_G	3GV2_A
+sp|Q9P121|NTRI_HUMAN	sp|P04591|GAG_HV1H2	146.8	5UV6_B	1L6N_A	5T70_G	3GV2_A
+sp|A6NC57|ANR62_HUMAN	sp|P04578|ENV_HV1H2	146.7	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|O15394|NCAM2_HUMAN	sp|P04585|POL_HV1H2	146.7	2JLL_A	1L6N_A	5T70_G	3GV2_A
+sp|O15394|NCAM2_HUMAN	sp|P04591|GAG_HV1H2	146.7	2JLL_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q2VWP7|PRTG_HUMAN	146.6	6PWU_E	4YH7_A	2NY2_A	4HJJ_L
+sp|Q8NGT7|O2A12_HUMAN	sp|P04578|ENV_HV1H2	146.6	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q7Z553|MDGA2_HUMAN	146.5	6PWU_E	5OJ2_B	6FY1_G	4HJJ_H
+sp|P04601|NEF_HV1H2	sp|Q9Y587|AP4S1_HUMAN	146.5	3TB8_A	6QH7_S	6OWT_N	6QH7_S
+sp|A6NND4|O2AT4_HUMAN	sp|P04578|ENV_HV1H2	146.5	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P20340|RAB6A_HUMAN	146.4	3TB8_A	3BBP_B	6CRI_Z	6DFF_C
+sp|A4D2G3|O2A25_HUMAN	sp|P04578|ENV_HV1H2	146.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8TDU9|RL3R2_HUMAN	sp|P04578|ENV_HV1H2	146.4	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9BXX3|AN30A_HUMAN	sp|P04578|ENV_HV1H2	146.4	1OY3_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q15619|OR1C1_HUMAN	sp|P04578|ENV_HV1H2	146.3	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|O00194|RB27B_HUMAN	sp|P04601|NEF_HV1H2	146.2	2ZET_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|P20338|RAB4A_HUMAN	146.2	3TB8_A	2BME_D	6CRI_Z	6DFF_C
+sp|O76000|OR2B3_HUMAN	sp|P04578|ENV_HV1H2	146.2	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGN4|O10G9_HUMAN	sp|P04578|ENV_HV1H2	146.2	6KUX_A	6PWU_E	6MEO_B	3J70_P
+tr|A0A2R8YEH3|A0A2R8YEH3_HUMAN	sp|P04578|ENV_HV1H2	146.1	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|P54198|HIRA_HUMAN	146.0	1ESX_A	5YJE_C	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|Q8TDY8|IGDC4_HUMAN	145.9	6PWU_E	4YH7_A	6FY1_G	4HJJ_H
+sp|Q9UPX0|TUTLB_HUMAN	sp|P04578|ENV_HV1H2	145.9	6IAA_A	6PWU_E	6MET_A	3J70_P
+sp|Q8N4G2|ARL14_HUMAN	sp|P04601|NEF_HV1H2	145.9	3L82_B	3TB8_A	6CRI_L	6CRI_Z
+sp|Q15761|NPY5R_HUMAN	sp|P04578|ENV_HV1H2	145.9	6J20_A	6PWU_E	6MEO_B	3J70_P
+tr|A0A2R8YEG4|A0A2R8YEG4_HUMAN	sp|P04578|ENV_HV1H2	145.9	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P01889|HLAB_HUMAN	sp|P04585|POL_HV1H2	145.8	6AT5_A	1L6N_A	6CPL_A	2XXM_A
+sp|P01893|HLAH_HUMAN	sp|P04585|POL_HV1H2	145.8	6AT5_A	1L6N_A	6CPL_A	2XXM_A
+sp|P01903|DRA_HUMAN	sp|P04585|POL_HV1H2	145.8	6CPL_A	1L6N_A	6CPL_A	2XXM_A
+sp|P01906|DQA2_HUMAN	sp|P04585|POL_HV1H2	145.8	2P24_A	1L6N_A	6CPL_A	2XXM_A
+sp|P01909|DQA1_HUMAN	sp|P04585|POL_HV1H2	145.8	2P24_A	1L6N_A	6CPL_A	2XXM_A
+sp|P01911|DRB_HUMAN	sp|P04585|POL_HV1H2	145.8	6PY2_B	1L6N_A	6CPL_A	2XXM_A
+sp|P01920|DQB1_HUMAN	sp|P04585|POL_HV1H2	145.8	6PY2_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04439|HLAA_HUMAN	sp|P04585|POL_HV1H2	145.8	6AT5_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04440|DPB1_HUMAN	sp|P04585|POL_HV1H2	145.8	6PY2_B	1L6N_A	6CPL_A	2XXM_A
+sp|P05538|DQB2_HUMAN	sp|P04585|POL_HV1H2	145.8	6PY2_B	1L6N_A	6CPL_A	2XXM_A
+sp|P06126|CD1A_HUMAN	sp|P04585|POL_HV1H2	145.8	5J1A_A	1L6N_A	6CPL_A	2XXM_A
+sp|P10321|HLAC_HUMAN	sp|P04585|POL_HV1H2	145.8	6AT5_A	1L6N_A	6CPL_A	2XXM_A
+sp|P13747|HLAE_HUMAN	sp|P04585|POL_HV1H2	145.8	6AT5_A	1L6N_A	6CPL_A	2XXM_A
+sp|P13762|DRB4_HUMAN	sp|P04585|POL_HV1H2	145.8	6PY2_B	1L6N_A	6CPL_A	2XXM_A
+sp|P13765|DOB_HUMAN	sp|P04585|POL_HV1H2	145.8	4I0P_D	1L6N_A	6CPL_A	2XXM_A
+sp|P17693|HLAG_HUMAN	sp|P04585|POL_HV1H2	145.8	6AT5_A	1L6N_A	6CPL_A	2XXM_A
+sp|P20036|DPA1_HUMAN	sp|P04585|POL_HV1H2	145.8	2P24_A	1L6N_A	6CPL_A	2XXM_A
+sp|P25311|ZA2G_HUMAN	sp|P04585|POL_HV1H2	145.8	1ZAG_B	1L6N_A	6CPL_A	2XXM_A
+sp|P30511|HLAF_HUMAN	sp|P04585|POL_HV1H2	145.8	6AT5_A	1L6N_A	6CPL_A	2XXM_A
+sp|P55899|FCGRN_HUMAN	sp|P04585|POL_HV1H2	145.8	6FGB_A	1L6N_A	6CPL_A	2XXM_A
+sp|P79483|DRB3_HUMAN	sp|P04585|POL_HV1H2	145.8	6PY2_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q30154|DRB5_HUMAN	sp|P04585|POL_HV1H2	145.8	6PY2_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q30201|HFE_HUMAN	sp|P04585|POL_HV1H2	145.8	1A6Z_C	1L6N_A	6CPL_A	2XXM_A
+sp|Q95460|HMR1_HUMAN	sp|P04585|POL_HV1H2	145.8	6PUJ_C	1L6N_A	6CPL_A	2XXM_A
+tr|A0A0G2JMH6|A0A0G2JMH6_HUMAN	sp|P04585|POL_HV1H2	145.8	6CPL_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04601|NEF_HV1H2	sp|Q6IQ22|RAB12_HUMAN	145.7	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|Q9UL26|RB22A_HUMAN	145.7	3TB8_A	1Z0J_A	6CRI_Z	6DFF_C
+sp|Q6IEV9|OR4CB_HUMAN	sp|P04578|ENV_HV1H2	145.7	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|Q15722|LT4R1_HUMAN	sp|P04578|ENV_HV1H2	145.5	5X33_A	6PWU_E	6MEO_B	3J70_P
+sp|Q29983|MICA_HUMAN	sp|P04585|POL_HV1H2	145.4	2WY3_A	1L6N_A	6CPL_A	2XXM_A
+sp|P01889|HLAB_HUMAN	sp|P04591|GAG_HV1H2	145.4	6AT5_A	1L6N_A	6CPL_A	2XXM_A
+sp|P01893|HLAH_HUMAN	sp|P04591|GAG_HV1H2	145.4	6AT5_A	1L6N_A	6CPL_A	2XXM_A
+sp|P01903|DRA_HUMAN	sp|P04591|GAG_HV1H2	145.4	6CPL_A	1L6N_A	6CPL_A	2XXM_A
+sp|P01906|DQA2_HUMAN	sp|P04591|GAG_HV1H2	145.4	2P24_A	1L6N_A	6CPL_A	2XXM_A
+sp|P01909|DQA1_HUMAN	sp|P04591|GAG_HV1H2	145.4	2P24_A	1L6N_A	6CPL_A	2XXM_A
+sp|P01911|DRB_HUMAN	sp|P04591|GAG_HV1H2	145.4	6PY2_B	1L6N_A	6CPL_A	2XXM_A
+sp|P01920|DQB1_HUMAN	sp|P04591|GAG_HV1H2	145.4	6PY2_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04439|HLAA_HUMAN	sp|P04591|GAG_HV1H2	145.4	6AT5_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04440|DPB1_HUMAN	sp|P04591|GAG_HV1H2	145.4	6PY2_B	1L6N_A	6CPL_A	2XXM_A
+sp|P05538|DQB2_HUMAN	sp|P04591|GAG_HV1H2	145.4	6PY2_B	1L6N_A	6CPL_A	2XXM_A
+sp|P06126|CD1A_HUMAN	sp|P04591|GAG_HV1H2	145.4	5J1A_A	1L6N_A	6CPL_A	2XXM_A
+sp|P10321|HLAC_HUMAN	sp|P04591|GAG_HV1H2	145.4	6AT5_A	1L6N_A	6CPL_A	2XXM_A
+sp|P13747|HLAE_HUMAN	sp|P04591|GAG_HV1H2	145.4	6AT5_A	1L6N_A	6CPL_A	2XXM_A
+sp|P13762|DRB4_HUMAN	sp|P04591|GAG_HV1H2	145.4	6PY2_B	1L6N_A	6CPL_A	2XXM_A
+sp|P13765|DOB_HUMAN	sp|P04591|GAG_HV1H2	145.4	4I0P_D	1L6N_A	6CPL_A	2XXM_A
+sp|P17693|HLAG_HUMAN	sp|P04591|GAG_HV1H2	145.4	6AT5_A	1L6N_A	6CPL_A	2XXM_A
+sp|P20036|DPA1_HUMAN	sp|P04591|GAG_HV1H2	145.4	2P24_A	1L6N_A	6CPL_A	2XXM_A
+sp|P25311|ZA2G_HUMAN	sp|P04591|GAG_HV1H2	145.4	1ZAG_B	1L6N_A	6CPL_A	2XXM_A
+sp|P30511|HLAF_HUMAN	sp|P04591|GAG_HV1H2	145.4	6AT5_A	1L6N_A	6CPL_A	2XXM_A
+sp|P55899|FCGRN_HUMAN	sp|P04591|GAG_HV1H2	145.4	6FGB_A	1L6N_A	6CPL_A	2XXM_A
+sp|P79483|DRB3_HUMAN	sp|P04591|GAG_HV1H2	145.4	6PY2_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q29983|MICA_HUMAN	sp|P04591|GAG_HV1H2	145.4	2WY3_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q30154|DRB5_HUMAN	sp|P04591|GAG_HV1H2	145.4	6PY2_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q30201|HFE_HUMAN	sp|P04591|GAG_HV1H2	145.4	1A6Z_C	1L6N_A	6CPL_A	2XXM_A
+sp|Q95460|HMR1_HUMAN	sp|P04591|GAG_HV1H2	145.4	6PUJ_C	1L6N_A	6CPL_A	2XXM_A
+tr|A0A0G2JMH6|A0A0G2JMH6_HUMAN	sp|P04591|GAG_HV1H2	145.4	6CPL_A	1L6N_A	6CPL_A	2XXM_A
+sp|P69726|VPR_HV1H2	sp|Q6ZMW3|EMAL6_HUMAN	145.3	1ESX_A	4CI8_B	5JK7_F	5JK7_E
+sp|P04601|NEF_HV1H2	sp|Q8IZ41|RASEF_HUMAN	145.2	3TB8_A	2P5S_B	6CRI_Z	6DFF_C
+sp|P69726|VPR_HV1H2	sp|Q92636|FAN_HUMAN	145.1	1ESX_A	1T77_D	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q05048|CSTF1_HUMAN	145.0	1ESX_A	6B3X_A	5JK7_F	5JK7_E
+sp|Q8NGD0|OR4M1_HUMAN	sp|P04578|ENV_HV1H2	145.0	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9H244|P2Y12_HUMAN	sp|P04578|ENV_HV1H2	145.0	4PXZ_A	6PWU_E	6MEO_B	3J70_P
+tr|A0A126GWB0|A0A126GWB0_HUMAN	sp|P04578|ENV_HV1H2	144.9	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q96E17|RAB3C_HUMAN	144.8	3TB8_A	1ZBD_A	6CRI_Z	6DFF_C
+sp|P0C623|OR4Q2_HUMAN	sp|P04578|ENV_HV1H2	144.8	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6IF42|OR2A2_HUMAN	sp|P04578|ENV_HV1H2	144.8	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8TD84|DSCL1_HUMAN	sp|P04585|POL_HV1H2	144.8	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8TD84|DSCL1_HUMAN	sp|P04591|GAG_HV1H2	144.8	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9H560|ANR19_HUMAN	sp|P04578|ENV_HV1H2	144.8	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NGC1|O11G2_HUMAN	sp|P04578|ENV_HV1H2	144.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96I34|PP16A_HUMAN	sp|P04578|ENV_HV1H2	144.7	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P69726|VPR_HV1H2	sp|Q8TAF3|WDR48_HUMAN	144.4	1ESX_A	5K1A_F	5JK7_F	5JK7_E
+sp|O95136|S1PR2_HUMAN	sp|P04578|ENV_HV1H2	144.4	3V2Y_A	6PWU_E	6MEO_B	3J70_P
+sp|Q58EX2|SDK2_HUMAN	sp|P04585|POL_HV1H2	144.4	5K6W_B	1L6N_A	5T70_G	3GV2_A
+sp|Q58EX2|SDK2_HUMAN	sp|P04591|GAG_HV1H2	144.4	5K6W_B	1L6N_A	5T70_G	3GV2_A
+sp|P58173|OR2B6_HUMAN	sp|P04578|ENV_HV1H2	144.3	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96R48|OR2A5_HUMAN	sp|P04578|ENV_HV1H2	144.3	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P29017|CD1C_HUMAN	sp|P04585|POL_HV1H2	144.0	1CD1_A	1L6N_A	6CPL_A	2XXM_A
+sp|P29017|CD1C_HUMAN	sp|P04591|GAG_HV1H2	144.0	1CD1_A	1L6N_A	6CPL_A	2XXM_A
+sp|O76100|OR7AA_HUMAN	sp|P04578|ENV_HV1H2	143.9	4YAY_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8IXE1|OR4N5_HUMAN	sp|P04578|ENV_HV1H2	143.9	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P51148|RAB5C_HUMAN	143.8	3TB8_A	1R2Q_A	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|Q96AH8|RAB7B_HUMAN	143.7	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|P04608|TAT_HV1H2	sp|Q96S38|KS6C1_HUMAN	143.7	3MI9_C	5LI9_A	4OGR_D	4OR5_F
+sp|Q7Z553|MDGA2_HUMAN	sp|P04585|POL_HV1H2	143.7	5OJ2_B	1L6N_A	5T70_G	3GV2_A
+sp|Q7Z553|MDGA2_HUMAN	sp|P04591|GAG_HV1H2	143.7	5OJ2_B	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|Q9ULW5|RAB26_HUMAN	143.6	3TB8_A	2G6B_A	6CRI_Z	6DFF_C
+sp|O75388|GPR32_HUMAN	sp|P04578|ENV_HV1H2	143.6	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH42|OR4KD_HUMAN	sp|P04578|ENV_HV1H2	143.6	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGA0|OR7G1_HUMAN	sp|P04578|ENV_HV1H2	143.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P30953|OR1E1_HUMAN	sp|P04578|ENV_HV1H2	143.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NFP4|MDGA1_HUMAN	sp|P04578|ENV_HV1H2	143.3	5OJ2_B	6PWU_E	6MET_A	3J70_P
+sp|Q8NG84|O2AK2_HUMAN	sp|P04578|ENV_HV1H2	143.3	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q96AX2|RAB37_HUMAN	143.1	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|P06340|DOA_HUMAN	sp|P04585|POL_HV1H2	143.0	2P24_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04601|NEF_HV1H2	sp|Q9H082|RB33B_HUMAN	143.0	3TB8_A	2G77_B	6CRI_Z	6DFF_C
+sp|O94779|CNTN5_HUMAN	sp|P04585|POL_HV1H2	143.0	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|O94779|CNTN5_HUMAN	sp|P04591|GAG_HV1H2	143.0	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|P06340|DOA_HUMAN	sp|P04591|GAG_HV1H2	143.0	2P24_A	1L6N_A	6CPL_A	2XXM_A
+tr|A0A2R8YEV3|A0A2R8YEV3_HUMAN	sp|P04578|ENV_HV1H2	143.0	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|O95716|RAB3D_HUMAN	142.9	3TB8_A	1ZBD_A	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|P53680|AP2S1_HUMAN	142.9	3TB8_A	6QH7_S	6OWT_N	6QH7_S
+sp|P69726|VPR_HV1H2	sp|Q8NI36|WDR36_HUMAN	142.9	1ESX_A	5ICA_C	5JK7_F	5JK7_E
+sp|Q8NGP9|O5AR1_HUMAN	sp|P04578|ENV_HV1H2	142.9	4YAY_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGT9|OR2A1_HUMAN	sp|P04578|ENV_HV1H2	142.9	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|P23468|PTPRD_HUMAN	142.8	6PWU_E	6KR4_C	6NIJ_B	5WHZ_L
+sp|P04578|ENV_HV1H2	sp|Q13332|PTPRS_HUMAN	142.8	6PWU_E	2FH7_A	6NIJ_B	5WHZ_L
+sp|Q8NH37|OR4C3_HUMAN	sp|P04578|ENV_HV1H2	142.8	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96R72|OR4K3_HUMAN	sp|P04578|ENV_HV1H2	142.8	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q92930|RAB8B_HUMAN	sp|P04601|NEF_HV1H2	142.7	5SZI_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P69726|VPR_HV1H2	sp|Q676U5|A16L1_HUMAN	142.7	1ESX_A	5NPW_B	5JK7_F	5JK7_E
+sp|Q8NH80|O10D3_HUMAN	sp|P04578|ENV_HV1H2	142.6	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96RI0|PAR4_HUMAN	sp|P04578|ENV_HV1H2	142.6	5NJ6_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q9H0T7|RAB17_HUMAN	142.5	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|P04578|ENV_HV1H2	sp|Q8N3J6|CADM2_HUMAN	142.4	6PWU_E	5ZO2_C	6NIJ_B	5WHZ_L
+sp|P49703|ARL4D_HUMAN	sp|P04601|NEF_HV1H2	142.4	4M9Q_B	3TB8_A	6CRI_L	6CRI_Z
+sp|Q8NG99|OR7G2_HUMAN	sp|P04578|ENV_HV1H2	142.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NHA6|OR2W6_HUMAN	sp|P04578|ENV_HV1H2	142.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P41968|MC3R_HUMAN	sp|P04578|ENV_HV1H2	142.3	6W25_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGE2|O2AP1_HUMAN	sp|P04578|ENV_HV1H2	142.2	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P01112|RASH_HUMAN	142.1	3TB8_A	6BOF_A	6CRI_Z	6DFF_C
+sp|Q13636|RAB31_HUMAN	sp|P04601|NEF_HV1H2	142.1	2FG5_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q9NQN1|OR2S1_HUMAN	sp|P04578|ENV_HV1H2	142.1	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P20337|RAB3B_HUMAN	141.9	3TB8_A	1ZBD_A	6CRI_Z	6DFF_C
+sp|Q8NH00|OR2T4_HUMAN	sp|P04578|ENV_HV1H2	141.9	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P47884|OR1D4_HUMAN	sp|P04578|ENV_HV1H2	141.7	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGT0|O13C9_HUMAN	sp|P04578|ENV_HV1H2	141.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q29980|MICB_HUMAN	sp|P04585|POL_HV1H2	141.6	2WY3_A	1L6N_A	6CPL_A	2XXM_A
+sp|P40617|ARL4A_HUMAN	sp|P04601|NEF_HV1H2	141.6	3L82_B	3TB8_A	6CRI_L	6CRI_Z
+sp|Q29980|MICB_HUMAN	sp|P04591|GAG_HV1H2	141.6	2WY3_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q8NGD4|OR4K1_HUMAN	sp|P04578|ENV_HV1H2	141.6	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9P232|CNTN3_HUMAN	sp|P04585|POL_HV1H2	141.6	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9P232|CNTN3_HUMAN	sp|P04591|GAG_HV1H2	141.6	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|P69726|VPR_HV1H2	sp|Q13347|EIF3I_HUMAN	141.5	1ESX_A	5K0Y_T	5JK7_F	5JK7_E
+sp|Q8NGS9|O13C2_HUMAN	sp|P04578|ENV_HV1H2	141.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGT1|OR2K2_HUMAN	sp|P04578|ENV_HV1H2	141.5	5TGZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH41|OR4KF_HUMAN	sp|P04578|ENV_HV1H2	141.5	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NZP2|OR6C2_HUMAN	sp|P04578|ENV_HV1H2	141.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q8N441|FGRL1_HUMAN	141.3	6PWU_E	1RY7_B	6FY1_G	4HJJ_H
+sp|P69726|VPR_HV1H2	sp|Q8TED0|UTP15_HUMAN	141.3	1ESX_A	5WLC_L	5JK7_F	5JK7_E
+sp|A6NCV1|O6C74_HUMAN	sp|P04578|ENV_HV1H2	141.3	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q05BV3|EMAL5_HUMAN	141.1	1ESX_A	4CI8_B	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q8NHV4|NEDD1_HUMAN	141.1	1ESX_A	4WJV_A	5JK7_F	5JK7_E
+sp|Q8NGR5|OR1L4_HUMAN	sp|P04578|ENV_HV1H2	141.0	4IAR_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NZP0|OR6C3_HUMAN	sp|P04578|ENV_HV1H2	141.0	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6IFN5|O7E24_HUMAN	sp|P04578|ENV_HV1H2	140.9	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGE1|OR6C4_HUMAN	sp|P04578|ENV_HV1H2	140.9	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q9BWV1|BOC_HUMAN	140.8	6PWU_E	6IAA_A	6NIJ_B	5WHZ_L
+sp|Q8NH94|OR1L1_HUMAN	sp|P04578|ENV_HV1H2	140.8	4YAY_A	6PWU_E	6MEO_B	3J70_P
+sp|A6ND48|O14I1_HUMAN	sp|P04578|ENV_HV1H2	140.7	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P01111|RASN_HUMAN	140.6	3TB8_A	6BOF_A	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|P59190|RAB15_HUMAN	140.6	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|Q96RB7|OR5MB_HUMAN	sp|P04578|ENV_HV1H2	140.6	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P61020|RAB5B_HUMAN	140.5	3TB8_A	1R2Q_A	6CRI_Z	6DFF_C
+sp|P06731|CEAM5_HUMAN	sp|P04578|ENV_HV1H2	140.4	1E07_A	6PWU_E	6MET_A	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9Y4P3|TBL2_HUMAN	140.4	1ESX_A	2PBI_D	5JK7_F	5JK7_E
+sp|Q15615|OR4D1_HUMAN	sp|P04578|ENV_HV1H2	140.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P36406|TRI23_HUMAN	sp|P04601|NEF_HV1H2	140.3	4M9Q_B	3TB8_A	6CRI_L	6CRI_Z
+sp|Q8NH43|OR4L1_HUMAN	sp|P04578|ENV_HV1H2	140.3	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96RD9|FCRL5_HUMAN	sp|P04578|ENV_HV1H2	140.2	3DMK_A	6PWU_E	6MET_A	3J70_P
+sp|Q8NGD2|OR4K2_HUMAN	sp|P04578|ENV_HV1H2	140.2	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGN5|O10G8_HUMAN	sp|P04578|ENV_HV1H2	140.2	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8WZ94|OR5P3_HUMAN	sp|P04578|ENV_HV1H2	140.2	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9HC97|GPR35_HUMAN	sp|P04578|ENV_HV1H2	140.2	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8N628|OR2C3_HUMAN	sp|P04578|ENV_HV1H2	140.1	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q99463|NPY6R_HUMAN	sp|P04578|ENV_HV1H2	140.1	5ZBH_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGZ0|O2AJ1_HUMAN	sp|P04578|ENV_HV1H2	140.0	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8WWH4|ASZ1_HUMAN	sp|P04578|ENV_HV1H2	140.0	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P04601|NEF_HV1H2	sp|P61026|RAB10_HUMAN	139.9	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|P69726|VPR_HV1H2	sp|Q8TEQ6|GEMI5_HUMAN	139.9	1ESX_A	5TEE_A	5JK7_F	5JK7_E
+sp|P0DN82|O12D1_HUMAN	sp|P04578|ENV_HV1H2	139.9	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q02246|CNTN2_HUMAN	sp|P04585|POL_HV1H2	139.9	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q02246|CNTN2_HUMAN	sp|P04591|GAG_HV1H2	139.9	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8NGB9|OR4F6_HUMAN	sp|P04578|ENV_HV1H2	139.9	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96KC2|ARL5B_HUMAN	sp|P04601|NEF_HV1H2	139.8	1ZJ6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P23945|FSHR_HUMAN	sp|P04578|ENV_HV1H2	139.8	4AY9_Y	6PWU_E	6MEO_B	3J70_P
+sp|P58170|OR1D5_HUMAN	sp|P04578|ENV_HV1H2	139.8	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q96RU7|TRIB3_HUMAN	139.7	3MI9_C	5CEM_A	4OGR_D	4OR5_F
+sp|O00398|P2Y10_HUMAN	sp|P04578|ENV_HV1H2	139.7	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGS2|OR1J2_HUMAN	sp|P04578|ENV_HV1H2	139.7	4YAY_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P61586|RHOA_HUMAN	139.6	3TB8_A	4MIT_D	6CRI_Z	6DFF_C
+sp|Q8NGS7|O13C8_HUMAN	sp|P04578|ENV_HV1H2	139.6	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q5JT25|RAB41_HUMAN	139.5	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|O60412|OR7C2_HUMAN	sp|P04578|ENV_HV1H2	139.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGS3|OR1J1_HUMAN	sp|P04578|ENV_HV1H2	139.5	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGZ4|OR2G3_HUMAN	sp|P04578|ENV_HV1H2	139.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NHC6|O14L1_HUMAN	sp|P04578|ENV_HV1H2	139.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q7Z6P3|RAB44_HUMAN	139.4	3TB8_A	5SZH_B	6CRI_Z	6DFF_C
+sp|Q8IWV2|CNTN4_HUMAN	sp|P04585|POL_HV1H2	139.3	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8IWV2|CNTN4_HUMAN	sp|P04591|GAG_HV1H2	139.3	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|P20339|RAB5A_HUMAN	139.1	3TB8_A	1R2Q_A	6CRI_Z	6DFF_C
+sp|Q8IVU1|IGDC3_HUMAN	sp|P04585|POL_HV1H2	139.1	4PBX_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8IVU1|IGDC3_HUMAN	sp|P04591|GAG_HV1H2	139.1	4PBX_A	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|Q9UL25|RAB21_HUMAN	139.0	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|A6NF89|OR6C6_HUMAN	sp|P04578|ENV_HV1H2	138.9	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGD5|OR4KE_HUMAN	sp|P04578|ENV_HV1H2	138.9	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q14088|RB33A_HUMAN	138.8	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|Q8N4Z0|RAB42_HUMAN	138.8	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|Q15622|OR7A5_HUMAN	sp|P04578|ENV_HV1H2	138.8	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6IF00|OR2T2_HUMAN	sp|P04578|ENV_HV1H2	138.8	6OS2_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGL6|O4A15_HUMAN	sp|P04578|ENV_HV1H2	138.8	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGS1|OR1J4_HUMAN	sp|P04578|ENV_HV1H2	138.8	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NHB7|OR5K1_HUMAN	sp|P04578|ENV_HV1H2	138.8	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96R69|OR4F4_HUMAN	sp|P04578|ENV_HV1H2	138.8	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q96DA2|RB39B_HUMAN	138.7	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|Q8NGD3|OR4K5_HUMAN	sp|P04578|ENV_HV1H2	138.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P01116|RASK_HUMAN	138.6	3TB8_A	6BOF_A	6CRI_Z	6DFF_C
+sp|Q8NGR2|OR1L6_HUMAN	sp|P04578|ENV_HV1H2	138.6	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9NYS7|WSB2_HUMAN	138.5	1ESX_A	4J87_A	5JK7_F	5JK7_E
+sp|A6NIJ9|O6C70_HUMAN	sp|P04578|ENV_HV1H2	138.5	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|O43869|OR2T1_HUMAN	sp|P04578|ENV_HV1H2	138.5	5YC8_A	6PWU_E	6MEO_B	3J70_P
+sp|P0C628|O5AC1_HUMAN	sp|P04578|ENV_HV1H2	138.5	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P47881|OR3A1_HUMAN	sp|P04578|ENV_HV1H2	138.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH02|O2T29_HUMAN	sp|P04578|ENV_HV1H2	138.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9HBX9|RXFP1_HUMAN	sp|P04578|ENV_HV1H2	138.5	4MQW_X	6PWU_E	6MEO_B	3J70_P
+sp|Q9UGF5|O14J1_HUMAN	sp|P04578|ENV_HV1H2	138.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q13112|CAF1B_HUMAN	138.4	1ESX_A	5XYI_g	5JK7_F	5JK7_E
+sp|Q6IEZ7|OR2T5_HUMAN	sp|P04578|ENV_HV1H2	138.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGY5|OR6N1_HUMAN	sp|P04578|ENV_HV1H2	138.4	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGG8|OR8B3_HUMAN	sp|P04578|ENV_HV1H2	138.3	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|A3KFT3|OR2M5_HUMAN	sp|P04578|ENV_HV1H2	138.1	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|O60733|PLPL9_HUMAN	sp|P04578|ENV_HV1H2	138.1	6AUN_A	6PWU_E	6QFK_A	6B0N_G
+sp|O95371|OR2C1_HUMAN	sp|P04578|ENV_HV1H2	138.0	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGE8|OR4D9_HUMAN	sp|P04578|ENV_HV1H2	138.0	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|A6NJZ3|O6C65_HUMAN	sp|P04578|ENV_HV1H2	137.9	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGC2|OR4E2_HUMAN	sp|P04578|ENV_HV1H2	137.9	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH21|OR4F5_HUMAN	sp|P04578|ENV_HV1H2	137.9	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9GZK4|OR2H1_HUMAN	sp|P04578|ENV_HV1H2	137.9	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|O60431|OR1I1_HUMAN	sp|P04578|ENV_HV1H2	137.8	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGA8|O4F17_HUMAN	sp|P04578|ENV_HV1H2	137.8	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGD1|OR4N2_HUMAN	sp|P04578|ENV_HV1H2	137.8	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGN7|O10D4_HUMAN	sp|P04578|ENV_HV1H2	137.8	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|O94967|WDR47_HUMAN	137.7	1ESX_A	4WJV_A	5JK7_F	5JK7_E
+sp|P04601|NEF_HV1H2	sp|P51159|RB27A_HUMAN	137.6	3TB8_A	3BC1_A	6CRI_Z	6DFF_C
+sp|P25963|IKBA_HUMAN	sp|P04578|ENV_HV1H2	137.6	1IKN_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NGS8|O13C5_HUMAN	sp|P04578|ENV_HV1H2	137.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q99678|GPR20_HUMAN	sp|P04578|ENV_HV1H2	137.5	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGA2|OR7A2_HUMAN	sp|P04578|ENV_HV1H2	137.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH07|O11H2_HUMAN	sp|P04578|ENV_HV1H2	137.3	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|A6NHG9|O5H14_HUMAN	sp|P04578|ENV_HV1H2	137.2	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|A6NKK0|OR5H1_HUMAN	sp|P04578|ENV_HV1H2	137.2	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NG80|OR2L5_HUMAN	sp|P04578|ENV_HV1H2	137.2	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGV0|OR2Y1_HUMAN	sp|P04578|ENV_HV1H2	137.2	5UEN_B	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH92|OR1S1_HUMAN	sp|P04578|ENV_HV1H2	137.2	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NXR5|ANR10_HUMAN	sp|P04578|ENV_HV1H2	137.2	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P69726|VPR_HV1H2	sp|O43379|WDR62_HUMAN	137.1	1ESX_A	6U42_5	5JK7_F	5JK7_E
+sp|Q6DWJ6|GP139_HUMAN	sp|P04578|ENV_HV1H2	137.1	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NG83|OR2M3_HUMAN	sp|P04578|ENV_HV1H2	137.1	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGZ9|O2T10_HUMAN	sp|P04578|ENV_HV1H2	137.1	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH74|O10A6_HUMAN	sp|P04578|ENV_HV1H2	137.1	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH93|OR1L3_HUMAN	sp|P04578|ENV_HV1H2	137.1	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96R27|OR2M4_HUMAN	sp|P04578|ENV_HV1H2	137.1	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q9H6Q3|SLAP2_HUMAN	137.0	3TB8_A	4M4Z_A	4U5W_C	4U5W_B
+sp|Q9UPX0|TUTLB_HUMAN	sp|P04585|POL_HV1H2	137.0	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9UPX0|TUTLB_HUMAN	sp|P04591|GAG_HV1H2	137.0	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|P61006|RAB8A_HUMAN	136.9	3TB8_A	5SZI_A	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|Q14964|RB39A_HUMAN	136.9	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|Q96PC3|AP1S3_HUMAN	136.9	3TB8_A	6CRI_S	6CRI_Z	6CRI_S
+sp|P04601|NEF_HV1H2	sp|P57735|RAB25_HUMAN	136.8	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|Q8NG81|OR2M7_HUMAN	sp|P04578|ENV_HV1H2	136.8	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P20273|CD22_HUMAN	sp|P04578|ENV_HV1H2	136.7	6GRQ_A	6PWU_E	6MET_A	3J70_P
+sp|Q9H0F7|ARL6_HUMAN	sp|P04601|NEF_HV1H2	136.7	6VBV_3	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q9NP90|RAB9B_HUMAN	136.7	3TB8_A	1S8F_B	6CRI_Z	6DFF_C
+sp|A6NL08|O6C75_HUMAN	sp|P04578|ENV_HV1H2	136.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9UPS8|ANR26_HUMAN	sp|P04578|ENV_HV1H2	136.7	1OY3_D	6PWU_E	6QFK_A	6B0N_G
+sp|P04578|ENV_HV1H2	sp|Q8NFZ8|CADM4_HUMAN	136.6	6PWU_E	5ZO2_C	6NIJ_B	5WHZ_L
+sp|P69726|VPR_HV1H2	sp|Q9H2Y7|ZN106_HUMAN	136.6	1ESX_A	6M90_A	5JK7_F	5JK7_E
+sp|Q9H209|O10A4_HUMAN	sp|P04578|ENV_HV1H2	136.6	5IU7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9H2C8|O51V1_HUMAN	sp|P04578|ENV_HV1H2	136.6	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q8N6G6|ATL1_HUMAN	136.5	6PWU_E	3VN4_A	6FY1_G	4HJJ_H
+sp|Q8NGQ4|O10Q1_HUMAN	sp|P04578|ENV_HV1H2	136.5	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9Y566|SHAN1_HUMAN	sp|P04578|ENV_HV1H2	136.5	5G4X_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NGX2|O2T35_HUMAN	sp|P04578|ENV_HV1H2	136.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH72|OR4C6_HUMAN	sp|P04578|ENV_HV1H2	136.4	6RZ7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q13607|OR2F1_HUMAN	sp|P04578|ENV_HV1H2	136.3	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NG76|O2T33_HUMAN	sp|P04578|ENV_HV1H2	136.3	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P62745|RHOB_HUMAN	136.2	3TB8_A	6HXU_A	6CRI_Z	6DFF_C
+sp|A6NDL8|O6C68_HUMAN	sp|P04578|ENV_HV1H2	136.2	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P34972|CNR2_HUMAN	sp|P04578|ENV_HV1H2	136.2	6PT0_R	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P08134|RHOC_HUMAN	136.1	3TB8_A	4MIT_D	6CRI_Z	6DFF_C
+sp|P0C7N1|OR8U8_HUMAN	sp|P04578|ENV_HV1H2	136.1	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGR1|O13A1_HUMAN	sp|P04578|ENV_HV1H2	136.1	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGS5|O13C4_HUMAN	sp|P04578|ENV_HV1H2	136.1	4YAY_A	6PWU_E	6MEO_B	3J70_P
+sp|Q12860|CNTN1_HUMAN	sp|P04585|POL_HV1H2	136.0	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q12860|CNTN1_HUMAN	sp|P04591|GAG_HV1H2	136.0	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8NG85|OR2L3_HUMAN	sp|P04578|ENV_HV1H2	136.0	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P51151|RAB9A_HUMAN	135.9	3TB8_A	1S8F_B	6CRI_Z	6DFF_C
+sp|Q7Z3T1|OR2W3_HUMAN	sp|P04578|ENV_HV1H2	135.9	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGE3|O10P1_HUMAN	sp|P04578|ENV_HV1H2	135.9	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96R28|OR2M2_HUMAN	sp|P04578|ENV_HV1H2	135.9	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|O15552|FFAR2_HUMAN	sp|P04578|ENV_HV1H2	135.8	5NJ6_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6IEU7|OR5MA_HUMAN	sp|P04578|ENV_HV1H2	135.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGM1|OR4CF_HUMAN	sp|P04578|ENV_HV1H2	135.7	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9NZJ0|DTL_HUMAN	135.6	1ESX_A	4WJV_A	5JK7_F	5JK7_E
+sp|A6NM03|O2AG2_HUMAN	sp|P04578|ENV_HV1H2	135.6	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q9BY67|CADM1_HUMAN	135.5	6PWU_E	5ZO1_A	2NY2_A	4HJJ_L
+sp|P04608|TAT_HV1H2	sp|Q9H8S5|CCNP_HUMAN	135.5	3MI9_C	6Q6G_S	3MI9_C	2PK2_B
+sp|Q8NGM8|OR6M1_HUMAN	sp|P04578|ENV_HV1H2	135.5	5UEN_B	6PWU_E	6MEO_B	3J70_P
+sp|Q9BPV8|P2Y13_HUMAN	sp|P04578|ENV_HV1H2	135.5	4PXZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96RD2|O52B2_HUMAN	sp|P04578|ENV_HV1H2	135.4	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q96MR6|CFA57_HUMAN	135.3	1ESX_A	6U42_5	5JK7_F	5JK7_E
+sp|A6NM76|O6C76_HUMAN	sp|P04578|ENV_HV1H2	135.3	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGG7|OR8A1_HUMAN	sp|P04578|ENV_HV1H2	135.3	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH06|OR1P1_HUMAN	sp|P04578|ENV_HV1H2	135.3	6IGK_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH10|OR8U1_HUMAN	sp|P04578|ENV_HV1H2	135.3	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q13239|SLAP1_HUMAN	135.2	3TB8_A	4D8K_A	4U5W_C	4U5W_B
+sp|Q6NY19|KANK3_HUMAN	sp|P04578|ENV_HV1H2	135.2	5YBV_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NGI6|OR4DA_HUMAN	sp|P04578|ENV_HV1H2	135.2	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9H208|O10A2_HUMAN	sp|P04578|ENV_HV1H2	135.2	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6IEY1|OR4F3_HUMAN	sp|P04578|ENV_HV1H2	135.1	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9UQ52|CNTN6_HUMAN	sp|P04585|POL_HV1H2	135.1	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9UQ52|CNTN6_HUMAN	sp|P04591|GAG_HV1H2	135.1	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|P15813|CD1D_HUMAN	sp|P04585|POL_HV1H2	135.0	4MNG_A	1L6N_A	6CPL_A	2XXM_A
+sp|P56559|ARL4C_HUMAN	sp|P04601|NEF_HV1H2	135.0	4M9Q_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P15813|CD1D_HUMAN	sp|P04591|GAG_HV1H2	135.0	4MNG_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q8NGB8|O4F15_HUMAN	sp|P04578|ENV_HV1H2	135.0	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH48|OR5B3_HUMAN	sp|P04578|ENV_HV1H2	135.0	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8WZ84|OR8D1_HUMAN	sp|P04578|ENV_HV1H2	135.0	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9H207|O10A5_HUMAN	sp|P04578|ENV_HV1H2	135.0	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|O95013|O4F21_HUMAN	sp|P04578|ENV_HV1H2	134.9	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|P0C7N5|OR8U9_HUMAN	sp|P04578|ENV_HV1H2	134.9	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9Y5Y4|PD2R2_HUMAN	sp|P04578|ENV_HV1H2	134.9	6D26_A	6PWU_E	6MEO_B	3J70_P
+sp|A6NDH6|O5H15_HUMAN	sp|P04578|ENV_HV1H2	134.8	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGI7|O10V1_HUMAN	sp|P04578|ENV_HV1H2	134.8	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P20273|CD22_HUMAN	sp|P04585|POL_HV1H2	134.7	6GRQ_A	1L6N_A	5T70_G	3GV2_A
+sp|P20273|CD22_HUMAN	sp|P04591|GAG_HV1H2	134.7	6GRQ_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8NGV5|O13D1_HUMAN	sp|P04578|ENV_HV1H2	134.7	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96R08|OR5BC_HUMAN	sp|P04578|ENV_HV1H2	134.7	6RZ6_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|O00212|RHOD_HUMAN	134.6	3TB8_A	4MIT_D	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|Q9ULC3|RAB23_HUMAN	134.6	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|P60893|GPR85_HUMAN	sp|P04578|ENV_HV1H2	134.5	6A94_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9Y689|ARL5A_HUMAN	sp|P04601|NEF_HV1H2	134.4	1ZJ6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q96RD0|OR8B2_HUMAN	sp|P04578|ENV_HV1H2	134.4	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGC7|O11H6_HUMAN	sp|P04578|ENV_HV1H2	134.3	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGS6|O13C3_HUMAN	sp|P04578|ENV_HV1H2	134.2	4YAY_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q92616|GCN1_HUMAN	134.1	3TB8_A	6EMK_C	6OWT_N	6QH5_B
+sp|A6NL26|OR5BL_HUMAN	sp|P04578|ENV_HV1H2	134.1	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|O95007|OR6B1_HUMAN	sp|P04578|ENV_HV1H2	134.1	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGC5|OR6J1_HUMAN	sp|P04578|ENV_HV1H2	134.1	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGQ2|OR6Q1_HUMAN	sp|P04578|ENV_HV1H2	134.1	5IU7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGS4|O13F1_HUMAN	sp|P04578|ENV_HV1H2	134.1	6OS0_A	6PWU_E	6MEO_B	3J70_P
+sp|O00221|IKBE_HUMAN	sp|P04578|ENV_HV1H2	134.0	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P10586|PTPRF_HUMAN	sp|P04585|POL_HV1H2	134.0	6KR4_C	1L6N_A	5T70_G	3GV2_A
+sp|P10586|PTPRF_HUMAN	sp|P04591|GAG_HV1H2	134.0	6KR4_C	1L6N_A	5T70_G	3GV2_A
+sp|Q8NGY9|OR2L8_HUMAN	sp|P04578|ENV_HV1H2	134.0	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NZP5|O5AC2_HUMAN	sp|P04578|ENV_HV1H2	134.0	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q92572|AP3S1_HUMAN	133.9	3TB8_A	6QH7_S	6OWT_N	6QH7_S
+sp|Q8NGC4|O10G3_HUMAN	sp|P04578|ENV_HV1H2	133.9	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q9Y6S9|RPKL1_HUMAN	133.8	3MI9_C	5LI9_A	4OGR_D	4OR5_F
+sp|O43749|OR1F1_HUMAN	sp|P04578|ENV_HV1H2	133.8	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6UB98|ANR12_HUMAN	sp|P04578|ENV_HV1H2	133.8	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q6UB99|ANR11_HUMAN	sp|P04578|ENV_HV1H2	133.8	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P69726|VPR_HV1H2	sp|Q8N1V2|CFA52_HUMAN	133.7	1ESX_A	6U42_5	5JK7_F	5JK7_E
+sp|Q8NGH9|O52E4_HUMAN	sp|P04578|ENV_HV1H2	133.7	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|Q969Q4|ARL11_HUMAN	sp|P04601|NEF_HV1H2	133.6	3L82_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P22888|LSHR_HUMAN	sp|P04578|ENV_HV1H2	133.6	4MQW_X	6PWU_E	6MEO_B	3J70_P
+sp|Q8IUH4|ZDH13_HUMAN	sp|P04578|ENV_HV1H2	133.6	3EU9_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NGG4|OR8H1_HUMAN	sp|P04578|ENV_HV1H2	133.6	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P06731|CEAM5_HUMAN	sp|P04585|POL_HV1H2	133.5	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|P06731|CEAM5_HUMAN	sp|P04591|GAG_HV1H2	133.5	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|P69726|VPR_HV1H2	sp|Q96KV7|WDR90_HUMAN	133.4	1ESX_A	3SFZ_A	5JK7_F	5JK7_E
+sp|Q8NGN0|OR4D5_HUMAN	sp|P04578|ENV_HV1H2	133.4	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH05|OR4Q3_HUMAN	sp|P04578|ENV_HV1H2	133.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9H341|O51M1_HUMAN	sp|P04578|ENV_HV1H2	133.4	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NR31|SAR1A_HUMAN	sp|P04601|NEF_HV1H2	133.3	1F6B_B	3TB8_A	6CRI_L	6CRI_Z
+sp|Q8NGR8|OR1L8_HUMAN	sp|P04578|ENV_HV1H2	133.3	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P59922|OR2B8_HUMAN	sp|P04578|ENV_HV1H2	133.2	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9H9E1|ANRA2_HUMAN	sp|P04578|ENV_HV1H2	133.2	3SO8_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q9Y585|OR1A2_HUMAN	sp|P04578|ENV_HV1H2	133.2	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6IF82|O4A47_HUMAN	sp|P04578|ENV_HV1H2	133.1	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGZ3|O13G1_HUMAN	sp|P04578|ENV_HV1H2	133.1	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGL3|OR5DE_HUMAN	sp|P04578|ENV_HV1H2	133.0	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|A4D1S5|RAB19_HUMAN	132.9	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|P04608|TAT_HV1H2	sp|P41002|CCNF_HUMAN	132.9	3MI9_C	6GU2_B	3MI9_C	2PK2_B
+sp|P47890|OR1G1_HUMAN	sp|P04578|ENV_HV1H2	132.9	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGE9|OR9Q2_HUMAN	sp|P04578|ENV_HV1H2	132.8	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGM9|OR8D4_HUMAN	sp|P04578|ENV_HV1H2	132.8	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGN2|O10S1_HUMAN	sp|P04578|ENV_HV1H2	132.8	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9H343|O51I1_HUMAN	sp|P04578|ENV_HV1H2	132.8	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|P01730|CD4_HUMAN	132.7	6PWU_E	3T0E_E	3J70_P	4Q6I_J
+tr|A0A0G2JNH3|A0A0G2JNH3_HUMAN	sp|P04578|ENV_HV1H2	132.6	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q5ZPR3|CD276_HUMAN	sp|P04578|ENV_HV1H2	132.5	1MCO_H	6PWU_E	6MET_A	3J70_P
+sp|Q8NGE7|OR9K2_HUMAN	sp|P04578|ENV_HV1H2	132.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGP4|OR5M3_HUMAN	sp|P04578|ENV_HV1H2	132.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NHC8|OR2T6_HUMAN	sp|P04578|ENV_HV1H2	132.5	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96RD1|OR6C1_HUMAN	sp|P04578|ENV_HV1H2	132.5	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|O94856|NFASC_HUMAN	sp|P04585|POL_HV1H2	132.4	3P3Y_A	1L6N_A	6ID4_C	1R0A_A
+sp|Q8NG92|O13H1_HUMAN	sp|P04578|ENV_HV1H2	132.4	4IAQ_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9BRX9|WDR83_HUMAN	132.3	1ESX_A	6U8B_A	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q9GZL7|WDR12_HUMAN	132.3	1ESX_A	6N31_B	5JK7_F	5JK7_E
+sp|P0C626|OR5G3_HUMAN	sp|P04578|ENV_HV1H2	132.3	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8N0Y5|OR8I2_HUMAN	sp|P04578|ENV_HV1H2	132.3	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P62826|RAN_HUMAN	132.2	3TB8_A	4HAT_A	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|P63000|RAC1_HUMAN	132.2	3TB8_A	4MIT_D	6CRI_Z	6DFF_C
+sp|Q8NH19|O10AG_HUMAN	sp|P04578|ENV_HV1H2	132.0	5WIU_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|O43684|BUB3_HUMAN	131.9	1ESX_A	1YFQ_A	5JK7_F	5JK7_E
+sp|Q8NG77|O2T12_HUMAN	sp|P04578|ENV_HV1H2	131.9	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P56377|AP1S2_HUMAN	131.8	3TB8_A	4P6Z_S	6OWT_N	6QH7_S
+sp|Q8N0Y3|OR4N4_HUMAN	sp|P04578|ENV_HV1H2	131.8	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH16|OR2L2_HUMAN	sp|P04578|ENV_HV1H2	131.8	6OS0_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P61966|AP1S1_HUMAN	131.7	3TB8_A	4P6Z_S	6OWT_N	6QH7_S
+sp|Q8NDV2|GPR26_HUMAN	sp|P04578|ENV_HV1H2	131.7	4U15_B	6PWU_E	6MEO_B	3J70_P
+sp|Q8WZ92|OR5P2_HUMAN	sp|P04578|ENV_HV1H2	131.7	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P10114|RAP2A_HUMAN	131.6	3TB8_A	3RAP_S	6CRI_Z	6DFF_C
+sp|P0DN81|O13C7_HUMAN	sp|P04578|ENV_HV1H2	131.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q99549|MPP8_HUMAN	sp|P04578|ENV_HV1H2	131.5	3SO8_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q9Y6B6|SAR1B_HUMAN	sp|P04601|NEF_HV1H2	131.4	1F6B_B	3TB8_A	6CRI_L	6CRI_Z
+sp|A7E2S9|A30BL_HUMAN	sp|P04578|ENV_HV1H2	131.4	3V30_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NGP8|OR5M1_HUMAN	sp|P04578|ENV_HV1H2	131.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH40|OR6S1_HUMAN	sp|P04578|ENV_HV1H2	131.4	6OS0_A	6PWU_E	6MEO_B	3J70_P
+sp|P58181|O10A3_HUMAN	sp|P04578|ENV_HV1H2	131.3	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96R09|OR5B2_HUMAN	sp|P04578|ENV_HV1H2	131.3	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q15291|RBBP5_HUMAN	131.2	1ESX_A	6KIV_N	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q9H6Y2|WDR55_HUMAN	131.2	1ESX_A	4WJV_A	5JK7_F	5JK7_E
+sp|Q6UY09|CEA20_HUMAN	sp|P04585|POL_HV1H2	131.2	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q6UY09|CEA20_HUMAN	sp|P04591|GAG_HV1H2	131.2	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8NH50|OR8K5_HUMAN	sp|P04578|ENV_HV1H2	131.2	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|A6NGN9|IGLO5_HUMAN	131.1	6PWU_E	6DLD_A	6FY1_G	4HJJ_H
+sp|O14593|RFXK_HUMAN	sp|P04578|ENV_HV1H2	131.1	3UXG_A	6PWU_E	6QFK_A	6B0N_G
+sp|P69726|VPR_HV1H2	sp|Q9NV06|DCA13_HUMAN	131.0	1ESX_A	5WLC_L	5JK7_F	5JK7_E
+sp|P30954|O10J1_HUMAN	sp|P04578|ENV_HV1H2	131.0	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGG5|OR8K1_HUMAN	sp|P04578|ENV_HV1H2	131.0	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|O43818|U3IP2_HUMAN	130.9	1ESX_A	6RXZ_C	5JK7_F	5JK7_E
+sp|Q2VWP7|PRTG_HUMAN	sp|P04585|POL_HV1H2	130.9	4YH7_A	1L6N_A	5T70_G	3GV2_A
+sp|Q2VWP7|PRTG_HUMAN	sp|P04591|GAG_HV1H2	130.9	4YH7_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q9P2J2|TUTLA_HUMAN	130.8	6PWU_E	6IAA_A	2NY2_A	4HJJ_L
+sp|P04601|NEF_HV1H2	sp|O14807|RASM_HUMAN	130.8	3TB8_A	3KKQ_A	6CRI_Z	6DFF_C
+sp|A6NH00|OR2T8_HUMAN	sp|P04578|ENV_HV1H2	130.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NG94|O11H1_HUMAN	sp|P04578|ENV_HV1H2	130.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8N349|OR2LD_HUMAN	sp|P04578|ENV_HV1H2	130.5	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8N127|O5AS1_HUMAN	sp|P04578|ENV_HV1H2	130.4	4YAY_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NHB8|OR5K2_HUMAN	sp|P04578|ENV_HV1H2	130.4	5VBL_B	6PWU_E	6MEO_B	3J70_P
+sp|Q9NS66|GP173_HUMAN	sp|P04578|ENV_HV1H2	130.4	5NM4_A	6PWU_E	6MEO_B	3J70_P
+sp|A6NGN9|IGLO5_HUMAN	sp|P04585|POL_HV1H2	130.3	6DLD_A	1L6N_A	5T70_G	3GV2_A
+sp|A6NGN9|IGLO5_HUMAN	sp|P04591|GAG_HV1H2	130.3	6DLD_A	1L6N_A	5T70_G	3GV2_A
+sp|Q49SQ1|GPR33_HUMAN	sp|P04578|ENV_HV1H2	130.3	6D27_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGL1|OR5DI_HUMAN	sp|P04578|ENV_HV1H2	130.2	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGC3|O10G2_HUMAN	sp|P04578|ENV_HV1H2	130.1	5VBL_B	6PWU_E	6MEO_B	3J70_P
+sp|Q96R67|OR4CC_HUMAN	sp|P04578|ENV_HV1H2	130.1	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q8N126|CADM3_HUMAN	130.0	6PWU_E	3J8F_7	6NIJ_B	5WHZ_L
+sp|P04608|TAT_HV1H2	sp|O96020|CCNE2_HUMAN	130.0	3MI9_C	1W98_B	3MI9_C	2PK2_B
+sp|Q13332|PTPRS_HUMAN	sp|P04585|POL_HV1H2	129.9	2FH7_A	1L6N_A	5T70_G	3GV2_A
+sp|Q13332|PTPRS_HUMAN	sp|P04591|GAG_HV1H2	129.9	2FH7_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8NGJ5|O51L1_HUMAN	sp|P04578|ENV_HV1H2	129.9	5TVN_A	6PWU_E	6MEO_B	3J70_P
+sp|P19838|NFKB1_HUMAN	sp|P04578|ENV_HV1H2	129.8	1SVC_P	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NGG6|OR8BC_HUMAN	sp|P04578|ENV_HV1H2	129.8	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGV7|OR5H2_HUMAN	sp|P04578|ENV_HV1H2	129.8	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH67|O52I2_HUMAN	sp|P04578|ENV_HV1H2	129.8	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P84095|RHOG_HUMAN	129.6	3TB8_A	4MIT_D	6CRI_Z	6DFF_C
+sp|Q8NGX0|O11L1_HUMAN	sp|P04578|ENV_HV1H2	129.6	5IU7_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P61225|RAP2B_HUMAN	129.4	3TB8_A	3RAP_S	6CRI_Z	6DFF_C
+sp|P35408|PE2R4_HUMAN	sp|P04578|ENV_HV1H2	129.4	5YWY_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGE5|O10A7_HUMAN	sp|P04578|ENV_HV1H2	129.4	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q7Z3B1|NEGR1_HUMAN	sp|P04585|POL_HV1H2	129.3	6DLD_D	1L6N_A	6ID4_C	1R0A_A
+sp|P0C7T2|OR2T7_HUMAN	sp|P04578|ENV_HV1H2	129.3	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGF8|OR4B1_HUMAN	sp|P04578|ENV_HV1H2	129.3	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P11233|RALA_HUMAN	129.2	3TB8_A	2BOV_A	6CRI_Z	6DFF_C
+sp|P69726|VPR_HV1H2	sp|Q32P44|EMAL3_HUMAN	129.2	1ESX_A	4CI8_B	5JK7_F	5JK7_E
+sp|Q8NGK0|O51G2_HUMAN	sp|P04578|ENV_HV1H2	129.2	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96RD9|FCRL5_HUMAN	sp|P04585|POL_HV1H2	129.2	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|Q96RD9|FCRL5_HUMAN	sp|P04591|GAG_HV1H2	129.2	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|P60763|RAC3_HUMAN	129.1	3TB8_A	2OV2_D	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|Q9Y3L5|RAP2C_HUMAN	129.1	3TB8_A	3RAP_S	6CRI_Z	6DFF_C
+sp|Q53RE8|ANR39_HUMAN	sp|P04578|ENV_HV1H2	129.1	6CF6_B	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NG97|OR2Z1_HUMAN	sp|P04578|ENV_HV1H2	129.1	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGP3|OR5M9_HUMAN	sp|P04578|ENV_HV1H2	129.1	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96R30|OR2V2_HUMAN	sp|P04578|ENV_HV1H2	129.1	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9BZJ8|GPR61_HUMAN	sp|P04578|ENV_HV1H2	129.1	5T04_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9H346|O52D1_HUMAN	sp|P04578|ENV_HV1H2	129.1	5WIV_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q8TEB1|DCA11_HUMAN	129.0	1ESX_A	2PBI_D	5JK7_F	5JK7_E
+sp|Q6IFG1|O52E8_HUMAN	sp|P04578|ENV_HV1H2	129.0	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGX8|OR6Y1_HUMAN	sp|P04578|ENV_HV1H2	129.0	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q99728|BARD1_HUMAN	sp|P04578|ENV_HV1H2	129.0	2NTE_B	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NGI8|O5AN1_HUMAN	sp|P04578|ENV_HV1H2	128.9	4IAR_A	6PWU_E	6MEO_B	3J70_P
+sp|Q15617|OR8G1_HUMAN	sp|P04578|ENV_HV1H2	128.8	4YAY_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGQ3|OR1S2_HUMAN	sp|P04578|ENV_HV1H2	128.8	4YAY_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9UGF7|O12D3_HUMAN	sp|P04578|ENV_HV1H2	128.8	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|B2RN74|O11HC_HUMAN	sp|P04578|ENV_HV1H2	128.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q15620|OR8B8_HUMAN	sp|P04578|ENV_HV1H2	128.7	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|Q5NUL3|FFAR4_HUMAN	sp|P04578|ENV_HV1H2	128.7	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NFP4|MDGA1_HUMAN	sp|P04585|POL_HV1H2	128.7	5OJ2_B	1L6N_A	5T70_G	3GV2_A
+sp|Q8NFP4|MDGA1_HUMAN	sp|P04591|GAG_HV1H2	128.7	5OJ2_B	1L6N_A	5T70_G	3GV2_A
+sp|Q8NGI4|OR4DB_HUMAN	sp|P04578|ENV_HV1H2	128.7	6LW5_A	6PWU_E	6MEO_B	3J70_P
+tr|A0A2R8Y4L6|A0A2R8Y4L6_HUMAN	sp|P04578|ENV_HV1H2	128.7	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|O94856|NFASC_HUMAN	sp|P04591|GAG_HV1H2	128.6	3P3Y_A	1L6N_A	5T70_G	3GV2_A
+tr|A0A3B3IT45|A0A3B3IT45_HUMAN	sp|P04578|ENV_HV1H2	128.5	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q15109|RAGE_HUMAN	128.4	6PWU_E	4P2Y_A	6NIJ_B	5WHZ_L
+sp|Q8NGZ6|OR6F1_HUMAN	sp|P04578|ENV_HV1H2	128.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8TDV5|GP119_HUMAN	sp|P04578|ENV_HV1H2	128.4	5TGZ_A	6PWU_E	6MEO_B	3J70_P
+sp|A6NGH8|ANR61_HUMAN	sp|P04578|ENV_HV1H2	128.3	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q01726|MSHR_HUMAN	sp|P04578|ENV_HV1H2	128.3	6W25_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGL7|OR4P4_HUMAN	sp|P04578|ENV_HV1H2	128.3	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGN8|OR4A4_HUMAN	sp|P04578|ENV_HV1H2	128.3	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|P24864|CCNE1_HUMAN	128.2	3MI9_C	1W98_B	3MI9_C	2PK2_B
+sp|Q13795|ARFRP_HUMAN	sp|P04601|NEF_HV1H2	128.1	3L82_B	3TB8_A	6CRI_L	6CRI_Z
+sp|O15354|GPR37_HUMAN	sp|P04578|ENV_HV1H2	128.1	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|P47887|OR1E2_HUMAN	sp|P04578|ENV_HV1H2	128.1	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q14982|OPCM_HUMAN	sp|P04585|POL_HV1H2	128.1	5UV6_B	1L6N_A	6ID4_C	1R0A_A
+sp|Q9H205|O2AG1_HUMAN	sp|P04578|ENV_HV1H2	128.1	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9Y2T6|GPR55_HUMAN	sp|P04578|ENV_HV1H2	128.1	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P15153|RAC2_HUMAN	128.0	3TB8_A	2OV2_D	6CRI_Z	6DFF_C
+sp|Q13606|OR5I1_HUMAN	sp|P04578|ENV_HV1H2	128.0	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGI2|O52N4_HUMAN	sp|P04578|ENV_HV1H2	128.0	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH49|OR4X1_HUMAN	sp|P04578|ENV_HV1H2	128.0	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGX6|O10R2_HUMAN	sp|P04578|ENV_HV1H2	127.9	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGT5|OR9A2_HUMAN	sp|P04578|ENV_HV1H2	127.8	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8TDS5|OXER1_HUMAN	sp|P04578|ENV_HV1H2	127.8	5T1A_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q9HBH0|RHOF_HUMAN	127.7	3TB8_A	4MIT_D	6CRI_Z	6DFF_C
+sp|P47775|GPR12_HUMAN	sp|P04578|ENV_HV1H2	127.7	6LI0_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH04|O2T27_HUMAN	sp|P04578|ENV_HV1H2	127.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P11234|RALB_HUMAN	127.6	3TB8_A	2KWI_A	6CRI_Z	6DFF_C
+sp|Q8NGE0|O10AD_HUMAN	sp|P04578|ENV_HV1H2	127.6	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGP0|OR4CD_HUMAN	sp|P04578|ENV_HV1H2	127.6	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NHA4|O2AE1_HUMAN	sp|P04578|ENV_HV1H2	127.6	4YAY_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P10301|RRAS_HUMAN	127.5	3TB8_A	2FN4_A	6CRI_Z	6DFF_C
+sp|P23468|PTPRD_HUMAN	sp|P04585|POL_HV1H2	127.5	6KR4_C	1L6N_A	5T70_G	3GV2_A
+sp|P23468|PTPRD_HUMAN	sp|P04591|GAG_HV1H2	127.5	6KR4_C	1L6N_A	5T70_G	3GV2_A
+sp|Q8NG95|OR7G3_HUMAN	sp|P04578|ENV_HV1H2	127.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9Y4A9|O10H1_HUMAN	sp|P04578|ENV_HV1H2	127.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P29016|CD1B_HUMAN	sp|P04585|POL_HV1H2	127.4	1CD1_A	1L6N_A	6CPL_A	2XXM_A
+sp|O00533|NCHL1_HUMAN	sp|P04585|POL_HV1H2	127.4	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|O00533|NCHL1_HUMAN	sp|P04591|GAG_HV1H2	127.4	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|P29016|CD1B_HUMAN	sp|P04591|GAG_HV1H2	127.4	1CD1_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q8NHC4|O10J5_HUMAN	sp|P04578|ENV_HV1H2	127.4	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q92963|RIT1_HUMAN	127.3	3TB8_A	4KLZ_A	6CRI_Z	6DFF_C
+sp|O95047|OR2A4_HUMAN	sp|P04578|ENV_HV1H2	127.3	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|O00423|EMAL1_HUMAN	127.2	1ESX_A	4CI8_B	5JK7_F	5JK7_E
+sp|Q14439|GP176_HUMAN	sp|P04578|ENV_HV1H2	127.2	4XNW_C	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH01|O2T11_HUMAN	sp|P04578|ENV_HV1H2	127.1	5NJ6_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9HBW0|LPAR2_HUMAN	sp|P04578|ENV_HV1H2	127.1	4Z35_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|O75717|WDHD1_HUMAN	126.9	1ESX_A	6XTY_G	5JK7_F	5JK7_E
+sp|Q63ZY3|KANK2_HUMAN	sp|P04578|ENV_HV1H2	126.9	5YBV_A	6PWU_E	6QFK_A	6B0N_G
+sp|P04601|NEF_HV1H2	sp|P59780|AP3S2_HUMAN	126.8	3TB8_A	6QH7_S	6OWT_N	6QH7_S
+sp|Q9BZG1|RAB34_HUMAN	sp|P04601|NEF_HV1H2	126.7	6JMG_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P69726|VPR_HV1H2	sp|Q5XX13|FBW10_HUMAN	126.7	1ESX_A	6WNX_A	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q9NW82|WDR70_HUMAN	126.7	1ESX_A	1YFQ_A	5JK7_F	5JK7_E
+sp|A6NMS3|OR5K4_HUMAN	sp|P04578|ENV_HV1H2	126.7	6RZ5_B	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGU2|OR9A4_HUMAN	sp|P04578|ENV_HV1H2	126.7	5IU7_A	6PWU_E	6MEO_B	3J70_P
+sp|O95755|RAB36_HUMAN	sp|P04601|NEF_HV1H2	126.6	6JMG_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P58180|OR4D2_HUMAN	sp|P04578|ENV_HV1H2	126.6	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96R45|OR2A7_HUMAN	sp|P04578|ENV_HV1H2	126.6	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P62070|RRAS2_HUMAN	126.5	3TB8_A	2ERY_A	6CRI_Z	6DFF_C
+sp|Q8NGK1|O51G1_HUMAN	sp|P04578|ENV_HV1H2	126.5	4U15_B	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGL4|OR5DD_HUMAN	sp|P04578|ENV_HV1H2	126.5	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8WXD0|RXFP2_HUMAN	sp|P04578|ENV_HV1H2	126.5	4MQW_X	6PWU_E	6MEO_B	3J70_P
+sp|Q9Y624|JAM1_HUMAN	sp|P04578|ENV_HV1H2	126.4	1NBQ_A	6PWU_E	4YDV_A	6PWU_E
+sp|P69726|VPR_HV1H2	sp|Q96DN5|TBC31_HUMAN	126.4	1ESX_A	4J87_A	5JK7_F	5JK7_E
+sp|P0C629|O10J4_HUMAN	sp|P04578|ENV_HV1H2	126.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8TCB6|O51E1_HUMAN	sp|P04578|ENV_HV1H2	126.4	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8N146|OR8H3_HUMAN	sp|P04578|ENV_HV1H2	126.3	5NM4_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGK4|O52K1_HUMAN	sp|P04578|ENV_HV1H2	126.3	5DSG_B	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|A2RRH5|WDR27_HUMAN	126.2	1ESX_A	5I2T_A	5JK7_F	5JK7_E
+sp|P47888|OR3A3_HUMAN	sp|P04578|ENV_HV1H2	126.2	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGX5|O10K1_HUMAN	sp|P04578|ENV_HV1H2	126.2	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9H255|O51E2_HUMAN	sp|P04578|ENV_HV1H2	126.2	4U15_B	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q99578|RIT2_HUMAN	126.1	3TB8_A	3BRW_D	6CRI_Z	6DFF_C
+sp|P69726|VPR_HV1H2	sp|Q5JSH3|WDR44_HUMAN	126.1	1ESX_A	6QDV_o	5JK7_F	5JK7_E
+sp|P0DMU2|OR83P_HUMAN	sp|P04578|ENV_HV1H2	126.1	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH57|O52P1_HUMAN	sp|P04578|ENV_HV1H2	126.1	6OS0_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGL9|OR4CG_HUMAN	sp|P04578|ENV_HV1H2	125.9	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q8NAA4|A16L2_HUMAN	125.7	1ESX_A	5NPW_H	5JK7_F	5JK7_E
+sp|P04201|MAS_HUMAN	sp|P04578|ENV_HV1H2	125.7	6D26_A	6PWU_E	6MEO_B	3J70_P
+sp|P0DN80|OR5H8_HUMAN	sp|P04578|ENV_HV1H2	125.7	4YAY_A	6PWU_E	6MEO_B	3J70_P
+sp|P30968|GNRHR_HUMAN	sp|P04578|ENV_HV1H2	125.7	5UEN_B	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGC8|O11H7_HUMAN	sp|P04578|ENV_HV1H2	125.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH60|O52J3_HUMAN	sp|P04578|ENV_HV1H2	125.7	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P32004|L1CAM_HUMAN	sp|P04585|POL_HV1H2	125.5	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|P32004|L1CAM_HUMAN	sp|P04591|GAG_HV1H2	125.5	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q13449|LSAMP_HUMAN	sp|P04585|POL_HV1H2	125.4	5UV6_B	1L6N_A	6ID4_C	1R0A_A
+sp|Q8NGF7|OR5BH_HUMAN	sp|P04578|ENV_HV1H2	125.4	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9BZZ2|SN_HUMAN	sp|P04585|POL_HV1H2	125.4	1E07_A	1L6N_A	6ID4_C	1R0A_A
+sp|P57729|RAB38_HUMAN	sp|P04601|NEF_HV1H2	125.2	6HDU_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P69726|VPR_HV1H2	sp|P57737|CORO7_HUMAN	125.2	1ESX_A	4OZU_A	5JK7_F	5JK7_E
+sp|Q8NH81|O10G6_HUMAN	sp|P04578|ENV_HV1H2	125.2	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q969X6|UTP4_HUMAN	125.1	1ESX_A	5WLC_L	5JK7_F	5JK7_E
+sp|Q8NGK5|O52M1_HUMAN	sp|P04578|ENV_HV1H2	125.1	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|P22674|CCNO_HUMAN	125.0	3MI9_C	6Q6G_S	3MI9_C	2PK2_B
+sp|Q8N7Z5|ANR31_HUMAN	sp|P04578|ENV_HV1H2	125.0	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NH61|O51F2_HUMAN	sp|P04578|ENV_HV1H2	125.0	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96R84|OR1F2_HUMAN	sp|P04578|ENV_HV1H2	125.0	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96RC9|OR8B4_HUMAN	sp|P04578|ENV_HV1H2	125.0	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q8N0Z9|VSI10_HUMAN	124.9	6PWU_E	3QS7_E	2NY2_A	4HJJ_L
+sp|Q8NGC9|O11H4_HUMAN	sp|P04578|ENV_HV1H2	124.9	4YAY_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGJ1|OR4D6_HUMAN	sp|P04578|ENV_HV1H2	124.9	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|O14966|RAB7L_HUMAN	124.8	3TB8_A	6HH2_A	6CRI_Z	6DFF_C
+sp|Q6IFH4|OR6B2_HUMAN	sp|P04578|ENV_HV1H2	124.8	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGY6|OR6N2_HUMAN	sp|P04578|ENV_HV1H2	124.8	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9BYB0|SHAN3_HUMAN	sp|P04578|ENV_HV1H2	124.8	5G4X_A	6PWU_E	6QFK_A	6B0N_G
+sp|P04601|NEF_HV1H2	sp|Q969Q5|RAB24_HUMAN	124.7	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|Q9NX57|RAB20_HUMAN	124.7	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|Q8NH85|OR5R1_HUMAN	sp|P04578|ENV_HV1H2	124.7	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q96L33|RHOV_HUMAN	124.6	3TB8_A	4MIT_D	6CRI_Z	6DFF_C
+sp|P69726|VPR_HV1H2	sp|O95834|EMAL2_HUMAN	124.6	1ESX_A	4CI8_B	5JK7_F	5JK7_E
+sp|P04601|NEF_HV1H2	sp|P61224|RAP1B_HUMAN	124.5	3TB8_A	3BRW_D	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|A6NIZ1|RP1BL_HUMAN	124.4	3TB8_A	3BRW_D	6CRI_Z	6DFF_C
+sp|Q8TDY8|IGDC4_HUMAN	sp|P04585|POL_HV1H2	124.3	4YH7_A	1L6N_A	6ID4_C	1R0A_A
+tr|A0A0X1KG70|A0A0X1KG70_HUMAN	sp|P04578|ENV_HV1H2	124.3	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q9Y639|NPTN_HUMAN	124.2	6PWU_E	6A69_B	6NIJ_B	5WHZ_L
+sp|P04601|NEF_HV1H2	sp|P60953|CDC42_HUMAN	124.2	3TB8_A	2CLS_A	6CRI_Z	6DFF_C
+sp|O95006|OR2F2_HUMAN	sp|P04578|ENV_HV1H2	124.2	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH79|OR6X1_HUMAN	sp|P04578|ENV_HV1H2	124.2	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGW1|OR6B3_HUMAN	sp|P04578|ENV_HV1H2	123.9	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q13637|RAB32_HUMAN	sp|P04601|NEF_HV1H2	123.8	4CZ2_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q8NH83|OR4A5_HUMAN	sp|P04578|ENV_HV1H2	123.8	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8N162|OR8H2_HUMAN	sp|P04578|ENV_HV1H2	123.7	5IU7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9H344|O51I2_HUMAN	sp|P04578|ENV_HV1H2	123.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q64LD2|WDR25_HUMAN	123.6	1ESX_A	6QDV_o	5JK7_F	5JK7_E
+sp|Q9GZM6|OR8D2_HUMAN	sp|P04578|ENV_HV1H2	123.6	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q9UNT1|RBL2B_HUMAN	123.5	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|Q8NGI9|OR5A2_HUMAN	sp|P04578|ENV_HV1H2	123.5	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NHC5|O14AG_HUMAN	sp|P04578|ENV_HV1H2	123.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96KK4|O10C1_HUMAN	sp|P04578|ENV_HV1H2	123.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P62834|RAP1A_HUMAN	123.4	3TB8_A	3BRW_D	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|Q9UBK7|RBL2A_HUMAN	123.4	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|Q8WX93|PALLD_HUMAN	sp|P04601|NEF_HV1H2	123.4	3B43_A	3TB8_A	5XOV_H	3TB8_A
+sp|P69726|VPR_HV1H2	sp|Q9HC35|EMAL4_HUMAN	123.3	1ESX_A	4CI8_B	5JK7_F	5JK7_E
+sp|Q8NH64|O51A7_HUMAN	sp|P04578|ENV_HV1H2	123.3	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q96J84|KIRR1_HUMAN	123.2	6PWU_E	5A2F_A	2NY2_A	4HJJ_L
+sp|Q96NS5|ASB16_HUMAN	sp|P04578|ENV_HV1H2	123.2	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P04601|NEF_HV1H2	sp|Q96HU8|DIRA2_HUMAN	123.1	3TB8_A	2GF0_B	6CRI_Z	6DFF_C
+sp|Q8NGG1|OR8J2_HUMAN	sp|P04578|ENV_HV1H2	123.1	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGR3|OR1K1_HUMAN	sp|P04578|ENV_HV1H2	123.1	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P0C646|O52Z1_HUMAN	sp|P04578|ENV_HV1H2	122.8	5WIV_A	6PWU_E	6MEO_B	3J70_P
+sp|Q4KMG0|CDON_HUMAN	sp|P04585|POL_HV1H2	122.7	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q4KMG0|CDON_HUMAN	sp|P04591|GAG_HV1H2	122.7	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|O95665|NTR2_HUMAN	sp|P04578|ENV_HV1H2	122.5	5T04_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGR6|OR1B1_HUMAN	sp|P04578|ENV_HV1H2	122.5	5NJ6_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGT2|O13J1_HUMAN	sp|P04578|ENV_HV1H2	122.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9Y2I8|WDR37_HUMAN	122.4	1ESX_A	2QXV_A	5JK7_F	5JK7_E
+sp|Q96HA7|TONSL_HUMAN	sp|P04578|ENV_HV1H2	122.4	5JA4_D	6PWU_E	6QFK_A	6B0N_G
+sp|P46089|GPR3_HUMAN	sp|P04578|ENV_HV1H2	122.3	6LI0_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9BZZ2|SN_HUMAN	sp|P04591|GAG_HV1H2	122.3	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|O60403|O10H2_HUMAN	sp|P04578|ENV_HV1H2	122.2	5VBL_B	6PWU_E	6MEO_B	3J70_P
+sp|P0C7N8|OR9G9_HUMAN	sp|P04578|ENV_HV1H2	122.2	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q15653|IKBB_HUMAN	sp|P04578|ENV_HV1H2	122.2	1OY3_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NGK6|O52I1_HUMAN	sp|P04578|ENV_HV1H2	122.2	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6ZS10|CL17A_HUMAN	sp|P04578|ENV_HV1H2	122.1	5G6U_A	6PWU_E	1QO3_C	3J70_P
+sp|Q8NGY1|O10Z1_HUMAN	sp|P04578|ENV_HV1H2	122.1	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8N9V6|ANR53_HUMAN	sp|P04578|ENV_HV1H2	121.9	3V31_A	6PWU_E	6QFK_A	6B0N_G
+tr|A0A0G2JMP0|A0A0G2JMP0_HUMAN	sp|P04578|ENV_HV1H2	121.9	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q149M9|NWD1_HUMAN	121.8	1ESX_A	3SFZ_A	5JK7_F	5JK7_E
+sp|Q8NGC0|O5AU1_HUMAN	sp|P04578|ENV_HV1H2	121.8	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6NSI1|AR26L_HUMAN	sp|P04578|ENV_HV1H2	121.7	3SO8_A	6PWU_E	6QFK_A	6B0N_G
+sp|P47893|OR3A2_HUMAN	sp|P04578|ENV_HV1H2	121.6	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGA5|O10H4_HUMAN	sp|P04578|ENV_HV1H2	121.6	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9UNW8|GP132_HUMAN	sp|P04578|ENV_HV1H2	121.6	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|O95170|CDRT1_HUMAN	121.5	1ESX_A	6WNX_A	5JK7_F	5JK7_E
+sp|O95221|OR5F1_HUMAN	sp|P04578|ENV_HV1H2	121.5	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGX3|O10T2_HUMAN	sp|P04578|ENV_HV1H2	121.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8WVL7|ANR49_HUMAN	sp|P04578|ENV_HV1H2	121.5	3HRA_A	6PWU_E	6QFK_A	6B0N_G
+sp|O75147|OBSL1_HUMAN	sp|P04585|POL_HV1H2	121.4	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|O75147|OBSL1_HUMAN	sp|P04591|GAG_HV1H2	121.4	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8NGJ6|O51A4_HUMAN	sp|P04578|ENV_HV1H2	121.4	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q6UY09|CEA20_HUMAN	121.3	6PWU_E	1E07_A	2NY2_A	4HJJ_L
+sp|Q9H2C5|O52A5_HUMAN	sp|P04578|ENV_HV1H2	121.3	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q15612|OR1Q1_HUMAN	sp|P04578|ENV_HV1H2	121.2	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9BXW6|OSBL1_HUMAN	sp|P04578|ENV_HV1H2	121.2	5ZM5_A	6PWU_E	6QFK_A	6B0N_G
+sp|P04608|TAT_HV1H2	sp|Q5T5M9|CCNJ_HUMAN	121.1	3MI9_C	3G33_D	3MI9_C	2PK2_B
+sp|Q8NG75|OR5T1_HUMAN	sp|P04578|ENV_HV1H2	121.1	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|P15812|CD1E_HUMAN	sp|P04585|POL_HV1H2	120.9	1CD1_A	1L6N_A	6CPL_A	2XXM_A
+sp|P28068|DMB_HUMAN	sp|P04585|POL_HV1H2	120.9	2BC4_D	1L6N_A	6CPL_A	2XXM_A
+sp|P04601|NEF_HV1H2	sp|Q7L0Q8|RHOU_HUMAN	120.9	3TB8_A	2Q3H_A	6CRI_Z	6DFF_C
+sp|P04608|TAT_HV1H2	sp|Q14094|CCNI_HUMAN	120.9	3MI9_C	1G3N_C	3MI9_C	2PK2_B
+sp|P15812|CD1E_HUMAN	sp|P04591|GAG_HV1H2	120.9	1CD1_A	1L6N_A	6CPL_A	2XXM_A
+sp|P28068|DMB_HUMAN	sp|P04591|GAG_HV1H2	120.9	2BC4_D	1L6N_A	6CPL_A	2XXM_A
+sp|Q8NGY3|OR6K3_HUMAN	sp|P04578|ENV_HV1H2	120.9	6IGK_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9H339|O51B5_HUMAN	sp|P04578|ENV_HV1H2	120.9	6RZ4_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q86YS6|RAB43_HUMAN	120.8	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|P69726|VPR_HV1H2	sp|Q14137|BOP1_HUMAN	120.8	1ESX_A	6EM5_m	5JK7_F	5JK7_E
+sp|Q8NGB6|OR4M2_HUMAN	sp|P04578|ENV_HV1H2	120.8	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGP6|OR5M8_HUMAN	sp|P04578|ENV_HV1H2	120.8	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P28067|DMA_HUMAN	sp|P04585|POL_HV1H2	120.7	2BC4_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04601|NEF_HV1H2	sp|Q15669|RHOH_HUMAN	120.7	3TB8_A	3SEA_A	6CRI_Z	6DFF_C
+sp|P28067|DMA_HUMAN	sp|P04591|GAG_HV1H2	120.7	2BC4_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q8NGG0|OR8J3_HUMAN	sp|P04578|ENV_HV1H2	120.7	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96R54|O14A2_HUMAN	sp|P04578|ENV_HV1H2	120.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|O95057|DIRA1_HUMAN	120.4	3TB8_A	2GF0_B	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|P0C0E4|RB40L_HUMAN	120.4	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|Q8WXH6|RB40A_HUMAN	120.3	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|Q8NGH5|O56A1_HUMAN	sp|P04578|ENV_HV1H2	120.3	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGF9|OR4X2_HUMAN	sp|P04578|ENV_HV1H2	120.1	5XJM_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGK9|OR5DG_HUMAN	sp|P04578|ENV_HV1H2	120.1	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGQ5|OR9Q1_HUMAN	sp|P04578|ENV_HV1H2	120.1	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q00653|NFKB2_HUMAN	sp|P04578|ENV_HV1H2	120.0	3DO7_B	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NGH7|O52L1_HUMAN	sp|P04578|ENV_HV1H2	120.0	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NHB1|OR2V1_HUMAN	sp|P04578|ENV_HV1H2	120.0	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGK3|O52K2_HUMAN	sp|P04578|ENV_HV1H2	119.9	5DSG_B	6PWU_E	6MEO_B	3J70_P
+sp|Q86TC9|MYPN_HUMAN	sp|P04601|NEF_HV1H2	119.8	3B43_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q8WZA6|OR1E3_HUMAN	sp|P04578|ENV_HV1H2	119.8	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q08ET2|SIG14_HUMAN	119.7	6PWU_E	5LFR_A	6NIJ_B	5WHZ_L
+sp|P46095|GPR6_HUMAN	sp|P04578|ENV_HV1H2	119.7	6LI0_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q96JK2|DCAF5_HUMAN	119.6	1ESX_A	3GRE_A	5JK7_F	5JK7_E
+sp|Q8NGF0|O52B6_HUMAN	sp|P04578|ENV_HV1H2	119.6	6LI0_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGQ1|OR9G4_HUMAN	sp|P04578|ENV_HV1H2	119.6	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P51157|RAB28_HUMAN	119.2	3TB8_A	2HXS_A	6CRI_Z	6DFF_C
+sp|P69726|VPR_HV1H2	sp|Q9BV38|WDR18_HUMAN	119.2	1ESX_A	4U1E_I	5JK7_F	5JK7_E
+sp|Q7Z444|RASE_HUMAN	sp|P04601|NEF_HV1H2	119.1	2KWI_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P69726|VPR_HV1H2	sp|Q86Y33|CD20B_HUMAN	119.1	1ESX_A	4GGC_A	5JK7_F	5JK7_E
+sp|Q8NH54|O56A3_HUMAN	sp|P04578|ENV_HV1H2	119.1	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|P40199|CEAM6_HUMAN	118.9	6PWU_E	1E07_A	6FY1_G	4HJJ_H
+sp|P04601|NEF_HV1H2	sp|P55040|GEM_HUMAN	118.9	3TB8_A	2CJW_B	6CRI_Z	6DFF_C
+sp|P69726|VPR_HV1H2	sp|Q9BUR4|TCAB1_HUMAN	118.9	1ESX_A	3DW8_E	5JK7_F	5JK7_E
+sp|P04601|NEF_HV1H2	sp|Q96A58|RERG_HUMAN	118.8	3TB8_A	3SEA_A	6CRI_Z	6DFF_C
+sp|O14626|GP171_HUMAN	sp|P04578|ENV_HV1H2	118.8	4PXZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGX9|OR6P1_HUMAN	sp|P04578|ENV_HV1H2	118.8	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P17081|RHOQ_HUMAN	118.7	3TB8_A	2ATX_B	6CRI_Z	6DFF_C
+sp|Q8NGA6|O10H5_HUMAN	sp|P04578|ENV_HV1H2	118.6	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGG2|OR5T2_HUMAN	sp|P04578|ENV_HV1H2	118.6	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8N441|FGRL1_HUMAN	sp|P04585|POL_HV1H2	118.5	1RY7_B	1L6N_A	6ID4_C	1R0A_A
+sp|Q9P2J2|TUTLA_HUMAN	sp|P04585|POL_HV1H2	118.5	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9P2J2|TUTLA_HUMAN	sp|P04591|GAG_HV1H2	118.5	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|C9JTQ0|ANR63_HUMAN	sp|P04578|ENV_HV1H2	118.4	3T8K_B	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NGH8|O56A4_HUMAN	sp|P04578|ENV_HV1H2	118.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH56|O52N5_HUMAN	sp|P04578|ENV_HV1H2	118.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|A6NHA9|O4C46_HUMAN	sp|P04578|ENV_HV1H2	118.2	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6NXT1|ANR54_HUMAN	sp|P04578|ENV_HV1H2	118.2	1OY3_D	6PWU_E	6QFK_A	6B0N_G
+sp|O95428|PPN_HUMAN	sp|P04585|POL_HV1H2	118.1	3VN4_A	1L6N_A	6ID4_C	1R0A_A
+sp|Q5VYY1|ANR22_HUMAN	sp|P04578|ENV_HV1H2	118.1	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NGJ0|OR5A1_HUMAN	sp|P04578|ENV_HV1H2	118.1	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGJ2|O52H1_HUMAN	sp|P04578|ENV_HV1H2	118.1	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGV6|OR5H6_HUMAN	sp|P04578|ENV_HV1H2	118.0	4YAY_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGY2|OR6K2_HUMAN	sp|P04578|ENV_HV1H2	118.0	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96LB2|MRGX1_HUMAN	sp|P04578|ENV_HV1H2	117.9	6D26_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96LA5|FCRL2_HUMAN	sp|P04585|POL_HV1H2	117.8	6AED_A	1L6N_A	5T70_G	3GV2_A
+sp|Q96LA5|FCRL2_HUMAN	sp|P04591|GAG_HV1H2	117.8	6AED_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q9UBF9|MYOTI_HUMAN	117.7	6PWU_E	2J8H_A	2NY2_A	4HJJ_L
+sp|Q8NGU4|OR2I1_HUMAN	sp|P04578|ENV_HV1H2	117.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|P11465|PSG2_HUMAN	117.6	6PWU_E	1E07_A	6NIJ_B	5WHZ_L
+sp|Q8NGI1|O56B2_HUMAN	sp|P04578|ENV_HV1H2	117.6	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGQ6|OR9I1_HUMAN	sp|P04578|ENV_HV1H2	117.5	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGW6|OR6K6_HUMAN	sp|P04578|ENV_HV1H2	117.5	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH69|OR5W2_HUMAN	sp|P04578|ENV_HV1H2	117.5	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|O95661|DIRA3_HUMAN	117.4	3TB8_A	2GF0_B	6CRI_Z	6DFF_C
+sp|P04618|REV_HV1H2	sp|Q8IVU1|IGDC3_HUMAN	117.4	2X7L_R	4PBX_A	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|O00189|AP4M1_HUMAN	117.4	2N28_A	2XA7_M	4P6Z_V	4P6Z_S
+sp|P05919|VPU_HV1H2	sp|P48444|COPD_HUMAN	117.4	2N28_A	5NZR_D	4P6Z_V	6CRI_M
+sp|P05919|VPU_HV1H2	sp|P53677|AP3M2_HUMAN	117.4	2N28_A	2XA7_M	4P6Z_V	4P6Z_S
+sp|P05919|VPU_HV1H2	sp|P53680|AP2S1_HUMAN	117.4	2N28_A	6QH7_S	4P6Z_V	4P6Z_S
+sp|P05919|VPU_HV1H2	sp|P56377|AP1S2_HUMAN	117.4	2N28_A	4P6Z_S	4P6Z_V	4P6Z_S
+sp|P05919|VPU_HV1H2	sp|P59780|AP3S2_HUMAN	117.4	2N28_A	6QH7_S	4P6Z_V	4P6Z_S
+sp|P05919|VPU_HV1H2	sp|P61966|AP1S1_HUMAN	117.4	2N28_A	4P6Z_S	4P6Z_V	4P6Z_S
+sp|P05919|VPU_HV1H2	sp|Q8WXE9|STON2_HUMAN	117.4	2N28_A	5WRL_A	4P6Z_V	6CRI_M
+sp|P05919|VPU_HV1H2	sp|Q92572|AP3S1_HUMAN	117.4	2N28_A	6QH7_S	4P6Z_V	4P6Z_S
+sp|P05919|VPU_HV1H2	sp|Q92616|GCN1_HUMAN	117.4	2N28_A	6EMK_C	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q96CW1|AP2M1_HUMAN	117.4	2N28_A	5FPI_A	4P6Z_V	4P6Z_S
+sp|P05919|VPU_HV1H2	sp|Q96PC3|AP1S3_HUMAN	117.4	2N28_A	6CRI_S	4P6Z_V	4P6Z_S
+sp|P05919|VPU_HV1H2	sp|Q9BXS5|AP1M1_HUMAN	117.4	2N28_A	4P6Z_M	4P6Z_V	4P6Z_S
+sp|P05919|VPU_HV1H2	sp|Q9H0R1|AP5M1_HUMAN	117.4	2N28_A	4P6Z_M	4P6Z_V	6CRI_M
+sp|P05919|VPU_HV1H2	sp|Q9Y2T2|AP3M1_HUMAN	117.4	2N28_A	6QH5_N	4P6Z_V	4P6Z_S
+sp|P05919|VPU_HV1H2	sp|Q9Y587|AP4S1_HUMAN	117.4	2N28_A	6QH7_S	4P6Z_V	4P6Z_S
+sp|P05919|VPU_HV1H2	sp|Q9Y6Q2|STON1_HUMAN	117.4	2N28_A	2PR9_A	4P6Z_V	6CRI_M
+sp|P05919|VPU_HV1H2	sp|Q9Y6Q5|AP1M2_HUMAN	117.4	2N28_A	4P6Z_M	4P6Z_V	4P6Z_S
+sp|Q6ZVZ8|ASB18_HUMAN	sp|P04578|ENV_HV1H2	117.4	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NG78|OR8G5_HUMAN	sp|P04578|ENV_HV1H2	117.4	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P0C617|O5AL1_HUMAN	sp|P04578|ENV_HV1H2	117.3	4YAY_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9BY67|CADM1_HUMAN	sp|P04585|POL_HV1H2	117.3	5ZO1_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9BY67|CADM1_HUMAN	sp|P04591|GAG_HV1H2	117.3	5ZO1_A	1L6N_A	5T70_G	3GV2_A
+sp|Q86U10|LPP60_HUMAN	sp|P04578|ENV_HV1H2	117.2	5DNC_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NGJ4|O52E2_HUMAN	sp|P04578|ENV_HV1H2	117.1	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|Q8IV13|CCNJL_HUMAN	117.0	3MI9_C	3G33_D	3MI9_C	2PK2_B
+sp|Q7Z601|GP142_HUMAN	sp|P04578|ENV_HV1H2	117.0	6OSA_R	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH51|OR8K3_HUMAN	sp|P04578|ENV_HV1H2	117.0	5O9H_B	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGN1|OR6T1_HUMAN	sp|P04578|ENV_HV1H2	116.9	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH90|O5AK2_HUMAN	sp|P04578|ENV_HV1H2	116.9	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6IF99|O10K2_HUMAN	sp|P04578|ENV_HV1H2	116.8	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGP2|OR8J1_HUMAN	sp|P04578|ENV_HV1H2	116.8	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8N126|CADM3_HUMAN	sp|P04585|POL_HV1H2	116.6	3J8F_7	1L6N_A	5T70_G	3GV2_A
+sp|Q8N126|CADM3_HUMAN	sp|P04591|GAG_HV1H2	116.6	3J8F_7	1L6N_A	5T70_G	3GV2_A
+sp|A6NCL7|AN33B_HUMAN	sp|P04578|ENV_HV1H2	116.5	5Y4D_A	6PWU_E	6QFK_A	6B0N_G
+sp|P69726|VPR_HV1H2	sp|Q6QEF8|CORO6_HUMAN	116.4	1ESX_A	4OZU_A	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q9Y5J1|UTP18_HUMAN	116.4	1ESX_A	6ND4_S	5JK7_F	5JK7_E
+sp|Q8NHC7|O14CZ_HUMAN	sp|P04578|ENV_HV1H2	116.1	6IGK_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|O75628|REM1_HUMAN	115.9	3TB8_A	2NZJ_B	6CRI_Z	6DFF_C
+sp|P0C604|OR4A8_HUMAN	sp|P04578|ENV_HV1H2	115.8	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q96LA5|FCRL2_HUMAN	115.6	6PWU_E	6AED_A	6NIJ_B	5WHZ_L
+sp|Q5T7N3|KANK4_HUMAN	sp|P04578|ENV_HV1H2	115.5	5YBE_A	6PWU_E	6QFK_A	6B0N_G
+sp|P04578|ENV_HV1H2	sp|Q96NY8|NECT4_HUMAN	115.4	6PWU_E	3J8F_7	6NIJ_B	5WHZ_L
+sp|P69726|VPR_HV1H2	sp|Q9NWT1|PK1IP_HUMAN	115.4	1ESX_A	3V7D_D	5JK7_F	5JK7_E
+sp|O95222|OR6A2_HUMAN	sp|P04578|ENV_HV1H2	115.4	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P55042|RAD_HUMAN	115.3	3TB8_A	3Q7Q_A	6CRI_Z	6DFF_C
+sp|Q8NGJ7|O51A2_HUMAN	sp|P04578|ENV_HV1H2	115.2	6IGK_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGL0|OR5L2_HUMAN	sp|P04578|ENV_HV1H2	114.9	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q8TAI7|REBL1_HUMAN	114.8	3TB8_A	3OES_A	6CRI_Z	6DFF_C
+sp|Q96P31|FCRL3_HUMAN	sp|P04578|ENV_HV1H2	114.7	6GRQ_A	6PWU_E	6MET_A	3J70_P
+sp|Q3SXY8|AR13B_HUMAN	sp|P04601|NEF_HV1H2	114.7	4M9Q_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q8IXI1|MIRO2_HUMAN	114.7	3TB8_A	5KTY_A	6CRI_Z	6DFF_C
+sp|O95977|S1PR4_HUMAN	sp|P04578|ENV_HV1H2	114.7	4Z35_A	6PWU_E	6MEO_B	3J70_P
+sp|P0C7T3|O56A5_HUMAN	sp|P04578|ENV_HV1H2	114.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH55|O52E5_HUMAN	sp|P04578|ENV_HV1H2	114.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96LA9|MRGX4_HUMAN	sp|P04578|ENV_HV1H2	114.6	6D27_A	6PWU_E	6MEO_B	3J70_P
+tr|A0A2R8YED5|A0A2R8YED5_HUMAN	sp|P04578|ENV_HV1H2	114.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGH6|O52L2_HUMAN	sp|P04578|ENV_HV1H2	114.4	4IAR_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|P35613|BASI_HUMAN	114.3	6PWU_E	4U0Q_B	2NY2_A	4HJJ_L
+sp|Q8NGJ8|O51S1_HUMAN	sp|P04578|ENV_HV1H2	114.3	6IGK_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8WXK4|ASB12_HUMAN	sp|P04578|ENV_HV1H2	114.3	3ZKJ_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q9H228|S1PR5_HUMAN	sp|P04578|ENV_HV1H2	114.3	3V2Y_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q7Z5U6|WDR53_HUMAN	114.2	1ESX_A	5KC2_B	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q8IV35|WDR49_HUMAN	114.2	1ESX_A	6QK7_B	5JK7_F	5JK7_E
+sp|P04618|REV_HV1H2	sp|O95428|PPN_HUMAN	114.0	2X7L_R	3VN4_A	5DHX_C	6CVK_A
+sp|Q9UKL2|O52A1_HUMAN	sp|P04578|ENV_HV1H2	114.0	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|P19320|VCAM1_HUMAN	113.9	6PWU_E	1E07_A	2NY2_A	4HJJ_L
+sp|P04601|NEF_HV1H2	sp|Q9H4E5|RHOJ_HUMAN	113.9	3TB8_A	4MIT_D	6CRI_Z	6DFF_C
+sp|P69726|VPR_HV1H2	sp|Q96MT7|CFA44_HUMAN	113.9	1ESX_A	6U42_5	5JK7_F	5JK7_E
+sp|Q8NGI0|O52N2_HUMAN	sp|P04578|ENV_HV1H2	113.9	5WIV_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q53S08|RAB6D_HUMAN	113.8	3TB8_A	3BBP_B	6CRI_Z	6DFF_C
+sp|Q8TDV0|GP151_HUMAN	sp|P04578|ENV_HV1H2	113.7	6GPS_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6UWL6|KIRR2_HUMAN	sp|P04585|POL_HV1H2	113.5	5A2F_A	1L6N_A	5T70_G	3GV2_A
+sp|Q6UWL6|KIRR2_HUMAN	sp|P04591|GAG_HV1H2	113.5	5A2F_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9NS67|GPR27_HUMAN	sp|P04578|ENV_HV1H2	113.5	5NM4_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q8IZU9|KIRR3_HUMAN	113.4	6PWU_E	5LF5_A	6NIJ_B	5WHZ_L
+sp|P78324|SHPS1_HUMAN	sp|P04585|POL_HV1H2	113.3	4I2X_F	1L6N_A	6ID4_C	1R0A_A
+sp|Q9Y639|NPTN_HUMAN	sp|P04585|POL_HV1H2	113.3	6A69_B	1L6N_A	5T70_G	3GV2_A
+sp|Q9Y639|NPTN_HUMAN	sp|P04591|GAG_HV1H2	113.3	6A69_B	1L6N_A	5T70_G	3GV2_A
+sp|P13688|CEAM1_HUMAN	sp|P04578|ENV_HV1H2	113.2	1E07_A	6PWU_E	6MET_A	3J70_P
+sp|Q9H6B4|CLMP_HUMAN	sp|P04578|ENV_HV1H2	113.1	3JZ7_A	6PWU_E	6UDK_H	4TVP_G
+sp|P04608|TAT_HV1H2	sp|P51946|CCNH_HUMAN	113.1	3MI9_C	1KXU_A	3MI9_C	2PK2_B
+sp|P69726|VPR_HV1H2	sp|Q9Y263|PLAP_HUMAN	113.1	1ESX_A	3PST_A	5JK7_F	5JK7_E
+sp|P04601|NEF_HV1H2	sp|P61587|RND3_HUMAN	113.0	3TB8_A	2V55_D	6CRI_Z	6DFF_C
+sp|Q495M9|USH1G_HUMAN	sp|P04578|ENV_HV1H2	113.0	3PVL_B	6PWU_E	6QFK_A	6B0N_G
+sp|Q8N441|FGRL1_HUMAN	sp|P04591|GAG_HV1H2	113.0	1RY7_B	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|P31997|CEAM8_HUMAN	112.8	6PWU_E	1E07_A	6NIJ_B	5WHZ_L
+sp|P04601|NEF_HV1H2	sp|Q8IXI2|MIRO1_HUMAN	112.8	3TB8_A	5KTY_A	6CRI_Z	6DFF_C
+sp|Q8NGZ2|O14K1_HUMAN	sp|P04578|ENV_HV1H2	112.7	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9P2S5|WRP73_HUMAN	112.6	1ESX_A	4U1F_B	5JK7_F	5JK7_E
+sp|Q8NGK2|O52B4_HUMAN	sp|P04578|ENV_HV1H2	112.6	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NH53|O52N1_HUMAN	sp|P04578|ENV_HV1H2	112.4	6IGK_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8TDY8|IGDC4_HUMAN	sp|P04591|GAG_HV1H2	112.1	4YH7_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q6ZNG9|KRBA2_HUMAN	112.0	1L6N_A	5CZ2_K	6VOY_C	6VOY_C
+sp|P58182|O12D2_HUMAN	sp|P04578|ENV_HV1H2	112.0	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8N148|OR6V1_HUMAN	sp|P04578|ENV_HV1H2	112.0	5UEN_B	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|Q03164|KMT2A_HUMAN	111.9	1L6N_A	6KIZ_K	3HPG_B	6EMQ_A
+sp|P04601|NEF_HV1H2	sp|Q92973|TNPO1_HUMAN	111.9	3TB8_A	1QBK_B	6CRI_Z	6CRI_R
+sp|P69726|VPR_HV1H2	sp|Q6IA86|ELP2_HUMAN	111.9	1ESX_A	6QK7_B	5JK7_F	5JK7_E
+sp|Q8N3J6|CADM2_HUMAN	sp|P04585|POL_HV1H2	111.9	5ZO2_C	1L6N_A	6ID4_C	1R0A_A
+sp|Q8N6C5|IGSF1_HUMAN	sp|P04585|POL_HV1H2	111.9	6GRT_B	1L6N_A	5T70_G	3GV2_A
+sp|Q8N6C5|IGSF1_HUMAN	sp|P04591|GAG_HV1H2	111.9	6GRT_B	1L6N_A	5T70_G	3GV2_A
+sp|Q9NXU5|ARL15_HUMAN	sp|P04601|NEF_HV1H2	111.8	1Z6Y_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q9NPC1|LT4R2_HUMAN	sp|P04578|ENV_HV1H2	111.8	5X33_A	6PWU_E	6MEO_B	3J70_P
+sp|A6NMB1|SIG16_HUMAN	sp|P04578|ENV_HV1H2	111.7	5LFU_A	6PWU_E	6MET_A	3J70_P
+sp|Q6W2J9|BCOR_HUMAN	sp|P04578|ENV_HV1H2	111.7	4HPL_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q96GW7|PGCB_HUMAN	sp|P04578|ENV_HV1H2	111.6	2N40_A	6PWU_E	1QO3_C	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q8IYK8|REM2_HUMAN	111.6	3TB8_A	3Q85_B	6CRI_Z	6DFF_C
+sp|P69726|VPR_HV1H2	sp|Q5TAQ9|DCAF8_HUMAN	111.6	1ESX_A	6RXZ_C	5JK7_F	5JK7_E
+sp|Q14896|MYPC3_HUMAN	sp|P04578|ENV_HV1H2	111.5	2LHU_A	6PWU_E	6MET_A	3J70_P
+sp|P06734|FCER2_HUMAN	sp|P04578|ENV_HV1H2	111.5	5G6U_A	6PWU_E	1QO3_C	3J70_P
+sp|Q8NGZ5|OR2G2_HUMAN	sp|P04578|ENV_HV1H2	111.5	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q9UQ72|PSG11_HUMAN	111.4	6PWU_E	1E07_A	6NIJ_B	5WHZ_L
+sp|Q8NGF4|O5AP2_HUMAN	sp|P04578|ENV_HV1H2	111.4	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q9P299|COPZ2_HUMAN	111.3	3TB8_A	5NZR_L	6OWT_N	6QH5_N
+sp|P04608|TAT_HV1H2	sp|Q8IV63|VRK3_HUMAN	111.3	3MI9_C	2JII_A	4OGR_D	4OR5_F
+sp|Q8NH70|O4A16_HUMAN	sp|P04578|ENV_HV1H2	111.3	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P46199|IF2M_HUMAN	sp|P04601|NEF_HV1H2	111.2	6GAW_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P05919|VPU_HV1H2	sp|Q9P299|COPZ2_HUMAN	111.2	2N28_A	5NZR_L	4P6Z_V	4P6Z_S
+sp|P04601|NEF_HV1H2	sp|Q9NZQ0|DJC27_HUMAN	111.1	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|Q8TDS7|MRGRD_HUMAN	sp|P04578|ENV_HV1H2	111.0	4IAQ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|O14787|TNPO2_HUMAN	110.9	3TB8_A	1QBK_B	6CRI_Z	6CRI_R
+sp|P04601|NEF_HV1H2	sp|Q9H0N0|RAB6C_HUMAN	110.9	3TB8_A	3BBP_B	6CRI_Z	6DFF_C
+sp|O60404|O10H3_HUMAN	sp|P04578|ENV_HV1H2	110.9	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NET8|TRPV3_HUMAN	sp|P04578|ENV_HV1H2	110.9	6UW4_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q96RD3|O52E6_HUMAN	sp|P04578|ENV_HV1H2	110.8	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q86W74|ANR46_HUMAN	sp|P04578|ENV_HV1H2	110.7	3B95_B	6PWU_E	6QFK_A	6B0N_G
+sp|Q9H1D0|TRPV6_HUMAN	sp|P04578|ENV_HV1H2	110.6	6BBJ_B	6PWU_E	6QFK_A	6B0N_G
+sp|P50895|BCAM_HUMAN	sp|P04578|ENV_HV1H2	110.5	5A2F_A	6PWU_E	6MET_A	3J70_P
+sp|P04578|ENV_HV1H2	sp|P20916|MAG_HUMAN	110.4	6PWU_E	5LF5_A	6NIJ_B	5WHZ_L
+sp|P04601|NEF_HV1H2	sp|Q9BPW5|RSLBB_HUMAN	110.4	3TB8_A	3SEA_A	6CRI_Z	6DFF_C
+sp|O95428|PPN_HUMAN	sp|P04591|GAG_HV1H2	110.4	3VN4_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8NGB2|OR4C5_HUMAN	sp|P04578|ENV_HV1H2	110.4	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q6UWL6|KIRR2_HUMAN	110.3	6PWU_E	5A2F_A	3U2S_C	5N2K_F
+sp|Q8N8L6|ARL10_HUMAN	sp|P04601|NEF_HV1H2	110.3	4M9Q_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P78310|CXAR_HUMAN	sp|P04578|ENV_HV1H2	110.2	3JZ7_A	6PWU_E	6UDK_H	4TVP_G
+sp|P69726|VPR_HV1H2	sp|P78406|RAE1L_HUMAN	110.2	1ESX_A	3MMY_C	5JK7_F	5JK7_E
+sp|Q8NH59|O51Q1_HUMAN	sp|P04578|ENV_HV1H2	110.2	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9Y576|ASB1_HUMAN	sp|P04578|ENV_HV1H2	110.2	3ZKJ_A	6PWU_E	6QFK_A	6B0N_G
+sp|P04601|NEF_HV1H2	sp|P30153|2AAA_HUMAN	110.1	3TB8_A	4I5L_D	6OWT_N	6QH5_B
+sp|P04618|REV_HV1H2	sp|Q9UBF9|MYOTI_HUMAN	110.1	2X7L_R	2J8H_A	5DHX_C	6CVK_A
+sp|P69726|VPR_HV1H2	sp|Q09028|RBBP4_HUMAN	110.0	1ESX_A	4PC0_B	5JK7_F	5JK7_E
+sp|P42773|CDN2C_HUMAN	sp|P04578|ENV_HV1H2	110.0	1BU9_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NGF3|O51D1_HUMAN	sp|P04578|ENV_HV1H2	110.0	6IGK_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGL2|OR5L1_HUMAN	sp|P04578|ENV_HV1H2	110.0	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q15238|PSG5_HUMAN	109.8	6PWU_E	1E07_A	6FY1_G	4HJJ_H
+sp|P04601|NEF_HV1H2	sp|P52198|RND2_HUMAN	109.8	3TB8_A	2CLS_A	6CRI_Z	6DFF_C
+sp|P04618|REV_HV1H2	sp|Q13449|LSAMP_HUMAN	109.7	2X7L_R	5UV6_B	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|Q92973|TNPO1_HUMAN	109.7	2N28_A	1QBK_B	4P6Z_V	4P6Z_B
+sp|Q8NGF1|O52R1_HUMAN	sp|P04578|ENV_HV1H2	109.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96LB1|MRGX2_HUMAN	sp|P04578|ENV_HV1H2	109.7	6D26_A	6PWU_E	6MEO_B	3J70_P
+sp|P04618|REV_HV1H2	sp|Q9Y624|JAM1_HUMAN	109.6	2X7L_R	1NBQ_A	2X7L_R	5I8O_L
+sp|P05919|VPU_HV1H2	sp|P30154|2AAB_HUMAN	109.6	2N28_A	4I5L_D	4P6Z_V	4P6Z_B
+sp|P69726|VPR_HV1H2	sp|Q16576|RBBP7_HUMAN	109.6	1ESX_A	2XYI_A	5JK7_F	5JK7_E
+sp|A6NET4|OR5K3_HUMAN	sp|P04578|ENV_HV1H2	109.4	4YAY_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|P61923|COPZ1_HUMAN	109.3	3TB8_A	5NZV_S	6OWT_N	6QH5_N
+sp|Q8NGR4|OR5C1_HUMAN	sp|P04578|ENV_HV1H2	109.3	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|Q9P2P1|NYNRI_HUMAN	109.2	1L6N_A	6Q3V_A	5FRO_B	3S3O_A
+sp|P04601|NEF_HV1H2	sp|P30154|2AAB_HUMAN	109.2	3TB8_A	4I5L_D	6OWT_N	6QH5_B
+sp|P05919|VPU_HV1H2	sp|P61923|COPZ1_HUMAN	109.2	2N28_A	5NZV_S	4P6Z_V	4P6Z_S
+sp|P43115|PE2R3_HUMAN	sp|P04578|ENV_HV1H2	109.2	6M9T_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q96D21|RHES_HUMAN	109.1	3TB8_A	5UB8_A	6CRI_Z	6DFF_C
+sp|P04618|REV_HV1H2	sp|Q8N6G6|ATL1_HUMAN	109.0	2X7L_R	3VN4_A	5DHX_C	6CVK_A
+sp|Q8NH87|OR9G1_HUMAN	sp|P04578|ENV_HV1H2	109.0	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96P69|GPR78_HUMAN	sp|P04578|ENV_HV1H2	109.0	4U15_B	6PWU_E	6MEO_B	3J70_P
+sp|Q9NQA5|TRPV5_HUMAN	sp|P04578|ENV_HV1H2	109.0	6O1U_A	6PWU_E	6QFK_A	6B0N_G
+sp|P04601|NEF_HV1H2	sp|Q12829|RB40B_HUMAN	108.7	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|P04578|ENV_HV1H2	sp|Q13203|MYBPH_HUMAN	108.5	6PWU_E	2RIK_A	6NIJ_B	5WHZ_L
+sp|P04578|ENV_HV1H2	sp|Q8N475|FSTL5_HUMAN	108.5	6PWU_E	1NUB_B	2NY2_A	4HJJ_L
+sp|Q9H2X3|CLC4M_HUMAN	sp|P04578|ENV_HV1H2	108.4	3JQH_A	6PWU_E	1QO3_C	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q92466|DDB2_HUMAN	108.3	1ESX_A	4E54_B	5JK7_F	5JK7_E
+sp|Q96P67|GPR82_HUMAN	sp|P04578|ENV_HV1H2	108.3	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9P2H3|IFT80_HUMAN	108.2	1ESX_A	5N4A_A	5JK7_F	5JK7_E
+sp|Q8NGG3|OR5T3_HUMAN	sp|P04578|ENV_HV1H2	108.1	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|Q9Y624|JAM1_HUMAN	108.0	1L6N_A	1NBQ_A	1R0A_A	2XKN_C
+sp|Q7Z3B1|NEGR1_HUMAN	sp|P04591|GAG_HV1H2	107.8	6DLD_D	1L6N_A	5T70_G	3GV2_A
+sp|A6NH57|ARL5C_HUMAN	sp|P04601|NEF_HV1H2	107.7	1Z6Y_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q13449|LSAMP_HUMAN	sp|P04591|GAG_HV1H2	107.7	5UV6_B	1L6N_A	5T70_G	3GV2_A
+sp|Q8NGI3|O56B1_HUMAN	sp|P04578|ENV_HV1H2	107.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96P31|FCRL3_HUMAN	sp|P04585|POL_HV1H2	107.7	6GRQ_A	1L6N_A	5T70_G	3GV2_A
+sp|Q96P31|FCRL3_HUMAN	sp|P04591|GAG_HV1H2	107.7	6GRQ_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q15198|PGFRL_HUMAN	107.6	6PWU_E	4HJJ_L	2NY2_A	4HJJ_L
+tr|A0A0G2JPB7|A0A0G2JPB7_HUMAN	sp|P04578|ENV_HV1H2	107.6	4PFE_A	6PWU_E	6MET_A	3J70_P
+sp|Q5KU26|COL12_HUMAN	sp|P04578|ENV_HV1H2	107.6	1PWB_B	6PWU_E	1QO3_C	3J70_P
+sp|P12314|FCGR1_HUMAN	sp|P04578|ENV_HV1H2	107.5	4W4O_C	6PWU_E	6MET_A	3J70_P
+sp|Q9BX67|JAM3_HUMAN	sp|P04578|ENV_HV1H2	107.4	1NBQ_A	6PWU_E	4YDV_A	6PWU_E
+sp|Q8IUN9|CLC10_HUMAN	sp|P04578|ENV_HV1H2	107.4	5G6U_A	6PWU_E	1QO3_C	3J70_P
+sp|Q96J84|KIRR1_HUMAN	sp|P04585|POL_HV1H2	107.4	5A2F_A	1L6N_A	5T70_G	3GV2_A
+sp|Q96J84|KIRR1_HUMAN	sp|P04591|GAG_HV1H2	107.4	5A2F_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8NH89|O5AK3_HUMAN	sp|P04578|ENV_HV1H2	107.1	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9P296|C5AR2_HUMAN	sp|P04578|ENV_HV1H2	107.0	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q15109|RAGE_HUMAN	sp|P04585|POL_HV1H2	106.8	4P2Y_A	1L6N_A	5T70_G	3GV2_A
+sp|Q6R2W3|SCND3_HUMAN	sp|P04585|POL_HV1H2	106.8	2BW3_A	1L6N_A	5FRO_B	3S3O_A
+sp|Q15109|RAGE_HUMAN	sp|P04591|GAG_HV1H2	106.8	4P2Y_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9Y5P1|O51B2_HUMAN	sp|P04578|ENV_HV1H2	106.8	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9BZE4|NOG1_HUMAN	sp|P04601|NEF_HV1H2	106.6	3JCT_b	3TB8_A	6CRI_L	6CRI_Z
+sp|P24863|CCNC_HUMAN	sp|P04608|TAT_HV1H2	106.6	4F6U_B	3MI9_C	2W2H_A	1TVS_A
+sp|P69726|VPR_HV1H2	sp|Q15751|HERC1_HUMAN	106.6	1ESX_A	4O2W_C	5JK7_F	5JK7_E
+sp|A6QL63|BTBDB_HUMAN	sp|P04578|ENV_HV1H2	106.6	4G8L_A	6PWU_E	6QFK_A	6B0N_G
+sp|P07307|ASGR2_HUMAN	sp|P04578|ENV_HV1H2	106.6	5G6U_A	6PWU_E	1QO3_C	3J70_P
+sp|O00241|SIRB1_HUMAN	sp|P04585|POL_HV1H2	106.4	4I2X_F	1L6N_A	6ID4_C	1R0A_A
+sp|Q8NGJ3|O52E1_HUMAN	sp|P04578|ENV_HV1H2	106.3	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|P43088|PF2R_HUMAN	sp|P04578|ENV_HV1H2	106.2	6M9T_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q5W041|ARMC3_HUMAN	106.1	3TB8_A	1JDH_A	6OWT_N	6OWT_A
+sp|P04601|NEF_HV1H2	sp|Q9NYR9|KBRS2_HUMAN	106.0	3TB8_A	3RWO_A	6CRI_Z	6DFF_C
+sp|P69726|VPR_HV1H2	sp|P55735|SEC13_HUMAN	106.0	1ESX_A	3BG1_E	5JK7_F	5JK7_E
+sp|Q8NGF6|O10W1_HUMAN	sp|P04578|ENV_HV1H2	106.0	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|O60500|NPHN_HUMAN	sp|P04578|ENV_HV1H2	105.9	3DMK_A	6PWU_E	6MET_A	3J70_P
+sp|Q9Y6H5|SNCAP_HUMAN	sp|P04578|ENV_HV1H2	105.9	2KES_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q00872|MYPC1_HUMAN	sp|P04578|ENV_HV1H2	105.7	6IAA_A	6PWU_E	6MET_A	3J70_P
+sp|P69726|VPR_HV1H2	sp|A4D1P6|WDR91_HUMAN	105.7	1ESX_A	6VYC_A	5JK7_F	5JK7_E
+sp|Q9P121|NTRI_HUMAN	sp|P04601|NEF_HV1H2	105.7	5UV6_B	3TB8_A	5XOV_H	3TB8_A
+sp|P69726|VPR_HV1H2	sp|P31146|COR1A_HUMAN	105.6	1ESX_A	2AQ5_A	5JK7_F	5JK7_E
+sp|Q8TDT2|GP152_HUMAN	sp|P04578|ENV_HV1H2	105.6	6D26_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q15223|NECT1_HUMAN	105.5	6PWU_E	4FMF_A	2NY2_A	4HJJ_L
+sp|P69726|VPR_HV1H2	sp|Q9P2L0|WDR35_HUMAN	105.5	1ESX_A	3MKQ_E	5JK7_F	5JK7_E
+sp|Q96G91|P2Y11_HUMAN	sp|P04578|ENV_HV1H2	105.5	4XNV_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q2WEN9|CEA16_HUMAN	105.4	6PWU_E	1E07_A	2NY2_A	4HJJ_L
+sp|P04578|ENV_HV1H2	sp|Q9NQS3|NECT3_HUMAN	105.3	6PWU_E	4FOM_A	6NIJ_B	5WHZ_L
+sp|P05919|VPU_HV1H2	sp|O14787|TNPO2_HUMAN	105.3	2N28_A	1QBK_B	4P6Z_V	4P6Z_G
+sp|Q69YU3|AN34A_HUMAN	sp|P04578|ENV_HV1H2	105.2	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P04578|ENV_HV1H2	sp|O00241|SIRB1_HUMAN	105.1	6PWU_E	4I2X_F	6NIJ_B	5WHZ_L
+sp|P04578|ENV_HV1H2	sp|Q9NZN1|IRPL1_HUMAN	105.1	6PWU_E	5Y32_B	6FY1_G	4HJJ_H
+sp|P69726|VPR_HV1H2	sp|Q9H1Z4|WDR13_HUMAN	105.1	1ESX_A	3GRE_A	5JK7_F	5JK7_E
+sp|O14594|NCAN_HUMAN	sp|P04578|ENV_HV1H2	105.1	2N40_A	6PWU_E	1QO3_C	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q9BW83|IFT27_HUMAN	104.9	3TB8_A	2YC2_D	6CRI_Z	6DFF_C
+sp|P04618|REV_HV1H2	sp|Q14982|OPCM_HUMAN	104.9	2X7L_R	5UV6_B	5DHX_C	6CVK_A
+sp|P69726|VPR_HV1H2	sp|Q9ULV4|COR1C_HUMAN	104.9	1ESX_A	4OZU_A	5JK7_F	5JK7_E
+sp|Q2WEN9|CEA16_HUMAN	sp|P04585|POL_HV1H2	104.9	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q2WEN9|CEA16_HUMAN	sp|P04591|GAG_HV1H2	104.9	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|Q96S21|RB40C_HUMAN	104.8	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|P04578|ENV_HV1H2	sp|P57087|JAM2_HUMAN	104.7	6PWU_E	6GSI_F	6NIJ_B	5WHZ_L
+sp|P20916|MAG_HUMAN	sp|P04585|POL_HV1H2	104.7	5LF5_A	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|P0DP23|CALM1_HUMAN	104.7	1L6N_A	6XW2_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P0DP24|CALM2_HUMAN	104.7	1L6N_A	6XW2_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P0DP25|CALM3_HUMAN	104.7	1L6N_A	6XW2_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P27482|CALL3_HUMAN	104.7	1L6N_A	6XW2_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9NZU7|CABP1_HUMAN	104.7	1L6N_A	3OX5_F	2MGU_M	5DOW_A
+sp|P20916|MAG_HUMAN	sp|P04591|GAG_HV1H2	104.7	5LF5_A	1L6N_A	5T70_G	3GV2_A
+sp|Q7Z3B1|NEGR1_HUMAN	sp|P04601|NEF_HV1H2	104.6	6DLD_D	3TB8_A	5XOV_H	3TB8_A
+sp|Q96LB0|MRGX3_HUMAN	sp|P04578|ENV_HV1H2	104.5	6D27_A	6PWU_E	6MEO_B	3J70_P
+sp|Q99680|GPR22_HUMAN	sp|P04578|ENV_HV1H2	104.5	6IGK_A	6PWU_E	6MEO_B	3J70_P
+sp|A6NMZ5|O4C45_HUMAN	sp|P04578|ENV_HV1H2	104.3	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q15382|RHEB_HUMAN	104.1	3TB8_A	3SEA_A	6CRI_Z	6DFF_C
+sp|Q14982|OPCM_HUMAN	sp|P04591|GAG_HV1H2	104.1	5UV6_B	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|P0DP23|CALM1_HUMAN	103.9	1L6N_A	6XW2_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P0DP24|CALM2_HUMAN	103.9	1L6N_A	6XW2_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P0DP25|CALM3_HUMAN	103.9	1L6N_A	6XW2_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P27482|CALL3_HUMAN	103.9	1L6N_A	6XW2_A	2MGU_M	5DOW_A
+sp|Q8N475|FSTL5_HUMAN	sp|P04585|POL_HV1H2	103.9	1NUB_B	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q9NZU7|CABP1_HUMAN	103.9	1L6N_A	3OX5_F	2MGU_M	5DOW_A
+sp|P58546|MTPN_HUMAN	sp|P04578|ENV_HV1H2	103.9	2MYO_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q8N475|FSTL5_HUMAN	sp|P04591|GAG_HV1H2	103.9	1NUB_B	1L6N_A	5T70_G	3GV2_A
+sp|Q8NH76|O56B4_HUMAN	sp|P04578|ENV_HV1H2	103.9	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q562E7|WDR81_HUMAN	103.8	1ESX_A	1MI1_A	5JK7_F	5JK7_E
+sp|P13688|CEAM1_HUMAN	sp|P04585|POL_HV1H2	103.8	1E07_A	1L6N_A	6ID4_C	1R0A_A
+sp|P43116|PE2R2_HUMAN	sp|P04578|ENV_HV1H2	103.8	6IIV_A	6PWU_E	6MEO_B	3J70_P
+sp|P16112|PGCA_HUMAN	sp|P04578|ENV_HV1H2	103.7	2PF5_B	6PWU_E	1QO3_C	3J70_P
+sp|Q8IZU9|KIRR3_HUMAN	sp|P04585|POL_HV1H2	103.6	5LF5_A	1L6N_A	6ID4_C	1R0A_A
+sp|Q8NGY0|O10X1_HUMAN	sp|P04578|ENV_HV1H2	103.6	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9BR76|COR1B_HUMAN	103.5	1ESX_A	4OZU_A	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q15061|WDR43_HUMAN	103.4	1ESX_A	5WLC_L	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q5T5C0|STXB5_HUMAN	103.4	1ESX_A	6N8R_A	5JK7_F	5JK7_E
+sp|Q9NNX6|CD209_HUMAN	sp|P04578|ENV_HV1H2	103.4	3JQH_A	6PWU_E	1QO3_C	3J70_P
+sp|Q08ET2|SIG14_HUMAN	sp|P04585|POL_HV1H2	103.3	5LFR_A	1L6N_A	5T70_G	3GV2_A
+sp|Q08ET2|SIG14_HUMAN	sp|P04591|GAG_HV1H2	103.3	5LFR_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8IZU9|KIRR3_HUMAN	sp|P04591|GAG_HV1H2	103.3	5LF5_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9UBF9|MYOTI_HUMAN	sp|P04601|NEF_HV1H2	103.3	2J8H_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q5VTT5|MYOM3_HUMAN	sp|P04578|ENV_HV1H2	103.2	4YH7_A	6PWU_E	6MET_A	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q6MZW2|FSTL4_HUMAN	103.2	6PWU_E	1NUB_B	2NY2_A	4HJJ_L
+sp|P04608|TAT_HV1H2	sp|Q8IZE3|PACE1_HUMAN	103.2	3MI9_C	3VWA_B	3MI9_C	3MI9_A
+sp|B4E2M5|ANR66_HUMAN	sp|P04578|ENV_HV1H2	103.2	1WDY_A	6PWU_E	6QFK_A	6B0N_G
+sp|P04601|NEF_HV1H2	sp|Q92737|RSLAA_HUMAN	103.1	3TB8_A	3SEA_A	6CRI_Z	6DFF_C
+sp|P69726|VPR_HV1H2	sp|O15143|ARC1B_HUMAN	103.1	1ESX_A	1K8K_C	5JK7_F	5JK7_E
+sp|P52179|MYOM1_HUMAN	sp|P04578|ENV_HV1H2	103.1	3L5H_A	6PWU_E	6MET_A	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q6DN72|FCRL6_HUMAN	103.0	6PWU_E	5T70_G	6NIJ_B	5WHZ_L
+sp|Q8WZ75|ROBO4_HUMAN	sp|P04578|ENV_HV1H2	102.9	4YFD_A	6PWU_E	4YDV_A	6PWU_E
+sp|P04601|NEF_HV1H2	sp|Q8TC17|GRAPL_HUMAN	102.9	3TB8_A	2ABL_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q96S79|RSLAB_HUMAN	102.9	3TB8_A	3SEA_A	6CRI_Z	6DFF_C
+sp|Q8N961|ABTB2_HUMAN	sp|P04578|ENV_HV1H2	102.9	5VEY_A	6PWU_E	6QFK_A	6B0N_G
+sp|O60883|G37L1_HUMAN	sp|P04578|ENV_HV1H2	102.8	6LW5_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6UXB4|CLC4G_HUMAN	sp|P04578|ENV_HV1H2	102.8	5G6U_A	6PWU_E	1QO3_C	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q9Y272|RASD1_HUMAN	102.7	3TB8_A	5UB8_A	6CRI_Z	6DFF_C
+sp|P05919|VPU_HV1H2	sp|P30153|2AAA_HUMAN	102.7	2N28_A	4I5L_D	4P6Z_V	4P6Z_B
+sp|P69726|VPR_HV1H2	sp|Q5QP82|DCA10_HUMAN	102.7	1ESX_A	4WJV_A	5JK7_F	5JK7_E
+sp|Q5JRS4|O10J3_HUMAN	sp|P04578|ENV_HV1H2	102.7	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q0P5N6|ARL16_HUMAN	sp|P04601|NEF_HV1H2	102.6	2H57_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q86VP6|CAND1_HUMAN	102.6	3TB8_A	1U6G_C	6OWT_N	6QH5_B
+sp|Q96RL6|SIG11_HUMAN	sp|P04578|ENV_HV1H2	102.5	5LF5_A	6PWU_E	6MET_A	3J70_P
+sp|O00178|GTPB1_HUMAN	sp|P04601|NEF_HV1H2	102.5	5LZZ_j	3TB8_A	6CRI_L	6CRI_Z
+sp|Q9GZN0|GPR88_HUMAN	sp|P04578|ENV_HV1H2	102.5	3OE0_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|P57796|CABP4_HUMAN	102.4	1L6N_A	2M28_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P57796|CABP4_HUMAN	102.4	1L6N_A	2M28_A	2MGU_M	5DOW_A
+sp|P04608|TAT_HV1H2	sp|Q9BXU1|STK31_HUMAN	102.4	3MI9_C	6O6Q_A	3MI9_C	3MI9_A
+sp|Q9Y624|JAM1_HUMAN	sp|P04601|NEF_HV1H2	102.4	1NBQ_A	3TB8_A	5XOV_H	3TB8_A
+sp|P13611|CSPG2_HUMAN	sp|P04578|ENV_HV1H2	102.3	2N40_A	6PWU_E	1QO3_C	3J70_P
+sp|Q96LC7|SIG10_HUMAN	sp|P04578|ENV_HV1H2	102.3	5LF5_A	6PWU_E	6MET_A	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q8NEZ3|WDR19_HUMAN	102.2	1ESX_A	5NZT_C	5JK7_F	5JK7_E
+sp|P19320|VCAM1_HUMAN	sp|P04585|POL_HV1H2	102.2	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|P19320|VCAM1_HUMAN	sp|P04591|GAG_HV1H2	102.2	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|A5PLL1|AN34B_HUMAN	sp|P04578|ENV_HV1H2	102.1	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|P55273|CDN2D_HUMAN	sp|P04578|ENV_HV1H2	102.0	1BLX_B	6PWU_E	6QFK_A	6B0N_G
+sp|P04578|ENV_HV1H2	sp|P82987|ATL3_HUMAN	101.9	6PWU_E	3GHM_A	2NY2_A	4HJJ_L
+sp|P69726|VPR_HV1H2	sp|Q9BQ67|GRWD1_HUMAN	101.9	1ESX_A	4PSW_B	5JK7_F	5JK7_E
+sp|A6NGY5|O51F1_HUMAN	sp|P04578|ENV_HV1H2	101.9	6IGK_A	6PWU_E	6MEO_B	3J70_P
+sp|P04608|TAT_HV1H2	sp|P51959|CCNG1_HUMAN	101.8	3MI9_C	2F2C_A	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q96KG9|SCYL1_HUMAN	101.8	3MI9_C	3VWA_B	4OGR_D	4OR5_F
+sp|P69726|VPR_HV1H2	sp|P0C7V8|DC8L2_HUMAN	101.7	1ESX_A	6RXZ_C	5JK7_F	5JK7_E
+sp|P43121|MUC18_HUMAN	sp|P04578|ENV_HV1H2	101.6	5A2F_A	6PWU_E	6MET_A	3J70_P
+sp|P07306|ASGR1_HUMAN	sp|P04578|ENV_HV1H2	101.6	5G6U_A	6PWU_E	1QO3_C	3J70_P
+sp|Q96LA6|FCRL1_HUMAN	sp|P04578|ENV_HV1H2	101.5	3J8F_7	6PWU_E	6MET_A	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9BRP4|PAAF1_HUMAN	101.5	1ESX_A	3ACP_A	5JK7_F	5JK7_E
+sp|Q6T311|ARL9_HUMAN	sp|P04601|NEF_HV1H2	101.4	4M9Q_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P05919|VPU_HV1H2	sp|Q86VP6|CAND1_HUMAN	101.4	2N28_A	1U6G_C	4P6Z_V	4P6Z_B
+sp|P69726|VPR_HV1H2	sp|Q9HBG6|IF122_HUMAN	101.4	1ESX_A	3MKQ_E	5JK7_F	5JK7_E
+sp|P04585|POL_HV1H2	sp|Q9NPB3|CABP2_HUMAN	101.3	1L6N_A	3OX5_F	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9NPB3|CABP2_HUMAN	101.3	1L6N_A	3OX5_F	2MGU_M	5DOW_A
+sp|P04578|ENV_HV1H2	sp|Q9NP60|IRPL2_HUMAN	101.2	6PWU_E	5Y32_B	6NIJ_B	5WHZ_L
+sp|P04578|ENV_HV1H2	sp|Q9UDY8|MALT1_HUMAN	101.2	6PWU_E	6F7I_A	2NY2_A	4HJJ_L
+sp|P22897|MRC1_HUMAN	sp|P04578|ENV_HV1H2	101.1	5XTS_A	6PWU_E	1QO3_C	3J70_P
+sp|Q6MZW2|FSTL4_HUMAN	sp|P04585|POL_HV1H2	101.0	1NUB_B	1L6N_A	5T70_G	3GV2_A
+sp|P43119|PI2R_HUMAN	sp|P04578|ENV_HV1H2	101.0	3EML_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6MZW2|FSTL4_HUMAN	sp|P04591|GAG_HV1H2	101.0	1NUB_B	1L6N_A	5T70_G	3GV2_A
+sp|Q8N6G6|ATL1_HUMAN	sp|P04585|POL_HV1H2	101.0	3VN4_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8N6G6|ATL1_HUMAN	sp|P04591|GAG_HV1H2	101.0	3VN4_A	1L6N_A	5T70_G	3GV2_A
+sp|P69726|VPR_HV1H2	sp|Q8N122|RPTOR_HUMAN	100.9	1ESX_A	6BCX_W	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q96FK6|WDR89_HUMAN	100.9	1ESX_A	6QK7_B	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|Q96IQ7|VSIG2_HUMAN	100.7	6PWU_E	6A69_B	3U2S_C	5N2K_F
+sp|P04618|REV_HV1H2	sp|Q8N475|FSTL5_HUMAN	100.7	2X7L_R	1NUB_B	5DHX_C	6CVK_A
+sp|Q8NFZ8|CADM4_HUMAN	sp|P04585|POL_HV1H2	100.7	5ZO2_C	1L6N_A	6ID4_C	1R0A_A
+sp|Q9H340|O51B6_HUMAN	sp|P04578|ENV_HV1H2	100.7	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9ULT8|HECD1_HUMAN	sp|P04578|ENV_HV1H2	100.7	5TJ7_D	6PWU_E	6QFK_A	6B0N_G
+sp|P04578|ENV_HV1H2	sp|Q9Y286|SIGL7_HUMAN	100.6	6PWU_E	5LFV_B	6FY1_G	4HJJ_H
+sp|Q9BR61|ACBD6_HUMAN	sp|P04578|ENV_HV1H2	100.6	1HBK_A	6PWU_E	6QFK_A	6B0N_G
+sp|P04578|ENV_HV1H2	sp|A2RUH7|MBPHL_HUMAN	100.5	6PWU_E	2Y25_D	6NIJ_B	5WHZ_L
+sp|P69726|VPR_HV1H2	sp|Q9UQ03|COR2B_HUMAN	100.5	1ESX_A	4OZU_A	5JK7_F	5JK7_E
+sp|Q9H078|CLPB_HUMAN	sp|P04578|ENV_HV1H2	100.5	6E10_4	6PWU_E	6QFK_A	6B0N_G
+sp|P04601|NEF_HV1H2	sp|Q6T310|RSLBA_HUMAN	100.4	3TB8_A	6JMG_A	6CRI_Z	6DFF_C
+sp|P69723|VIF_HV1H2	sp|Q15370|ELOB_HUMAN	100.4	4N9F_b	6I7R_B	4N9F_b	2MA9_B
+sp|P47883|OR3A4_HUMAN	sp|P04578|ENV_HV1H2	100.2	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96KQ4|ASPP1_HUMAN	sp|P04578|ENV_HV1H2	100.1	6GHM_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q9H6B4|CLMP_HUMAN	sp|P04585|POL_HV1H2	99.9	3JZ7_A	1L6N_A	6ID4_C	1R0A_A
+sp|Q8NH09|OR8S1_HUMAN	sp|P04578|ENV_HV1H2	99.8	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P0C6C1|AN34C_HUMAN	sp|P04578|ENV_HV1H2	99.7	1OY3_D	6PWU_E	6QFK_A	6B0N_G
+sp|P04601|NEF_HV1H2	sp|O94844|RHBT1_HUMAN	99.6	3TB8_A	5U4V_A	6CRI_Z	6DFF_C
+sp|Q8N442|GUF1_HUMAN	sp|P04601|NEF_HV1H2	99.6	5IMQ_B	3TB8_A	6CRI_L	6CRI_Z
+sp|Q9UMF0|ICAM5_HUMAN	sp|P04585|POL_HV1H2	99.6	3B43_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9UMF0|ICAM5_HUMAN	sp|P04591|GAG_HV1H2	99.6	3B43_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q9UMF0|ICAM5_HUMAN	99.4	6PWU_E	3B43_A	2NY2_A	4HJJ_L
+sp|P04578|ENV_HV1H2	sp|Q13410|BT1A1_HUMAN	99.3	6PWU_E	5HM7_A	3U2S_C	5N2K_F
+sp|P04578|ENV_HV1H2	sp|P54296|MYOM2_HUMAN	99.2	6PWU_E	3L5H_A	6NIJ_B	5WHZ_L
+sp|P04601|NEF_HV1H2	sp|Q9NYS0|KBRS1_HUMAN	99.2	3TB8_A	3RWO_A	6CRI_Z	6DFF_C
+sp|Q9UBF9|MYOTI_HUMAN	sp|P04585|POL_HV1H2	99.2	2J8H_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9UBF9|MYOTI_HUMAN	sp|P04591|GAG_HV1H2	99.2	2J8H_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8N8V4|ANS4B_HUMAN	sp|P04578|ENV_HV1H2	99.1	5F3Y_B	6PWU_E	6QFK_A	6B0N_G
+sp|Q9P1W8|SIRPG_HUMAN	sp|P04585|POL_HV1H2	99.0	4I2X_F	1L6N_A	6ID4_C	1R0A_A
+sp|P69726|VPR_HV1H2	sp|Q13409|DC1I2_HUMAN	99.0	1ESX_A	6F1Z_o	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|P11464|PSG1_HUMAN	98.8	6PWU_E	1E07_A	6NIJ_B	5WHZ_L
+sp|Q969Y2|GTPB3_HUMAN	sp|P04601|NEF_HV1H2	98.8	3GEE_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P69726|VPR_HV1H2	sp|Q9Y2K9|STB5L_HUMAN	98.8	1ESX_A	6N8R_A	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|Q14324|MYPC2_HUMAN	98.7	6PWU_E	3B43_A	6FY1_G	4HJJ_H
+sp|P40199|CEAM6_HUMAN	sp|P04585|POL_HV1H2	98.6	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|P69726|VPR_HV1H2	sp|A6NGE4|DC8L1_HUMAN	98.6	1ESX_A	6RXU_C	5JK7_F	5JK7_E
+sp|P40199|CEAM6_HUMAN	sp|P04591|GAG_HV1H2	98.6	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8N9C0|IGS22_HUMAN	sp|P04578|ENV_HV1H2	98.5	6IAA_A	6PWU_E	6MET_A	3J70_P
+sp|Q5H913|AR13A_HUMAN	sp|P04601|NEF_HV1H2	98.5	4M9Q_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q14449|GRB14_HUMAN	98.4	3TB8_A	4K81_G	4U5W_C	4U5W_B
+sp|O95800|GPR75_HUMAN	sp|P04578|ENV_HV1H2	98.4	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q00888|PSG4_HUMAN	98.3	6PWU_E	1E07_A	6NIJ_B	5WHZ_L
+sp|Q9HCN4|GPN1_HUMAN	sp|P04601|NEF_HV1H2	98.3	5HCN_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q8NH08|O10AC_HUMAN	sp|P04578|ENV_HV1H2	98.3	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|P78324|SHPS1_HUMAN	sp|P04578|ENV_HV1H2	98.0	4I2X_F	6PWU_E	6MET_A	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q16557|PSG3_HUMAN	98.0	6PWU_E	1E07_A	6NIJ_B	5WHZ_L
+sp|P04578|ENV_HV1H2	sp|P15151|PVR_HUMAN	97.9	6PWU_E	3J8F_7	6NIJ_B	5WHZ_L
+sp|P04578|ENV_HV1H2	sp|Q9UQ74|PSG8_HUMAN	97.9	6PWU_E	1E07_A	6NIJ_B	5WHZ_L
+sp|Q96LA6|FCRL1_HUMAN	sp|P04585|POL_HV1H2	97.9	3J8F_7	1L6N_A	6ID4_C	1R0A_A
+sp|P69726|VPR_HV1H2	sp|Q8TDJ6|DMXL2_HUMAN	97.9	1ESX_A	4WJV_A	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q8TBZ3|WDR20_HUMAN	97.8	1ESX_A	5K1C_C	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q9BYB4|GNB1L_HUMAN	97.8	1ESX_A	4WJV_A	5JK7_F	5JK7_E
+sp|P13688|CEAM1_HUMAN	sp|P04591|GAG_HV1H2	97.8	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9NWX5|ASB6_HUMAN	sp|P04578|ENV_HV1H2	97.8	3EU9_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q3KPI0|CEA21_HUMAN	sp|P04578|ENV_HV1H2	97.7	1E07_A	6PWU_E	6UDK_H	4TVP_G
+sp|P69726|VPR_HV1H2	sp|O94979|SC31A_HUMAN	97.7	1ESX_A	4BZJ_C	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q96MX6|WDR92_HUMAN	97.7	1ESX_A	3I2N_A	5JK7_F	5JK7_E
+sp|A4D1E9|GTPBA_HUMAN	sp|P04601|NEF_HV1H2	97.6	1LNZ_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q9BQI5|SGIP1_HUMAN	97.6	3TB8_A	5JP2_A	4EN2_B	6CRI_M
+sp|P04618|REV_HV1H2	sp|Q9BX67|JAM3_HUMAN	97.6	2X7L_R	1NBQ_A	2X7L_R	5I8O_L
+sp|P05919|VPU_HV1H2	sp|Q9BQI5|SGIP1_HUMAN	97.6	2N28_A	5JP2_A	4P6Z_V	6CRI_M
+sp|P04578|ENV_HV1H2	sp|O15389|SIGL5_HUMAN	97.5	6PWU_E	5LFU_A	6FY1_G	4HJJ_H
+sp|P04608|TAT_HV1H2	sp|Q6ZMN8|CCNI2_HUMAN	97.5	3MI9_C	1BU2_A	3MI9_C	2PK2_B
+sp|Q00887|PSG9_HUMAN	sp|P04578|ENV_HV1H2	97.4	1E07_A	6PWU_E	6MET_A	3J70_P
+sp|Q8N9C0|IGS22_HUMAN	sp|P04585|POL_HV1H2	97.4	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8N9C0|IGS22_HUMAN	sp|P04591|GAG_HV1H2	97.4	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8NH63|O51H1_HUMAN	sp|P04578|ENV_HV1H2	97.3	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9UBG0|MRC2_HUMAN	sp|P04578|ENV_HV1H2	97.2	5EW6_A	6PWU_E	1QO3_C	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q9BYZ6|RHBT2_HUMAN	96.9	3TB8_A	5U4V_A	6CRI_Z	6DFF_C
+sp|P05919|VPU_HV1H2	sp|O75155|CAND2_HUMAN	96.9	2N28_A	1U6G_C	4P6Z_V	4P6Z_B
+sp|O60500|NPHN_HUMAN	sp|P04585|POL_HV1H2	96.9	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|O60500|NPHN_HUMAN	sp|P04591|GAG_HV1H2	96.9	3DMK_A	1L6N_A	5T70_G	3GV2_A
+sp|Q6IF36|O8G2P_HUMAN	sp|P04578|ENV_HV1H2	96.7	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P04618|REV_HV1H2	sp|Q8WZ75|ROBO4_HUMAN	96.5	2X7L_R	4YFD_A	5DHX_C	6CVK_A
+sp|P69726|VPR_HV1H2	sp|Q92828|COR2A_HUMAN	96.4	1ESX_A	4OZU_A	5JK7_F	5JK7_E
+sp|P0DTU4|TRBR2_HUMAN	sp|P04601|NEF_HV1H2	96.4	6JXR_n	3TB8_A	5XOV_H	3TB8_A
+sp|P47804|RGR_HUMAN	sp|P04578|ENV_HV1H2	96.4	4WW3_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96PQ1|SIG12_HUMAN	sp|P04578|ENV_HV1H2	96.2	5LFU_A	6PWU_E	6MET_A	3J70_P
+sp|O75616|ERAL1_HUMAN	sp|P04601|NEF_HV1H2	96.2	3IEU_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P05919|VPU_HV1H2	sp|O00410|IPO5_HUMAN	96.2	2N28_A	6XU2_A	4P6Z_V	4P6Z_B
+sp|A0PJZ0|A20A5_HUMAN	sp|P04578|ENV_HV1H2	96.2	6CF6_B	6PWU_E	6QFK_A	6B0N_G
+sp|P04578|ENV_HV1H2	sp|Q86XK7|VSIG1_HUMAN	96.1	6PWU_E	6JXR_n	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|Q92730|RND1_HUMAN	96.1	3TB8_A	2REX_D	6CRI_Z	6DFF_C
+sp|P69726|VPR_HV1H2	sp|Q6PJI9|WDR59_HUMAN	96.1	1ESX_A	3W15_A	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q8IWA0|WDR75_HUMAN	96.1	1ESX_A	6RXU_U	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q9BQA1|MEP50_HUMAN	96.1	1ESX_A	4GQB_B	5JK7_F	5JK7_E
+sp|P04585|POL_HV1H2	sp|Q9BRX2|PELO_HUMAN	96.0	1L6N_A	5LZZ_i	5DMQ_A	5DMQ_B
+sp|P04618|REV_HV1H2	sp|Q6MZW2|FSTL4_HUMAN	96.0	2X7L_R	1NUB_B	5DHX_C	6CVK_A
+sp|P04578|ENV_HV1H2	sp|Q9NYZ4|SIGL8_HUMAN	95.9	6PWU_E	5LFR_B	6NIJ_B	5WHZ_L
+sp|P21731|TA2R_HUMAN	sp|P04578|ENV_HV1H2	95.9	6IIU_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9Y5P0|O51B4_HUMAN	sp|P04578|ENV_HV1H2	95.9	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9NQW1|SC31B_HUMAN	95.6	1ESX_A	4BZJ_C	5JK7_F	5JK7_E
+sp|Q5H8C1|FREM1_HUMAN	sp|P04578|ENV_HV1H2	95.5	6PWR_A	6PWU_E	1QO3_C	3J70_P
+sp|Q96AM1|MRGRF_HUMAN	sp|P04578|ENV_HV1H2	95.5	6D26_A	6PWU_E	6MEO_B	3J70_P
+sp|P35613|BASI_HUMAN	sp|P04585|POL_HV1H2	95.3	4U0Q_B	1L6N_A	5T70_G	3GV2_A
+sp|P35613|BASI_HUMAN	sp|P04591|GAG_HV1H2	95.3	4U0Q_B	1L6N_A	5T70_G	3GV2_A
+sp|Q9ULY5|CLC4E_HUMAN	sp|P04578|ENV_HV1H2	95.3	4ZRW_A	6PWU_E	1QO3_C	3J70_P
+sp|P05451|REG1A_HUMAN	sp|P04578|ENV_HV1H2	95.2	1QDD_A	6PWU_E	1QO3_C	3J70_P
+sp|Q6IF63|O52W1_HUMAN	sp|P04578|ENV_HV1H2	95.2	6IGK_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8NGA4|G32P1_HUMAN	sp|P04578|ENV_HV1H2	95.1	6OMM_R	6PWU_E	6MEO_B	3J70_P
+sp|Q8IV38|ANKY2_HUMAN	sp|P04578|ENV_HV1H2	95.0	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q8WTT0|CLC4C_HUMAN	sp|P04578|ENV_HV1H2	95.0	4ZES_B	6PWU_E	1QO3_C	3J70_P
+sp|P48304|REG1B_HUMAN	sp|P04578|ENV_HV1H2	94.9	1QDD_A	6PWU_E	1QO3_C	3J70_P
+sp|P04601|NEF_HV1H2	sp|O75155|CAND2_HUMAN	94.8	3TB8_A	1U6G_C	6CRI_Z	6CRI_I
+sp|Q7Z3H0|PANKY_HUMAN	sp|P04578|ENV_HV1H2	94.8	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q8N6C5|IGSF1_HUMAN	sp|P04578|ENV_HV1H2	94.7	6GRT_B	6PWU_E	6MET_A	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q09019|DMWD_HUMAN	94.6	1ESX_A	5K19_A	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|O43699|SIGL6_HUMAN	94.5	6PWU_E	5VKJ_A	2NY2_A	4HJJ_L
+sp|Q8WZ75|ROBO4_HUMAN	sp|P04585|POL_HV1H2	94.5	4YFD_A	1L6N_A	5T70_G	3GV2_A
+sp|P69726|VPR_HV1H2	sp|Q8IZQ1|WDFY3_HUMAN	94.5	1ESX_A	1T77_D	5JK7_F	5JK7_E
+sp|Q5H9F3|BCORL_HUMAN	sp|P04578|ENV_HV1H2	94.5	4HPM_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q8NH18|OR5J2_HUMAN	sp|P04578|ENV_HV1H2	94.5	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8WZ75|ROBO4_HUMAN	sp|P04591|GAG_HV1H2	94.5	4YFD_A	1L6N_A	5T70_G	3GV2_A
+sp|Q96NY8|NECT4_HUMAN	sp|P04585|POL_HV1H2	94.5	3J8F_7	1L6N_A	5T70_G	3GV2_A
+sp|Q96NY8|NECT4_HUMAN	sp|P04591|GAG_HV1H2	94.5	3J8F_7	1L6N_A	5T70_G	3GV2_A
+sp|P69726|VPR_HV1H2	sp|Q12770|SCAP_HUMAN	94.4	1ESX_A	6XE6_A	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q8TBY9|CF251_HUMAN	94.4	1ESX_A	6U42_5	5JK7_F	5JK7_E
+sp|Q9Y279|VSIG4_HUMAN	sp|P04578|ENV_HV1H2	94.3	5IML_A	6PWU_E	6UDK_H	4TVP_G
+sp|Q9UDY8|MALT1_HUMAN	sp|P04585|POL_HV1H2	94.3	6F7I_A	1L6N_A	5T70_G	3GV2_A
+sp|P04618|REV_HV1H2	sp|P57087|JAM2_HUMAN	94.3	2X7L_R	6GSI_F	2X7L_R	5I8O_L
+sp|Q9UDY8|MALT1_HUMAN	sp|P04591|GAG_HV1H2	94.3	6F7I_A	1L6N_A	5T70_G	3GV2_A
+sp|Q96RL6|SIG11_HUMAN	sp|P04585|POL_HV1H2	94.2	5LF5_A	1L6N_A	5T70_G	3GV2_A
+sp|P69726|VPR_HV1H2	sp|Q6ZNJ1|NBEL2_HUMAN	94.2	1ESX_A	1T77_D	5JK7_F	5JK7_E
+sp|Q96RL6|SIG11_HUMAN	sp|P04591|GAG_HV1H2	94.2	5LF5_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9UDY8|MALT1_HUMAN	sp|P04601|NEF_HV1H2	94.2	6F7I_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|Q13046|PSG7_HUMAN	94.1	6PWU_E	1E07_A	6NIJ_B	5WHZ_L
+sp|P04585|POL_HV1H2	sp|P37235|HPCL1_HUMAN	94.0	1L6N_A	1BJF_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P37235|HPCL1_HUMAN	94.0	1L6N_A	1BJF_B	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|Q14451|GRB7_HUMAN	93.9	3TB8_A	4KVG_D	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|Q13203|MYBPH_HUMAN	93.8	2X7L_R	2RIK_A	5DHX_C	6CVK_A
+sp|Q13740|CD166_HUMAN	sp|P04578|ENV_HV1H2	93.7	5A2F_A	6PWU_E	6MET_A	3J70_P
+sp|Q8WXI8|CLC4D_HUMAN	sp|P04578|ENV_HV1H2	93.7	3WHD_C	6PWU_E	1QO3_C	3J70_P
+sp|P04618|REV_HV1H2	sp|A6NGN9|IGLO5_HUMAN	93.6	2X7L_R	6DLD_A	5DHX_C	6CVK_A
+sp|Q8N0Z9|VSI10_HUMAN	sp|P04585|POL_HV1H2	93.6	3QS7_E	1L6N_A	6ID4_C	1R0A_A
+sp|P69726|VPR_HV1H2	sp|Q8N5D0|WDTC1_HUMAN	93.5	1ESX_A	4WJV_A	5JK7_F	5JK7_E
+sp|Q9UMR7|CLC4A_HUMAN	sp|P04578|ENV_HV1H2	93.5	5B1W_C	6PWU_E	1QO3_C	3J70_P
+sp|Q93033|IGSF2_HUMAN	sp|P04578|ENV_HV1H2	93.4	1E07_A	6PWU_E	6MET_A	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q99795|GPA33_HUMAN	93.4	6PWU_E	6A69_B	3J70_P	4Q6I_J
+sp|Q86VR7|VS10L_HUMAN	sp|P04578|ENV_HV1H2	93.3	5A2F_A	6PWU_E	6MET_A	3J70_P
+sp|P04618|REV_HV1H2	sp|P82987|ATL3_HUMAN	93.3	2X7L_R	3GHM_A	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|Q96IQ7|VSIG2_HUMAN	93.3	2X7L_R	6A69_B	5DHX_C	6CVK_A
+sp|O60841|IF2P_HUMAN	sp|P04601|NEF_HV1H2	93.2	6UZ7_1	3TB8_A	6CRI_L	6CRI_Z
+sp|Q8NGU9|GP150_HUMAN	sp|P04578|ENV_HV1H2	93.2	5T04_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q5DX21|IGS11_HUMAN	93.1	6PWU_E	6A69_B	6NIJ_B	3U1S_H
+sp|P05919|VPU_HV1H2	sp|O15131|IMA6_HUMAN	93.0	2N28_A	1WA5_B	4P6Z_V	4P6Z_G
+sp|P04578|ENV_HV1H2	sp|Q86VF2|IGFN1_HUMAN	92.9	6PWU_E	2V5Y_A	2NY2_A	4HJJ_L
+sp|P04618|REV_HV1H2	sp|Q96LA5|FCRL2_HUMAN	92.8	2X7L_R	6AED_A	2X7L_R	5I8O_L
+sp|P69726|VPR_HV1H2	sp|Q6ZS81|WDFY4_HUMAN	92.8	1ESX_A	1T77_D	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|Q00889|PSG6_HUMAN	92.7	6PWU_E	1E07_A	6NIJ_B	5WHZ_L
+sp|P04601|NEF_HV1H2	sp|O00629|IMA3_HUMAN	92.7	3TB8_A	5TBK_D	6OWT_N	6OWT_A
+sp|Q5HYI8|RABL3_HUMAN	sp|P04601|NEF_HV1H2	92.7	6VIJ_B	3TB8_A	6CRI_L	6CRI_Z
+sp|Q9P2S6|ANKY1_HUMAN	sp|P04578|ENV_HV1H2	92.7	5JHQ_D	6PWU_E	6QFK_A	6B0N_G
+sp|P04585|POL_HV1H2	sp|Q96IQ7|VSIG2_HUMAN	92.6	1L6N_A	6A69_B	1R0A_A	1HYS_D
+sp|P69726|VPR_HV1H2	sp|Q92747|ARC1A_HUMAN	92.6	1ESX_A	1K8K_C	5JK7_F	5JK7_E
+sp|Q5ZPR3|CD276_HUMAN	sp|P04585|POL_HV1H2	92.4	1MCO_H	1L6N_A	6ID4_C	1R0A_A
+sp|Q9H4K7|MTG2_HUMAN	sp|P04601|NEF_HV1H2	92.4	4CSU_9	3TB8_A	6CRI_L	6CRI_Z
+sp|P69726|VPR_HV1H2	sp|Q9ULI1|NWD2_HUMAN	92.4	1ESX_A	3SFZ_A	5JK7_F	5JK7_E
+sp|P04585|POL_HV1H2	sp|P63098|CANB1_HUMAN	92.3	1L6N_A	4F0Z_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P63098|CANB1_HUMAN	92.3	1L6N_A	4F0Z_B	2MGU_M	5DOW_A
+sp|A6NFC9|OR2W5_HUMAN	sp|P04578|ENV_HV1H2	92.2	4ZUD_A	6PWU_E	6MEO_B	3J70_P
+sp|P19086|GNAZ_HUMAN	sp|P04601|NEF_HV1H2	92.1	6NE6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q96PQ1|SIG12_HUMAN	sp|P04585|POL_HV1H2	92.0	5LFU_A	1L6N_A	6ID4_C	1R0A_A
+sp|Q9Y450|HBS1L_HUMAN	sp|P04601|NEF_HV1H2	92.0	5LZZ_j	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|P01871|IGHM_HUMAN	91.9	6PWU_E	6KXS_A	6FY1_G	4HJJ_H
+sp|P04601|NEF_HV1H2	sp|O00505|IMA4_HUMAN	91.9	3TB8_A	5TBK_D	6OWT_N	6OWT_A
+sp|P04585|POL_HV1H2	sp|P61601|NCALD_HUMAN	91.7	1L6N_A	1BJF_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P61601|NCALD_HUMAN	91.7	1L6N_A	1BJF_B	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|Q13322|GRB10_HUMAN	91.6	3TB8_A	3HK0_A	4U5W_C	4U5W_B
+sp|P69726|VPR_HV1H2	sp|Q9Y485|DMXL1_HUMAN	91.6	1ESX_A	6JLQ_C	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|A0A087WV53|SPEGN_HUMAN	91.5	6PWU_E	2ILL_A	6NIJ_B	5WHZ_L
+sp|Q6EIG7|CLC6A_HUMAN	sp|P04578|ENV_HV1H2	91.5	5VYB_A	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q5JXA9|SIRB2_HUMAN	91.3	6PWU_E	4MNG_E	5FYJ_G	5D9Q_O
+sp|P63096|GNAI1_HUMAN	sp|P04601|NEF_HV1H2	91.3	6NE6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q8IYD1|ERF3B_HUMAN	sp|P04601|NEF_HV1H2	91.3	5LZT_j	3TB8_A	6CRI_L	6CRI_Z
+sp|P69723|VIF_HV1H2	sp|P62987|RL40_HUMAN	91.3	4N9F_b	4V88_B	4N9F_b	2MA9_B
+sp|P43121|MUC18_HUMAN	sp|P04585|POL_HV1H2	91.3	5A2F_A	1L6N_A	5T70_G	3GV2_A
+sp|P43121|MUC18_HUMAN	sp|P04591|GAG_HV1H2	91.3	5A2F_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8WZ75|ROBO4_HUMAN	sp|P04601|NEF_HV1H2	91.2	4YFD_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|P27930|IL1R2_HUMAN	91.1	6PWU_E	3O4O_C	6FY1_G	4HJJ_H
+sp|P04585|POL_HV1H2	sp|P57087|JAM2_HUMAN	91.1	1L6N_A	6GSI_F	1R0A_A	2XKN_C
+sp|P69726|VPR_HV1H2	sp|Q9GZS0|DNAI2_HUMAN	91.1	1ESX_A	6RLB_C	5JK7_F	5JK7_E
+sp|Q8WUF5|IASPP_HUMAN	sp|P04578|ENV_HV1H2	91.1	6GHM_D	6PWU_E	6QFK_A	6B0N_G
+sp|O75054|IGSF3_HUMAN	sp|P04578|ENV_HV1H2	91.0	1E07_A	6PWU_E	5VIY_H	4TVP_G
+sp|Q96PJ5|FCRL4_HUMAN	sp|P04578|ENV_HV1H2	91.0	6AED_A	6PWU_E	6MET_A	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9Y4E6|WDR7_HUMAN	91.0	1ESX_A	6QK7_B	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|Q9Y336|SIGL9_HUMAN	90.9	6PWU_E	5LFV_B	6NIJ_B	5WHZ_L
+sp|P04618|REV_HV1H2	sp|P78324|SHPS1_HUMAN	90.9	2X7L_R	4I2X_F	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|O14576|DC1I1_HUMAN	90.9	1ESX_A	6F1Z_o	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|A8MVW5|HECA2_HUMAN	90.8	6PWU_E	5LFR_A	6FY1_G	4HJJ_H
+sp|P04578|ENV_HV1H2	sp|P63135|POK7_HUMAN	90.8	6PWU_E	5OVN_A	6UM5_E	6MAR_D
+sp|P04601|NEF_HV1H2	sp|O15131|IMA6_HUMAN	90.8	3TB8_A	1WA5_B	6OWT_N	6OWT_A
+sp|Q14896|MYPC3_HUMAN	sp|P04585|POL_HV1H2	90.8	2LHU_A	1L6N_A	5T70_G	3GV2_A
+sp|Q14896|MYPC3_HUMAN	sp|P04591|GAG_HV1H2	90.8	2LHU_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q6UXZ0|TMIG1_HUMAN	90.7	6PWU_E	6A69_B	3U2S_C	5N2K_F
+sp|P04585|POL_HV1H2	sp|O60930|RNH1_HUMAN	90.7	1L6N_A	2QKK_A	1R0A_A	1R0A_A
+sp|P15170|ERF3A_HUMAN	sp|P04601|NEF_HV1H2	90.7	5LZT_j	3TB8_A	6CRI_L	6CRI_Z
+sp|P69726|VPR_HV1H2	sp|Q99698|LYST_HUMAN	90.5	1ESX_A	1T77_D	5JK7_F	5JK7_E
+sp|Q9Y5S1|TRPV2_HUMAN	sp|P04578|ENV_HV1H2	90.5	6U84_C	6PWU_E	6QFK_A	6B0N_G
+sp|P69726|VPR_HV1H2	sp|O75530|EED_HUMAN	90.4	1ESX_A	5WUK_A	5JK7_F	5JK7_E
+sp|Q8NFZ8|CADM4_HUMAN	sp|P04591|GAG_HV1H2	90.4	5ZO2_C	1L6N_A	5T70_G	3GV2_A
+sp|P40199|CEAM6_HUMAN	sp|P04601|NEF_HV1H2	90.2	1E07_A	3TB8_A	5XOV_H	3TB8_A
+sp|P57772|SELB_HUMAN	sp|P04601|NEF_HV1H2	90.0	5IZL_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P69723|VIF_HV1H2	sp|P62979|RS27A_HUMAN	90.0	4N9F_b	5XXU_f	4N9F_b	2MA9_B
+sp|Q3KPI0|CEA21_HUMAN	sp|P04585|POL_HV1H2	89.8	1E07_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04601|NEF_HV1H2	sp|P42345|MTOR_HUMAN	89.8	3TB8_A	6BCX_B	6OWT_N	6OWT_A
+sp|Q00872|MYPC1_HUMAN	sp|P04585|POL_HV1H2	89.8	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q00872|MYPC1_HUMAN	sp|P04591|GAG_HV1H2	89.8	6IAA_A	1L6N_A	5T70_G	3GV2_A
+sp|Q07108|CD69_HUMAN	sp|P04578|ENV_HV1H2	89.8	3HUP_B	6PWU_E	1QO3_C	3J70_P
+sp|Q96RL6|SIG11_HUMAN	sp|P04601|NEF_HV1H2	89.8	5LF5_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q05639|EF1A2_HUMAN	sp|P04601|NEF_HV1H2	89.7	6RA9_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|Q14896|MYPC3_HUMAN	89.7	2X7L_R	2LHU_A	5DHX_C	6CVK_A
+sp|P69726|VPR_HV1H2	sp|Q9UKT8|FBXW2_HUMAN	89.7	1ESX_A	3V7D_D	5JK7_F	5JK7_E
+sp|Q13203|MYBPH_HUMAN	sp|P04585|POL_HV1H2	89.7	2RIK_A	1L6N_A	5T70_G	3GV2_A
+sp|Q13203|MYBPH_HUMAN	sp|P04591|GAG_HV1H2	89.7	2RIK_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q9UIR0|BTNL2_HUMAN	89.6	6PWU_E	4PFE_B	6FY1_G	4HJJ_H
+sp|P04578|ENV_HV1H2	sp|P01743|HV146_HUMAN	89.4	6PWU_E	3U1S_H	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|Q9BX67|JAM3_HUMAN	89.4	1L6N_A	1NBQ_A	1R0A_A	2XKN_C
+sp|P04899|GNAI2_HUMAN	sp|P04601|NEF_HV1H2	89.4	6NE6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P08754|GNAI3_HUMAN	sp|P04601|NEF_HV1H2	89.4	6NE6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|Q9H6B4|CLMP_HUMAN	89.4	2X7L_R	3JZ7_A	2X7L_R	5I8O_H
+sp|P50895|BCAM_HUMAN	sp|P04585|POL_HV1H2	89.3	5A2F_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04578|ENV_HV1H2	sp|Q9NX77|ENK13_HUMAN	89.1	6PWU_E	6MAR_D	6UM5_E	6MAR_D
+sp|P35410|MAS1L_HUMAN	sp|P04578|ENV_HV1H2	89.1	6LI0_A	6PWU_E	6MEO_B	3J70_P
+sp|P57087|JAM2_HUMAN	sp|P04591|GAG_HV1H2	89.1	6GSI_F	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH29|HV103_HUMAN	89.0	6PWU_E	3U1S_H	6NIJ_B	3U1S_H
+sp|Q9Y6G9|DC1L1_HUMAN	sp|P04601|NEF_HV1H2	89.0	6F1T_j	3TB8_A	6CRI_L	6CRI_Z
+sp|P69726|VPR_HV1H2	sp|Q9UI46|DNAI1_HUMAN	89.0	1ESX_A	6F1Z_o	5JK7_F	5JK7_E
+sp|P04585|POL_HV1H2	sp|Q96LZ3|CANB2_HUMAN	88.9	1L6N_A	4F0Z_B	2MGU_M	5DOW_A
+sp|Q9Y286|SIGL7_HUMAN	sp|P04585|POL_HV1H2	88.9	5LFV_B	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|Q96LZ3|CANB2_HUMAN	88.9	1L6N_A	4F0Z_B	2MGU_M	5DOW_A
+sp|Q9Y286|SIGL7_HUMAN	sp|P04591|GAG_HV1H2	88.9	5LFV_B	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|A6NMB1|SIG16_HUMAN	88.8	1L6N_A	5LFU_A	1R0A_A	2XKN_C
+sp|Q96P47|AGAP3_HUMAN	sp|P04601|NEF_HV1H2	88.7	3JUE_A	3TB8_A	6CRI_L	6CRI_Z
+sp|A6NGN9|IGLO5_HUMAN	sp|P04601|NEF_HV1H2	88.7	6DLD_A	3TB8_A	5XOV_H	3TB8_A
+sp|P05919|VPU_HV1H2	sp|Q5W041|ARMC3_HUMAN	88.6	2N28_A	1JDH_A	4P6Z_V	4P6Z_G
+sp|P50895|BCAM_HUMAN	sp|P04591|GAG_HV1H2	88.6	5A2F_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|P43080|GUC1A_HUMAN	88.5	1L6N_A	2R2I_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P43080|GUC1A_HUMAN	88.5	1L6N_A	2R2I_A	2MGU_M	5DOW_A
+sp|P04618|REV_HV1H2	sp|Q00872|MYPC1_HUMAN	88.5	2X7L_R	6IAA_A	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|Q9UDY8|MALT1_HUMAN	88.5	2X7L_R	6F7I_A	2X7L_R	5I8O_L
+sp|Q8N3J6|CADM2_HUMAN	sp|P04591|GAG_HV1H2	88.5	5ZO2_C	1L6N_A	5T70_G	3GV2_A
+sp|P69726|VPR_HV1H2	sp|B1ANS9|WDR64_HUMAN	88.4	1ESX_A	5M2N_A	5JK7_F	5JK7_E
+sp|Q8NGU1|OR9A1_HUMAN	sp|P04578|ENV_HV1H2	88.3	5IU7_A	6PWU_E	6MEO_B	3J70_P
+sp|O15389|SIGL5_HUMAN	sp|P04585|POL_HV1H2	88.2	5LFU_A	1L6N_A	6ID4_C	1R0A_A
+sp|Q96LC7|SIG10_HUMAN	sp|P04585|POL_HV1H2	88.2	5LF5_A	1L6N_A	5T70_G	3GV2_A
+sp|Q14324|MYPC2_HUMAN	sp|P04585|POL_HV1H2	88.2	3B43_A	1L6N_A	5T70_G	3GV2_A
+sp|Q14324|MYPC2_HUMAN	sp|P04591|GAG_HV1H2	88.2	3B43_A	1L6N_A	5T70_G	3GV2_A
+sp|Q96LC7|SIG10_HUMAN	sp|P04591|GAG_HV1H2	88.2	5LF5_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|P0DP72|VSXL2_HUMAN	88.1	6PWU_E	2RCJ_H	6NIJ_B	5WHZ_L
+sp|P78310|CXAR_HUMAN	sp|P04585|POL_HV1H2	88.1	3JZ7_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04618|REV_HV1H2	sp|Q8N3J6|CADM2_HUMAN	88.1	2X7L_R	5ZO2_C	2X7L_R	5I8O_L
+sp|P04601|NEF_HV1H2	sp|Q9UPQ3|AGAP1_HUMAN	88.0	3TB8_A	3JUE_A	6CRI_Z	6DFF_C
+sp|P69726|VPR_HV1H2	sp|Q9UG01|IF172_HUMAN	88.0	1ESX_A	6QK7_A	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|Q92692|NECT2_HUMAN	87.9	6PWU_E	3J8F_7	2NY2_A	4HJJ_L
+sp|P04601|NEF_HV1H2	sp|O60684|IMA7_HUMAN	87.9	3TB8_A	4UAD_A	6OWT_N	6OWT_A
+sp|P29992|GNA11_HUMAN	sp|P04601|NEF_HV1H2	87.9	6NE6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|A0A087WV53|SPEGN_HUMAN	87.9	2X7L_R	2ILL_A	5DHX_C	6CVK_A
+sp|P82987|ATL3_HUMAN	sp|P04585|POL_HV1H2	87.9	3GHM_A	1L6N_A	5T70_G	3GV2_A
+sp|P82987|ATL3_HUMAN	sp|P04591|GAG_HV1H2	87.9	3GHM_A	1L6N_A	5T70_G	3GV2_A
+sp|P50148|GNAQ_HUMAN	sp|P04601|NEF_HV1H2	87.8	6NE6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|Q3KPI0|CEA21_HUMAN	87.8	2X7L_R	1E07_A	5DHX_C	6CVK_A
+sp|A0A087WV53|SPEGN_HUMAN	sp|P04585|POL_HV1H2	87.8	2ILL_A	1L6N_A	5T70_G	3GV2_A
+sp|A0A087WV53|SPEGN_HUMAN	sp|P04591|GAG_HV1H2	87.8	2ILL_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|P0DP01|HV108_HUMAN	87.7	6PWU_E	3U1S_H	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|P62760|VISL1_HUMAN	87.6	1L6N_A	5G58_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P62760|VISL1_HUMAN	87.6	1L6N_A	5G58_A	2MGU_M	5DOW_A
+sp|O43237|DC1L2_HUMAN	sp|P04601|NEF_HV1H2	87.6	6F1T_j	3TB8_A	6CRI_L	6CRI_Z
+sp|P04608|TAT_HV1H2	sp|Q86YV5|PRAG1_HUMAN	87.6	3MI9_C	6BHC_A	4OGR_D	4OR5_F
+sp|P69723|VIF_HV1H2	sp|P0CG47|UBB_HUMAN	87.6	4N9F_b	5H07_A	4N9F_b	2MA9_B
+sp|P04578|ENV_HV1H2	sp|Q01638|ILRL1_HUMAN	87.5	6PWU_E	4KC3_B	6FY1_G	4HJJ_H
+sp|Q96P88|GNRR2_HUMAN	sp|P04578|ENV_HV1H2	87.5	4U15_B	6PWU_E	6MEO_B	3J70_P
+sp|Q9H9P2|CHODL_HUMAN	sp|P04578|ENV_HV1H2	87.5	2VUV_A	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	tr|A0A075B7D0|A0A075B7D0_HUMAN	87.4	6PWU_E	3U1S_H	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|Q96GE6|CALL4_HUMAN	87.3	1L6N_A	5E1K_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q96GE6|CALL4_HUMAN	87.3	1L6N_A	5E1K_A	2MGU_M	5DOW_A
+sp|P69723|VIF_HV1H2	sp|P0CG48|UBC_HUMAN	87.3	4N9F_b	5B83_A	4N9F_b	2MA9_B
+sp|P69723|VIF_HV1H2	sp|P32321|DCTD_HUMAN	87.3	4N9F_b	2W4L_E	6NIL_F	5HX4_A
+sp|P04618|REV_HV1H2	sp|Q5ZPR3|CD276_HUMAN	87.2	2X7L_R	1MCO_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q9Y639|NPTN_HUMAN	87.2	2X7L_R	6A69_B	5DHX_C	6CVK_A
+sp|Q2HXU8|CL12B_HUMAN	sp|P04578|ENV_HV1H2	87.2	3C8J_D	6PWU_E	1QO3_C	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q3MJ13|WDR72_HUMAN	87.1	1ESX_A	6QK7_B	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q6ZQQ6|WDR87_HUMAN	87.1	1ESX_A	5TZS_T	5JK7_F	5JK7_E
+sp|Q13410|BT1A1_HUMAN	sp|P04585|POL_HV1H2	87.0	5HM7_A	1L6N_A	6ID4_C	1R0A_A
+sp|P78324|SHPS1_HUMAN	sp|P04601|NEF_HV1H2	87.0	4I2X_F	3TB8_A	5XOV_H	3TB8_A
+sp|Q5ZPR3|CD276_HUMAN	sp|P04591|GAG_HV1H2	87.0	1MCO_H	1L6N_A	5T70_G	3GV2_A
+sp|Q9NP60|IRPL2_HUMAN	sp|P04585|POL_HV1H2	87.0	5Y32_B	1L6N_A	5T70_G	3GV2_A
+sp|Q9NP60|IRPL2_HUMAN	sp|P04591|GAG_HV1H2	87.0	5Y32_B	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q96AP7|ESAM_HUMAN	86.9	6PWU_E	6JXR_n	6PWU_E	6ULC_L
+sp|P04601|NEF_HV1H2	sp|Q96HW7|INT4_HUMAN	86.9	3TB8_A	4P6Z_B	6OWT_N	6OWT_A
+sp|P04578|ENV_HV1H2	sp|P0DPA2|VSIG8_HUMAN	86.7	6PWU_E	6A69_B	6UM5_E	6CBP_A
+sp|Q969S9|RRF2M_HUMAN	sp|P04601|NEF_HV1H2	86.7	2BM0_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|Q9BY67|CADM1_HUMAN	86.7	2X7L_R	5ZO1_A	5DHX_C	6CVK_A
+sp|Q96PJ5|FCRL4_HUMAN	sp|P04585|POL_HV1H2	86.7	6AED_A	1L6N_A	5T70_G	3GV2_A
+sp|Q96PJ5|FCRL4_HUMAN	sp|P04591|GAG_HV1H2	86.7	6AED_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q9UM19|HPCL4_HUMAN	86.6	1L6N_A	2JUL_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9UM19|HPCL4_HUMAN	86.6	1L6N_A	2JUL_A	2MGU_M	5DOW_A
+sp|O95837|GNA14_HUMAN	sp|P04601|NEF_HV1H2	86.6	6NE6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P69726|VPR_HV1H2	sp|Q9C0C7|AMRA1_HUMAN	86.6	1ESX_A	6CVZ_B	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|P14778|IL1R1_HUMAN	86.5	6PWU_E	4GAF_B	6FY1_G	4HJJ_H
+sp|A8MVW5|HECA2_HUMAN	sp|P04585|POL_HV1H2	86.5	5LFR_A	1L6N_A	6ID4_C	1R0A_A
+sp|P69726|VPR_HV1H2	sp|Q86W42|THOC6_HUMAN	86.5	1ESX_A	4CZX_A	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q96EE3|SEH1_HUMAN	86.5	1ESX_A	5A9Q_P	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH31|HV118_HUMAN	86.4	6PWU_E	3U1S_H	6NIJ_B	3U1S_H
+sp|P09471|GNAO_HUMAN	sp|P04601|NEF_HV1H2	86.3	6NE6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH39|HV158_HUMAN	86.2	6PWU_E	3U1S_H	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P12319|FCERA_HUMAN	86.2	6PWU_E	1J86_A	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|O00370|LORF2_HUMAN	86.2	1L6N_A	6AR1_A	1R0A_A	1R0A_A
+sp|P04601|NEF_HV1H2	sp|O75533|SF3B1_HUMAN	86.2	3TB8_A	6AHD_1	6OWT_N	6QH5_B
+sp|P04608|TAT_HV1H2	sp|Q96S44|PRPK_HUMAN	86.2	3MI9_C	4WW7_A	3MI9_C	3MI9_A
+sp|P69723|VIF_HV1H2	tr|A0A2R8Y422|A0A2R8Y422_HUMAN	86.2	4N9F_b	5XXU_f	4N9F_b	2MA9_B
+sp|P04601|NEF_HV1H2	sp|O00410|IPO5_HUMAN	86.1	3TB8_A	6XU2_A	6CRI_Z	6CRI_I
+sp|O60313|OPA1_HUMAN	sp|P04601|NEF_HV1H2	86.1	6JTG_A	3TB8_A	6CRI_L	6CRI_Z
+sp|D3W0D1|KLRF2_HUMAN	sp|P04578|ENV_HV1H2	86.1	4IOP_B	6PWU_E	1QO3_C	3J70_P
+sp|P82987|ATL3_HUMAN	sp|P04601|NEF_HV1H2	86.1	3GHM_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q96LC7|SIG10_HUMAN	sp|P04601|NEF_HV1H2	86.1	5LF5_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH33|HV124_HUMAN	86.0	6PWU_E	3U1S_H	6NIJ_B	3U1S_H
+sp|Q8N109|KI2LA_HUMAN	sp|P04585|POL_HV1H2	86.0	3WYR_B	1L6N_A	5T70_G	3GV2_A
+sp|Q8NHK3|KI2LB_HUMAN	sp|P04585|POL_HV1H2	86.0	3WYR_B	1L6N_A	5T70_G	3GV2_A
+tr|A0A0G2JN68|A0A0G2JN68_HUMAN	sp|P04585|POL_HV1H2	86.0	3WYR_B	1L6N_A	5T70_G	3GV2_A
+sp|P30679|GNA15_HUMAN	sp|P04601|NEF_HV1H2	86.0	6NE6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q5VTE0|EF1A3_HUMAN	sp|P04601|NEF_HV1H2	86.0	6RA9_B	3TB8_A	6CRI_L	6CRI_Z
+sp|Q7Z2Z2|EFL1_HUMAN	sp|P04601|NEF_HV1H2	86.0	5ANC_K	3TB8_A	6CRI_L	6CRI_Z
+sp|Q8N109|KI2LA_HUMAN	sp|P04591|GAG_HV1H2	86.0	3WYR_B	1L6N_A	5T70_G	3GV2_A
+sp|Q8NHK3|KI2LB_HUMAN	sp|P04591|GAG_HV1H2	86.0	3WYR_B	1L6N_A	5T70_G	3GV2_A
+tr|A0A0G2JN68|A0A0G2JN68_HUMAN	sp|P04591|GAG_HV1H2	86.0	3WYR_B	1L6N_A	5T70_G	3GV2_A
+sp|P68104|EF1A1_HUMAN	sp|P04601|NEF_HV1H2	85.9	6RA9_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P69726|VPR_HV1H2	sp|Q96BP3|PPWD1_HUMAN	85.9	1ESX_A	5YZG_2	5JK7_F	5JK7_E
+sp|P78324|SHPS1_HUMAN	sp|P04591|GAG_HV1H2	85.9	4I2X_F	1L6N_A	5T70_G	3GV2_A
+sp|Q9H6B4|CLMP_HUMAN	sp|P04601|NEF_HV1H2	85.9	3JZ7_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04618|REV_HV1H2	sp|Q8NFZ8|CADM4_HUMAN	85.8	2X7L_R	5ZO2_C	2X7L_R	5I8O_L
+sp|Q8NGY7|O10J6_HUMAN	sp|P04578|ENV_HV1H2	85.8	6IGK_A	6PWU_E	6MEO_B	3J70_P
+tr|A0A0G2JPC4|A0A0G2JPC4_HUMAN	sp|P04585|POL_HV1H2	85.7	3WYR_B	1L6N_A	5T70_G	3GV2_A
+sp|Q8N3Z3|GTPB8_HUMAN	sp|P04601|NEF_HV1H2	85.7	5UCV_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q9H7X7|IFT22_HUMAN	sp|P04601|NEF_HV1H2	85.7	6IAN_E	3TB8_A	6CRI_L	6CRI_Z
+sp|A6NMB1|SIG16_HUMAN	sp|P04591|GAG_HV1H2	85.7	5LFU_A	1L6N_A	5T70_G	3GV2_A
+tr|A0A0G2JPC4|A0A0G2JPC4_HUMAN	sp|P04591|GAG_HV1H2	85.7	3WYR_B	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|P61565|ENK21_HUMAN	85.6	6PWU_E	6MAR_D	6UM5_E	6MAR_D
+sp|P04618|REV_HV1H2	sp|O00241|SIRB1_HUMAN	85.6	2X7L_R	4I2X_F	2X7L_R	5I8O_H
+sp|P69723|VIF_HV1H2	sp|Q7Z6V5|ADAT2_HUMAN	85.6	4N9F_b	3DH1_D	6NIL_F	5HX4_A
+sp|P69726|VPR_HV1H2	sp|Q8NFP9|NBEA_HUMAN	85.6	1ESX_A	1MI1_A	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q8WVS4|WDR60_HUMAN	85.4	1ESX_A	6RLB_C	5JK7_F	5JK7_E
+sp|P78380|OLR1_HUMAN	sp|P04578|ENV_HV1H2	85.4	3C8J_A	6PWU_E	1QO3_C	3J70_P
+sp|Q96AP7|ESAM_HUMAN	sp|P04585|POL_HV1H2	85.3	6JXR_n	1L6N_A	6ID4_C	1R0A_A
+sp|P04601|NEF_HV1H2	sp|A9QM74|IMA8_HUMAN	85.3	3TB8_A	1WA5_B	4NEE_K	2JKT_A
+sp|Q9BX10|GTPB2_HUMAN	sp|P04601|NEF_HV1H2	85.3	5LZZ_j	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|A2RUH7|MBPHL_HUMAN	85.3	2X7L_R	2Y25_D	5DHX_C	6CVK_A
+sp|P69726|VPR_HV1H2	sp|Q9NNW5|WDR6_HUMAN	85.3	1ESX_A	6QK7_B	5JK7_F	5JK7_E
+sp|Q13574|DGKZ_HUMAN	sp|P04578|ENV_HV1H2	85.3	3S40_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q9NZN1|IRPL1_HUMAN	sp|P04585|POL_HV1H2	85.3	5Y32_B	1L6N_A	5T70_G	3GV2_A
+sp|Q9NZN1|IRPL1_HUMAN	sp|P04591|GAG_HV1H2	85.3	5Y32_B	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q86TG7|PEG10_HUMAN	85.2	1L6N_A	6R23_B	5A9E_I	5A9E_I
+sp|P04591|GAG_HV1H2	sp|Q86TG7|PEG10_HUMAN	85.2	1L6N_A	6R23_B	5A9E_I	5A9E_I
+sp|P04578|ENV_HV1H2	sp|A0A0J9YVY3|HV741_HUMAN	85.1	6PWU_E	3U1S_H	6NIJ_B	3U1S_H
+sp|P12319|FCERA_HUMAN	sp|P04585|POL_HV1H2	85.1	1J86_A	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|Q9NYN1|RASLC_HUMAN	85.1	3TB8_A	3C5C_A	6CRI_Z	6DFF_C
+sp|A0A087WV53|SPEGN_HUMAN	sp|P04601|NEF_HV1H2	85.1	2ILL_A	3TB8_A	5XOV_H	3TB8_A
+sp|A8MVW5|HECA2_HUMAN	sp|P04591|GAG_HV1H2	85.1	5LFR_A	1L6N_A	5T70_G	3GV2_A
+sp|P11465|PSG2_HUMAN	sp|P04601|NEF_HV1H2	85.1	1E07_A	3TB8_A	5XOV_H	3TB8_A
+sp|P12319|FCERA_HUMAN	sp|P04591|GAG_HV1H2	85.1	1J86_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9NQS3|NECT3_HUMAN	sp|P04585|POL_HV1H2	85.0	4FOM_A	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|Q10589|BST2_HUMAN	85.0	3TB8_A	3MQ7_D	4EN2_B	6CRI_Z
+sp|O60449|LY75_HUMAN	sp|P04578|ENV_HV1H2	85.0	5XTS_A	6PWU_E	1QO3_C	3J70_P
+sp|Q9NQS3|NECT3_HUMAN	sp|P04591|GAG_HV1H2	85.0	4FOM_A	1L6N_A	5T70_G	3GV2_A
+sp|P04608|TAT_HV1H2	sp|Q7Z7A4|PXK_HUMAN	84.9	3MI9_C	6TM5_Q	3MI9_C	3MI9_A
+sp|P04578|ENV_HV1H2	sp|P23083|HV102_HUMAN	84.8	6PWU_E	3U1S_H	6NIJ_B	3U1S_H
+sp|Q2VIR3|IF2GL_HUMAN	sp|P04601|NEF_HV1H2	84.8	6FEC_S	3TB8_A	6CRI_L	6CRI_Z
+sp|A6NMB1|SIG16_HUMAN	sp|P04601|NEF_HV1H2	84.8	5LFU_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04585|POL_HV1H2	sp|P24844|MYL9_HUMAN	84.7	1L6N_A	2MYS_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P24844|MYL9_HUMAN	84.7	1L6N_A	2MYS_B	2MGU_M	5DOW_A
+sp|P41091|IF2G_HUMAN	sp|P04601|NEF_HV1H2	84.7	6YAL_B	3TB8_A	6CRI_L	6CRI_Z
+sp|Q7L523|RRAGA_HUMAN	sp|P04601|NEF_HV1H2	84.7	4ARZ_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|Q8WVV5|BT2A2_HUMAN	84.6	6PWU_E	5HM7_A	3U2S_C	5N2K_F
+sp|P05919|VPU_HV1H2	sp|O00629|IMA3_HUMAN	84.6	2N28_A	5TBK_D	4P6Z_V	4P6Z_B
+sp|P04585|POL_HV1H2	sp|Q86XK7|VSIG1_HUMAN	84.5	1L6N_A	6JXR_n	1R0A_A	1HYS_D
+sp|P04618|REV_HV1H2	sp|P78310|CXAR_HUMAN	84.5	2X7L_R	3JZ7_A	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|O00505|IMA4_HUMAN	84.5	2N28_A	5TBK_D	4P6Z_V	4P6Z_B
+sp|P78310|CXAR_HUMAN	sp|P04601|NEF_HV1H2	84.5	3JZ7_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04601|NEF_HV1H2	sp|Q92835|SHIP1_HUMAN	84.4	3TB8_A	6XY7_A	4U5W_C	4U5W_B
+sp|Q9HBG7|LY9_HUMAN	sp|P04578|ENV_HV1H2	84.3	5A2F_A	6PWU_E	6MET_A	3J70_P
+sp|Q9P1W8|SIRPG_HUMAN	sp|P04578|ENV_HV1H2	84.3	4I2X_F	6PWU_E	5VIY_H	4TVP_G
+sp|P04608|TAT_HV1H2	sp|Q8N2C7|UNC80_HUMAN	84.3	3MI9_C	6NHJ_J	3MI9_C	2PK2_B
+sp|P04585|POL_HV1H2	sp|Q99795|GPA33_HUMAN	84.2	1L6N_A	6A69_B	1R0A_A	1HYS_D
+sp|Q8NER1|TRPV1_HUMAN	sp|P04578|ENV_HV1H2	84.2	6BBJ_B	6PWU_E	6QFK_A	6B0N_G
+sp|P04585|POL_HV1H2	sp|Q9Y279|VSIG4_HUMAN	84.1	1L6N_A	5IML_A	1R0A_A	1HYS_D
+sp|Q8N1N0|CLC4F_HUMAN	sp|P04578|ENV_HV1H2	84.1	5G6U_A	6PWU_E	1QO3_C	3J70_P
+sp|P04601|NEF_HV1H2	sp|O60518|RNBP6_HUMAN	84.0	3TB8_A	6XU2_A	6OWT_N	6QH5_B
+sp|P04618|REV_HV1H2	sp|A6NMB1|SIG16_HUMAN	83.9	2X7L_R	5LFU_A	2X7L_R	5I8O_L
+sp|P04601|NEF_HV1H2	sp|Q06124|PTN11_HUMAN	83.8	3TB8_A	5EHP_A	4U5W_C	4U5W_B
+sp|P69726|VPR_HV1H2	sp|O15213|WDR46_HUMAN	83.8	1ESX_A	6RXZ_U	5JK7_F	5JK7_E
+sp|Q99706|KI2L4_HUMAN	sp|P04585|POL_HV1H2	83.7	3WYR_B	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|Q5T2S8|ARMC4_HUMAN	83.7	3TB8_A	1JDH_A	6OWT_N	6OWT_A
+sp|Q99706|KI2L4_HUMAN	sp|P04591|GAG_HV1H2	83.7	3WYR_B	1L6N_A	5T70_G	3GV2_A
+sp|Q9NYZ4|SIGL8_HUMAN	sp|P04585|POL_HV1H2	83.6	5LFR_B	1L6N_A	6ID4_C	1R0A_A
+sp|P04618|REV_HV1H2	sp|Q96LA6|FCRL1_HUMAN	83.6	2X7L_R	3J8F_7	2X7L_R	5I8O_L
+sp|P05919|VPU_HV1H2	sp|O75533|SF3B1_HUMAN	83.6	2N28_A	6AHD_1	4P6Z_V	4P6Z_B
+sp|Q96E93|KLRG1_HUMAN	sp|P04578|ENV_HV1H2	83.6	3FF7_D	6PWU_E	1QO3_C	3J70_P
+tr|A0A286YEU6|A0A286YEU6_HUMAN	sp|P04578|ENV_HV1H2	83.6	6KUX_A	6PWU_E	6MEO_B	3J70_P
+sp|P04601|NEF_HV1H2	sp|O14526|FCHO1_HUMAN	83.5	3TB8_A	6IKN_D	4EN2_B	6CRI_M
+sp|P05919|VPU_HV1H2	sp|O14526|FCHO1_HUMAN	83.5	2N28_A	6IKN_D	4P6Z_V	6CRI_M
+sp|P69726|VPR_HV1H2	sp|Q9BZH6|WDR11_HUMAN	83.5	1ESX_A	5H1J_A	5JK7_F	5JK7_E
+sp|O75912|DGKI_HUMAN	sp|P04578|ENV_HV1H2	83.5	2JGR_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q00888|PSG4_HUMAN	sp|P04585|POL_HV1H2	83.5	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q00888|PSG4_HUMAN	sp|P04591|GAG_HV1H2	83.5	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9UJ71|CLC4K_HUMAN	sp|P04578|ENV_HV1H2	83.5	5G6U_A	6PWU_E	1QO3_C	3J70_P
+sp|P04601|NEF_HV1H2	sp|Q99490|AGAP2_HUMAN	83.4	3TB8_A	3JUE_A	6CRI_Z	6DFF_C
+sp|P05919|VPU_HV1H2	sp|P42345|MTOR_HUMAN	83.4	2N28_A	6BCX_B	4P6Z_V	4P6Z_B
+sp|Q96LA6|FCRL1_HUMAN	sp|P04591|GAG_HV1H2	83.4	3J8F_7	1L6N_A	5T70_G	3GV2_A
+sp|P31997|CEAM8_HUMAN	sp|P04585|POL_HV1H2	83.3	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|P31997|CEAM8_HUMAN	sp|P04591|GAG_HV1H2	83.3	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A0G2JMI3|HV692_HUMAN	83.2	6PWU_E	3U1S_H	6NIJ_B	3U1S_H
+sp|P0C7M8|CLC2L_HUMAN	sp|P04578|ENV_HV1H2	83.2	1UMR_A	6PWU_E	1QO3_C	3J70_P
+sp|Q9UQ74|PSG8_HUMAN	sp|P04585|POL_HV1H2	83.2	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9UQ74|PSG8_HUMAN	sp|P04591|GAG_HV1H2	83.2	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q96ID5|IGS21_HUMAN	83.1	6PWU_E	3J8D_A	2NY2_A	4HJJ_L
+sp|P11464|PSG1_HUMAN	sp|P04585|POL_HV1H2	83.1	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|P29353|SHC1_HUMAN	83.1	3TB8_A	1N3H_A	4U5W_C	4U5W_B
+sp|P69726|VPR_HV1H2	sp|A6NE52|WDR97_HUMAN	83.1	1ESX_A	5M2N_A	5JK7_F	5JK7_E
+sp|P11464|PSG1_HUMAN	sp|P04591|GAG_HV1H2	83.1	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q13410|BT1A1_HUMAN	sp|P04591|GAG_HV1H2	83.1	5HM7_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q3KPI0|CEA21_HUMAN	sp|P04601|NEF_HV1H2	83.1	1E07_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04618|REV_HV1H2	sp|Q9Y279|VSIG4_HUMAN	83.0	2X7L_R	5IML_A	2X7L_R	5I8O_H
+sp|Q13018|PLA2R_HUMAN	sp|P04578|ENV_HV1H2	83.0	5EW6_A	6PWU_E	1QO3_C	3J70_P
+sp|Q9Y639|NPTN_HUMAN	sp|P04601|NEF_HV1H2	83.0	6A69_B	3TB8_A	5XOV_H	3TB8_A
+sp|Q15223|NECT1_HUMAN	sp|P04585|POL_HV1H2	82.9	4FMF_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q9UMX6|GUC1B_HUMAN	82.9	1L6N_A	1JBA_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9UMX6|GUC1B_HUMAN	82.9	1L6N_A	1JBA_A	2MGU_M	5DOW_A
+sp|P04618|REV_HV1H2	sp|Q5JXA9|SIRB2_HUMAN	82.9	2X7L_R	4MNG_E	5DHX_C	6CVK_A
+sp|O14842|FFAR1_HUMAN	sp|P04578|ENV_HV1H2	82.9	5TZR_A	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q4L235|ACSF4_HUMAN	82.8	1ESX_A	5T3D_A	5JK7_F	5JK7_E
+sp|P14778|IL1R1_HUMAN	sp|P04585|POL_HV1H2	82.8	4GAF_B	1L6N_A	5T70_G	3GV2_A
+sp|P14778|IL1R1_HUMAN	sp|P04591|GAG_HV1H2	82.8	4GAF_B	1L6N_A	5T70_G	3GV2_A
+sp|Q15238|PSG5_HUMAN	sp|P04585|POL_HV1H2	82.7	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q15238|PSG5_HUMAN	sp|P04591|GAG_HV1H2	82.7	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|P01742|HV169_HUMAN	82.6	6PWU_E	3U1S_H	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|Q902F9|EN113_HUMAN	82.6	6PWU_E	6MAR_D	6UM5_E	6MAR_D
+sp|Q6JEL2|KLH10_HUMAN	sp|P69723|VIF_HV1H2	82.6	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|Q14344|GNA13_HUMAN	sp|P04601|NEF_HV1H2	82.5	6NE6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04608|TAT_HV1H2	sp|Q16589|CCNG2_HUMAN	82.5	3MI9_C	1F5Q_D	3MI9_C	2PK2_B
+sp|Q9NYZ4|SIGL8_HUMAN	sp|P04591|GAG_HV1H2	82.5	5LFR_B	1L6N_A	5T70_G	3GV2_A
+sp|P11465|PSG2_HUMAN	sp|P04585|POL_HV1H2	82.4	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q96ID5|IGS21_HUMAN	sp|P04585|POL_HV1H2	82.4	3J8D_A	1L6N_A	5T70_G	3GV2_A
+sp|P04618|REV_HV1H2	sp|Q99795|GPA33_HUMAN	82.4	2X7L_R	6A69_B	5DHX_C	6CVK_A
+sp|P11465|PSG2_HUMAN	sp|P04591|GAG_HV1H2	82.4	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q96ID5|IGS21_HUMAN	sp|P04591|GAG_HV1H2	82.4	3J8D_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A0B4J2H0|HV69D_HUMAN	82.3	6PWU_E	3U1S_H	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|Q9NPH3|IL1AP_HUMAN	82.3	6PWU_E	3O4O_B	6FY1_G	4HJJ_H
+sp|Q8NBE8|KLH23_HUMAN	sp|P69723|VIF_HV1H2	82.3	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q9NRJ4|TULP4_HUMAN	82.3	1ESX_A	1S31_A	5JK7_F	5JK7_E
+sp|Q6UXN8|CLC9A_HUMAN	sp|P04578|ENV_HV1H2	82.3	3VPP_B	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q96KV6|BT2A3_HUMAN	82.2	6PWU_E	5HM7_A	3U2S_C	5N2K_F
+sp|P69726|VPR_HV1H2	sp|P50851|LRBA_HUMAN	82.2	1ESX_A	1T77_D	5JK7_F	5JK7_E
+sp|Q06141|REG3A_HUMAN	sp|P04578|ENV_HV1H2	82.2	2GO0_A	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|O00478|BT3A3_HUMAN	82.1	6PWU_E	5HM7_A	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|Q5JXA9|SIRB2_HUMAN	82.1	1L6N_A	4MNG_E	1R0A_A	1HYS_D
+sp|P04601|NEF_HV1H2	sp|Q8TEX9|IPO4_HUMAN	82.1	3TB8_A	5VCH_A	6CRI_Z	6CRI_I
+sp|P04578|ENV_HV1H2	sp|P01833|PIGR_HUMAN	82.0	6PWU_E	3CHN_S	6PWU_E	6ULC_L
+sp|P04618|REV_HV1H2	sp|Q13410|BT1A1_HUMAN	82.0	2X7L_R	5HM7_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q5DX21|IGS11_HUMAN	82.0	2X7L_R	6A69_B	5DHX_C	6CVK_A
+sp|Q8N0Z9|VSI10_HUMAN	sp|P04591|GAG_HV1H2	82.0	3QS7_E	1L6N_A	5T70_G	3GV2_A
+sp|Q9BYZ8|REG4_HUMAN	sp|P04578|ENV_HV1H2	82.0	2KV3_A	6PWU_E	1QO3_C	3J70_P
+sp|Q9UQ72|PSG11_HUMAN	sp|P04601|NEF_HV1H2	82.0	1E07_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q9Y2X7|GIT1_HUMAN	sp|P04578|ENV_HV1H2	82.0	6JMT_B	6PWU_E	6QFK_A	6B0N_G
+sp|P05919|VPU_HV1H2	sp|P52294|IMA5_HUMAN	81.9	2N28_A	4B18_A	4P6Z_V	4P6Z_G
+sp|P04578|ENV_HV1H2	sp|A0A0A0MS14|HV145_HUMAN	81.8	6PWU_E	3U1S_H	6NIJ_B	3U1S_H
+sp|Q5JWF2|GNAS1_HUMAN	sp|P04601|NEF_HV1H2	81.8	6EG8_I	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|Q15109|RAGE_HUMAN	81.8	2X7L_R	4P2Y_A	2X7L_R	5I8O_L
+sp|Q8NC01|CLC1A_HUMAN	sp|P04578|ENV_HV1H2	81.8	3C8J_A	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q9P2B2|FPRP_HUMAN	81.7	6PWU_E	3CHN_S	6NIJ_B	5WHZ_L
+sp|P04601|NEF_HV1H2	sp|O75602|SPAG6_HUMAN	81.7	3TB8_A	4RV1_D	6OWT_N	6OWT_A
+sp|Q13017|RHG05_HUMAN	sp|P04601|NEF_HV1H2	81.6	3C5H_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q14974|IMB1_HUMAN	81.5	3TB8_A	1QGR_A	6OWT_N	6OWT_A
+sp|P69726|VPR_HV1H2	sp|Q8N3Y1|FBXW8_HUMAN	81.5	1ESX_A	6WNX_A	5JK7_F	5JK7_E
+sp|Q8NAG6|ANKL1_HUMAN	sp|P04578|ENV_HV1H2	81.5	1YYH_B	6PWU_E	6QFK_A	6B0N_G
+sp|Q9UHP7|CLC2D_HUMAN	sp|P04578|ENV_HV1H2	81.5	4WCO_A	6PWU_E	1QO3_C	3J70_P
+sp|P04601|NEF_HV1H2	sp|P63010|AP2B1_HUMAN	81.4	3TB8_A	4UQI_B	6OWT_N	6QH5_B
+sp|O00241|SIRB1_HUMAN	sp|P04601|NEF_HV1H2	81.4	4I2X_F	3TB8_A	5XOV_H	3TB8_A
+sp|Q6UX15|LAYN_HUMAN	sp|P04578|ENV_HV1H2	81.4	6RYG_A	6PWU_E	1QO3_C	3J70_P
+sp|Q13046|PSG7_HUMAN	sp|P04585|POL_HV1H2	81.3	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q13046|PSG7_HUMAN	sp|P04591|GAG_HV1H2	81.3	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q16181|SEPT7_HUMAN	sp|P04601|NEF_HV1H2	81.2	2QAG_C	3TB8_A	6CRI_L	6CRI_Z
+sp|P69726|VPR_HV1H2	sp|P57775|FBXW4_HUMAN	81.2	1ESX_A	6M90_A	5JK7_F	5JK7_E
+sp|P04608|TAT_HV1H2	sp|Q9H792|PEAK1_HUMAN	81.1	3MI9_C	6BHC_A	4OGR_D	4OR5_F
+sp|Q9P2G1|AKIB1_HUMAN	sp|P04578|ENV_HV1H2	81.1	5UDH_B	6PWU_E	6QFK_A	6B0N_G
+sp|P69726|VPR_HV1H2	sp|A0A1W2PR48|TLE7_HUMAN	81.0	1ESX_A	1GXR_A	5JK7_F	5JK7_E
+sp|Q6UW15|REG3G_HUMAN	sp|P04578|ENV_HV1H2	81.0	4MTH_A	6PWU_E	1QO3_C	3J70_P
+sp|A8MTJ3|GNAT3_HUMAN	sp|P04601|NEF_HV1H2	80.9	6NE6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q8NH95|O13C6_HUMAN	sp|P04578|ENV_HV1H2	80.9	6ME6_A	6PWU_E	6MEO_B	3J70_P
+sp|Q00889|PSG6_HUMAN	sp|P04601|NEF_HV1H2	80.8	1E07_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04618|REV_HV1H2	sp|Q96AP7|ESAM_HUMAN	80.7	2X7L_R	6JXR_n	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|O60518|RNBP6_HUMAN	80.7	2N28_A	6XU2_A	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q96HW7|INT4_HUMAN	80.7	2N28_A	4P6Z_B	4P6Z_V	4P6Z_G
+sp|Q8IZF2|AGRF5_HUMAN	sp|P04585|POL_HV1H2	80.7	4DLO_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8IZF2|AGRF5_HUMAN	sp|P04591|GAG_HV1H2	80.7	4DLO_A	1L6N_A	5T70_G	3GV2_A
+sp|P31994|FCG2B_HUMAN	sp|P04578|ENV_HV1H2	80.6	3RY4_A	6PWU_E	6MET_A	3J70_P
+sp|P04618|REV_HV1H2	sp|Q8N126|CADM3_HUMAN	80.6	2X7L_R	3J8F_7	2X7L_R	5I8O_H
+sp|Q6UXZ0|TMIG1_HUMAN	sp|P04585|POL_HV1H2	80.6	6A69_B	1L6N_A	5T70_G	3GV2_A
+sp|Q6UXZ0|TMIG1_HUMAN	sp|P04591|GAG_HV1H2	80.6	6A69_B	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|O00481|BT3A1_HUMAN	80.5	6PWU_E	5HM7_A	3U2S_C	5N2K_F
+sp|Q9UQ72|PSG11_HUMAN	sp|P04585|POL_HV1H2	80.5	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9UHD8|SEPT9_HUMAN	sp|P04601|NEF_HV1H2	80.5	4Z54_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q9UQ72|PSG11_HUMAN	sp|P04591|GAG_HV1H2	80.5	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q14CZ8|HECAM_HUMAN	80.4	6PWU_E	6JXR_n	6PWU_E	6ULC_L
+sp|B6A8C7|TARM1_HUMAN	sp|P04585|POL_HV1H2	80.4	2OTP_B	1L6N_A	5T70_G	3GV2_A
+sp|P19087|GNAT2_HUMAN	sp|P04601|NEF_HV1H2	80.4	6NE6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|B6A8C7|TARM1_HUMAN	sp|P04591|GAG_HV1H2	80.4	2OTP_B	1L6N_A	5T70_G	3GV2_A
+sp|Q00889|PSG6_HUMAN	sp|P04585|POL_HV1H2	80.4	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q00889|PSG6_HUMAN	sp|P04591|GAG_HV1H2	80.4	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|P31995|FCG2C_HUMAN	sp|P04578|ENV_HV1H2	80.3	3RY4_A	6PWU_E	6MET_A	3J70_P
+sp|P05919|VPU_HV1H2	sp|A9QM74|IMA8_HUMAN	80.3	2N28_A	1WA5_B	4P6Z_V	4P6Z_B
+sp|P31997|CEAM8_HUMAN	sp|P04601|NEF_HV1H2	80.3	1E07_A	3TB8_A	5XOV_H	3TB8_A
+sp|P05919|VPU_HV1H2	sp|O60684|IMA7_HUMAN	80.2	2N28_A	4UAD_A	4P6Z_V	4P6Z_G
+sp|A6NMU1|O52A4_HUMAN	sp|P04578|ENV_HV1H2	80.2	6D27_A	6PWU_E	6MEO_B	3J70_P
+sp|Q5DX21|IGS11_HUMAN	sp|P04585|POL_HV1H2	80.1	6A69_B	1L6N_A	6ID4_C	1R0A_A
+sp|P69726|VPR_HV1H2	sp|Q9NRG9|AAAS_HUMAN	80.1	1ESX_A	5T2A_7	5JK7_F	5JK7_E
+sp|P15151|PVR_HUMAN	sp|P04585|POL_HV1H2	80.0	3J8F_7	1L6N_A	5T70_G	3GV2_A
+sp|Q5VZM2|RRAGB_HUMAN	sp|P04601|NEF_HV1H2	80.0	4ARZ_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|Q8N0Z9|VSI10_HUMAN	80.0	2X7L_R	3QS7_E	5DHX_C	6CVK_A
+sp|P15151|PVR_HUMAN	sp|P04591|GAG_HV1H2	80.0	3J8F_7	1L6N_A	5T70_G	3GV2_A
+sp|Q15223|NECT1_HUMAN	sp|P04591|GAG_HV1H2	80.0	4FMF_A	1L6N_A	5T70_G	3GV2_A
+sp|Q86SM8|MRGRE_HUMAN	sp|P04578|ENV_HV1H2	80.0	5T04_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9BXN2|CLC7A_HUMAN	sp|P04578|ENV_HV1H2	80.0	2CL8_A	6PWU_E	1QO3_C	3J70_P
+sp|Q9P126|CLC1B_HUMAN	sp|P04578|ENV_HV1H2	80.0	3C8J_D	6PWU_E	1QO3_C	3J70_P
+sp|P04618|REV_HV1H2	sp|Q86XK7|VSIG1_HUMAN	79.9	2X7L_R	6JXR_n	5DHX_C	6CVK_A
+sp|Q13241|KLRD1_HUMAN	sp|P04578|ENV_HV1H2	79.9	3BDW_C	6PWU_E	1QO3_C	3J70_P
+sp|Q9NY25|CLC5A_HUMAN	sp|P04578|ENV_HV1H2	79.9	2YHF_A	6PWU_E	1QO3_C	3J70_P
+sp|Q15238|PSG5_HUMAN	sp|P04601|NEF_HV1H2	79.8	1E07_A	3TB8_A	5XOV_H	3TB8_A
+sp|P26717|NKG2C_HUMAN	sp|P04578|ENV_HV1H2	79.7	3BDW_B	6PWU_E	1QO3_C	3J70_P
+sp|P05919|VPU_HV1H2	sp|Q5VYK3|ECM29_HUMAN	79.6	2N28_A	1QBK_B	4P6Z_V	4P6Z_B
+sp|P04601|NEF_HV1H2	sp|Q14155|ARHG7_HUMAN	79.5	3TB8_A	2PZ1_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|P11465|PSG2_HUMAN	79.5	2X7L_R	1E07_A	2X7L_R	5I8O_L
+sp|Q16557|PSG3_HUMAN	sp|P04585|POL_HV1H2	79.5	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q16557|PSG3_HUMAN	sp|P04591|GAG_HV1H2	79.5	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|P05919|VPU_HV1H2	sp|Q8TEX9|IPO4_HUMAN	79.4	2N28_A	5VCH_A	4P6Z_V	4P6Z_B
+sp|P69726|VPR_HV1H2	sp|Q9UPX8|SHAN2_HUMAN	79.4	1ESX_A	5IZU_A	4Z8L_B	4Z8L_F
+sp|Q9Y336|SIGL9_HUMAN	sp|P04585|POL_HV1H2	79.3	5LFV_B	1L6N_A	5T70_G	3GV2_A
+sp|Q9Y336|SIGL9_HUMAN	sp|P04591|GAG_HV1H2	79.3	5LFV_B	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	tr|A0A0B4J2B8|A0A0B4J2B8_HUMAN	79.2	6PWU_E	3U1S_H	6NIJ_B	3U1S_H
+sp|Q9UIR0|BTNL2_HUMAN	sp|P04585|POL_HV1H2	79.2	4PFE_B	1L6N_A	6ID4_C	1R0A_A
+tr|A0A0G2JPB7|A0A0G2JPB7_HUMAN	sp|P04585|POL_HV1H2	79.2	4PFE_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04578|ENV_HV1H2	sp|Q15762|CD226_HUMAN	79.1	6PWU_E	6ISB_A	6UM5_E	6CBP_A
+sp|P04585|POL_HV1H2	sp|Q9UBV8|PEF1_HUMAN	79.1	1L6N_A	1Y1X_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9UBV8|PEF1_HUMAN	79.1	1L6N_A	1Y1X_B	2MGU_M	5DOW_A
+sp|Q8IZF2|AGRF5_HUMAN	sp|P04578|ENV_HV1H2	79.0	4DLO_A	6PWU_E	6MET_A	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q9HAD4|WDR41_HUMAN	79.0	1ESX_A	6LT0_A	5JK7_F	5JK7_E
+sp|Q13203|MYBPH_HUMAN	sp|P04601|NEF_HV1H2	79.0	2RIK_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q9Y295|DRG1_HUMAN	sp|P04601|NEF_HV1H2	78.9	4A9A_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q16557|PSG3_HUMAN	sp|P04601|NEF_HV1H2	78.9	1E07_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q5TZF3|ANR45_HUMAN	sp|P04578|ENV_HV1H2	78.9	1YYH_B	6PWU_E	6QFK_A	6B0N_G
+sp|P78410|BT3A2_HUMAN	sp|P04578|ENV_HV1H2	78.8	4F9L_A	6PWU_E	5VIY_H	4TVP_G
+sp|O43699|SIGL6_HUMAN	sp|P04585|POL_HV1H2	78.8	5VKJ_A	1L6N_A	5T70_G	3GV2_A
+sp|P69723|VIF_HV1H2	sp|Q86Y37|CACL1_HUMAN	78.8	4N9F_b	4WQO_D	4N9F_b	4JGH_D
+sp|Q9NVX7|KBTB4_HUMAN	sp|P69723|VIF_HV1H2	78.8	4YY8_B	4N9F_b	6P59_Z	6P59_B
+sp|O43699|SIGL6_HUMAN	sp|P04591|GAG_HV1H2	78.8	5VKJ_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9HBA0|TRPV4_HUMAN	sp|P04578|ENV_HV1H2	78.8	6BBJ_B	6PWU_E	6QFK_A	6B0N_G
+sp|Q9UQ74|PSG8_HUMAN	sp|P04601|NEF_HV1H2	78.8	1E07_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|Q7KYR7|BT2A1_HUMAN	78.7	6PWU_E	5HM7_A	3U2S_C	5N2K_F
+sp|Q9NZS2|KLRF1_HUMAN	sp|P04578|ENV_HV1H2	78.7	3G8L_C	6PWU_E	1QO3_C	3J70_P
+sp|Q5DX21|IGS11_HUMAN	sp|P04601|NEF_HV1H2	78.6	6A69_B	3TB8_A	5XOV_H	3TB8_A
+sp|P04585|POL_HV1H2	sp|Q7L5N7|PCAT2_HUMAN	78.5	1L6N_A	1EG4_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q7L5N7|PCAT2_HUMAN	78.5	1L6N_A	1EG4_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|Q0JRZ9|FCHO2_HUMAN	78.5	3TB8_A	5JP2_A	4EN2_B	6CRI_M
+sp|P04618|REV_HV1H2	sp|Q00888|PSG4_HUMAN	78.5	2X7L_R	1E07_A	2X7L_R	5I8O_L
+sp|P05919|VPU_HV1H2	sp|Q0JRZ9|FCHO2_HUMAN	78.5	2N28_A	5JP2_A	4P6Z_V	6CRI_M
+sp|P04578|ENV_HV1H2	sp|P01717|LV325_HUMAN	78.4	6PWU_E	6ULC_L	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|Q5VYK3|ECM29_HUMAN	78.4	3TB8_A	1QBK_B	6OWT_N	6QH5_B
+sp|P0DP72|VSXL2_HUMAN	sp|P04585|POL_HV1H2	78.4	2RCJ_H	1L6N_A	5T70_G	3GV2_A
+sp|P0DP72|VSXL2_HUMAN	sp|P04591|GAG_HV1H2	78.4	2RCJ_H	1L6N_A	5T70_G	3GV2_A
+sp|Q5JXA9|SIRB2_HUMAN	sp|P04601|NEF_HV1H2	78.4	4MNG_E	3TB8_A	5XOV_H	3TB8_A
+sp|P04601|NEF_HV1H2	sp|P52294|IMA5_HUMAN	78.3	3TB8_A	4B18_A	6OWT_N	6OWT_A
+sp|P04601|NEF_HV1H2	sp|Q96IW2|SHD_HUMAN	78.3	3TB8_A	4FL2_A	4U5W_C	4U5W_B
+sp|P05919|VPU_HV1H2	sp|O75602|SPAG6_HUMAN	78.3	2N28_A	4RV1_D	4P6Z_V	4P6Z_B
+sp|P69726|VPR_HV1H2	sp|Q8NFH3|NUP43_HUMAN	78.3	1ESX_A	5A9Q_R	5JK7_F	5JK7_E
+sp|Q13258|PD2R_HUMAN	sp|P04578|ENV_HV1H2	78.3	5XJM_A	6PWU_E	6MEO_B	3J70_P
+sp|Q96AP7|ESAM_HUMAN	sp|P04601|NEF_HV1H2	78.3	6JXR_n	3TB8_A	5XOV_H	3TB8_A
+sp|Q00887|PSG9_HUMAN	sp|P04585|POL_HV1H2	78.1	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q03113|GNA12_HUMAN	sp|P04601|NEF_HV1H2	78.1	6NE6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q15369|ELOC_HUMAN	sp|P69723|VIF_HV1H2	78.1	5ZB2_B	4N9F_b	6P59_Z	6P59_B
+sp|P61769|B2MG_HUMAN	sp|P04585|POL_HV1H2	78.1	5J1A_B	1L6N_A	6CPL_A	2XXM_A
+sp|P61769|B2MG_HUMAN	sp|P04591|GAG_HV1H2	78.1	5J1A_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q00887|PSG9_HUMAN	sp|P04591|GAG_HV1H2	78.1	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A0B4J1V7|HV781_HUMAN	78.0	6PWU_E	3U1S_H	6NIJ_B	3U1S_H
+sp|P04618|REV_HV1H2	sp|P35613|BASI_HUMAN	78.0	2X7L_R	4U0Q_B	5DHX_C	6CVK_A
+sp|Q8IY47|KBTB2_HUMAN	sp|P69723|VIF_HV1H2	78.0	4HXI_A	4N9F_b	6P59_Z	6P59_B
+sp|A2RUH7|MBPHL_HUMAN	sp|P04585|POL_HV1H2	77.9	2Y25_D	1L6N_A	5T70_G	3GV2_A
+sp|A2RUH7|MBPHL_HUMAN	sp|P04591|GAG_HV1H2	77.9	2Y25_D	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A0B4J1Y8|LV949_HUMAN	77.8	6PWU_E	6UDK_H	6NIJ_B	3U1S_H
+sp|P12318|FCG2A_HUMAN	sp|P04578|ENV_HV1H2	77.8	3RY4_A	6PWU_E	4YDV_A	6PWU_E
+sp|P04578|ENV_HV1H2	sp|P16284|PECA1_HUMAN	77.8	6PWU_E	6GRQ_A	6NIJ_B	5WHZ_L
+sp|P04578|ENV_HV1H2	sp|P80748|LV321_HUMAN	77.8	6PWU_E	6ULC_L	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|Q8N8U3|RTL3_HUMAN	77.7	1L6N_A	6R24_C	5A9E_I	5A9E_I
+sp|P04591|GAG_HV1H2	sp|Q8N8U3|RTL3_HUMAN	77.7	1L6N_A	6R24_C	5A9E_I	5A9E_I
+sp|P04601|NEF_HV1H2	sp|Q10567|AP1B1_HUMAN	77.7	3TB8_A	4UQI_B	6OWT_N	6QH5_B
+sp|P04578|ENV_HV1H2	sp|A8MTB9|CEA18_HUMAN	77.6	6PWU_E	5LFV_B	6NIJ_B	5WHZ_L
+sp|P69726|VPR_HV1H2	sp|Q6RFH5|WDR74_HUMAN	77.6	1ESX_A	5SUI_A	5JK7_F	5JK7_E
+sp|P59901|LIRA4_HUMAN	sp|P04585|POL_HV1H2	77.6	6AED_A	1L6N_A	5T70_G	3GV2_A
+sp|P59901|LIRA4_HUMAN	sp|P04591|GAG_HV1H2	77.6	6AED_A	1L6N_A	5T70_G	3GV2_A
+sp|P04618|REV_HV1H2	sp|Q2WEN9|CEA16_HUMAN	77.5	2X7L_R	1E07_A	2X7L_R	5I8O_L
+sp|Q15109|RAGE_HUMAN	sp|P04601|NEF_HV1H2	77.5	4P2Y_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q00887|PSG9_HUMAN	sp|P04601|NEF_HV1H2	77.4	1E07_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|P01611|KVD12_HUMAN	77.3	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P08637|FCG3A_HUMAN	77.3	6PWU_E	1FNL_A	3J70_P	4Q6I_J
+sp|P04578|ENV_HV1H2	tr|A0A087WYE8|A0A087WYE8_HUMAN	77.3	6PWU_E	3U1S_H	6NIJ_B	3U1S_H
+sp|P01871|IGHM_HUMAN	sp|P04585|POL_HV1H2	77.3	6KXS_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04618|REV_HV1H2	sp|P01833|PIGR_HUMAN	77.2	2X7L_R	3CHN_S	5DHX_C	6CVK_A
+sp|P04578|ENV_HV1H2	sp|Q9HB29|ILRL2_HUMAN	77.1	6PWU_E	6U6U_R	6FY1_G	4HJJ_H
+sp|Q9P1W8|SIRPG_HUMAN	sp|P04591|GAG_HV1H2	77.1	4I2X_F	1L6N_A	5T70_G	3GV2_A
+sp|Q9BQ51|PD1L2_HUMAN	sp|P04578|ENV_HV1H2	77.0	3BP5_B	6PWU_E	6UDK_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|Q5TDH0|DDI2_HUMAN	77.0	1L6N_A	5K57_A	3LIY_F	3LIY_F
+sp|P04585|POL_HV1H2	sp|Q8WTU0|DDI1_HUMAN	77.0	1L6N_A	4RGH_A	3LIY_F	3LIY_F
+sp|Q14692|BMS1_HUMAN	sp|P04601|NEF_HV1H2	77.0	6RXU_C	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|A8MVW5|HECA2_HUMAN	77.0	2X7L_R	5LFR_A	2X7L_R	5I8O_L
+sp|Q6DN72|FCRL6_HUMAN	sp|P04585|POL_HV1H2	76.9	5T70_G	1L6N_A	5T70_G	3GV2_A
+sp|P69726|VPR_HV1H2	sp|Q5XUX1|FBXW9_HUMAN	76.9	1ESX_A	6WNX_A	5JK7_F	5JK7_E
+sp|O00241|SIRB1_HUMAN	sp|P04591|GAG_HV1H2	76.9	4I2X_F	1L6N_A	5T70_G	3GV2_A
+sp|Q6DN72|FCRL6_HUMAN	sp|P04591|GAG_HV1H2	76.9	5T70_G	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|P01593|KVD33_HUMAN	76.8	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P01594|KV133_HUMAN	76.8	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|Q86YT9|JAML_HUMAN	76.8	6PWU_E	3MJ6_A	3U2S_C	5N2K_F
+sp|Q9UH03|SEPT3_HUMAN	sp|P04601|NEF_HV1H2	76.8	4Z54_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04608|TAT_HV1H2	sp|Q6P158|DHX57_HUMAN	76.8	3MI9_C	5VHE_A	3MI9_C	2PK2_B
+sp|P04578|ENV_HV1H2	sp|O75015|FCG3B_HUMAN	76.7	6PWU_E	1FNL_A	3J70_P	4Q6I_J
+sp|Q8IZP9|AGRG2_HUMAN	sp|P04578|ENV_HV1H2	76.7	6LML_R	6PWU_E	6MEO_B	3J70_P
+sp|P69726|VPR_HV1H2	sp|Q16760|DGKD_HUMAN	76.6	1ESX_A	1R79_A	5AJA_B	5AJA_C
+sp|P69726|VPR_HV1H2	sp|Q9H808|TLE6_HUMAN	76.6	1ESX_A	1GXR_A	5JK7_F	5JK7_E
+sp|Q96DZ5|CLIP3_HUMAN	sp|P04578|ENV_HV1H2	76.6	1WHJ_A	6PWU_E	6QFK_A	6B0N_G
+sp|P04585|POL_HV1H2	sp|A6NKP2|D42E2_HUMAN	76.5	1L6N_A	5XTB_J	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|O95455|TGDS_HUMAN	76.5	1L6N_A	6VLO_B	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|P0CG32|ZCC18_HUMAN	76.5	1L6N_A	6TAS_D	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|P14060|3BHS1_HUMAN	76.5	1L6N_A	5XTD_J	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|P26439|3BHS2_HUMAN	76.5	1L6N_A	5XTD_J	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|Q13630|FCL_HUMAN	76.5	1L6N_A	4B8W_A	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|Q14376|GALE_HUMAN	76.5	1L6N_A	1I3M_A	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|Q15738|NSDHL_HUMAN	76.5	1L6N_A	6JKH_A	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|Q16795|NDUA9_HUMAN	76.5	1L6N_A	6G2J_P	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|Q5HYW3|RTL5_HUMAN	76.5	1L6N_A	6R24_C	6TAS_D	6TAS_F
+sp|Q68D85|NR3L1_HUMAN	sp|P04585|POL_HV1H2	76.5	4ZSO_F	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|Q6PEW1|ZCH12_HUMAN	76.5	1L6N_A	6TAS_F	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|Q8NBZ7|UXS1_HUMAN	76.5	1L6N_A	4GLL_A	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|Q8WUS8|D42E1_HUMAN	76.5	1L6N_A	5XTB_J	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|Q8WVX9|FACR1_HUMAN	76.5	1L6N_A	3W1V_A	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|Q96K12|FACR2_HUMAN	76.5	1L6N_A	3W1V_A	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|Q9H2F3|3BHS7_HUMAN	76.5	1L6N_A	5BJU_A	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|Q9NZL9|MAT2B_HUMAN	76.5	1L6N_A	2YDY_A	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|Q9UL41|PNMA3_HUMAN	76.5	1L6N_A	6R23_B	6TAS_D	6TAS_F
+sp|P04618|REV_HV1H2	sp|Q9P1W8|SIRPG_HUMAN	76.5	2X7L_R	4I2X_F	2X7L_R	5I8O_H
+sp|Q9P2J3|KLHL9_HUMAN	sp|P69723|VIF_HV1H2	76.5	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q86XP1|DGKH_HUMAN	76.5	1ESX_A	1R79_A	5AJA_B	5AJA_C
+sp|Q68D85|NR3L1_HUMAN	sp|P04591|GAG_HV1H2	76.5	4ZSO_F	1L6N_A	6CPL_A	2XXM_A
+sp|Q7Z713|ANR37_HUMAN	sp|P04578|ENV_HV1H2	76.5	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q9UI32|GLSL_HUMAN	sp|P04578|ENV_HV1H2	76.4	3SS3_D	6PWU_E	6QFK_A	6B0N_G
+sp|P04585|POL_HV1H2	sp|P00973|OAS1_HUMAN	76.3	1L6N_A	1PX5_A	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|P51003|PAPOA_HUMAN	76.3	1L6N_A	1Q79_A	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q5XG87|PAPD7_HUMAN	76.3	1L6N_A	6L3F_A	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q6PIY7|GLD2_HUMAN	76.3	1L6N_A	6IW6_B	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q8NDF8|PAPD5_HUMAN	76.3	1L6N_A	6L3F_A	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q9BWT3|PAPOG_HUMAN	76.3	1L6N_A	2Q66_A	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q9H6E5|STPAP_HUMAN	76.3	1L6N_A	5WU3_A	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q9H6R4|NOL6_HUMAN	76.3	1L6N_A	5WYK_C	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q9NRJ5|PAPOB_HUMAN	76.3	1L6N_A	1Q79_A	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q9NVV4|PAPD1_HUMAN	76.3	1L6N_A	5A2V_B	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q9Y6K5|OAS3_HUMAN	76.3	1L6N_A	4S3N_A	5W0M_A	5W0N_B
+sp|P05919|VPU_HV1H2	sp|Q5T2S8|ARMC4_HUMAN	76.3	2N28_A	1JDH_A	4P6Z_V	4P6Z_G
+sp|Q5UAW9|GP157_HUMAN	sp|P04578|ENV_HV1H2	76.3	4L6R_A	6PWU_E	6MEO_B	3J70_P
+sp|Q7L513|FCRLA_HUMAN	sp|P04585|POL_HV1H2	76.3	3RJD_A	1L6N_A	5T70_G	3GV2_A
+sp|Q7L513|FCRLA_HUMAN	sp|P04591|GAG_HV1H2	76.3	3RJD_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A0B4J2D9|KVD13_HUMAN	76.2	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P0DP09|KV113_HUMAN	76.2	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|Q12965|MYO1E_HUMAN	76.2	3TB8_A	3DTP_B	4U5W_C	4U5W_B
+sp|P05919|VPU_HV1H2	sp|P63010|AP2B1_HUMAN	76.2	2N28_A	4UQI_B	4P6Z_V	4P6Z_G
+sp|Q6UX41|BTNL8_HUMAN	sp|P04578|ENV_HV1H2	76.1	5HM7_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04601|NEF_HV1H2	sp|Q15052|ARHG6_HUMAN	76.1	3TB8_A	2PZ1_A	4U5W_C	4U5W_B
+sp|P20138|CD33_HUMAN	sp|P04578|ENV_HV1H2	76.0	5OR7_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|Q68D85|NR3L1_HUMAN	76.0	6PWU_E	4ZSO_F	6NIJ_B	3U1S_H
+sp|P04618|REV_HV1H2	sp|Q14CZ8|HECAM_HUMAN	76.0	2X7L_R	6JXR_n	5DHX_C	6CVK_A
+sp|P04601|NEF_HV1H2	sp|P98077|SHC2_HUMAN	75.9	3TB8_A	1N3H_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q92569|P55G_HUMAN	75.9	3TB8_A	4JPS_B	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|P10275|ANDR_HUMAN	75.9	3MI9_C	3DZY_A	3MI9_C	2PK2_B
+sp|Q13410|BT1A1_HUMAN	sp|P04601|NEF_HV1H2	75.9	5HM7_A	3TB8_A	5XOV_H	3TB8_A
+sp|A5D8T8|CL18A_HUMAN	sp|P04578|ENV_HV1H2	75.8	2DDB_B	6PWU_E	1QO3_C	3J70_P
+sp|P26715|NKG2A_HUMAN	sp|P04578|ENV_HV1H2	75.8	3CDG_F	6PWU_E	1QO3_C	3J70_P
+sp|Q9UJP4|KLH21_HUMAN	sp|P69723|VIF_HV1H2	75.7	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|A0A0A0MS15|HV349_HUMAN	sp|P04578|ENV_HV1H2	75.6	5WB1_A	6PWU_E	5VIY_H	4TVP_G
+sp|Q9Y5M8|SRPRB_HUMAN	sp|P04601|NEF_HV1H2	75.5	2FH5_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P69726|VPR_HV1H2	sp|G9CGD6|CNIPF_HUMAN	75.5	1ESX_A	1U5F_A	5AJA_B	5AJA_C
+sp|P04585|POL_HV1H2	sp|O60547|GMDS_HUMAN	75.4	1L6N_A	6GPK_C	6TAS_D	6VTJ_A
+sp|Q14CZ8|HECAM_HUMAN	sp|P04585|POL_HV1H2	75.4	6JXR_n	1L6N_A	5T70_G	3GV2_A
+sp|Q15198|PGFRL_HUMAN	sp|P04585|POL_HV1H2	75.4	4HJJ_L	1L6N_A	5T70_G	3GV2_A
+sp|P04608|TAT_HV1H2	sp|O95343|SIX3_HUMAN	75.4	3MI9_C	4EGC_A	3MI9_C	2PK2_B
+sp|Q14CZ8|HECAM_HUMAN	sp|P04591|GAG_HV1H2	75.4	6JXR_n	1L6N_A	5T70_G	3GV2_A
+sp|Q15198|PGFRL_HUMAN	sp|P04591|GAG_HV1H2	75.4	4HJJ_L	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A0B4J1X8|HV343_HUMAN	75.3	6PWU_E	6QNO_H	6NIJ_B	3U1S_H
+sp|P11488|GNAT1_HUMAN	sp|P04601|NEF_HV1H2	75.3	6NE6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q9NXS3|KLH28_HUMAN	sp|P69723|VIF_HV1H2	75.3	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q6P9H4|CNKR3_HUMAN	75.3	1ESX_A	1PK1_B	5AJA_B	5AJA_C
+sp|A0A0J9YX35|HV64D_HUMAN	sp|P04578|ENV_HV1H2	75.2	5WB1_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|P01706|LV211_HUMAN	75.2	6PWU_E	6ULC_L	6PWU_E	6ULC_L
+sp|P04578|ENV_HV1H2	sp|P01861|IGHG4_HUMAN	75.2	6PWU_E	1MCO_H	6FY1_G	4HJJ_H
+sp|P31994|FCG2B_HUMAN	sp|P04585|POL_HV1H2	75.2	3RY4_A	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|A6NKP2|D42E2_HUMAN	75.2	1L6N_A	5XTB_J	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|O60547|GMDS_HUMAN	75.2	1L6N_A	6GPK_C	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|O95455|TGDS_HUMAN	75.2	1L6N_A	6VLO_B	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|P0CG32|ZCC18_HUMAN	75.2	1L6N_A	6TAS_D	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|P14060|3BHS1_HUMAN	75.2	1L6N_A	5XTD_J	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|P26439|3BHS2_HUMAN	75.2	1L6N_A	5XTD_J	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|Q13630|FCL_HUMAN	75.2	1L6N_A	4B8W_A	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|Q14376|GALE_HUMAN	75.2	1L6N_A	1I3M_A	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|Q15738|NSDHL_HUMAN	75.2	1L6N_A	6JKH_A	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|Q16795|NDUA9_HUMAN	75.2	1L6N_A	6G2J_P	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|Q5HYW3|RTL5_HUMAN	75.2	1L6N_A	6R24_C	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|Q6PEW1|ZCH12_HUMAN	75.2	1L6N_A	6TAS_F	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|Q8NBZ7|UXS1_HUMAN	75.2	1L6N_A	4GLL_A	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|Q8WUS8|D42E1_HUMAN	75.2	1L6N_A	5XTB_J	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|Q8WVX9|FACR1_HUMAN	75.2	1L6N_A	3W1V_A	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|Q96K12|FACR2_HUMAN	75.2	1L6N_A	3W1V_A	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|Q9H2F3|3BHS7_HUMAN	75.2	1L6N_A	5BJU_A	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|Q9NZL9|MAT2B_HUMAN	75.2	1L6N_A	2YDY_A	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|Q9UL41|PNMA3_HUMAN	75.2	1L6N_A	6R23_B	6TAS_D	6TAS_F
+sp|P05919|VPU_HV1H2	sp|Q14974|IMB1_HUMAN	75.2	2N28_A	1QGR_A	4P6Z_V	4P6Z_G
+sp|P69726|VPR_HV1H2	sp|Q6ZS30|NBEL1_HUMAN	75.2	1ESX_A	1T77_D	5JK7_F	5JK7_E
+sp|P31994|FCG2B_HUMAN	sp|P04591|GAG_HV1H2	75.2	3RY4_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9BU20|CPLN2_HUMAN	sp|P04601|NEF_HV1H2	75.1	1R2Q_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q7Z442|PK1L2_HUMAN	sp|P04578|ENV_HV1H2	75.1	6A70_B	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|P0DP04|HV43D_HUMAN	75.0	6PWU_E	6QNO_H	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	tr|A0A075B7F1|A0A075B7F1_HUMAN	75.0	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|Q14161|GIT2_HUMAN	sp|P04578|ENV_HV1H2	75.0	6JMT_B	6PWU_E	6QFK_A	6B0N_G
+sp|P04585|POL_HV1H2	sp|P29728|OAS2_HUMAN	74.9	1L6N_A	4S3N_A	5W0M_A	5W0N_B
+sp|P31995|FCG2C_HUMAN	sp|P04585|POL_HV1H2	74.9	3RY4_A	1L6N_A	5T70_G	3GV2_A
+sp|Q01638|ILRL1_HUMAN	sp|P04585|POL_HV1H2	74.9	4KC3_B	1L6N_A	5T70_G	3GV2_A
+sp|P04618|REV_HV1H2	sp|Q08ET2|SIG14_HUMAN	74.9	2X7L_R	5LFR_A	2X7L_R	5I8O_H
+sp|P31995|FCG2C_HUMAN	sp|P04591|GAG_HV1H2	74.9	3RY4_A	1L6N_A	5T70_G	3GV2_A
+sp|Q01638|ILRL1_HUMAN	sp|P04591|GAG_HV1H2	74.9	4KC3_B	1L6N_A	5T70_G	3GV2_A
+sp|P01859|IGHG2_HUMAN	sp|P04585|POL_HV1H2	74.8	1MCO_H	1L6N_A	6CPL_A	2XXM_A
+sp|P04601|NEF_HV1H2	sp|P20936|RASA1_HUMAN	74.8	3TB8_A	1WER_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q5VZ18|SHE_HUMAN	74.8	3TB8_A	1OO4_A	4U5W_C	4U5W_B
+sp|P01859|IGHG2_HUMAN	sp|P04591|GAG_HV1H2	74.8	1MCO_H	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	sp|P00973|OAS1_HUMAN	74.7	1L6N_A	1PX5_A	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|P29728|OAS2_HUMAN	74.7	1L6N_A	4S3N_A	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|P51003|PAPOA_HUMAN	74.7	1L6N_A	1Q79_A	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q5XG87|PAPD7_HUMAN	74.7	1L6N_A	6L3F_A	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q6PIY7|GLD2_HUMAN	74.7	1L6N_A	6IW6_B	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q8NDF8|PAPD5_HUMAN	74.7	1L6N_A	6L3F_A	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q9BWT3|PAPOG_HUMAN	74.7	1L6N_A	2Q66_A	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q9H6E5|STPAP_HUMAN	74.7	1L6N_A	5WU3_A	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q9H6R4|NOL6_HUMAN	74.7	1L6N_A	5WYK_C	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q9NRJ5|PAPOB_HUMAN	74.7	1L6N_A	1Q79_A	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q9NVV4|PAPD1_HUMAN	74.7	1L6N_A	5A2V_B	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q9Y6K5|OAS3_HUMAN	74.7	1L6N_A	4S3N_A	5W0M_A	5W0N_B
+sp|P04578|ENV_HV1H2	sp|A0A075B6J9|LV218_HUMAN	74.6	6PWU_E	6ULC_L	6PWU_E	6ULC_L
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH72|KV106_HUMAN	74.6	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|P69726|VPR_HV1H2	sp|P55884|EIF3B_HUMAN	74.6	1ESX_A	6FEC_w	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q8WXI2|CNKR2_HUMAN	74.6	1ESX_A	5MR1_A	5AJA_B	5AJA_C
+sp|Q9Y279|VSIG4_HUMAN	sp|P04601|NEF_HV1H2	74.6	5IML_A	3TB8_A	5XOV_H	3TB8_A
+sp|P0DTU4|TRBR2_HUMAN	sp|P04578|ENV_HV1H2	74.5	6JXR_n	6PWU_E	6UDK_H	4TVP_G
+sp|Q9NZQ7|PD1L1_HUMAN	sp|P04578|ENV_HV1H2	74.5	6PV9_A	6PWU_E	4H8W_C	3NGB_D
+sp|Q15019|SEPT2_HUMAN	sp|P04601|NEF_HV1H2	74.5	4Z54_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|P12319|FCERA_HUMAN	74.5	2X7L_R	1J86_A	2X7L_R	5I8O_L
+sp|O75054|IGSF3_HUMAN	sp|P04585|POL_HV1H2	74.5	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|O75054|IGSF3_HUMAN	sp|P04591|GAG_HV1H2	74.5	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|P01833|PIGR_HUMAN	sp|P04585|POL_HV1H2	74.5	3CHN_S	1L6N_A	6ID4_C	1R0A_A
+sp|P04618|REV_HV1H2	sp|Q6UXZ0|TMIG1_HUMAN	74.4	2X7L_R	6A69_B	2X7L_R	5I8O_L
+sp|P04578|ENV_HV1H2	sp|P01859|IGHG2_HUMAN	74.3	6PWU_E	1MCO_H	6FY1_G	4HJJ_H
+sp|Q9BX59|TPSNR_HUMAN	sp|P04578|ENV_HV1H2	74.3	5WER_F	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	tr|A0A075B7D4|A0A075B7D4_HUMAN	74.3	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|Q86VR7|VS10L_HUMAN	sp|P04585|POL_HV1H2	74.3	5A2F_A	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|Q9H4M9|EHD1_HUMAN	74.3	3TB8_A	2QPT_A	6CRI_Z	6DFF_C
+sp|Q86VR7|VS10L_HUMAN	sp|P04591|GAG_HV1H2	74.3	5A2F_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8NCF0|CL18C_HUMAN	sp|P04578|ENV_HV1H2	74.3	2DDB_B	6PWU_E	1QO3_C	3J70_P
+sp|O95185|UNC5C_HUMAN	sp|P04578|ENV_HV1H2	74.2	3G5B_A	6PWU_E	4YDV_A	6PWU_E
+sp|P04618|REV_HV1H2	sp|P0DPA2|VSIG8_HUMAN	74.2	2X7L_R	6A69_B	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|Q9UIR0|BTNL2_HUMAN	74.2	2X7L_R	4PFE_B	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A0G2JPB7|A0A0G2JPB7_HUMAN	74.2	2X7L_R	4PFE_A	2X7L_R	5I8O_H
+sp|P04578|ENV_HV1H2	sp|P01597|KV139_HUMAN	74.1	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P04432|KVD39_HUMAN	74.1	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|Q9H7L2|KI3X1_HUMAN	sp|P04578|ENV_HV1H2	74.1	6AEE_G	6PWU_E	6MET_A	3J70_P
+sp|P04585|POL_HV1H2	sp|P14649|MYL6B_HUMAN	74.1	1L6N_A	5N69_H	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P14649|MYL6B_HUMAN	74.1	1L6N_A	5N69_H	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|O15357|SHIP2_HUMAN	74.1	3TB8_A	6XY7_A	4U5W_C	4U5W_B
+sp|Q6NV75|GP153_HUMAN	sp|P04578|ENV_HV1H2	74.1	6KR8_A	6PWU_E	6MEO_B	3J70_P
+sp|P0DTE1|HV383_HUMAN	sp|P04578|ENV_HV1H2	74.0	6QNO_H	6PWU_E	5VIY_H	4TVP_G
+sp|P04601|NEF_HV1H2	sp|Q3YEC7|RABL6_HUMAN	74.0	3TB8_A	3IHW_A	6CRI_Z	6DFF_C
+sp|P04578|ENV_HV1H2	sp|P01599|KV117_HUMAN	73.9	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|P12318|FCG2A_HUMAN	sp|P04585|POL_HV1H2	73.9	3RY4_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9Y573|IPP_HUMAN	sp|P69723|VIF_HV1H2	73.9	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P12318|FCG2A_HUMAN	sp|P04591|GAG_HV1H2	73.9	3RY4_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8IZF6|AGRG4_HUMAN	sp|P04578|ENV_HV1H2	73.9	4DLO_B	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	tr|A0A0J9YY99|A0A0J9YY99_HUMAN	73.8	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|Q7M4L6|SHF_HUMAN	73.8	3TB8_A	2OZO_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|O15389|SIGL5_HUMAN	73.8	2X7L_R	5LFU_A	2X7L_R	5I8O_H
+sp|P04578|ENV_HV1H2	sp|P01768|HV330_HUMAN	73.7	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P0DP03|HVC05_HUMAN	73.7	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|O00478|BT3A3_HUMAN	73.7	1L6N_A	5HM7_A	1R0A_A	1HYS_D
+sp|P01860|IGHG3_HUMAN	sp|P04585|POL_HV1H2	73.7	1MCO_H	1L6N_A	6CPL_A	2XXM_A
+sp|P04601|NEF_HV1H2	sp|O14617|AP3D1_HUMAN	73.7	3TB8_A	6OWT_A	6CRI_Z	6CRI_I
+sp|P04601|NEF_HV1H2	sp|Q15464|SHB_HUMAN	73.7	3TB8_A	5AUL_A	4U5W_C	4U5W_B
+sp|Q9Y2M5|KLH20_HUMAN	sp|P69723|VIF_HV1H2	73.7	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P01860|IGHG3_HUMAN	sp|P04591|GAG_HV1H2	73.7	1MCO_H	1L6N_A	6CPL_A	2XXM_A
+sp|Q16538|GP162_HUMAN	sp|P04578|ENV_HV1H2	73.7	6IIU_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|P01762|HV311_HUMAN	73.6	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P01602|KV105_HUMAN	73.5	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|P01861|IGHG4_HUMAN	sp|P04585|POL_HV1H2	73.5	1MCO_H	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|P05976|MYL1_HUMAN	73.5	1L6N_A	5N69_H	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P05976|MYL1_HUMAN	73.5	1L6N_A	5N69_H	2MGU_M	5DOW_A
+sp|P01861|IGHG4_HUMAN	sp|P04591|GAG_HV1H2	73.5	1MCO_H	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	tr|A0A0G2JN01|A0A0G2JN01_HUMAN	73.4	6PWU_E	3VH8_H	6FY1_G	4HJJ_H
+sp|P04578|ENV_HV1H2	tr|S4R3C0|S4R3C0_HUMAN	73.4	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|Q86Y56|DAAF5_HUMAN	73.4	3TB8_A	5FVM_B	6OWT_N	6QH5_B
+sp|P04618|REV_HV1H2	sp|P12314|FCGR1_HUMAN	73.4	2X7L_R	4W4O_C	2X7L_R	5I8O_L
+sp|P04578|ENV_HV1H2	sp|P0DP02|HVC33_HUMAN	73.3	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P18627|LAG3_HUMAN	73.3	6PWU_E	3T0E_E	2NY2_A	4HJJ_L
+sp|P04578|ENV_HV1H2	sp|Q14002|CEAM7_HUMAN	73.3	6PWU_E	1E07_A	3U2S_C	5N2K_F
+sp|Q92637|FCGRB_HUMAN	sp|P04578|ENV_HV1H2	73.3	4W4O_C	6PWU_E	6MET_A	3J70_P
+sp|P69726|VPR_HV1H2	sp|A2RUS2|DEND3_HUMAN	73.3	1ESX_A	6B3Y_B	5JK7_F	5JK7_E
+sp|Q96PQ1|SIG12_HUMAN	sp|P04591|GAG_HV1H2	73.3	5LFU_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH73|KV112_HUMAN	73.2	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P01772|HV333_HUMAN	73.2	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P01857|IGHG1_HUMAN	sp|P04585|POL_HV1H2	73.2	1MCO_H	1L6N_A	6CPL_A	2XXM_A
+sp|P04601|NEF_HV1H2	sp|P52292|IMA1_HUMAN	73.2	3TB8_A	5T94_B	4NEE_K	2JKT_A
+sp|P01857|IGHG1_HUMAN	sp|P04591|GAG_HV1H2	73.2	1MCO_H	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|O95256|I18RA_HUMAN	73.1	6PWU_E	3WO4_C	6FY1_G	4HJJ_H
+sp|P01764|HV323_HUMAN	sp|P04578|ENV_HV1H2	73.1	5WB1_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|Q8N743|KI3L3_HUMAN	73.1	6PWU_E	3VH8_H	6FY1_G	4HJJ_H
+sp|P04585|POL_HV1H2	sp|Q9NRG7|D39U1_HUMAN	73.1	1L6N_A	4B4O_D	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|Q9NRG7|D39U1_HUMAN	73.1	1L6N_A	4B4O_D	6TAS_D	6VTJ_A
+sp|P04601|NEF_HV1H2	sp|O00160|MYO1F_HUMAN	73.1	3TB8_A	3DTP_B	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q92783|STAM1_HUMAN	73.1	3TB8_A	2L0T_B	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|Q15911|ZFHX3_HUMAN	73.1	3MI9_C	5V3J_E	3MI9_C	2PK2_B
+sp|P04578|ENV_HV1H2	tr|A0A0G2JLM5|A0A0G2JLM5_HUMAN	73.0	6PWU_E	3VH8_H	6NIJ_B	5WHZ_L
+sp|P04601|NEF_HV1H2	sp|Q92529|SHC3_HUMAN	73.0	3TB8_A	1N3H_A	4U5W_C	4U5W_B
+sp|P04578|ENV_HV1H2	sp|A0A075B6K0|LV316_HUMAN	72.9	6PWU_E	6ULC_L	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P01704|LV214_HUMAN	72.9	6PWU_E	6ULC_L	6PWU_E	6ULC_L
+sp|P04578|ENV_HV1H2	sp|P01825|HV459_HUMAN	72.9	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|Q92882|OSTF1_HUMAN	72.9	3TB8_A	3EHR_A	4U5W_C	4U5W_B
+sp|P12319|FCERA_HUMAN	sp|P04601|NEF_HV1H2	72.9	1J86_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|A0A075B6Q5|HV364_HUMAN	72.8	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P01763|HV348_HUMAN	72.8	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|Q14943|KI3S1_HUMAN	72.8	6PWU_E	3VH8_H	6NIJ_B	5WHZ_L
+sp|Q86TD4|SRCA_HUMAN	sp|P04601|NEF_HV1H2	72.8	2QPT_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P69726|VPR_HV1H2	sp|Q8NFH4|NUP37_HUMAN	72.8	1ESX_A	5A9Q_T	5JK7_F	5JK7_E
+sp|P31994|FCG2B_HUMAN	sp|P04601|NEF_HV1H2	72.8	3RY4_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q6PI73|LIRA6_HUMAN	sp|P04585|POL_HV1H2	72.8	6AED_A	1L6N_A	5T70_G	3GV2_A
+sp|Q6PI73|LIRA6_HUMAN	sp|P04591|GAG_HV1H2	72.8	6AED_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|P40200|TACT_HUMAN	72.7	6PWU_E	6TYB_C	6TYB_G	6TYB_C
+sp|P04578|ENV_HV1H2	sp|P43630|KI3L2_HUMAN	72.7	6PWU_E	3VH8_H	6NIJ_B	5WHZ_L
+sp|P04578|ENV_HV1H2	tr|A0A0G2JMM0|A0A0G2JMM0_HUMAN	72.7	6PWU_E	3VH8_H	6FY1_G	4HJJ_H
+sp|P05919|VPU_HV1H2	sp|P52292|IMA1_HUMAN	72.7	2N28_A	5T94_B	4P6Z_V	4P6Z_G
+sp|Q86V97|KBTB6_HUMAN	sp|P69723|VIF_HV1H2	72.7	4HXI_A	4N9F_b	6P59_Z	6P59_B
+sp|Q15223|NECT1_HUMAN	sp|P04601|NEF_HV1H2	72.7	4FMF_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q92478|CLC2B_HUMAN	sp|P04578|ENV_HV1H2	72.7	4WCO_A	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|A0A075B6S5|KV127_HUMAN	72.6	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|P31995|FCG2C_HUMAN	sp|P04601|NEF_HV1H2	72.6	3RY4_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|P01721|LV657_HUMAN	72.5	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|Q8IUR7|ARMC8_HUMAN	72.5	3TB8_A	3GQ2_A	6OWT_N	6OWT_A
+sp|Q8NHV1|GIMA7_HUMAN	sp|P04601|NEF_HV1H2	72.5	3ZJC_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q9NZN3|EHD3_HUMAN	72.5	3TB8_A	2QPT_A	6CRI_Z	6DFF_C
+sp|Q6AI12|ANR40_HUMAN	sp|P04578|ENV_HV1H2	72.5	1K3Z_D	6PWU_E	6QFK_A	6B0N_G
+sp|Q8IWL2|SFTA1_HUMAN	sp|P04578|ENV_HV1H2	72.5	1PWB_B	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	tr|A0A0G2JRQ6|A0A0G2JRQ6_HUMAN	72.4	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|Q8WVV5|BT2A2_HUMAN	sp|P04585|POL_HV1H2	72.4	5HM7_A	1L6N_A	6ID4_C	1R0A_A
+sp|P38405|GNAL_HUMAN	sp|P04601|NEF_HV1H2	72.4	6EG8_I	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|Q9NZN1|IRPL1_HUMAN	72.4	2X7L_R	5Y32_B	2X7L_R	5I8O_L
+sp|Q8IWL1|SFPA2_HUMAN	sp|P04578|ENV_HV1H2	72.4	1PWB_B	6PWU_E	1QO3_C	3J70_P
+tr|A0A0G2JPB7|A0A0G2JPB7_HUMAN	sp|P04591|GAG_HV1H2	72.4	4PFE_A	1L6N_A	5T70_G	3GV2_A
+sp|P04608|TAT_HV1H2	sp|Q16676|FOXD1_HUMAN	72.3	3MI9_C	5A5U_B	3MI9_C	2PK2_B
+sp|Q8TDV2|GP148_HUMAN	sp|P04578|ENV_HV1H2	72.3	5OLZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q93033|IGSF2_HUMAN	sp|P04585|POL_HV1H2	72.3	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q93033|IGSF2_HUMAN	sp|P04591|GAG_HV1H2	72.3	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH69|KV109_HUMAN	72.2	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P01824|HV439_HUMAN	72.2	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|P29350|PTN6_HUMAN	72.2	3TB8_A	3PS5_A	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|Q9HAW0|BRF2_HUMAN	72.2	3MI9_C	4ROE_A	3MI9_C	2PK2_B
+sp|Q6UXZ0|TMIG1_HUMAN	sp|P04601|NEF_HV1H2	72.2	6A69_B	3TB8_A	5XOV_H	3TB8_A
+sp|Q9Y2Y8|PRG3_HUMAN	sp|P04578|ENV_HV1H2	72.2	1H8U_B	6PWU_E	1QO3_C	3J70_P
+sp|P04601|NEF_HV1H2	sp|O43586|PPIP1_HUMAN	72.1	3TB8_A	4BNE_B	4U5W_C	4U5W_B
+sp|P69726|VPR_HV1H2	sp|Q96RY7|IF140_HUMAN	72.1	1ESX_A	3MKQ_E	5JK7_F	5JK7_E
+sp|P04585|POL_HV1H2	sp|O14746|TERT_HUMAN	72.0	1L6N_A	6D6V_A	6AR1_A	6AR1_A
+sp|P0DPA2|VSIG8_HUMAN	sp|P04585|POL_HV1H2	72.0	6A69_B	1L6N_A	6ID4_C	1R0A_A
+sp|P04601|NEF_HV1H2	sp|Q9NZN4|EHD2_HUMAN	72.0	3TB8_A	2QPT_A	6CRI_Z	6DFF_C
+sp|P26718|NKG2D_HUMAN	sp|P04578|ENV_HV1H2	72.0	4PDC_D	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|P01877|IGHA2_HUMAN	71.9	6PWU_E	1R70_B	2NY2_A	4HJJ_L
+sp|P04601|NEF_HV1H2	sp|P15498|VAV_HUMAN	71.9	3TB8_A	6NF1_A	4U5W_C	4U5W_B
+sp|P04578|ENV_HV1H2	sp|P01703|LV140_HUMAN	71.8	6PWU_E	6ULC_L	6PWU_E	6ULC_L
+sp|P78410|BT3A2_HUMAN	sp|P04585|POL_HV1H2	71.8	4F9L_A	1L6N_A	6CPL_A	2XXM_A
+sp|P78410|BT3A2_HUMAN	sp|P04591|GAG_HV1H2	71.8	4F9L_A	1L6N_A	6CPL_A	2XXM_A
+sp|P05919|VPU_HV1H2	sp|O14617|AP3D1_HUMAN	71.8	2N28_A	6OWT_A	4P6Z_V	4P6Z_B
+sp|Q9UIR0|BTNL2_HUMAN	sp|P04591|GAG_HV1H2	71.8	4PFE_B	1L6N_A	5T70_G	3GV2_A
+sp|A0A0B4J1X5|HV374_HUMAN	sp|P04578|ENV_HV1H2	71.7	5WB1_A	6PWU_E	6BF4_B	3NGB_D
+sp|P04585|POL_HV1H2	sp|P35243|RECO_HUMAN	71.7	1L6N_A	1OMR_A	2MGU_M	5DOW_A
+sp|Q96KV6|BT2A3_HUMAN	sp|P04585|POL_HV1H2	71.7	5HM7_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q9NRD9|DUOX1_HUMAN	71.7	1L6N_A	6SZ5_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P35243|RECO_HUMAN	71.7	1L6N_A	1OMR_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9NRD9|DUOX1_HUMAN	71.7	1L6N_A	6SZ5_B	2MGU_M	5DOW_A
+sp|Q8IYM1|SEP12_HUMAN	sp|P04601|NEF_HV1H2	71.7	4Z54_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q96HL8|SH3Y1_HUMAN	71.7	3TB8_A	1GRI_B	4U5W_C	4U5W_B
+sp|P69726|VPR_HV1H2	sp|Q6SZW1|SARM1_HUMAN	71.7	1ESX_A	6QWV_O	4Z8L_B	4Z8L_F
+sp|A2RUH7|MBPHL_HUMAN	sp|P04601|NEF_HV1H2	71.7	2Y25_D	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|P01709|LV208_HUMAN	71.6	6PWU_E	6ULC_L	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|P0DTU4|TRBR2_HUMAN	71.6	1L6N_A	6JXR_n	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|P10916|MLRV_HUMAN	71.6	1L6N_A	1I84_U	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P10916|MLRV_HUMAN	71.6	1L6N_A	1I84_U	2MGU_M	5DOW_A
+sp|Q9P2N7|KLH13_HUMAN	sp|P69723|VIF_HV1H2	71.6	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|O75023|LIRB5_HUMAN	sp|P04585|POL_HV1H2	71.6	6AED_A	1L6N_A	5T70_G	3GV2_A
+sp|O75023|LIRB5_HUMAN	sp|P04591|GAG_HV1H2	71.6	6AED_A	1L6N_A	5T70_G	3GV2_A
+sp|O75596|CLC3A_HUMAN	sp|P04578|ENV_HV1H2	71.6	1HTN_A	6PWU_E	1QO3_C	3J70_P
+sp|Q14CZ8|HECAM_HUMAN	sp|P04601|NEF_HV1H2	71.6	6JXR_n	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|P01601|KVD16_HUMAN	71.5	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|P01860|IGHG3_HUMAN	sp|P04578|ENV_HV1H2	71.5	1MCO_H	6PWU_E	6BF4_B	3NGB_D
+sp|P04601|NEF_HV1H2	sp|Q14247|SRC8_HUMAN	71.5	3TB8_A	1GRI_B	4U5W_C	4U5W_B
+sp|P42771|CDN2A_HUMAN	sp|P04578|ENV_HV1H2	71.5	1A5E_A	6PWU_E	6QFK_A	6B0N_G
+sp|Q8N149|LIRA2_HUMAN	sp|P04585|POL_HV1H2	71.5	6AEE_G	1L6N_A	5T70_G	3GV2_A
+sp|Q8N149|LIRA2_HUMAN	sp|P04591|GAG_HV1H2	71.5	6AEE_G	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|P01782|HV309_HUMAN	71.4	6PWU_E	6QNO_H	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P04430|KV116_HUMAN	71.4	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|Q02045|MYL5_HUMAN	71.4	1L6N_A	2MYS_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q02045|MYL5_HUMAN	71.4	1L6N_A	2MYS_B	2MGU_M	5DOW_A
+sp|Q8NAP8|ZBT8B_HUMAN	sp|P69723|VIF_HV1H2	71.4	5UND_A	4N9F_b	6P59_Z	6P59_B
+sp|P04578|ENV_HV1H2	sp|P43629|KI3L1_HUMAN	71.3	6PWU_E	3VH8_H	6FY1_G	4HJJ_H
+sp|P04601|NEF_HV1H2	sp|Q96JZ2|HSH2D_HUMAN	71.3	3TB8_A	2CS0_A	4U5W_C	4U5W_B
+sp|P05919|VPU_HV1H2	sp|Q10567|AP1B1_HUMAN	71.3	2N28_A	4UQI_B	4P6Z_V	4P6Z_G
+sp|Q6UXF7|CL18B_HUMAN	sp|P04578|ENV_HV1H2	71.3	2DDB_B	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH26|KVD41_HUMAN	71.2	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|O14796|SH21B_HUMAN	71.2	3TB8_A	5KAZ_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9UN19|DAPP1_HUMAN	71.2	3TB8_A	1FB8_A	4U5W_C	4U5W_B
+sp|Q8WVZ9|KBTB7_HUMAN	sp|P69723|VIF_HV1H2	71.2	4HXI_A	4N9F_b	6P59_Z	6P59_B
+sp|O00478|BT3A3_HUMAN	sp|P04591|GAG_HV1H2	71.2	5HM7_A	1L6N_A	6CPL_A	2XXM_A
+sp|P01871|IGHM_HUMAN	sp|P04591|GAG_HV1H2	71.2	6KXS_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q6ZMC9|SIG15_HUMAN	71.1	6PWU_E	2CDE_C	2NY2_A	5VSI_H
+sp|P12314|FCGR1_HUMAN	sp|P04585|POL_HV1H2	71.1	4W4O_C	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q13813|SPTN1_HUMAN	71.1	1L6N_A	1SJJ_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q13813|SPTN1_HUMAN	71.1	1L6N_A	1SJJ_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A6NKC9|SH2D7_HUMAN	71.1	3TB8_A	2CS0_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|O75886|STAM2_HUMAN	71.1	3TB8_A	2L0T_B	4U5W_C	4U5W_B
+sp|P69723|VIF_HV1H2	sp|Q9UH77|KLHL3_HUMAN	71.1	4N9F_b	4YY8_A	4N9F_b	4AJY_C
+sp|P12314|FCGR1_HUMAN	sp|P04591|GAG_HV1H2	71.1	4W4O_C	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A075B6K5|LV39_HUMAN	71.0	6PWU_E	6ULC_L	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|A0A075B6S9|KV137_HUMAN	71.0	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH32|HV320_HUMAN	71.0	6PWU_E	6QNO_H	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH41|HV461_HUMAN	71.0	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P0DSN7|KVD37_HUMAN	71.0	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|Q8NCP5|ZBT44_HUMAN	sp|P69723|VIF_HV1H2	71.0	5UND_B	4N9F_b	6P59_Z	6P59_B
+sp|A4D1S0|KLRG2_HUMAN	sp|P04578|ENV_HV1H2	71.0	3ZHG_D	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|P01705|LV223_HUMAN	70.9	6PWU_E	6ULC_L	6PWU_E	6ULC_L
+sp|O43824|GTPB6_HUMAN	sp|P04601|NEF_HV1H2	70.9	5ZZM_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q8IVI9|NOSTN_HUMAN	70.9	3TB8_A	4BNE_A	4U5W_C	4U5W_B
+sp|Q5QGZ9|CL12A_HUMAN	sp|P04578|ENV_HV1H2	70.9	3C8J_A	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|P01857|IGHG1_HUMAN	70.8	6PWU_E	1MCO_H	6FY1_G	4HJJ_H
+sp|P04578|ENV_HV1H2	sp|P04433|KV311_HUMAN	70.8	6PWU_E	6BPC_C	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|O00481|BT3A1_HUMAN	70.8	1L6N_A	5HM7_A	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|Q7LC44|ARC_HUMAN	70.8	1L6N_A	4X3X_A	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|Q7LC44|ARC_HUMAN	70.8	1L6N_A	4X3X_A	6TAS_D	6TAS_F
+sp|P04601|NEF_HV1H2	sp|Q86WZ0|HEAT4_HUMAN	70.8	3TB8_A	1OYZ_A	6OWT_N	6QH5_B
+sp|P04601|NEF_HV1H2	sp|Q9H223|EHD4_HUMAN	70.8	3TB8_A	5MTV_A	6CRI_Z	6DFF_C
+sp|P04578|ENV_HV1H2	sp|A0A0A0MRZ8|KVD11_HUMAN	70.7	6PWU_E	6BPC_C	6NIJ_B	3U1S_H
+sp|B9A064|IGLL5_HUMAN	sp|P04585|POL_HV1H2	70.7	6FIB_C	1L6N_A	6CPL_A	2XXM_A
+sp|Q9BX59|TPSNR_HUMAN	sp|P04585|POL_HV1H2	70.7	5WER_F	1L6N_A	6CPL_A	2XXM_A
+sp|B9A064|IGLL5_HUMAN	sp|P04591|GAG_HV1H2	70.7	6FIB_C	1L6N_A	6CPL_A	2XXM_A
+sp|Q9BX59|TPSNR_HUMAN	sp|P04591|GAG_HV1H2	70.7	5WER_F	1L6N_A	6CPL_A	2XXM_A
+sp|P01619|KV320_HUMAN	sp|P04578|ENV_HV1H2	70.6	1YJD_C	6PWU_E	4YDV_A	6PWU_E
+sp|P0CF74|IGLC6_HUMAN	sp|P04585|POL_HV1H2	70.6	6U07_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q53G59|KLH12_HUMAN	sp|P69723|VIF_HV1H2	70.6	2VPJ_A	4N9F_b	6P59_Z	6P59_B
+sp|Q96NJ5|KLH32_HUMAN	sp|P69723|VIF_HV1H2	70.6	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P0CF74|IGLC6_HUMAN	sp|P04591|GAG_HV1H2	70.6	6U07_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q07444|NKG2E_HUMAN	sp|P04578|ENV_HV1H2	70.6	3CDG_F	6PWU_E	1QO3_C	3J70_P
+sp|Q96NY8|NECT4_HUMAN	sp|P04601|NEF_HV1H2	70.6	3J8F_7	3TB8_A	5XOV_H	3TB8_A
+sp|Q9BZJ7|GPR62_HUMAN	sp|P04578|ENV_HV1H2	70.6	5DSG_B	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|A0A075B6I6|LV150_HUMAN	70.5	6PWU_E	6ULC_L	6PWU_E	6ULC_L
+sp|P01624|KV315_HUMAN	sp|P04578|ENV_HV1H2	70.5	6BPC_C	6PWU_E	4YDV_A	6PWU_E
+sp|P04585|POL_HV1H2	sp|P16989|YBOX3_HUMAN	70.5	1L6N_A	6A6J_C	5UDZ_B	5UDZ_B
+sp|P04585|POL_HV1H2	sp|P67809|YBOX1_HUMAN	70.5	1L6N_A	6A6J_C	5UDZ_B	5UDZ_B
+sp|P04585|POL_HV1H2	sp|Q6ZN17|LN28B_HUMAN	70.5	1L6N_A	5UDZ_B	5UDZ_B	5UDZ_B
+sp|P04585|POL_HV1H2	sp|Q9H9Z2|LN28A_HUMAN	70.5	1L6N_A	5UDZ_B	5UDZ_B	5UDZ_B
+sp|P04585|POL_HV1H2	sp|Q9Y2T7|YBOX2_HUMAN	70.5	1L6N_A	6A6J_C	5UDZ_B	5UDZ_B
+sp|P04618|REV_HV1H2	sp|Q15762|CD226_HUMAN	70.5	2X7L_R	6ISB_A	5DHX_C	6CVK_A
+sp|Q53HC5|KLH26_HUMAN	sp|P69723|VIF_HV1H2	70.5	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|Q13740|CD166_HUMAN	sp|P04585|POL_HV1H2	70.5	5A2F_A	1L6N_A	5T70_G	3GV2_A
+sp|Q13740|CD166_HUMAN	sp|P04591|GAG_HV1H2	70.5	5A2F_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q8N149|LIRA2_HUMAN	70.4	6PWU_E	6AEE_G	6FY1_G	4HJJ_H
+sp|Q9NRY4|RHG35_HUMAN	sp|P04601|NEF_HV1H2	70.4	3FK2_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|Q6DN72|FCRL6_HUMAN	70.4	2X7L_R	5T70_G	2X7L_R	5I8O_L
+sp|P69723|VIF_HV1H2	sp|Q2WGJ6|KLH38_HUMAN	70.4	4N9F_b	4YY8_A	4N9F_b	4AJY_C
+sp|P69723|VIF_HV1H2	sp|Q8N239|KLH34_HUMAN	70.4	4N9F_b	4YY8_A	4N9F_b	4AJY_C
+sp|P05452|TETN_HUMAN	sp|P04578|ENV_HV1H2	70.4	1HTN_A	6PWU_E	1QO3_C	3J70_P
+sp|A0A0B4J1V0|HV315_HUMAN	sp|P04578|ENV_HV1H2	70.3	5WB1_A	6PWU_E	5VIY_H	4TVP_G
+sp|P15814|IGLL1_HUMAN	sp|P04585|POL_HV1H2	70.3	6FIB_C	1L6N_A	6CPL_A	2XXM_A
+sp|P04601|NEF_HV1H2	sp|O76041|NEBL_HUMAN	70.3	3TB8_A	1G83_A	4U5W_C	4U5W_B
+sp|P15814|IGLL1_HUMAN	sp|P04591|GAG_HV1H2	70.3	6FIB_C	1L6N_A	6CPL_A	2XXM_A
+sp|Q9P1W8|SIRPG_HUMAN	sp|P04601|NEF_HV1H2	70.3	4I2X_F	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|A0A075B6J1|LV537_HUMAN	70.2	6PWU_E	6HD8_A	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|A0A075B6S4|KVD17_HUMAN	70.2	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|Q8NFY9|KBTB8_HUMAN	sp|P69723|VIF_HV1H2	70.2	3HVE_A	4N9F_b	6P59_Z	6P59_B
+sp|Q96CH1|GP146_HUMAN	sp|P04578|ENV_HV1H2	70.2	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NPH3|IL1AP_HUMAN	sp|P04585|POL_HV1H2	70.2	3O4O_B	1L6N_A	5T70_G	3GV2_A
+sp|Q9NPH3|IL1AP_HUMAN	sp|P04591|GAG_HV1H2	70.2	3O4O_B	1L6N_A	5T70_G	3GV2_A
+sp|P04618|REV_HV1H2	sp|Q96PQ1|SIG12_HUMAN	70.1	2X7L_R	5LFU_A	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|Q7Z3H4|SAMD7_HUMAN	70.1	1ESX_A	1PK1_B	5AJA_B	5AJA_C
+sp|P04578|ENV_HV1H2	sp|A0A0A0MRZ9|LV552_HUMAN	70.0	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|O75815|BCAR3_HUMAN	70.0	3TB8_A	3T6A_B	4U5W_C	4U5W_B
+sp|Q9NUV9|GIMA4_HUMAN	sp|P04601|NEF_HV1H2	70.0	3LXX_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q6TFL4|KLH24_HUMAN	sp|P69723|VIF_HV1H2	70.0	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|A0A0B4J241|TVAM1_HUMAN	sp|P04578|ENV_HV1H2	69.9	5TEZ_I	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|Q96A32|MLRS_HUMAN	69.9	1L6N_A	1I84_U	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q96A32|MLRS_HUMAN	69.9	1L6N_A	1I84_U	2MGU_M	5DOW_A
+sp|P04578|ENV_HV1H2	sp|A0A0B4J1V2|HV226_HUMAN	69.8	6PWU_E	5WB1_A	6FY1_G	4HJJ_H
+sp|P04578|ENV_HV1H2	sp|Q7L513|FCRLA_HUMAN	69.8	6PWU_E	3RJD_A	6B0N_G	5ALC_L
+sp|P0CG04|IGLC1_HUMAN	sp|P04585|POL_HV1H2	69.8	6U07_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04601|NEF_HV1H2	sp|Q9NYB9|ABI2_HUMAN	69.8	3TB8_A	4N78_F	4U5W_C	4U5W_B
+sp|P05919|VPU_HV1H2	sp|Q9UBF2|COPG2_HUMAN	69.8	2N28_A	5NZR_G	4P6Z_V	4P6Z_B
+sp|P0CG04|IGLC1_HUMAN	sp|P04591|GAG_HV1H2	69.8	6U07_A	1L6N_A	6CPL_A	2XXM_A
+sp|P01780|HV307_HUMAN	sp|P04578|ENV_HV1H2	69.7	5WB1_A	6PWU_E	6BF4_B	3NGB_D
+sp|P04578|ENV_HV1H2	sp|P0DP06|HVD34_HUMAN	69.7	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+tr|A0A075B7E8|A0A075B7E8_HUMAN	sp|P04578|ENV_HV1H2	69.7	5WB1_A	6PWU_E	6BF4_B	3NGB_D
+sp|Q15646|OASL_HUMAN	sp|P04585|POL_HV1H2	69.7	4XQ7_A	1L6N_A	5W0M_A	5W0N_B
+sp|P04601|NEF_HV1H2	sp|Q13588|GRAP_HUMAN	69.6	3TB8_A	1GRI_B	4U5W_C	4U5W_B
+sp|P05919|VPU_HV1H2	sp|Q8IUR7|ARMC8_HUMAN	69.6	2N28_A	3GQ2_A	4P6Z_V	4P6Z_B
+sp|Q96Q07|BTBD9_HUMAN	sp|P69723|VIF_HV1H2	69.6	6I2M_A	4N9F_b	6P59_Z	6P59_B
+sp|O00481|BT3A1_HUMAN	sp|P04591|GAG_HV1H2	69.6	5HM7_A	1L6N_A	6CPL_A	2XXM_A
+sp|P12318|FCG2A_HUMAN	sp|P04601|NEF_HV1H2	69.6	3RY4_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|A0A075B6S2|KVD29_HUMAN	69.5	6PWU_E	6BPC_F	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|A0A0B4J1V1|HV321_HUMAN	69.5	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|A0A0C4DH35|HV335_HUMAN	sp|P04578|ENV_HV1H2	69.5	6QNO_H	6PWU_E	5VIY_H	4TVP_G
+sp|P04601|NEF_HV1H2	sp|Q8WVV5|BT2A2_HUMAN	69.5	3TB8_A	5HM7_A	4ORZ_B	5MZV_D
+sp|P69726|VPR_HV1H2	sp|Q8N228|SCML4_HUMAN	69.5	1ESX_A	2MEM_A	4Z8L_B	4Z8L_F
+tr|S4R460|S4R460_HUMAN	sp|P04578|ENV_HV1H2	69.4	5WB1_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04601|NEF_HV1H2	sp|P46109|CRKL_HUMAN	69.4	3TB8_A	2LQW_A	4U5W_C	4U5W_B
+sp|P69723|VIF_HV1H2	sp|Q6TDP4|KLH17_HUMAN	69.4	4N9F_b	4YY8_A	4N9F_b	4AJY_C
+sp|P42772|CDN2B_HUMAN	sp|P04578|ENV_HV1H2	69.4	1D9S_A	6PWU_E	6QFK_A	6B0N_G
+sp|P04578|ENV_HV1H2	sp|A0A075B6K4|LV310_HUMAN	69.3	6PWU_E	6ULC_L	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	tr|A0A0J9YWU9|A0A0J9YWU9_HUMAN	69.3	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|P20929|NEBU_HUMAN	69.3	3TB8_A	6AMW_A	4U5W_C	4U5W_B
+sp|Q8IWA4|MFN1_HUMAN	sp|P04601|NEF_HV1H2	69.3	5GOE_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q99962|SH3G2_HUMAN	69.3	3TB8_A	6UP6_B	4U5W_C	4U5W_B
+sp|Q96BR9|ZBT8A_HUMAN	sp|P69723|VIF_HV1H2	69.3	6GUW_A	4N9F_b	6P59_Z	6P59_B
+sp|Q9H0H3|KLH25_HUMAN	sp|P69723|VIF_HV1H2	69.3	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q8N8I0|SAM12_HUMAN	69.3	1ESX_A	1PK1_B	4Z8L_B	4Z8L_F
+sp|P04578|ENV_HV1H2	sp|A0A075B6H7|KV37_HUMAN	69.2	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P0DP08|HVD82_HUMAN	69.2	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|Q9UM44|HHLA2_HUMAN	sp|P04578|ENV_HV1H2	69.2	3J8F_7	6PWU_E	6UDK_H	4TVP_G
+sp|P04618|REV_HV1H2	sp|P0DTU4|TRBR2_HUMAN	69.2	2X7L_R	6JXR_n	2X7L_R	5I8O_H
+sp|P16284|PECA1_HUMAN	sp|P04585|POL_HV1H2	69.2	6GRQ_A	1L6N_A	5T70_G	3GV2_A
+sp|P16284|PECA1_HUMAN	sp|P04591|GAG_HV1H2	69.2	6GRQ_A	1L6N_A	5T70_G	3GV2_A
+sp|P01767|HV353_HUMAN	sp|P04578|ENV_HV1H2	69.1	5WB1_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04601|NEF_HV1H2	sp|P62993|GRB2_HUMAN	69.1	3TB8_A	1GRI_B	4U5W_C	4U5W_B
+sp|Q9NVA2|SEP11_HUMAN	sp|P04601|NEF_HV1H2	69.1	2QAG_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q9UQQ2|SH2B3_HUMAN	69.1	3TB8_A	1V5M_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|Q9P2B2|FPRP_HUMAN	69.1	2X7L_R	3CHN_S	2X7L_R	5I8O_H
+sp|P34995|PE2R1_HUMAN	sp|P04578|ENV_HV1H2	69.1	6M9T_A	6PWU_E	6MEO_B	3J70_P
+sp|P35247|SFTPD_HUMAN	sp|P04578|ENV_HV1H2	69.1	1PWB_B	6PWU_E	1QO3_C	3J70_P
+sp|A0A0C4DH25|KVD20_HUMAN	sp|P04578|ENV_HV1H2	69.0	1YJD_C	6PWU_E	4YDV_A	6PWU_E
+sp|P04578|ENV_HV1H2	sp|P01715|LV301_HUMAN	69.0	6PWU_E	6HD8_A	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P01718|LV327_HUMAN	68.9	6PWU_E	6ULC_L	6NIJ_B	3U1S_H
+sp|Q6PCB8|EMB_HUMAN	sp|P04578|ENV_HV1H2	68.9	6A69_B	6PWU_E	6UDK_H	4TVP_G
+sp|Q7Z7D3|VTCN1_HUMAN	sp|P04578|ENV_HV1H2	68.9	4F8T_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|P04211|LV743_HUMAN	68.8	6PWU_E	6ULC_L	6PWU_E	6ULC_L
+sp|P04591|GAG_HV1H2	sp|P16989|YBOX3_HUMAN	68.8	1L6N_A	6A6J_C	5UDZ_B	5UDZ_B
+sp|P04591|GAG_HV1H2	sp|P67809|YBOX1_HUMAN	68.8	1L6N_A	6A6J_C	5UDZ_B	5UDZ_B
+sp|P04591|GAG_HV1H2	sp|Q6ZN17|LN28B_HUMAN	68.8	1L6N_A	5UDZ_B	5UDZ_B	5UDZ_B
+sp|P04591|GAG_HV1H2	sp|Q9H9Z2|LN28A_HUMAN	68.8	1L6N_A	5UDZ_B	5UDZ_B	5UDZ_B
+sp|P04591|GAG_HV1H2	sp|Q9Y2T7|YBOX2_HUMAN	68.8	1L6N_A	6A6J_C	5UDZ_B	5UDZ_B
+sp|P04578|ENV_HV1H2	sp|A2NJV5|KV229_HUMAN	68.7	6PWU_E	6BPB_B	6NIJ_B	3U1S_H
+tr|A0A0C4DH90|A0A0C4DH90_HUMAN	sp|P04578|ENV_HV1H2	68.7	1YJD_C	6PWU_E	4YDV_A	6PWU_E
+sp|P0DOY3|IGLC3_HUMAN	sp|P04585|POL_HV1H2	68.7	6U07_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	sp|A6NKG5|RTL1_HUMAN	68.7	1L6N_A	4OL8_F	6R23_B	6R23_B
+sp|P04591|GAG_HV1H2	sp|Q15646|OASL_HUMAN	68.7	1L6N_A	4XQ7_A	5W0M_A	5W0N_B
+sp|P04601|NEF_HV1H2	sp|Q13813|SPTN1_HUMAN	68.7	3TB8_A	1SJJ_A	4U5W_C	4U5W_B
+sp|P0DOY3|IGLC3_HUMAN	sp|P04591|GAG_HV1H2	68.7	6U07_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q9BZM4|ULBP3_HUMAN	sp|P04585|POL_HV1H2	68.7	1KCG_C	1L6N_A	6CPL_A	2XXM_A
+sp|Q9BZM4|ULBP3_HUMAN	sp|P04591|GAG_HV1H2	68.7	1KCG_C	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|A0A075B6I3|LVK55_HUMAN	68.6	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|A0A0B4J1V6|HV373_HUMAN	sp|P04578|ENV_HV1H2	68.6	5WB1_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|O95727|CRTAM_HUMAN	68.6	6PWU_E	3D9A_L	3J70_P	4Q6I_J
+sp|P04578|ENV_HV1H2	sp|Q6UXZ4|UNC5D_HUMAN	68.6	6PWU_E	3G5B_A	6NIJ_B	5WHZ_L
+sp|P04585|POL_HV1H2	sp|Q9BUA6|MYL10_HUMAN	68.6	1L6N_A	5H53_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9BUA6|MYL10_HUMAN	68.6	1L6N_A	5H53_B	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|Q9BRG2|SH23A_HUMAN	68.6	3TB8_A	3T6A_B	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|P12318|FCG2A_HUMAN	68.6	2X7L_R	3RY4_A	2X7L_R	5I8O_L
+sp|P63208|SKP1_HUMAN	sp|P69723|VIF_HV1H2	68.6	5XYL_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q9H967|WDR76_HUMAN	68.6	1ESX_A	4XYH_A	5JK7_F	5JK7_E
+sp|O15389|SIGL5_HUMAN	sp|P04591|GAG_HV1H2	68.6	5LFU_A	1L6N_A	5T70_G	3GV2_A
+sp|P01854|IGHE_HUMAN	sp|P04585|POL_HV1H2	68.6	2WQR_B	1L6N_A	6ID4_C	1R0A_A
+sp|Q7Z602|GP141_HUMAN	sp|P04578|ENV_HV1H2	68.6	4PXZ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9P2B2|FPRP_HUMAN	sp|P04585|POL_HV1H2	68.6	3CHN_S	1L6N_A	5T70_G	3GV2_A
+sp|Q9P2B2|FPRP_HUMAN	sp|P04591|GAG_HV1H2	68.6	3CHN_S	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A087WSY4|HV432_HUMAN	68.5	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH24|KV621_HUMAN	68.5	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|Q16653|MOG_HUMAN	68.5	6PWU_E	4PFE_A	3U2S_C	5N2K_F
+sp|P04601|NEF_HV1H2	sp|Q14847|LASP1_HUMAN	68.5	3TB8_A	1RUT_X	4U5W_C	4U5W_B
+sp|Q9P0V9|SEP10_HUMAN	sp|P04601|NEF_HV1H2	68.5	4Z54_A	3TB8_A	6CRI_L	6CRI_Z
+sp|O94889|KLH18_HUMAN	sp|P69723|VIF_HV1H2	68.5	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q9BSC4|NOL10_HUMAN	68.5	1ESX_A	5WLC_L	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|A0A075B6P5|KV228_HUMAN	68.4	6PWU_E	6BPB_B	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|A0A0J9YXX1|HV5X1_HUMAN	68.4	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P01615|KVD28_HUMAN	68.4	6PWU_E	6BPC_F	6NIJ_B	3U1S_H
+sp|P08637|FCG3A_HUMAN	sp|P04585|POL_HV1H2	68.4	1FNL_A	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|Q6S5L8|SHC4_HUMAN	68.4	3TB8_A	1N3H_A	4U5W_C	4U5W_B
+sp|P08637|FCG3A_HUMAN	sp|P04591|GAG_HV1H2	68.4	1FNL_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A6NDA9|LRIT2_HUMAN	68.3	6PWU_E	3ZYJ_A	6NIJ_B	5WHZ_L
+sp|O75015|FCG3B_HUMAN	sp|P04585|POL_HV1H2	68.3	1FNL_A	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|O14492|SH2B2_HUMAN	68.3	3TB8_A	1V5M_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q96F15|GIMA5_HUMAN	68.3	3TB8_A	3LXX_A	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|Q9UNF0|PACN2_HUMAN	68.3	3TB8_A	4BNE_B	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|O00478|BT3A3_HUMAN	68.3	2X7L_R	5HM7_A	2X7L_R	5I8O_H
+sp|O75015|FCG3B_HUMAN	sp|P04591|GAG_HV1H2	68.3	1FNL_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A0B4J271|TVAL3_HUMAN	68.2	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P01701|LV151_HUMAN	68.2	6PWU_E	1YJD_C	6PWU_E	6ULC_L
+sp|P04578|ENV_HV1H2	sp|P01876|IGHA1_HUMAN	68.2	6PWU_E	2QTJ_C	6FY1_G	4HJJ_H
+sp|P04601|NEF_HV1H2	sp|Q9BY11|PACN1_HUMAN	68.2	3TB8_A	4BNE_B	4U5W_C	4U5W_B
+sp|P69723|VIF_HV1H2	sp|O60662|KLH41_HUMAN	68.2	4N9F_b	2WOZ_A	4N9F_b	4AJY_C
+sp|Q6IQ16|SPOPL_HUMAN	sp|P69723|VIF_HV1H2	68.2	3HQI_A	4N9F_b	6P59_Z	6P59_B
+sp|Q8IX05|CD302_HUMAN	sp|P04578|ENV_HV1H2	68.2	2NAN_A	6PWU_E	1QO3_C	3J70_P
+sp|Q96RP9|EFGM_HUMAN	sp|P04601|NEF_HV1H2	68.1	3J0E_H	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|Q92637|FCGRB_HUMAN	68.1	2X7L_R	4W4O_C	2X7L_R	5I8O_L
+sp|P69723|VIF_HV1H2	sp|Q15843|NEDD8_HUMAN	68.1	4N9F_b	5XXU_f	4N9F_b	2MA9_B
+sp|P27930|IL1R2_HUMAN	sp|P04585|POL_HV1H2	68.1	3O4O_C	1L6N_A	5T70_G	3GV2_A
+sp|P27930|IL1R2_HUMAN	sp|P04591|GAG_HV1H2	68.1	3O4O_C	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A0B4J1Z2|KVD43_HUMAN	68.0	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|P14317|HCLS1_HUMAN	68.0	3TB8_A	1GRI_B	4U5W_C	4U5W_B
+sp|A0A0C4DH42|HV366_HUMAN	sp|P04578|ENV_HV1H2	67.9	5WB1_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|P01714|LV319_HUMAN	67.9	6PWU_E	6ULC_L	6NIJ_B	3U1S_H
+tr|A0A075B7F0|A0A075B7F0_HUMAN	sp|P04578|ENV_HV1H2	67.9	5WB1_A	6PWU_E	5VIY_H	4TVP_G
+sp|Q9UQ16|DYN3_HUMAN	sp|P04601|NEF_HV1H2	67.9	4UUK_I	3TB8_A	6CRI_L	6CRI_Z
+sp|Q86YT9|JAML_HUMAN	sp|P04585|POL_HV1H2	67.8	3MJ6_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q99653|CHP1_HUMAN	67.8	1L6N_A	2E30_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q99653|CHP1_HUMAN	67.8	1L6N_A	2E30_A	2MGU_M	5DOW_A
+sp|P04608|TAT_HV1H2	sp|P14651|HXB3_HUMAN	67.8	3MI9_C	2CUF_A	3MI9_C	2PK2_B
+sp|Q8NDN9|RCBT1_HUMAN	sp|P69723|VIF_HV1H2	67.7	4JHN_D	4N9F_b	6P59_Z	6P59_B
+sp|P21854|CD72_HUMAN	sp|P04578|ENV_HV1H2	67.7	5G6U_A	6PWU_E	1QO3_C	3J70_P
+sp|P09326|CD48_HUMAN	sp|P04578|ENV_HV1H2	67.6	2DRU_A	6PWU_E	4YDV_A	6PWU_E
+sp|P04585|POL_HV1H2	sp|Q92637|FCGRB_HUMAN	67.6	1L6N_A	4W4O_C	1R0A_A	2XKN_C
+sp|P49411|EFTU_HUMAN	sp|P04601|NEF_HV1H2	67.6	1XB2_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q9UKW4|VAV3_HUMAN	67.6	3TB8_A	6NF1_A	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|Q9H5K3|SG196_HUMAN	67.6	3MI9_C	5GZ9_A	4OGR_D	4OR5_F
+sp|P69726|VPR_HV1H2	sp|Q9H694|BICC1_HUMAN	67.6	1ESX_A	6GY4_B	4Z8L_B	4Z8L_F
+sp|Q14002|CEAM7_HUMAN	sp|P04585|POL_HV1H2	67.6	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|Q14002|CEAM7_HUMAN	sp|P04591|GAG_HV1H2	67.6	1E07_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|P01699|LV144_HUMAN	67.5	6PWU_E	6ULC_L	6PWU_E	6ULC_L
+sp|P04618|REV_HV1H2	sp|Q9BX59|TPSNR_HUMAN	67.5	2X7L_R	5WER_F	2X7L_R	5I8O_H
+sp|Q86VR7|VS10L_HUMAN	sp|P04601|NEF_HV1H2	67.5	5A2F_A	3TB8_A	5XOV_H	3TB8_A
+sp|A0A087WW87|KV240_HUMAN	sp|P04578|ENV_HV1H2	67.4	6BPC_F	6PWU_E	4YDV_A	6PWU_E
+sp|P01614|KVD40_HUMAN	sp|P04578|ENV_HV1H2	67.4	6BPC_F	6PWU_E	4YDV_A	6PWU_E
+sp|P0DOY2|IGLC2_HUMAN	sp|P04585|POL_HV1H2	67.4	6U07_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q7KYR7|BT2A1_HUMAN	sp|P04585|POL_HV1H2	67.4	5HM7_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q9UM44|HHLA2_HUMAN	67.4	1L6N_A	3J8F_7	1R0A_A	1HYS_D
+sp|P04601|NEF_HV1H2	sp|P52735|VAV2_HUMAN	67.4	3TB8_A	6NF1_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q13094|LCP2_HUMAN	67.4	3TB8_A	2EAP_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|Q86YT9|JAML_HUMAN	67.4	2X7L_R	3MJ6_A	2X7L_R	5I8O_L
+sp|P69726|VPR_HV1H2	sp|Q96NU1|SAM11_HUMAN	67.4	1ESX_A	1PK1_B	5AJA_B	5AJA_C
+sp|P0DOY2|IGLC2_HUMAN	sp|P04591|GAG_HV1H2	67.4	6U07_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q7L513|FCRLA_HUMAN	sp|P04601|NEF_HV1H2	67.4	3RJD_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q86SQ4|AGRG6_HUMAN	sp|P04578|ENV_HV1H2	67.4	6V55_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH55|KVD07_HUMAN	67.3	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|Q9UBF2|COPG2_HUMAN	67.3	3TB8_A	5NZR_G	6OWT_N	6QH5_B
+sp|P69723|VIF_HV1H2	sp|O95198|KLHL2_HUMAN	67.3	4N9F_b	4YY8_A	4N9F_b	4AJY_C
+sp|A0A087WSY6|KVD15_HUMAN	sp|P04578|ENV_HV1H2	67.2	6BPB_B	6PWU_E	4YDV_A	6PWU_E
+sp|A0A0B4J1Y9|HV372_HUMAN	sp|P04578|ENV_HV1H2	67.2	5WB1_A	6PWU_E	5VIY_H	4TVP_G
+sp|A0A0C4DH36|HV338_HUMAN	sp|P04578|ENV_HV1H2	67.2	5WB1_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|P01834|IGKC_HUMAN	67.2	6PWU_E	6FIB_C	2NY2_A	4HJJ_L
+sp|P04578|ENV_HV1H2	sp|P0DTW3|HV384_HUMAN	67.2	6PWU_E	3U1S_H	6NIJ_B	3U1S_H
+sp|P18627|LAG3_HUMAN	sp|P04585|POL_HV1H2	67.2	3T0E_E	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|Q9HB90|RRAGC_HUMAN	67.2	3TB8_A	6ULG_G	6CRI_Z	6DFF_C
+sp|P18627|LAG3_HUMAN	sp|P04591|GAG_HV1H2	67.2	3T0E_E	1L6N_A	5T70_G	3GV2_A
+sp|Q9BWP8|COL11_HUMAN	sp|P04578|ENV_HV1H2	67.2	5OXS_B	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	tr|A0A087WW49|A0A087WW49_HUMAN	67.1	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|Q14008|CKAP5_HUMAN	67.1	3TB8_A	6MZG_E	6OWT_N	6QH5_B
+sp|Q15029|U5S1_HUMAN	sp|P04601|NEF_HV1H2	67.1	6ID1_C	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q8WYJ6|SEPT1_HUMAN	67.1	3TB8_A	4Z54_A	6CRI_Z	6DFF_C
+sp|Q96M94|KLH15_HUMAN	sp|P69723|VIF_HV1H2	67.1	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q8IXK0|PHC2_HUMAN	67.1	1ESX_A	2NA1_A	5AJA_B	5AJA_C
+sp|P04585|POL_HV1H2	sp|P60660|MYL6_HUMAN	67.0	1L6N_A	3J04_C	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P60660|MYL6_HUMAN	67.0	1L6N_A	3J04_C	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|Q99963|SH3G3_HUMAN	67.0	3TB8_A	6UPN_n	4U5W_C	4U5W_B
+sp|Q86UZ6|ZBT46_HUMAN	sp|P69723|VIF_HV1H2	67.0	3W5K_B	4N9F_b	6P59_Z	6P59_B
+sp|Q9BZM6|ULBP1_HUMAN	sp|P04585|POL_HV1H2	67.0	6A97_C	1L6N_A	6CPL_A	2XXM_A
+sp|Q9BZM6|ULBP1_HUMAN	sp|P04591|GAG_HV1H2	67.0	6A97_C	1L6N_A	6CPL_A	2XXM_A
+sp|Q7KYR7|BT2A1_HUMAN	sp|P04591|GAG_HV1H2	66.9	5HM7_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q9HB29|ILRL2_HUMAN	sp|P04585|POL_HV1H2	66.9	6U6U_R	1L6N_A	5T70_G	3GV2_A
+sp|Q9HB29|ILRL2_HUMAN	sp|P04591|GAG_HV1H2	66.9	6U6U_R	1L6N_A	5T70_G	3GV2_A
+sp|P15814|IGLL1_HUMAN	sp|P04578|ENV_HV1H2	66.8	6FIB_C	6PWU_E	6BF4_B	3NGB_D
+sp|O00429|DNM1L_HUMAN	sp|P04601|NEF_HV1H2	66.8	5WP9_O	3TB8_A	6CRI_L	6CRI_Z
+sp|Q05193|DYN1_HUMAN	sp|P04601|NEF_HV1H2	66.8	4UUK_I	3TB8_A	6CRI_L	6CRI_Z
+sp|O95365|ZBT7A_HUMAN	sp|P69723|VIF_HV1H2	66.8	3W5K_B	4N9F_b	6P59_Z	6P59_B
+sp|A0M8Q6|IGLC7_HUMAN	sp|P04585|POL_HV1H2	66.7	6U07_A	1L6N_A	6CPL_A	2XXM_A
+sp|O43236|SEPT4_HUMAN	sp|P04601|NEF_HV1H2	66.7	4Z54_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q96KV6|BT2A3_HUMAN	66.7	3TB8_A	5HM7_A	4ORZ_B	5MZV_D
+sp|A0M8Q6|IGLC7_HUMAN	sp|P04591|GAG_HV1H2	66.7	6U07_A	1L6N_A	6CPL_A	2XXM_A
+sp|P14151|LYAM1_HUMAN	sp|P04578|ENV_HV1H2	66.7	4C16_A	6PWU_E	1QO3_C	3J70_P
+sp|Q9NYW1|TA2R9_HUMAN	sp|P04578|ENV_HV1H2	66.7	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|A0A075B6I9|LV746_HUMAN	66.6	6PWU_E	6ULC_L	6PWU_E	6ULC_L
+sp|P04601|NEF_HV1H2	sp|Q99469|STAC_HUMAN	66.6	3TB8_A	6UY9_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|Q9Y286|SIGL7_HUMAN	66.6	2X7L_R	5LFV_B	2X7L_R	5I8O_H
+sp|P69723|VIF_HV1H2	sp|Q96EY9|ADAT3_HUMAN	66.6	4N9F_b	5XKR_A	6NIL_F	5HX4_A
+sp|P98161|PKD1_HUMAN	sp|P04578|ENV_HV1H2	66.6	6A70_B	6PWU_E	1QO3_C	3J70_P
+sp|Q8NHL6|LIRB1_HUMAN	sp|P04585|POL_HV1H2	66.6	6AEE_G	1L6N_A	5T70_G	3GV2_A
+sp|Q8NHL6|LIRB1_HUMAN	sp|P04591|GAG_HV1H2	66.6	6AEE_G	1L6N_A	5T70_G	3GV2_A
+sp|Q9H342|O51J1_HUMAN	sp|P04578|ENV_HV1H2	66.6	6LI0_A	6PWU_E	6MEO_B	3J70_P
+sp|P01766|HV313_HUMAN	sp|P04578|ENV_HV1H2	66.5	5WB1_A	6PWU_E	5VIY_H	4TVP_G
+sp|Q9H7L2|KI3X1_HUMAN	sp|P04585|POL_HV1H2	66.5	6AEE_G	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q9NRD8|DUOX2_HUMAN	66.5	1L6N_A	6SZ5_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9NRD8|DUOX2_HUMAN	66.5	1L6N_A	6SZ5_B	2MGU_M	5DOW_A
+sp|Q6NXR0|IIGP5_HUMAN	sp|P04601|NEF_HV1H2	66.5	1TQ6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q8NAB2|KBTB3_HUMAN	sp|P69723|VIF_HV1H2	66.5	3I3N_B	4N9F_b	6P59_Z	6P59_B
+sp|P0DPA2|VSIG8_HUMAN	sp|P04601|NEF_HV1H2	66.5	6A69_B	3TB8_A	5XOV_H	3TB8_A
+sp|Q9H7L2|KI3X1_HUMAN	sp|P04591|GAG_HV1H2	66.5	6AEE_G	1L6N_A	5T70_G	3GV2_A
+sp|Q9Y6Z7|COL10_HUMAN	sp|P04578|ENV_HV1H2	66.5	1PWB_B	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|P01700|LV147_HUMAN	66.4	6PWU_E	6HD8_A	6PWU_E	6ULC_L
+sp|P04578|ENV_HV1H2	sp|P06312|KV401_HUMAN	66.4	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|Q92692|NECT2_HUMAN	sp|P04585|POL_HV1H2	66.4	3J8F_7	1L6N_A	6ID4_C	1R0A_A
+sp|P04618|REV_HV1H2	sp|P31994|FCG2B_HUMAN	66.4	2X7L_R	3RY4_A	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|P31995|FCG2C_HUMAN	66.4	2X7L_R	3RY4_A	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q9NQS3|NECT3_HUMAN	66.4	2X7L_R	4FOM_A	2X7L_R	5I8O_H
+sp|P04578|ENV_HV1H2	sp|P06310|KV230_HUMAN	66.3	6PWU_E	6BPC_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P06331|HV434_HUMAN	66.3	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|O60880|SH21A_HUMAN	66.3	3TB8_A	1KA7_A	4U5W_C	4U5W_B
+sp|P50570|DYN2_HUMAN	sp|P04601|NEF_HV1H2	66.3	4UUK_I	3TB8_A	6CRI_L	6CRI_Z
+sp|P15151|PVR_HUMAN	sp|P04601|NEF_HV1H2	66.3	3J8F_7	3TB8_A	5XOV_H	3TB8_A
+sp|P55039|DRG2_HUMAN	sp|P04601|NEF_HV1H2	66.2	4A9A_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q92599|SEPT8_HUMAN	sp|P04601|NEF_HV1H2	66.2	2QAG_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P69723|VIF_HV1H2	sp|Q3ZCT8|KBTBC_HUMAN	66.2	4N9F_b	4YY8_A	4N9F_b	4AJY_C
+sp|P04578|ENV_HV1H2	sp|A0A075B6R2|HV404_HUMAN	66.1	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|O43707|ACTN4_HUMAN	66.1	1L6N_A	1SJJ_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|O43707|ACTN4_HUMAN	66.1	1L6N_A	1SJJ_A	2MGU_M	5DOW_A
+sp|P04608|TAT_HV1H2	sp|Q8N815|CNTD1_HUMAN	66.1	3MI9_C	4EOJ_D	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|Q9Y336|SIGL9_HUMAN	66.1	2X7L_R	5LFV_B	2X7L_R	5I8O_H
+sp|Q9NR64|KLHL1_HUMAN	sp|P69723|VIF_HV1H2	66.1	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q6SPF0|SAMD1_HUMAN	66.1	1ESX_A	1PK1_B	5AJA_B	5AJA_C
+sp|P04578|ENV_HV1H2	tr|A0A075B7B6|A0A075B7B6_HUMAN	66.0	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|O75791|GRAP2_HUMAN	66.0	3TB8_A	1GRI_B	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|P01861|IGHG4_HUMAN	66.0	2X7L_R	1MCO_H	2X7L_R	5I8O_H
+sp|O43791|SPOP_HUMAN	sp|P69723|VIF_HV1H2	66.0	3HQI_A	4N9F_b	6P59_Z	6P59_B
+sp|P04578|ENV_HV1H2	sp|O60487|MPZL2_HUMAN	65.9	6PWU_E	6J8H_C	2NY2_A	5VSI_H
+sp|Q68CJ6|SLIP_HUMAN	sp|P04601|NEF_HV1H2	65.9	5GOF_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q99961|SH3G1_HUMAN	65.9	3TB8_A	6UP6_B	4U5W_C	4U5W_B
+sp|Q53GT1|KLH22_HUMAN	sp|P69723|VIF_HV1H2	65.9	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q5MNZ6|WIPI3_HUMAN	65.9	1ESX_A	5LTD_A	5JK7_F	5JK7_E
+sp|P0DPA2|VSIG8_HUMAN	sp|P04591|GAG_HV1H2	65.9	6A69_B	1L6N_A	5T70_G	3GV2_A
+sp|P11226|MBL2_HUMAN	sp|P04578|ENV_HV1H2	65.9	5OXS_B	6PWU_E	1QO3_C	3J70_P
+sp|Q92637|FCGRB_HUMAN	sp|P04601|NEF_HV1H2	65.9	4W4O_C	3TB8_A	5XOV_H	3TB8_A
+sp|P69723|VIF_HV1H2	sp|Q8WZ60|KLHL6_HUMAN	65.8	4N9F_b	4YY8_A	4N9F_b	4AJY_C
+sp|P04578|ENV_HV1H2	sp|A0A075B6J6|LV322_HUMAN	65.7	6PWU_E	6HD8_A	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH38|HV551_HUMAN	65.7	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|Q3SXY7|LRIT3_HUMAN	65.7	6PWU_E	3ZYJ_A	6NIJ_B	5WHZ_L
+sp|Q8IZJ1|UNC5B_HUMAN	sp|P04578|ENV_HV1H2	65.7	3G5B_A	6PWU_E	4YDV_A	6PWU_E
+sp|P04585|POL_HV1H2	sp|P12829|MYL4_HUMAN	65.7	1L6N_A	6FSA_D	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q5THR3|EFCB6_HUMAN	65.7	1L6N_A	4P5W_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P12829|MYL4_HUMAN	65.7	1L6N_A	6FSA_D	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q5THR3|EFCB6_HUMAN	65.7	1L6N_A	4P5W_A	2MGU_M	5DOW_A
+sp|O75019|LIRA1_HUMAN	sp|P04585|POL_HV1H2	65.7	6AED_A	1L6N_A	5T70_G	3GV2_A
+sp|O75019|LIRA1_HUMAN	sp|P04591|GAG_HV1H2	65.7	6AED_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH43|HV70D_HUMAN	65.6	6PWU_E	5WB1_A	6FY1_G	4HJJ_H
+sp|O95256|I18RA_HUMAN	sp|P04585|POL_HV1H2	65.6	3WO4_C	1L6N_A	5T70_G	3GV2_A
+sp|O95256|I18RA_HUMAN	sp|P04591|GAG_HV1H2	65.6	3WO4_C	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A075B6S6|KVD30_HUMAN	65.5	6PWU_E	6BPC_F	6NIJ_B	3U1S_H
+sp|B9A064|IGLL5_HUMAN	sp|P04578|ENV_HV1H2	65.5	6FIB_C	6PWU_E	6BF4_B	3NGB_D
+sp|P04578|ENV_HV1H2	sp|P04217|A1BG_HUMAN	65.5	6PWU_E	6GRQ_A	2NY2_A	4HJJ_L
+sp|P41217|OX2G_HUMAN	sp|P04578|ENV_HV1H2	65.5	4BFI_B	6PWU_E	4YDV_A	6PWU_E
+sp|P04585|POL_HV1H2	sp|P01611|KVD12_HUMAN	65.5	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01611|KVD12_HUMAN	65.5	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q6ZMT1|STAC2_HUMAN	65.5	3TB8_A	6B26_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q8IZP0|ABI1_HUMAN	65.5	3TB8_A	4N78_F	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|Q8WVV5|BT2A2_HUMAN	65.5	2X7L_R	5HM7_A	2X7L_R	5I8O_H
+sp|Q14246|AGRE1_HUMAN	sp|P04578|ENV_HV1H2	65.5	6FJ3_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|A0A0B4J1U3|LV136_HUMAN	65.4	6PWU_E	6HD8_A	6NIJ_B	3U1S_H
+sp|O14511|NRG2_HUMAN	sp|P04578|ENV_HV1H2	65.4	5A2F_A	6PWU_E	4YDV_A	6PWU_E
+sp|P04585|POL_HV1H2	sp|Q15762|CD226_HUMAN	65.4	1L6N_A	6ISB_A	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|Q53RT3|APRV1_HUMAN	65.4	1L6N_A	3SQF_B	3LIY_F	3LIY_F
+sp|P04618|REV_HV1H2	sp|P01871|IGHM_HUMAN	65.4	2X7L_R	6KXS_A	2X7L_R	5I8O_H
+sp|P04578|ENV_HV1H2	sp|O75121|MFA3L_HUMAN	65.3	6PWU_E	3MJG_X	6UM5_E	6CBP_A
+sp|A1YPR0|ZBT7C_HUMAN	sp|P69723|VIF_HV1H2	65.3	2N26_A	4N9F_b	6P59_Z	6P59_B
+sp|P48960|AGRE5_HUMAN	sp|P04578|ENV_HV1H2	65.3	6FJ3_A	6PWU_E	6MEO_B	3J70_P
+sp|Q15762|CD226_HUMAN	sp|P04601|NEF_HV1H2	65.3	6ISB_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04585|POL_HV1H2	sp|Q96PH1|NOX5_HUMAN	65.2	1L6N_A	6SZ5_B	2MGU_M	5DOW_A
+sp|Q9NZQ7|PD1L1_HUMAN	sp|P04585|POL_HV1H2	65.2	6PV9_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|Q96PH1|NOX5_HUMAN	65.2	1L6N_A	6SZ5_B	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|O14508|SOCS2_HUMAN	65.2	3TB8_A	6I5J_D	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q8IVH4|MMAA_HUMAN	65.2	3TB8_A	2WWW_C	6CRI_Z	6DFF_C
+sp|P04618|REV_HV1H2	sp|P01859|IGHG2_HUMAN	65.2	2X7L_R	1MCO_H	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q9Y678|COPG1_HUMAN	65.2	2N28_A	5A1V_E	4P6Z_V	4P6Z_B
+sp|Q92692|NECT2_HUMAN	sp|P04591|GAG_HV1H2	65.2	3J8F_7	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|P12018|VPREB_HUMAN	65.1	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+tr|A0A075B7D8|A0A075B7D8_HUMAN	sp|P04578|ENV_HV1H2	65.1	5WB1_A	6PWU_E	5VIY_H	4TVP_G
+sp|Q8IUL8|CILP2_HUMAN	sp|P04585|POL_HV1H2	65.1	6TM6_A	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|Q5SQS7|SH24B_HUMAN	65.1	3TB8_A	2Y3A_B	4U5W_C	4U5W_B
+sp|P69723|VIF_HV1H2	sp|O14682|ENC1_HUMAN	65.1	4N9F_b	4YY8_A	4N9F_b	4AJY_C
+sp|P27930|IL1R2_HUMAN	sp|P04601|NEF_HV1H2	65.1	3O4O_C	3TB8_A	5XOV_H	3TB8_A
+sp|Q8IUL8|CILP2_HUMAN	sp|P04591|GAG_HV1H2	65.1	6TM6_A	1L6N_A	5T70_G	3GV2_A
+sp|A0A0C4DH68|KV224_HUMAN	sp|P04578|ENV_HV1H2	65.0	6BPC_C	6PWU_E	4YDV_A	6PWU_E
+sp|P04578|ENV_HV1H2	sp|P0DP07|HV431_HUMAN	65.0	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|P01593|KVD33_HUMAN	65.0	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P01594|KV133_HUMAN	65.0	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01593|KVD33_HUMAN	65.0	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01594|KV133_HUMAN	65.0	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04618|REV_HV1H2	sp|Q86VR7|VS10L_HUMAN	65.0	2X7L_R	5A2F_A	2X7L_R	5I8O_L
+sp|P04578|ENV_HV1H2	sp|A0A0A0MT36|KVD21_HUMAN	64.9	6PWU_E	6BPC_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P01817|HV205_HUMAN	64.9	6PWU_E	5WB1_A	6FY1_G	4HJJ_H
+sp|P04585|POL_HV1H2	sp|A0A0C4DH41|HV461_HUMAN	64.9	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|Q5TAX3|TUT4_HUMAN	sp|P04585|POL_HV1H2	64.9	6IW6_B	1L6N_A	5O2U_C	5TEO_B
+sp|Q5TAX3|TUT4_HUMAN	sp|P04591|GAG_HV1H2	64.9	6IW6_B	1L6N_A	5O2U_C	5TEO_B
+sp|P04618|REV_HV1H2	sp|Q01638|ILRL1_HUMAN	64.9	2X7L_R	4KC3_B	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q68D85|NR3L1_HUMAN	64.9	2X7L_R	4ZSO_F	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q6UX41|BTNL8_HUMAN	64.9	2X7L_R	5HM7_A	2X7L_R	5I8O_H
+sp|P04585|POL_HV1H2	sp|Q9NUD5|ZCHC3_HUMAN	64.8	1L6N_A	2LLI_A	5A9E_I	5A9E_I
+sp|P04591|GAG_HV1H2	sp|Q9NUD5|ZCHC3_HUMAN	64.8	1L6N_A	2LLI_A	5A9E_I	5A9E_I
+sp|A0A5B9|TRBC2_HUMAN	sp|P04601|NEF_HV1H2	64.8	6U07_B	3TB8_A	5XOV_H	3TB8_A
+sp|Q92637|FCGRB_HUMAN	sp|P04591|GAG_HV1H2	64.8	4W4O_C	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q6UX41|BTNL8_HUMAN	64.7	1L6N_A	5HM7_A	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|Q86V35|CABP7_HUMAN	64.7	1L6N_A	2LV7_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q86V35|CABP7_HUMAN	64.7	1L6N_A	2LV7_A	2MGU_M	5DOW_A
+sp|P04578|ENV_HV1H2	sp|A0A0G2JS06|LV539_HUMAN	64.6	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|O75340|PDCD6_HUMAN	64.6	1L6N_A	2ZND_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|O75340|PDCD6_HUMAN	64.6	1L6N_A	2ZND_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A4FU49|SH321_HUMAN	64.6	3TB8_A	1GRI_B	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9NRF2|SH2B1_HUMAN	64.6	3TB8_A	1V5M_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|Q9NP60|IRPL2_HUMAN	64.6	2X7L_R	5Y32_B	2X7L_R	5I8O_L
+sp|P04578|ENV_HV1H2	sp|A0A075B6I0|LV861_HUMAN	64.5	6PWU_E	6ULC_L	6PWU_E	6ULC_L
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH34|HV428_HUMAN	64.5	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A0A0B4J1V2|HV226_HUMAN	64.5	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|P04601|NEF_HV1H2	sp|Q6AI08|HEAT6_HUMAN	64.5	3TB8_A	6S47_B	6OWT_N	6OWT_A
+sp|P04601|NEF_HV1H2	sp|Q9NQL2|RRAGD_HUMAN	64.5	3TB8_A	6ULG_G	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|Q9Y678|COPG1_HUMAN	64.5	3TB8_A	5A1V_E	6OWT_N	6QH5_B
+sp|P04578|ENV_HV1H2	sp|A0A087WSZ0|KVD08_HUMAN	64.4	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|P0DP06|HVD34_HUMAN	64.4	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|P04601|NEF_HV1H2	sp|Q9UG22|GIMA2_HUMAN	64.4	3TB8_A	2XTP_A	6CRI_Z	6DFF_C
+sp|P04618|REV_HV1H2	sp|P78410|BT3A2_HUMAN	64.4	2X7L_R	4F9L_A	2X7L_R	5I8O_H
+sp|A0A0B4J279|TVA21_HUMAN	sp|P04578|ENV_HV1H2	64.3	2BNU_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|O75019|LIRA1_HUMAN	64.3	6PWU_E	6AED_A	6FY1_G	4HJJ_H
+sp|P04585|POL_HV1H2	sp|A0A0B4J2D9|KVD13_HUMAN	64.3	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P0DP09|KV113_HUMAN	64.3	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q96PV4|PNMA5_HUMAN	64.3	1L6N_A	6TAU_A	6R24_C	6R24_C
+sp|P04591|GAG_HV1H2	sp|A0A0B4J2D9|KVD13_HUMAN	64.3	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P0DP09|KV113_HUMAN	64.3	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q96PV4|PNMA5_HUMAN	64.3	1L6N_A	6TAU_A	6R23_B	6R23_B
+sp|Q9P2G9|KLHL8_HUMAN	sp|P69723|VIF_HV1H2	64.3	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|Q9BQ51|PD1L2_HUMAN	sp|P04601|NEF_HV1H2	64.3	3BP5_B	3TB8_A	5XOV_H	3TB8_A
+sp|Q9NYW2|TA2R8_HUMAN	sp|P04578|ENV_HV1H2	64.3	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04618|REV_HV1H2	sp|Q9NYZ4|SIGL8_HUMAN	64.2	2X7L_R	5LFR_B	2X7L_R	5I8O_L
+sp|Q86YT9|JAML_HUMAN	sp|P04601|NEF_HV1H2	64.2	3MJ6_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|P01814|HV270_HUMAN	64.1	6PWU_E	5WB1_A	6FY1_G	4HJJ_H
+sp|P04601|NEF_HV1H2	sp|P02549|SPTA1_HUMAN	64.1	3TB8_A	1SJJ_A	4U5W_C	4U5W_B
+sp|Q53G44|IF44L_HUMAN	sp|P04601|NEF_HV1H2	64.1	4Z54_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q2TBA0|KLH40_HUMAN	sp|P69723|VIF_HV1H2	64.1	2WOZ_A	4N9F_b	6P59_Z	6P59_B
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH67|KV108_HUMAN	64.0	6PWU_E	6BPC_C	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A0A0C4DH73|KV112_HUMAN	64.0	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O14511|NRG2_HUMAN	64.0	1L6N_A	5A2F_A	1R0A_A	2XKN_C
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH73|KV112_HUMAN	64.0	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q7KYR7|BT2A1_HUMAN	64.0	3TB8_A	5HM7_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|O00481|BT3A1_HUMAN	64.0	2X7L_R	5HM7_A	2X7L_R	5I8O_H
+sp|Q01638|ILRL1_HUMAN	sp|P04601|NEF_HV1H2	64.0	4KC3_B	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|Q8IUL8|CILP2_HUMAN	63.9	6PWU_E	6TM6_A	6NIJ_B	5WHZ_L
+sp|P04601|NEF_HV1H2	sp|O14544|SOCS6_HUMAN	63.9	3TB8_A	2IZV_A	4U5W_C	4U5W_B
+sp|Q9NZQ7|PD1L1_HUMAN	sp|P04601|NEF_HV1H2	63.9	6PV9_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q8N4N3|KLH36_HUMAN	sp|P69723|VIF_HV1H2	63.9	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P04585|POL_HV1H2	tr|A0A0J9YWU9|A0A0J9YWU9_HUMAN	63.8	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|Q6ZU15|SEP14_HUMAN	sp|P04601|NEF_HV1H2	63.8	4Z54_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|O14511|NRG2_HUMAN	63.8	2X7L_R	5A2F_A	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|P18627|LAG3_HUMAN	63.8	2X7L_R	3T0E_E	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|Q15223|NECT1_HUMAN	63.8	2X7L_R	4FMF_A	2X7L_R	5I8O_H
+sp|O14511|NRG2_HUMAN	sp|P04591|GAG_HV1H2	63.8	5A2F_A	1L6N_A	5T70_G	3GV2_A
+sp|O95490|AGRL2_HUMAN	sp|P04578|ENV_HV1H2	63.8	6VHH_B	6PWU_E	6MEO_B	3J70_P
+sp|Q12918|KLRB1_HUMAN	sp|P04578|ENV_HV1H2	63.8	5MGT_D	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|A0A075B6K2|LV312_HUMAN	63.7	6PWU_E	6HD8_A	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|Q9UIB8|SLAF5_HUMAN	63.7	6PWU_E	3ALX_D	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|P01597|KV139_HUMAN	63.7	1L6N_A	6BPA_F	1R0A_A	2XKN_C
+sp|P04585|POL_HV1H2	sp|P04432|KVD39_HUMAN	63.7	1L6N_A	6BPA_F	1R0A_A	2XKN_C
+sp|P04601|NEF_HV1H2	sp|P56945|BCAR1_HUMAN	63.7	3TB8_A	3T6G_B	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|P01857|IGHG1_HUMAN	63.7	2X7L_R	1MCO_H	2X7L_R	5I8O_H
+sp|Q0D2K2|KLH30_HUMAN	sp|P69723|VIF_HV1H2	63.7	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|O75144|ICOSL_HUMAN	sp|P04578|ENV_HV1H2	63.6	6JXR_n	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A087WSY4|HV432_HUMAN	63.6	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|Q12905|ILF2_HUMAN	63.6	1L6N_A	4ATB_A	3NYB_B	3NYB_A
+sp|P04585|POL_HV1H2	sp|Q5VYS8|TUT7_HUMAN	63.6	1L6N_A	5W0N_B	3NYB_B	3NYB_A
+sp|P04618|REV_HV1H2	sp|O75015|FCG3B_HUMAN	63.6	2X7L_R	1FNL_A	2X7L_R	5I8O_L
+sp|P69726|VPR_HV1H2	sp|P78364|PHC1_HUMAN	63.6	1ESX_A	2W0T_A	5AJA_B	5AJA_C
+sp|P04578|ENV_HV1H2	sp|A0A075B6J2|LV233_HUMAN	63.5	6PWU_E	6ULC_L	6PWU_E	6ULC_L
+sp|O60939|SCN2B_HUMAN	sp|P04578|ENV_HV1H2	63.5	6J8H_C	6PWU_E	6UDK_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|P01825|HV459_HUMAN	63.5	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|P80748|LV321_HUMAN	63.5	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P80748|LV321_HUMAN	63.5	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q9H788|SH24A_HUMAN	63.5	3TB8_A	3VRP_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|Q0ZGT2|NEXN_HUMAN	63.5	2X7L_R	6SDB_C	5DHX_C	6CVK_A
+tr|A0A0G2JLM5|A0A0G2JLM5_HUMAN	sp|P04585|POL_HV1H2	63.5	3VH8_H	1L6N_A	5T70_G	3GV2_A
+tr|A0A0G2JLM5|A0A0G2JLM5_HUMAN	sp|P04591|GAG_HV1H2	63.5	3VH8_H	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A087WSX0|LV545_HUMAN	63.4	6PWU_E	6HD8_A	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|Q96DU3|SLAF6_HUMAN	63.4	6PWU_E	2IF7_D	6PWU_E	6ULC_L
+sp|P04578|ENV_HV1H2	sp|Q96NZ8|WFKN1_HUMAN	63.3	6PWU_E	6NAN_A	2NY2_A	4HJJ_L
+sp|P04585|POL_HV1H2	sp|A0A0B4J1Y8|LV949_HUMAN	63.3	1L6N_A	6UDK_H	2XT1_A	6FPV_A
+sp|Q8WW36|ZCH13_HUMAN	sp|P04585|POL_HV1H2	63.3	2LLI_A	1L6N_A	5O2U_C	5TEO_B
+sp|P04585|POL_HV1H2	tr|A0A0G2JRQ6|A0A0G2JRQ6_HUMAN	63.3	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J1Y8|LV949_HUMAN	63.3	1L6N_A	6UDK_H	2XT1_A	6FPV_A
+sp|Q8WW36|ZCH13_HUMAN	sp|P04591|GAG_HV1H2	63.3	2LLI_A	1L6N_A	5O2U_C	5TEO_B
+sp|P04591|GAG_HV1H2	sp|Q96KV6|BT2A3_HUMAN	63.3	1L6N_A	5HM7_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0G2JRQ6|A0A0G2JRQ6_HUMAN	63.3	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P20591|MX1_HUMAN	sp|P04601|NEF_HV1H2	63.3	5GTM_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|P20138|CD33_HUMAN	63.3	2X7L_R	5OR7_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q9HB29|ILRL2_HUMAN	63.3	2X7L_R	6U6U_R	2X7L_R	5I8O_L
+sp|P01850|TRBC1_HUMAN	sp|P04601|NEF_HV1H2	63.3	6U07_B	3TB8_A	5XOV_H	3TB8_A
+sp|P0DTU3|TRAR2_HUMAN	sp|P04578|ENV_HV1H2	63.2	5YXU_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|Q9UL42|PNMA2_HUMAN	63.2	1L6N_A	6TAU_A	6R24_C	6R24_C
+sp|P04591|GAG_HV1H2	sp|P01597|KV139_HUMAN	63.2	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P04432|KVD39_HUMAN	63.2	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8WVV5|BT2A2_HUMAN	63.2	1L6N_A	5HM7_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q9UL42|PNMA2_HUMAN	63.2	1L6N_A	6TAU_A	6R23_B	6R23_B
+sp|P69723|VIF_HV1H2	sp|Q9NRR5|UBQL4_HUMAN	63.2	4N9F_b	1OQY_A	4N9F_b	2MA9_B
+sp|P69726|VPR_HV1H2	sp|Q8WV16|DCAF4_HUMAN	63.2	1ESX_A	1SQ9_A	5JK7_F	5JK7_E
+sp|Q8NAP3|ZBT38_HUMAN	sp|P69723|VIF_HV1H2	63.1	5V3J_E	4N9F_b	6P59_Z	6P59_B
+sp|Q96CT2|KLH29_HUMAN	sp|P69723|VIF_HV1H2	63.1	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q9UFC0|LRWD1_HUMAN	63.1	1ESX_A	6CVZ_A	5JK7_F	5JK7_E
+sp|P01730|CD4_HUMAN	sp|P04601|NEF_HV1H2	63.1	3T0E_E	3TB8_A	5XOV_H	3TB8_A
+sp|P08637|FCG3A_HUMAN	sp|P04601|NEF_HV1H2	63.1	1FNL_A	3TB8_A	5XOV_H	3TB8_A
+sp|A0A075B6K6|LV403_HUMAN	sp|P04578|ENV_HV1H2	63.0	4YO0_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	tr|A0A0B4J2B6|A0A0B4J2B6_HUMAN	63.0	6PWU_E	5WB1_A	6FY1_G	4HJJ_H
+sp|P04585|POL_HV1H2	sp|A0A075B6S5|KV127_HUMAN	63.0	1L6N_A	6BPA_F	1R0A_A	2XKN_C
+sp|P04585|POL_HV1H2	sp|A0A0C4DH43|HV70D_HUMAN	63.0	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|O75144|ICOSL_HUMAN	63.0	1L6N_A	6JXR_n	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|Q8NET4|RTL9_HUMAN	63.0	1L6N_A	6R24_C	6R24_C	6R24_C
+sp|P04591|GAG_HV1H2	sp|P01825|HV459_HUMAN	63.0	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8NET4|RTL9_HUMAN	63.0	1L6N_A	6R24_C	6R23_B	6R23_B
+sp|P04601|NEF_HV1H2	sp|P16885|PLCG2_HUMAN	63.0	3TB8_A	6PBC_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q8N5H7|SH2D3_HUMAN	63.0	3TB8_A	3T6A_B	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|Q03828|EVX2_HUMAN	63.0	3MI9_C	1MH3_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|P08637|FCG3A_HUMAN	63.0	2X7L_R	1FNL_A	2X7L_R	5I8O_L
+sp|Q9NQS3|NECT3_HUMAN	sp|P04601|NEF_HV1H2	63.0	4FOM_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q9Y6Y1|CMTA1_HUMAN	sp|P04578|ENV_HV1H2	63.0	2DFS_M	6PWU_E	6QFK_A	6B0N_G
+sp|Q9BQ51|PD1L2_HUMAN	sp|P04585|POL_HV1H2	62.9	3BP5_B	1L6N_A	6ID4_C	1R0A_A
+sp|P04601|NEF_HV1H2	sp|P01593|KVD33_HUMAN	62.9	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01594|KV133_HUMAN	62.9	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P69726|VPR_HV1H2	sp|Q9P1V8|SAM15_HUMAN	62.9	1ESX_A	3TAD_D	4Z8L_B	4Z8L_F
+sp|P69726|VPR_HV1H2	sp|Q9Y4P8|WIPI2_HUMAN	62.9	1ESX_A	5LTG_B	5JK7_F	5JK7_E
+sp|P04585|POL_HV1H2	sp|A0A0C4DH69|KV109_HUMAN	62.8	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH69|KV109_HUMAN	62.8	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q12905|ILF2_HUMAN	62.8	1L6N_A	4ATB_A	3NYB_B	3NYB_A
+sp|P04591|GAG_HV1H2	sp|Q5VYS8|TUT7_HUMAN	62.8	1L6N_A	5W0N_B	3NYB_B	3NYB_A
+sp|P04618|REV_HV1H2	sp|A0A0B4J2D9|KVD13_HUMAN	62.8	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|P0DP09|KV113_HUMAN	62.8	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|Q7KYR7|BT2A1_HUMAN	62.8	2X7L_R	5HM7_A	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|Q5MNZ9|WIPI1_HUMAN	62.8	1ESX_A	5LTG_A	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|Q9NSI5|IGSF5_HUMAN	62.7	6PWU_E	4F9L_A	5GHW_P	5JNY_C
+sp|Q8TF05|PP4R1_HUMAN	sp|P04601|NEF_HV1H2	62.7	5DFZ_B	3TB8_A	4NEE_B	3TB8_A
+sp|P04618|REV_HV1H2	sp|P01597|KV139_HUMAN	62.7	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|P04432|KVD39_HUMAN	62.7	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|A0A075B6T6|TVAL2_HUMAN	sp|P04578|ENV_HV1H2	62.6	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04601|NEF_HV1H2	sp|Q7Z7G1|CLNK_HUMAN	62.6	3TB8_A	3BKB_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|Q96KV6|BT2A3_HUMAN	62.6	2X7L_R	5HM7_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q96P70|IPO9_HUMAN	62.6	2N28_A	6N1Z_A	4P6Z_V	4P6Z_B
+sp|P04585|POL_HV1H2	sp|A0A0A0MRZ9|LV552_HUMAN	62.5	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|O95727|CRTAM_HUMAN	sp|P04585|POL_HV1H2	62.5	3D9A_L	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q16653|MOG_HUMAN	62.5	1L6N_A	4PFE_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q53H47|SETMR_HUMAN	62.5	1L6N_A	3BO5_A	4FCY_A	4FCY_B
+sp|P04591|GAG_HV1H2	sp|A0A0A0MRZ9|LV552_HUMAN	62.5	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q16653|MOG_HUMAN	62.5	1L6N_A	4PFE_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|P01611|KVD12_HUMAN	62.5	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P30273|FCERG_HUMAN	62.5	3TB8_A	6JXR_a	3IK5_A	3IOZ_B
+sp|P04618|REV_HV1H2	sp|Q9NZQ7|PD1L1_HUMAN	62.5	2X7L_R	6PV9_A	2X7L_R	5I8O_L
+sp|P43630|KI3L2_HUMAN	sp|P04585|POL_HV1H2	62.5	3VH8_H	1L6N_A	5T70_G	3GV2_A
+sp|P43630|KI3L2_HUMAN	sp|P04591|GAG_HV1H2	62.5	3VH8_H	1L6N_A	5T70_G	3GV2_A
+sp|Q8N423|LIRB2_HUMAN	sp|P04585|POL_HV1H2	62.5	6AED_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8N423|LIRB2_HUMAN	sp|P04591|GAG_HV1H2	62.5	6AED_A	1L6N_A	5T70_G	3GV2_A
+sp|A0A0B4J240|TVA10_HUMAN	sp|P04578|ENV_HV1H2	62.4	2CDE_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|P01602|KV105_HUMAN	62.4	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01602|KV105_HUMAN	62.4	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|Q99719|SEPT5_HUMAN	sp|P04601|NEF_HV1H2	62.4	4Z54_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q96RE7|NACC1_HUMAN	sp|P69723|VIF_HV1H2	62.4	3GA1_A	4N9F_b	6P59_Z	6P59_B
+sp|P04585|POL_HV1H2	sp|P01599|KV117_HUMAN	62.3	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P01730|CD4_HUMAN	62.3	1L6N_A	3T0E_E	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|P01599|KV117_HUMAN	62.3	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04578|ENV_HV1H2	sp|A0A0B4J245|TVAL1_HUMAN	62.2	6PWU_E	2CDE_C	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|P01814|HV270_HUMAN	62.2	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|P04608|TAT_HV1H2	sp|O60566|BUB1B_HUMAN	62.2	3MI9_C	5KHU_Q	4OGR_D	4OR5_F
+sp|Q96JB3|HIC2_HUMAN	sp|P69723|VIF_HV1H2	62.2	3ZMS_C	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q9NXC5|MIO_HUMAN	62.2	1ESX_A	4YCZ_A	5JK7_F	5JK7_E
+sp|O75015|FCG3B_HUMAN	sp|P04601|NEF_HV1H2	62.2	1FNL_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|P06315|KV502_HUMAN	62.1	6PWU_E	6BPC_F	6NIJ_B	3U1S_H
+sp|P25189|MYP0_HUMAN	sp|P04578|ENV_HV1H2	62.1	6AGF_B	6PWU_E	6UDK_H	4TVP_G
+sp|Q9UKI3|VPRE3_HUMAN	sp|P04578|ENV_HV1H2	62.1	5WB1_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A075B6I3|LVK55_HUMAN	62.1	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P01824|HV439_HUMAN	62.1	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|A0A075B6I3|LVK55_HUMAN	62.1	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|O15259|NPHP1_HUMAN	62.1	3TB8_A	6O1Q_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|P14923|PLAK_HUMAN	62.1	3TB8_A	3C2G_A	6CRI_Z	6CRI_I
+sp|Q14002|CEAM7_HUMAN	sp|P04601|NEF_HV1H2	62.1	1E07_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04585|POL_HV1H2	sp|P20138|CD33_HUMAN	62.0	1L6N_A	5OR7_C	1R0A_A	1HYS_D
+sp|P69726|VPR_HV1H2	sp|Q9Y484|WIPI4_HUMAN	62.0	1ESX_A	5LTD_A	5JK7_F	5JK7_E
+sp|Q6UVW9|CLC2A_HUMAN	sp|P04578|ENV_HV1H2	62.0	4IOP_A	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	tr|A0A0J9YW62|A0A0J9YW62_HUMAN	61.9	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04608|TAT_HV1H2	sp|Q58A45|PAN3_HUMAN	61.9	3MI9_C	4BWP_A	4OGR_D	4OR5_F
+sp|P04618|REV_HV1H2	sp|P01611|KVD12_HUMAN	61.9	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|Q9H2C0|GAN_HUMAN	sp|P69723|VIF_HV1H2	61.9	3HVE_A	4N9F_b	6P59_Z	6P59_B
+sp|A0A0B4J1X8|HV343_HUMAN	sp|P04585|POL_HV1H2	61.8	6QNO_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|A0A0C4DH72|KV106_HUMAN	61.8	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH72|KV106_HUMAN	61.8	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04618|REV_HV1H2	sp|A0A075B6S5|KV127_HUMAN	61.8	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|A0A0C4DH73|KV112_HUMAN	61.8	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|Q9BZM5|ULBP2_HUMAN	sp|P04585|POL_HV1H2	61.8	6A97_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q9BZM5|ULBP2_HUMAN	sp|P04591|GAG_HV1H2	61.8	6A97_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|Q6UXE8|BTNL3_HUMAN	61.7	6PWU_E	5HM7_A	3U2S_C	5N2K_F
+sp|Q969P0|IGSF8_HUMAN	sp|P04578|ENV_HV1H2	61.7	5WHZ_H	6PWU_E	6MET_A	3J70_P
+sp|P04585|POL_HV1H2	sp|P01817|HV205_HUMAN	61.7	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|P0DP08|HVD82_HUMAN	61.7	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|Q6UXZ4|UNC5D_HUMAN	sp|P04585|POL_HV1H2	61.7	3G5B_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	tr|A0A075B7D4|A0A075B7D4_HUMAN	61.7	1L6N_A	6BPA_F	1R0A_A	2XKN_C
+tr|A0A075B7F1|A0A075B7F1_HUMAN	sp|P04585|POL_HV1H2	61.7	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6S5|KV127_HUMAN	61.7	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q8IZW8|TENS4_HUMAN	61.7	3TB8_A	1WVH_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|P01593|KVD33_HUMAN	61.7	2X7L_R	6BPA_F	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|P01594|KV133_HUMAN	61.7	2X7L_R	6BPA_F	2X7L_R	5I8O_L
+sp|P69726|VPR_HV1H2	sp|Q9Y4B6|DCAF1_HUMAN	61.7	1ESX_A	4PXW_B	5JK7_F	5JK7_E
+sp|P04217|A1BG_HUMAN	sp|P04585|POL_HV1H2	61.7	6GRQ_A	1L6N_A	5T70_G	3GV2_A
+sp|P04217|A1BG_HUMAN	sp|P04591|GAG_HV1H2	61.7	6GRQ_A	1L6N_A	5T70_G	3GV2_A
+sp|Q6UXZ4|UNC5D_HUMAN	sp|P04591|GAG_HV1H2	61.7	3G5B_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q9BZW8|CD244_HUMAN	61.6	6PWU_E	6A69_B	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|P01601|KVD16_HUMAN	61.6	1L6N_A	6BPA_F	1R0A_A	2XKN_C
+sp|P01834|IGKC_HUMAN	sp|P04585|POL_HV1H2	61.6	6FIB_C	1L6N_A	6CPL_A	2XXM_A
+sp|P01876|IGHA1_HUMAN	sp|P04585|POL_HV1H2	61.6	2QTJ_C	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|P09564|CD7_HUMAN	61.6	1L6N_A	6J8H_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P09564|CD7_HUMAN	61.6	1L6N_A	6J8H_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J2D9|KVD13_HUMAN	61.6	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P0DP09|KV113_HUMAN	61.6	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P46108|CRK_HUMAN	61.6	3TB8_A	2EYZ_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|P15151|PVR_HUMAN	61.6	2X7L_R	3J8F_7	2X7L_R	5I8O_L
+sp|Q96PQ7|KLHL5_HUMAN	sp|P69723|VIF_HV1H2	61.6	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P01834|IGKC_HUMAN	sp|P04591|GAG_HV1H2	61.6	6FIB_C	1L6N_A	6CPL_A	2XXM_A
+sp|P01876|IGHA1_HUMAN	sp|P04591|GAG_HV1H2	61.6	2QTJ_C	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|Q6PI73|LIRA6_HUMAN	61.5	6PWU_E	6AED_A	2NY2_A	4HJJ_L
+sp|P01743|HV146_HUMAN	sp|P04585|POL_HV1H2	61.5	3U1S_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04601|NEF_HV1H2	sp|P80748|LV321_HUMAN	61.5	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9Y6B7|AP4B1_HUMAN	61.5	3TB8_A	4UQI_B	6OWT_N	6QH5_B
+sp|Q9C0H6|KLHL4_HUMAN	sp|P69723|VIF_HV1H2	61.5	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q00005|2ABB_HUMAN	61.5	1ESX_A	3DW8_E	5JK7_F	5JK7_E
+sp|P04585|POL_HV1H2	sp|A0A0C4DH26|KVD41_HUMAN	61.4	1L6N_A	1YJD_C	1R0A_A	2XKN_C
+sp|Q8TDU6|GPBAR_HUMAN	sp|P04578|ENV_HV1H2	61.4	6LI0_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q8IW00|VSTM4_HUMAN	61.3	6PWU_E	5OR7_C	6DCQ_D	6VPX_P
+sp|P04618|REV_HV1H2	sp|P01602|KV105_HUMAN	61.3	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|P52739|ZN131_HUMAN	sp|P69723|VIF_HV1H2	61.3	5T0U_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q8NA75|DC4L2_HUMAN	61.3	1ESX_A	1SQ9_A	5JK7_F	5JK7_E
+sp|O75121|MFA3L_HUMAN	sp|P04585|POL_HV1H2	61.3	3MJG_X	1L6N_A	5T70_G	3GV2_A
+sp|O75121|MFA3L_HUMAN	sp|P04591|GAG_HV1H2	61.3	3MJG_X	1L6N_A	5T70_G	3GV2_A
+sp|P41587|VIPR2_HUMAN	sp|P04578|ENV_HV1H2	61.3	6FJ3_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NYW3|TA2R7_HUMAN	sp|P04578|ENV_HV1H2	61.3	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|A0A075B6T7|TVA6_HUMAN	sp|P04578|ENV_HV1H2	61.2	1LP9_E	6PWU_E	5VIY_H	4TVP_G
+sp|P01742|HV169_HUMAN	sp|P04585|POL_HV1H2	61.2	3U1S_H	1L6N_A	6ID4_C	1R0A_A
+sp|P01762|HV311_HUMAN	sp|P04585|POL_HV1H2	61.2	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|P04430|KV116_HUMAN	61.2	1L6N_A	6BPA_F	1R0A_A	2XKN_C
+sp|P0DP04|HV43D_HUMAN	sp|P04585|POL_HV1H2	61.2	6QNO_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|P01601|KVD16_HUMAN	61.2	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04618|REV_HV1H2	sp|A0A075B6H7|KV37_HUMAN	61.2	2X7L_R	1YJD_C	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q9BQ51|PD1L2_HUMAN	61.2	2X7L_R	3BP5_B	2X7L_R	5I8O_L
+sp|P04578|ENV_HV1H2	sp|A0A075B6I4|LVX54_HUMAN	61.1	6PWU_E	6ULC_L	6PWU_E	6ULC_L
+sp|A0A0C4DH33|HV124_HUMAN	sp|P04585|POL_HV1H2	61.1	3U1S_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	tr|A0A075B7D4|A0A075B7D4_HUMAN	61.1	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q16653|MOG_HUMAN	61.1	3TB8_A	4PFE_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|P01599|KV117_HUMAN	61.1	2X7L_R	6BPA_F	2X7L_R	5I8O_L
+sp|Q96BF6|NACC2_HUMAN	sp|P69723|VIF_HV1H2	61.1	3GA1_A	4N9F_b	6P59_Z	6P59_B
+sp|P20592|MX2_HUMAN	sp|P04601|NEF_HV1H2	61.1	4WHJ_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q15762|CD226_HUMAN	sp|P04591|GAG_HV1H2	61.1	6ISB_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9HAR2|AGRL3_HUMAN	sp|P04578|ENV_HV1H2	61.1	6VHH_B	6PWU_E	6MEO_B	3J70_P
+sp|Q6BAA4|FCRLB_HUMAN	sp|P04578|ENV_HV1H2	61.0	3RJD_A	6PWU_E	6MET_A	3J70_P
+sp|A0A0B4J2H0|HV69D_HUMAN	sp|P04585|POL_HV1H2	61.0	3U1S_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|P25189|MYP0_HUMAN	61.0	1L6N_A	6AGF_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P25189|MYP0_HUMAN	61.0	1L6N_A	6AGF_B	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q9UKS6|PACN3_HUMAN	61.0	3TB8_A	4BNE_B	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	tr|A0A0G2JRQ6|A0A0G2JRQ6_HUMAN	61.0	2X7L_R	6BPA_F	2X7L_R	5I8O_L
+sp|P05919|VPU_HV1H2	sp|Q86WZ0|HEAT4_HUMAN	61.0	2N28_A	1OYZ_A	4P6Z_V	4P6Z_G
+sp|P69723|VIF_HV1H2	sp|P11441|UBL4A_HUMAN	61.0	4N9F_b	4X86_A	4N9F_b	2MA9_B
+sp|P69726|VPR_HV1H2	sp|Q8IZD0|SAM14_HUMAN	61.0	1ESX_A	1UQV_A	4Z8L_B	4Z8L_F
+sp|O14514|AGRB1_HUMAN	sp|P04578|ENV_HV1H2	61.0	4DLO_A	6PWU_E	6MEO_B	3J70_P
+sp|A0A075B6I1|LV460_HUMAN	sp|P04578|ENV_HV1H2	60.9	5WB1_A	6PWU_E	5VIY_H	4TVP_G
+sp|P59901|LIRA4_HUMAN	sp|P04578|ENV_HV1H2	60.9	6AED_A	6PWU_E	6MET_A	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q13478|IL18R_HUMAN	60.9	6PWU_E	3WO3_H	6FY1_G	4HJJ_H
+sp|O95185|UNC5C_HUMAN	sp|P04585|POL_HV1H2	60.9	3G5B_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|P10966|CD8B_HUMAN	60.9	1L6N_A	6J8J_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q9NZT1|CALL5_HUMAN	60.9	1L6N_A	2LMT_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P10966|CD8B_HUMAN	60.9	1L6N_A	6J8J_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q9NZT1|CALL5_HUMAN	60.9	1L6N_A	2LMT_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|P01597|KV139_HUMAN	60.9	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P04432|KVD39_HUMAN	60.9	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P15882|CHIN_HUMAN	60.9	3TB8_A	1XA6_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9Y5K6|CD2AP_HUMAN	60.9	3TB8_A	1GRI_B	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|P01860|IGHG3_HUMAN	60.9	2X7L_R	1MCO_H	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|P14923|PLAK_HUMAN	60.9	2N28_A	3C2G_A	4P6Z_V	4P6Z_G
+sp|O95185|UNC5C_HUMAN	sp|P04591|GAG_HV1H2	60.9	3G5B_A	1L6N_A	5T70_G	3GV2_A
+sp|P41217|OX2G_HUMAN	sp|P04601|NEF_HV1H2	60.9	4BFI_B	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|Q8NHK3|KI2LB_HUMAN	60.8	6PWU_E	3WYR_B	3U2S_C	5N2K_F
+sp|A0A0C4DH31|HV118_HUMAN	sp|P04585|POL_HV1H2	60.8	3U1S_H	1L6N_A	6ID4_C	1R0A_A
+sp|P0DP01|HV108_HUMAN	sp|P04585|POL_HV1H2	60.8	3U1S_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|P04430|KV116_HUMAN	60.8	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|Q9BVP2|GNL3_HUMAN	sp|P04601|NEF_HV1H2	60.8	3JCT_s	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q9NZM3|ITSN2_HUMAN	60.8	3TB8_A	3JZY_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9UJU6|DBNL_HUMAN	60.8	3TB8_A	4LIZ_A	4U5W_C	4U5W_B
+sp|O95727|CRTAM_HUMAN	sp|P04601|NEF_HV1H2	60.8	3D9A_L	3TB8_A	5XOV_H	3TB8_A
+sp|P01730|CD4_HUMAN	sp|P04591|GAG_HV1H2	60.8	3T0E_E	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q8NHL6|LIRB1_HUMAN	60.7	6PWU_E	6AEE_G	6FY1_G	4HJJ_H
+sp|P04585|POL_HV1H2	sp|P01706|LV211_HUMAN	60.7	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01706|LV211_HUMAN	60.7	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|Q13823|NOG2_HUMAN	sp|P04601|NEF_HV1H2	60.7	3JCT_m	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q9NSE2|CISH_HUMAN	60.7	3TB8_A	2IZV_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	tr|A0A075B7D4|A0A075B7D4_HUMAN	60.7	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q9BTV7|CABL2_HUMAN	60.7	3MI9_C	4EOJ_D	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|P01730|CD4_HUMAN	60.7	2X7L_R	3T0E_E	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|Q9UM44|HHLA2_HUMAN	60.7	2X7L_R	3J8F_7	2X7L_R	5I8O_H
+sp|O95140|MFN2_HUMAN	sp|P04601|NEF_HV1H2	60.7	2J68_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|A0A0A0MRZ7|KVD26_HUMAN	60.6	6PWU_E	6BPB_B	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A0A075B6H7|KV37_HUMAN	60.6	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6H7|KV37_HUMAN	60.6	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q15811|ITSN1_HUMAN	60.6	3TB8_A	3JZY_A	4U5W_C	4U5W_B
+sp|Q9H089|LSG1_HUMAN	sp|P04601|NEF_HV1H2	60.6	6QIK_o	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	tr|A0A0G2JRQ6|A0A0G2JRQ6_HUMAN	60.6	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q96PV0|SYGP1_HUMAN	60.6	3MI9_C	3BXJ_B	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|O75121|MFA3L_HUMAN	60.6	2X7L_R	3MJG_X	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|O95727|CRTAM_HUMAN	60.6	2X7L_R	3D9A_L	2X7L_R	5I8O_L
+sp|P69723|VIF_HV1H2	sp|Q9Y6Y0|NS1BP_HUMAN	60.6	4N9F_b	6N3H_A	4N9F_b	4AJY_C
+sp|P01877|IGHA2_HUMAN	sp|P04585|POL_HV1H2	60.6	1R70_B	1L6N_A	6CPL_A	2XXM_A
+sp|P01877|IGHA2_HUMAN	sp|P04591|GAG_HV1H2	60.6	1R70_B	1L6N_A	6CPL_A	2XXM_A
+sp|P09564|CD7_HUMAN	sp|P04578|ENV_HV1H2	60.5	6J8H_C	6PWU_E	6UDK_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|P15391|CD19_HUMAN	60.5	6PWU_E	6AL5_A	6UM5_E	6CBP_A
+sp|Q9BRK3|MXRA8_HUMAN	sp|P04578|ENV_HV1H2	60.5	6NK3_A	6PWU_E	6MN7_H	4TVP_G
+sp|Q9HBG7|LY9_HUMAN	sp|P04585|POL_HV1H2	60.5	5A2F_A	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|P0DTU4|TRBR2_HUMAN	60.5	1L6N_A	6JXR_n	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q96B97|SH3K1_HUMAN	60.5	3TB8_A	1GRI_B	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|P01825|HV459_HUMAN	60.5	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q14008|CKAP5_HUMAN	60.5	2N28_A	6MZG_E	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q86Y56|DAAF5_HUMAN	60.5	2N28_A	5FVM_B	4P6Z_V	4P6Z_B
+sp|P69723|VIF_HV1H2	sp|Q9UMX0|UBQL1_HUMAN	60.5	4N9F_b	1OQY_A	4N9F_b	2MA9_B
+sp|Q9HBG7|LY9_HUMAN	sp|P04591|GAG_HV1H2	60.5	5A2F_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8IZJ1|UNC5B_HUMAN	sp|P04585|POL_HV1H2	60.4	3G5B_A	1L6N_A	5T70_G	3GV2_A
+tr|S4R460|S4R460_HUMAN	sp|P04585|POL_HV1H2	60.4	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04601|NEF_HV1H2	sp|P01599|KV117_HUMAN	60.4	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q8TDN4|CABL1_HUMAN	60.4	3MI9_C	4EOJ_D	3MI9_C	2PK2_B
+sp|P69726|VPR_HV1H2	sp|P63151|2ABA_HUMAN	60.4	1ESX_A	3DW8_E	5JK7_F	5JK7_E
+sp|Q8IZJ1|UNC5B_HUMAN	sp|P04591|GAG_HV1H2	60.4	3G5B_A	1L6N_A	5T70_G	3GV2_A
+sp|P01880|IGHD_HUMAN	sp|P04578|ENV_HV1H2	60.3	1ZVO_C	6PWU_E	6MET_A	3J70_P
+sp|P04578|ENV_HV1H2	tr|A0A0G2JPC4|A0A0G2JPC4_HUMAN	60.3	6PWU_E	3WYR_B	3U2S_C	5N2K_F
+sp|P04585|POL_HV1H2	sp|A0A075B6S4|KVD17_HUMAN	60.3	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|O60487|MPZL2_HUMAN	sp|P04585|POL_HV1H2	60.3	6J8H_C	1L6N_A	6ID4_C	1R0A_A
+sp|Q8TD46|MO2R1_HUMAN	sp|P04585|POL_HV1H2	60.3	4BFG_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|Q9BXU9|CABP8_HUMAN	60.3	1L6N_A	1M45_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6S4|KVD17_HUMAN	60.3	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q9BXU9|CABP8_HUMAN	60.3	1L6N_A	1M45_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH72|KV106_HUMAN	60.3	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O43639|NCK2_HUMAN	60.3	3TB8_A	2ABL_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|P16333|NCK1_HUMAN	60.3	3TB8_A	4XI2_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|P35222|CTNB1_HUMAN	60.3	3TB8_A	3C2G_A	6OWT_N	6OWT_A
+sp|P04601|NEF_HV1H2	sp|Q8TE67|ES8L3_HUMAN	60.3	3TB8_A	2E8M_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A0C4DH26|KVD41_HUMAN	60.3	2X7L_R	1YJD_C	5DHX_C	6CVK_A
+sp|Q96DT7|ZBT10_HUMAN	sp|P69723|VIF_HV1H2	60.3	3W5K_B	4N9F_b	6P59_Z	6P59_B
+sp|Q8TD46|MO2R1_HUMAN	sp|P04591|GAG_HV1H2	60.3	4BFG_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|Q8N6C8|LIRA3_HUMAN	60.2	6PWU_E	6AEE_G	6NIJ_B	5WHZ_L
+sp|P04578|ENV_HV1H2	tr|A0A0G2JN68|A0A0G2JN68_HUMAN	60.2	6PWU_E	3WYR_B	3U2S_C	5N2K_F
+tr|A0A0J9YY99|A0A0J9YY99_HUMAN	sp|P04585|POL_HV1H2	60.2	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+tr|S4R3C0|S4R3C0_HUMAN	sp|P04585|POL_HV1H2	60.2	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P13639|EF2_HUMAN	sp|P04601|NEF_HV1H2	60.2	6ID1_C	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|A0A0C4DH72|KV106_HUMAN	60.2	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|P41217|OX2G_HUMAN	60.2	2X7L_R	4BFI_B	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A075B7D4|A0A075B7D4_HUMAN	60.2	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|Q7Z460|CLAP1_HUMAN	60.2	2N28_A	6COK_A	4P6Z_V	4P6Z_B
+sp|Q969K4|ABTB1_HUMAN	sp|P69723|VIF_HV1H2	60.2	4U2M_D	4N9F_b	6P59_Z	6P59_B
+sp|Q8NFZ6|VN1R2_HUMAN	sp|P04578|ENV_HV1H2	60.2	4GRV_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|P01854|IGHE_HUMAN	60.1	6PWU_E	2WQR_B	2NY2_A	4HJJ_L
+sp|P04578|ENV_HV1H2	sp|Q6UXG3|CLM9_HUMAN	60.1	6PWU_E	5OR7_C	3J70_P	4Q6I_J
+sp|P04578|ENV_HV1H2	sp|Q8N109|KI2LA_HUMAN	60.1	6PWU_E	3WYR_B	3U2S_C	5N2K_F
+sp|A0A0J9YX35|HV64D_HUMAN	sp|P04585|POL_HV1H2	60.1	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|P0DP07|HV431_HUMAN	60.1	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH41|HV461_HUMAN	60.1	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|P52757|CHIO_HUMAN	60.1	3TB8_A	1XA6_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A0C4DH69|KV109_HUMAN	60.1	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|Q6ZMC9|SIG15_HUMAN	60.1	2X7L_R	2CDE_C	2X7L_R	5I8O_H
+sp|Q8IXQ5|KLHL7_HUMAN	sp|P69723|VIF_HV1H2	60.1	3II7_A	4N9F_b	6P59_Z	6P59_B
+sp|Q5VY80|ULBP6_HUMAN	sp|P04585|POL_HV1H2	60.1	6A97_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q5VY80|ULBP6_HUMAN	sp|P04591|GAG_HV1H2	60.1	6A97_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|Q0ZGT2|NEXN_HUMAN	60.0	6PWU_E	6SDB_C	6FY1_G	4HJJ_H
+sp|P04585|POL_HV1H2	sp|A6NJW9|CD8B2_HUMAN	60.0	1L6N_A	6J8J_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A6NJW9|CD8B2_HUMAN	60.0	1L6N_A	6J8J_B	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH73|KV112_HUMAN	60.0	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|Q8IVW1|ARL17_HUMAN	sp|P04601|NEF_HV1H2	60.0	1MOZ_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04608|TAT_HV1H2	sp|P04632|CPNS1_HUMAN	60.0	3MI9_C	4PHJ_B	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|P04430|KV116_HUMAN	60.0	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|P69726|VPR_HV1H2	sp|Q8NDX5|PHC3_HUMAN	60.0	1ESX_A	2NA1_A	5AJA_B	5AJA_C
+sp|P69726|VPR_HV1H2	sp|Q9Y2T4|2ABG_HUMAN	60.0	1ESX_A	3DW8_E	5JK7_F	5JK7_E
+sp|Q9BX59|TPSNR_HUMAN	sp|P04601|NEF_HV1H2	60.0	5WER_F	3TB8_A	5XOV_H	3TB8_A
+sp|A0A0J9YVY3|HV741_HUMAN	sp|P04585|POL_HV1H2	59.9	3U1S_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|P01701|LV151_HUMAN	59.9	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P01717|LV325_HUMAN	59.9	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P41217|OX2G_HUMAN	59.9	1L6N_A	4BFI_B	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|P01701|LV151_HUMAN	59.9	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01717|LV325_HUMAN	59.9	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P36915|GNL1_HUMAN	sp|P04601|NEF_HV1H2	59.9	6QIK_o	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|A0A075B6H8|KVD42_HUMAN	59.8	6PWU_E	6BPA_F	6NIJ_B	3U1S_H
+sp|Q6ZN44|UNC5A_HUMAN	sp|P04578|ENV_HV1H2	59.8	3G5B_A	6PWU_E	4YDV_A	6PWU_E
+sp|P04585|POL_HV1H2	sp|A0A075B6S9|KV137_HUMAN	59.8	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|A0A0G2JMI3|HV692_HUMAN	sp|P04585|POL_HV1H2	59.8	3U1S_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|A0A0J9YX94|PMA6F_HUMAN	59.8	1L6N_A	6R23_B	6R24_C	6R24_C
+sp|P04585|POL_HV1H2	sp|P0DSN7|KVD37_HUMAN	59.8	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6S9|KV137_HUMAN	59.8	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0J9YX94|PMA6F_HUMAN	59.8	1L6N_A	6R23_B	6R23_B	6R23_B
+sp|P04591|GAG_HV1H2	sp|P0DSN7|KVD37_HUMAN	59.8	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|O60487|MPZL2_HUMAN	59.8	3TB8_A	6J8H_C	4ORZ_B	5MZV_D
+sp|P69726|VPR_HV1H2	sp|Q8NA19|LMBL4_HUMAN	59.8	1ESX_A	3UT1_A	4Z8L_B	4Z8L_F
+sp|P04591|GAG_HV1H2	sp|P0DP06|HVD34_HUMAN	59.7	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|P04430|KV116_HUMAN	59.7	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P69723|VIF_HV1H2	sp|Q9H347|UBQL3_HUMAN	59.7	4N9F_b	1OQY_A	4N9F_b	2MA9_B
+sp|P13727|PRG2_HUMAN	sp|P04578|ENV_HV1H2	59.7	1H8U_B	6PWU_E	1QO3_C	3J70_P
+sp|Q9BZW8|CD244_HUMAN	sp|P04585|POL_HV1H2	59.7	6A69_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q9BZW8|CD244_HUMAN	sp|P04591|GAG_HV1H2	59.7	6A69_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|A0A075B6K5|LV39_HUMAN	59.6	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|A0A0B4J1X5|HV374_HUMAN	sp|P04585|POL_HV1H2	59.6	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|A0A0B4J241|TVAM1_HUMAN	sp|P04585|POL_HV1H2	59.6	5TEZ_I	1L6N_A	6ID4_C	1R0A_A
+sp|A0A5B9|TRBC2_HUMAN	sp|P04585|POL_HV1H2	59.6	6U07_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|Q9BUP3|HTAI2_HUMAN	59.6	1L6N_A	2BKA_A	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6K5|LV39_HUMAN	59.6	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q9BUP3|HTAI2_HUMAN	59.6	1L6N_A	2BKA_A	6TAS_D	6VTJ_A
+sp|P04601|NEF_HV1H2	sp|Q9H6S3|ES8L2_HUMAN	59.6	3TB8_A	1WWU_A	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|Q9UDV7|ZN282_HUMAN	59.6	3MI9_C	3ZMS_C	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|P01601|KVD16_HUMAN	59.6	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|Q8IUL8|CILP2_HUMAN	59.6	2X7L_R	6TM6_A	5DHX_C	6CVK_A
+sp|P69723|VIF_HV1H2	sp|P54725|RD23A_HUMAN	59.6	4N9F_b	1OQY_A	4N9F_b	2MA9_B
+sp|P69726|VPR_HV1H2	sp|Q96GD3|SCMH1_HUMAN	59.6	1ESX_A	2P0K_A	4Z8L_B	4Z8L_F
+sp|A0A5B9|TRBC2_HUMAN	sp|P04591|GAG_HV1H2	59.6	6U07_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	tr|A0A0J9YWU9|A0A0J9YWU9_HUMAN	59.5	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J1Y8|LV949_HUMAN	59.5	3TB8_A	6UDK_H	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A075B6S4|KVD17_HUMAN	59.5	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|A0A0C4DH30|HV316_HUMAN	sp|P04578|ENV_HV1H2	59.4	6QNO_H	6PWU_E	5VIY_H	4TVP_G
+sp|A0A0C4DH39|HV158_HUMAN	sp|P04585|POL_HV1H2	59.4	3U1S_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|P12018|VPREB_HUMAN	59.4	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+tr|A0A075B7D0|A0A075B7D0_HUMAN	sp|P04585|POL_HV1H2	59.4	3U1S_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|P12018|VPREB_HUMAN	59.4	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|Q9BYV9|BACH2_HUMAN	sp|P69723|VIF_HV1H2	59.4	1SKN_P	4N9F_b	6P59_Z	6P59_B
+sp|Q6QNK2|AGRD1_HUMAN	sp|P04578|ENV_HV1H2	59.4	6FJ3_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8N143|BCL6B_HUMAN	sp|P69723|VIF_HV1H2	59.4	3ZMS_C	4N9F_b	6P59_Z	6P59_B
+sp|Q96NZ8|WFKN1_HUMAN	sp|P04585|POL_HV1H2	59.4	6NAN_A	1L6N_A	5T70_G	3GV2_A
+sp|Q96NZ8|WFKN1_HUMAN	sp|P04591|GAG_HV1H2	59.4	6NAN_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	tr|A0A075B7B8|A0A075B7B8_HUMAN	59.3	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A0A075B6J1|LV537_HUMAN	59.3	1L6N_A	6HD8_A	2XT1_A	6FPV_A
+sp|P01764|HV323_HUMAN	sp|P04585|POL_HV1H2	59.3	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P01772|HV333_HUMAN	sp|P04585|POL_HV1H2	59.3	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q8IZJ6|TDH_HUMAN	59.3	1L6N_A	4YR9_B	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	tr|A0A087WW49|A0A087WW49_HUMAN	59.3	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|A0A075B6J1|LV537_HUMAN	59.3	1L6N_A	6HD8_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8IZJ6|TDH_HUMAN	59.3	1L6N_A	4YR9_B	6TAS_D	6VTJ_A
+sp|O15062|ZBTB5_HUMAN	sp|P69723|VIF_HV1H2	59.3	5GIT_A	4N9F_b	6P59_Z	6P59_B
+sp|P69723|VIF_HV1H2	sp|P54727|RD23B_HUMAN	59.3	4N9F_b	1OQY_A	4N9F_b	2MA9_B
+sp|P69726|VPR_HV1H2	sp|Q6X9E4|FBW12_HUMAN	59.3	1ESX_A	6M90_A	5JK7_F	5JK7_E
+sp|A0A0B4J248|TVA11_HUMAN	sp|P04578|ENV_HV1H2	59.2	2NW2_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|A0A0B4J276|TVA25_HUMAN	59.2	6PWU_E	5WKF_I	6NIJ_B	3U1S_H
+sp|P01768|HV330_HUMAN	sp|P04585|POL_HV1H2	59.2	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P0DP03|HVC05_HUMAN	sp|P04585|POL_HV1H2	59.2	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04601|NEF_HV1H2	sp|P19174|PLCG1_HUMAN	59.2	3TB8_A	6PBC_A	4U5W_C	4U5W_B
+sp|Q8TCB0|IFI44_HUMAN	sp|P04601|NEF_HV1H2	59.2	4Z54_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|P01624|KV315_HUMAN	59.2	2X7L_R	6BPC_C	5DHX_C	6CVK_A
+sp|P69723|VIF_HV1H2	sp|Q96PU4|UHRF2_HUMAN	59.2	4N9F_b	4TVR_A	4N9F_b	2MA9_B
+sp|O94910|AGRL1_HUMAN	sp|P04578|ENV_HV1H2	59.2	6VHH_B	6PWU_E	6MEO_B	3J70_P
+sp|Q96D42|HAVR1_HUMAN	sp|P04578|ENV_HV1H2	59.1	5DZO_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A075B6J9|LV218_HUMAN	59.1	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P0DP02|HVC33_HUMAN	sp|P04585|POL_HV1H2	59.1	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q96KR1|ZFR_HUMAN	59.1	1L6N_A	5DV7_C	3NYB_B	3NYB_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6J9|LV218_HUMAN	59.1	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q96KR1|ZFR_HUMAN	59.1	1L6N_A	5DV7_C	3NYB_B	3NYB_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6S5|KV127_HUMAN	59.1	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01717|LV325_HUMAN	59.1	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q12929|EPS8_HUMAN	59.1	3TB8_A	1WWU_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q96MF2|STAC3_HUMAN	59.1	3TB8_A	6UY8_A	4U5W_C	4U5W_B
+sp|Q9NVN8|GNL3L_HUMAN	sp|P04601|NEF_HV1H2	59.1	3JCT_s	3TB8_A	6CRI_L	6CRI_Z
+sp|P04608|TAT_HV1H2	sp|O75444|MAF_HUMAN	59.1	3MI9_C	1K1V_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|O95185|UNC5C_HUMAN	59.1	2X7L_R	3G5B_A	5DHX_C	6CVK_A
+sp|P04578|ENV_HV1H2	sp|O75339|CILP1_HUMAN	59.0	6PWU_E	6TM6_A	2NY2_A	4HJJ_L
+sp|P04578|ENV_HV1H2	sp|P11912|CD79A_HUMAN	59.0	6PWU_E	6J8H_C	6PWU_E	6ULC_L
+sp|P04578|ENV_HV1H2	sp|Q6UXG8|BTNL9_HUMAN	59.0	6PWU_E	5HM7_A	3U2S_C	5N2K_F
+sp|P04585|POL_HV1H2	sp|P01624|KV315_HUMAN	59.0	1L6N_A	6BPC_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P01721|LV657_HUMAN	59.0	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0J9YX35|HV64D_HUMAN	59.0	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01624|KV315_HUMAN	59.0	1L6N_A	6BPC_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01721|LV657_HUMAN	59.0	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04618|REV_HV1H2	sp|Q6ZN44|UNC5A_HUMAN	59.0	2X7L_R	3G5B_A	5DHX_C	6CVK_A
+sp|Q6H3X3|ULBP5_HUMAN	sp|P04585|POL_HV1H2	59.0	1A6Z_C	1L6N_A	6CPL_A	2XXM_A
+sp|Q6H3X3|ULBP5_HUMAN	sp|P04591|GAG_HV1H2	59.0	1A6Z_C	1L6N_A	6CPL_A	2XXM_A
+sp|P0CF74|IGLC6_HUMAN	sp|P04578|ENV_HV1H2	58.9	6U07_A	6PWU_E	6BF4_B	3NGB_D
+sp|P04578|ENV_HV1H2	sp|Q8TEU8|WFKN2_HUMAN	58.9	6PWU_E	6NAN_A	6NIJ_B	5WHZ_L
+sp|P04578|ENV_HV1H2	sp|Q99706|KI2L4_HUMAN	58.9	6PWU_E	3WYR_B	6FY1_G	4HJJ_H
+sp|P04585|POL_HV1H2	sp|A0A0B4J271|TVAL3_HUMAN	58.9	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P01704|LV214_HUMAN	58.9	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P01880|IGHD_HUMAN	sp|P04585|POL_HV1H2	58.9	1ZVO_C	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J271|TVAL3_HUMAN	58.9	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01704|LV214_HUMAN	58.9	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|P01602|KV105_HUMAN	58.9	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q7Z460|CLAP1_HUMAN	58.9	3TB8_A	6COK_A	6OWT_N	6QH5_B
+tr|A0A0G2JMH3|A0A0G2JMH3_HUMAN	sp|P04601|NEF_HV1H2	58.9	1MOZ_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04608|TAT_HV1H2	sp|Q06945|SOX4_HUMAN	58.9	3MI9_C	6T7A_K	3MI9_C	2PK2_B
+sp|A0M8Q6|IGLC7_HUMAN	sp|P04578|ENV_HV1H2	58.8	6U07_A	6PWU_E	6BF4_B	3NGB_D
+sp|P04585|POL_HV1H2	sp|A0A0G2JS06|LV539_HUMAN	58.8	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P01703|LV140_HUMAN	58.8	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P01705|LV223_HUMAN	58.8	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P04433|KV311_HUMAN	58.8	1L6N_A	6BPC_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P06331|HV434_HUMAN	58.8	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|A0A0G2JS06|LV539_HUMAN	58.8	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01703|LV140_HUMAN	58.8	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01705|LV223_HUMAN	58.8	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P04433|KV311_HUMAN	58.8	1L6N_A	6BPC_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|P19878|NCF2_HUMAN	58.8	3TB8_A	1WM5_A	4U5W_C	4U5W_B
+sp|P05919|VPU_HV1H2	sp|P35222|CTNB1_HUMAN	58.8	2N28_A	3C2G_A	4P6Z_V	4P6Z_G
+sp|B2RXH4|BTBDI_HUMAN	sp|P69723|VIF_HV1H2	58.8	3GA1_B	4N9F_b	6P59_Z	6P59_B
+sp|P69723|VIF_HV1H2	sp|Q8WW27|ABEC4_HUMAN	58.8	4N9F_b	5JJ4_C	6NIL_F	5HX4_A
+sp|O95727|CRTAM_HUMAN	sp|P04591|GAG_HV1H2	58.8	3D9A_L	1L6N_A	5T70_G	3GV2_A
+sp|A0A075B6H9|LV469_HUMAN	sp|P04578|ENV_HV1H2	58.7	5WB1_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|Q96I82|KAZD1_HUMAN	58.7	6PWU_E	3TJQ_A	6NIJ_B	5WHZ_L
+sp|P04585|POL_HV1H2	sp|A0A075B6T6|TVAL2_HUMAN	58.7	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A0A0MRZ8|KVD11_HUMAN	58.7	1L6N_A	6BPC_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P02585|TNNC2_HUMAN	58.7	1L6N_A	2TN4_A	2MGU_M	5DOW_A
+sp|P23083|HV102_HUMAN	sp|P04585|POL_HV1H2	58.7	3U1S_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6T6|TVAL2_HUMAN	58.7	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0A0MRZ8|KVD11_HUMAN	58.7	1L6N_A	6BPC_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P02585|TNNC2_HUMAN	58.7	1L6N_A	2TN4_A	2MGU_M	5DOW_A
+sp|P04618|REV_HV1H2	sp|O43699|SIGL6_HUMAN	58.7	2X7L_R	5VKJ_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q02297|NRG1_HUMAN	58.7	2X7L_R	5E8D_A	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|Q15198|PGFRL_HUMAN	58.7	2X7L_R	4HJJ_L	2X7L_R	5I8O_L
+sp|Q13324|CRFR2_HUMAN	sp|P04578|ENV_HV1H2	58.7	6PB1_P	6PWU_E	6MEO_B	3J70_P
+sp|A0A087WSZ9|TVA30_HUMAN	sp|P04578|ENV_HV1H2	58.6	5WKF_I	6PWU_E	5VIY_H	4TVP_G
+sp|A0A0C4DH29|HV103_HUMAN	sp|P04585|POL_HV1H2	58.6	3U1S_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q6ZR62|RTL4_HUMAN	58.6	1L6N_A	6R23_B	6R24_C	6R24_C
+sp|P04591|GAG_HV1H2	sp|Q6ZR62|RTL4_HUMAN	58.6	1L6N_A	6R23_B	6R23_B	6R23_B
+sp|P04601|NEF_HV1H2	sp|Q96HU1|SGSM3_HUMAN	58.6	3TB8_A	4P17_B	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|Q504Y2|PKDCC_HUMAN	58.6	3MI9_C	6VC0_A	4OGR_D	4OR5_F
+sp|P04618|REV_HV1H2	sp|P14778|IL1R1_HUMAN	58.6	2X7L_R	4GAF_B	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q6PCB8|EMB_HUMAN	58.6	2X7L_R	6A69_B	2X7L_R	5I8O_L
+sp|O43829|ZBT14_HUMAN	sp|P69723|VIF_HV1H2	58.6	3ZMS_C	4N9F_b	6P59_Z	6P59_B
+sp|P04578|ENV_HV1H2	sp|A0A0B4J1U7|HV601_HUMAN	58.5	6PWU_E	5WTS_A	6NIJ_B	3U1S_H
+sp|A0A0B4J264|TV381_HUMAN	sp|P04578|ENV_HV1H2	58.5	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|A0A0B4J275|TVA17_HUMAN	sp|P04578|ENV_HV1H2	58.5	2J8U_L	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A075B6I6|LV150_HUMAN	58.5	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A075B6V5|TVA36_HUMAN	58.5	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P01767|HV353_HUMAN	58.5	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P0DTE1|HV383_HUMAN	sp|P04585|POL_HV1H2	58.5	6QNO_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q6NUK1|SCMC1_HUMAN	58.5	1L6N_A	2LCK_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6I6|LV150_HUMAN	58.5	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6V5|TVA36_HUMAN	58.5	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01767|HV353_HUMAN	58.5	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q6NUK1|SCMC1_HUMAN	58.5	1L6N_A	2LCK_A	2MGU_M	5DOW_A
+sp|Q9BY15|AGRE3_HUMAN	sp|P04578|ENV_HV1H2	58.5	6FJ3_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	tr|A0A075B7B6|A0A075B7B6_HUMAN	58.4	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	tr|A0A0B4J2B6|A0A0B4J2B6_HUMAN	58.4	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|P04601|NEF_HV1H2	sp|Q08AM6|VAC14_HUMAN	58.4	3TB8_A	5XAH_A	6OWT_N	6OWT_A
+sp|P04618|REV_HV1H2	sp|A0A0B4J1V2|HV226_HUMAN	58.4	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P0DP08|HVD82_HUMAN	58.4	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|Q99592|ZBT18_HUMAN	sp|P69723|VIF_HV1H2	58.4	2N26_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q66LE6|2ABD_HUMAN	58.4	1ESX_A	3DW8_E	5JK7_F	5JK7_E
+sp|O60242|AGRB3_HUMAN	sp|P04578|ENV_HV1H2	58.4	4DLO_B	6PWU_E	6MEO_B	3J70_P
+sp|A0JD32|TV382_HUMAN	sp|P04578|ENV_HV1H2	58.3	5YXU_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|Q9HCN6|GPVI_HUMAN	58.3	6PWU_E	2GI7_A	6NIJ_B	5WHZ_L
+sp|P04585|POL_HV1H2	sp|A0A075B6R2|HV404_HUMAN	58.3	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|Q6BAA4|FCRLB_HUMAN	sp|P04585|POL_HV1H2	58.3	3RJD_A	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH69|KV109_HUMAN	58.3	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01601|KVD16_HUMAN	58.3	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|O94955|RHBT3_HUMAN	sp|P69723|VIF_HV1H2	58.3	4U2M_D	4N9F_b	6P59_Z	6P59_B
+sp|Q6BAA4|FCRLB_HUMAN	sp|P04591|GAG_HV1H2	58.3	3RJD_A	1L6N_A	5T70_G	3GV2_A
+sp|Q6PCB8|EMB_HUMAN	sp|P04601|NEF_HV1H2	58.3	6A69_B	3TB8_A	5XOV_H	3TB8_A
+sp|P33681|CD80_HUMAN	sp|P04578|ENV_HV1H2	58.2	1I8L_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|P01699|LV144_HUMAN	58.2	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P01700|LV147_HUMAN	58.2	1L6N_A	6HD8_A	2XT1_A	6FPV_A
+sp|P01763|HV348_HUMAN	sp|P04585|POL_HV1H2	58.2	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	tr|A0A0C4DH90|A0A0C4DH90_HUMAN	58.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01699|LV144_HUMAN	58.2	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01700|LV147_HUMAN	58.2	1L6N_A	6HD8_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0C4DH90|A0A0C4DH90_HUMAN	58.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04618|REV_HV1H2	sp|A0A0C4DH41|HV461_HUMAN	58.2	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q9NSI5|IGSF5_HUMAN	58.2	2X7L_R	4F9L_A	5DHX_C	6CVK_A
+sp|Q8NCN2|ZBT34_HUMAN	sp|P69723|VIF_HV1H2	58.2	5UND_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q9NZS9|BFAR_HUMAN	58.2	1ESX_A	2C2L_B	5AJA_B	5AJA_C
+sp|P69726|VPR_HV1H2	sp|Q9ULJ8|NEB1_HUMAN	58.2	1ESX_A	3EGG_C	5AJA_B	5AJA_C
+sp|O95872|GPAN1_HUMAN	sp|P04578|ENV_HV1H2	58.2	6SA8_A	6PWU_E	6QFK_A	6B0N_G
+sp|A0A075B6R9|KVD24_HUMAN	sp|P04578|ENV_HV1H2	58.1	6BPC_F	6PWU_E	4YDV_A	6PWU_E
+sp|A0A0B4J272|TVA24_HUMAN	sp|P04578|ENV_HV1H2	58.1	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04591|GAG_HV1H2	sp|A0A0B4J241|TVAM1_HUMAN	58.1	1L6N_A	5TEZ_I	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6S4|KVD17_HUMAN	58.1	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O60504|VINEX_HUMAN	58.1	3TB8_A	1GRI_B	4U5W_C	4U5W_B
+sp|Q15116|PDCD1_HUMAN	sp|P04578|ENV_HV1H2	58.0	5WT9_G	6PWU_E	5VIY_H	4TVP_G
+sp|Q8N423|LIRB2_HUMAN	sp|P04578|ENV_HV1H2	58.0	6AED_A	6PWU_E	6MET_A	3J70_P
+sp|P04591|GAG_HV1H2	sp|A0A087WSY4|HV432_HUMAN	58.0	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P0DP08|HVD82_HUMAN	58.0	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|P98171|RHG04_HUMAN	58.0	3TB8_A	5I6R_A	4U5W_C	4U5W_B
+sp|Q5TC79|ZBT37_HUMAN	sp|P69723|VIF_HV1H2	58.0	3W5K_B	4N9F_b	6P59_Z	6P59_B
+sp|B6A8C7|TARM1_HUMAN	sp|P04578|ENV_HV1H2	57.9	2OTP_B	6PWU_E	6UDK_H	4TVP_G
+sp|O95297|MPZL1_HUMAN	sp|P04578|ENV_HV1H2	57.9	5OR7_C	6PWU_E	6NNF_U	6B0N_G
+sp|P03979|TRGV3_HUMAN	sp|P04578|ENV_HV1H2	57.9	5GIS_H	6PWU_E	6UDK_H	4TVP_G
+sp|P0CG04|IGLC1_HUMAN	sp|P04578|ENV_HV1H2	57.9	6U07_A	6PWU_E	6BF4_B	3NGB_D
+sp|P04578|ENV_HV1H2	sp|Q96L96|ALPK3_HUMAN	57.9	6PWU_E	1IA9_B	6UM5_E	6CBP_A
+sp|A0A0C4DH32|HV320_HUMAN	sp|P04585|POL_HV1H2	57.9	6QNO_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|P06331|HV434_HUMAN	57.9	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|O00481|BT3A1_HUMAN	57.9	3TB8_A	5HM7_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O43150|ASAP2_HUMAN	57.9	3TB8_A	3JUE_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q14511|CASL_HUMAN	57.9	3TB8_A	3T6G_B	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A075B6S2|KVD29_HUMAN	57.9	2X7L_R	6BPC_F	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|Q8IZF2|AGRF5_HUMAN	57.9	2X7L_R	4DLO_A	5DHX_C	6CVK_A
+sp|P04578|ENV_HV1H2	sp|A0A0B4J237|TVA82_HUMAN	57.8	6PWU_E	6FUN_A	6NIJ_B	3U1S_H
+sp|P04591|GAG_HV1H2	sp|A0A0B4J1V2|HV226_HUMAN	57.8	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O60487|MPZL2_HUMAN	57.8	1L6N_A	6J8H_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P0DTE1|HV383_HUMAN	57.8	1L6N_A	6QNO_H	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J271|TVAL3_HUMAN	57.8	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O00203|AP3B1_HUMAN	57.8	3TB8_A	6OWT_A	6CRI_Z	6CRI_R
+sp|P04601|NEF_HV1H2	sp|O60861|GAS7_HUMAN	57.8	3TB8_A	6IKO_A	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|Q9BVS4|RIOK2_HUMAN	57.8	3MI9_C	6G18_v	3MI9_C	3MI9_A
+sp|P04618|REV_HV1H2	sp|P01619|KV320_HUMAN	57.8	2X7L_R	1YJD_C	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|P04433|KV311_HUMAN	57.8	2X7L_R	6BPC_C	2X7L_R	5I8O_L
+sp|Q8TEU8|WFKN2_HUMAN	sp|P04585|POL_HV1H2	57.8	6NAN_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8TEU8|WFKN2_HUMAN	sp|P04591|GAG_HV1H2	57.8	6NAN_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9UHW5|GPN3_HUMAN	sp|P04601|NEF_HV1H2	57.8	5HCI_E	3TB8_A	6CRI_L	6CRI_Z
+sp|A0A1B0GXF2|TVB72_HUMAN	sp|P04578|ENV_HV1H2	57.7	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|Q6UWV2|MPZL3_HUMAN	57.7	6PWU_E	5XSY_B	2NY2_A	5VSI_H
+sp|P04618|REV_HV1H2	sp|P0DP06|HVD34_HUMAN	57.7	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q8IZJ1|UNC5B_HUMAN	57.7	2X7L_R	3G5B_A	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	tr|A0A0J9YWU9|A0A0J9YWU9_HUMAN	57.7	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P69723|VIF_HV1H2	sp|O15060|ZBT39_HUMAN	57.7	4N9F_b	5V3J_F	4N9F_b	4AJY_C
+sp|O95199|RCBT2_HUMAN	sp|P69723|VIF_HV1H2	57.7	4JHN_D	4N9F_b	6P59_Z	6P59_B
+sp|Q14145|KEAP1_HUMAN	sp|P69723|VIF_HV1H2	57.7	4XMB_A	4N9F_b	6P59_Z	6P59_B
+sp|Q14526|HIC1_HUMAN	sp|P69723|VIF_HV1H2	57.7	3ZMS_C	4N9F_b	6P59_Z	6P59_B
+sp|P04585|POL_HV1H2	sp|P05937|CALB1_HUMAN	57.6	1L6N_A	6FIE_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P09326|CD48_HUMAN	57.6	1L6N_A	2DRU_A	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|P33681|CD80_HUMAN	57.6	1L6N_A	1I8L_A	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|P05937|CALB1_HUMAN	57.6	1L6N_A	6FIE_B	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|P53618|COPB_HUMAN	57.6	3TB8_A	5A1V_G	6OWT_N	6QH5_B
+sp|P04618|REV_HV1H2	sp|A0A0A0MRZ8|KVD11_HUMAN	57.6	2X7L_R	6BPC_C	5DHX_C	6CVK_A
+sp|P69726|VPR_HV1H2	sp|Q9HCU5|PREB_HUMAN	57.6	1ESX_A	5TF2_A	5JK7_F	5JK7_E
+sp|Q5VV63|ATRN1_HUMAN	sp|P04578|ENV_HV1H2	57.6	5A10_A	6PWU_E	1QO3_C	3J70_P
+sp|P04585|POL_HV1H2	sp|A0A075B6S2|KVD29_HUMAN	57.5	1L6N_A	6BPC_F	1R0A_A	2XKN_C
+sp|A0A0B4J1V1|HV321_HUMAN	sp|P04585|POL_HV1H2	57.5	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q9NP86|CABP5_HUMAN	57.5	1L6N_A	3OX5_F	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P01762|HV311_HUMAN	57.5	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q9NP86|CABP5_HUMAN	57.5	1L6N_A	3OX5_F	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|O43281|EFS_HUMAN	57.5	3TB8_A	3T6G_B	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A075B6S9|KV137_HUMAN	57.5	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|A0A0C4DH55|KVD07_HUMAN	57.5	2X7L_R	1YJD_C	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|P0DSN7|KVD37_HUMAN	57.5	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|P69726|VPR_HV1H2	sp|Q9BTV6|DPH7_HUMAN	57.5	1ESX_A	4PSW_B	5JK7_F	5JK7_E
+sp|A0A0A6YYC5|TVA14_HUMAN	sp|P04578|ENV_HV1H2	57.4	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A0J9YXQ4|PMA6E_HUMAN	57.4	1L6N_A	6S7X_B	6R24_C	6R24_C
+sp|P04585|POL_HV1H2	sp|P0DTU3|TRAR2_HUMAN	57.4	1L6N_A	5YXU_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P63316|TNNC1_HUMAN	57.4	1L6N_A	4Y99_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A0A0J9YXQ4|PMA6E_HUMAN	57.4	1L6N_A	6S7X_B	6R23_B	6R23_B
+sp|P04591|GAG_HV1H2	sp|P01824|HV439_HUMAN	57.4	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P0DTU3|TRAR2_HUMAN	57.4	1L6N_A	5YXU_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P63316|TNNC1_HUMAN	57.4	1L6N_A	4Y99_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6S2|KVD29_HUMAN	57.4	3TB8_A	6BPC_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O95944|NCTR2_HUMAN	57.4	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|Q8TEU8|WFKN2_HUMAN	57.4	2X7L_R	6NAN_A	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	tr|A0A0C4DH90|A0A0C4DH90_HUMAN	57.4	2X7L_R	1YJD_C	2X7L_R	5I8O_L
+tr|A0A075B7E8|A0A075B7E8_HUMAN	sp|P04585|POL_HV1H2	57.3	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH43|HV70D_HUMAN	57.3	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6S9|KV137_HUMAN	57.3	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P0DSN7|KVD37_HUMAN	57.3	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04578|ENV_HV1H2	sp|A6NLU5|VTM2B_HUMAN	57.2	6PWU_E	4Q6I_J	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|A0A0B4J245|TVAL1_HUMAN	57.2	1L6N_A	2CDE_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J245|TVAL1_HUMAN	57.2	1L6N_A	2CDE_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|O75044|SRGP2_HUMAN	57.2	3TB8_A	5I6R_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A087WSY4|HV432_HUMAN	57.2	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P15814|IGLL1_HUMAN	57.2	2X7L_R	6FIB_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q6UXZ4|UNC5D_HUMAN	57.2	2X7L_R	3G5B_A	5DHX_C	6CVK_A
+sp|P69723|VIF_HV1H2	sp|Q86XD8|ZFAN4_HUMAN	57.2	4N9F_b	1WFF_A	4N9F_b	2MA9_B
+sp|O95256|I18RA_HUMAN	sp|P04601|NEF_HV1H2	57.2	3WO4_C	3TB8_A	5XOV_H	3TB8_A
+sp|Q8N6C8|LIRA3_HUMAN	sp|P04585|POL_HV1H2	57.2	6AEE_G	1L6N_A	5T70_G	3GV2_A
+sp|Q8N6C8|LIRA3_HUMAN	sp|P04591|GAG_HV1H2	57.2	6AEE_G	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|A0A087WSX0|LV545_HUMAN	57.1	1L6N_A	6HD8_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q12798|CETN1_HUMAN	57.1	1L6N_A	2GGM_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q6UXG8|BTNL9_HUMAN	57.1	1L6N_A	5HM7_A	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|A0A087WSX0|LV545_HUMAN	57.1	1L6N_A	6HD8_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q12798|CETN1_HUMAN	57.1	1L6N_A	2GGM_B	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|Q6UXG3|CLM9_HUMAN	57.1	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04578|ENV_HV1H2	sp|Q02297|NRG1_HUMAN	57.0	6PWU_E	5E8D_A	6FY1_G	4HJJ_H
+sp|A0A075B6Q5|HV364_HUMAN	sp|P04585|POL_HV1H2	57.0	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P01782|HV309_HUMAN	sp|P04585|POL_HV1H2	57.0	6QNO_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04601|NEF_HV1H2	sp|Q14185|DOCK1_HUMAN	57.0	3TB8_A	3B13_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q8TEJ3|SH3R3_HUMAN	57.0	3TB8_A	6UY8_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q96PL5|ERMAP_HUMAN	57.0	3TB8_A	5HM7_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	tr|A0A075B7F1|A0A075B7F1_HUMAN	57.0	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|B2RXF5|ZBT42_HUMAN	sp|P69723|VIF_HV1H2	57.0	3W5K_B	4N9F_b	6P59_Z	6P59_B
+sp|P04578|ENV_HV1H2	sp|Q496F6|CLM2_HUMAN	56.9	6PWU_E	5OR7_C	6PWU_E	6ULC_L
+sp|Q96A28|SLAF9_HUMAN	sp|P04578|ENV_HV1H2	56.9	3ALW_A	6PWU_E	6UDK_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A0C4DH55|KVD07_HUMAN	56.9	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A2NJV5|KV229_HUMAN	56.9	1L6N_A	6BPB_B	1R0A_A	2XKN_C
+sp|P04585|POL_HV1H2	sp|P01709|LV208_HUMAN	56.9	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q7Z7D3|VTCN1_HUMAN	56.9	1L6N_A	4F8T_A	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH55|KVD07_HUMAN	56.9	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01709|LV208_HUMAN	56.9	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|O43295|SRGP3_HUMAN	56.9	3TB8_A	5I6R_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|P25189|MYP0_HUMAN	56.9	3TB8_A	6AGF_B	4ORZ_B	5MZV_D
+sp|P69723|VIF_HV1H2	sp|Q15459|SF3A1_HUMAN	56.9	4N9F_b	6AHD_u	4N9F_b	2MA9_B
+sp|Q86T24|KAISO_HUMAN	sp|P69723|VIF_HV1H2	56.9	5VMY_A	4N9F_b	6P59_Z	6P59_B
+sp|Q9BX70|BTBD2_HUMAN	sp|P69723|VIF_HV1H2	56.9	3NO8_B	4N9F_b	6P59_Z	6P59_B
+sp|P61011|SRP54_HUMAN	sp|P04601|NEF_HV1H2	56.9	6FRK_x	3TB8_A	6CRI_L	6CRI_Z
+sp|Q0ZGT2|NEXN_HUMAN	sp|P04585|POL_HV1H2	56.9	6SDB_C	1L6N_A	5T70_G	3GV2_A
+sp|Q0ZGT2|NEXN_HUMAN	sp|P04591|GAG_HV1H2	56.9	6SDB_C	1L6N_A	5T70_G	3GV2_A
+sp|Q9GZP7|VN1R1_HUMAN	sp|P04578|ENV_HV1H2	56.9	3ODU_B	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|P79483|DRB3_HUMAN	56.8	6PWU_E	6PY2_B	2CMR_A	5X08_H
+sp|P04585|POL_HV1H2	sp|Q6ZMC9|SIG15_HUMAN	56.8	1L6N_A	2CDE_C	1R0A_A	1HYS_D
+sp|P04601|NEF_HV1H2	sp|A0A0A0MRZ9|LV552_HUMAN	56.8	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|Q9H5J0|ZBTB3_HUMAN	sp|P69723|VIF_HV1H2	56.8	6GUW_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q9BYL1|SAM10_HUMAN	56.8	1ESX_A	1UQV_A	4Z8L_B	4Z8L_F
+sp|Q8IZJ1|UNC5B_HUMAN	sp|P04601|NEF_HV1H2	56.8	3G5B_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|A0A1B0GX68|TVB2_HUMAN	56.7	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P01732|CD8A_HUMAN	sp|P04578|ENV_HV1H2	56.7	5OR7_C	6PWU_E	3DMM_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q96PL5|ERMAP_HUMAN	56.7	6PWU_E	5HM7_A	3U2S_C	5N2K_F
+sp|P04585|POL_HV1H2	sp|A0A075B6I1|LV460_HUMAN	56.7	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q9NSI5|IGSF5_HUMAN	56.7	1L6N_A	4F9L_A	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|A0A075B6I1|LV460_HUMAN	56.7	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6J1|LV537_HUMAN	56.7	3TB8_A	6HD8_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A075B6K5|LV39_HUMAN	56.7	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O94875|SRBS2_HUMAN	56.7	3TB8_A	1GRI_B	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q6P9H5|GIMA6_HUMAN	56.7	3TB8_A	3LXX_A	6CRI_Z	6DFF_C
+sp|P04618|REV_HV1H2	sp|A0A0B4J241|TVAM1_HUMAN	56.7	2X7L_R	5TEZ_I	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|A2NJV5|KV229_HUMAN	56.7	2X7L_R	6BPB_B	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|Q9BRK3|MXRA8_HUMAN	56.7	2X7L_R	6NK3_A	5DHX_C	6CVK_A
+sp|P69723|VIF_HV1H2	sp|Q9UHD9|UBQL2_HUMAN	56.7	4N9F_b	1J8C_A	4N9F_b	2MA9_B
+sp|P0DOY3|IGLC3_HUMAN	sp|P04578|ENV_HV1H2	56.6	6U07_A	6PWU_E	6BF4_B	3NGB_D
+sp|Q16270|IBP7_HUMAN	sp|P04578|ENV_HV1H2	56.6	3TJQ_A	6PWU_E	6MET_A	3J70_P
+sp|P04585|POL_HV1H2	sp|A0A0B4J279|TVA21_HUMAN	56.6	1L6N_A	2BNU_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q8N7U6|EFHB_HUMAN	56.6	1L6N_A	6U42_7	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J279|TVA21_HUMAN	56.6	1L6N_A	2BNU_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8N7U6|EFHB_HUMAN	56.6	1L6N_A	6U42_7	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|O14981|BTAF1_HUMAN	56.6	3TB8_A	6G7E_B	4NEE_K	2JKT_A
+sp|P04601|NEF_HV1H2	sp|O43307|ARHG9_HUMAN	56.6	3TB8_A	4MT7_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q8ND71|GIMA8_HUMAN	56.6	3TB8_A	3LXX_A	6CRI_Z	6DFF_C
+sp|Q86SM5|MRGRG_HUMAN	sp|P04578|ENV_HV1H2	56.6	6IIV_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|A0A075B6P5|KV228_HUMAN	56.5	1L6N_A	6BPB_B	1R0A_A	2XKN_C
+sp|P04585|POL_HV1H2	sp|P01615|KVD28_HUMAN	56.5	1L6N_A	6BPC_F	1R0A_A	2XKN_C
+sp|P04601|NEF_HV1H2	sp|Q63HR2|TNS2_HUMAN	56.5	3TB8_A	3N0A_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q68CZ2|TENS3_HUMAN	56.5	3TB8_A	3N0A_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9NQ75|CASS4_HUMAN	56.5	3TB8_A	2L81_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9P0V3|SH3B4_HUMAN	56.5	3TB8_A	3G5B_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A0B4J1X8|HV343_HUMAN	56.5	2X7L_R	6QNO_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P59901|LIRA4_HUMAN	56.5	2X7L_R	6AED_A	2X7L_R	5I8O_L
+sp|A0JD36|TRDV2_HUMAN	sp|P04578|ENV_HV1H2	56.4	5WB1_A	6PWU_E	6UDK_H	4TVP_G
+sp|P01780|HV307_HUMAN	sp|P04585|POL_HV1H2	56.4	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q6ZST2|COLDT_HUMAN	56.4	1L6N_A	5UDZ_B	5A9E_I	5A9E_I
+sp|P04591|GAG_HV1H2	sp|Q6ZST2|COLDT_HUMAN	56.4	1L6N_A	5UDZ_B	5A9E_I	5A9E_I
+sp|P04601|NEF_HV1H2	sp|A0A075B6I3|LVK55_HUMAN	56.4	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0B4J241|TVAM1_HUMAN	56.4	3TB8_A	5TEZ_I	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O14559|RHG33_HUMAN	56.4	3TB8_A	5M6U_B	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|O43747|AP1G1_HUMAN	56.4	3TB8_A	6OWT_A	6OWT_N	6QH5_B
+sp|P69726|VPR_HV1H2	sp|Q9UN30|SCML1_HUMAN	56.4	1ESX_A	1PK1_B	4Z8L_B	4Z8L_F
+sp|P04578|ENV_HV1H2	sp|O75023|LIRB5_HUMAN	56.3	6PWU_E	6AED_A	2NY2_A	4HJJ_L
+sp|P04578|ENV_HV1H2	sp|P32942|ICAM3_HUMAN	56.3	6PWU_E	1Z7Z_I	6NIJ_B	5WHZ_L
+sp|P04578|ENV_HV1H2	sp|P60508|SYCY2_HUMAN	56.3	6PWU_E	4JF3_B	6PWU_E	6PWU_E
+sp|P63121|VP113_HUMAN	sp|P04585|POL_HV1H2	56.3	3SQF_B	1L6N_A	3SQF_B	1NSO_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6T6|TVAL2_HUMAN	56.3	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A087WSY6|KVD15_HUMAN	56.3	2X7L_R	6BPB_B	5DHX_C	6CVK_A
+sp|P69723|VIF_HV1H2	sp|P46379|BAG6_HUMAN	56.3	4N9F_b	4X86_B	4N9F_b	2MA9_B
+sp|P41217|OX2G_HUMAN	sp|P04591|GAG_HV1H2	56.3	4BFI_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q6ZN44|UNC5A_HUMAN	sp|P04601|NEF_HV1H2	56.3	3G5B_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|P13762|DRB4_HUMAN	56.2	6PWU_E	6PY2_B	2CMR_A	5X08_H
+sp|P04578|ENV_HV1H2	sp|Q9NY72|SCN3B_HUMAN	56.2	6PWU_E	6AGF_B	6NIJ_B	3U1S_H
+tr|A0A0A0MS01|A0A0A0MS01_HUMAN	sp|P04578|ENV_HV1H2	56.2	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A075B6K0|LV316_HUMAN	56.2	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6K0|LV316_HUMAN	56.2	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B7F1|A0A075B7F1_HUMAN	56.2	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q8TE68|ES8L1_HUMAN	56.2	3TB8_A	2CY5_A	4U5W_C	4U5W_B
+sp|Q9UHX3|AGRE2_HUMAN	sp|P04578|ENV_HV1H2	56.2	6LML_R	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q99603|TRGV9_HUMAN	56.1	6PWU_E	6QD6_G	2CMR_A	5X08_H
+sp|A0A0A0MS14|HV145_HUMAN	sp|P04585|POL_HV1H2	56.1	3U1S_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|A0A0C4DH24|KV621_HUMAN	56.1	1L6N_A	1YJD_C	1R0A_A	2XKN_C
+sp|P04601|NEF_HV1H2	sp|A0A0J9YX35|HV64D_HUMAN	56.1	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O75563|SKAP2_HUMAN	56.1	3TB8_A	1U5E_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9P2A4|ABI3_HUMAN	56.1	3TB8_A	4N78_F	4U5W_C	4U5W_B
+sp|Q9UHP6|RSP14_HUMAN	sp|P04601|NEF_HV1H2	56.1	5KC2_B	3TB8_A	4NEE_B	3TB8_A
+sp|P04618|REV_HV1H2	sp|P80748|LV321_HUMAN	56.1	2X7L_R	6ULC_L	5DHX_C	6CVK_A
+sp|P04578|ENV_HV1H2	sp|A0A075B6U4|TVA7_HUMAN	56.0	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P0DOY2|IGLC2_HUMAN	sp|P04578|ENV_HV1H2	56.0	6U07_A	6PWU_E	6BF4_B	3NGB_D
+sp|P04578|ENV_HV1H2	sp|Q8TAG5|VTM2A_HUMAN	56.0	6PWU_E	6BPC_C	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|A0A075B6K4|LV310_HUMAN	56.0	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q9NY72|SCN3B_HUMAN	56.0	1L6N_A	6AGF_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6K4|LV310_HUMAN	56.0	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01814|HV270_HUMAN	56.0	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q9NY72|SCN3B_HUMAN	56.0	1L6N_A	6AGF_B	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A2NJV5|KV229_HUMAN	56.0	3TB8_A	6BPB_B	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P04433|KV311_HUMAN	56.0	3TB8_A	6BPC_C	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q96JN8|NEUL4_HUMAN	56.0	3MI9_C	2E63_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A0C4DH24|KV621_HUMAN	56.0	2X7L_R	1YJD_C	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|P01824|HV439_HUMAN	56.0	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|O00203|AP3B1_HUMAN	56.0	2N28_A	6OWT_A	4P6Z_V	4P6Z_G
+sp|Q9BYZ6|RHBT2_HUMAN	sp|P69723|VIF_HV1H2	56.0	5U4V_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q5K651|SAMD9_HUMAN	56.0	1ESX_A	1PK1_B	5AJA_B	5AJA_C
+sp|P04578|ENV_HV1H2	sp|A0A0B4J277|TVA22_HUMAN	55.9	6PWU_E	4MNQ_D	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|A0A0B4J240|TVA10_HUMAN	55.9	1L6N_A	2CDE_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J240|TVA10_HUMAN	55.9	1L6N_A	2CDE_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01763|HV348_HUMAN	55.9	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6H7|KV37_HUMAN	55.9	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P55345|ANM2_HUMAN	55.9	3TB8_A	5JMQ_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q7Z6B7|SRGP1_HUMAN	55.9	3TB8_A	5I6R_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q8WV28|BLNK_HUMAN	55.9	3TB8_A	2EO6_A	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|O14782|KIF3C_HUMAN	55.9	3MI9_C	5MM7_K	3MI9_C	2PK2_B
+sp|Q9NVR0|KLH11_HUMAN	sp|P69723|VIF_HV1H2	55.9	3I3N_B	4N9F_b	6P59_Z	6P59_B
+sp|A0A0B4J1U4|TRGV5_HUMAN	sp|P04578|ENV_HV1H2	55.8	5GIS_H	6PWU_E	6UDK_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|Q8ND90|PNMA1_HUMAN	55.8	1L6N_A	6TAS_D	6R24_C	6R24_C
+sp|P04591|GAG_HV1H2	sp|Q8ND90|PNMA1_HUMAN	55.8	1L6N_A	6TAS_D	6R23_B	6R23_B
+sp|P04601|NEF_HV1H2	sp|A0A0A0MRZ8|KVD11_HUMAN	55.8	3TB8_A	6BPC_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q13367|AP3B2_HUMAN	55.8	3TB8_A	6OWT_A	6CRI_Z	6CRI_R
+sp|P04618|REV_HV1H2	sp|A0A075B6P5|KV228_HUMAN	55.8	2X7L_R	6BPB_B	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|P01615|KVD28_HUMAN	55.8	2X7L_R	6BPC_F	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|P0DTE1|HV383_HUMAN	55.8	2X7L_R	6QNO_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q96NZ8|WFKN1_HUMAN	55.8	2X7L_R	6NAN_A	2X7L_R	5I8O_L
+sp|P69723|VIF_HV1H2	sp|O60260|PRKN_HUMAN	55.8	4N9F_b	4I1F_A	4N9F_b	2MA9_B
+sp|P69723|VIF_HV1H2	sp|Q9P2D0|IBTK_HUMAN	55.8	4N9F_b	4U2N_B	4N9F_b	4AJY_C
+sp|P69726|VPR_HV1H2	sp|Q9UQR0|SCML2_HUMAN	55.8	1ESX_A	2BIV_B	4Z8L_B	4Z8L_F
+sp|P04578|ENV_HV1H2	sp|A0A0B4J274|TVA20_HUMAN	55.7	6PWU_E	2CDE_C	6NIJ_B	5WHZ_L
+sp|O95944|NCTR2_HUMAN	sp|P04578|ENV_HV1H2	55.7	5OR7_C	6PWU_E	4YDV_A	6PWU_E
+sp|P04585|POL_HV1H2	sp|Q496F6|CLM2_HUMAN	55.7	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q96BY2|MOAP1_HUMAN	55.7	1L6N_A	6TAQ_A	6R24_C	6R24_C
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH26|KVD41_HUMAN	55.7	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01764|HV323_HUMAN	55.7	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q496F6|CLM2_HUMAN	55.7	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q96BY2|MOAP1_HUMAN	55.7	1L6N_A	6TAQ_A	6R23_B	6R23_B
+sp|P04601|NEF_HV1H2	sp|A0A075B6P5|KV228_HUMAN	55.7	3TB8_A	6BPB_B	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O60939|SCN2B_HUMAN	55.7	3TB8_A	6J8H_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01615|KVD28_HUMAN	55.7	3TB8_A	6BPC_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	tr|S4R3C0|S4R3C0_HUMAN	55.7	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|Q6PI73|LIRA6_HUMAN	55.7	2X7L_R	6AED_A	5DHX_C	6CVK_A
+sp|P69723|VIF_HV1H2	sp|O43298|ZBT43_HUMAN	55.7	4N9F_b	2CSH_A	4N9F_b	4AJY_C
+sp|Q8N653|LZTR1_HUMAN	sp|P69723|VIF_HV1H2	55.7	6DO4_A	4N9F_b	6P59_Z	6P59_B
+sp|A0A0B4J249|TVA5_HUMAN	sp|P04578|ENV_HV1H2	55.6	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|A0JD37|TRDV3_HUMAN	sp|P04578|ENV_HV1H2	55.6	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|P01619|KV320_HUMAN	55.6	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01619|KV320_HUMAN	55.6	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A087WW49|A0A087WW49_HUMAN	55.6	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|S4R3C0|S4R3C0_HUMAN	55.6	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|O95297|MPZL1_HUMAN	55.6	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q96N96|SPT13_HUMAN	55.6	3TB8_A	4MT7_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9NZQ3|SPN90_HUMAN	55.6	3TB8_A	6DEE_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A0B4J1Z2|KVD43_HUMAN	55.6	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|B9A064|IGLL5_HUMAN	55.6	2X7L_R	6FIB_C	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|Q8IWG1|WDR63_HUMAN	55.6	1ESX_A	6RLB_C	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q8WUA4|TF3C2_HUMAN	55.6	1ESX_A	2J04_B	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|A0A075B6V5|TVA36_HUMAN	55.5	6PWU_E	1YJD_C	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|A0A087WW87|KV240_HUMAN	55.5	1L6N_A	6BPC_F	1R0A_A	2XKN_C
+sp|P04585|POL_HV1H2	sp|A0A0C4DH34|HV428_HUMAN	55.5	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|O75339|CILP1_HUMAN	sp|P04585|POL_HV1H2	55.5	6TM6_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|P01614|KVD40_HUMAN	55.5	1L6N_A	6BPC_F	1R0A_A	2XKN_C
+sp|P04601|NEF_HV1H2	sp|P12018|VPREB_HUMAN	55.5	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P78410|BT3A2_HUMAN	55.5	3TB8_A	4F9L_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|P0DP04|HV43D_HUMAN	55.5	2X7L_R	6QNO_H	2X7L_R	5I8O_H
+sp|O15156|ZBT7B_HUMAN	sp|P69723|VIF_HV1H2	55.5	2M0D_A	4N9F_b	6P59_Z	6P59_B
+sp|O75339|CILP1_HUMAN	sp|P04591|GAG_HV1H2	55.5	6TM6_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|A0A087WSZ0|KVD08_HUMAN	55.4	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A0C4DH42|HV366_HUMAN	55.4	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|O76038|SEGN_HUMAN	55.4	1L6N_A	6JLH_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A0A087WSZ0|KVD08_HUMAN	55.4	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O76038|SEGN_HUMAN	55.4	1L6N_A	6JLH_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|P01721|LV657_HUMAN	55.4	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P0DTE1|HV383_HUMAN	55.4	3TB8_A	6QNO_H	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0C4DH25|KVD20_HUMAN	55.4	2X7L_R	1YJD_C	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q7Z7D3|VTCN1_HUMAN	55.4	2X7L_R	4F8T_A	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|O14981|BTAF1_HUMAN	55.4	2N28_A	6G7E_B	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q8TF05|PP4R1_HUMAN	55.4	2N28_A	5DFZ_B	4P6Z_V	4P6Z_B
+sp|P69723|VIF_HV1H2	sp|Q96T88|UHRF1_HUMAN	55.4	4N9F_b	2PB7_A	4N9F_b	2MA9_B
+sp|Q96K78|AGRG7_HUMAN	sp|P04578|ENV_HV1H2	55.4	6FJ3_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NVP4|DZAN1_HUMAN	sp|P04578|ENV_HV1H2	55.4	2HE0_B	6PWU_E	6QFK_A	6B0N_G
+sp|P04578|ENV_HV1H2	sp|A0A075B6N2|TVBT1_HUMAN	55.3	6PWU_E	2WBJ_D	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P01911|DRB_HUMAN	55.3	6PWU_E	6PY2_B	2CMR_A	5X08_H
+sp|P04578|ENV_HV1H2	sp|P01920|DQB1_HUMAN	55.3	6PWU_E	6PY2_B	2CMR_A	5X08_H
+sp|A0A0A0MS15|HV349_HUMAN	sp|P04585|POL_HV1H2	55.3	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|A0A0B4J1Z2|KVD43_HUMAN	55.3	1L6N_A	6BPA_F	1R0A_A	2XKN_C
+sp|P04585|POL_HV1H2	sp|Q9NQ35|NRIP3_HUMAN	55.3	1L6N_A	4RGH_A	3SLZ_A	3SLZ_A
+sp|P04585|POL_HV1H2	tr|A0A075B7F0|A0A075B7F0_HUMAN	55.3	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B7F0|A0A075B7F0_HUMAN	55.3	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0J9YY99|A0A0J9YY99_HUMAN	55.3	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J240|TVA10_HUMAN	55.3	3TB8_A	2CDE_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q96DR7|ARHGQ_HUMAN	55.3	3TB8_A	6L30_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9NR80|ARHG4_HUMAN	55.3	3TB8_A	2PZ1_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|P01767|HV353_HUMAN	55.3	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q8NHK3|KI2LB_HUMAN	55.3	2X7L_R	3WYR_B	2X7L_R	5I8O_H
+sp|A0A087WT01|TVA27_HUMAN	sp|P04578|ENV_HV1H2	55.2	3QDM_D	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|O75022|LIRB3_HUMAN	55.2	6PWU_E	6AED_A	2NY2_A	4HJJ_L
+sp|P04578|ENV_HV1H2	sp|P05538|DQB2_HUMAN	55.2	6PWU_E	6PY2_B	2CMR_A	5X08_H
+sp|P04585|POL_HV1H2	sp|A0A0B4J274|TVA20_HUMAN	55.2	1L6N_A	2CDE_C	2XT1_A	6FPV_A
+sp|A0A0J9YXX1|HV5X1_HUMAN	sp|P04585|POL_HV1H2	55.2	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J1Z2|KVD43_HUMAN	55.2	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J274|TVA20_HUMAN	55.2	1L6N_A	2CDE_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A6NI28|RHG42_HUMAN	55.2	3TB8_A	5C5B_A	4U5W_C	4U5W_B
+sp|Q9HC78|ZBT20_HUMAN	sp|P69723|VIF_HV1H2	55.2	5EGB_A	4N9F_b	6P59_Z	6P59_B
+sp|Q9HCN6|GPVI_HUMAN	sp|P04585|POL_HV1H2	55.1	2GI7_A	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J1X8|HV343_HUMAN	55.1	3TB8_A	6QNO_H	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0C4DH67|KV108_HUMAN	55.1	2X7L_R	6BPC_C	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|Q96ID5|IGS21_HUMAN	55.1	2X7L_R	3J8D_A	2X7L_R	5I8O_L
+sp|Q9HCN6|GPVI_HUMAN	sp|P04591|GAG_HV1H2	55.1	2GI7_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A5B0|TVB14_HUMAN	55.0	6PWU_E	1YJD_C	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|A0A075B6S6|KVD30_HUMAN	55.0	1L6N_A	6BPC_F	1R0A_A	2XKN_C
+sp|P04585|POL_HV1H2	sp|A0A087WSY6|KVD15_HUMAN	55.0	1L6N_A	6BPB_B	1R0A_A	2XKN_C
+sp|P04585|POL_HV1H2	sp|A0A0C4DH25|KVD20_HUMAN	55.0	1L6N_A	1YJD_C	1R0A_A	2XKN_C
+sp|P04585|POL_HV1H2	sp|P13796|PLSL_HUMAN	55.0	1L6N_A	1PXY_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P22676|CALB2_HUMAN	55.0	1L6N_A	6FIE_B	2MGU_M	5DOW_A
+sp|Q96I82|KAZD1_HUMAN	sp|P04585|POL_HV1H2	55.0	3TJQ_A	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|P13796|PLSL_HUMAN	55.0	1L6N_A	1PXY_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P22676|CALB2_HUMAN	55.0	1L6N_A	6FIE_B	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|P01762|HV311_HUMAN	55.0	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0B4J279|TVA21_HUMAN	55.0	2X7L_R	2BNU_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0C4DH43|HV70D_HUMAN	55.0	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01717|LV325_HUMAN	55.0	2X7L_R	6ULC_L	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|Q13367|AP3B2_HUMAN	55.0	2N28_A	6OWT_A	4P6Z_V	4P6Z_G
+sp|O75022|LIRB3_HUMAN	sp|P04585|POL_HV1H2	55.0	6AED_A	1L6N_A	5T70_G	3GV2_A
+sp|O75022|LIRB3_HUMAN	sp|P04591|GAG_HV1H2	55.0	6AED_A	1L6N_A	5T70_G	3GV2_A
+sp|Q96I82|KAZD1_HUMAN	sp|P04591|GAG_HV1H2	55.0	3TJQ_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9UM44|HHLA2_HUMAN	sp|P04591|GAG_HV1H2	55.0	3J8F_7	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A075B6R0|TRGV2_HUMAN	54.9	6PWU_E	6QNO_H	6NIJ_B	3U1S_H
+sp|A0A0B4J238|TVA12_HUMAN	sp|P04578|ENV_HV1H2	54.9	4G8E_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|Q8NHJ6|LIRB4_HUMAN	54.9	6PWU_E	3P2T_A	6PWU_E	6ULC_L
+sp|P04578|ENV_HV1H2	sp|Q8WX77|IBPL1_HUMAN	54.9	6PWU_E	3TJQ_A	6NIJ_B	5WHZ_L
+sp|P04578|ENV_HV1H2	sp|Q9H106|SIRPD_HUMAN	54.9	6PWU_E	1YJD_C	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|O60939|SCN2B_HUMAN	54.9	1L6N_A	6J8H_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P01766|HV313_HUMAN	54.9	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|Q9P2V4|LRIT1_HUMAN	sp|P04585|POL_HV1H2	54.9	3ZYJ_A	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6R2|HV404_HUMAN	54.9	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O60939|SCN2B_HUMAN	54.9	1L6N_A	6J8H_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01768|HV330_HUMAN	54.9	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01817|HV205_HUMAN	54.9	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P0DP03|HVC05_HUMAN	54.9	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6J9|LV218_HUMAN	54.9	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9BX66|SRBS1_HUMAN	54.9	3TB8_A	1GRI_B	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	tr|A0A0J9YY99|A0A0J9YY99_HUMAN	54.9	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A075B6S6|KVD30_HUMAN	54.9	2X7L_R	6BPC_F	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|A0A087WW87|KV240_HUMAN	54.9	2X7L_R	6BPC_F	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|A0A0C4DH42|HV366_HUMAN	54.9	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01614|KVD40_HUMAN	54.9	2X7L_R	6BPC_F	2X7L_R	5I8O_L
+sp|Q9HBE1|PATZ1_HUMAN	sp|P69723|VIF_HV1H2	54.9	5UND_A	4N9F_b	6P59_Z	6P59_B
+sp|Q7Z5H5|VN1R4_HUMAN	sp|P04578|ENV_HV1H2	54.9	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9P2V4|LRIT1_HUMAN	sp|P04591|GAG_HV1H2	54.9	3ZYJ_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|P06310|KV230_HUMAN	54.8	1L6N_A	6BPC_C	1R0A_A	2XKN_C
+sp|P04591|GAG_HV1H2	sp|A0A075B6Q5|HV364_HUMAN	54.8	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J1X5|HV374_HUMAN	54.8	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P0DP07|HV431_HUMAN	54.8	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|P01763|HV348_HUMAN	54.8	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P0DP04|HV43D_HUMAN	54.8	3TB8_A	6QNO_H	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|P55198|AF17_HUMAN	54.8	3MI9_C	5DAG_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|P01762|HV311_HUMAN	54.8	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P06310|KV230_HUMAN	54.8	2X7L_R	6BPC_C	5DHX_C	6CVK_A
+sp|P01880|IGHD_HUMAN	sp|P04591|GAG_HV1H2	54.8	1ZVO_C	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	tr|A0A0A0MS02|A0A0A0MS02_HUMAN	54.7	6PWU_E	6ULC_L	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|A0A075B6H9|LV469_HUMAN	54.7	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|A0A0B4J1V7|HV781_HUMAN	sp|P04585|POL_HV1H2	54.7	3U1S_H	1L6N_A	6ID4_C	1R0A_A
+sp|A0A0C4DH35|HV335_HUMAN	sp|P04585|POL_HV1H2	54.7	6QNO_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6H9|LV469_HUMAN	54.7	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A087WSY6|KVD15_HUMAN	54.7	1L6N_A	6BPB_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J1X8|HV343_HUMAN	54.7	1L6N_A	6QNO_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P0DP04|HV43D_HUMAN	54.7	1L6N_A	6QNO_H	2XT1_A	6FPV_A
+sp|A0A0K0K1B3|TVB30_HUMAN	sp|P04601|NEF_HV1H2	54.7	1G6R_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04601|NEF_HV1H2	sp|O14543|SOCS3_HUMAN	54.7	3TB8_A	2BBU_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q7Z6J0|SH3R1_HUMAN	54.7	3TB8_A	6UY8_A	4U5W_C	4U5W_B
+sp|Q96M32|KAD7_HUMAN	sp|P04601|NEF_HV1H2	54.7	2P5T_F	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|A0A0J9YX35|HV64D_HUMAN	54.7	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P09326|CD48_HUMAN	54.7	2X7L_R	2DRU_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P09564|CD7_HUMAN	54.7	2X7L_R	6J8H_C	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|Q9NPH3|IL1AP_HUMAN	54.7	2X7L_R	3O4O_B	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	tr|A0A087WW49|A0A087WW49_HUMAN	54.7	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|O95163|ELP1_HUMAN	54.7	1ESX_A	6QK7_A	5JK7_F	5JK7_E
+sp|Q8TD46|MO2R1_HUMAN	sp|P04578|ENV_HV1H2	54.6	4BFG_A	6PWU_E	6MET_A	3J70_P
+sp|P04585|POL_HV1H2	sp|A0A075B6K6|LV403_HUMAN	54.6	1L6N_A	4YO0_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A0A0MT36|KVD21_HUMAN	54.6	1L6N_A	6BPC_C	1R0A_A	2XKN_C
+sp|P04591|GAG_HV1H2	sp|A0A075B6K6|LV403_HUMAN	54.6	1L6N_A	4YO0_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B7B6|A0A075B7B6_HUMAN	54.6	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J1Z2|KVD43_HUMAN	54.6	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH26|KVD41_HUMAN	54.6	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|Q6UX41|BTNL8_HUMAN	sp|P04601|NEF_HV1H2	54.6	5HM7_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04601|NEF_HV1H2	sp|Q7Z4S9|SH2D6_HUMAN	54.6	3TB8_A	2EO6_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A1B0GX68|TVB2_HUMAN	54.6	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A8MTB9|CEA18_HUMAN	54.6	2X7L_R	5LFV_B	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|Q6NUP7|PP4R4_HUMAN	54.6	2N28_A	1B3U_A	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q9Y4F4|TGRM1_HUMAN	54.6	2N28_A	5DN7_A	4P6Z_V	4P6Z_B
+sp|Q9HCU0|CD248_HUMAN	sp|P04578|ENV_HV1H2	54.6	4C16_A	6PWU_E	1QO3_C	3J70_P
+sp|A0A0B4J235|TVAM2_HUMAN	sp|P04578|ENV_HV1H2	54.5	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04601|NEF_HV1H2	sp|Q496F6|CLM2_HUMAN	54.5	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q86WV1|SKAP1_HUMAN	54.5	3TB8_A	1U5E_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A075B6K5|LV39_HUMAN	54.5	2X7L_R	6ULC_L	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	tr|A0A0J9YY99|A0A0J9YY99_HUMAN	54.5	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|P53618|COPB_HUMAN	54.5	2N28_A	5A1V_G	4P6Z_V	4P6Z_G
+sp|P69726|VPR_HV1H2	sp|P35658|NU214_HUMAN	54.5	1ESX_A	2OIT_A	5JK7_F	5JK7_E
+sp|P09326|CD48_HUMAN	sp|P04601|NEF_HV1H2	54.5	2DRU_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q969P0|IGSF8_HUMAN	sp|P04585|POL_HV1H2	54.5	5WHZ_H	1L6N_A	5T70_G	3GV2_A
+sp|Q969P0|IGSF8_HUMAN	sp|P04591|GAG_HV1H2	54.5	5WHZ_H	1L6N_A	5T70_G	3GV2_A
+sp|Q9NPH3|IL1AP_HUMAN	sp|P04601|NEF_HV1H2	54.5	3O4O_B	3TB8_A	5XOV_H	3TB8_A
+sp|Q9UM44|HHLA2_HUMAN	sp|P04601|NEF_HV1H2	54.5	3J8F_7	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|A0A0B4J273|TVA34_HUMAN	54.4	6PWU_E	5WKH_I	6NIJ_B	5WHZ_L
+sp|P04585|POL_HV1H2	sp|O95297|MPZL1_HUMAN	54.4	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q9UPN3|MACF1_HUMAN	54.4	1L6N_A	4Z6G_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH42|HV366_HUMAN	54.4	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O95297|MPZL1_HUMAN	54.4	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q9UPN3|MACF1_HUMAN	54.4	1L6N_A	4Z6G_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH68|KV224_HUMAN	54.4	3TB8_A	6BPC_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01764|HV323_HUMAN	54.4	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q6UWV2|MPZL3_HUMAN	54.4	3TB8_A	5XSY_B	4ORZ_B	5MZV_D
+sp|Q8WWP7|GIMA1_HUMAN	sp|P04601|NEF_HV1H2	54.4	3V70_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|A0A075B6R2|HV404_HUMAN	54.4	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0A0MT36|KVD21_HUMAN	54.4	2X7L_R	6BPC_C	5DHX_C	6CVK_A
+sp|Q9H0C5|BTBD1_HUMAN	sp|P69723|VIF_HV1H2	54.4	3NO8_B	4N9F_b	6P59_Z	6P59_B
+sp|B6A8C7|TARM1_HUMAN	sp|P04601|NEF_HV1H2	54.4	2OTP_B	3TB8_A	5XOV_H	3TB8_A
+sp|P01850|TRBC1_HUMAN	sp|P04585|POL_HV1H2	54.3	6U07_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|P06312|KV401_HUMAN	54.3	1L6N_A	1YJD_C	1R0A_A	2XKN_C
+sp|P04585|POL_HV1H2	sp|Q6PCB8|EMB_HUMAN	54.3	1L6N_A	6A69_B	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|P0DP02|HVC33_HUMAN	54.3	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|P06310|KV230_HUMAN	54.3	3TB8_A	6BPC_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9NY72|SCN3B_HUMAN	54.3	3TB8_A	6AGF_B	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|P05538|DQB2_HUMAN	54.3	2X7L_R	6PY2_B	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q92692|NECT2_HUMAN	54.3	2X7L_R	3J8F_7	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q99706|KI2L4_HUMAN	54.3	2X7L_R	3WYR_B	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	tr|A0A075B7F1|A0A075B7F1_HUMAN	54.3	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|Q3SXM0|DC4L1_HUMAN	54.3	1ESX_A	1SQ9_A	5JK7_F	5JK7_E
+sp|P01850|TRBC1_HUMAN	sp|P04591|GAG_HV1H2	54.3	6U07_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|Q9UGN4|CLM8_HUMAN	54.2	6PWU_E	5OR7_C	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|A0A1B0GX68|TVB2_HUMAN	54.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q6UXE8|BTNL3_HUMAN	54.2	1L6N_A	5HM7_A	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|A0A1B0GX68|TVB2_HUMAN	54.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6S6|KVD30_HUMAN	54.2	3TB8_A	6BPC_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01624|KV315_HUMAN	54.2	3TB8_A	6BPC_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9NP31|SH22A_HUMAN	54.2	3TB8_A	4FL2_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9UNA1|RHG26_HUMAN	54.2	3TB8_A	1F7C_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A1B0GXF2|TVB72_HUMAN	54.2	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01772|HV333_HUMAN	54.2	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01834|IGKC_HUMAN	54.2	2X7L_R	6FIB_C	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|P06312|KV401_HUMAN	54.2	2X7L_R	1YJD_C	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|P79483|DRB3_HUMAN	54.2	2X7L_R	6PY2_B	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q8N109|KI2LA_HUMAN	54.2	2X7L_R	3WYR_B	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A0G2JPC4|A0A0G2JPC4_HUMAN	54.2	2X7L_R	3WYR_B	2X7L_R	5I8O_H
+sp|Q9P2G3|KLH14_HUMAN	sp|P69723|VIF_HV1H2	54.2	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH28|TRGV4_HUMAN	54.1	6PWU_E	5I0Z_A	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P10966|CD8B_HUMAN	54.1	6PWU_E	6J8J_B	6NIJ_B	3U1S_H
+sp|P04591|GAG_HV1H2	sp|A0A075B6S2|KVD29_HUMAN	54.1	1L6N_A	6BPC_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH25|KVD20_HUMAN	54.1	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH33|HV124_HUMAN	54.1	1L6N_A	3U1S_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH34|HV428_HUMAN	54.1	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q96RU3|FNBP1_HUMAN	54.1	3TB8_A	2EFL_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|P01814|HV270_HUMAN	54.1	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04578|ENV_HV1H2	sp|A0A5B7|TVB29_HUMAN	54.0	6PWU_E	4R0L_D	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A0A5B7|TVB29_HUMAN	54.0	1L6N_A	4R0L_D	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P04211|LV743_HUMAN	54.0	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q8N567|ZCHC9_HUMAN	54.0	1L6N_A	2LLI_A	5A9E_I	5A9E_I
+sp|P04591|GAG_HV1H2	sp|A0A5B7|TVB29_HUMAN	54.0	1L6N_A	4R0L_D	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01766|HV313_HUMAN	54.0	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P04211|LV743_HUMAN	54.0	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8N567|ZCHC9_HUMAN	54.0	1L6N_A	2LLI_A	5A9E_I	5A9E_I
+sp|P04618|REV_HV1H2	sp|A0A087WSZ0|KVD08_HUMAN	54.0	2X7L_R	6BPA_F	5DHX_C	6CVK_A
+sp|P59536|T2R41_HUMAN	sp|P04578|ENV_HV1H2	54.0	3VW7_A	6PWU_E	6MEO_B	3J70_P
+sp|A0A075B6W5|TVA23_HUMAN	sp|P04578|ENV_HV1H2	53.9	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A0B4J1U3|LV136_HUMAN	53.9	1L6N_A	6HD8_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q8TD86|CALL6_HUMAN	53.9	1L6N_A	2TN4_A	2MGU_M	5DOW_A
+sp|Q96PL5|ERMAP_HUMAN	sp|P04585|POL_HV1H2	53.9	5HM7_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J1U3|LV136_HUMAN	53.9	1L6N_A	6HD8_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8TD86|CALL6_HUMAN	53.9	1L6N_A	2TN4_A	2MGU_M	5DOW_A
+sp|Q96PL5|ERMAP_HUMAN	sp|P04591|GAG_HV1H2	53.9	5HM7_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6K4|LV310_HUMAN	53.9	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q5HYK7|SH319_HUMAN	53.9	3TB8_A	1GRI_B	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9H628|RERGL_HUMAN	53.9	3TB8_A	5U4U_A	6CRI_Z	6DFF_C
+sp|P04618|REV_HV1H2	sp|P06315|KV502_HUMAN	53.9	2X7L_R	6BPC_F	5DHX_C	6CVK_A
+sp|P59538|T2R31_HUMAN	sp|P04578|ENV_HV1H2	53.9	5X33_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NPY3|C1QR1_HUMAN	sp|P04578|ENV_HV1H2	53.9	1YO8_A	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|A0A0A6YYJ7|TVA83_HUMAN	53.8	6PWU_E	1G6R_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|Q30154|DRB5_HUMAN	53.8	6PWU_E	6PY2_B	2CMR_A	5X08_H
+sp|P04585|POL_HV1H2	sp|A0JD36|TRDV2_HUMAN	53.8	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q02297|NRG1_HUMAN	53.8	1L6N_A	5E8D_A	1R0A_A	2XKN_C
+sp|P04585|POL_HV1H2	sp|Q8WVE0|EFMT1_HUMAN	53.8	1L6N_A	6UCA_B	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q96PM5|ZN363_HUMAN	53.8	1L6N_A	2K2C_A	6UCA_B	6UCA_D
+sp|Q99603|TRGV9_HUMAN	sp|P04585|POL_HV1H2	53.8	6QD6_G	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q9H5U6|ZCHC4_HUMAN	53.8	1L6N_A	6UCA_D	6UCA_B	6UCA_D
+sp|P04591|GAG_HV1H2	sp|A0JD36|TRDV2_HUMAN	53.8	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A2NJV5|KV229_HUMAN	53.8	1L6N_A	6BPB_B	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH24|KV621_HUMAN	53.8	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH55|KVD07_HUMAN	53.8	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01768|HV330_HUMAN	53.8	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P0DP03|HVC05_HUMAN	53.8	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P11912|CD79A_HUMAN	53.8	3TB8_A	6J8H_C	4ORZ_B	5MZV_D
+sp|Q14141|SEPT6_HUMAN	sp|P04601|NEF_HV1H2	53.8	2QAG_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	tr|A0A0C4DH90|A0A0C4DH90_HUMAN	53.8	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|B6A8C7|TARM1_HUMAN	53.8	2X7L_R	2OTP_B	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|P01763|HV348_HUMAN	53.8	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01877|IGHA2_HUMAN	53.8	2X7L_R	1R70_B	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01920|DQB1_HUMAN	53.8	2X7L_R	6PY2_B	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A0G2JN68|A0A0G2JN68_HUMAN	53.8	2X7L_R	3WYR_B	2X7L_R	5I8O_H
+sp|P04578|ENV_HV1H2	sp|A0A0B4J280|TVA40_HUMAN	53.7	6PWU_E	6RNN_H	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A0A0C4DH67|KV108_HUMAN	53.7	1L6N_A	6BPC_C	1R0A_A	2XKN_C
+sp|P04585|POL_HV1H2	sp|Q96GW7|PGCB_HUMAN	53.7	1L6N_A	2N40_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q96GW7|PGCB_HUMAN	53.7	1L6N_A	2N40_A	2XT1_A	6FPV_A
+sp|P04618|REV_HV1H2	sp|A0A5B0|TVB14_HUMAN	53.7	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01764|HV323_HUMAN	53.7	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P06331|HV434_HUMAN	53.7	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q9H7L2|KI3X1_HUMAN	53.7	2X7L_R	6AEE_G	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A075B7B6|A0A075B7B6_HUMAN	53.7	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04585|POL_HV1H2	sp|P01714|LV319_HUMAN	53.6	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0A0MS15|HV349_HUMAN	53.6	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01714|LV319_HUMAN	53.6	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q6UXE8|BTNL3_HUMAN	53.6	1L6N_A	5HM7_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH33|HV124_HUMAN	53.6	3TB8_A	3U1S_H	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O75122|CLAP2_HUMAN	53.6	3TB8_A	6COK_A	6OWT_N	6OWT_A
+sp|P04601|NEF_HV1H2	sp|P01825|HV459_HUMAN	53.6	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P0DP02|HVC33_HUMAN	53.6	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q6NUP7|PP4R4_HUMAN	53.6	3TB8_A	1B3U_A	6OWT_N	6QH5_B
+sp|P04601|NEF_HV1H2	sp|Q96RF0|SNX18_HUMAN	53.6	3TB8_A	3DYU_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9NTI5|PDS5B_HUMAN	53.6	3TB8_A	5F0O_A	6CRI_Z	6CRI_I
+sp|Q9ULJ3|ZBT21_HUMAN	sp|P69723|VIF_HV1H2	53.6	5V3J_E	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q8N6K7|SAMD3_HUMAN	53.6	1ESX_A	1PK1_B	4Z8L_B	4Z8L_F
+sp|Q8IUF1|CBWD2_HUMAN	sp|P04601|NEF_HV1H2	53.6	4IXN_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q92878|RAD50_HUMAN	sp|P04601|NEF_HV1H2	53.6	6WG3_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04585|POL_HV1H2	sp|A0A075B6U4|TVA7_HUMAN	53.5	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q03001|DYST_HUMAN	53.5	1L6N_A	4Z6G_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6U4|TVA7_HUMAN	53.5	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q03001|DYST_HUMAN	53.5	1L6N_A	4Z6G_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|Q9UPX8|SHAN2_HUMAN	53.5	3TB8_A	5IZU_A	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|Q8N7R7|CCYL1_HUMAN	53.5	3MI9_C	4KRD_B	3MI9_C	2PK2_B
+sp|P69723|VIF_HV1H2	sp|O14562|UBFD1_HUMAN	53.5	4N9F_b	3SHQ_A	4N9F_b	2MA9_B
+sp|O60241|AGRB2_HUMAN	sp|P04578|ENV_HV1H2	53.5	4DLO_B	6PWU_E	6MEO_B	3J70_P
+sp|Q9BXE9|VN1R3_HUMAN	sp|P04578|ENV_HV1H2	53.5	5TZR_A	6PWU_E	6MEO_B	3J70_P
+sp|P04591|GAG_HV1H2	sp|A0A075B6P5|KV228_HUMAN	53.4	1L6N_A	6BPB_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01615|KVD28_HUMAN	53.4	1L6N_A	6BPC_F	2XT1_A	6FPV_A
+sp|Q6UXG8|BTNL9_HUMAN	sp|P04591|GAG_HV1H2	53.4	5HM7_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q9NTK5|OLA1_HUMAN	sp|P04601|NEF_HV1H2	53.4	2OHF_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|O60487|MPZL2_HUMAN	53.4	2X7L_R	6J8H_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01768|HV330_HUMAN	53.4	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P0DP03|HVC05_HUMAN	53.4	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q9Y6B7|AP4B1_HUMAN	53.4	2N28_A	4UQI_B	4P6Z_V	4P6Z_G
+sp|P24071|FCAR_HUMAN	sp|P04578|ENV_HV1H2	53.3	1UCT_A	6PWU_E	6MET_A	3J70_P
+sp|P04585|POL_HV1H2	sp|A0A075B6I4|LVX54_HUMAN	53.3	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q9UKI3|VPRE3_HUMAN	53.3	1L6N_A	5WB1_A	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|A0A075B6I4|LVX54_HUMAN	53.3	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P06312|KV401_HUMAN	53.3	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6K0|LV316_HUMAN	53.3	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|P13762|DRB4_HUMAN	53.3	2X7L_R	6PY2_B	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|Q96JM7|LMBL3_HUMAN	53.3	1ESX_A	3UT1_A	5AJA_B	5AJA_C
+sp|A0A075B6T7|TVA6_HUMAN	sp|P04585|POL_HV1H2	53.2	1LP9_E	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|A0A0C4DH68|KV224_HUMAN	53.2	1L6N_A	6BPC_C	1R0A_A	2XKN_C
+sp|P04591|GAG_HV1H2	sp|P01780|HV307_HUMAN	53.2	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q9HBL0|TENS1_HUMAN	53.2	3TB8_A	3N0A_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A0A0MRZ9|LV552_HUMAN	53.2	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0B4J1Y8|LV949_HUMAN	53.2	2X7L_R	6UDK_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|S4R460|S4R460_HUMAN	53.2	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q9NTI5|PDS5B_HUMAN	53.2	2N28_A	5F0O_A	4P6Z_V	4P6Z_B
+sp|Q9UJ42|GP160_HUMAN	sp|P04578|ENV_HV1H2	53.2	5XSZ_A	6PWU_E	6MEO_B	3J70_P
+sp|A0A0A6YYK7|TVA19_HUMAN	sp|P04578|ENV_HV1H2	53.1	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|A0A0K0K1B3|TVB30_HUMAN	sp|P04578|ENV_HV1H2	53.1	1G6R_C	6PWU_E	6UDK_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|O75838|CIB2_HUMAN	53.1	1L6N_A	6OD0_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|O75838|CIB2_HUMAN	53.1	1L6N_A	6OD0_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8WVE0|EFMT1_HUMAN	53.1	1L6N_A	6UCA_B	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q96PM5|ZN363_HUMAN	53.1	1L6N_A	2K2C_A	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q9H5U6|ZCHC4_HUMAN	53.1	1L6N_A	6UCA_D	6UCA_D	6UCA_B
+sp|P04601|NEF_HV1H2	sp|A0A075B6Q5|HV364_HUMAN	53.1	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0G2JMI3|HV692_HUMAN	53.1	3TB8_A	3U1S_H	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01704|LV214_HUMAN	53.1	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q6PID8|KLD10_HUMAN	53.1	3MI9_C	6DO5_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|Q96I82|KAZD1_HUMAN	53.1	2X7L_R	3TJQ_A	2X7L_R	5I8O_L
+sp|P69726|VPR_HV1H2	sp|Q5VUG0|SMBT2_HUMAN	53.1	1ESX_A	3CEY_B	5AJA_B	5AJA_C
+sp|P04578|ENV_HV1H2	sp|A0A0B4J2E0|TVBL4_HUMAN	53.0	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|Q08708|CLM6_HUMAN	53.0	6PWU_E	5OR7_C	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|A0A0B4J1Y9|HV372_HUMAN	53.0	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O14931|NCTR3_HUMAN	53.0	1L6N_A	5XSY_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P01715|LV301_HUMAN	53.0	1L6N_A	6HD8_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P02549|SPTA1_HUMAN	53.0	1L6N_A	1SJJ_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q12906|ILF3_HUMAN	53.0	1L6N_A	5DV7_C	3NYB_B	3NYB_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J1Y9|HV372_HUMAN	53.0	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O14931|NCTR3_HUMAN	53.0	1L6N_A	5XSY_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01715|LV301_HUMAN	53.0	1L6N_A	6HD8_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P02549|SPTA1_HUMAN	53.0	1L6N_A	1SJJ_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q12906|ILF3_HUMAN	53.0	1L6N_A	5DV7_C	3NYB_B	3NYB_A
+sp|P04591|GAG_HV1H2	tr|A0A0B4J2B6|A0A0B4J2B6_HUMAN	53.0	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J1X5|HV374_HUMAN	53.0	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0B4J279|TVA21_HUMAN	53.0	3TB8_A	2BNU_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01701|LV151_HUMAN	53.0	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P0DTU3|TRAR2_HUMAN	53.0	3TB8_A	5YXU_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A075B6J1|LV537_HUMAN	53.0	2X7L_R	6HD8_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|O95256|I18RA_HUMAN	53.0	2X7L_R	3WO4_C	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|P0DP02|HVC33_HUMAN	53.0	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P69723|VIF_HV1H2	sp|Q8N7F7|UBL4B_HUMAN	53.0	4N9F_b	4X86_A	4N9F_b	2MA9_B
+sp|P05362|ICAM1_HUMAN	sp|P04585|POL_HV1H2	53.0	1Z7Z_I	1L6N_A	5T70_G	3GV2_A
+sp|P05362|ICAM1_HUMAN	sp|P04591|GAG_HV1H2	53.0	1Z7Z_I	1L6N_A	5T70_G	3GV2_A
+sp|P33681|CD80_HUMAN	sp|P04591|GAG_HV1H2	53.0	1I8L_A	1L6N_A	6CPL_A	2XXM_A
+sp|P41586|PACR_HUMAN	sp|P04578|ENV_HV1H2	53.0	6P9Y_R	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH59|TVB54_HUMAN	52.9	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|A0A075B6K2|LV312_HUMAN	52.9	3TB8_A	6HD8_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A087WSX0|LV545_HUMAN	52.9	3TB8_A	6HD8_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01772|HV333_HUMAN	52.9	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|P0DP07|HV431_HUMAN	52.9	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P12018|VPREB_HUMAN	52.9	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04578|ENV_HV1H2	sp|A6NJW9|CD8B2_HUMAN	52.8	6PWU_E	6J8J_B	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A0A0B4J1U7|HV601_HUMAN	52.8	1L6N_A	5WTS_A	1R0A_A	1HYS_D
+sp|A0A0B4J1V0|HV315_HUMAN	sp|P04585|POL_HV1H2	52.8	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04601|NEF_HV1H2	sp|P01718|LV327_HUMAN	52.8	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|P01817|HV205_HUMAN	52.8	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|Q9BRT8|CBWD1_HUMAN	sp|P04601|NEF_HV1H2	52.8	4IXN_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|A0A0A6YYK6|TVA16_HUMAN	52.7	6PWU_E	2J8U_L	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|O14931|NCTR3_HUMAN	52.7	6PWU_E	5XSY_B	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P42081|CD86_HUMAN	52.7	6PWU_E	5OR7_C	3U2S_C	5N2K_F
+sp|P04585|POL_HV1H2	sp|P41208|CETN2_HUMAN	52.7	1L6N_A	2GGM_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J1V0|HV315_HUMAN	52.7	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH24|KV621_HUMAN	52.7	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01772|HV333_HUMAN	52.7	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P41208|CETN2_HUMAN	52.7	1L6N_A	2GGM_B	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J249|TVA5_HUMAN	52.7	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH32|HV320_HUMAN	52.7	3TB8_A	6QNO_H	4ORZ_B	5MZV_D
+sp|A6NGR9|MROH6_HUMAN	sp|P04601|NEF_HV1H2	52.7	3TJZ_B	3TB8_A	4NEE_G	3TB8_A
+sp|P04601|NEF_HV1H2	sp|P01706|LV211_HUMAN	52.7	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0C4DH33|HV124_HUMAN	52.7	2X7L_R	3U1S_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P11912|CD79A_HUMAN	52.7	2X7L_R	6J8H_C	5DHX_C	6CVK_A
+sp|O15533|TPSN_HUMAN	sp|P04578|ENV_HV1H2	52.6	6ENY_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|P01733|TVBL3_HUMAN	52.6	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|Q86TB3|ALPK2_HUMAN	52.6	6PWU_E	4ZMF_A	6FY1_G	4HJJ_H
+sp|P04578|ENV_HV1H2	sp|Q8TDQ0|HAVR2_HUMAN	52.6	6PWU_E	5OR7_C	3U2S_C	5N2K_F
+sp|P04585|POL_HV1H2	sp|Q8NFA0|UBP32_HUMAN	52.6	1L6N_A	2GFO_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P01743|HV146_HUMAN	52.6	1L6N_A	3U1S_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8NFA0|UBP32_HUMAN	52.6	1L6N_A	2GFO_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6V5|TVA36_HUMAN	52.6	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O94868|FCSD2_HUMAN	52.6	3TB8_A	4DYL_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q8TDQ0|HAVR2_HUMAN	52.6	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q8TDQ1|CLM1_HUMAN	52.6	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q92692|NECT2_HUMAN	52.6	3TB8_A	3J8F_7	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9H7D0|DOCK5_HUMAN	52.6	3TB8_A	3B13_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|P01911|DRB_HUMAN	52.6	2X7L_R	6PY2_B	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q8WX77|IBPL1_HUMAN	52.6	2X7L_R	3TJQ_A	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|O43747|AP1G1_HUMAN	52.6	2N28_A	6OWT_A	4P6Z_V	4P6Z_B
+sp|P04437|TVA29_HUMAN	sp|P04578|ENV_HV1H2	52.5	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A087X0M5|TVB18_HUMAN	52.5	1L6N_A	5WB2_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A087X0M5|TVB18_HUMAN	52.5	1L6N_A	5WB2_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH67|KV108_HUMAN	52.5	1L6N_A	6BPC_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|P01780|HV307_HUMAN	52.5	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9Y5X1|SNX9_HUMAN	52.5	3TB8_A	3DYT_A	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|P42356|PI4KA_HUMAN	52.5	3MI9_C	6BQ1_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|P01876|IGHA1_HUMAN	52.5	2X7L_R	2QTJ_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A0B4J2B6|A0A0B4J2B6_HUMAN	52.5	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q29RF7|PDS5A_HUMAN	52.5	2N28_A	5F0O_A	4P6Z_V	4P6Z_B
+sp|Q86XL3|ANKL2_HUMAN	sp|P04578|ENV_HV1H2	52.5	1JEI_A	6PWU_E	6QFK_A	6B0N_G
+sp|P04578|ENV_HV1H2	sp|P0DPF4|TVA35_HUMAN	52.4	6PWU_E	5W1W_D	6PWU_E	6ULC_L
+sp|P04578|ENV_HV1H2	sp|Q9NQ25|SLAF7_HUMAN	52.4	6PWU_E	3ALW_A	6PWU_E	6ULC_L
+sp|Q9P2V4|LRIT1_HUMAN	sp|P04578|ENV_HV1H2	52.4	3ZYJ_A	6PWU_E	4H8W_C	3NGB_D
+sp|P04591|GAG_HV1H2	tr|A0A075B7E8|A0A075B7E8_HUMAN	52.4	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q9BVN2|RUSC1_HUMAN	52.4	3TB8_A	4GIW_B	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|Q9HBG7|LY9_HUMAN	52.4	2X7L_R	5A2F_A	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	tr|S4R3C0|S4R3C0_HUMAN	52.4	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|Q9UHJ3|SMBT1_HUMAN	52.4	1ESX_A	4C5E_C	5AJA_B	5AJA_C
+sp|Q02297|NRG1_HUMAN	sp|P04591|GAG_HV1H2	52.4	5E8D_A	1L6N_A	5T70_G	3GV2_A
+sp|Q6UXS0|CL19A_HUMAN	sp|P04578|ENV_HV1H2	52.4	2VUV_A	6PWU_E	1QO3_C	3J70_P
+sp|Q96I82|KAZD1_HUMAN	sp|P04601|NEF_HV1H2	52.4	3TJQ_A	3TB8_A	5XOV_H	3TB8_A
+sp|A0A0C4DH38|HV551_HUMAN	sp|P04585|POL_HV1H2	52.3	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|P01718|LV327_HUMAN	52.3	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P35609|ACTN2_HUMAN	52.3	1L6N_A	4D1E_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P01718|LV327_HUMAN	52.3	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01782|HV309_HUMAN	52.3	1L6N_A	6QNO_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P35609|ACTN2_HUMAN	52.3	1L6N_A	4D1E_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A0G2JS06|LV539_HUMAN	52.3	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|P01743|HV146_HUMAN	52.3	2X7L_R	3U1S_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01766|HV313_HUMAN	52.3	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01780|HV307_HUMAN	52.3	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A075B7F0|A0A075B7F0_HUMAN	52.3	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|Q9Y2F9|BTBD3_HUMAN	sp|P69723|VIF_HV1H2	52.3	3NO8_B	4N9F_b	6P59_Z	6P59_B
+sp|P32241|VIPR1_HUMAN	sp|P04578|ENV_HV1H2	52.3	6FJ3_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|P16112|PGCA_HUMAN	52.2	1L6N_A	2PF5_B	1R0A_A	1HYS_D
+sp|Q6UWV2|MPZL3_HUMAN	sp|P04585|POL_HV1H2	52.2	5XSY_B	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|A0A0G2JMI3|HV692_HUMAN	52.2	1L6N_A	3U1S_H	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH41|HV461_HUMAN	52.2	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|P01880|IGHD_HUMAN	52.2	2X7L_R	1ZVO_C	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|Q5TGI4|SAMD5_HUMAN	52.2	1ESX_A	1COK_A	5AJA_B	5AJA_C
+sp|Q9NYW5|TA2R4_HUMAN	sp|P04578|ENV_HV1H2	52.2	3ODU_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q14626|I11RA_HUMAN	52.1	6PWU_E	6O4P_A	3J70_P	4Q6I_J
+sp|P04578|ENV_HV1H2	sp|Q5SQ64|LY66F_HUMAN	52.1	6PWU_E	5OR7_C	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|Q7Z6E9|RBBP6_HUMAN	52.1	1L6N_A	6I1D_B	6R24_C	6R24_C
+tr|A0A087WYE8|A0A087WYE8_HUMAN	sp|P04585|POL_HV1H2	52.1	3U1S_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|Q7Z6E9|RBBP6_HUMAN	52.1	1L6N_A	6I1D_B	6R23_B	6R23_B
+sp|P04618|REV_HV1H2	sp|A0A0B4J1X5|HV374_HUMAN	52.1	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q8N6C8|LIRA3_HUMAN	52.1	2X7L_R	6AEE_G	2X7L_R	5I8O_L
+sp|Q9Y240|CLC11_HUMAN	sp|P04578|ENV_HV1H2	52.1	5G6U_A	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|P01889|HLAB_HUMAN	52.0	6PWU_E	6AT5_A	2CMR_A	5X08_H
+sp|P04578|ENV_HV1H2	sp|P04439|HLAA_HUMAN	52.0	6PWU_E	6AT5_A	2CMR_A	5X08_H
+sp|P04585|POL_HV1H2	sp|A0A0B4J276|TVA25_HUMAN	52.0	1L6N_A	5WKF_I	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P11912|CD79A_HUMAN	52.0	1L6N_A	6J8H_C	2XT1_A	6FPV_A
+sp|Q96DU3|SLAF6_HUMAN	sp|P04585|POL_HV1H2	52.0	2IF7_D	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q9Y2W7|CSEN_HUMAN	52.0	1L6N_A	2JUL_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J276|TVA25_HUMAN	52.0	1L6N_A	5WKF_I	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P11912|CD79A_HUMAN	52.0	1L6N_A	6J8H_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q9Y2W7|CSEN_HUMAN	52.0	1L6N_A	2JUL_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|P01703|LV140_HUMAN	52.0	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q9BUJ2|HNRL1_HUMAN	52.0	3MI9_C	5TAP_E	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A0G2JMI3|HV692_HUMAN	52.0	2X7L_R	3U1S_H	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|O75122|CLAP2_HUMAN	52.0	2N28_A	6COK_A	4P6Z_V	4P6Z_B
+sp|P04578|ENV_HV1H2	sp|P01893|HLAH_HUMAN	51.9	6PWU_E	6AT5_A	2CMR_A	5X08_H
+sp|P04585|POL_HV1H2	sp|A6NLU5|VTM2B_HUMAN	51.9	1L6N_A	4Q6I_J	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q14257|RCN2_HUMAN	51.9	1L6N_A	4I5K_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q6KCM7|SCMC2_HUMAN	51.9	1L6N_A	4C9G_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q6ZN44|UNC5A_HUMAN	51.9	1L6N_A	3G5B_A	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|A6NLU5|VTM2B_HUMAN	51.9	1L6N_A	4Q6I_J	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q14257|RCN2_HUMAN	51.9	1L6N_A	4I5K_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q6KCM7|SCMC2_HUMAN	51.9	1L6N_A	4C9G_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|O14512|SOCS7_HUMAN	51.9	3TB8_A	2IZV_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|O15524|SOCS1_HUMAN	51.9	3TB8_A	6C5X_D	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A0B4J240|TVA10_HUMAN	51.9	2X7L_R	2CDE_C	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|A0A0C4DH32|HV320_HUMAN	51.9	2X7L_R	6QNO_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q16270|IBP7_HUMAN	51.9	2X7L_R	3TJQ_A	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|Q16653|MOG_HUMAN	51.9	2X7L_R	4PFE_A	2X7L_R	5I8O_H
+sp|C9JJ37|BTBDJ_HUMAN	sp|P69723|VIF_HV1H2	51.9	3I3N_B	4N9F_b	6P59_Z	6P59_B
+sp|P69723|VIF_HV1H2	sp|Q8IYU4|UBQLN_HUMAN	51.9	4N9F_b	2BPS_A	4N9F_b	2MA9_B
+sp|P20138|CD33_HUMAN	sp|P04591|GAG_HV1H2	51.9	5OR7_C	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|Q15080|NCF4_HUMAN	51.8	3TB8_A	2DYB_B	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q8TEC5|SH3R2_HUMAN	51.8	3TB8_A	6AMW_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	tr|A0A0J9YWU9|A0A0J9YWU9_HUMAN	51.8	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|O75882|ATRN_HUMAN	sp|P04578|ENV_HV1H2	51.8	5A10_A	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|P28068|DMB_HUMAN	51.7	6PWU_E	2BC4_D	5C0R_A	6U1T_L
+sp|A0A0B4J1V6|HV373_HUMAN	sp|P04585|POL_HV1H2	51.7	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|A0A0C4DH36|HV338_HUMAN	51.7	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A1B0GXF2|TVB72_HUMAN	51.7	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O15182|CETN3_HUMAN	51.7	1L6N_A	3QRX_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH36|HV338_HUMAN	51.7	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0J9YVY3|HV741_HUMAN	51.7	1L6N_A	3U1S_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0J9YXX1|HV5X1_HUMAN	51.7	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A1B0GXF2|TVB72_HUMAN	51.7	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O15182|CETN3_HUMAN	51.7	1L6N_A	3QRX_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A1A4S6|RHG10_HUMAN	51.7	3TB8_A	5C5B_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|P01743|HV146_HUMAN	51.7	3TB8_A	3U1S_H	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P0DP06|HVD34_HUMAN	51.7	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q29RF7|PDS5A_HUMAN	51.7	3TB8_A	5F0O_A	6CRI_Z	6CRI_I
+sp|P04608|TAT_HV1H2	sp|Q8IXF0|NPAS3_HUMAN	51.7	3MI9_C	5SY7_B	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A075B6K4|LV310_HUMAN	51.7	2X7L_R	6ULC_L	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|A0A075B6Q5|HV364_HUMAN	51.7	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0B4J1V1|HV321_HUMAN	51.7	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0C4DH34|HV428_HUMAN	51.7	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01782|HV309_HUMAN	51.7	2X7L_R	6QNO_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01854|IGHE_HUMAN	51.7	2X7L_R	2WQR_B	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q9UHP6|RSP14_HUMAN	51.7	2N28_A	5KC2_B	4P6Z_V	4P6Z_B
+sp|P04578|ENV_HV1H2	sp|P01737|TVA84_HUMAN	51.6	6PWU_E	6FUN_A	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	tr|A0A075B6H5|A0A075B6H5_HUMAN	51.6	6PWU_E	2WBJ_D	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A0A075B6K2|LV312_HUMAN	51.6	1L6N_A	6HD8_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O95944|NCTR2_HUMAN	51.6	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6K2|LV312_HUMAN	51.6	1L6N_A	6HD8_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J1V1|HV321_HUMAN	51.6	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O95944|NCTR2_HUMAN	51.6	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A087WW87|KV240_HUMAN	51.6	3TB8_A	6BPC_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01614|KVD40_HUMAN	51.6	3TB8_A	6BPC_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01619|KV320_HUMAN	51.6	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q8WV41|SNX33_HUMAN	51.6	3TB8_A	4AKV_B	4U5W_C	4U5W_B
+sp|Q9BT17|MTG1_HUMAN	sp|P04601|NEF_HV1H2	51.6	6G15_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|P01699|LV144_HUMAN	51.6	2X7L_R	6ULC_L	2X7L_R	5I8O_L
+sp|Q13939|CALI_HUMAN	sp|P69723|VIF_HV1H2	51.6	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q6P2E9|EDC4_HUMAN	51.6	1ESX_A	2VXG_A	5JK7_F	5JK7_E
+sp|P05362|ICAM1_HUMAN	sp|P04578|ENV_HV1H2	51.5	1Z7Z_I	6PWU_E	4H8W_C	3NGB_D
+sp|P04578|ENV_HV1H2	sp|Q86UW8|HPLN4_HUMAN	51.5	6PWU_E	2N40_A	6TYB_G	3PP4_H
+sp|P04585|POL_HV1H2	sp|A0A075B6I9|LV746_HUMAN	51.5	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P06315|KV502_HUMAN	51.5	1L6N_A	6BPC_F	1R0A_A	2XKN_C
+sp|P04591|GAG_HV1H2	sp|A0A075B6I9|LV746_HUMAN	51.5	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH32|HV320_HUMAN	51.5	1L6N_A	6QNO_H	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6I6|LV150_HUMAN	51.5	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P09564|CD7_HUMAN	51.5	3TB8_A	6J8H_C	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|O75144|ICOSL_HUMAN	51.5	2X7L_R	6JXR_n	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q96L96|ALPK3_HUMAN	51.5	2X7L_R	1IA9_B	5DHX_C	6CVK_A
+sp|Q8N743|KI3L3_HUMAN	sp|P04585|POL_HV1H2	51.5	3VH8_H	1L6N_A	5T70_G	3GV2_A
+sp|Q8N743|KI3L3_HUMAN	sp|P04591|GAG_HV1H2	51.5	3VH8_H	1L6N_A	5T70_G	3GV2_A
+sp|Q9BRK3|MXRA8_HUMAN	sp|P04601|NEF_HV1H2	51.5	6NK3_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04585|POL_HV1H2	sp|A0A5B0|TVB14_HUMAN	51.4	1L6N_A	1YJD_C	1R0A_A	1HYS_D
+sp|Q6Q8B3|MO2R2_HUMAN	sp|P04585|POL_HV1H2	51.4	4BFG_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q96D42|HAVR1_HUMAN	sp|P04585|POL_HV1H2	51.4	5DZO_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q9Y2V2|CHSP1_HUMAN	51.4	1L6N_A	3AQQ_B	5UDZ_B	5UDZ_B
+sp|P04591|GAG_HV1H2	sp|Q9Y2V2|CHSP1_HUMAN	51.4	1L6N_A	3AQQ_B	5UDZ_B	5UDZ_B
+sp|P04601|NEF_HV1H2	sp|P01705|LV223_HUMAN	51.4	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9H7M9|VISTA_HUMAN	51.4	3TB8_A	6OIL_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0C4DH68|KV224_HUMAN	51.4	2X7L_R	6BPC_C	5DHX_C	6CVK_A
+sp|Q96KE9|BTBD6_HUMAN	sp|P69723|VIF_HV1H2	51.4	3NO8_B	4N9F_b	6P59_Z	6P59_B
+sp|Q6Q8B3|MO2R2_HUMAN	sp|P04591|GAG_HV1H2	51.4	4BFG_A	1L6N_A	6CPL_A	2XXM_A
+sp|P09326|CD48_HUMAN	sp|P04591|GAG_HV1H2	51.3	2DRU_A	1L6N_A	5T70_G	3GV2_A
+tr|A0A0B4J2B8|A0A0B4J2B8_HUMAN	sp|P04585|POL_HV1H2	51.2	3U1S_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04601|NEF_HV1H2	sp|Q5T0N5|FBP1L_HUMAN	51.2	3TB8_A	2EFL_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A0A0MS15|HV349_HUMAN	51.2	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0C4DH31|HV118_HUMAN	51.2	2X7L_R	3U1S_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01703|LV140_HUMAN	51.2	2X7L_R	6ULC_L	5DHX_C	6CVK_A
+sp|Q6ZMC9|SIG15_HUMAN	sp|P04601|NEF_HV1H2	51.2	2CDE_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|A0A0B4J1U6|TVB9_HUMAN	51.1	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|Q13938|CAYP1_HUMAN	51.1	1L6N_A	3E3R_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q13938|CAYP1_HUMAN	51.1	1L6N_A	3E3R_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A087WSY6|KVD15_HUMAN	51.1	3TB8_A	6BPB_B	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q6UXE8|BTNL3_HUMAN	51.1	3TB8_A	5HM7_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0C4DH39|HV158_HUMAN	51.1	2X7L_R	3U1S_H	2X7L_R	5I8O_H
+sp|O14867|BACH1_HUMAN	sp|P69723|VIF_HV1H2	51.1	1SKN_P	4N9F_b	6P59_Z	6P59_B
+sp|P04578|ENV_HV1H2	sp|A0A0K0K1E9|TVB77_HUMAN	51.0	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|A0A0K0K1G6|TVBJ3_HUMAN	51.0	6PWU_E	1YJD_C	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|Q8TAG5|VTM2A_HUMAN	51.0	1L6N_A	6BPC_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0A0MT36|KVD21_HUMAN	51.0	1L6N_A	6BPC_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8TAG5|VTM2A_HUMAN	51.0	1L6N_A	6BPC_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A087WSZ0|KVD08_HUMAN	51.0	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A075B6J9|LV218_HUMAN	51.0	2X7L_R	6ULC_L	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|P01701|LV151_HUMAN	51.0	2X7L_R	1YJD_C	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q8NHJ6|LIRB4_HUMAN	51.0	2X7L_R	3P2T_A	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q969P0|IGSF8_HUMAN	51.0	2X7L_R	5WHZ_H	2X7L_R	5I8O_H
+sp|Q16774|KGUA_HUMAN	sp|P04601|NEF_HV1H2	51.0	1Z6G_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q8IZF5|AGRF3_HUMAN	sp|P04578|ENV_HV1H2	51.0	4DLO_B	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|A0A0B4J266|TVA41_HUMAN	50.9	6PWU_E	4MNQ_D	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P04440|DPB1_HUMAN	50.9	6PWU_E	6PY2_B	2CMR_A	5X08_H
+sp|A0A087WT01|TVA27_HUMAN	sp|P04585|POL_HV1H2	50.9	3QDM_D	1L6N_A	6ID4_C	1R0A_A
+sp|O15533|TPSN_HUMAN	sp|P04585|POL_HV1H2	50.9	6ENY_C	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|P43304|GPDM_HUMAN	50.9	1L6N_A	2RGO_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q14651|PLSI_HUMAN	50.9	1L6N_A	1PXY_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q4KWH8|PLCH1_HUMAN	50.9	1L6N_A	4GNK_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9H8X9|ZDH11_HUMAN	50.9	1L6N_A	6BMN_B	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	tr|A0A0A0MS02|A0A0A0MS02_HUMAN	50.9	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P43304|GPDM_HUMAN	50.9	1L6N_A	2RGO_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q14651|PLSI_HUMAN	50.9	1L6N_A	1PXY_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q4KWH8|PLCH1_HUMAN	50.9	1L6N_A	4GNK_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9H8X9|ZDH11_HUMAN	50.9	1L6N_A	6BMN_B	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	tr|A0A0A0MS02|A0A0A0MS02_HUMAN	50.9	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6U4|TVA7_HUMAN	50.9	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P04211|LV743_HUMAN	50.9	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q6KC79|NIPBL_HUMAN	50.9	3TB8_A	6WGE_E	6CRI_Z	6CRI_I
+sp|P04618|REV_HV1H2	sp|A0A075B6K6|LV403_HUMAN	50.9	2X7L_R	4YO0_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01700|LV147_HUMAN	50.9	2X7L_R	6HD8_A	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q6UXG8|BTNL9_HUMAN	50.9	2X7L_R	5HM7_A	2X7L_R	5I8O_H
+sp|Q8NEA9|GMCL2_HUMAN	sp|P69723|VIF_HV1H2	50.9	3HVE_B	4N9F_b	6P59_Z	6P59_B
+sp|Q9H511|KLH31_HUMAN	sp|P69723|VIF_HV1H2	50.9	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|O15533|TPSN_HUMAN	sp|P04591|GAG_HV1H2	50.9	6ENY_C	1L6N_A	6CPL_A	2XXM_A
+sp|Q16270|IBP7_HUMAN	sp|P04585|POL_HV1H2	50.9	3TJQ_A	1L6N_A	5T70_G	3GV2_A
+sp|Q16270|IBP7_HUMAN	sp|P04591|GAG_HV1H2	50.9	3TJQ_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A0C4DH27|TRGV8_HUMAN	50.8	6PWU_E	5I0Z_A	6NIJ_B	3U1S_H
+sp|P10915|HPLN1_HUMAN	sp|P04578|ENV_HV1H2	50.8	2PF5_B	6PWU_E	6UDK_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|P03979|TRGV3_HUMAN	50.8	1L6N_A	5GIS_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P03979|TRGV3_HUMAN	50.8	1L6N_A	5GIS_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q99603|TRGV9_HUMAN	50.8	1L6N_A	6QD6_G	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q8N2Y8|RUSC2_HUMAN	50.8	3TB8_A	6IF2_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A075B6I6|LV150_HUMAN	50.8	2X7L_R	6ULC_L	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|A0A0B4J1V0|HV315_HUMAN	50.8	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|Q96LT4|SAMD8_HUMAN	50.8	1ESX_A	2D8C_A	5AJA_B	5AJA_C
+sp|P01854|IGHE_HUMAN	sp|P04591|GAG_HV1H2	50.8	2WQR_B	1L6N_A	5T70_G	3GV2_A
+sp|P59540|T2R46_HUMAN	sp|P04578|ENV_HV1H2	50.8	5IU7_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NYW6|TA2R3_HUMAN	sp|P04578|ENV_HV1H2	50.8	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|A0A0B4J237|TVA82_HUMAN	50.7	1L6N_A	6FUN_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q96L46|CPNS2_HUMAN	50.7	1L6N_A	4WQ2_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6T7|TVA6_HUMAN	50.7	1L6N_A	1LP9_E	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J237|TVA82_HUMAN	50.7	1L6N_A	6FUN_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q96L46|CPNS2_HUMAN	50.7	1L6N_A	4WQ2_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|P01767|HV353_HUMAN	50.7	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01782|HV309_HUMAN	50.7	3TB8_A	6QNO_H	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|Q8TAG5|VTM2A_HUMAN	50.7	2X7L_R	6BPC_C	5DHX_C	6CVK_A
+sp|P69726|VPR_HV1H2	sp|P49754|VPS41_HUMAN	50.7	1ESX_A	1B89_A	5JK7_F	5JK7_E
+sp|P04585|POL_HV1H2	sp|A0A075B6I0|LV861_HUMAN	50.6	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A0B4J275|TVA17_HUMAN	50.6	1L6N_A	2J8U_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A1B0GX56|TRDV1_HUMAN	50.6	1L6N_A	5YXU_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P0C7U3|ZH11B_HUMAN	50.6	1L6N_A	6BMN_A	6UCA_B	6UCA_D
+sp|P04591|GAG_HV1H2	sp|A0A075B6I0|LV861_HUMAN	50.6	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J1U7|HV601_HUMAN	50.6	1L6N_A	5WTS_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J275|TVA17_HUMAN	50.6	1L6N_A	2J8U_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A1B0GX56|TRDV1_HUMAN	50.6	1L6N_A	5YXU_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P0C7U3|ZH11B_HUMAN	50.6	1L6N_A	6BMN_A	6UCA_D	6UCA_B
+sp|P04601|NEF_HV1H2	sp|A0A0B4J245|TVAL1_HUMAN	50.6	3TB8_A	2CDE_C	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q8ND76|CCNY_HUMAN	50.6	3MI9_C	4KRD_B	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q9NXD2|MTMRA_HUMAN	50.6	3MI9_C	1ZVR_A	3MI9_C	2PK2_B
+sp|P32942|ICAM3_HUMAN	sp|P04585|POL_HV1H2	50.6	1Z7Z_I	1L6N_A	5T70_G	3GV2_A
+sp|P32942|ICAM3_HUMAN	sp|P04591|GAG_HV1H2	50.6	1Z7Z_I	1L6N_A	5T70_G	3GV2_A
+sp|P40200|TACT_HUMAN	sp|P04585|POL_HV1H2	50.6	6TYB_C	1L6N_A	5T70_G	3GV2_A
+sp|P40200|TACT_HUMAN	sp|P04591|GAG_HV1H2	50.6	6TYB_C	1L6N_A	5T70_G	3GV2_A
+sp|P59541|T2R30_HUMAN	sp|P04578|ENV_HV1H2	50.6	4BUO_B	6PWU_E	6MEO_B	3J70_P
+sp|Q8IWT1|SCN4B_HUMAN	sp|P04578|ENV_HV1H2	50.5	5XSY_B	6PWU_E	6UDK_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|Q9NZC2|TREM2_HUMAN	50.5	6PWU_E	5UD7_B	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|Q6UXZ3|CLM5_HUMAN	50.5	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A087WW87|KV240_HUMAN	50.5	1L6N_A	6BPC_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01614|KVD40_HUMAN	50.5	1L6N_A	6BPC_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P06310|KV230_HUMAN	50.5	1L6N_A	6BPC_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q6UXZ3|CLM5_HUMAN	50.5	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A087WSY4|HV432_HUMAN	50.5	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O15068|MCF2L_HUMAN	50.5	3TB8_A	1KZ7_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|P06312|KV401_HUMAN	50.5	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q5T2D2|TRML2_HUMAN	50.5	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9UGN4|CLM8_HUMAN	50.5	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|Q8NHK3|KI2LB_HUMAN	sp|P04601|NEF_HV1H2	50.5	3WYR_B	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|A0A0K0K1D8|TVB61_HUMAN	50.4	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P04435|TVB79_HUMAN	50.4	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P55899|FCGRN_HUMAN	50.4	6PWU_E	6FGB_A	2CMR_A	5X08_H
+sp|P04601|NEF_HV1H2	sp|P20138|CD33_HUMAN	50.4	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0C4DH29|HV103_HUMAN	50.4	2X7L_R	3U1S_H	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q08AM6|VAC14_HUMAN	50.4	2N28_A	5XAH_A	4P6Z_V	4P6Z_B
+sp|A8MTB9|CEA18_HUMAN	sp|P04601|NEF_HV1H2	50.4	5LFV_B	3TB8_A	5XOV_H	3TB8_A
+sp|Q9HBW9|AGRL4_HUMAN	sp|P04578|ENV_HV1H2	50.4	6FJ3_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9NYV8|T2R14_HUMAN	sp|P04578|ENV_HV1H2	50.4	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|A0A0B4J244|TVA3_HUMAN	50.3	6PWU_E	1MWA_C	6NIJ_B	3U1S_H
+sp|P08887|IL6RA_HUMAN	sp|P04578|ENV_HV1H2	50.3	1N26_A	6PWU_E	6MET_A	3J70_P
+sp|P04585|POL_HV1H2	sp|A0A075B6N2|TVBT1_HUMAN	50.3	1L6N_A	2WBJ_D	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q8WTX9|ZDHC1_HUMAN	50.3	1L6N_A	6BMN_B	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q9UGN4|CLM8_HUMAN	50.3	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|Q9UIB8|SLAF5_HUMAN	sp|P04585|POL_HV1H2	50.3	3ALX_D	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6N2|TVBT1_HUMAN	50.3	1L6N_A	2WBJ_D	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8WTX9|ZDHC1_HUMAN	50.3	1L6N_A	6BMN_B	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q9UGN4|CLM8_HUMAN	50.3	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q9UKI3|VPRE3_HUMAN	50.3	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6I9|LV746_HUMAN	50.3	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0A0MT36|KVD21_HUMAN	50.3	3TB8_A	6BPC_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0J9YVY3|HV741_HUMAN	50.3	3TB8_A	3U1S_H	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A075B6K0|LV316_HUMAN	50.3	2X7L_R	6ULC_L	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|A0A0B4J271|TVAL3_HUMAN	50.3	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01704|LV214_HUMAN	50.3	2X7L_R	6ULC_L	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|P01706|LV211_HUMAN	50.3	2X7L_R	6ULC_L	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|Q30154|DRB5_HUMAN	50.3	2X7L_R	6PY2_B	2X7L_R	5I8O_H
+sp|P59543|T2R20_HUMAN	sp|P04578|ENV_HV1H2	50.3	4BUO_B	6PWU_E	6MEO_B	3J70_P
+sp|Q9UIB8|SLAF5_HUMAN	sp|P04591|GAG_HV1H2	50.3	3ALX_D	1L6N_A	5T70_G	3GV2_A
+sp|A0A0A0MS00|LV332_HUMAN	sp|P04578|ENV_HV1H2	50.2	5WB1_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|P13747|HLAE_HUMAN	50.2	6PWU_E	6AT5_A	2CMR_A	5X08_H
+sp|P04585|POL_HV1H2	sp|Q9H106|SIRPD_HUMAN	50.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q9H106|SIRPD_HUMAN	50.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B7D0|A0A075B7D0_HUMAN	50.2	1L6N_A	3U1S_H	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH31|HV118_HUMAN	50.2	3TB8_A	3U1S_H	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0K2S4Q6|CD3CH_HUMAN	50.2	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01824|HV439_HUMAN	50.2	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q8IWT1|SCN4B_HUMAN	50.2	3TB8_A	5XSY_B	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q8TF42|UBS3B_HUMAN	50.2	3TB8_A	3MBK_B	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A0B4J1U3|LV136_HUMAN	50.2	2X7L_R	6HD8_A	5DHX_C	6CVK_A
+sp|Q9HBG7|LY9_HUMAN	sp|P04601|NEF_HV1H2	50.2	5A2F_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04585|POL_HV1H2	sp|P30626|SORCN_HUMAN	50.1	1L6N_A	4USL_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q6UXG3|CLM9_HUMAN	50.1	1L6N_A	5OR7_C	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	tr|A0A075B7D8|A0A075B7D8_HUMAN	50.1	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J1V6|HV373_HUMAN	50.1	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH29|HV103_HUMAN	50.1	1L6N_A	3U1S_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH31|HV118_HUMAN	50.1	1L6N_A	3U1S_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P30626|SORCN_HUMAN	50.1	1L6N_A	4USL_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q6UXG3|CLM9_HUMAN	50.1	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B7D8|A0A075B7D8_HUMAN	50.1	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6I1|LV460_HUMAN	50.1	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH29|HV103_HUMAN	50.1	3TB8_A	3U1S_H	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|Q6UXE8|BTNL3_HUMAN	50.1	2X7L_R	5HM7_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A075B7D0|A0A075B7D0_HUMAN	50.1	2X7L_R	3U1S_H	2X7L_R	5I8O_H
+sp|Q96L96|ALPK3_HUMAN	sp|P04585|POL_HV1H2	50.1	1IA9_B	1L6N_A	5T70_G	3GV2_A
+sp|Q96L96|ALPK3_HUMAN	sp|P04591|GAG_HV1H2	50.1	1IA9_B	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q86UW8|HPLN4_HUMAN	50.0	1L6N_A	2N40_A	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|Q9BWD3|RTL8A_HUMAN	50.0	1L6N_A	6R24_C	6R24_C	6R24_C
+sp|P04591|GAG_HV1H2	sp|Q9BWD3|RTL8A_HUMAN	50.0	1L6N_A	6R24_C	6R23_B	6R23_B
+sp|P04601|NEF_HV1H2	sp|A0A0B4J275|TVA17_HUMAN	50.0	3TB8_A	2J8U_L	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01709|LV208_HUMAN	50.0	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	tr|A0A075B7E8|A0A075B7E8_HUMAN	50.0	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|P0CF74|IGLC6_HUMAN	50.0	2X7L_R	6U07_A	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|Q15334|L2GL1_HUMAN	50.0	1ESX_A	6N8S_A	5JK7_F	5JK7_E
+sp|P04585|POL_HV1H2	sp|Q17RB0|RTL8B_HUMAN	49.9	1L6N_A	6R24_C	6R24_C	6R24_C
+sp|P04591|GAG_HV1H2	sp|Q17RB0|RTL8B_HUMAN	49.9	1L6N_A	6R24_C	6R23_B	6R23_B
+sp|P69726|VPR_HV1H2	sp|Q5VXD3|SAM13_HUMAN	49.9	1ESX_A	1PK1_B	4Z8L_B	4Z8L_F
+sp|Q8N109|KI2LA_HUMAN	sp|P04601|NEF_HV1H2	49.9	3WYR_B	3TB8_A	5XOV_H	3TB8_A
+tr|A0A0G2JPC4|A0A0G2JPC4_HUMAN	sp|P04601|NEF_HV1H2	49.9	3WYR_B	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|P30511|HLAF_HUMAN	49.8	6PWU_E	6AT5_A	2CMR_A	5X08_H
+sp|P04585|POL_HV1H2	sp|A0A0B4J277|TVA22_HUMAN	49.8	1L6N_A	4MNQ_D	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O95751|LDOC1_HUMAN	49.8	1L6N_A	6R23_B	6R24_C	6R24_C
+sp|P04591|GAG_HV1H2	sp|A0A075B6S6|KVD30_HUMAN	49.8	1L6N_A	6BPC_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J277|TVA22_HUMAN	49.8	1L6N_A	4MNQ_D	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O95751|LDOC1_HUMAN	49.8	1L6N_A	6R23_B	6R23_B	6R23_B
+sp|P04601|NEF_HV1H2	sp|A0A0B4J1V1|HV321_HUMAN	49.8	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0B4J277|TVA22_HUMAN	49.8	3TB8_A	4MNQ_D	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P0DP08|HVD82_HUMAN	49.8	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q99603|TRGV9_HUMAN	49.8	3TB8_A	6QD6_G	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|P01718|LV327_HUMAN	49.8	2X7L_R	6ULC_L	5DHX_C	6CVK_A
+sp|Q03431|PTH1R_HUMAN	sp|P04578|ENV_HV1H2	49.8	6NBH_R	6PWU_E	6MEO_B	3J70_P
+tr|A0A0G2JN68|A0A0G2JN68_HUMAN	sp|P04601|NEF_HV1H2	49.8	3WYR_B	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|Q7Z6A9|BTLA_HUMAN	49.7	6PWU_E	5OR7_C	6FY1_G	4HJJ_H
+sp|P04585|POL_HV1H2	sp|A0A0B4J273|TVA34_HUMAN	49.7	1L6N_A	5WKH_I	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q8IWT1|SCN4B_HUMAN	49.7	1L6N_A	5XSY_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J1V7|HV781_HUMAN	49.7	1L6N_A	3U1S_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J273|TVA34_HUMAN	49.7	1L6N_A	5WKH_I	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8IWT1|SCN4B_HUMAN	49.7	1L6N_A	5XSY_B	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH25|KVD20_HUMAN	49.7	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q6XZF7|DNMBP_HUMAN	49.7	3TB8_A	3GF9_A	4U5W_C	4U5W_B
+sp|P43629|KI3L1_HUMAN	sp|P04585|POL_HV1H2	49.7	3VH8_H	1L6N_A	5T70_G	3GV2_A
+sp|P43629|KI3L1_HUMAN	sp|P04591|GAG_HV1H2	49.7	3VH8_H	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q9GZV7|HPLN2_HUMAN	49.6	6PWU_E	2N40_A	6FY1_G	4HJJ_H
+sp|A0JD37|TRDV3_HUMAN	sp|P04585|POL_HV1H2	49.6	1YJD_C	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q6ICC9|RTL6_HUMAN	49.6	1L6N_A	6R24_C	6R24_C	6R24_C
+sp|P04585|POL_HV1H2	sp|Q6PIL6|KCIP4_HUMAN	49.6	1L6N_A	2JUL_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9H7M9|VISTA_HUMAN	49.6	1L6N_A	6OIL_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q6ICC9|RTL6_HUMAN	49.6	1L6N_A	6R24_C	6R23_B	6R23_B
+sp|P04591|GAG_HV1H2	sp|Q6PIL6|KCIP4_HUMAN	49.6	1L6N_A	2JUL_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9H7M9|VISTA_HUMAN	49.6	1L6N_A	6OIL_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q8N5V2|NGEF_HUMAN	49.6	3TB8_A	6L30_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A075B6I3|LVK55_HUMAN	49.6	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01714|LV319_HUMAN	49.6	2X7L_R	6ULC_L	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|P33681|CD80_HUMAN	49.6	2X7L_R	1I8L_A	2X7L_R	5I8O_L
+sp|P69726|VPR_HV1H2	sp|Q9Y6Y8|S23IP_HUMAN	49.6	1ESX_A	3IDW_A	5AJA_B	5AJA_C
+sp|Q96DU3|SLAF6_HUMAN	sp|P04601|NEF_HV1H2	49.6	2IF7_D	3TB8_A	5XOV_H	3TB8_A
+sp|P04585|POL_HV1H2	sp|A0A075B6J6|LV322_HUMAN	49.5	1L6N_A	6HD8_A	2XT1_A	6FPV_A
+sp|A0A0K0K1B3|TVB30_HUMAN	sp|P04585|POL_HV1H2	49.5	1G6R_C	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|P20807|CAN3_HUMAN	49.5	1L6N_A	1KFU_L	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6J6|LV322_HUMAN	49.5	1L6N_A	6HD8_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P20807|CAN3_HUMAN	49.5	1L6N_A	1KFU_L	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A0A0MRZ7|KVD26_HUMAN	49.5	3TB8_A	6BPB_B	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0B4J274|TVA20_HUMAN	49.5	3TB8_A	2CDE_C	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A087WSZ9|TVA30_HUMAN	49.5	2X7L_R	5WKF_I	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0A0MRZ7|KVD26_HUMAN	49.5	2X7L_R	6BPB_B	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|P0CG04|IGLC1_HUMAN	49.5	2X7L_R	6U07_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P0DP01|HV108_HUMAN	49.5	2X7L_R	3U1S_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P0DTU3|TRAR2_HUMAN	49.5	2X7L_R	5YXU_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q6BAA4|FCRLB_HUMAN	49.5	2X7L_R	3RJD_A	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q9UIB8|SLAF5_HUMAN	49.5	2X7L_R	3ALX_D	2X7L_R	5I8O_H
+sp|Q8IY92|SLX4_HUMAN	sp|P69723|VIF_HV1H2	49.5	4ZOU_A	4N9F_b	6P59_Z	6P59_B
+sp|P69723|VIF_HV1H2	sp|Q96C00|ZBTB9_HUMAN	49.5	4N9F_b	3GA1_B	4N9F_b	4AJY_C
+sp|Q86SQ3|AGRE4_HUMAN	sp|P04578|ENV_HV1H2	49.5	6FJ3_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|O75038|PLCH2_HUMAN	49.4	1L6N_A	4GNK_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P0CW24|PNM6A_HUMAN	49.4	1L6N_A	6TAU_A	6R24_C	6R24_C
+sp|P04585|POL_HV1H2	sp|P0DPF4|TVA35_HUMAN	49.4	1L6N_A	5W1W_D	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q96Q77|CIB3_HUMAN	49.4	1L6N_A	6OCX_D	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|O75038|PLCH2_HUMAN	49.4	1L6N_A	4GNK_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P0CW24|PNM6A_HUMAN	49.4	1L6N_A	6TAU_A	6R23_B	6R23_B
+sp|P04591|GAG_HV1H2	sp|P0DPF4|TVA35_HUMAN	49.4	1L6N_A	5W1W_D	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q96Q77|CIB3_HUMAN	49.4	1L6N_A	6OCX_D	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH35|HV335_HUMAN	49.4	3TB8_A	6QNO_H	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q76NI1|KNDC1_HUMAN	49.4	3MI9_C	6AXF_G	4OGR_D	4OR5_F
+sp|P04618|REV_HV1H2	sp|A0M8Q6|IGLC7_HUMAN	49.4	2X7L_R	6U07_A	2X7L_R	5I8O_H
+sp|P04578|ENV_HV1H2	sp|A0A1B0GX31|TVB76_HUMAN	49.3	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|Q9H7M9|VISTA_HUMAN	49.3	6PWU_E	6OIL_A	3U2S_C	5N2K_F
+sp|P04585|POL_HV1H2	sp|P42081|CD86_HUMAN	49.3	1L6N_A	5OR7_C	1R0A_A	1HYS_D
+sp|P04601|NEF_HV1H2	sp|A0A0J9YXX1|HV5X1_HUMAN	49.3	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q8IW93|ARHGJ_HUMAN	49.3	3TB8_A	6L30_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9Y4F4|TGRM1_HUMAN	49.3	3TB8_A	5DN7_A	6OWT_N	6QH5_B
+sp|P04608|TAT_HV1H2	sp|Q496M5|PLK5_HUMAN	49.3	3MI9_C	4RS6_B	4OGR_D	4OR5_F
+sp|P04618|REV_HV1H2	sp|Q86TB3|ALPK2_HUMAN	49.3	2X7L_R	4ZMF_A	5DHX_C	6CVK_A
+sp|P69726|VPR_HV1H2	sp|Q6PCD5|RFWD3_HUMAN	49.3	1ESX_A	6CVZ_B	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q9UJX5|APC4_HUMAN	49.3	1ESX_A	6TM5_I	5JK7_F	5JK7_E
+sp|P08240|SRPRA_HUMAN	sp|P04601|NEF_HV1H2	49.3	5L3Q_B	3TB8_A	6CRI_L	6CRI_Z
+sp|A0A087WT03|TVAZ1_HUMAN	sp|P04578|ENV_HV1H2	49.2	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|P10915|HPLN1_HUMAN	49.2	1L6N_A	2PF5_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P06315|KV502_HUMAN	49.2	1L6N_A	6BPC_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P10915|HPLN1_HUMAN	49.2	1L6N_A	2PF5_B	2XT1_A	6FPV_A
+sp|P04608|TAT_HV1H2	sp|Q9BRS2|RIOK1_HUMAN	49.2	3MI9_C	6G5I_z	3MI9_C	3MI9_A
+sp|P04618|REV_HV1H2	sp|A0A075B6I1|LV460_HUMAN	49.2	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0B4J2E0|TVBL4_HUMAN	49.2	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01705|LV223_HUMAN	49.2	2X7L_R	6ULC_L	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|P01742|HV169_HUMAN	49.2	2X7L_R	3U1S_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q96DU3|SLAF6_HUMAN	49.2	2X7L_R	2IF7_D	2X7L_R	5I8O_H
+sp|P69723|VIF_HV1H2	sp|Q9BWV3|CDAC1_HUMAN	49.2	4N9F_b	2W4L_D	6NIL_F	5HX4_A
+sp|P59537|T2R43_HUMAN	sp|P04578|ENV_HV1H2	49.2	5IU7_A	6PWU_E	6MEO_B	3J70_P
+sp|A0A0B4J268|TVA4_HUMAN	sp|P04578|ENV_HV1H2	49.1	6AT6_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|P42166|LAP2A_HUMAN	49.1	1L6N_A	1GJJ_A	6U8Q_C	6U8Q_C
+sp|P04585|POL_HV1H2	sp|Q15116|PDCD1_HUMAN	49.1	1L6N_A	5WT9_G	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH35|HV335_HUMAN	49.1	1L6N_A	6QNO_H	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6K6|LV403_HUMAN	49.1	3TB8_A	4YO0_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01700|LV147_HUMAN	49.1	3TB8_A	6HD8_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0B4J2H0|HV69D_HUMAN	49.1	2X7L_R	3U1S_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0J9YVY3|HV741_HUMAN	49.1	2X7L_R	3U1S_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01715|LV301_HUMAN	49.1	2X7L_R	6HD8_A	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	tr|A0A075B7E8|A0A075B7E8_HUMAN	49.1	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|Q96K62|ZBT45_HUMAN	sp|P69723|VIF_HV1H2	49.1	2N26_A	4N9F_b	6P59_Z	6P59_B
+sp|P04578|ENV_HV1H2	sp|A0A5A2|TVB58_HUMAN	49.0	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A0A0K0K1E9|TVB77_HUMAN	49.0	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0K0K1E9|TVB77_HUMAN	49.0	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P0DP01|HV108_HUMAN	49.0	1L6N_A	3U1S_H	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|P01715|LV301_HUMAN	49.0	3TB8_A	6HD8_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01742|HV169_HUMAN	49.0	3TB8_A	3U1S_H	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|O75023|LIRB5_HUMAN	49.0	2X7L_R	6AED_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|O75339|CILP1_HUMAN	49.0	2X7L_R	6TM6_A	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q9UKI3|VPRE3_HUMAN	49.0	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P0DSN6|T2R33_HUMAN	sp|P04578|ENV_HV1H2	49.0	4GRV_A	6PWU_E	6MEO_B	3J70_P
+sp|P59539|T2R45_HUMAN	sp|P04578|ENV_HV1H2	49.0	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|A0A1B0GX51|TVB78_HUMAN	48.9	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P55082|MFAP3_HUMAN	sp|P04578|ENV_HV1H2	48.9	6J8H_C	6PWU_E	6MET_A	3J70_P
+sp|P04585|POL_HV1H2	sp|Q5SQ64|LY66F_HUMAN	48.9	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P16112|PGCA_HUMAN	48.9	1L6N_A	2PF5_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q5SQ64|LY66F_HUMAN	48.9	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q6UWV2|MPZL3_HUMAN	48.9	1L6N_A	5XSY_B	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|P01714|LV319_HUMAN	48.9	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|P01721|LV657_HUMAN	48.9	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P23083|HV102_HUMAN	48.9	2X7L_R	3U1S_H	2X7L_R	5I8O_H
+sp|P04578|ENV_HV1H2	sp|A0A578|TVB51_HUMAN	48.8	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A0A075B6H8|KVD42_HUMAN	48.8	1L6N_A	6BPA_F	1R0A_A	2XKN_C
+sp|P04585|POL_HV1H2	sp|A0A0A0MRZ7|KVD26_HUMAN	48.8	1L6N_A	6BPB_B	1R0A_A	2XKN_C
+sp|P04585|POL_HV1H2	sp|A0A0B4J248|TVA11_HUMAN	48.8	1L6N_A	2NW2_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P04632|CPNS1_HUMAN	48.8	1L6N_A	4PHJ_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q8WWF8|CAPSL_HUMAN	48.8	1L6N_A	3E3R_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q96S86|HPLN3_HUMAN	48.8	1L6N_A	2PF5_B	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|A0A0B4J248|TVA11_HUMAN	48.8	1L6N_A	2NW2_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH39|HV158_HUMAN	48.8	1L6N_A	3U1S_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P04632|CPNS1_HUMAN	48.8	1L6N_A	4PHJ_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8WWF8|CAPSL_HUMAN	48.8	1L6N_A	3E3R_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|Q96D42|HAVR1_HUMAN	48.8	3TB8_A	5DZO_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0C4DH35|HV335_HUMAN	48.8	2X7L_R	6QNO_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q15116|PDCD1_HUMAN	48.8	2X7L_R	5WT9_G	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q9HCN6|GPVI_HUMAN	48.8	2X7L_R	2GI7_A	2X7L_R	5I8O_L
+sp|P69723|VIF_HV1H2	sp|O15209|ZBT22_HUMAN	48.8	4N9F_b	3ZMS_C	4N9F_b	4AJY_C
+sp|P04578|ENV_HV1H2	sp|P06729|CD2_HUMAN	48.7	6PWU_E	1HNF_A	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|A0A0B4J272|TVA24_HUMAN	48.7	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O14829|PPE1_HUMAN	48.7	1L6N_A	5JJT_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6H8|KVD42_HUMAN	48.7	1L6N_A	6BPA_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J272|TVA24_HUMAN	48.7	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH68|KV224_HUMAN	48.7	1L6N_A	6BPC_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O14829|PPE1_HUMAN	48.7	1L6N_A	5JJT_B	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|P06315|KV502_HUMAN	48.7	3TB8_A	6BPC_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P16112|PGCA_HUMAN	48.7	3TB8_A	2PF5_B	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q5T2T1|MPP7_HUMAN	48.7	3TB8_A	2XKX_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|O60939|SCN2B_HUMAN	48.7	2X7L_R	6J8H_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01733|TVBL3_HUMAN	48.7	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P15391|CD19_HUMAN	48.7	2X7L_R	6AL5_A	5DHX_C	6CVK_A
+sp|Q9Y2K1|ZBTB1_HUMAN	sp|P69723|VIF_HV1H2	48.7	5V3J_F	4N9F_b	6P59_Z	6P59_B
+sp|P04578|ENV_HV1H2	sp|A0A0B4J262|TVA86_HUMAN	48.6	6PWU_E	2J8U_L	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|A0A599|TVB56_HUMAN	48.6	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|O43852|CALU_HUMAN	48.6	1L6N_A	4I5L_E	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9BV35|SCMC3_HUMAN	48.6	1L6N_A	4C9G_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|O43852|CALU_HUMAN	48.6	1L6N_A	4I5L_E	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9BV35|SCMC3_HUMAN	48.6	1L6N_A	4C9G_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J2H0|HV69D_HUMAN	48.6	3TB8_A	3U1S_H	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q8N1I0|DOCK4_HUMAN	48.6	3TB8_A	2YIN_A	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|Q6VY07|PACS1_HUMAN	48.6	3MI9_C	6MZM_G	3MI9_C	2PK2_B
+sp|P69726|VPR_HV1H2	sp|Q8WWN8|ARAP3_HUMAN	48.6	1ESX_A	3LJU_X	4Z8L_B	4Z8L_F
+sp|Q14943|KI3S1_HUMAN	sp|P04585|POL_HV1H2	48.6	3VH8_H	1L6N_A	5T70_G	3GV2_A
+sp|Q14943|KI3S1_HUMAN	sp|P04591|GAG_HV1H2	48.6	3VH8_H	1L6N_A	5T70_G	3GV2_A
+sp|A0A0B4J234|TVA2_HUMAN	sp|P04578|ENV_HV1H2	48.5	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|A0A0B4J265|TVAZ2_HUMAN	sp|P04578|ENV_HV1H2	48.5	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|A0A1B0GX56|TRDV1_HUMAN	48.5	6PWU_E	5YXU_A	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|Q08708|CLM6_HUMAN	48.5	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q8IY85|EFC13_HUMAN	48.5	1L6N_A	4IL1_C	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q08708|CLM6_HUMAN	48.5	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8IY85|EFC13_HUMAN	48.5	1L6N_A	4IL1_C	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH67|KV108_HUMAN	48.5	3TB8_A	6BPC_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A6NI72|NCF1B_HUMAN	48.5	3TB8_A	1UEC_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|A8MVU1|NCF1C_HUMAN	48.5	3TB8_A	1UEC_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|P14598|NCF1_HUMAN	48.5	3TB8_A	1UEC_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q12774|ARHG5_HUMAN	48.5	3TB8_A	6L30_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	tr|A0A075B7D0|A0A075B7D0_HUMAN	48.5	3TB8_A	3U1S_H	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0B4J245|TVAL1_HUMAN	48.5	2X7L_R	2CDE_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0B4J276|TVA25_HUMAN	48.5	2X7L_R	5WKF_I	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0C4DH36|HV338_HUMAN	48.5	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|Q13049|TRI32_HUMAN	48.5	1ESX_A	6ID1_r	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q8IVG5|SAM9L_HUMAN	48.5	1ESX_A	1PK1_B	4Z8L_B	4Z8L_F
+sp|P04578|ENV_HV1H2	sp|A0A075B6I7|LV548_HUMAN	48.4	6PWU_E	6HD8_A	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|Q5T2D2|TRML2_HUMAN	48.4	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q5T2D2|TRML2_HUMAN	48.4	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6T7|TVA6_HUMAN	48.4	3TB8_A	1LP9_E	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH39|HV158_HUMAN	48.4	3TB8_A	3U1S_H	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P0DP01|HV108_HUMAN	48.4	3TB8_A	3U1S_H	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9UKI3|VPRE3_HUMAN	48.4	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0B4J274|TVA20_HUMAN	48.4	2X7L_R	2CDE_C	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|A0A0J9YXX1|HV5X1_HUMAN	48.4	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|Q8WXG9|AGRV1_HUMAN	sp|P04578|ENV_HV1H2	48.4	5Y2Z_F	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q8TDQ1|CLM1_HUMAN	48.3	6PWU_E	5OR7_C	6NIJ_B	3U1S_H
+sp|P04601|NEF_HV1H2	sp|A0A075B6H9|LV469_HUMAN	48.3	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A087WT01|TVA27_HUMAN	48.3	3TB8_A	3QDM_D	4ORZ_B	5MZV_D
+sp|A0A1B0GX68|TVB2_HUMAN	sp|P04601|NEF_HV1H2	48.3	1YJD_C	3TB8_A	5XOV_H	3TB8_A
+sp|Q86UW8|HPLN4_HUMAN	sp|P04601|NEF_HV1H2	48.3	2N40_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04618|REV_HV1H2	sp|A0A0B4J277|TVA22_HUMAN	48.3	2X7L_R	4MNQ_D	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|P01709|LV208_HUMAN	48.3	2X7L_R	6ULC_L	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|O75843|AP1G2_HUMAN	48.3	2N28_A	6OWT_A	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q6KC79|NIPBL_HUMAN	48.3	2N28_A	6WGE_E	4P6Z_V	4P6Z_B
+sp|A0A087WSZ9|TVA30_HUMAN	sp|P04585|POL_HV1H2	48.2	5WKF_I	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|A0A0B4J1U4|TRGV5_HUMAN	48.2	1L6N_A	5GIS_H	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P04435|TVB79_HUMAN	48.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q6UX98|ZDH24_HUMAN	48.2	1L6N_A	6BML_B	6UCA_B	6UCA_D
+sp|P04591|GAG_HV1H2	sp|A0A0B4J1U4|TRGV5_HUMAN	48.2	1L6N_A	5GIS_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P04435|TVB79_HUMAN	48.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q6UX98|ZDH24_HUMAN	48.2	1L6N_A	6BML_B	6UCA_D	6UCA_B
+sp|P04601|NEF_HV1H2	sp|A0A0B4J1U3|LV136_HUMAN	48.2	3TB8_A	6HD8_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0B4J276|TVA25_HUMAN	48.2	3TB8_A	5WKF_I	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P01699|LV144_HUMAN	48.2	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|Q92989|CLP1_HUMAN	sp|P04601|NEF_HV1H2	48.2	4OHW_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	tr|S4R460|S4R460_HUMAN	48.2	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A075B6T7|TVA6_HUMAN	48.2	2X7L_R	1LP9_E	2X7L_R	5I8O_H
+sp|P63124|VPK04_HUMAN	sp|P04585|POL_HV1H2	48.1	3SQF_B	1L6N_A	3SQF_B	1NSO_A
+sp|P04585|POL_HV1H2	tr|A0A075B6H5|A0A075B6H5_HUMAN	48.1	1L6N_A	2WBJ_D	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6H5|A0A075B6H5_HUMAN	48.1	1L6N_A	2WBJ_D	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0A0MS15|HV349_HUMAN	48.1	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P03979|TRGV3_HUMAN	48.1	3TB8_A	5GIS_H	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q8NDA8|MROH1_HUMAN	48.1	3TB8_A	6BCU_A	6OWT_N	6QH5_B
+sp|P69723|VIF_HV1H2	sp|P35544|UBIM_HUMAN	48.1	4N9F_b	4KZY_e	4N9F_b	2MA9_B
+sp|A0A075B6T8|TVA91_HUMAN	sp|P04578|ENV_HV1H2	48.0	2J8U_L	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A0B4J249|TVA5_HUMAN	48.0	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+tr|A0A191URJ7|A0A191URJ7_HUMAN	sp|P04585|POL_HV1H2	48.0	1B6U_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J249|TVA5_HUMAN	48.0	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A1X283|SPD2B_HUMAN	48.0	3TB8_A	2DYB_A	4U5W_C	4U5W_B
+sp|P0DJR0|GIMD1_HUMAN	sp|P04601|NEF_HV1H2	48.0	3LXX_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	tr|A0A087WW49|A0A087WW49_HUMAN	48.0	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0B4J275|TVA17_HUMAN	48.0	2X7L_R	2J8U_L	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0K0K1E9|TVB77_HUMAN	48.0	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A0G2JN01|A0A0G2JN01_HUMAN	48.0	2X7L_R	3VH8_H	2X7L_R	5I8O_H
+sp|Q9P2K6|KLH42_HUMAN	sp|P69723|VIF_HV1H2	48.0	4YY8_B	4N9F_b	6P59_Z	6P59_B
+sp|P59544|T2R50_HUMAN	sp|P04578|ENV_HV1H2	48.0	4BUO_B	6PWU_E	6MEO_B	3J70_P
+tr|A0A191URJ7|A0A191URJ7_HUMAN	sp|P04591|GAG_HV1H2	48.0	1B6U_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|Q6UXZ3|CLM5_HUMAN	47.9	6PWU_E	5OR7_C	3J70_P	4Q6I_J
+sp|A8MTB9|CEA18_HUMAN	sp|P04585|POL_HV1H2	47.9	5LFV_B	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q9BXY5|CAYP2_HUMAN	47.9	1L6N_A	6U42_6	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9BXY5|CAYP2_HUMAN	47.9	1L6N_A	6U42_6	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH42|HV366_HUMAN	47.9	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P49815|TSC2_HUMAN	47.9	3TB8_A	5HIU_A	6OWT_N	6QH5_B
+sp|P04601|NEF_HV1H2	sp|Q5TCZ1|SPD2A_HUMAN	47.9	3TB8_A	2DYB_A	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|P13646|K1C13_HUMAN	47.9	3MI9_C	3TNU_B	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A087WT01|TVA27_HUMAN	47.9	2X7L_R	3QDM_D	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0B4J1Y9|HV372_HUMAN	47.9	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P10966|CD8B_HUMAN	47.9	2X7L_R	6J8J_B	2X7L_R	5I8O_H
+sp|P69723|VIF_HV1H2	sp|Q8WVY7|UBCP1_HUMAN	47.9	4N9F_b	3SHQ_A	4N9F_b	2MA9_B
+sp|Q96IK5|GMCL1_HUMAN	sp|P69723|VIF_HV1H2	47.9	3HVE_B	4N9F_b	6P59_Z	6P59_B
+sp|A8MTB9|CEA18_HUMAN	sp|P04591|GAG_HV1H2	47.9	5LFV_B	1L6N_A	5T70_G	3GV2_A
+sp|Q92802|N42L2_HUMAN	sp|P04601|NEF_HV1H2	47.9	4MDE_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04585|POL_HV1H2	sp|A0A0C4DH28|TRGV4_HUMAN	47.8	1L6N_A	5I0Z_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q8TDQ1|CLM1_HUMAN	47.8	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q9GZV7|HPLN2_HUMAN	47.8	1L6N_A	2N40_A	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|A0A0B4J2H0|HV69D_HUMAN	47.8	1L6N_A	3U1S_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH28|TRGV4_HUMAN	47.8	1L6N_A	5I0Z_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8TDQ1|CLM1_HUMAN	47.8	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q14168|MPP2_HUMAN	47.8	3TB8_A	2XKX_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A087WSX0|LV545_HUMAN	47.8	2X7L_R	6HD8_A	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|Q9BY44|EIF2A_HUMAN	47.8	1ESX_A	6GSN_p	5JK7_F	5JK7_E
+sp|P34998|CRFR1_HUMAN	sp|P04578|ENV_HV1H2	47.8	4Z9G_A	6PWU_E	6MEO_B	3J70_P
+sp|Q6BAA4|FCRLB_HUMAN	sp|P04601|NEF_HV1H2	47.8	3RJD_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q7RTR8|T2R42_HUMAN	sp|P04578|ENV_HV1H2	47.8	6D27_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|P10321|HLAC_HUMAN	47.7	6PWU_E	6AT5_A	2CMR_A	5X08_H
+sp|P04578|ENV_HV1H2	tr|A0A0G2JP03|A0A0G2JP03_HUMAN	47.7	6PWU_E	1NKR_A	6UM5_E	6CBP_A
+sp|P04578|ENV_HV1H2	tr|A0A5K1VDZ0|A0A5K1VDZ0_HUMAN	47.7	6PWU_E	3VH8_H	6UM5_E	6CBP_A
+sp|P04585|POL_HV1H2	sp|O95843|GUC1C_HUMAN	47.7	1L6N_A	2GGZ_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|O95843|GUC1C_HUMAN	47.7	1L6N_A	2GGZ_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P01742|HV169_HUMAN	47.7	1L6N_A	3U1S_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|S4R460|S4R460_HUMAN	47.7	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A2RTY3|HEAT9_HUMAN	47.7	3TB8_A	1OYZ_A	4NEE_K	2JKT_A
+sp|P04601|NEF_HV1H2	sp|O94973|AP2A2_HUMAN	47.7	3TB8_A	6OWT_A	6CRI_Z	6CRI_R
+sp|Q96N03|VTM2L_HUMAN	sp|P04578|ENV_HV1H2	47.6	6VEP_O	6PWU_E	6NM6_D	6MTJ_B
+sp|P04601|NEF_HV1H2	sp|Q96GW7|PGCB_HUMAN	47.6	3TB8_A	2N40_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|P0DOY3|IGLC3_HUMAN	47.6	2X7L_R	6U07_A	2X7L_R	5I8O_H
+sp|P04578|ENV_HV1H2	sp|A0A597|TVB55_HUMAN	47.5	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P26992|CNTFR_HUMAN	47.5	6PWU_E	1N26_A	3J70_P	4Q6I_J
+sp|P04578|ENV_HV1H2	sp|Q30201|HFE_HUMAN	47.5	6PWU_E	1A6Z_C	5ESV_G	5KG9_H
+sp|P04578|ENV_HV1H2	sp|Q7Z6M3|MILR1_HUMAN	47.5	6PWU_E	5OR7_C	2NY2_A	4HJJ_L
+sp|P04578|ENV_HV1H2	sp|Q96H15|TIMD4_HUMAN	47.5	6PWU_E	5F7H_A	3U2S_C	5N2K_F
+sp|P04578|ENV_HV1H2	tr|A0A075B6U6|A0A075B6U6_HUMAN	47.5	6PWU_E	5I0Z_A	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A0A0A6YYK7|TVA19_HUMAN	47.5	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P23327|SRCH_HUMAN	47.5	1L6N_A	5TTE_B	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q9Y534|CSDC2_HUMAN	47.5	1L6N_A	3AQQ_B	5UDZ_B	5UDZ_B
+sp|P04591|GAG_HV1H2	sp|A0A087WT01|TVA27_HUMAN	47.5	1L6N_A	3QDM_D	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0A6YYK7|TVA19_HUMAN	47.5	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P23083|HV102_HUMAN	47.5	1L6N_A	3U1S_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P23327|SRCH_HUMAN	47.5	1L6N_A	5TTE_B	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q9Y534|CSDC2_HUMAN	47.5	1L6N_A	3AQQ_B	5UDZ_B	5UDZ_B
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH36|HV338_HUMAN	47.5	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O75843|AP1G2_HUMAN	47.5	3TB8_A	6OWT_A	6CRI_Z	6CRI_I
+sp|P04601|NEF_HV1H2	sp|P57075|UBS3A_HUMAN	47.5	3TB8_A	3D4I_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q92968|PEX13_HUMAN	47.5	3TB8_A	2ABL_A	4U5W_C	4U5W_B
+sp|Q9P1A2|PP4RL_HUMAN	sp|P04601|NEF_HV1H2	47.5	3VWA_A	3TB8_A	4NEE_G	3TB8_A
+sp|P04618|REV_HV1H2	sp|A0A0A0MS14|HV145_HUMAN	47.5	2X7L_R	3U1S_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P04440|DPB1_HUMAN	47.5	2X7L_R	6PY2_B	2X7L_R	5I8O_H
+sp|C9JR72|KBTBD_HUMAN	sp|P69723|VIF_HV1H2	47.5	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|A8MVS5|HIDE1_HUMAN	sp|P04585|POL_HV1H2	47.5	6CPL_A	1L6N_A	6CPL_A	2XXM_A
+sp|A8MVS5|HIDE1_HUMAN	sp|P04591|GAG_HV1H2	47.5	6CPL_A	1L6N_A	6CPL_A	2XXM_A
+sp|P47872|SCTR_HUMAN	sp|P04578|ENV_HV1H2	47.5	6FJ3_A	6PWU_E	6MEO_B	3J70_P
+sp|Q86TB3|ALPK2_HUMAN	sp|P04585|POL_HV1H2	47.5	4ZMF_A	1L6N_A	5T70_G	3GV2_A
+sp|Q86TB3|ALPK2_HUMAN	sp|P04591|GAG_HV1H2	47.5	4ZMF_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9UKJ0|PILRB_HUMAN	sp|P04578|ENV_HV1H2	47.4	5OR7_C	6PWU_E	6NM6_U	6MTJ_B
+sp|P04585|POL_HV1H2	sp|A0A075B6J2|LV233_HUMAN	47.4	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A0K0K1D8|TVB61_HUMAN	47.4	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q9C0B9|ZCHC2_HUMAN	47.4	1L6N_A	6TAS_F	6R24_C	6R24_C
+sp|P04591|GAG_HV1H2	sp|A0A075B6J2|LV233_HUMAN	47.4	1L6N_A	6ULC_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0K0K1D8|TVB61_HUMAN	47.4	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q9C0B9|ZCHC2_HUMAN	47.4	1L6N_A	6TAS_F	6R23_B	6R23_B
+sp|P04601|NEF_HV1H2	sp|A0A075B6R9|KVD24_HUMAN	47.4	3TB8_A	6BPC_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P23083|HV102_HUMAN	47.4	3TB8_A	3U1S_H	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q6UXG8|BTNL9_HUMAN	47.4	3TB8_A	5HM7_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q86UR1|NOXA1_HUMAN	47.4	3TB8_A	1HH8_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	tr|A0A075B7B6|A0A075B7B6_HUMAN	47.4	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	tr|A0A0G2JMM0|A0A0G2JMM0_HUMAN	47.4	2X7L_R	3VH8_H	2X7L_R	5I8O_H
+sp|A0A0K2S4Q6|CD3CH_HUMAN	sp|P04578|ENV_HV1H2	47.3	5OR7_C	6PWU_E	6UDK_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|P13765|DOB_HUMAN	47.3	6PWU_E	4I0P_D	4I3S_G	6UCF_H
+sp|P04578|ENV_HV1H2	sp|Q14953|KI2S5_HUMAN	47.3	6PWU_E	1NKR_A	3U2S_C	5N2K_F
+sp|Q5T2D2|TRML2_HUMAN	sp|P04578|ENV_HV1H2	47.3	5OR7_C	6PWU_E	6UDK_H	4TVP_G
+sp|P04601|NEF_HV1H2	sp|A0A0B4J1V2|HV226_HUMAN	47.3	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O75159|SOCS5_HUMAN	47.3	3TB8_A	2N34_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|P52306|GDS1_HUMAN	47.3	3TB8_A	5XGC_A	6OWT_N	6QH5_B
+sp|P04601|NEF_HV1H2	sp|Q9NZC2|TREM2_HUMAN	47.3	3TB8_A	5UD7_B	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A075B6H8|KVD42_HUMAN	47.3	2X7L_R	6BPA_F	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q8TD46|MO2R1_HUMAN	47.3	2X7L_R	4BFG_A	2X7L_R	5I8O_H
+sp|P04585|POL_HV1H2	sp|A0A1B0GX31|TVB76_HUMAN	47.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A1B0GX31|TVB76_HUMAN	47.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A5B0|TVB14_HUMAN	47.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0JD37|TRDV3_HUMAN	47.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q7Z745|MRO2B_HUMAN	47.2	3TB8_A	3ND2_A	6OWT_N	6QH5_B
+sp|P04601|NEF_HV1H2	sp|Q96H15|TIMD4_HUMAN	47.2	3TB8_A	5F7H_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0JD37|TRDV3_HUMAN	47.2	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P04439|HLAA_HUMAN	47.2	2X7L_R	6AT5_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q6UXG3|CLM9_HUMAN	47.2	2X7L_R	5OR7_C	2X7L_R	5I8O_H
+sp|P43220|GLP1R_HUMAN	sp|P04578|ENV_HV1H2	47.2	6LN2_A	6PWU_E	6MEO_B	3J70_P
+sp|Q4W5N1|ABCAB_HUMAN	sp|P04601|NEF_HV1H2	47.2	2ANB_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|Q96S86|HPLN3_HUMAN	47.1	6PWU_E	2PF5_B	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	tr|A0A0G2JLQ3|A0A0G2JLQ3_HUMAN	47.1	6PWU_E	1NKR_A	3U2S_C	5N2K_F
+sp|P04601|NEF_HV1H2	sp|Q92608|DOCK2_HUMAN	47.1	3TB8_A	3B13_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9NZW5|MPP6_HUMAN	47.1	3TB8_A	2XKX_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A1B0GX51|TVB78_HUMAN	47.1	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|Q96P48|ARAP1_HUMAN	47.1	1ESX_A	3LJU_X	5AJA_B	5AJA_C
+sp|P32942|ICAM3_HUMAN	sp|P04601|NEF_HV1H2	47.1	1Z7Z_I	3TB8_A	5XOV_H	3TB8_A
+sp|P04585|POL_HV1H2	sp|A0A0B4J235|TVAM2_HUMAN	47.0	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A0B4J2E0|TVBL4_HUMAN	47.0	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|Q7Z6M3|MILR1_HUMAN	sp|P04585|POL_HV1H2	47.0	5OR7_C	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J235|TVAM2_HUMAN	47.0	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J2E0|TVBL4_HUMAN	47.0	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J237|TVA82_HUMAN	47.0	3TB8_A	6FUN_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A087X0M5|TVB18_HUMAN	47.0	2X7L_R	5WB2_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P0DPF4|TVA35_HUMAN	47.0	2X7L_R	5W1W_D	2X7L_R	5I8O_H
+sp|Q7Z6M3|MILR1_HUMAN	sp|P04591|GAG_HV1H2	47.0	5OR7_C	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A1B0GX78|TVBL5_HUMAN	46.9	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|A6NI73|LIRA5_HUMAN	46.9	6PWU_E	2D3V_A	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|O15442|MPPD1_HUMAN	46.9	1L6N_A	3RL5_A	6T8H_B	6T8H_A
+sp|P04585|POL_HV1H2	sp|O60671|RAD1_HUMAN	46.9	1L6N_A	6J8Y_C	6T8H_B	1IZ5_A
+sp|P04585|POL_HV1H2	sp|O60921|HUS1_HUMAN	46.9	1L6N_A	6J8Y_B	6T8H_B	1IZ5_A
+sp|P04585|POL_HV1H2	sp|P13686|PPA5_HUMAN	46.9	1L6N_A	1WAR_A	6T8H_B	6T8H_A
+sp|P04585|POL_HV1H2	sp|P49005|DPOD2_HUMAN	46.9	1L6N_A	3E0J_A	6T8H_B	6T8H_A
+sp|P04585|POL_HV1H2	sp|P49959|MRE11_HUMAN	46.9	1L6N_A	4YKE_B	6T8H_B	6T8H_A
+sp|P04585|POL_HV1H2	sp|P56282|DPOE2_HUMAN	46.9	1L6N_A	5VBN_E	6T8H_B	6T8H_A
+sp|P04585|POL_HV1H2	sp|Q14181|DPOA2_HUMAN	46.9	1L6N_A	4Y97_E	6T8H_B	6T8H_A
+sp|Q15777|MPPD2_HUMAN	sp|P04585|POL_HV1H2	46.9	3RL5_A	1L6N_A	6HMS_A	6T8H_B
+sp|Q3LIE5|ADPRM_HUMAN	sp|P04585|POL_HV1H2	46.9	2NXF_A	1L6N_A	6HMS_A	6T8H_B
+sp|P04585|POL_HV1H2	sp|Q53F39|MPPE1_HUMAN	46.9	1L6N_A	5UQ6_A	6T8H_B	6T8H_A
+sp|P04585|POL_HV1H2	sp|Q6WBX8|RAD9B_HUMAN	46.9	1L6N_A	6J8Y_A	6T8H_B	1IZ5_A
+sp|P04585|POL_HV1H2	sp|Q6ZT21|TMPPE_HUMAN	46.9	1L6N_A	1XM7_A	6T8H_B	6T8H_A
+sp|Q92485|ASM3B_HUMAN	sp|P04585|POL_HV1H2	46.9	5KAS_A	1L6N_A	6HMS_A	6T8H_B
+sp|P04585|POL_HV1H2	sp|Q99638|RAD9A_HUMAN	46.9	1L6N_A	6J8Y_A	6T8H_B	1IZ5_A
+sp|P04585|POL_HV1H2	sp|Q9BRF8|CPPED_HUMAN	46.9	1L6N_A	3TGH_A	6T8H_B	6T8H_A
+sp|P04585|POL_HV1H2	sp|Q9UBQ0|VPS29_HUMAN	46.9	1L6N_A	5OSI_A	6T8H_B	6T8H_A
+tr|A0A075B7B8|A0A075B7B8_HUMAN	sp|P04585|POL_HV1H2	46.9	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH38|HV551_HUMAN	46.9	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|A0A1B0GXF2|TVB72_HUMAN	sp|P04601|NEF_HV1H2	46.9	1YJD_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04601|NEF_HV1H2	sp|P06331|HV434_HUMAN	46.9	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9H106|SIRPD_HUMAN	46.9	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|O75175|CNOT3_HUMAN	46.9	3MI9_C	4C0D_C	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|P01889|HLAB_HUMAN	46.9	2X7L_R	6AT5_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P0DOY2|IGLC2_HUMAN	46.9	2X7L_R	6U07_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q99603|TRGV9_HUMAN	46.9	2X7L_R	6QD6_G	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q9GZV7|HPLN2_HUMAN	46.9	2X7L_R	2N40_A	2X7L_R	5I8O_H
+sp|P04585|POL_HV1H2	sp|A0A1B0GWK0|PVLEF_HUMAN	46.8	1L6N_A	4OCI_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9BUP0|EFHD1_HUMAN	46.8	1L6N_A	5I2Q_A	2MGU_M	5DOW_A
+tr|A0A0A0MS01|A0A0A0MS01_HUMAN	sp|P04585|POL_HV1H2	46.8	1YJD_C	1L6N_A	6ID4_C	1R0A_A
+tr|A0A0G2JMM0|A0A0G2JMM0_HUMAN	sp|P04585|POL_HV1H2	46.8	3VH8_H	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|A0A1B0GWK0|PVLEF_HUMAN	46.8	1L6N_A	4OCI_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9BUP0|EFHD1_HUMAN	46.8	1L6N_A	5I2Q_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J235|TVAM2_HUMAN	46.8	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q6ZV89|SH2D5_HUMAN	46.8	3TB8_A	5YI7_C	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A0G2JS06|LV539_HUMAN	46.8	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|O75022|LIRB3_HUMAN	46.8	2X7L_R	6AED_A	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	tr|A0A0G2JLM5|A0A0G2JLM5_HUMAN	46.8	2X7L_R	3VH8_H	2X7L_R	5I8O_H
+sp|Q9NYW0|T2R10_HUMAN	sp|P04578|ENV_HV1H2	46.8	5ZKP_A	6PWU_E	6MEO_B	3J70_P
+tr|A0A0G2JMM0|A0A0G2JMM0_HUMAN	sp|P04591|GAG_HV1H2	46.8	3VH8_H	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	tr|A0A087X0K7|A0A087X0K7_HUMAN	46.7	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|P13611|CSPG2_HUMAN	46.7	1L6N_A	2N40_A	2XT1_A	6FPV_A
+sp|Q15637|SF01_HUMAN	sp|P04585|POL_HV1H2	46.7	2M0G_A	1L6N_A	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|Q8WX77|IBPL1_HUMAN	46.7	1L6N_A	3TJQ_A	5O2U_C	5O2U_B
+sp|P04585|POL_HV1H2	sp|Q8WYQ9|ZCH14_HUMAN	46.7	1L6N_A	2FE9_A	6R24_C	6R24_C
+tr|A0A087X1L8|A0A087X1L8_HUMAN	sp|P04585|POL_HV1H2	46.7	1S7X_G	1L6N_A	6CPL_A	2XXM_A
+tr|A0A0G2JN01|A0A0G2JN01_HUMAN	sp|P04585|POL_HV1H2	46.7	3VH8_H	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|A0A0K0K1B3|TVB30_HUMAN	46.7	1L6N_A	1G6R_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P13611|CSPG2_HUMAN	46.7	1L6N_A	2N40_A	2XT1_A	6FPV_A
+sp|Q15637|SF01_HUMAN	sp|P04591|GAG_HV1H2	46.7	2M0G_A	1L6N_A	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|Q8WX77|IBPL1_HUMAN	46.7	1L6N_A	3TJQ_A	5O2U_C	5O2U_B
+sp|P04591|GAG_HV1H2	sp|Q8WYQ9|ZCH14_HUMAN	46.7	1L6N_A	2FE9_A	6R23_B	6R23_B
+sp|P04601|NEF_HV1H2	sp|A0A075B6R2|HV404_HUMAN	46.7	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0B4J1V7|HV781_HUMAN	46.7	3TB8_A	3U1S_H	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0B4J248|TVA11_HUMAN	46.7	3TB8_A	2NW2_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q00013|EM55_HUMAN	46.7	3TB8_A	2XKX_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	tr|A0A0A0MS02|A0A0A0MS02_HUMAN	46.7	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0JD32|TV382_HUMAN	46.7	2X7L_R	5YXU_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01893|HLAH_HUMAN	46.7	2X7L_R	6AT5_A	2X7L_R	5I8O_H
+sp|Q5T601|AGRF1_HUMAN	sp|P04578|ENV_HV1H2	46.7	4DLO_A	6PWU_E	6MEO_B	3J70_P
+tr|A0A087X1L8|A0A087X1L8_HUMAN	sp|P04591|GAG_HV1H2	46.7	1S7X_G	1L6N_A	6CPL_A	2XXM_A
+tr|A0A0G2JN01|A0A0G2JN01_HUMAN	sp|P04591|GAG_HV1H2	46.7	3VH8_H	1L6N_A	5T70_G	3GV2_A
+sp|A8MVZ5|BTNLA_HUMAN	sp|P04578|ENV_HV1H2	46.6	4HH8_A	6PWU_E	6MET_A	3J70_P
+sp|P04585|POL_HV1H2	sp|A0A0C4DH27|TRGV8_HUMAN	46.6	1L6N_A	5I0Z_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A0K2S4Q6|CD3CH_HUMAN	46.6	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q8NBX0|SCPDL_HUMAN	46.6	1L6N_A	4INA_A	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH27|TRGV8_HUMAN	46.6	1L6N_A	5I0Z_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0K2S4Q6|CD3CH_HUMAN	46.6	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8NBX0|SCPDL_HUMAN	46.6	1L6N_A	4INA_A	6TAS_D	6VTJ_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6H8|KVD42_HUMAN	46.6	3TB8_A	6BPA_F	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0JD32|TV382_HUMAN	46.6	3TB8_A	5YXU_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A075B6U4|TVA7_HUMAN	46.6	2X7L_R	5WB1_A	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|A0A1B0GX95|TVB74_HUMAN	46.6	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A6NJW9|CD8B2_HUMAN	46.6	2X7L_R	6J8J_B	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q9H106|SIRPD_HUMAN	46.6	2X7L_R	1YJD_C	2X7L_R	5I8O_L
+sp|Q8TCY9|URGCP_HUMAN	sp|P04601|NEF_HV1H2	46.6	2B8W_B	3TB8_A	6CRI_L	6CRI_Z
+sp|A0A087X0M5|TVB18_HUMAN	sp|P04578|ENV_HV1H2	46.5	5WB2_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A0A6YYC5|TVA14_HUMAN	46.5	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A0B4J238|TVA12_HUMAN	46.5	1L6N_A	4G8E_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O14830|PPE2_HUMAN	46.5	1L6N_A	5JJT_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A0A0A6YYC5|TVA14_HUMAN	46.5	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J238|TVA12_HUMAN	46.5	1L6N_A	4G8E_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O14830|PPE2_HUMAN	46.5	1L6N_A	5JJT_B	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH43|HV70D_HUMAN	46.5	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0K0K1D8|TVB61_HUMAN	46.5	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q99460|PSMD1_HUMAN	46.5	3TB8_A	4ADY_A	6OWT_N	6QH5_B
+sp|P04618|REV_HV1H2	sp|A0A075B6J6|LV322_HUMAN	46.5	2X7L_R	6HD8_A	5DHX_C	6CVK_A
+sp|A0A5B0|TVB14_HUMAN	sp|P04601|NEF_HV1H2	46.5	1YJD_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|Q495A1|TIGIT_HUMAN	46.4	6PWU_E	3UCR_C	3J70_P	4Q6I_J
+sp|P04578|ENV_HV1H2	tr|A0A376A8Z9|A0A376A8Z9_HUMAN	46.4	6PWU_E	1NKR_A	3U2S_C	5N2K_F
+sp|P04585|POL_HV1H2	sp|Q7Z6A9|BTLA_HUMAN	46.4	1L6N_A	5OR7_C	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|Q9NS61|KCIP2_HUMAN	46.4	1L6N_A	2JUL_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9NS61|KCIP2_HUMAN	46.4	1L6N_A	2JUL_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J264|TV381_HUMAN	46.4	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0B4J272|TVA24_HUMAN	46.4	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A7KAX9|RHG32_HUMAN	46.4	3TB8_A	5M6U_B	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|P01766|HV313_HUMAN	46.4	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P0DP07|HV431_HUMAN	46.4	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q8N3R9|MPP5_HUMAN	46.4	3TB8_A	4WSI_B	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	tr|A0A075B7F0|A0A075B7F0_HUMAN	46.4	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A1B0GX31|TVB76_HUMAN	46.4	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|Q9Y330|ZBT12_HUMAN	sp|P69723|VIF_HV1H2	46.4	3W5K_B	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|O94830|DDHD2_HUMAN	46.4	1ESX_A	1PK1_B	5AJA_B	5AJA_C
+sp|P0DTE0|T2R36_HUMAN	sp|P04578|ENV_HV1H2	46.4	6OSA_R	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|A8K4G0|CLM7_HUMAN	46.3	6PWU_E	5OR7_C	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|P84074|HPCA_HUMAN	46.3	1L6N_A	1BJF_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q08043|ACTN3_HUMAN	46.3	1L6N_A	4D1E_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P84074|HPCA_HUMAN	46.3	1L6N_A	1BJF_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q08043|ACTN3_HUMAN	46.3	1L6N_A	4D1E_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J1Y9|HV372_HUMAN	46.3	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q8IZD9|DOCK3_HUMAN	46.3	3TB8_A	3B13_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A075B6K2|LV312_HUMAN	46.3	2X7L_R	6HD8_A	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|P04211|LV743_HUMAN	46.3	2X7L_R	6ULC_L	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|P55899|FCGRN_HUMAN	46.3	2X7L_R	6FGB_A	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|Q9Y597|KCTD3_HUMAN	46.3	1ESX_A	4BGC_A	5JK7_F	5JK7_E
+sp|Q9BZW8|CD244_HUMAN	sp|P04601|NEF_HV1H2	46.3	6A69_B	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	tr|A0A075B6L6|A0A075B6L6_HUMAN	46.2	6PWU_E	5E9D_J	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	tr|A0A5F9ZH88|A0A5F9ZH88_HUMAN	46.2	6PWU_E	1NKR_A	6UM5_E	6CBP_A
+sp|P04585|POL_HV1H2	sp|A0A075B6R9|KVD24_HUMAN	46.2	1L6N_A	6BPC_F	1R0A_A	2XKN_C
+sp|A0A0C4DH30|HV316_HUMAN	sp|P04585|POL_HV1H2	46.2	6QNO_H	1L6N_A	6ID4_C	1R0A_A
+sp|P0DTW3|HV384_HUMAN	sp|P04585|POL_HV1H2	46.2	3U1S_H	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|P52824|DGKQ_HUMAN	46.2	1L6N_A	3S40_D	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q9Y2I6|NINL_HUMAN	46.2	1L6N_A	4P5W_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P52824|DGKQ_HUMAN	46.2	1L6N_A	3S40_D	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q9Y2I6|NINL_HUMAN	46.2	1L6N_A	4P5W_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J1U4|TRGV5_HUMAN	46.2	3TB8_A	5GIS_H	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0B4J1V0|HV315_HUMAN	46.2	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH28|TRGV4_HUMAN	46.2	3TB8_A	5I0Z_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A6NLU5|VTM2B_HUMAN	46.2	3TB8_A	4Q6I_J	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q08708|CLM6_HUMAN	46.2	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q5VV41|ARHGG_HUMAN	46.2	3TB8_A	6L30_A	4U5W_C	4U5W_B
+sp|Q02643|GHRHR_HUMAN	sp|P04578|ENV_HV1H2	46.2	6FJ3_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|P43631|KI2S2_HUMAN	46.1	6PWU_E	1B6U_A	3U2S_C	5N2K_F
+sp|P04578|ENV_HV1H2	sp|Q14954|KI2S1_HUMAN	46.1	6PWU_E	1B6U_A	6UM5_E	6CBP_A
+sp|P04578|ENV_HV1H2	tr|A0A0G2JQ47|A0A0G2JQ47_HUMAN	46.1	6PWU_E	1B6U_A	6UM5_E	6CBP_A
+sp|P17405|ASM_HUMAN	sp|P04585|POL_HV1H2	46.1	5I81_A	1L6N_A	6HMS_A	6T8H_B
+sp|Q9NZC2|TREM2_HUMAN	sp|P04585|POL_HV1H2	46.1	5UD7_B	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q9NZI2|KCIP1_HUMAN	46.1	1L6N_A	2JUL_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9NZI2|KCIP1_HUMAN	46.1	1L6N_A	2JUL_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A0A0MS14|HV145_HUMAN	46.1	3TB8_A	3U1S_H	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9NXL2|ARH38_HUMAN	46.1	3TB8_A	4MT7_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A075B6H9|LV469_HUMAN	46.1	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0B4J237|TVA82_HUMAN	46.1	2X7L_R	6FUN_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0B4J264|TV381_HUMAN	46.1	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04585|POL_HV1H2	sp|A0A075B6R0|TRGV2_HUMAN	46.0	1L6N_A	6QNO_H	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A075B6T8|TVA91_HUMAN	46.0	1L6N_A	2J8U_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A1W2PR48|TLE7_HUMAN	46.0	1L6N_A	1GXR_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|A0AV96|RBM47_HUMAN	46.0	1L6N_A	3VF0_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|A0AVF1|IFT56_HUMAN	46.0	1L6N_A	4UI9_Y	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|A1A4Y4|IRGM_HUMAN	46.0	1L6N_A	1TQ6_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|A1L020|MEX3A_HUMAN	46.0	1L6N_A	2ANN_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|A2A3L6|TTC24_HUMAN	46.0	1L6N_A	5A7D_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|A2PYH4|HFM1_HUMAN	46.0	1L6N_A	4BGD_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|A2RRH5|WDR27_HUMAN	46.0	1L6N_A	5I2T_A	6BK8_O	5YLZ_T
+sp|A2RRP1|NBAS_HUMAN	sp|P04585|POL_HV1H2	46.0	3K8P_D	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|A2RUS2|DEND3_HUMAN	46.0	1L6N_A	6B3Y_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|A4D1P6|WDR91_HUMAN	46.0	1L6N_A	6VYC_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|A4UGR9|XIRP2_HUMAN	46.0	1L6N_A	6J6G_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|A6NDE4|RBY1B_HUMAN	46.0	1L6N_A	2FY1_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|A6NDY0|EPAB2_HUMAN	46.0	1L6N_A	2JWN_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|A6NE52|WDR97_HUMAN	46.0	1L6N_A	5M2N_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|A6NEQ0|RBY1E_HUMAN	46.0	1L6N_A	2FY1_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|A6NFN3|RFOX3_HUMAN	46.0	1L6N_A	4ZKA_C	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|A6NGE4|DC8L1_HUMAN	46.0	1L6N_A	6RXU_C	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|A6NKT7|RGPD3_HUMAN	46.0	1L6N_A	3M1I_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|A6NNA2|SRRM3_HUMAN	46.0	1L6N_A	6FF4_S	6BK8_O	5MPS_R
+sp|P04585|POL_HV1H2	sp|A6NNE9|MARHB_HUMAN	46.0	1L6N_A	2M6M_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|A6PVI3|NCB2L_HUMAN	46.0	1L6N_A	6N7P_Y	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|A8MWD9|RUXGL_HUMAN	46.0	1L6N_A	1H64_X	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|A8MYJ7|TTC34_HUMAN	46.0	1L6N_A	6VBV_4	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|A9UHW6|MI4GD_HUMAN	46.0	1L6N_A	2I2O_A	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|B1AJZ9|FHAD1_HUMAN	46.0	1L6N_A	2N84_A	6BK8_O	6J6G_A
+sp|B1ANS9|WDR64_HUMAN	sp|P04585|POL_HV1H2	46.0	5M2N_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|B2RXH8|HNRC2_HUMAN	46.0	1L6N_A	2KVI_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|B7ZW38|HNRC3_HUMAN	46.0	1L6N_A	2KVI_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|O00148|DX39A_HUMAN	46.0	1L6N_A	5SUQ_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|O00178|GTPB1_HUMAN	46.0	1L6N_A	5LZZ_j	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|O00268|TAF4_HUMAN	46.0	1L6N_A	6MZL_D	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O00423|EMAL1_HUMAN	46.0	1L6N_A	4CI8_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O00429|DNM1L_HUMAN	46.0	1L6N_A	5WP9_O	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|O00487|PSDE_HUMAN	46.0	1L6N_A	5L4K_V	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O00571|DDX3X_HUMAN	46.0	1L6N_A	6O5F_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|O00623|PEX12_HUMAN	46.0	1L6N_A	3JB9_U	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|O00628|PEX7_HUMAN	46.0	1L6N_A	3W15_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O14514|AGRB1_HUMAN	46.0	1L6N_A	4DLO_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O14576|DC1I1_HUMAN	46.0	1L6N_A	6F1Z_o	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|O14579|COPE_HUMAN	46.0	1L6N_A	6TZT_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|O14607|UTY_HUMAN	46.0	1L6N_A	3AVR_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|O14646|CHD1_HUMAN	46.0	1L6N_A	6G0L_W	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|O14647|CHD2_HUMAN	46.0	1L6N_A	6G0L_W	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|O14654|IRS4_HUMAN	46.0	1L6N_A	1QQG_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O14678|ABCD4_HUMAN	46.0	1L6N_A	6JBJ_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|O14715|RGPD8_HUMAN	46.0	1L6N_A	3M1I_B	6BK8_O	6J6H_d
+sp|O14727|APAF_HUMAN	sp|P04585|POL_HV1H2	46.0	5JUY_B	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|O14775|GNB5_HUMAN	46.0	1L6N_A	6N9G_D	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O14776|TCRG1_HUMAN	46.0	1L6N_A	6N7P_J	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O14879|IFIT3_HUMAN	46.0	1L6N_A	6C6K_D	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|O14908|GIPC1_HUMAN	46.0	1L6N_A	5V6B_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|O14966|RAB7L_HUMAN	46.0	1L6N_A	6HH2_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|O15016|TRI66_HUMAN	46.0	1L6N_A	6IEU_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O15020|SPTN2_HUMAN	46.0	1L6N_A	1SJJ_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O15040|TCPR2_HUMAN	46.0	1L6N_A	4RUQ_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O15042|SR140_HUMAN	46.0	1L6N_A	5CE7_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|O15047|SET1A_HUMAN	46.0	1L6N_A	6UH5_M	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O15054|KDM6B_HUMAN	46.0	1L6N_A	3AVR_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O15063|GRRE1_HUMAN	46.0	1L6N_A	4X2K_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O15116|LSM1_HUMAN	46.0	1L6N_A	4M75_A	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|O15143|ARC1B_HUMAN	46.0	1L6N_A	1K8K_C	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O15213|WDR46_HUMAN	46.0	1L6N_A	6RXZ_U	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|O15294|OGT1_HUMAN	46.0	1L6N_A	5LWV_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|O15399|NMDE4_HUMAN	46.0	1L6N_A	4TLM_D	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O15523|DDX3Y_HUMAN	46.0	1L6N_A	6O5F_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|O15550|KDM6A_HUMAN	46.0	1L6N_A	6FUL_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|O43143|DHX15_HUMAN	46.0	1L6N_A	6ID1_V	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|O43172|PRP4_HUMAN	46.0	1L6N_A	5O9Z_F	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O43196|MSH5_HUMAN	46.0	1L6N_A	3THX_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|O43236|SEPT4_HUMAN	46.0	1L6N_A	4Z54_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|O43251|RFOX2_HUMAN	46.0	1L6N_A	3Q2S_D	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|O43310|CTIF_HUMAN	46.0	1L6N_A	2I2O_A	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|O43347|MSI1H_HUMAN	46.0	1L6N_A	5HO4_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|O43365|HXA3_HUMAN	46.0	1L6N_A	6T90_K	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O43432|IF4G3_HUMAN	46.0	1L6N_A	3L6A_A	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|O43435|TBX1_HUMAN	46.0	1L6N_A	5BQD_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O43660|PLRG1_HUMAN	46.0	1L6N_A	6FF7_D	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O43684|BUB3_HUMAN	46.0	1L6N_A	1YFQ_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O43765|SGTA_HUMAN	46.0	1L6N_A	4CPG_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|O43815|STRN_HUMAN	46.0	1L6N_A	4WJV_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|O43818|U3IP2_HUMAN	46.0	1L6N_A	6RXZ_C	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O43824|GTPB6_HUMAN	46.0	1L6N_A	5ZZM_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|O60231|DHX16_HUMAN	46.0	1L6N_A	6FF7_q	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|O60264|SMCA5_HUMAN	46.0	1L6N_A	6JYL_K	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|O60293|ZC3H1_HUMAN	46.0	1L6N_A	6QX9_5	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|O60422|ONEC3_HUMAN	46.0	1L6N_A	2D5V_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O60506|HNRPQ_HUMAN	46.0	1L6N_A	2NBB_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|O60508|PRP17_HUMAN	46.0	1L6N_A	6ID1_W	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O60610|DIAP1_HUMAN	46.0	1L6N_A	3O4X_F	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O60812|HNRC1_HUMAN	46.0	1L6N_A	2KVI_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|O60841|IF2P_HUMAN	46.0	1L6N_A	6UZ7_1	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|O60879|DIAP2_HUMAN	46.0	1L6N_A	3O4X_F	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O60907|TBL1X_HUMAN	46.0	1L6N_A	4LG9_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O75027|ABCB7_HUMAN	46.0	1L6N_A	4MYC_C	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|O75037|KI21B_HUMAN	46.0	1L6N_A	5MM7_K	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O75083|WDR1_HUMAN	46.0	1L6N_A	1NR0_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O75175|CNOT3_HUMAN	46.0	1L6N_A	4C0D_C	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O75376|NCOR1_HUMAN	46.0	1L6N_A	4CZZ_B	6BK8_O	5WSG_c
+sp|P04585|POL_HV1H2	sp|O75417|DPOLQ_HUMAN	46.0	1L6N_A	4X0Q_B	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|O75494|SRS10_HUMAN	46.0	1L6N_A	6N7R_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|O75526|RMXL2_HUMAN	46.0	1L6N_A	5YVG_X	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|O75529|TAF5L_HUMAN	46.0	1L6N_A	6T9K_D	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O75530|EED_HUMAN	46.0	1L6N_A	5WUK_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O75643|U520_HUMAN	46.0	1L6N_A	6QW6_5	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|O75717|WDHD1_HUMAN	46.0	1L6N_A	6XTY_G	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O75821|EIF3G_HUMAN	46.0	1L6N_A	6FYY_r	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|O75899|GABR2_HUMAN	46.0	1L6N_A	6W2X_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O75934|SPF27_HUMAN	46.0	1L6N_A	6ID1_K	6BK8_O	6J6N_t
+sp|P04585|POL_HV1H2	sp|O76071|CIAO1_HUMAN	46.0	1L6N_A	3FM0_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O76094|SRP72_HUMAN	46.0	1L6N_A	6FRK_r	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|O94761|RECQ4_HUMAN	46.0	1L6N_A	5LST_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|O94762|RECQ5_HUMAN	46.0	1L6N_A	5LB8_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|O94826|TOM70_HUMAN	46.0	1L6N_A	2GW1_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|O94855|SC24D_HUMAN	46.0	1L6N_A	5KYY_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O94906|PRP6_HUMAN	46.0	1L6N_A	6QW6_5	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|O94967|WDR47_HUMAN	46.0	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|O94979|SC31A_HUMAN	sp|P04585|POL_HV1H2	46.0	4BZJ_C	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|O95104|SCAF4_HUMAN	46.0	1L6N_A	5MDT_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|O95140|MFN2_HUMAN	46.0	1L6N_A	2J68_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|O95163|ELP1_HUMAN	46.0	1L6N_A	6QK7_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O95170|CDRT1_HUMAN	46.0	1L6N_A	6WNX_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O95319|CELF2_HUMAN	46.0	1L6N_A	2DHS_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|O95391|SLU7_HUMAN	46.0	1L6N_A	6QDV_c	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|O95466|FMNL1_HUMAN	46.0	1L6N_A	4YDH_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O95630|STABP_HUMAN	46.0	1L6N_A	3RZV_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O95755|RAB36_HUMAN	46.0	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|O95777|LSM8_HUMAN	46.0	1L6N_A	6QW6_6	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|O95786|DDX58_HUMAN	46.0	1L6N_A	4A2W_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|O95834|EMAL2_HUMAN	46.0	1L6N_A	4CI8_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O95837|GNA14_HUMAN	46.0	1L6N_A	6NE6_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|O95926|SYF2_HUMAN	46.0	1L6N_A	6ID1_M	6BK8_O	6J6G_I
+sp|P04585|POL_HV1H2	sp|P05198|IF2A_HUMAN	46.0	1L6N_A	1Q8K_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|P05455|LA_HUMAN	46.0	1L6N_A	6D6V_H	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P07910|HNRPC_HUMAN	46.0	1L6N_A	1WF2_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P08579|RU2B_HUMAN	46.0	1L6N_A	6ID1_p	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P08621|RU17_HUMAN	46.0	1L6N_A	3PGW_L	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P09012|SNRPA_HUMAN	46.0	1L6N_A	3PGW_P	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P09529|INHBB_HUMAN	46.0	1L6N_A	5HLY_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P09651|ROA1_HUMAN	46.0	1L6N_A	1L3K_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P09913|IFIT2_HUMAN	46.0	1L6N_A	4G1T_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|P09914|IFIT1_HUMAN	46.0	1L6N_A	6C6K_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|P0C0E4|RB40L_HUMAN	46.0	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P0C7P1|RBY1D_HUMAN	46.0	1L6N_A	2FY1_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P0C7V8|DC8L2_HUMAN	46.0	1L6N_A	6RXZ_C	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|P0CB38|PAB4L_HUMAN	46.0	1L6N_A	6R5K_D	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P0DJD0|RGPD1_HUMAN	46.0	1L6N_A	3M1I_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|P0DJD1|RGPD2_HUMAN	46.0	1L6N_A	3M1I_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|P0DJD3|RBY1A_HUMAN	46.0	1L6N_A	2FY1_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P0DJD4|RBY1C_HUMAN	46.0	1L6N_A	2FY1_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P0DJR0|GIMD1_HUMAN	46.0	1L6N_A	3LXX_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P0DMR1|HNRC4_HUMAN	46.0	1L6N_A	2KVI_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P0DN76|U2AF5_HUMAN	46.0	1L6N_A	4YH8_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P10242|MYB_HUMAN	46.0	1L6N_A	1H89_C	6BK8_O	5WSG_c
+sp|P04585|POL_HV1H2	sp|P10243|MYBA_HUMAN	46.0	1L6N_A	1H88_C	6BK8_O	5WSG_c
+sp|P04585|POL_HV1H2	sp|P10244|MYBB_HUMAN	46.0	1L6N_A	1H88_C	6BK8_O	5WSG_c
+sp|P04585|POL_HV1H2	sp|P11233|RALA_HUMAN	46.0	1L6N_A	2BOV_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P11234|RALB_HUMAN	46.0	1L6N_A	2KWI_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P11940|PABP1_HUMAN	46.0	1L6N_A	6R5K_H	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P13639|EF2_HUMAN	46.0	1L6N_A	6ID1_C	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P14678|RSMB_HUMAN	46.0	1L6N_A	6ID1_b	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|P15170|ERF3A_HUMAN	46.0	1L6N_A	5LZT_j	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P16298|PP2BB_HUMAN	46.0	1L6N_A	4OR9_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P16520|GBB3_HUMAN	46.0	1L6N_A	5KDO_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|P17483|HXB4_HUMAN	46.0	1L6N_A	2R5Z_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P17600|SYN1_HUMAN	46.0	1L6N_A	1PX2_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P17844|DDX5_HUMAN	46.0	1L6N_A	6UV2_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|P18583|SON_HUMAN	46.0	1L6N_A	6FF4_S	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|P18615|NELFE_HUMAN	46.0	1L6N_A	6GML_X	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P19447|ERCC3_HUMAN	46.0	1L6N_A	6O9M_7	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|P20338|RAB4A_HUMAN	46.0	1L6N_A	2BME_D	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P20340|RAB6A_HUMAN	46.0	1L6N_A	3BBP_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P20585|MSH3_HUMAN	46.0	1L6N_A	3THW_B	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|P20591|MX1_HUMAN	46.0	1L6N_A	5GTM_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P21757|MSRE_HUMAN	46.0	1L6N_A	5ZE3_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P22626|ROA2_HUMAN	46.0	1L6N_A	5HO4_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P22670|RFX1_HUMAN	46.0	1L6N_A	3ZUQ_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P23246|SFPQ_HUMAN	46.0	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P26196|DDX6_HUMAN	46.0	1L6N_A	4CT4_D	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|P28288|ABCD3_HUMAN	46.0	1L6N_A	6JBJ_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|P28370|SMCA1_HUMAN	46.0	1L6N_A	6JYL_K	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|P28702|RXRB_HUMAN	46.0	1L6N_A	3DZY_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P29992|GNA11_HUMAN	46.0	1L6N_A	6NE6_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P30260|CDC27_HUMAN	46.0	1L6N_A	4UI9_F	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|P31146|COR1A_HUMAN	46.0	1L6N_A	2AQ5_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|P31483|TIA1_HUMAN	46.0	1L6N_A	6N7P_F	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P31948|STIP1_HUMAN	46.0	1L6N_A	5AIO_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|P33240|CSTF2_HUMAN	46.0	1L6N_A	4EBA_H	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P33897|ABCD1_HUMAN	46.0	1L6N_A	6JBJ_A	6BK8_O	6BK8_P
+sp|P35606|COPB2_HUMAN	sp|P04585|POL_HV1H2	46.0	5NZT_C	1L6N_A	6BK8_D	6BK8_O
+sp|P35658|NU214_HUMAN	sp|P04585|POL_HV1H2	46.0	2OIT_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|P35790|CHKA_HUMAN	46.0	1L6N_A	4DA5_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P38159|RBMX_HUMAN	46.0	1L6N_A	5YVG_X	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P38919|IF4A3_HUMAN	46.0	1L6N_A	2J0S_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|P41091|IF2G_HUMAN	46.0	1L6N_A	6YAL_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P41223|BUD31_HUMAN	46.0	1L6N_A	6QDV_L	6BK8_O	6J6G_T
+sp|P04585|POL_HV1H2	sp|P42285|MTREX_HUMAN	46.0	1L6N_A	6IEH_B	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|P42694|HELZ_HUMAN	46.0	1L6N_A	4B3F_X	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|P42696|RBM34_HUMAN	46.0	1L6N_A	5HO4_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P42704|LPPRC_HUMAN	46.0	1L6N_A	4M59_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|P42858|HD_HUMAN	46.0	1L6N_A	6X9O_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P43034|LIS1_HUMAN	46.0	1L6N_A	1VYH_D	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|P43246|MSH2_HUMAN	46.0	1L6N_A	3THX_A	6BK8_O	6BK8_P
+sp|P43628|KI2L3_HUMAN	sp|P04585|POL_HV1H2	46.0	1B6U_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|P45844|ABCG1_HUMAN	46.0	1L6N_A	5DO7_C	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|P46063|RECQ1_HUMAN	46.0	1L6N_A	4U7D_D	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|P46100|ATRX_HUMAN	46.0	1L6N_A	5VVR_M	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|P46199|IF2M_HUMAN	46.0	1L6N_A	6GAW_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P46736|BRCC3_HUMAN	46.0	1L6N_A	6R8F_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P46937|YAP1_HUMAN	46.0	1L6N_A	4RE1_D	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P48023|TNFL6_HUMAN	46.0	1L6N_A	5L19_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P49411|EFTU_HUMAN	46.0	1L6N_A	1XB2_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P49754|VPS41_HUMAN	46.0	1L6N_A	1B89_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|P50148|GNAQ_HUMAN	46.0	1L6N_A	6NE6_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P50502|F10A1_HUMAN	46.0	1L6N_A	4J8C_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|P50542|PEX5_HUMAN	46.0	1L6N_A	1FCH_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|P50552|VASP_HUMAN	46.0	1L6N_A	1I2H_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P50851|LRBA_HUMAN	46.0	1L6N_A	1T77_D	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|P51151|RAB9A_HUMAN	46.0	1L6N_A	1S8F_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P51157|RAB28_HUMAN	46.0	1L6N_A	2HXS_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P51159|RB27A_HUMAN	46.0	1L6N_A	3BC1_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P51511|MMP15_HUMAN	46.0	1L6N_A	1SU3_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P51991|ROA3_HUMAN	46.0	1L6N_A	5HO4_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P52198|RND2_HUMAN	46.0	1L6N_A	2CLS_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P52298|NCBP2_HUMAN	46.0	1L6N_A	6D0Y_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P52701|MSH6_HUMAN	46.0	1L6N_A	2O8B_B	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|P53041|PPP5_HUMAN	46.0	1L6N_A	4JA7_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|P53621|COPA_HUMAN	46.0	1L6N_A	5NZR_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|P54132|BLM_HUMAN	46.0	1L6N_A	4O3M_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|P54198|HIRA_HUMAN	46.0	1L6N_A	5YJE_C	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|P55735|SEC13_HUMAN	46.0	1L6N_A	3BG1_E	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|P55884|EIF3B_HUMAN	46.0	1L6N_A	6FEC_w	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|P57052|RBM11_HUMAN	46.0	1L6N_A	2N6D_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P57081|WDR4_HUMAN	46.0	1L6N_A	2VDU_D	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|P57729|RAB38_HUMAN	46.0	1L6N_A	6HDU_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P57735|RAB25_HUMAN	46.0	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P57737|CORO7_HUMAN	sp|P04585|POL_HV1H2	46.0	4OZU_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|P57772|SELB_HUMAN	46.0	1L6N_A	5IZL_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P57775|FBXW4_HUMAN	46.0	1L6N_A	6M90_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|P60842|IF4A1_HUMAN	46.0	1L6N_A	5ZC9_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|P61006|RAB8A_HUMAN	46.0	1L6N_A	5SZI_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P61018|RAB4B_HUMAN	46.0	1L6N_A	2BME_D	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P61019|RAB2A_HUMAN	46.0	1L6N_A	2A5J_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P61026|RAB10_HUMAN	46.0	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P61106|RAB14_HUMAN	46.0	1L6N_A	1Z0F_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P61129|ZC3H6_HUMAN	46.0	1L6N_A	3U9G_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P61962|DCAF7_HUMAN	46.0	1L6N_A	4FHL_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|P61964|WDR5_HUMAN	46.0	1L6N_A	6U8B_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|P62304|RUXE_HUMAN	46.0	1L6N_A	3PGW_H	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|P62306|RUXF_HUMAN	46.0	1L6N_A	4EMK_A	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|P62308|RUXG_HUMAN	46.0	1L6N_A	1H64_X	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|P62310|LSM3_HUMAN	46.0	1L6N_A	6QW6_6	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|P62312|LSM6_HUMAN	46.0	1L6N_A	3JB9_I	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|P62314|SMD1_HUMAN	46.0	1L6N_A	3JCR_p	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|P62316|SMD2_HUMAN	46.0	1L6N_A	4F7U_D	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|P62318|SMD3_HUMAN	46.0	1L6N_A	6V4X_A	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|P62491|RB11A_HUMAN	46.0	1L6N_A	2F9M_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P62826|RAN_HUMAN	46.0	1L6N_A	4HAT_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P62873|GBB1_HUMAN	46.0	1L6N_A	5KDO_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|P62879|GBB2_HUMAN	46.0	1L6N_A	5KDO_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|P62995|TRA2B_HUMAN	46.0	1L6N_A	4PKD_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P63151|2ABA_HUMAN	46.0	1L6N_A	3DW8_E	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|P63162|RSMN_HUMAN	46.0	1L6N_A	3PGW_B	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|P63244|RACK1_HUMAN	46.0	1L6N_A	4AOW_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|P68104|EF1A1_HUMAN	46.0	1L6N_A	6RA9_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|P78344|IF4G2_HUMAN	46.0	1L6N_A	3L6A_A	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|P78406|RAE1L_HUMAN	46.0	1L6N_A	3MMY_C	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|P78424|PO6F2_HUMAN	46.0	1L6N_A	5WC9_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P81274|GPSM2_HUMAN	46.0	1L6N_A	4WND_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|P84103|SRSF3_HUMAN	46.0	1L6N_A	6FF4_1	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P85037|FOXK1_HUMAN	46.0	1L6N_A	6EL8_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P98174|FGD1_HUMAN	46.0	1L6N_A	3MPX_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P98179|RBM3_HUMAN	46.0	1L6N_A	5YVG_X	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q00005|2ABB_HUMAN	46.0	1L6N_A	3DW8_E	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q00610|CLH1_HUMAN	46.0	1L6N_A	3IYV_B	6BK8_O	6J6H_v
+sp|P04585|POL_HV1H2	sp|Q01081|U2AF1_HUMAN	46.0	1L6N_A	4YH8_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q01085|TIAR_HUMAN	46.0	1L6N_A	6N7P_F	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q01130|SRSF2_HUMAN	46.0	1L6N_A	6N7R_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q01844|EWS_HUMAN	46.0	1L6N_A	5YVG_X	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q03113|GNA12_HUMAN	46.0	1L6N_A	6NE6_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q03468|ERCC6_HUMAN	46.0	1L6N_A	5VVR_M	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q03518|TAP1_HUMAN	46.0	1L6N_A	5U1D_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q03519|TAP2_HUMAN	46.0	1L6N_A	5U1D_B	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q04637|IF4G1_HUMAN	46.0	1L6N_A	3L6A_A	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|Q04724|TLE1_HUMAN	46.0	1L6N_A	4OM3_D	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q04725|TLE2_HUMAN	46.0	1L6N_A	4OM3_D	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q04726|TLE3_HUMAN	46.0	1L6N_A	4OM3_C	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q04727|TLE4_HUMAN	46.0	1L6N_A	4OM3_D	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q05048|CSTF1_HUMAN	46.0	1L6N_A	6B3X_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q05519|SRS11_HUMAN	46.0	1L6N_A	3PGW_L	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q05639|EF1A2_HUMAN	46.0	1L6N_A	6RA9_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q05BV3|EMAL5_HUMAN	46.0	1L6N_A	4CI8_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q07065|CKAP4_HUMAN	46.0	1L6N_A	6IKO_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q07617|SPAG1_HUMAN	46.0	1L6N_A	6FO1_G	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q07866|KLC1_HUMAN	46.0	1L6N_A	6EJN_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q08211|DHX9_HUMAN	46.0	1L6N_A	5AOR_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q08378|GOGA3_HUMAN	46.0	1L6N_A	3JBH_H	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q08499|PDE4D_HUMAN	46.0	1L6N_A	4WZI_A	6BK8_O	6J6G_A
+sp|Q09019|DMWD_HUMAN	sp|P04585|POL_HV1H2	46.0	5K19_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q09028|RBBP4_HUMAN	46.0	1L6N_A	4PC0_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q09161|NCBP1_HUMAN	46.0	1L6N_A	5OOB_C	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|Q09472|EP300_HUMAN	46.0	1L6N_A	5XZC_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q10571|MN1_HUMAN	46.0	1L6N_A	6UXW_B	6BK8_O	6J6G_A
+sp|Q12770|SCAP_HUMAN	sp|P04585|POL_HV1H2	46.0	6XE6_A	1L6N_A	6BK8_D	6BK8_O
+sp|Q12788|TBL3_HUMAN	sp|P04585|POL_HV1H2	46.0	6RXU_U	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q12797|ASPH_HUMAN	46.0	1L6N_A	6RK9_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q12829|RB40B_HUMAN	46.0	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q12830|BPTF_HUMAN	46.0	1L6N_A	6AZE_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q12834|CDC20_HUMAN	46.0	1L6N_A	6Q6H_R	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q12926|ELAV2_HUMAN	46.0	1L6N_A	2GHP_D	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q12967|GNDS_HUMAN	46.0	1L6N_A	4JGW_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q13033|STRN3_HUMAN	46.0	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q13042|CDC16_HUMAN	46.0	1L6N_A	6Q6G_Q	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q13099|IFT88_HUMAN	46.0	1L6N_A	6ID1_J	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q13112|CAF1B_HUMAN	46.0	1L6N_A	5XYI_g	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q13151|ROA0_HUMAN	46.0	1L6N_A	5HO4_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q13206|DDX10_HUMAN	46.0	1L6N_A	6EM3_D	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q13216|ERCC8_HUMAN	46.0	1L6N_A	4A11_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q13217|DNJC3_HUMAN	46.0	1L6N_A	2Y4T_C	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q13242|SRSF9_HUMAN	46.0	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q13310|PABP4_HUMAN	46.0	1L6N_A	6R5K_H	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q13319|CD5R2_HUMAN	46.0	1L6N_A	1UNL_E	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q13325|IFIT5_HUMAN	46.0	1L6N_A	4HOR_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q13347|EIF3I_HUMAN	46.0	1L6N_A	5K0Y_T	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q13409|DC1I2_HUMAN	46.0	1L6N_A	6F1Z_o	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q13435|SF3B2_HUMAN	46.0	1L6N_A	6QX9_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q13573|SNW1_HUMAN	46.0	1L6N_A	6ID1_R	6BK8_O	6J6G_P
+sp|P04585|POL_HV1H2	sp|Q13595|TRA2A_HUMAN	46.0	1L6N_A	6G90_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q13610|PWP1_HUMAN	46.0	1L6N_A	2PM7_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q13637|RAB32_HUMAN	46.0	1L6N_A	4CZ2_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q13685|AAMP_HUMAN	46.0	1L6N_A	4ZOX_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q13702|RAPSN_HUMAN	46.0	1L6N_A	3RO2_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q13838|DX39B_HUMAN	46.0	1L6N_A	5SUQ_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q14003|KCNC3_HUMAN	46.0	1L6N_A	2R9R_H	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q14011|CIRBP_HUMAN	46.0	1L6N_A	4PKD_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q14088|RB33A_HUMAN	46.0	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q14137|BOP1_HUMAN	46.0	1L6N_A	6EM5_m	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q14139|UBE4A_HUMAN	46.0	1L6N_A	3M62_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q14147|DHX34_HUMAN	46.0	1L6N_A	6UP4_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q14151|SAFB2_HUMAN	46.0	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q14191|WRN_HUMAN	46.0	1L6N_A	6YHR_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q14240|IF4A2_HUMAN	46.0	1L6N_A	5ZC9_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q14318|FKBP8_HUMAN	46.0	1L6N_A	5MGX_G	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q14498|RBM39_HUMAN	46.0	1L6N_A	5X8P_v	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q14562|DHX8_HUMAN	46.0	1L6N_A	6ICZ_Y	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q14690|RRP5_HUMAN	46.0	1L6N_A	6RXZ_C	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q14692|BMS1_HUMAN	46.0	1L6N_A	6RXU_C	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q14839|CHD4_HUMAN	46.0	1L6N_A	6G0L_W	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q14964|RB39A_HUMAN	46.0	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|Q149M9|NWD1_HUMAN	sp|P04585|POL_HV1H2	46.0	3SFZ_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q149N8|SHPRH_HUMAN	46.0	1L6N_A	4QN1_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q14CX7|NAA25_HUMAN	46.0	1L6N_A	5K04_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q15006|EMC2_HUMAN	46.0	1L6N_A	6Y4L_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q15019|SEPT2_HUMAN	46.0	1L6N_A	4Z54_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q15020|SART3_HUMAN	46.0	1L6N_A	5CTQ_C	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q15029|U5S1_HUMAN	46.0	1L6N_A	6ID1_C	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q15047|SETB1_HUMAN	46.0	1L6N_A	6BHE_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q15056|IF4H_HUMAN	46.0	1L6N_A	6FEC_u	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q15061|WDR43_HUMAN	46.0	1L6N_A	5WLC_L	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q15233|NONO_HUMAN	46.0	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q15269|PWP2_HUMAN	46.0	1L6N_A	5WLC_L	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q15286|RAB35_HUMAN	46.0	1L6N_A	6IF2_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q15291|RBBP5_HUMAN	46.0	1L6N_A	6KIV_N	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q15329|E2F5_HUMAN	46.0	1L6N_A	5TUU_B	6BK8_O	6J6G_A
+sp|Q15334|L2GL1_HUMAN	sp|P04585|POL_HV1H2	46.0	6N8S_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q15361|TTF1_HUMAN	46.0	1L6N_A	5EYB_A	6BK8_O	5WSG_c
+sp|P04585|POL_HV1H2	sp|Q15382|RHEB_HUMAN	46.0	1L6N_A	3SEA_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q15415|RBY1F_HUMAN	46.0	1L6N_A	2FY1_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q15424|SAFB1_HUMAN	46.0	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q15427|SF3B4_HUMAN	46.0	1L6N_A	6Y5Q_o	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q15477|SKIV2_HUMAN	46.0	1L6N_A	5MC6_h	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q15542|TAF5_HUMAN	46.0	1L6N_A	6MZM_G	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q15554|TERF2_HUMAN	46.0	1L6N_A	3BU8_B	6BK8_O	5WSG_c
+sp|P04585|POL_HV1H2	sp|Q15695|U2AFL_HUMAN	46.0	1L6N_A	4YH8_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q15696|U2AFM_HUMAN	46.0	1L6N_A	4YH8_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q15717|ELAV1_HUMAN	46.0	1L6N_A	2GHP_D	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q15751|HERC1_HUMAN	46.0	1L6N_A	4O2W_C	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q15785|TOM34_HUMAN	46.0	1L6N_A	6FO1_G	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q15907|RB11B_HUMAN	46.0	1L6N_A	2F9M_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q16181|SEPT7_HUMAN	46.0	1L6N_A	2QAG_C	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q16206|ENOX2_HUMAN	46.0	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q16560|U1SBP_HUMAN	46.0	1L6N_A	6G90_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q16576|RBBP7_HUMAN	46.0	1L6N_A	2XYI_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q16629|SRSF7_HUMAN	46.0	1L6N_A	6FF4_1	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q16630|CPSF6_HUMAN	46.0	1L6N_A	3Q2S_D	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q16760|DGKD_HUMAN	46.0	1L6N_A	1R79_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q17R89|RHG44_HUMAN	46.0	1L6N_A	3FK2_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q17RY0|CPEB4_HUMAN	46.0	1L6N_A	2MKI_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q1L5Z9|LONF2_HUMAN	46.0	1L6N_A	1ZBO_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q27J81|INF2_HUMAN	46.0	1L6N_A	3O4X_F	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q2M296|MTHSD_HUMAN	46.0	1L6N_A	3HY3_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q2NKX8|ERC6L_HUMAN	46.0	1L6N_A	5VVR_M	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q2TAY7|SMU1_HUMAN	46.0	1L6N_A	6Q8F_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q2V2M9|FHOD3_HUMAN	46.0	1L6N_A	3DAD_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q2VIR3|IF2GL_HUMAN	46.0	1L6N_A	6FEC_S	6BK8_O	6TEO_C
+sp|Q32P44|EMAL3_HUMAN	sp|P04585|POL_HV1H2	46.0	4CI8_B	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q32P51|RA1L2_HUMAN	46.0	1L6N_A	1L3K_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q3L8U1|CHD9_HUMAN	46.0	1L6N_A	6G0L_W	6BK8_O	6BK8_P
+sp|Q3MJ13|WDR72_HUMAN	sp|P04585|POL_HV1H2	46.0	6QK7_B	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q3SXM0|DC4L1_HUMAN	46.0	1L6N_A	1SQ9_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q3YEC7|RABL6_HUMAN	46.0	1L6N_A	3IHW_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q4ADV7|RIC1_HUMAN	46.0	1L6N_A	4GGC_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q4G0J3|LARP7_HUMAN	46.0	1L6N_A	6D6V_H	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q4KMQ1|TPRN_HUMAN	46.0	1L6N_A	5OV3_A	6BK8_O	6J6G_A
+sp|Q4L235|ACSF4_HUMAN	sp|P04585|POL_HV1H2	46.0	5T3D_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q4V339|CBWD6_HUMAN	46.0	1L6N_A	4IXN_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q4VXU2|PAP1L_HUMAN	46.0	1L6N_A	6R5K_H	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q504Q3|PAN2_HUMAN	46.0	1L6N_A	6R5K_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q53HC9|EIPR1_HUMAN	46.0	1L6N_A	3W15_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q53S08|RAB6D_HUMAN	46.0	1L6N_A	3BBP_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q562E7|WDR81_HUMAN	46.0	1L6N_A	1MI1_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q587J7|TDR12_HUMAN	46.0	1L6N_A	6UV3_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q58WW2|DCAF6_HUMAN	46.0	1L6N_A	5VLJ_C	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q5FWF4|ZRAB3_HUMAN	46.0	1L6N_A	6IY2_O	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q5H9U9|DDX6L_HUMAN	46.0	1L6N_A	4A4Z_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q5HYI8|RABL3_HUMAN	46.0	1L6N_A	6VIJ_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q5I0X7|TTC32_HUMAN	46.0	1L6N_A	5L0Y_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q5JQF8|PAP1M_HUMAN	46.0	1L6N_A	1CVJ_D	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q5JRA6|TGO1_HUMAN	46.0	1L6N_A	6LTJ_I	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q5JSH3|WDR44_HUMAN	46.0	1L6N_A	6QDV_o	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q5JT25|RAB41_HUMAN	46.0	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|Q5JTN6|WDR38_HUMAN	sp|P04585|POL_HV1H2	46.0	4J87_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q5JTY5|CBWD3_HUMAN	46.0	1L6N_A	4IXN_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q5KSL6|DGKK_HUMAN	46.0	1L6N_A	1R79_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q5MNZ6|WIPI3_HUMAN	46.0	1L6N_A	5LTD_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q5MNZ9|WIPI1_HUMAN	46.0	1L6N_A	5LTG_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q5QP82|DCA10_HUMAN	46.0	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q5R3I4|TTC38_HUMAN	46.0	1L6N_A	2VQ2_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q5RIA9|CBWD5_HUMAN	46.0	1L6N_A	4IXN_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q5SXM2|SNPC4_HUMAN	46.0	1L6N_A	5EYB_A	6BK8_O	5WSG_c
+sp|P04585|POL_HV1H2	sp|Q5SZQ8|CELF3_HUMAN	46.0	1L6N_A	6R5K_D	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q5T0N1|CFA70_HUMAN	46.0	1L6N_A	3IEG_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q5T0Z8|CF132_HUMAN	46.0	1L6N_A	5ZZ8_u	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q5T1V6|DDX59_HUMAN	46.0	1L6N_A	6Y50_p	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q5T4D3|TMTC4_HUMAN	46.0	1L6N_A	3HYM_H	6BK8_O	6J6H_d
+sp|Q5T5C0|STXB5_HUMAN	sp|P04585|POL_HV1H2	46.0	6N8R_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q5T6F0|DCA12_HUMAN	46.0	1L6N_A	6DLO_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q5T764|IFT1B_HUMAN	46.0	1L6N_A	5UDI_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q5T890|ER6L2_HUMAN	46.0	1L6N_A	5VVR_M	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q5T8P6|RBM26_HUMAN	46.0	1L6N_A	6ICZ_Y	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q5TAA0|TTC22_HUMAN	46.0	1L6N_A	4G1T_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q5TAQ9|DCAF8_HUMAN	46.0	1L6N_A	6RXZ_C	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q5VSG8|MANEL_HUMAN	46.0	1L6N_A	5M17_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q5VSL9|STRP1_HUMAN	46.0	1L6N_A	5KIS_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q5VT52|RPRD2_HUMAN	46.0	1L6N_A	4NAD_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q5VTE0|EF1A3_HUMAN	46.0	1L6N_A	6RA9_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q5VTH9|WDR78_HUMAN	46.0	1L6N_A	6F1Z_o	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q5VU92|DC121_HUMAN	46.0	1L6N_A	4L9O_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q5VUA4|ZN318_HUMAN	46.0	1L6N_A	5ZWO_W	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q5VV67|PPRC1_HUMAN	46.0	1L6N_A	6D0Y_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q5VVJ2|MYSM1_HUMAN	46.0	1L6N_A	2DCE_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q5VW00|DC122_HUMAN	46.0	1L6N_A	4L9O_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q5VWQ0|RSBN1_HUMAN	46.0	1L6N_A	5UQD_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q5VZM2|RRAGB_HUMAN	46.0	1L6N_A	4ARZ_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q5W0B1|OBI1_HUMAN	46.0	1L6N_A	6O9L_3	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q5XUX1|FBXW9_HUMAN	46.0	1L6N_A	6WNX_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q5XX13|FBW10_HUMAN	46.0	1L6N_A	6WNX_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q64LD2|WDR25_HUMAN	46.0	1L6N_A	6QDV_o	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q66LE6|2ABD_HUMAN	46.0	1L6N_A	3DW8_E	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q674R7|ATG9B_HUMAN	46.0	1L6N_A	6WR4_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q676U5|A16L1_HUMAN	46.0	1L6N_A	5NPW_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q69YN4|VIR_HUMAN	46.0	1L6N_A	6GMH_Z	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q6DKK2|TTC19_HUMAN	46.0	1L6N_A	5O09_4	6BK8_O	6J6H_d
+sp|Q6IA86|ELP2_HUMAN	sp|P04585|POL_HV1H2	46.0	6QK7_B	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q6N069|NAA16_HUMAN	46.0	1L6N_A	6HD5_t	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q6NWY9|PR40B_HUMAN	46.0	1L6N_A	6N7P_J	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q6NXR0|IIGP5_HUMAN	46.0	1L6N_A	1TQ6_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q6P158|DHX57_HUMAN	46.0	1L6N_A	5VHE_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q6P1M3|L2GL2_HUMAN	46.0	1L6N_A	6N8S_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q6P2E9|EDC4_HUMAN	46.0	1L6N_A	2VXG_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q6P2Q9|PRP8_HUMAN	46.0	1L6N_A	6ID1_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q6P3X3|TTC27_HUMAN	46.0	1L6N_A	3IEG_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q6P4I2|WDR73_HUMAN	46.0	1L6N_A	4PSW_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q6P597|KLC3_HUMAN	46.0	1L6N_A	4Y6W_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q6PCD5|RFWD3_HUMAN	46.0	1L6N_A	6CVZ_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q6PD62|CTR9_HUMAN	46.0	1L6N_A	6GMH_Q	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q6PGP7|TTC37_HUMAN	46.0	1L6N_A	4BUJ_F	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q6PID6|TTC33_HUMAN	46.0	1L6N_A	6FDP_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q6PJI9|WDR59_HUMAN	46.0	1L6N_A	3W15_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q6Q0C0|TRAF7_HUMAN	46.0	1L6N_A	6ID1_r	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q6QEF8|CORO6_HUMAN	46.0	1L6N_A	4OZU_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q6RFH5|WDR74_HUMAN	46.0	1L6N_A	5SUI_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q6RI45|BRWD3_HUMAN	46.0	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q6SPF0|SAMD1_HUMAN	46.0	1L6N_A	1PK1_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q6T4R5|NHS_HUMAN	46.0	1L6N_A	3P8C_D	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q6TDP4|KLH17_HUMAN	46.0	1L6N_A	4YY8_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q6UUV9|CRTC1_HUMAN	46.0	1L6N_A	5ZKO_H	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q6UXN9|WDR82_HUMAN	46.0	1L6N_A	5VH9_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q6VEQ5|WASH2_HUMAN	46.0	1L6N_A	6UHC_I	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q6VVB1|NHLC1_HUMAN	46.0	1L6N_A	4ZLR_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q6VY07|PACS1_HUMAN	46.0	1L6N_A	6MZM_G	6BK8_O	6J6G_A
+sp|Q6X9E4|FBW12_HUMAN	sp|P04585|POL_HV1H2	46.0	6M90_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q6ZMI3|GLDN_HUMAN	46.0	1L6N_A	4D7C_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q6ZMW3|EMAL6_HUMAN	46.0	1L6N_A	4CI8_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q6ZMY6|WDR88_HUMAN	46.0	1L6N_A	4ZOX_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q6ZN66|GBP6_HUMAN	46.0	1L6N_A	1F5N_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q6ZNJ1|NBEL2_HUMAN	46.0	1L6N_A	1T77_D	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q6ZP01|RBM44_HUMAN	46.0	1L6N_A	2AYM_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q6ZQQ6|WDR87_HUMAN	46.0	1L6N_A	5TZS_T	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q6ZRY4|RBPS2_HUMAN	46.0	1L6N_A	2M9K_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q6ZS30|NBEL1_HUMAN	46.0	1L6N_A	1T77_D	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q6ZS81|WDFY4_HUMAN	46.0	1L6N_A	1T77_D	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q6ZXV5|TMTC3_HUMAN	46.0	1L6N_A	6N7P_D	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q70E73|RAPH1_HUMAN	46.0	1L6N_A	6E31_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q70EK9|UBP51_HUMAN	46.0	1L6N_A	6TBM_Q	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q76FK4|NOL8_HUMAN	46.0	1L6N_A	5T9P_C	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q76KP1|B4GN4_HUMAN	46.0	1L6N_A	6PXU_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q7KZ85|SPT6H_HUMAN	46.0	1L6N_A	6GMH_M	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q7L014|DDX46_HUMAN	46.0	1L6N_A	6Y50_p	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q7L1Q6|BZW1_HUMAN	46.0	1L6N_A	3L6A_A	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|Q7L2E3|DHX30_HUMAN	46.0	1L6N_A	5AOR_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q7L523|RRAGA_HUMAN	46.0	1L6N_A	4ARZ_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q7L7V1|DHX32_HUMAN	46.0	1L6N_A	5YLZ_W	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q7Z2Z2|EFL1_HUMAN	46.0	1L6N_A	5ANC_K	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q7Z3J3|RGPD4_HUMAN	46.0	1L6N_A	3M1I_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q7Z429|LFG1_HUMAN	46.0	1L6N_A	6NQ7_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q7Z478|DHX29_HUMAN	46.0	1L6N_A	5VHE_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q7Z494|NPHP3_HUMAN	46.0	1L6N_A	6EJN_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q7Z4L5|TT21B_HUMAN	46.0	1L6N_A	5MC6_i	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q7Z4S6|KI21A_HUMAN	46.0	1L6N_A	5MM7_K	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q7Z5L3|C1QL2_HUMAN	46.0	1L6N_A	2OII_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q7Z5Q1|CPEB2_HUMAN	46.0	1L6N_A	2MKI_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q7Z5U6|WDR53_HUMAN	46.0	1L6N_A	5KC2_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q7Z6P3|RAB44_HUMAN	46.0	1L6N_A	5SZH_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q86SE5|RALYL_HUMAN	46.0	1L6N_A	1WF2_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q86T65|DAAM2_HUMAN	46.0	1L6N_A	2J1D_G	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q86TD4|SRCA_HUMAN	46.0	1L6N_A	2QPT_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q86TI4|WDR86_HUMAN	46.0	1L6N_A	6G6O_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q86TJ2|TAD2B_HUMAN	46.0	1L6N_A	6CW3_E	6BK8_O	5WSG_c
+sp|P04585|POL_HV1H2	sp|Q86TM3|DDX53_HUMAN	46.0	1L6N_A	6Y5Q_p	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q86TV6|TTC7B_HUMAN	46.0	1L6N_A	5DSE_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q86TZ1|TTC6_HUMAN	46.0	1L6N_A	4RG6_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q86U06|RBM23_HUMAN	46.0	1L6N_A	5EV3_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q86UA1|PRP39_HUMAN	46.0	1L6N_A	6G70_B	6BK8_O	6J6H_v
+sp|P04585|POL_HV1H2	sp|Q86UK7|ZN598_HUMAN	46.0	1L6N_A	6QNX_C	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q86UP3|ZFHX4_HUMAN	46.0	1L6N_A	5V3J_E	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q86UR1|NOXA1_HUMAN	46.0	1L6N_A	1HH8_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q86V15|CASZ1_HUMAN	46.0	1L6N_A	5WLC_L	6BK8_O	6J6G_S
+sp|P04585|POL_HV1H2	sp|Q86VM9|ZCH18_HUMAN	46.0	1L6N_A	6SC2_C	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q86VZ2|WDR5B_HUMAN	46.0	1L6N_A	6E1Z_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q86W42|THOC6_HUMAN	46.0	1L6N_A	4CZX_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q86WJ1|CHD1L_HUMAN	46.0	1L6N_A	6JYL_K	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q86WT1|TT30A_HUMAN	46.0	1L6N_A	4UZY_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q86XK2|FBX11_HUMAN	46.0	1L6N_A	6KQS_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q86XP3|DDX42_HUMAN	46.0	1L6N_A	6Y5Q_p	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q86Y01|DTX1_HUMAN	46.0	1L6N_A	3PG6_C	6BK8_O	6J6G_A
+sp|Q86Y33|CD20B_HUMAN	sp|P04585|POL_HV1H2	46.0	4GGC_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q86YC2|PALB2_HUMAN	46.0	1L6N_A	3EU7_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q86YN6|PRGC2_HUMAN	46.0	1L6N_A	6D0Y_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q86YR5|GPSM1_HUMAN	46.0	1L6N_A	6HC2_C	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q8IUF1|CBWD2_HUMAN	46.0	1L6N_A	4IXN_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q8IUH3|RBM45_HUMAN	46.0	1L6N_A	6R5K_D	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q8IUR5|TMTC1_HUMAN	46.0	1L6N_A	5JPZ_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q8IV35|WDR49_HUMAN	46.0	1L6N_A	6QK7_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8IVF7|FMNL3_HUMAN	46.0	1L6N_A	4YDH_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8IWA0|WDR75_HUMAN	46.0	1L6N_A	6RXU_U	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8IWA4|MFN1_HUMAN	46.0	1L6N_A	5GOE_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q8IWB7|WDFY1_HUMAN	46.0	1L6N_A	2PM7_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8IWG1|WDR63_HUMAN	46.0	1L6N_A	6RLB_C	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8IWX8|CHERP_HUMAN	46.0	1L6N_A	3D9N_A	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|Q8IX18|DHX40_HUMAN	46.0	1L6N_A	5YLZ_W	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q8IY21|DDX60_HUMAN	46.0	1L6N_A	6C90_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q8IY37|DHX37_HUMAN	46.0	1L6N_A	6O16_B	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q8IYB4|PEX5R_HUMAN	46.0	1L6N_A	4EQF_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q8IYB8|SUV3_HUMAN	46.0	1L6N_A	3RC8_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q8IYD1|ERF3B_HUMAN	46.0	1L6N_A	5LZT_j	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q8IYD8|FANCM_HUMAN	46.0	1L6N_A	4E45_J	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q8IYH5|ZZZ3_HUMAN	46.0	1L6N_A	2FC7_A	6BK8_O	5WSG_c
+sp|P04585|POL_HV1H2	sp|Q8IYM1|SEP12_HUMAN	46.0	1L6N_A	4Z54_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q8IYX4|DND1_HUMAN	46.0	1L6N_A	4QQB_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q8IYY4|DZI1L_HUMAN	46.0	1L6N_A	3NA7_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8IZL8|PELP1_HUMAN	46.0	1L6N_A	5TAP_E	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8IZP2|ST134_HUMAN	46.0	1L6N_A	4J8C_B	6BK8_O	6J6H_d
+sp|Q8IZQ1|WDFY3_HUMAN	sp|P04585|POL_HV1H2	46.0	1T77_D	1L6N_A	6BK8_D	6BK8_O
+sp|Q8IZU2|WDR17_HUMAN	sp|P04585|POL_HV1H2	46.0	5H1J_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q8N0X2|SPG16_HUMAN	46.0	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8N0Z6|TTC5_HUMAN	46.0	1L6N_A	2XVS_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q8N122|RPTOR_HUMAN	46.0	1L6N_A	6BCX_W	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8N136|DAW1_HUMAN	46.0	1L6N_A	5NNZ_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8N157|AHI1_HUMAN	46.0	1L6N_A	4J87_A	6BK8_O	5MQ0_t
+sp|Q8N1V2|CFA52_HUMAN	sp|P04585|POL_HV1H2	46.0	6U42_5	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q8N394|TMTC2_HUMAN	46.0	1L6N_A	3IEG_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q8N3C0|ASCC3_HUMAN	46.0	1L6N_A	5DCA_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q8N3P4|VPS8_HUMAN	46.0	1L6N_A	6RXU_U	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8N3Y1|FBXW8_HUMAN	46.0	1L6N_A	6WNX_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8N3Z3|GTPB8_HUMAN	46.0	1L6N_A	5UCV_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q8N442|GUF1_HUMAN	46.0	1L6N_A	5IMQ_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q8N4P2|TT30B_HUMAN	46.0	1L6N_A	4UZY_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q8N4Z0|RAB42_HUMAN	46.0	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q8N594|MPND_HUMAN	46.0	1L6N_A	5CW6_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8N5C6|SRBD1_HUMAN	46.0	1L6N_A	3BZC_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q8N5D0|WDTC1_HUMAN	46.0	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8N5P1|ZC3H8_HUMAN	46.0	1L6N_A	6EOJ_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q8N693|ESX1_HUMAN	46.0	1L6N_A	1MH3_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8N6W0|CELF5_HUMAN	46.0	1L6N_A	6R5K_D	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q8N7X1|RMXL3_HUMAN	46.0	1L6N_A	5YVG_X	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q8N8A6|DDX51_HUMAN	46.0	1L6N_A	6EM3_D	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q8N8S7|ENAH_HUMAN	46.0	1L6N_A	1XOD_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8N9B5|JMY_HUMAN	46.0	1L6N_A	5X1G_C	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8N9F0|NAT8L_HUMAN	46.0	1L6N_A	1S3Z_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8N9V3|WSDU1_HUMAN	46.0	1L6N_A	5WUK_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8NA23|WDR31_HUMAN	46.0	1L6N_A	4J87_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8NA56|TTC29_HUMAN	46.0	1L6N_A	4G2V_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q8NA75|DC4L2_HUMAN	46.0	1L6N_A	1SQ9_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q8NAA4|A16L2_HUMAN	46.0	1L6N_A	5NPW_H	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q8NAV1|PR38A_HUMAN	46.0	1L6N_A	6AHD_Z	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|Q8NBP0|TTC13_HUMAN	46.0	1L6N_A	4R7S_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q8NBT0|POC1A_HUMAN	46.0	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8NDG6|TDRD9_HUMAN	46.0	1L6N_A	5AOR_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q8NDM7|CFA43_HUMAN	46.0	1L6N_A	6U42_5	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8NDT2|RB15B_HUMAN	46.0	1L6N_A	1OW1_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q8NDW8|TT21A_HUMAN	46.0	1L6N_A	4M57_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q8NE35|CPEB3_HUMAN	46.0	1L6N_A	2MKI_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q8NE71|ABCF1_HUMAN	46.0	1L6N_A	5ZXD_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q8NEE8|TTC16_HUMAN	46.0	1L6N_A	2Y4T_C	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q8NEZ3|WDR19_HUMAN	46.0	1L6N_A	5NZT_C	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8NFC6|BD1L1_HUMAN	46.0	1L6N_A	6RMH_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8NFH3|NUP43_HUMAN	46.0	1L6N_A	5A9Q_R	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8NFH4|NUP37_HUMAN	46.0	1L6N_A	5A9Q_T	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8NFI4|F10A5_HUMAN	46.0	1L6N_A	4J8C_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q8NFP9|NBEA_HUMAN	46.0	1L6N_A	1MI1_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8NHQ9|DDX55_HUMAN	46.0	1L6N_A	6EM3_D	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q8NHV4|NEDD1_HUMAN	46.0	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8NHY2|COP1_HUMAN	46.0	1L6N_A	5IGQ_C	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q8NI36|WDR36_HUMAN	46.0	1L6N_A	5ICA_C	6BK8_O	5YLZ_T
+sp|Q8TAF3|WDR48_HUMAN	sp|P04585|POL_HV1H2	46.0	5K1A_F	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q8TAI7|REBL1_HUMAN	46.0	1L6N_A	3OES_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q8TAM2|TTC8_HUMAN	46.0	1L6N_A	6VBV_8	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q8TAQ2|SMRC2_HUMAN	46.0	1L6N_A	6LTJ_O	6BK8_O	5WSG_c
+sp|P04585|POL_HV1H2	sp|Q8TAT6|NPL4_HUMAN	46.0	1L6N_A	6OA9_G	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8TB24|RIN3_HUMAN	46.0	1L6N_A	2EFH_A	6BK8_O	6J6G_A
+sp|Q8TBC3|SHKB1_HUMAN	sp|P04585|POL_HV1H2	46.0	4BGC_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q8TBF4|ZCRB1_HUMAN	46.0	1L6N_A	5TKZ_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q8TBY0|RBM46_HUMAN	46.0	1L6N_A	3VF0_B	6BK8_O	6J6G_R
+sp|Q8TBY9|CF251_HUMAN	sp|P04585|POL_HV1H2	46.0	6U42_5	1L6N_A	6BK8_D	6BK8_O
+sp|Q8TBZ3|WDR20_HUMAN	sp|P04585|POL_HV1H2	46.0	5K1C_C	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q8TC44|POC1B_HUMAN	46.0	1L6N_A	4J87_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8TC92|ENOX1_HUMAN	46.0	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q8TCS8|PNPT1_HUMAN	46.0	1L6N_A	1E3H_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q8TD26|CHD6_HUMAN	46.0	1L6N_A	5O9G_W	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q8TDD1|DDX54_HUMAN	46.0	1L6N_A	6Y5Q_p	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q8TDG4|HELQ_HUMAN	46.0	1L6N_A	5AGA_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q8TDJ6|DMXL2_HUMAN	46.0	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8TE59|ATS19_HUMAN	46.0	1L6N_A	6QIG_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8TE82|S3TC1_HUMAN	46.0	1L6N_A	4WND_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q8TE96|DQX1_HUMAN	46.0	1L6N_A	5LTJ_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q8TEB1|DCA11_HUMAN	46.0	1L6N_A	2PBI_D	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8TED0|UTP15_HUMAN	46.0	1L6N_A	5WLC_L	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8TEQ6|GEMI5_HUMAN	46.0	1L6N_A	5TEE_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8TF17|S3TC2_HUMAN	46.0	1L6N_A	5A7D_C	6BK8_O	6J6H_v
+sp|P04585|POL_HV1H2	sp|Q8WU90|ZC3HF_HUMAN	46.0	1L6N_A	4A9A_C	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q8WUA4|TF3C2_HUMAN	46.0	1L6N_A	2J04_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8WV16|DCAF4_HUMAN	46.0	1L6N_A	1SQ9_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q8WVS4|WDR60_HUMAN	46.0	1L6N_A	6RLB_C	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q8WVT3|TPC12_HUMAN	46.0	1L6N_A	4A1S_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q8WWQ0|PHIP_HUMAN	46.0	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8WXA9|SREK1_HUMAN	46.0	1L6N_A	3PGW_L	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q8WXF0|SRS12_HUMAN	46.0	1L6N_A	6N7R_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q8WXF1|PSPC1_HUMAN	46.0	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q8WXH6|RB40A_HUMAN	46.0	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q8WYJ6|SEPT1_HUMAN	46.0	1L6N_A	4Z54_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q92466|DDB2_HUMAN	46.0	1L6N_A	4E54_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q92499|DDX1_HUMAN	46.0	1L6N_A	5ZWN_y	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q92558|WASF1_HUMAN	46.0	1L6N_A	4N78_D	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q92620|PRP16_HUMAN	46.0	1L6N_A	5YZG_Z	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q92636|FAN_HUMAN	46.0	1L6N_A	1T77_D	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q92698|RAD54_HUMAN	46.0	1L6N_A	1Z3I_X	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q92730|RND1_HUMAN	46.0	1L6N_A	2REX_D	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q92737|RSLAA_HUMAN	46.0	1L6N_A	3SEA_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q92747|ARC1A_HUMAN	46.0	1L6N_A	1K8K_C	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q92804|RBP56_HUMAN	46.0	1L6N_A	5YVG_X	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q92828|COR2A_HUMAN	46.0	1L6N_A	4OZU_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q92830|KAT2A_HUMAN	46.0	1L6N_A	6CW3_H	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q92838|EDA_HUMAN	46.0	1L6N_A	1RJ7_E	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q92841|DDX17_HUMAN	46.0	1L6N_A	6UV1_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q92879|CELF1_HUMAN	46.0	1L6N_A	2DHS_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q92896|GSLG1_HUMAN	46.0	1L6N_A	6X9O_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q92905|CSN5_HUMAN	46.0	1L6N_A	4D10_E	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q92922|SMRC1_HUMAN	46.0	1L6N_A	6LTJ_O	6BK8_O	5WSG_c
+sp|P04585|POL_HV1H2	sp|Q92925|SMRD2_HUMAN	46.0	1L6N_A	6LTJ_P	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q92930|RAB8B_HUMAN	46.0	1L6N_A	5SZI_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q93062|RBPMS_HUMAN	46.0	1L6N_A	5CYJ_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q969H0|FBXW7_HUMAN	46.0	1L6N_A	2OVR_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q969L4|LSM10_HUMAN	46.0	1L6N_A	6V4X_C	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|Q969S9|RRF2M_HUMAN	46.0	1L6N_A	2BM0_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q969U6|FBXW5_HUMAN	46.0	1L6N_A	6WNX_A	6BK8_O	5YLZ_T
+sp|Q969X6|UTP4_HUMAN	sp|P04585|POL_HV1H2	46.0	5WLC_L	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q96A28|SLAF9_HUMAN	46.0	1L6N_A	3ALW_A	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|Q96A58|RERG_HUMAN	46.0	1L6N_A	3SEA_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q96AH8|RAB7B_HUMAN	46.0	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q96AX2|RAB37_HUMAN	46.0	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q96AY4|TTC28_HUMAN	46.0	1L6N_A	5MC6_i	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q96C10|DHX58_HUMAN	46.0	1L6N_A	5JB2_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q96DA2|RB39B_HUMAN	46.0	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q96DH6|MSI2H_HUMAN	46.0	1L6N_A	5HO4_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q96DI7|SNR40_HUMAN	46.0	1L6N_A	6ID1_E	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q96DN5|TBC31_HUMAN	46.0	1L6N_A	4J87_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q96DU9|PABP5_HUMAN	46.0	1L6N_A	6R5K_H	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q96E39|RMXL1_HUMAN	46.0	1L6N_A	5YVG_X	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q96EE3|SEH1_HUMAN	46.0	1L6N_A	5A9Q_P	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q96EP5|DAZP1_HUMAN	46.0	1L6N_A	2UP1_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q96EQ0|SGTB_HUMAN	46.0	1L6N_A	5L0Y_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q96EV2|RBM33_HUMAN	46.0	1L6N_A	6ODM_O	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q96EX3|WDR34_HUMAN	46.0	1L6N_A	6SC2_D	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q96FJ0|STALP_HUMAN	46.0	1L6N_A	5GM6_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q96FK6|WDR89_HUMAN	46.0	1L6N_A	6QK7_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q96G74|OTUD5_HUMAN	46.0	1L6N_A	3PFY_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q96GQ7|DDX27_HUMAN	46.0	1L6N_A	6EM3_D	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q96H35|RBM18_HUMAN	46.0	1L6N_A	2EK6_C	6BK8_O	6J6G_R
+sp|Q96J01|THOC3_HUMAN	sp|P04585|POL_HV1H2	46.0	6QTS_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q96J87|CELF6_HUMAN	46.0	1L6N_A	6R5K_D	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q96JH7|VCIP1_HUMAN	46.0	1L6N_A	3ZRH_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q96JK2|DCAF5_HUMAN	46.0	1L6N_A	3GRE_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q96JM2|ZN462_HUMAN	46.0	1L6N_A	5V3J_F	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q96KV7|WDR90_HUMAN	46.0	1L6N_A	3SFZ_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q96L91|EP400_HUMAN	46.0	1L6N_A	6IGM_H	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q96MF7|NSE2_HUMAN	46.0	1L6N_A	3HTK_C	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q96MR6|CFA57_HUMAN	46.0	1L6N_A	6U42_5	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q96MT7|CFA44_HUMAN	46.0	1L6N_A	6U42_5	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q96MX6|WDR92_HUMAN	46.0	1L6N_A	3I2N_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q96N46|TTC14_HUMAN	46.0	1L6N_A	2HR2_D	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q96NG3|TTC25_HUMAN	46.0	1L6N_A	4A1S_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q96P53|WDFY2_HUMAN	46.0	1L6N_A	2PM7_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q96PK6|RBM14_HUMAN	46.0	1L6N_A	2MJN_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q96PQ0|SORC2_HUMAN	46.0	1L6N_A	6FFY_A	6BK8_O	6J6G_A
+sp|Q96PQ7|KLHL5_HUMAN	sp|P04585|POL_HV1H2	46.0	4YY8_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q96PV6|LENG8_HUMAN	46.0	1L6N_A	5L4K_T	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q96PY5|FMNL2_HUMAN	46.0	1L6N_A	4YDH_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q96RK4|BBS4_HUMAN	46.0	1L6N_A	6VBV_4	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q96RP9|EFGM_HUMAN	46.0	1L6N_A	3J0E_H	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q96RR1|PEO1_HUMAN	46.0	1L6N_A	1Q57_F	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q96RY7|IF140_HUMAN	46.0	1L6N_A	3MKQ_E	6BK8_O	5YLZ_T
+sp|Q96S15|WDR24_HUMAN	sp|P04585|POL_HV1H2	46.0	3W15_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q96S21|RB40C_HUMAN	46.0	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q96S59|RANB9_HUMAN	46.0	1L6N_A	6SWY_1	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q96SQ7|ATOH8_HUMAN	46.0	1L6N_A	6MGM_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q96ST3|SIN3A_HUMAN	46.0	1L6N_A	2N2H_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q96T37|RBM15_HUMAN	46.0	1L6N_A	2RT5_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q99543|DNJC2_HUMAN	46.0	1L6N_A	5DJE_B	6BK8_O	5WSG_c
+sp|P04585|POL_HV1H2	sp|Q99590|SCAFB_HUMAN	46.0	1L6N_A	5VZV_C	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q99614|TTC1_HUMAN	46.0	1L6N_A	4APO_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q99615|DNJC7_HUMAN	46.0	1L6N_A	2Y4U_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q99633|PRP18_HUMAN	46.0	1L6N_A	1DVK_B	6BK8_O	6BK8_N
+sp|P04585|POL_HV1H2	sp|Q99666|RGPD5_HUMAN	46.0	1L6N_A	3M1I_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q99698|LYST_HUMAN	46.0	1L6N_A	1T77_D	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q99719|SEPT5_HUMAN	46.0	1L6N_A	4Z54_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q99729|ROAA_HUMAN	46.0	1L6N_A	2UP1_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q99973|TEP1_HUMAN	46.0	1L6N_A	3SFZ_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9BQ04|RBM4B_HUMAN	46.0	1L6N_A	2MJN_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9BQ39|DDX50_HUMAN	46.0	1L6N_A	6L5O_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9BQ67|GRWD1_HUMAN	46.0	1L6N_A	4PSW_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9BQ87|TBL1Y_HUMAN	46.0	1L6N_A	4LG9_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9BQA1|MEP50_HUMAN	46.0	1L6N_A	4GQB_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9BQI5|SGIP1_HUMAN	46.0	1L6N_A	5JP2_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9BR76|COR1B_HUMAN	46.0	1L6N_A	4OZU_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9BRA0|LSMD1_HUMAN	46.0	1L6N_A	3JB9_E	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|Q9BRL6|SRSF8_HUMAN	46.0	1L6N_A	6N7R_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9BRP4|PAAF1_HUMAN	46.0	1L6N_A	3ACP_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9BRT8|CBWD1_HUMAN	46.0	1L6N_A	4IXN_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q9BRX9|WDR83_HUMAN	46.0	1L6N_A	6U8B_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9BSC4|NOL10_HUMAN	46.0	1L6N_A	5WLC_L	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9BTD8|RBM42_HUMAN	46.0	1L6N_A	6QW6_R	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9BTV6|DPH7_HUMAN	46.0	1L6N_A	4PSW_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9BU20|CPLN2_HUMAN	46.0	1L6N_A	1R2Q_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q9BUQ8|DDX23_HUMAN	46.0	1L6N_A	6QW6_5	6BK8_O	6BK8_P
+sp|Q9BUR4|TCAB1_HUMAN	sp|P04585|POL_HV1H2	46.0	3DW8_E	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q9BV38|WDR18_HUMAN	46.0	1L6N_A	4U1E_I	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9BVA0|KTNB1_HUMAN	46.0	1L6N_A	5LB7_A	6BK8_O	5MQ0_t
+sp|Q9BVC4|LST8_HUMAN	sp|P04585|POL_HV1H2	46.0	6BCU_E	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q9BWF3|RBM4_HUMAN	46.0	1L6N_A	2MJN_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9BX10|GTPB2_HUMAN	46.0	1L6N_A	5LZZ_j	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q9BX46|RBM24_HUMAN	46.0	1L6N_A	5Z9Z_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9BXJ9|NAA15_HUMAN	46.0	1L6N_A	4XNH_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q9BXX0|EMIL2_HUMAN	46.0	1L6N_A	2OII_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9BY44|EIF2A_HUMAN	46.0	1L6N_A	6GSN_p	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9BYB4|GNB1L_HUMAN	46.0	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9BYG3|MK67I_HUMAN	46.0	1L6N_A	2AFF_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9BYW2|SETD2_HUMAN	46.0	1L6N_A	6PX3_S	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9BYX4|IFIH1_HUMAN	46.0	1L6N_A	6GKM_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9BZC1|CELF4_HUMAN	46.0	1L6N_A	2DHS_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9BZG1|RAB34_HUMAN	46.0	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|Q9BZH6|WDR11_HUMAN	sp|P04585|POL_HV1H2	46.0	5H1J_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q9BZJ0|CRNL1_HUMAN	46.0	1L6N_A	6ID1_J	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q9BZK7|TBL1R_HUMAN	46.0	1L6N_A	4LG9_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9C0C7|AMRA1_HUMAN	46.0	1L6N_A	6CVZ_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9C0D6|FHDC1_HUMAN	46.0	1L6N_A	3O4X_F	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9C0F0|ASXL3_HUMAN	46.0	1L6N_A	6CGA_D	6BK8_O	6J6G_A
+sp|Q9C0H6|KLHL4_HUMAN	sp|P04585|POL_HV1H2	46.0	4YY8_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q9C0J8|WDR33_HUMAN	46.0	1L6N_A	6URO_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9GZL7|WDR12_HUMAN	46.0	1L6N_A	6N31_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9GZR7|DDX24_HUMAN	46.0	1L6N_A	6Y5Q_p	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9GZS0|DNAI2_HUMAN	46.0	1L6N_A	6RLB_C	6BK8_O	5YLZ_T
+sp|Q9GZS3|WDR61_HUMAN	sp|P04585|POL_HV1H2	46.0	3OW8_B	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q9H013|ADA19_HUMAN	46.0	1L6N_A	3G5C_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9H074|PAIP1_HUMAN	46.0	1L6N_A	3RK6_B	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|Q9H082|RB33B_HUMAN	46.0	1L6N_A	2G77_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q9H0B6|KLC2_HUMAN	46.0	1L6N_A	6EJN_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q9H0N0|RAB6C_HUMAN	46.0	1L6N_A	3BBP_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q9H0S4|DDX47_HUMAN	46.0	1L6N_A	6EM3_D	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9H0Z9|RBM38_HUMAN	46.0	1L6N_A	5Z9Z_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9H161|ALX4_HUMAN	46.0	1L6N_A	1MH3_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9H172|ABCG4_HUMAN	46.0	1L6N_A	5DO7_C	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9H1Z4|WDR13_HUMAN	46.0	1L6N_A	3GRE_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9H221|ABCG8_HUMAN	46.0	1L6N_A	5DO7_D	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9H222|ABCG5_HUMAN	46.0	1L6N_A	5DO7_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9H254|SPTN4_HUMAN	46.0	1L6N_A	1SJJ_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9H2G4|TSYL2_HUMAN	46.0	1L6N_A	5X7V_D	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9H2U1|DHX36_HUMAN	46.0	1L6N_A	5VHE_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9H2Y7|ZN106_HUMAN	46.0	1L6N_A	6M90_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9H361|PABP3_HUMAN	46.0	1L6N_A	6R5K_H	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9H3S7|PTN23_HUMAN	46.0	1L6N_A	2R03_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9H461|FZD8_HUMAN	46.0	1L6N_A	5V57_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9H4P4|RNF41_HUMAN	46.0	1L6N_A	2FZP_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9H5Z1|DHX35_HUMAN	46.0	1L6N_A	5YLZ_W	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9H6R0|DHX33_HUMAN	46.0	1L6N_A	5YLZ_W	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9H6S0|YTDC2_HUMAN	46.0	1L6N_A	5VHE_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9H6T3|RPAP3_HUMAN	46.0	1L6N_A	6FO1_G	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q9H6Y2|WDR55_HUMAN	46.0	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9H7D7|WDR26_HUMAN	46.0	1L6N_A	6MZM_G	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9H7N4|SFR19_HUMAN	46.0	1L6N_A	6ICZ_Y	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9H7X7|IFT22_HUMAN	46.0	1L6N_A	6IAN_E	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q9H808|TLE6_HUMAN	46.0	1L6N_A	1GXR_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9H892|TTC12_HUMAN	46.0	1L6N_A	4I2Z_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q9H8H2|DDX31_HUMAN	46.0	1L6N_A	6EM3_D	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9H967|WDR76_HUMAN	46.0	1L6N_A	4XYH_A	6BK8_O	5YLZ_T
+sp|Q9H977|WDR54_HUMAN	sp|P04585|POL_HV1H2	46.0	6G6M_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q9HAD4|WDR41_HUMAN	46.0	1L6N_A	6LT0_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9HAU5|RENT2_HUMAN	46.0	1L6N_A	4CEM_B	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|Q9HAV0|GBB4_HUMAN	46.0	1L6N_A	5KDO_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9HBG6|IF122_HUMAN	46.0	1L6N_A	3MKQ_E	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9HC35|EMAL4_HUMAN	46.0	1L6N_A	4CI8_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9HCK8|CHD8_HUMAN	46.0	1L6N_A	5O9G_W	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9HCS7|SYF1_HUMAN	46.0	1L6N_A	6FF7_M	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q9HCU5|PREB_HUMAN	46.0	1L6N_A	5TF2_A	6BK8_O	5YLZ_T
+sp|Q9NNW5|WDR6_HUMAN	sp|P04585|POL_HV1H2	46.0	6QK7_B	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q9NP58|ABCB6_HUMAN	46.0	1L6N_A	4MYC_C	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9NP64|NO40_HUMAN	46.0	1L6N_A	2CQO_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9NP78|ABCB9_HUMAN	46.0	1L6N_A	4AYX_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9NP90|RAB9B_HUMAN	46.0	1L6N_A	1S8F_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q9NQ94|A1CF_HUMAN	46.0	1L6N_A	3VF0_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9NQC3|RTN4_HUMAN	46.0	1L6N_A	2KO2_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9NQI0|DDX4_HUMAN	46.0	1L6N_A	2DB3_B	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9NQL2|RRAGD_HUMAN	46.0	1L6N_A	6ULG_G	6BK8_O	6TEO_C
+sp|Q9NQW1|SC31B_HUMAN	sp|P04585|POL_HV1H2	46.0	4BZJ_C	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q9NR30|DDX21_HUMAN	46.0	1L6N_A	6L5O_A	6BK8_O	6BK8_P
+sp|Q9NR64|KLHL1_HUMAN	sp|P04585|POL_HV1H2	46.0	4YY8_A	1L6N_A	6BK8_D	6BK8_O
+sp|Q9NRG9|AAAS_HUMAN	sp|P04585|POL_HV1H2	46.0	5T2A_7	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q9NRJ4|TULP4_HUMAN	46.0	1L6N_A	1S31_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9NRK6|ABCBA_HUMAN	46.0	1L6N_A	4AYX_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9NRL3|STRN4_HUMAN	46.0	1L6N_A	5VH9_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9NRR4|RNC_HUMAN	46.0	1L6N_A	6LXD_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9NRW1|RAB6B_HUMAN	46.0	1L6N_A	3BBP_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q9NRZ9|HELLS_HUMAN	46.0	1L6N_A	6JYL_K	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9NSI6|BRWD1_HUMAN	46.0	1L6N_A	1VYH_D	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9NSK0|KLC4_HUMAN	46.0	1L6N_A	6EJN_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q9NSV4|DIAP3_HUMAN	46.0	1L6N_A	3O4X_F	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9NUL7|DDX28_HUMAN	46.0	1L6N_A	5Z3G_Y	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9NUQ8|ABCF3_HUMAN	46.0	1L6N_A	5ZXD_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9NUT2|MITOS_HUMAN	46.0	1L6N_A	5OCH_B	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9NUU7|DD19A_HUMAN	46.0	1L6N_A	3FMP_B	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9NV06|DCA13_HUMAN	46.0	1L6N_A	5WLC_L	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9NVA2|SEP11_HUMAN	46.0	1L6N_A	2QAG_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q9NVP1|DDX18_HUMAN	46.0	1L6N_A	6EM3_D	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9NVX2|NLE1_HUMAN	46.0	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9NW64|RBM22_HUMAN	46.0	1L6N_A	6ID1_O	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9NW82|WDR70_HUMAN	46.0	1L6N_A	1YFQ_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9NWB1|RFOX1_HUMAN	46.0	1L6N_A	4ZKA_C	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9NWH9|SLTM_HUMAN	46.0	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9NWT1|PK1IP_HUMAN	46.0	1L6N_A	3V7D_D	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9NXC5|MIO_HUMAN	46.0	1L6N_A	4YCZ_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9NXZ2|DDX43_HUMAN	46.0	1L6N_A	6Y5Q_p	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9NY93|DDX56_HUMAN	46.0	1L6N_A	5Z3G_Y	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9NYS7|WSB2_HUMAN	46.0	1L6N_A	4J87_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9NZ56|FMN2_HUMAN	46.0	1L6N_A	3O4X_F	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9NZ81|PRR13_HUMAN	46.0	1L6N_A	6J6G_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9NZC9|SMAL1_HUMAN	46.0	1L6N_A	6PWF_K	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9NZJ0|DTL_HUMAN	46.0	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9P013|CWC15_HUMAN	46.0	1L6N_A	6ID1_P	6BK8_O	6J6G_S
+sp|P04585|POL_HV1H2	sp|Q9P0K8|FOXJ2_HUMAN	46.0	1L6N_A	1JXS_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9P2C4|TM181_HUMAN	46.0	1L6N_A	6LTJ_P	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9P2D1|CHD7_HUMAN	46.0	1L6N_A	5O9G_W	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9P2H3|IFT80_HUMAN	46.0	1L6N_A	5N4A_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9P2L0|WDR35_HUMAN	46.0	1L6N_A	3MKQ_E	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9P2N5|RBM27_HUMAN	46.0	1L6N_A	6ICZ_Y	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9P2S5|WRP73_HUMAN	46.0	1L6N_A	4U1F_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9UBJ2|ABCD2_HUMAN	46.0	1L6N_A	6JBJ_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9UBK2|PRGC1_HUMAN	46.0	1L6N_A	6D0Y_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9UBK7|RBL2A_HUMAN	46.0	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q9UFC0|LRWD1_HUMAN	46.0	1L6N_A	6CVZ_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9UG01|IF172_HUMAN	46.0	1L6N_A	6QK7_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9UG63|ABCF2_HUMAN	46.0	1L6N_A	6R84_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9UGI6|KCNN3_HUMAN	46.0	1L6N_A	6CNM_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9UH03|SEPT3_HUMAN	46.0	1L6N_A	4Z54_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q9UHD8|SEPT9_HUMAN	46.0	1L6N_A	4Z54_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q9UHI6|DDX20_HUMAN	46.0	1L6N_A	5SUQ_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9UHL0|DDX25_HUMAN	46.0	1L6N_A	3FMP_B	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9UHX1|PUF60_HUMAN	46.0	1L6N_A	2KXH_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9UI08|EVL_HUMAN	46.0	1L6N_A	1QC6_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9UI46|DNAI1_HUMAN	46.0	1L6N_A	6F1Z_o	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9UIM3|FKBPL_HUMAN	46.0	1L6N_A	1P5Q_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q9UJ55|MAGL2_HUMAN	46.0	1L6N_A	6R7T_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9UJV9|DDX41_HUMAN	46.0	1L6N_A	5ZWN_y	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9UJX2|CDC23_HUMAN	46.0	1L6N_A	6Q6H_V	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q9UJX3|APC7_HUMAN	46.0	1L6N_A	6Q6G_Z	6BK8_O	6J6H_d
+sp|Q9UJX5|APC4_HUMAN	sp|P04585|POL_HV1H2	46.0	6TM5_I	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q9UK45|LSM7_HUMAN	46.0	1L6N_A	6QW6_6	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|Q9UKB1|FBW1B_HUMAN	46.0	1L6N_A	6WNX_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9UKM9|RALY_HUMAN	46.0	1L6N_A	4PKD_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9UKT8|FBXW2_HUMAN	46.0	1L6N_A	3V7D_D	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9UL51|HCN2_HUMAN	46.0	1L6N_A	6UQF_C	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9ULG1|INO80_HUMAN	46.0	1L6N_A	6HTS_G	6BK8_O	6BK8_P
+sp|Q9ULI1|NWD2_HUMAN	sp|P04585|POL_HV1H2	46.0	3SFZ_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q9ULL5|PRR12_HUMAN	46.0	1L6N_A	4UUD_D	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9ULT0|TTC7A_HUMAN	46.0	1L6N_A	5DSE_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q9ULV4|COR1C_HUMAN	46.0	1L6N_A	4OZU_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9UM11|FZR1_HUMAN	46.0	1L6N_A	4UI9_R	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9UMN6|KMT2B_HUMAN	46.0	1L6N_A	6KIZ_K	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9UMR2|DD19B_HUMAN	46.0	1L6N_A	3FMP_B	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9UMS4|PRP19_HUMAN	46.0	1L6N_A	6J6G_q	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9UNE7|CHIP_HUMAN	46.0	1L6N_A	2C2L_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9UNQ0|ABCG2_HUMAN	46.0	1L6N_A	6HZM_B	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9UNT1|RBL2B_HUMAN	46.0	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q9UPN6|SCAF8_HUMAN	46.0	1L6N_A	2DIW_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9UPQ9|TNR6B_HUMAN	46.0	1L6N_A	2WBR_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9UPR6|ZFR2_HUMAN	46.0	1L6N_A	5DV7_C	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9UPS6|SET1B_HUMAN	46.0	1L6N_A	6UH5_M	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9UPT8|ZC3H4_HUMAN	46.0	1L6N_A	2CQE_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9UPY3|DICER_HUMAN	46.0	1L6N_A	5ZAM_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9UPY6|WASF3_HUMAN	46.0	1L6N_A	4N78_D	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9UQ03|COR2B_HUMAN	46.0	1L6N_A	4OZU_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9UQ16|DYN3_HUMAN	46.0	1L6N_A	4UUK_I	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q9UQ35|SRRM2_HUMAN	46.0	1L6N_A	6ICZ_U	6BK8_O	5MPS_R
+sp|P04585|POL_HV1H2	sp|Q9Y222|DMTF1_HUMAN	46.0	1L6N_A	5EYB_A	6BK8_O	5WSG_c
+sp|P04585|POL_HV1H2	sp|Q9Y263|PLAP_HUMAN	46.0	1L6N_A	3PST_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9Y297|FBW1A_HUMAN	46.0	1L6N_A	6TTU_T	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9Y2G1|MYRF_HUMAN	46.0	1L6N_A	5YHU_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9Y2I8|WDR37_HUMAN	46.0	1L6N_A	2QXV_A	6BK8_O	5MQ0_t
+sp|Q9Y2K9|STB5L_HUMAN	sp|P04585|POL_HV1H2	46.0	6N8R_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q9Y2R4|DDX52_HUMAN	46.0	1L6N_A	6Y5Q_p	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9Y2T4|2ABG_HUMAN	46.0	1L6N_A	3DW8_E	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9Y2X0|MED16_HUMAN	46.0	1L6N_A	6RM3_S	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9Y2Z0|SGT1_HUMAN	46.0	1L6N_A	2KMW_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q9Y333|LSM2_HUMAN	46.0	1L6N_A	6QX9_6	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|Q9Y388|RBMX2_HUMAN	46.0	1L6N_A	6FF4_1	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9Y3B4|SF3B6_HUMAN	46.0	1L6N_A	3LQV_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9Y3F4|STRAP_HUMAN	46.0	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9Y450|HBS1L_HUMAN	46.0	1L6N_A	5LZZ_j	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q9Y484|WIPI4_HUMAN	46.0	1L6N_A	5LTD_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9Y485|DMXL1_HUMAN	46.0	1L6N_A	6JLQ_C	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9Y4B6|DCAF1_HUMAN	46.0	1L6N_A	4PXW_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9Y4D1|DAAM1_HUMAN	46.0	1L6N_A	2J1D_G	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9Y4E6|WDR7_HUMAN	46.0	1L6N_A	6QK7_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9Y4P3|TBL2_HUMAN	46.0	1L6N_A	2PBI_D	6BK8_O	5MQ0_t
+sp|Q9Y4P8|WIPI2_HUMAN	sp|P04585|POL_HV1H2	46.0	5LTG_B	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q9Y4Y9|LSM5_HUMAN	46.0	1L6N_A	6QW6_6	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|Q9Y4Z0|LSM4_HUMAN	46.0	1L6N_A	3JCR_4	6BK8_O	5ZWO_T
+sp|P04585|POL_HV1H2	sp|Q9Y580|RBM7_HUMAN	46.0	1L6N_A	6ELD_A	6BK8_O	6J6G_R
+sp|Q9Y597|KCTD3_HUMAN	sp|P04585|POL_HV1H2	46.0	4BGC_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q9Y5J1|UTP18_HUMAN	46.0	1L6N_A	6ND4_S	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9Y5M8|SRPRB_HUMAN	46.0	1L6N_A	2FH5_B	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q9Y5Q9|TF3C3_HUMAN	46.0	1L6N_A	5AIO_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q9Y5S9|RBM8A_HUMAN	46.0	1L6N_A	6ICZ_w	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9Y613|FHOD1_HUMAN	46.0	1L6N_A	3DAD_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9Y618|NCOR2_HUMAN	46.0	1L6N_A	4CZZ_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9Y620|RA54B_HUMAN	46.0	1L6N_A	1Z3I_X	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9Y661|HS3S4_HUMAN	46.0	1L6N_A	1T8T_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9Y6I7|WSB1_HUMAN	46.0	1L6N_A	4J87_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9Y6J0|CABIN_HUMAN	46.0	1L6N_A	1N6J_G	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q9Y6M1|IF2B2_HUMAN	46.0	1L6N_A	3N89_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9Y6V0|PCLO_HUMAN	46.0	1L6N_A	1RH8_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9Y6V7|DDX49_HUMAN	46.0	1L6N_A	6EM3_D	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9Y6W5|WASF2_HUMAN	46.0	1L6N_A	4N78_D	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9Y6X3|SCC4_HUMAN	46.0	1L6N_A	5W94_A	6BK8_O	6J6H_v
+sp|P04585|POL_HV1H2	sp|Q9Y6Y8|S23IP_HUMAN	46.0	1L6N_A	3IDW_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	tr|A0A0B4J2E5|A0A0B4J2E5_HUMAN	46.0	1L6N_A	5WLC_L	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	tr|A0A0G2JNQ3|A0A0G2JNQ3_HUMAN	46.0	1L6N_A	2KVI_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	tr|A0A0G2JPF8|A0A0G2JPF8_HUMAN	46.0	1L6N_A	2KVI_A	6BK8_O	6J6G_R
+tr|A0A5K1VDZ0|A0A5K1VDZ0_HUMAN	sp|P04585|POL_HV1H2	46.0	3VH8_H	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6R0|TRGV2_HUMAN	46.0	1L6N_A	6QNO_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6T8|TVA91_HUMAN	46.0	1L6N_A	2J8U_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q86UW8|HPLN4_HUMAN	46.0	1L6N_A	2N40_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q6UXZ3|CLM5_HUMAN	46.0	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|P54727|RD23B_HUMAN	46.0	3MI9_C	1OQY_A	3MI9_C	2PK2_B
+sp|P43628|KI2L3_HUMAN	sp|P04591|GAG_HV1H2	46.0	1B6U_A	1L6N_A	6CPL_A	2XXM_A
+tr|A0A5K1VDZ0|A0A5K1VDZ0_HUMAN	sp|P04591|GAG_HV1H2	46.0	3VH8_H	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|P43628|KI2L3_HUMAN	45.9	6PWU_E	1B6U_A	3U2S_C	5N2K_F
+sp|P04585|POL_HV1H2	sp|A0A0B4J1U6|TVB9_HUMAN	45.9	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|Q13291|SLAF1_HUMAN	sp|P04585|POL_HV1H2	45.9	3ALZ_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|Q96A19|C102A_HUMAN	45.9	1L6N_A	4XA6_D	6BK8_O	6J6G_A
+tr|A0A0J9YW62|A0A0J9YW62_HUMAN	sp|P04585|POL_HV1H2	45.9	5WB1_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J1U6|TVB9_HUMAN	45.9	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH38|HV551_HUMAN	45.9	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q15642|CIP4_HUMAN	45.9	3TB8_A	2EFK_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q96JB8|MPP4_HUMAN	45.9	3TB8_A	2XKX_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|P13747|HLAE_HUMAN	45.9	2X7L_R	6AT5_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P30511|HLAF_HUMAN	45.9	2X7L_R	6AT5_A	2X7L_R	5I8O_H
+sp|Q9P1Z0|ZBTB4_HUMAN	sp|P69723|VIF_HV1H2	45.9	5YEF_A	4N9F_b	6P59_Z	6P59_B
+sp|Q13291|SLAF1_HUMAN	sp|P04591|GAG_HV1H2	45.9	3ALZ_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q86TB3|ALPK2_HUMAN	sp|P04601|NEF_HV1H2	45.9	4ZMF_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|A0A5B9|TRBC2_HUMAN	45.8	6PWU_E	6U07_B	6FY1_G	4HJJ_H
+sp|P04578|ENV_HV1H2	tr|A0A0G2JNF4|A0A0G2JNF4_HUMAN	45.8	6PWU_E	1B6U_A	3U2S_C	5N2K_F
+sp|P04585|POL_HV1H2	sp|A0A1B0GTH6|CS2IP_HUMAN	45.8	1L6N_A	6FF7_T	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	sp|A0JLT2|MED19_HUMAN	45.8	1L6N_A	6J6G_A	6ICZ_Z	6ICZ_U
+sp|A3KN83|SBNO1_HUMAN	sp|P04585|POL_HV1H2	45.8	6NE3_W	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|A5YKK6|CNOT1_HUMAN	45.8	1L6N_A	4C0D_A	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	sp|A6NH57|ARL5C_HUMAN	45.8	1L6N_A	1Z6Y_A	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|A7MD48|SRRM4_HUMAN	45.8	1L6N_A	6FF4_S	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|A8MPP1|D11L8_HUMAN	45.8	1L6N_A	5OQM_0	6ICZ_Z	6S8Q_B
+sp|P04585|POL_HV1H2	sp|B3KS81|SRRM5_HUMAN	45.8	1L6N_A	6FF4_S	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|O00425|IF2B3_HUMAN	45.8	1L6N_A	3N89_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|O14979|HNRDL_HUMAN	45.8	1L6N_A	5HO4_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|O14981|BTAF1_HUMAN	45.8	1L6N_A	6G7E_B	6ICZ_Z	6S8Q_B
+sp|P04585|POL_HV1H2	sp|O15050|TRNK1_HUMAN	45.8	1L6N_A	3VKW_A	6ICZ_Z	4PJ3_A
+sp|O15287|FANCG_HUMAN	sp|P04585|POL_HV1H2	45.8	5AEM_A	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|O15372|EIF3H_HUMAN	45.8	1L6N_A	6YAM_r	6ICZ_Z	6ID1_A
+sp|P04585|POL_HV1H2	sp|O15417|TNC18_HUMAN	45.8	1L6N_A	1ZBX_A	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|O43379|WDR62_HUMAN	45.8	1L6N_A	6U42_5	6ICZ_Z	5MQF_F
+sp|P04585|POL_HV1H2	sp|O43390|HNRPR_HUMAN	45.8	1L6N_A	2NBB_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|O43719|HTSF1_HUMAN	45.8	1L6N_A	6Y5Q_q	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|O60306|AQR_HUMAN	45.8	1L6N_A	4PJ3_A	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|O60313|OPA1_HUMAN	45.8	1L6N_A	6JTG_A	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|O60336|MABP1_HUMAN	45.8	1L6N_A	6U42_5	6ICZ_Z	5MQF_F
+sp|O75127|PTCD1_HUMAN	sp|P04585|POL_HV1H2	45.8	4M59_B	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|O95628|CNOT4_HUMAN	45.8	1L6N_A	5AIE_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|O95639|CPSF4_HUMAN	45.8	1L6N_A	6DNH_C	6R24_C	6R24_C
+sp|O95758|PTBP3_HUMAN	sp|P04585|POL_HV1H2	45.8	4N0T_A	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|P02452|CO1A1_HUMAN	45.8	1L6N_A	3HQV_C	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|P09471|GNAO_HUMAN	45.8	1L6N_A	6NE6_A	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|P0C7P3|SLN14_HUMAN	45.8	1L6N_A	6RR9_A	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|P10323|ACRO_HUMAN	45.8	1L6N_A	5EDM_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|P13645|K1C10_HUMAN	45.8	1L6N_A	3TNU_B	6ICZ_Z	6ID1_L
+sp|P04585|POL_HV1H2	sp|P14866|HNRPL_HUMAN	45.8	1L6N_A	4N0T_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|P15880|RS2_HUMAN	45.8	1L6N_A	6EK0_S	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|P18074|ERCC2_HUMAN	45.8	1L6N_A	6RO4_B	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|P19338|NUCL_HUMAN	45.8	1L6N_A	6R5K_D	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|P23588|IF4B_HUMAN	45.8	1L6N_A	6FEC_u	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|P26368|U2AF2_HUMAN	45.8	1L6N_A	5EV3_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|P26378|ELAV4_HUMAN	45.8	1L6N_A	2GHP_D	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|P26599|PTBP1_HUMAN	45.8	1L6N_A	4N0T_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|P29558|RBMS1_HUMAN	45.8	1L6N_A	5MMJ_v	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|P29973|CNGA1_HUMAN	45.8	1L6N_A	5VA1_A	6ICZ_Z	6ICZ_U
+sp|P31943|HNRH1_HUMAN	sp|P04585|POL_HV1H2	45.8	6DHS_D	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|P35637|FUS_HUMAN	45.8	1L6N_A	5YVG_X	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|P38935|SMBP2_HUMAN	45.8	1L6N_A	4B3F_X	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|P42568|AF9_HUMAN	45.8	1L6N_A	5YYF_C	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	sp|P42768|WASP_HUMAN	45.8	1L6N_A	6UHC_I	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|P43243|MATR3_HUMAN	45.8	1L6N_A	2MJU_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|P49756|RBM25_HUMAN	45.8	1L6N_A	6N7X_H	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|P50570|DYN2_HUMAN	45.8	1L6N_A	4UUK_I	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|P51398|RT29_HUMAN	45.8	1L6N_A	6GAZ_A	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|P51530|DNA2_HUMAN	45.8	1L6N_A	5EAN_A	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|P51531|SMCA2_HUMAN	45.8	1L6N_A	6LTJ_I	6ICZ_Z	6S8Q_B
+sp|P04585|POL_HV1H2	sp|P51532|SMCA4_HUMAN	45.8	1L6N_A	6LTJ_I	6ICZ_Z	6S8Q_B
+sp|P04585|POL_HV1H2	sp|P52272|HNRPM_HUMAN	45.8	1L6N_A	4P6Q_A	6ICZ_Z	2CQB_A
+sp|P52597|HNRPF_HUMAN	sp|P04585|POL_HV1H2	45.8	6DHS_D	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|P52756|RBM5_HUMAN	45.8	1L6N_A	6N7R_C	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|P53804|TTC3_HUMAN	45.8	1L6N_A	5AIE_A	6ICZ_Z	6ID1_I
+sp|P55795|HNRH2_HUMAN	sp|P04585|POL_HV1H2	45.8	6DHS_D	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|P56559|ARL4C_HUMAN	45.8	1L6N_A	4M9Q_B	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|P62330|ARF6_HUMAN	45.8	1L6N_A	3L82_B	6ICZ_Z	6ID1_C
+sp|P98175|RBM10_HUMAN	sp|P04585|POL_HV1H2	45.8	2MXW_A	1L6N_A	6ICZ_w	6ICZ_Z
+sp|Q02040|AK17A_HUMAN	sp|P04585|POL_HV1H2	45.8	4WIJ_B	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q05193|DYN1_HUMAN	45.8	1L6N_A	4UUK_I	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|Q07955|SRSF1_HUMAN	45.8	1L6N_A	2MJN_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q08170|SRSF4_HUMAN	45.8	1L6N_A	2MJN_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q08AF3|SLFN5_HUMAN	45.8	1L6N_A	6RR9_A	6ICZ_Z	4PJ3_A
+sp|Q12849|GRSF1_HUMAN	sp|P04585|POL_HV1H2	45.8	6DHS_D	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q12872|SFSWA_HUMAN	45.8	1L6N_A	2E60_A	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q12873|CHD3_HUMAN	45.8	1L6N_A	6G0L_W	6ICZ_Z	6S8Q_B
+sp|P04585|POL_HV1H2	sp|Q12996|CSTF3_HUMAN	45.8	1L6N_A	6URO_F	6ICZ_Z	6ID1_I
+sp|P04585|POL_HV1H2	sp|Q13117|DAZ2_HUMAN	45.8	1L6N_A	2XS7_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q13148|TADBP_HUMAN	45.8	1L6N_A	5MRG_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q13243|SRSF5_HUMAN	45.8	1L6N_A	2MJN_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q13247|SRSF6_HUMAN	45.8	1L6N_A	2MJN_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q13283|G3BP1_HUMAN	45.8	1L6N_A	5FW5_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q14103|HNRPD_HUMAN	45.8	1L6N_A	5HO4_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q14344|GNA13_HUMAN	45.8	1L6N_A	6NE6_A	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|Q14494|NF2L1_HUMAN	45.8	1L6N_A	1SKN_P	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	sp|Q14527|HLTF_HUMAN	45.8	1L6N_A	6GEN_M	6ICZ_Z	6S8Q_B
+sp|P04585|POL_HV1H2	sp|Q14576|ELAV3_HUMAN	45.8	1L6N_A	2GHP_D	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q14966|ZN638_HUMAN	45.8	1L6N_A	5TF6_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q15032|R3HD1_HUMAN	45.8	1L6N_A	1WHR_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q15287|RNPS1_HUMAN	45.8	1L6N_A	5MMJ_v	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q15434|RBMS2_HUMAN	45.8	1L6N_A	2DHS_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q49AM3|TTC31_HUMAN	45.8	1L6N_A	5L0Y_B	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q4VCS5|AMOT_HUMAN	45.8	1L6N_A	1I84_V	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q5C9Z4|NOM1_HUMAN	45.8	1L6N_A	6ICZ_V	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	sp|Q5JWF2|GNAS1_HUMAN	45.8	1L6N_A	6EG8_I	6ICZ_Z	6ID1_C
+sp|Q5T200|ZC3HD_HUMAN	sp|P04585|POL_HV1H2	45.8	6SC2_C	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q5TEA6|SE1L2_HUMAN	45.8	1L6N_A	6VK3_A	6ICZ_Z	6ID1_I
+sp|Q5VTL8|PR38B_HUMAN	sp|P04585|POL_HV1H2	45.8	6AHD_Z	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q5W5X9|TTC23_HUMAN	45.8	1L6N_A	4Y6W_A	6ICZ_Z	6ID1_I
+sp|P04585|POL_HV1H2	sp|Q659C4|LAR1B_HUMAN	45.8	1L6N_A	5V4R_B	6ICZ_Z	4F7U_A
+sp|Q68CQ4|DIEXF_HUMAN	sp|P04585|POL_HV1H2	45.8	6H57_A	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q68D06|SLN13_HUMAN	45.8	1L6N_A	5YD0_B	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|Q68DA7|FMN1_HUMAN	45.8	1L6N_A	3O4X_F	6ICZ_Z	6ID1_O
+sp|Q6NXG1|ESRP1_HUMAN	sp|P04585|POL_HV1H2	45.8	3CM6_B	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q6P5Q4|LMOD2_HUMAN	45.8	1L6N_A	5WFN_C	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q6PKG0|LARP1_HUMAN	45.8	1L6N_A	5V4R_B	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|Q6T311|ARL9_HUMAN	45.8	1L6N_A	4M9Q_B	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|Q6XE24|RBMS3_HUMAN	45.8	1L6N_A	5X8P_v	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q6ZRS2|SRCAP_HUMAN	45.8	1L6N_A	6IGM_H	6ICZ_Z	6S8Q_B
+sp|Q7Z333|SETX_HUMAN	sp|P04585|POL_HV1H2	45.8	5MZN_A	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q7Z7L1|SLN11_HUMAN	45.8	1L6N_A	5YD0_B	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|Q86U42|PABP2_HUMAN	45.8	1L6N_A	2M70_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q86V81|THOC4_HUMAN	45.8	1L6N_A	2F3J_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q86YS6|RAB43_HUMAN	45.8	1L6N_A	6JMG_A	6ICZ_Z	6ID1_C
+sp|Q8IX12|CCAR1_HUMAN	sp|P04585|POL_HV1H2	45.8	1WFQ_A	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q8IY67|RAVR1_HUMAN	45.8	1L6N_A	3SMZ_A	6ICZ_Z	2CQB_A
+sp|Q8IYB3|SRRM1_HUMAN	sp|P04585|POL_HV1H2	45.8	6FF4_Y	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|Q8IYF3|TEX11_HUMAN	sp|P04585|POL_HV1H2	45.8	4GYO_B	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q8N2M8|CLASR_HUMAN	45.8	1L6N_A	6QX9_K	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q8N684|CPSF7_HUMAN	45.8	1L6N_A	3Q2T_C	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q8N8V2|GBP7_HUMAN	45.8	1L6N_A	1F5N_A	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|Q8N9W6|BOLL_HUMAN	45.8	1L6N_A	2N6D_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q8NAF0|ZN579_HUMAN	45.8	1L6N_A	5V3J_F	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|Q8NDV7|TNR6A_HUMAN	45.8	1L6N_A	2WBR_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q8NFZ0|FBH1_HUMAN	45.8	1L6N_A	1PJR_A	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|Q8NG08|HELB_HUMAN	45.8	1L6N_A	3GP8_A	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|Q8NHY5|HUS1B_HUMAN	45.8	1L6N_A	3GGR_B	6T8H_B	1IZ5_A
+sp|P04585|POL_HV1H2	sp|Q8TDI0|CHD5_HUMAN	45.8	1L6N_A	6G0L_W	6ICZ_Z	6S8Q_B
+sp|P04585|POL_HV1H2	sp|Q8TF01|PNISR_HUMAN	45.8	1L6N_A	6QX9_K	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q8TF30|WHAMM_HUMAN	45.8	1L6N_A	5X1G_C	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q92624|APBP2_HUMAN	45.8	1L6N_A	6EJN_A	6ICZ_Z	6ID1_I
+sp|Q92771|DDX12_HUMAN	sp|P04585|POL_HV1H2	45.8	5OQM_0	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q92794|KAT6A_HUMAN	45.8	1L6N_A	2RC4_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q92900|RENT1_HUMAN	45.8	1L6N_A	2WJY_A	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|Q92904|DAZL_HUMAN	45.8	1L6N_A	2XS2_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q96FC9|DDX11_HUMAN	45.8	1L6N_A	5OQM_0	6ICZ_Z	6S8Q_B
+sp|P04585|POL_HV1H2	sp|Q96IC2|REXO5_HUMAN	45.8	1L6N_A	5Z9X_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q96IZ5|RBM41_HUMAN	45.8	1L6N_A	2CPX_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q96LT9|RNPC3_HUMAN	45.8	1L6N_A	5OBN_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q96PN6|ADCYA_HUMAN	45.8	1L6N_A	4CLY_A	6ICZ_Z	6S8Q_B
+sp|P04585|POL_HV1H2	sp|Q96T58|MINT_HUMAN	45.8	1L6N_A	1OW1_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q99459|CDC5L_HUMAN	45.8	1L6N_A	6ID0_L	6ICZ_Z	6ID1_L
+sp|P04585|POL_HV1H2	sp|Q99700|ATX2_HUMAN	45.8	1L6N_A	6EOJ_D	6ICZ_Z	6ID1_h
+sp|P04585|POL_HV1H2	sp|Q9BRZ2|TRI56_HUMAN	45.8	1L6N_A	6H3A_F	6ICZ_Z	5MQF_F
+sp|P04585|POL_HV1H2	sp|Q9BU76|MMTA2_HUMAN	45.8	1L6N_A	6FF4_S	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q9BUJ2|HNRL1_HUMAN	45.8	1L6N_A	5TAP_E	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9BX63|FANCJ_HUMAN	45.8	1L6N_A	5OQM_0	6ICZ_Z	6S8Q_B
+sp|P04585|POL_HV1H2	sp|Q9BXF3|CECR2_HUMAN	45.8	1L6N_A	3NXB_A	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q9BXT6|M10L1_HUMAN	45.8	1L6N_A	2XZL_A	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|Q9BY77|PDIP3_HUMAN	45.8	1L6N_A	2AYM_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9BYK8|HELZ2_HUMAN	45.8	1L6N_A	2XZL_A	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|Q9GZT3|SLIRP_HUMAN	45.8	1L6N_A	6NTY_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q9H0L4|CSTFT_HUMAN	45.8	1L6N_A	2L9B_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q9H223|EHD4_HUMAN	45.8	1L6N_A	5MTV_A	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|Q9H307|PININ_HUMAN	45.8	1L6N_A	6UXW_B	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	sp|Q9H4L7|SMRCD_HUMAN	45.8	1L6N_A	6GEN_M	6ICZ_Z	6S8Q_B
+sp|P04585|POL_HV1H2	sp|Q9H4M9|EHD1_HUMAN	45.8	1L6N_A	2QPT_A	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|Q9H611|PIF1_HUMAN	45.8	1L6N_A	6HPH_A	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|Q9H6X2|ANTR1_HUMAN	45.8	1L6N_A	3N2N_C	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9H7Z3|NRDE2_HUMAN	45.8	1L6N_A	6IEH_A	6ICZ_Z	6ID1_I
+sp|P04585|POL_HV1H2	sp|Q9H875|PKRI1_HUMAN	45.8	1L6N_A	6ICZ_X	6ICZ_Z	6ICZ_X
+sp|Q9H9A5|CNO10_HUMAN	sp|P04585|POL_HV1H2	45.8	3HYM_B	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q9H9J4|UBP42_HUMAN	45.8	1L6N_A	6TBM_Q	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q9HAQ2|KIF9_HUMAN	45.8	1L6N_A	3NWN_A	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|Q9HB90|RRAGC_HUMAN	45.8	1L6N_A	6ULG_G	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|Q9HCE1|MOV10_HUMAN	45.8	1L6N_A	2XZL_A	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|Q9HCJ0|TNR6C_HUMAN	45.8	1L6N_A	2DKL_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9HCJ3|RAVR2_HUMAN	45.8	1L6N_A	3VF0_B	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q9NP73|ALG13_HUMAN	45.8	1L6N_A	4BOU_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9NPG3|UBN1_HUMAN	45.8	1L6N_A	6ICZ_U	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q9NR31|SAR1A_HUMAN	45.8	1L6N_A	1F6B_B	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|Q9NR90|DAZ3_HUMAN	45.8	1L6N_A	2XS7_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q9NTZ6|RBM12_HUMAN	45.8	1L6N_A	5TF6_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q9NVW2|RNF12_HUMAN	45.8	1L6N_A	6W7Z_B	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	sp|Q9NW13|RBM28_HUMAN	45.8	1L6N_A	6R5K_H	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q9NX07|TSAP1_HUMAN	45.8	1L6N_A	6N7R_F	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9NYF8|BCLF1_HUMAN	45.8	1L6N_A	2HYI_D	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q9NYH9|UTP6_HUMAN	45.8	1L6N_A	6ND4_P	6ICZ_Z	6ID1_I
+sp|P04585|POL_HV1H2	sp|Q9NYR9|KBRS2_HUMAN	45.8	1L6N_A	3RWO_A	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|Q9NYS0|KBRS1_HUMAN	45.8	1L6N_A	3RWO_A	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|Q9NZ71|RTEL1_HUMAN	45.8	1L6N_A	5OQM_0	6ICZ_Z	6S8Q_B
+sp|P04585|POL_HV1H2	sp|Q9NZI8|IF2B1_HUMAN	45.8	1L6N_A	3N89_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9NZN3|EHD3_HUMAN	45.8	1L6N_A	2QPT_A	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|Q9NZN4|EHD2_HUMAN	45.8	1L6N_A	2QPT_A	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|Q9P2E3|ZNFX1_HUMAN	45.8	1L6N_A	2XZO_A	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|Q9P2K5|MYEF2_HUMAN	45.8	1L6N_A	3VF0_B	6ICZ_Z	2CQB_A
+sp|Q9P2M1|LR2BP_HUMAN	sp|P04585|POL_HV1H2	45.8	6ONW_B	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q9P2R6|RERE_HUMAN	45.8	1L6N_A	4BKX_A	6ICZ_Z	6ID1_R
+sp|P04585|POL_HV1H2	sp|Q9UBB5|MBD2_HUMAN	45.8	1L6N_A	6ACV_A	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|Q9UBV2|SE1L1_HUMAN	45.8	1L6N_A	6VK3_A	6ICZ_Z	6ID1_I
+sp|P04585|POL_HV1H2	sp|Q9UH77|KLHL3_HUMAN	45.8	1L6N_A	4YY8_A	6ICZ_Z	6ID0_W
+sp|Q9UKA9|PTBP2_HUMAN	sp|P04585|POL_HV1H2	45.8	4N0T_A	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q9UKJ3|GPTC8_HUMAN	45.8	1L6N_A	5NRL_L	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q9UKV3|ACINU_HUMAN	45.8	1L6N_A	6QX9_1	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9UKY1|ZHX1_HUMAN	45.8	1L6N_A	2YS9_A	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|Q9UL25|RAB21_HUMAN	45.8	1L6N_A	6JMG_A	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|Q9UN86|G3BP2_HUMAN	45.8	1L6N_A	5FW5_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q9UNX4|WDR3_HUMAN	45.8	1L6N_A	5WLC_L	6ICZ_Z	5MQF_F
+sp|P04585|POL_HV1H2	sp|Q9UNY4|TTF2_HUMAN	45.8	1L6N_A	6GEN_M	6ICZ_Z	6S8Q_B
+sp|P04585|POL_HV1H2	sp|Q9UPT6|JIP3_HUMAN	45.8	1L6N_A	6EJN_D	6ICZ_Z	6ID0_W
+sp|P04585|POL_HV1H2	sp|Q9UPZ3|HPS5_HUMAN	45.8	1L6N_A	6DLP_A	6ICZ_Z	6ID1_T
+sp|Q9Y2G9|SBNO2_HUMAN	sp|P04585|POL_HV1H2	45.8	1Z6A_A	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q9Y4A5|TRRAP_HUMAN	45.8	1L6N_A	6TB4_L	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9Y4B4|ARIP4_HUMAN	45.8	1L6N_A	6FML_G	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|Q9Y4C8|RBM19_HUMAN	45.8	1L6N_A	6R5K_D	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9Y520|PRC2C_HUMAN	45.8	1L6N_A	6MZL_C	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q9Y6B6|SAR1B_HUMAN	45.8	1L6N_A	1F6B_B	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|Q9Y6E2|BZW2_HUMAN	45.8	1L6N_A	3L6A_A	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	tr|A0A2R8Y4L2|A0A2R8Y4L2_HUMAN	45.8	1L6N_A	5HO4_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|O95639|CPSF4_HUMAN	45.8	1L6N_A	6DNH_C	6R23_B	6R23_B
+sp|P04601|NEF_HV1H2	sp|A0A075B6J6|LV322_HUMAN	45.8	3TB8_A	6HD8_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A075B6R0|TRGV2_HUMAN	45.8	3TB8_A	6QNO_H	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P10966|CD8B_HUMAN	45.8	3TB8_A	6J8J_B	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0B4J1U7|HV601_HUMAN	45.8	2X7L_R	5WTS_A	2X7L_R	5I8O_H
+sp|O43395|PRPF3_HUMAN	sp|P04585|POL_HV1H2	45.8	6QW6_4	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|Q9HC52|CBX8_HUMAN	sp|P04585|POL_HV1H2	45.8	3GS2_B	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04578|ENV_HV1H2	sp|A0A075B6N3|TVBX1_HUMAN	45.7	6PWU_E	5E9D_J	6NIJ_B	3U1S_H
+sp|A0A087WT02|TVA92_HUMAN	sp|P04578|ENV_HV1H2	45.7	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A087WV62|TVB16_HUMAN	45.7	1L6N_A	5E9D_J	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A0C4DH59|TVB54_HUMAN	45.7	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O14497|ARI1A_HUMAN	45.7	1L6N_A	6LTH_L	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P51826|AFF3_HUMAN	45.7	1L6N_A	6KN5_A	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	sp|Q5VYV0|FOXB2_HUMAN	45.7	1L6N_A	6FEC_w	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|A0A087WV62|TVB16_HUMAN	45.7	1L6N_A	5E9D_J	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH59|TVB54_HUMAN	45.7	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|A0A0B4J273|TVA34_HUMAN	sp|P04601|NEF_HV1H2	45.7	5WKH_I	3TB8_A	5XOV_H	3TB8_A
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH34|HV428_HUMAN	45.7	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P05919|VPU_HV1H2	sp|Q99460|PSMD1_HUMAN	45.7	2N28_A	4ADY_A	4P6Z_V	4P6Z_B
+sp|P69726|VPR_HV1H2	sp|Q6VVB1|NHLC1_HUMAN	45.7	1ESX_A	4ZLR_B	5JK7_F	5JK7_E
+sp|O95838|GLP2R_HUMAN	sp|P04578|ENV_HV1H2	45.7	6WHC_R	6PWU_E	6MEO_B	3J70_P
+sp|P59551|T2R60_HUMAN	sp|P04578|ENV_HV1H2	45.7	4U15_B	6PWU_E	6MEO_B	3J70_P
+sp|Q9BRK3|MXRA8_HUMAN	sp|P04585|POL_HV1H2	45.7	6NK3_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9BRK3|MXRA8_HUMAN	sp|P04591|GAG_HV1H2	45.7	6NK3_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|O60271|JIP4_HUMAN	45.6	1L6N_A	2W83_D	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|Q96K80|ZC3HA_HUMAN	45.6	1L6N_A	6FBS_C	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9UGP8|SEC63_HUMAN	45.6	1L6N_A	6N3Q_D	6ICZ_Z	6S8Q_B
+tr|A0A0G2JNF4|A0A0G2JNF4_HUMAN	sp|P04585|POL_HV1H2	45.6	1B6U_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	sp|Q9NZC2|TREM2_HUMAN	45.6	1L6N_A	5UD7_B	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A1B0GX56|TRDV1_HUMAN	45.6	3TB8_A	5YXU_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q8TAG5|VTM2A_HUMAN	45.6	3TB8_A	6BPC_C	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|O60422|ONEC3_HUMAN	45.6	3MI9_C	2D5V_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A0B4J273|TVA34_HUMAN	45.6	2X7L_R	5WKH_I	2X7L_R	5I8O_L
+sp|Q7Z443|PK1L3_HUMAN	sp|P04578|ENV_HV1H2	45.6	6A70_B	6PWU_E	1QO3_C	3J70_P
+sp|Q9BSD7|NTPCR_HUMAN	sp|P04601|NEF_HV1H2	45.6	2I3B_A	3TB8_A	6CRI_L	6CRI_Z
+tr|A0A0G2JNF4|A0A0G2JNF4_HUMAN	sp|P04591|GAG_HV1H2	45.6	1B6U_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|A0A0A6YYD4|TVB13_HUMAN	45.5	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|A0A0A6YYK1|TVA81_HUMAN	45.5	6PWU_E	6FRC_A	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A0A0B4J280|TVA40_HUMAN	45.5	1L6N_A	6RNN_H	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A578|TVB51_HUMAN	45.5	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P20908|CO5A1_HUMAN	45.5	1L6N_A	3HQV_C	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q5KU26|COL12_HUMAN	45.5	1L6N_A	1PWB_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9Y383|LC7L2_HUMAN	45.5	1L6N_A	5ZWN_Y	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|A0A0A0MRZ7|KVD26_HUMAN	45.5	1L6N_A	6BPB_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J280|TVA40_HUMAN	45.5	1L6N_A	6RNN_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A578|TVB51_HUMAN	45.5	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q9UPR6|ZFR2_HUMAN	45.5	1L6N_A	5DV7_C	3NYB_B	3NYB_A
+sp|P04591|GAG_HV1H2	tr|A0A075B7B8|A0A075B7B8_HUMAN	45.5	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0B4J2B8|A0A0B4J2B8_HUMAN	45.5	1L6N_A	3U1S_H	2XT1_A	6FPV_A
+sp|P04618|REV_HV1H2	sp|A0A0B4J1V6|HV373_HUMAN	45.5	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0B4J248|TVA11_HUMAN	45.5	2X7L_R	2NW2_A	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|A2RRP1|NBAS_HUMAN	45.5	1ESX_A	3K8P_D	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q8N3P4|VPS8_HUMAN	45.5	1ESX_A	6RXU_U	5JK7_F	5JK7_E
+sp|P01880|IGHD_HUMAN	sp|P04601|NEF_HV1H2	45.5	1ZVO_C	3TB8_A	5XOV_H	3TB8_A
+sp|Q6Q8B3|MO2R2_HUMAN	sp|P04578|ENV_HV1H2	45.4	4BFG_A	6PWU_E	4R4N_T	4JZZ_A
+sp|A0JD32|TV382_HUMAN	sp|P04585|POL_HV1H2	45.4	5YXU_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|O95232|LC7L3_HUMAN	45.4	1L6N_A	5ZWN_Y	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|Q13285|STF1_HUMAN	45.4	1L6N_A	3TX7_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q5W0Z9|ZDH20_HUMAN	45.4	1L6N_A	6BMN_B	6UCA_B	6UCA_D
+sp|Q6ZNF0|ACP7_HUMAN	sp|P04585|POL_HV1H2	45.4	3ZK4_B	1L6N_A	6HMS_A	6T8H_B
+sp|P04585|POL_HV1H2	sp|Q8TDQ0|HAVR2_HUMAN	45.4	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q9NY43|BARH2_HUMAN	45.4	1L6N_A	1MH3_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q5W0Z9|ZDH20_HUMAN	45.4	1L6N_A	6BMN_B	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q8TDQ0|HAVR2_HUMAN	45.4	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q9GZV7|HPLN2_HUMAN	45.4	1L6N_A	2N40_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A087WSZ9|TVA30_HUMAN	45.4	3TB8_A	5WKF_I	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A5B7|TVB29_HUMAN	45.4	3TB8_A	4R0L_D	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O14931|NCTR3_HUMAN	45.4	3TB8_A	5XSY_B	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P78314|3BP2_HUMAN	45.4	3TB8_A	2CR4_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	tr|A0A0B4J2B8|A0A0B4J2B8_HUMAN	45.4	3TB8_A	3U1S_H	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|Q30201|HFE_HUMAN	45.4	2X7L_R	1A6Z_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A075B7D8|A0A075B7D8_HUMAN	45.4	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|Q86SP6|GP149_HUMAN	sp|P04578|ENV_HV1H2	45.4	5ZTY_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|P43627|KI2L2_HUMAN	45.3	6PWU_E	1B6U_A	6UM5_E	6CBP_A
+tr|A0A0A0MS03|A0A0A0MS03_HUMAN	sp|P04578|ENV_HV1H2	45.3	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A0K0K1G6|TVBJ3_HUMAN	45.3	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O75478|TAD2A_HUMAN	45.3	1L6N_A	2CUJ_A	6ICZ_Z	6ID1_L
+sp|P04585|POL_HV1H2	sp|P01733|TVBL3_HUMAN	45.3	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P50995|ANX11_HUMAN	45.3	1L6N_A	6TU2_C	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8IW00|VSTM4_HUMAN	45.3	1L6N_A	5OR7_C	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|Q96H15|TIMD4_HUMAN	45.3	1L6N_A	5F7H_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q9NQ29|LUC7L_HUMAN	45.3	1L6N_A	5ZWN_Y	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|A0A0K0K1G6|TVBJ3_HUMAN	45.3	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O15442|MPPD1_HUMAN	45.3	1L6N_A	3RL5_A	6T8H_B	6T8H_A
+sp|P04591|GAG_HV1H2	sp|O60671|RAD1_HUMAN	45.3	1L6N_A	6J8Y_C	6T8H_B	1IZ5_A
+sp|P04591|GAG_HV1H2	sp|O60921|HUS1_HUMAN	45.3	1L6N_A	6J8Y_B	6T8H_B	1IZ5_A
+sp|P04591|GAG_HV1H2	sp|P01733|TVBL3_HUMAN	45.3	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P13686|PPA5_HUMAN	45.3	1L6N_A	1WAR_A	6T8H_B	6T8H_A
+sp|P04591|GAG_HV1H2	sp|P17405|ASM_HUMAN	45.3	1L6N_A	5I81_A	6T8H_B	6T8H_A
+sp|P04591|GAG_HV1H2	sp|P49005|DPOD2_HUMAN	45.3	1L6N_A	3E0J_A	6T8H_B	6T8H_A
+sp|P04591|GAG_HV1H2	sp|P49959|MRE11_HUMAN	45.3	1L6N_A	4YKE_B	6T8H_B	6T8H_A
+sp|P04591|GAG_HV1H2	sp|P56282|DPOE2_HUMAN	45.3	1L6N_A	5VBN_E	6T8H_B	6T8H_A
+sp|P04591|GAG_HV1H2	sp|Q14181|DPOA2_HUMAN	45.3	1L6N_A	4Y97_E	6T8H_B	6T8H_A
+sp|P04591|GAG_HV1H2	sp|Q15777|MPPD2_HUMAN	45.3	1L6N_A	3RL5_A	6T8H_B	6T8H_A
+sp|Q3LIE5|ADPRM_HUMAN	sp|P04591|GAG_HV1H2	45.3	2NXF_A	1L6N_A	6HMS_A	6T8H_B
+sp|P04591|GAG_HV1H2	sp|Q53F39|MPPE1_HUMAN	45.3	1L6N_A	5UQ6_A	6T8H_B	6T8H_A
+sp|P04591|GAG_HV1H2	sp|Q6WBX8|RAD9B_HUMAN	45.3	1L6N_A	6J8Y_A	6T8H_B	1IZ5_A
+sp|Q6ZNF0|ACP7_HUMAN	sp|P04591|GAG_HV1H2	45.3	3ZK4_B	1L6N_A	6HMS_A	6T8H_B
+sp|P04591|GAG_HV1H2	sp|Q6ZT21|TMPPE_HUMAN	45.3	1L6N_A	1XM7_A	6T8H_B	6T8H_A
+sp|P04591|GAG_HV1H2	sp|Q8NHY5|HUS1B_HUMAN	45.3	1L6N_A	3GGR_B	6T8H_B	1IZ5_A
+sp|Q92485|ASM3B_HUMAN	sp|P04591|GAG_HV1H2	45.3	5KAS_A	1L6N_A	6HMS_A	6T8H_B
+sp|P04591|GAG_HV1H2	sp|Q96H15|TIMD4_HUMAN	45.3	1L6N_A	5F7H_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q99638|RAD9A_HUMAN	45.3	1L6N_A	6J8Y_A	6T8H_B	1IZ5_A
+sp|P04591|GAG_HV1H2	sp|Q9BRF8|CPPED_HUMAN	45.3	1L6N_A	3TGH_A	6T8H_B	6T8H_A
+sp|P04591|GAG_HV1H2	sp|Q9UBQ0|VPS29_HUMAN	45.3	1L6N_A	5OSI_A	6T8H_B	6T8H_A
+sp|P04618|REV_HV1H2	sp|P13765|DOB_HUMAN	45.3	2X7L_R	4I0P_D	2X7L_R	5I8O_H
+sp|Q13478|IL18R_HUMAN	sp|P04585|POL_HV1H2	45.3	3WO3_H	1L6N_A	5T70_G	3GV2_A
+sp|Q13478|IL18R_HUMAN	sp|P04591|GAG_HV1H2	45.3	3WO3_H	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|A6NNW6|ENO4_HUMAN	45.2	1L6N_A	2AKZ_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|C4AMC7|WASH3_HUMAN	45.2	1L6N_A	6UHC_I	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P01737|TVA84_HUMAN	45.2	1L6N_A	6FUN_A	2XT1_A	6FPV_A
+sp|Q0P6H9|TMM62_HUMAN	sp|P04585|POL_HV1H2	45.2	5KAS_A	1L6N_A	6HMS_A	6T8H_B
+sp|P04585|POL_HV1H2	sp|Q7Z6M4|MTEF4_HUMAN	45.2	1L6N_A	4FP9_H	6ICZ_Z	6ID1_P
+sp|P04585|POL_HV1H2	sp|Q7Z739|YTHD3_HUMAN	45.2	1L6N_A	4RCJ_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8WXU2|DAAF4_HUMAN	45.2	1L6N_A	2JKI_U	6ICZ_Z	6ID1_I
+sp|P04585|POL_HV1H2	sp|Q96C19|EFHD2_HUMAN	45.2	1L6N_A	5I2Q_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9NXE8|CWC25_HUMAN	45.2	1L6N_A	5YZG_X	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q9UK53|ING1_HUMAN	45.2	1L6N_A	2JMI_A	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|P01737|TVA84_HUMAN	45.2	1L6N_A	6FUN_A	2XT1_A	6FPV_A
+sp|Q0P6H9|TMM62_HUMAN	sp|P04591|GAG_HV1H2	45.2	5KAS_A	1L6N_A	6HMS_A	6T8H_B
+sp|P04591|GAG_HV1H2	sp|Q96C19|EFHD2_HUMAN	45.2	1L6N_A	5I2Q_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|O00459|P85B_HUMAN	45.2	3TB8_A	5M6U_B	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|P01817|HV205_HUMAN	45.2	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|Q8NC60|NOA1_HUMAN	sp|P04601|NEF_HV1H2	45.2	3EC1_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q9Y371|SHLB1_HUMAN	45.2	3TB8_A	6UPN_n	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	tr|A0A075B7B8|A0A075B7B8_HUMAN	45.2	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q8NI60|COQ8A_HUMAN	45.2	3MI9_C	4PED_A	3MI9_C	3MI9_A
+sp|P04618|REV_HV1H2	sp|P10915|HPLN1_HUMAN	45.2	2X7L_R	2PF5_B	2X7L_R	5I8O_H
+sp|P69723|VIF_HV1H2	sp|O15205|UBD_HUMAN	45.2	4N9F_b	4BKG_A	4N9F_b	2MA9_B
+sp|Q8IZF3|AGRF4_HUMAN	sp|P04578|ENV_HV1H2	45.2	6FJ3_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8TE73|DYH5_HUMAN	sp|P04601|NEF_HV1H2	45.2	5NUG_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|A0A1B0GX95|TVB74_HUMAN	45.1	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A0A0B4J264|TV381_HUMAN	45.1	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O43426|SYNJ1_HUMAN	45.1	1L6N_A	4TU3_X	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|P58872|RHBL3_HUMAN	45.1	1L6N_A	2NR9_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J264|TV381_HUMAN	45.1	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P58872|RHBL3_HUMAN	45.1	1L6N_A	2NR9_A	2MGU_M	5DOW_A
+sp|Q9H611|PIF1_HUMAN	sp|P04601|NEF_HV1H2	45.1	6HPH_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|A0A0K0K1A5|TVB65_HUMAN	45.0	6PWU_E	1YJD_C	3U2S_C	5N2K_F
+sp|P04578|ENV_HV1H2	sp|Q9NP99|TREM1_HUMAN	45.0	6PWU_E	1Q8M_C	3U2S_C	5N2K_F
+sp|Q9UKJ1|PILRA_HUMAN	sp|P04578|ENV_HV1H2	45.0	5OR7_C	6PWU_E	6NM6_U	6MTJ_B
+sp|P04578|ENV_HV1H2	tr|A0A5F9Z9Y6|A0A5F9Z9Y6_HUMAN	45.0	6PWU_E	1NKR_A	6UM5_E	6CBP_A
+sp|P04585|POL_HV1H2	sp|O75973|C1QRF_HUMAN	45.0	1L6N_A	1O91_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P62166|NCS1_HUMAN	45.0	1L6N_A	2LCP_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q6NZY4|ZCHC8_HUMAN	45.0	1L6N_A	6C90_B	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q8N8D1|PDCD7_HUMAN	45.0	1L6N_A	6LTJ_I	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	tr|A0A087X0K7|A0A087X0K7_HUMAN	45.0	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P62166|NCS1_HUMAN	45.0	1L6N_A	2LCP_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	tr|A0A087X0K7|A0A087X0K7_HUMAN	45.0	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A1A4Y4|IRGM_HUMAN	45.0	3TB8_A	1TQ6_A	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|P01814|HV270_HUMAN	45.0	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	tr|A0A075B7D8|A0A075B7D8_HUMAN	45.0	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|P28068|DMB_HUMAN	45.0	2X7L_R	2BC4_D	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|Q969U6|FBXW5_HUMAN	45.0	1ESX_A	6WNX_A	5JK7_F	5JK7_E
+sp|P49190|PTH2R_HUMAN	sp|P04578|ENV_HV1H2	45.0	6NBH_R	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|A0A0K0K1A3|TVBJ1_HUMAN	44.9	6PWU_E	5E9D_E	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P17693|HLAG_HUMAN	44.9	6PWU_E	6AT5_A	2CMR_A	5X08_H
+sp|P04578|ENV_HV1H2	tr|A0A1W2PRS3|A0A1W2PRS3_HUMAN	44.9	6PWU_E	3VH8_H	6UM5_E	6CBP_A
+sp|P04578|ENV_HV1H2	tr|A0A2R8YCY7|A0A2R8YCY7_HUMAN	44.9	6PWU_E	1NKR_A	6UM5_E	6CBP_A
+sp|A0A0A6YYJ7|TVA83_HUMAN	sp|P04585|POL_HV1H2	44.9	1G6R_C	1L6N_A	6ID4_C	1R0A_A
+sp|P06729|CD2_HUMAN	sp|P04585|POL_HV1H2	44.9	1HNF_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|Q13428|TCOF_HUMAN	44.9	1L6N_A	5O9Z_L	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q5HYC2|K2026_HUMAN	44.9	1L6N_A	6MF9_A	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q96N03|VTM2L_HUMAN	44.9	1L6N_A	6VEP_O	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q96N03|VTM2L_HUMAN	44.9	1L6N_A	6VEP_O	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0JD36|TRDV2_HUMAN	44.9	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O95782|AP2A1_HUMAN	44.9	3TB8_A	6OWT_A	6OWT_N	6OWT_A
+sp|P04601|NEF_HV1H2	sp|Q68CQ1|MROH7_HUMAN	44.9	3TB8_A	4RXH_B	6OWT_N	6OWT_A
+sp|P04618|REV_HV1H2	sp|A0A075B6R9|KVD24_HUMAN	44.9	2X7L_R	6BPC_F	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|Q7Z745|MRO2B_HUMAN	44.9	2N28_A	3ND2_A	4P6Z_V	4P6Z_B
+sp|O94819|KBTBB_HUMAN	sp|P69723|VIF_HV1H2	44.9	4YY8_A	4N9F_b	6P59_Z	6P59_B
+sp|P69723|VIF_HV1H2	sp|Q8WUN7|UBTD2_HUMAN	44.9	4N9F_b	2KSN_A	4N9F_b	2MA9_B
+sp|P69726|VPR_HV1H2	sp|Q8WZ64|ARAP2_HUMAN	44.9	1ESX_A	3LJU_X	4Z8L_B	4Z8L_F
+sp|P69726|VPR_HV1H2	sp|Q969H4|CNKR1_HUMAN	44.9	1ESX_A	1U5D_A	5AJA_B	5AJA_C
+sp|P06729|CD2_HUMAN	sp|P04591|GAG_HV1H2	44.9	1HNF_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|O60667|FAIM3_HUMAN	44.8	6PWU_E	5OR7_C	6NIJ_B	3U1S_H
+sp|Q6UXN2|TRML4_HUMAN	sp|P04578|ENV_HV1H2	44.8	5OR7_C	6PWU_E	6NM6_U	6MTJ_B
+sp|P04585|POL_HV1H2	sp|A0A075B6W5|TVA23_HUMAN	44.8	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A584|TVBK2_HUMAN	44.8	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q5T481|RBM20_HUMAN	44.8	1L6N_A	6SO9_A	6ICZ_Z	6ID1_O
+sp|Q8NHJ6|LIRB4_HUMAN	sp|P04585|POL_HV1H2	44.8	3P2T_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q9BZB8|CPEB1_HUMAN	44.8	1L6N_A	2M13_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|A0A075B6W5|TVA23_HUMAN	44.8	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0A0MS14|HV145_HUMAN	44.8	1L6N_A	3U1S_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A584|TVBK2_HUMAN	44.8	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6I4|LVX54_HUMAN	44.8	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P69726|VPR_HV1H2	sp|Q86YC2|PALB2_HUMAN	44.8	1ESX_A	3EU7_A	5JK7_F	5JK7_E
+sp|Q8NHJ6|LIRB4_HUMAN	sp|P04591|GAG_HV1H2	44.8	3P2T_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A1B0GX49|TVB64_HUMAN	44.7	6PWU_E	5E9D_E	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|A0A576|TVB31_HUMAN	44.7	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|Q01151|CD83_HUMAN	sp|P04578|ENV_HV1H2	44.7	5MJ2_A	6PWU_E	6UDK_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|Q9C0C4|SEM4C_HUMAN	44.7	6PWU_E	6QP8_A	6NIJ_B	5WHZ_L
+sp|P04585|POL_HV1H2	sp|A0A087WT02|TVA92_HUMAN	44.7	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O95155|UBE4B_HUMAN	44.7	1L6N_A	3M63_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q8N3X1|FNBP4_HUMAN	44.7	1L6N_A	2JX8_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9HBD1|RC3H2_HUMAN	44.7	1L6N_A	4Z31_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|A0A087WT02|TVA92_HUMAN	44.7	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q15116|PDCD1_HUMAN	44.7	3TB8_A	5WT9_G	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9UPM8|AP4E1_HUMAN	44.7	3TB8_A	6OWT_A	6OWT_N	6QH5_B
+sp|P04601|NEF_HV1H2	sp|Q9UQB8|BAIP2_HUMAN	44.7	3TB8_A	2YKT_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A0C4DH38|HV551_HUMAN	44.7	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|Q9P246|STIM2_HUMAN	44.7	1ESX_A	3TER_A	4Z8L_B	4Z8L_F
+sp|P04578|ENV_HV1H2	sp|Q8IYS5|OSCAR_HUMAN	44.6	6PWU_E	5EIQ_A	6FY1_G	4HJJ_H
+sp|P04585|POL_HV1H2	sp|O14594|NCAN_HUMAN	44.6	1L6N_A	2N40_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O15056|SYNJ2_HUMAN	44.6	1L6N_A	3LWT_X	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q969W1|ZDH16_HUMAN	44.6	1L6N_A	6BMN_B	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q9NXH9|TRM1_HUMAN	44.6	1L6N_A	3AXT_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9UGR2|Z3H7B_HUMAN	44.6	1L6N_A	2D9M_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|O14594|NCAN_HUMAN	44.6	1L6N_A	2N40_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q53RT3|APRV1_HUMAN	44.6	1L6N_A	3SQF_B	6R23_B	6R23_B
+sp|P04591|GAG_HV1H2	sp|Q969W1|ZDH16_HUMAN	44.6	1L6N_A	6BMN_B	6UCA_D	6UCA_B
+sp|P04601|NEF_HV1H2	sp|A0A075B6N2|TVBT1_HUMAN	44.6	3TB8_A	2WBJ_D	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O15034|RIMB2_HUMAN	44.6	3TB8_A	2CSP_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A6NLU5|VTM2B_HUMAN	44.6	2X7L_R	4Q6I_J	2X7L_R	5I8O_L
+sp|P04578|ENV_HV1H2	sp|O76036|NCTR1_HUMAN	44.5	6PWU_E	1P6F_A	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|P04437|TVA29_HUMAN	44.5	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q15493|RGN_HUMAN	44.5	1L6N_A	4GNA_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q6ZV73|FGD6_HUMAN	44.5	1L6N_A	3MPX_A	6BK8_O	6J6H_Q
+sp|P04585|POL_HV1H2	sp|Q86TM6|SYVN1_HUMAN	44.5	1L6N_A	6VK0_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8N3E9|PLCD3_HUMAN	44.5	1L6N_A	2ZKM_X	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q8TDN4|CABL1_HUMAN	44.5	1L6N_A	4EOJ_D	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|A0A1W2PR48|TLE7_HUMAN	44.5	1L6N_A	1GXR_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|A0AV96|RBM47_HUMAN	44.5	1L6N_A	3VF0_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|A0AVF1|IFT56_HUMAN	44.5	1L6N_A	4UI9_Y	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|A1A4Y4|IRGM_HUMAN	44.5	1L6N_A	1TQ6_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|A1L020|MEX3A_HUMAN	44.5	1L6N_A	2ANN_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|A2A3L6|TTC24_HUMAN	44.5	1L6N_A	5A7D_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|A2PYH4|HFM1_HUMAN	44.5	1L6N_A	4BGD_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|A2RRH5|WDR27_HUMAN	44.5	1L6N_A	5I2T_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|A2RRP1|NBAS_HUMAN	44.5	1L6N_A	3K8P_D	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|A2RUS2|DEND3_HUMAN	44.5	1L6N_A	6B3Y_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|A4D1P6|WDR91_HUMAN	44.5	1L6N_A	6VYC_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|A4UGR9|XIRP2_HUMAN	44.5	1L6N_A	6J6G_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|A6NDE4|RBY1B_HUMAN	44.5	1L6N_A	2FY1_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|A6NDY0|EPAB2_HUMAN	44.5	1L6N_A	2JWN_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|A6NE52|WDR97_HUMAN	44.5	1L6N_A	5M2N_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|A6NEQ0|RBY1E_HUMAN	44.5	1L6N_A	2FY1_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|A6NFN3|RFOX3_HUMAN	44.5	1L6N_A	4ZKA_C	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|A6NGE4|DC8L1_HUMAN	44.5	1L6N_A	6RXU_C	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|A6NKT7|RGPD3_HUMAN	44.5	1L6N_A	3M1I_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|A6NNA2|SRRM3_HUMAN	44.5	1L6N_A	6FF4_S	6BK8_O	5MPS_R
+sp|P04591|GAG_HV1H2	sp|A6NNE9|MARHB_HUMAN	44.5	1L6N_A	2M6M_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|A6NNW6|ENO4_HUMAN	44.5	1L6N_A	2AKZ_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|A6PVI3|NCB2L_HUMAN	44.5	1L6N_A	6N7P_Y	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|A8MWD9|RUXGL_HUMAN	44.5	1L6N_A	1H64_X	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|A8MYJ7|TTC34_HUMAN	44.5	1L6N_A	6VBV_4	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|A9UHW6|MI4GD_HUMAN	44.5	1L6N_A	2I2O_A	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|B1AJZ9|FHAD1_HUMAN	44.5	1L6N_A	2N84_A	6BK8_O	6J6G_A
+sp|B1ANS9|WDR64_HUMAN	sp|P04591|GAG_HV1H2	44.5	5M2N_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|B2RXH8|HNRC2_HUMAN	44.5	1L6N_A	2KVI_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|B7ZW38|HNRC3_HUMAN	44.5	1L6N_A	2KVI_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|C4AMC7|WASH3_HUMAN	44.5	1L6N_A	6UHC_I	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O00148|DX39A_HUMAN	44.5	1L6N_A	5SUQ_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|O00178|GTPB1_HUMAN	44.5	1L6N_A	5LZZ_j	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|O00268|TAF4_HUMAN	44.5	1L6N_A	6MZL_D	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O00423|EMAL1_HUMAN	44.5	1L6N_A	4CI8_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O00429|DNM1L_HUMAN	44.5	1L6N_A	5WP9_O	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|O00487|PSDE_HUMAN	44.5	1L6N_A	5L4K_V	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O00571|DDX3X_HUMAN	44.5	1L6N_A	6O5F_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|O00623|PEX12_HUMAN	44.5	1L6N_A	3JB9_U	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|O00628|PEX7_HUMAN	44.5	1L6N_A	3W15_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O14497|ARI1A_HUMAN	44.5	1L6N_A	6LTH_L	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O14514|AGRB1_HUMAN	44.5	1L6N_A	4DLO_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O14576|DC1I1_HUMAN	44.5	1L6N_A	6F1Z_o	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|O14579|COPE_HUMAN	44.5	1L6N_A	6TZT_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|O14607|UTY_HUMAN	44.5	1L6N_A	3AVR_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|O14646|CHD1_HUMAN	44.5	1L6N_A	6G0L_W	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|O14647|CHD2_HUMAN	44.5	1L6N_A	6G0L_W	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|O14654|IRS4_HUMAN	44.5	1L6N_A	1QQG_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O14678|ABCD4_HUMAN	44.5	1L6N_A	6JBJ_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|O14715|RGPD8_HUMAN	44.5	1L6N_A	3M1I_B	6BK8_O	6J6H_d
+sp|O14727|APAF_HUMAN	sp|P04591|GAG_HV1H2	44.5	5JUY_B	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|O14775|GNB5_HUMAN	44.5	1L6N_A	6N9G_D	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O14776|TCRG1_HUMAN	44.5	1L6N_A	6N7P_J	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O14879|IFIT3_HUMAN	44.5	1L6N_A	6C6K_D	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|O14908|GIPC1_HUMAN	44.5	1L6N_A	5V6B_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|O14966|RAB7L_HUMAN	44.5	1L6N_A	6HH2_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|O15016|TRI66_HUMAN	44.5	1L6N_A	6IEU_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O15020|SPTN2_HUMAN	44.5	1L6N_A	1SJJ_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O15040|TCPR2_HUMAN	44.5	1L6N_A	4RUQ_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O15042|SR140_HUMAN	44.5	1L6N_A	5CE7_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|O15047|SET1A_HUMAN	44.5	1L6N_A	6UH5_M	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O15054|KDM6B_HUMAN	44.5	1L6N_A	3AVR_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O15063|GRRE1_HUMAN	44.5	1L6N_A	4X2K_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O15116|LSM1_HUMAN	44.5	1L6N_A	4M75_A	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|O15143|ARC1B_HUMAN	44.5	1L6N_A	1K8K_C	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O15213|WDR46_HUMAN	44.5	1L6N_A	6RXZ_U	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|O15287|FANCG_HUMAN	44.5	1L6N_A	5AEM_A	6BK8_O	6J6H_v
+sp|P04591|GAG_HV1H2	sp|O15294|OGT1_HUMAN	44.5	1L6N_A	5LWV_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|O15399|NMDE4_HUMAN	44.5	1L6N_A	4TLM_D	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O15523|DDX3Y_HUMAN	44.5	1L6N_A	6O5F_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|O15550|KDM6A_HUMAN	44.5	1L6N_A	6FUL_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|O43143|DHX15_HUMAN	44.5	1L6N_A	6ID1_V	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|O43172|PRP4_HUMAN	44.5	1L6N_A	5O9Z_F	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O43196|MSH5_HUMAN	44.5	1L6N_A	3THX_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|O43236|SEPT4_HUMAN	44.5	1L6N_A	4Z54_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|O43251|RFOX2_HUMAN	44.5	1L6N_A	3Q2S_D	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|O43310|CTIF_HUMAN	44.5	1L6N_A	2I2O_A	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|O43347|MSI1H_HUMAN	44.5	1L6N_A	5HO4_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|O43365|HXA3_HUMAN	44.5	1L6N_A	6T90_K	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O43432|IF4G3_HUMAN	44.5	1L6N_A	3L6A_A	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|O43435|TBX1_HUMAN	44.5	1L6N_A	5BQD_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O43660|PLRG1_HUMAN	44.5	1L6N_A	6FF7_D	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O43684|BUB3_HUMAN	44.5	1L6N_A	1YFQ_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O43765|SGTA_HUMAN	44.5	1L6N_A	4CPG_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|O43815|STRN_HUMAN	44.5	1L6N_A	4WJV_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|O43818|U3IP2_HUMAN	44.5	1L6N_A	6RXZ_C	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O43824|GTPB6_HUMAN	44.5	1L6N_A	5ZZM_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|O60231|DHX16_HUMAN	44.5	1L6N_A	6FF7_q	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|O60264|SMCA5_HUMAN	44.5	1L6N_A	6JYL_K	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|O60293|ZC3H1_HUMAN	44.5	1L6N_A	6QX9_5	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|O60422|ONEC3_HUMAN	44.5	1L6N_A	2D5V_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O60506|HNRPQ_HUMAN	44.5	1L6N_A	2NBB_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|O60508|PRP17_HUMAN	44.5	1L6N_A	6ID1_W	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O60610|DIAP1_HUMAN	44.5	1L6N_A	3O4X_F	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O60812|HNRC1_HUMAN	44.5	1L6N_A	2KVI_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|O60841|IF2P_HUMAN	44.5	1L6N_A	6UZ7_1	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|O60879|DIAP2_HUMAN	44.5	1L6N_A	3O4X_F	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O60907|TBL1X_HUMAN	44.5	1L6N_A	4LG9_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O75027|ABCB7_HUMAN	44.5	1L6N_A	4MYC_C	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|O75037|KI21B_HUMAN	44.5	1L6N_A	5MM7_K	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O75083|WDR1_HUMAN	44.5	1L6N_A	1NR0_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O75175|CNOT3_HUMAN	44.5	1L6N_A	4C0D_C	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O75376|NCOR1_HUMAN	44.5	1L6N_A	4CZZ_B	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|O75417|DPOLQ_HUMAN	44.5	1L6N_A	4X0Q_B	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|O75478|TAD2A_HUMAN	44.5	1L6N_A	2CUJ_A	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|O75494|SRS10_HUMAN	44.5	1L6N_A	6N7R_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|O75526|RMXL2_HUMAN	44.5	1L6N_A	5YVG_X	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|O75529|TAF5L_HUMAN	44.5	1L6N_A	6T9K_D	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O75530|EED_HUMAN	44.5	1L6N_A	5WUK_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O75643|U520_HUMAN	44.5	1L6N_A	6QW6_5	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|O75717|WDHD1_HUMAN	44.5	1L6N_A	6XTY_G	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O75821|EIF3G_HUMAN	44.5	1L6N_A	6FYY_r	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|O75899|GABR2_HUMAN	44.5	1L6N_A	6W2X_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O75934|SPF27_HUMAN	44.5	1L6N_A	6ID1_K	6BK8_O	6J6N_t
+sp|P04591|GAG_HV1H2	sp|O75973|C1QRF_HUMAN	44.5	1L6N_A	1O91_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O76071|CIAO1_HUMAN	44.5	1L6N_A	3FM0_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O76094|SRP72_HUMAN	44.5	1L6N_A	6FRK_r	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|O94761|RECQ4_HUMAN	44.5	1L6N_A	5LST_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|O94762|RECQ5_HUMAN	44.5	1L6N_A	5LB8_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|O94826|TOM70_HUMAN	44.5	1L6N_A	2GW1_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|O94855|SC24D_HUMAN	44.5	1L6N_A	5KYY_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O94906|PRP6_HUMAN	44.5	1L6N_A	6QW6_5	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|O94967|WDR47_HUMAN	44.5	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|O94979|SC31A_HUMAN	sp|P04591|GAG_HV1H2	44.5	4BZJ_C	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|O95104|SCAF4_HUMAN	44.5	1L6N_A	5MDT_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|O95140|MFN2_HUMAN	44.5	1L6N_A	2J68_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|O95155|UBE4B_HUMAN	44.5	1L6N_A	3M63_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|O95163|ELP1_HUMAN	44.5	1L6N_A	6QK7_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O95170|CDRT1_HUMAN	44.5	1L6N_A	6WNX_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O95232|LC7L3_HUMAN	44.5	1L6N_A	5ZWN_Y	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|O95319|CELF2_HUMAN	44.5	1L6N_A	2DHS_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|O95391|SLU7_HUMAN	44.5	1L6N_A	6QDV_c	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|O95466|FMNL1_HUMAN	44.5	1L6N_A	4YDH_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O95630|STABP_HUMAN	44.5	1L6N_A	3RZV_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O95755|RAB36_HUMAN	44.5	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|O95777|LSM8_HUMAN	44.5	1L6N_A	6QW6_6	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|O95786|DDX58_HUMAN	44.5	1L6N_A	4A2W_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|O95834|EMAL2_HUMAN	44.5	1L6N_A	4CI8_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O95837|GNA14_HUMAN	44.5	1L6N_A	6NE6_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|O95926|SYF2_HUMAN	44.5	1L6N_A	6ID1_M	6BK8_O	6J6G_I
+sp|P04591|GAG_HV1H2	sp|P04437|TVA29_HUMAN	44.5	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P05198|IF2A_HUMAN	44.5	1L6N_A	1Q8K_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|P05455|LA_HUMAN	44.5	1L6N_A	6D6V_H	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P07910|HNRPC_HUMAN	44.5	1L6N_A	1WF2_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P08579|RU2B_HUMAN	44.5	1L6N_A	6ID1_p	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P08621|RU17_HUMAN	44.5	1L6N_A	3PGW_L	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P09012|SNRPA_HUMAN	44.5	1L6N_A	3PGW_P	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P09529|INHBB_HUMAN	44.5	1L6N_A	5HLY_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P09651|ROA1_HUMAN	44.5	1L6N_A	1L3K_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P09913|IFIT2_HUMAN	44.5	1L6N_A	4G1T_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|P09914|IFIT1_HUMAN	44.5	1L6N_A	6C6K_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|P0C0E4|RB40L_HUMAN	44.5	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P0C7P1|RBY1D_HUMAN	44.5	1L6N_A	2FY1_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P0C7V8|DC8L2_HUMAN	44.5	1L6N_A	6RXZ_C	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|P0CB38|PAB4L_HUMAN	44.5	1L6N_A	6R5K_D	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P0DJD0|RGPD1_HUMAN	44.5	1L6N_A	3M1I_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|P0DJD1|RGPD2_HUMAN	44.5	1L6N_A	3M1I_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|P0DJD3|RBY1A_HUMAN	44.5	1L6N_A	2FY1_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P0DJD4|RBY1C_HUMAN	44.5	1L6N_A	2FY1_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P0DJR0|GIMD1_HUMAN	44.5	1L6N_A	3LXX_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P0DMR1|HNRC4_HUMAN	44.5	1L6N_A	2KVI_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P0DN76|U2AF5_HUMAN	44.5	1L6N_A	4YH8_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P10242|MYB_HUMAN	44.5	1L6N_A	1H89_C	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|P10243|MYBA_HUMAN	44.5	1L6N_A	1H88_C	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|P10244|MYBB_HUMAN	44.5	1L6N_A	1H88_C	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|P11233|RALA_HUMAN	44.5	1L6N_A	2BOV_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P11234|RALB_HUMAN	44.5	1L6N_A	2KWI_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P11940|PABP1_HUMAN	44.5	1L6N_A	6R5K_H	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P13639|EF2_HUMAN	44.5	1L6N_A	6ID1_C	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P14678|RSMB_HUMAN	44.5	1L6N_A	6ID1_b	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|P15170|ERF3A_HUMAN	44.5	1L6N_A	5LZT_j	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P16298|PP2BB_HUMAN	44.5	1L6N_A	4OR9_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P16520|GBB3_HUMAN	44.5	1L6N_A	5KDO_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|P17483|HXB4_HUMAN	44.5	1L6N_A	2R5Z_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P17600|SYN1_HUMAN	44.5	1L6N_A	1PX2_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P17844|DDX5_HUMAN	44.5	1L6N_A	6UV2_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|P18583|SON_HUMAN	44.5	1L6N_A	6FF4_S	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|P18615|NELFE_HUMAN	44.5	1L6N_A	6GML_X	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P19447|ERCC3_HUMAN	44.5	1L6N_A	6O9M_7	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|P20338|RAB4A_HUMAN	44.5	1L6N_A	2BME_D	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P20340|RAB6A_HUMAN	44.5	1L6N_A	3BBP_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P20585|MSH3_HUMAN	44.5	1L6N_A	3THW_B	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|P20591|MX1_HUMAN	44.5	1L6N_A	5GTM_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P20908|CO5A1_HUMAN	44.5	1L6N_A	3HQV_C	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P21757|MSRE_HUMAN	44.5	1L6N_A	5ZE3_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P22626|ROA2_HUMAN	44.5	1L6N_A	5HO4_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P22670|RFX1_HUMAN	44.5	1L6N_A	3ZUQ_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P23246|SFPQ_HUMAN	44.5	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P26196|DDX6_HUMAN	44.5	1L6N_A	4CT4_D	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|P28288|ABCD3_HUMAN	44.5	1L6N_A	6JBJ_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|P28370|SMCA1_HUMAN	44.5	1L6N_A	6JYL_K	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|P28702|RXRB_HUMAN	44.5	1L6N_A	3DZY_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P29992|GNA11_HUMAN	44.5	1L6N_A	6NE6_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P30260|CDC27_HUMAN	44.5	1L6N_A	4UI9_F	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|P31146|COR1A_HUMAN	44.5	1L6N_A	2AQ5_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|P31483|TIA1_HUMAN	44.5	1L6N_A	6N7P_F	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P31948|STIP1_HUMAN	44.5	1L6N_A	5AIO_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|P33240|CSTF2_HUMAN	44.5	1L6N_A	4EBA_H	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P33897|ABCD1_HUMAN	44.5	1L6N_A	6JBJ_A	6BK8_O	6BK8_P
+sp|P35606|COPB2_HUMAN	sp|P04591|GAG_HV1H2	44.5	5NZT_C	1L6N_A	6BK8_D	6BK8_O
+sp|P35658|NU214_HUMAN	sp|P04591|GAG_HV1H2	44.5	2OIT_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|P35790|CHKA_HUMAN	44.5	1L6N_A	4DA5_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P38159|RBMX_HUMAN	44.5	1L6N_A	5YVG_X	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P38919|IF4A3_HUMAN	44.5	1L6N_A	2J0S_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|P41091|IF2G_HUMAN	44.5	1L6N_A	6YAL_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P41223|BUD31_HUMAN	44.5	1L6N_A	6QDV_L	6BK8_O	6J6G_T
+sp|P04591|GAG_HV1H2	sp|P42285|MTREX_HUMAN	44.5	1L6N_A	6IEH_B	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|P42694|HELZ_HUMAN	44.5	1L6N_A	4B3F_X	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|P42696|RBM34_HUMAN	44.5	1L6N_A	5HO4_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P42704|LPPRC_HUMAN	44.5	1L6N_A	4M59_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|P42858|HD_HUMAN	44.5	1L6N_A	6X9O_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P43034|LIS1_HUMAN	44.5	1L6N_A	1VYH_D	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|P43246|MSH2_HUMAN	44.5	1L6N_A	3THX_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|P45844|ABCG1_HUMAN	44.5	1L6N_A	5DO7_C	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|P46063|RECQ1_HUMAN	44.5	1L6N_A	4U7D_D	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|P46100|ATRX_HUMAN	44.5	1L6N_A	5VVR_M	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|P46199|IF2M_HUMAN	44.5	1L6N_A	6GAW_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P46736|BRCC3_HUMAN	44.5	1L6N_A	6R8F_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P46937|YAP1_HUMAN	44.5	1L6N_A	4RE1_D	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P48023|TNFL6_HUMAN	44.5	1L6N_A	5L19_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P49411|EFTU_HUMAN	44.5	1L6N_A	1XB2_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P49754|VPS41_HUMAN	44.5	1L6N_A	1B89_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|P50148|GNAQ_HUMAN	44.5	1L6N_A	6NE6_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P50502|F10A1_HUMAN	44.5	1L6N_A	4J8C_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|P50542|PEX5_HUMAN	44.5	1L6N_A	1FCH_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|P50552|VASP_HUMAN	44.5	1L6N_A	1I2H_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P50851|LRBA_HUMAN	44.5	1L6N_A	1T77_D	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|P50995|ANX11_HUMAN	44.5	1L6N_A	6TU2_C	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P51151|RAB9A_HUMAN	44.5	1L6N_A	1S8F_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P51157|RAB28_HUMAN	44.5	1L6N_A	2HXS_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P51159|RB27A_HUMAN	44.5	1L6N_A	3BC1_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P51511|MMP15_HUMAN	44.5	1L6N_A	1SU3_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P51991|ROA3_HUMAN	44.5	1L6N_A	5HO4_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P52198|RND2_HUMAN	44.5	1L6N_A	2CLS_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P52298|NCBP2_HUMAN	44.5	1L6N_A	6D0Y_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P52701|MSH6_HUMAN	44.5	1L6N_A	2O8B_B	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|P53041|PPP5_HUMAN	44.5	1L6N_A	4JA7_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|P53621|COPA_HUMAN	44.5	1L6N_A	5NZR_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|P54132|BLM_HUMAN	44.5	1L6N_A	4O3M_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|P54198|HIRA_HUMAN	44.5	1L6N_A	5YJE_C	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|P55735|SEC13_HUMAN	44.5	1L6N_A	3BG1_E	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|P55884|EIF3B_HUMAN	44.5	1L6N_A	6FEC_w	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|P57052|RBM11_HUMAN	44.5	1L6N_A	2N6D_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P57081|WDR4_HUMAN	44.5	1L6N_A	2VDU_D	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|P57729|RAB38_HUMAN	44.5	1L6N_A	6HDU_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P57735|RAB25_HUMAN	44.5	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P57737|CORO7_HUMAN	sp|P04591|GAG_HV1H2	44.5	4OZU_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|P57772|SELB_HUMAN	44.5	1L6N_A	5IZL_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P57775|FBXW4_HUMAN	44.5	1L6N_A	6M90_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|P60842|IF4A1_HUMAN	44.5	1L6N_A	5ZC9_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|P61006|RAB8A_HUMAN	44.5	1L6N_A	5SZI_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P61018|RAB4B_HUMAN	44.5	1L6N_A	2BME_D	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P61019|RAB2A_HUMAN	44.5	1L6N_A	2A5J_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P61026|RAB10_HUMAN	44.5	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P61106|RAB14_HUMAN	44.5	1L6N_A	1Z0F_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P61129|ZC3H6_HUMAN	44.5	1L6N_A	3U9G_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P61962|DCAF7_HUMAN	44.5	1L6N_A	4FHL_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|P61964|WDR5_HUMAN	44.5	1L6N_A	6U8B_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|P62304|RUXE_HUMAN	44.5	1L6N_A	3PGW_H	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|P62306|RUXF_HUMAN	44.5	1L6N_A	4EMK_A	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|P62308|RUXG_HUMAN	44.5	1L6N_A	1H64_X	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|P62310|LSM3_HUMAN	44.5	1L6N_A	6QW6_6	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|P62312|LSM6_HUMAN	44.5	1L6N_A	3JB9_I	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|P62314|SMD1_HUMAN	44.5	1L6N_A	3JCR_p	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|P62316|SMD2_HUMAN	44.5	1L6N_A	4F7U_D	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|P62318|SMD3_HUMAN	44.5	1L6N_A	6V4X_A	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|P62491|RB11A_HUMAN	44.5	1L6N_A	2F9M_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P62826|RAN_HUMAN	44.5	1L6N_A	4HAT_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P62873|GBB1_HUMAN	44.5	1L6N_A	5KDO_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|P62879|GBB2_HUMAN	44.5	1L6N_A	5KDO_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|P62995|TRA2B_HUMAN	44.5	1L6N_A	4PKD_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P63151|2ABA_HUMAN	44.5	1L6N_A	3DW8_E	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|P63162|RSMN_HUMAN	44.5	1L6N_A	3PGW_B	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|P63244|RACK1_HUMAN	44.5	1L6N_A	4AOW_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|P68104|EF1A1_HUMAN	44.5	1L6N_A	6RA9_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|P78344|IF4G2_HUMAN	44.5	1L6N_A	3L6A_A	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|P78406|RAE1L_HUMAN	44.5	1L6N_A	3MMY_C	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|P78424|PO6F2_HUMAN	44.5	1L6N_A	5WC9_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P81274|GPSM2_HUMAN	44.5	1L6N_A	4WND_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|P84103|SRSF3_HUMAN	44.5	1L6N_A	6FF4_1	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P85037|FOXK1_HUMAN	44.5	1L6N_A	6EL8_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P98174|FGD1_HUMAN	44.5	1L6N_A	3MPX_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P98179|RBM3_HUMAN	44.5	1L6N_A	5YVG_X	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q00005|2ABB_HUMAN	44.5	1L6N_A	3DW8_E	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q00610|CLH1_HUMAN	44.5	1L6N_A	3IYV_B	6BK8_O	6J6H_v
+sp|P04591|GAG_HV1H2	sp|Q01081|U2AF1_HUMAN	44.5	1L6N_A	4YH8_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q01085|TIAR_HUMAN	44.5	1L6N_A	6N7P_F	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q01130|SRSF2_HUMAN	44.5	1L6N_A	6N7R_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q01844|EWS_HUMAN	44.5	1L6N_A	5YVG_X	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q03113|GNA12_HUMAN	44.5	1L6N_A	6NE6_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q03468|ERCC6_HUMAN	44.5	1L6N_A	5VVR_M	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q03518|TAP1_HUMAN	44.5	1L6N_A	5U1D_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q03519|TAP2_HUMAN	44.5	1L6N_A	5U1D_B	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q04637|IF4G1_HUMAN	44.5	1L6N_A	3L6A_A	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|Q04724|TLE1_HUMAN	44.5	1L6N_A	4OM3_D	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q04725|TLE2_HUMAN	44.5	1L6N_A	4OM3_D	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q04726|TLE3_HUMAN	44.5	1L6N_A	4OM3_C	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q04727|TLE4_HUMAN	44.5	1L6N_A	4OM3_D	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q05048|CSTF1_HUMAN	44.5	1L6N_A	6B3X_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q05519|SRS11_HUMAN	44.5	1L6N_A	3PGW_L	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q05639|EF1A2_HUMAN	44.5	1L6N_A	6RA9_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q05BV3|EMAL5_HUMAN	44.5	1L6N_A	4CI8_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q07065|CKAP4_HUMAN	44.5	1L6N_A	6IKO_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q07617|SPAG1_HUMAN	44.5	1L6N_A	6FO1_G	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q07866|KLC1_HUMAN	44.5	1L6N_A	6EJN_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q08211|DHX9_HUMAN	44.5	1L6N_A	5AOR_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q08378|GOGA3_HUMAN	44.5	1L6N_A	3JBH_H	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q08499|PDE4D_HUMAN	44.5	1L6N_A	4WZI_A	6BK8_O	6J6G_A
+sp|Q09019|DMWD_HUMAN	sp|P04591|GAG_HV1H2	44.5	5K19_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q09028|RBBP4_HUMAN	44.5	1L6N_A	4PC0_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q09161|NCBP1_HUMAN	44.5	1L6N_A	5OOB_C	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|Q09472|EP300_HUMAN	44.5	1L6N_A	5XZC_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q10571|MN1_HUMAN	44.5	1L6N_A	6UXW_B	6BK8_O	6J6G_A
+sp|Q12770|SCAP_HUMAN	sp|P04591|GAG_HV1H2	44.5	6XE6_A	1L6N_A	6BK8_D	6BK8_O
+sp|Q12788|TBL3_HUMAN	sp|P04591|GAG_HV1H2	44.5	6RXU_U	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q12797|ASPH_HUMAN	44.5	1L6N_A	6RK9_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q12829|RB40B_HUMAN	44.5	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q12830|BPTF_HUMAN	44.5	1L6N_A	6AZE_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q12834|CDC20_HUMAN	44.5	1L6N_A	6Q6H_R	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q12926|ELAV2_HUMAN	44.5	1L6N_A	2GHP_D	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q12967|GNDS_HUMAN	44.5	1L6N_A	4JGW_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q13033|STRN3_HUMAN	44.5	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q13042|CDC16_HUMAN	44.5	1L6N_A	6Q6G_Q	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q13099|IFT88_HUMAN	44.5	1L6N_A	6ID1_J	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q13112|CAF1B_HUMAN	44.5	1L6N_A	5XYI_g	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q13151|ROA0_HUMAN	44.5	1L6N_A	5HO4_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q13206|DDX10_HUMAN	44.5	1L6N_A	6EM3_D	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q13216|ERCC8_HUMAN	44.5	1L6N_A	4A11_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q13217|DNJC3_HUMAN	44.5	1L6N_A	2Y4T_C	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q13242|SRSF9_HUMAN	44.5	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q13285|STF1_HUMAN	44.5	1L6N_A	3TX7_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q13310|PABP4_HUMAN	44.5	1L6N_A	6R5K_H	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q13319|CD5R2_HUMAN	44.5	1L6N_A	1UNL_E	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q13325|IFIT5_HUMAN	44.5	1L6N_A	4HOR_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q13347|EIF3I_HUMAN	44.5	1L6N_A	5K0Y_T	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q13409|DC1I2_HUMAN	44.5	1L6N_A	6F1Z_o	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q13435|SF3B2_HUMAN	44.5	1L6N_A	6QX9_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q13573|SNW1_HUMAN	44.5	1L6N_A	6ID1_R	6BK8_O	6J6G_P
+sp|P04591|GAG_HV1H2	sp|Q13595|TRA2A_HUMAN	44.5	1L6N_A	6G90_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q13610|PWP1_HUMAN	44.5	1L6N_A	2PM7_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q13637|RAB32_HUMAN	44.5	1L6N_A	4CZ2_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q13685|AAMP_HUMAN	44.5	1L6N_A	4ZOX_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q13702|RAPSN_HUMAN	44.5	1L6N_A	3RO2_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q13838|DX39B_HUMAN	44.5	1L6N_A	5SUQ_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q14003|KCNC3_HUMAN	44.5	1L6N_A	2R9R_H	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q14011|CIRBP_HUMAN	44.5	1L6N_A	4PKD_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q14088|RB33A_HUMAN	44.5	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q14137|BOP1_HUMAN	44.5	1L6N_A	6EM5_m	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q14139|UBE4A_HUMAN	44.5	1L6N_A	3M62_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q14147|DHX34_HUMAN	44.5	1L6N_A	6UP4_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q14151|SAFB2_HUMAN	44.5	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q14191|WRN_HUMAN	44.5	1L6N_A	6YHR_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q14240|IF4A2_HUMAN	44.5	1L6N_A	5ZC9_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q14318|FKBP8_HUMAN	44.5	1L6N_A	5MGX_G	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q14498|RBM39_HUMAN	44.5	1L6N_A	5X8P_v	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q14562|DHX8_HUMAN	44.5	1L6N_A	6ICZ_Y	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q14690|RRP5_HUMAN	44.5	1L6N_A	6RXZ_C	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q14692|BMS1_HUMAN	44.5	1L6N_A	6RXU_C	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q14839|CHD4_HUMAN	44.5	1L6N_A	6G0L_W	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q14964|RB39A_HUMAN	44.5	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|Q149M9|NWD1_HUMAN	sp|P04591|GAG_HV1H2	44.5	3SFZ_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q149N8|SHPRH_HUMAN	44.5	1L6N_A	4QN1_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q14CX7|NAA25_HUMAN	44.5	1L6N_A	5K04_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q15006|EMC2_HUMAN	44.5	1L6N_A	6Y4L_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q15019|SEPT2_HUMAN	44.5	1L6N_A	4Z54_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q15020|SART3_HUMAN	44.5	1L6N_A	5CTQ_C	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q15029|U5S1_HUMAN	44.5	1L6N_A	6ID1_C	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q15047|SETB1_HUMAN	44.5	1L6N_A	6BHE_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q15056|IF4H_HUMAN	44.5	1L6N_A	6FEC_u	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q15061|WDR43_HUMAN	44.5	1L6N_A	5WLC_L	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q15233|NONO_HUMAN	44.5	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q15269|PWP2_HUMAN	44.5	1L6N_A	5WLC_L	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q15286|RAB35_HUMAN	44.5	1L6N_A	6IF2_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q15291|RBBP5_HUMAN	44.5	1L6N_A	6KIV_N	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q15329|E2F5_HUMAN	44.5	1L6N_A	5TUU_B	6BK8_O	6J6G_A
+sp|Q15334|L2GL1_HUMAN	sp|P04591|GAG_HV1H2	44.5	6N8S_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q15361|TTF1_HUMAN	44.5	1L6N_A	5EYB_A	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|Q15382|RHEB_HUMAN	44.5	1L6N_A	3SEA_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q15415|RBY1F_HUMAN	44.5	1L6N_A	2FY1_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q15424|SAFB1_HUMAN	44.5	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q15427|SF3B4_HUMAN	44.5	1L6N_A	6Y5Q_o	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q15477|SKIV2_HUMAN	44.5	1L6N_A	5MC6_h	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q15493|RGN_HUMAN	44.5	1L6N_A	4GNA_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q15542|TAF5_HUMAN	44.5	1L6N_A	6MZM_G	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q15554|TERF2_HUMAN	44.5	1L6N_A	3BU8_B	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|Q15695|U2AFL_HUMAN	44.5	1L6N_A	4YH8_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q15696|U2AFM_HUMAN	44.5	1L6N_A	4YH8_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q15717|ELAV1_HUMAN	44.5	1L6N_A	2GHP_D	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q15751|HERC1_HUMAN	44.5	1L6N_A	4O2W_C	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q15785|TOM34_HUMAN	44.5	1L6N_A	6FO1_G	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q15907|RB11B_HUMAN	44.5	1L6N_A	2F9M_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q16181|SEPT7_HUMAN	44.5	1L6N_A	2QAG_C	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q16206|ENOX2_HUMAN	44.5	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q16560|U1SBP_HUMAN	44.5	1L6N_A	6G90_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q16576|RBBP7_HUMAN	44.5	1L6N_A	2XYI_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q16629|SRSF7_HUMAN	44.5	1L6N_A	6FF4_1	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q16630|CPSF6_HUMAN	44.5	1L6N_A	3Q2S_D	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q16760|DGKD_HUMAN	44.5	1L6N_A	1R79_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q17R89|RHG44_HUMAN	44.5	1L6N_A	3FK2_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q17RY0|CPEB4_HUMAN	44.5	1L6N_A	2MKI_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q1L5Z9|LONF2_HUMAN	44.5	1L6N_A	1ZBO_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q27J81|INF2_HUMAN	44.5	1L6N_A	3O4X_F	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q2M296|MTHSD_HUMAN	44.5	1L6N_A	3HY3_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q2NKX8|ERC6L_HUMAN	44.5	1L6N_A	5VVR_M	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q2TAY7|SMU1_HUMAN	44.5	1L6N_A	6Q8F_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q2V2M9|FHOD3_HUMAN	44.5	1L6N_A	3DAD_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q2VIR3|IF2GL_HUMAN	44.5	1L6N_A	6FEC_S	6BK8_O	6TEO_C
+sp|Q32P44|EMAL3_HUMAN	sp|P04591|GAG_HV1H2	44.5	4CI8_B	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q32P51|RA1L2_HUMAN	44.5	1L6N_A	1L3K_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q3L8U1|CHD9_HUMAN	44.5	1L6N_A	6G0L_W	6BK8_O	6BK8_P
+sp|Q3MJ13|WDR72_HUMAN	sp|P04591|GAG_HV1H2	44.5	6QK7_B	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q3SXM0|DC4L1_HUMAN	44.5	1L6N_A	1SQ9_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q3YEC7|RABL6_HUMAN	44.5	1L6N_A	3IHW_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q49AM3|TTC31_HUMAN	44.5	1L6N_A	5L0Y_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q4ADV7|RIC1_HUMAN	44.5	1L6N_A	4GGC_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q4G0J3|LARP7_HUMAN	44.5	1L6N_A	6D6V_H	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q4KMQ1|TPRN_HUMAN	44.5	1L6N_A	5OV3_A	6BK8_O	6J6G_A
+sp|Q4L235|ACSF4_HUMAN	sp|P04591|GAG_HV1H2	44.5	5T3D_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q4V339|CBWD6_HUMAN	44.5	1L6N_A	4IXN_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q4VXU2|PAP1L_HUMAN	44.5	1L6N_A	6R5K_H	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q504Q3|PAN2_HUMAN	44.5	1L6N_A	6R5K_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q53HC9|EIPR1_HUMAN	44.5	1L6N_A	3W15_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q53S08|RAB6D_HUMAN	44.5	1L6N_A	3BBP_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q562E7|WDR81_HUMAN	44.5	1L6N_A	1MI1_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q587J7|TDR12_HUMAN	44.5	1L6N_A	6UV3_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q58WW2|DCAF6_HUMAN	44.5	1L6N_A	5VLJ_C	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q5FWF4|ZRAB3_HUMAN	44.5	1L6N_A	6IY2_O	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q5H9U9|DDX6L_HUMAN	44.5	1L6N_A	4A4Z_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q5HYI8|RABL3_HUMAN	44.5	1L6N_A	6VIJ_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q5I0X7|TTC32_HUMAN	44.5	1L6N_A	5L0Y_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q5JQF8|PAP1M_HUMAN	44.5	1L6N_A	1CVJ_D	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q5JRA6|TGO1_HUMAN	44.5	1L6N_A	6LTJ_I	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q5JSH3|WDR44_HUMAN	44.5	1L6N_A	6QDV_o	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q5JT25|RAB41_HUMAN	44.5	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|Q5JTN6|WDR38_HUMAN	sp|P04591|GAG_HV1H2	44.5	4J87_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q5JTY5|CBWD3_HUMAN	44.5	1L6N_A	4IXN_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q5KSL6|DGKK_HUMAN	44.5	1L6N_A	1R79_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q5KU26|COL12_HUMAN	44.5	1L6N_A	1PWB_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q5MNZ6|WIPI3_HUMAN	44.5	1L6N_A	5LTD_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q5MNZ9|WIPI1_HUMAN	44.5	1L6N_A	5LTG_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q5QP82|DCA10_HUMAN	44.5	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q5R3I4|TTC38_HUMAN	44.5	1L6N_A	2VQ2_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q5RIA9|CBWD5_HUMAN	44.5	1L6N_A	4IXN_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q5SXM2|SNPC4_HUMAN	44.5	1L6N_A	5EYB_A	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|Q5SZQ8|CELF3_HUMAN	44.5	1L6N_A	6R5K_D	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q5T0N1|CFA70_HUMAN	44.5	1L6N_A	3IEG_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q5T0Z8|CF132_HUMAN	44.5	1L6N_A	5ZZ8_u	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q5T1V6|DDX59_HUMAN	44.5	1L6N_A	6Y50_p	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q5T4D3|TMTC4_HUMAN	44.5	1L6N_A	3HYM_H	6BK8_O	6J6H_d
+sp|Q5T5C0|STXB5_HUMAN	sp|P04591|GAG_HV1H2	44.5	6N8R_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q5T6F0|DCA12_HUMAN	44.5	1L6N_A	6DLO_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q5T764|IFT1B_HUMAN	44.5	1L6N_A	5UDI_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q5T890|ER6L2_HUMAN	44.5	1L6N_A	5VVR_M	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q5T8P6|RBM26_HUMAN	44.5	1L6N_A	6ICZ_Y	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q5TAA0|TTC22_HUMAN	44.5	1L6N_A	4G1T_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q5TAQ9|DCAF8_HUMAN	44.5	1L6N_A	6RXZ_C	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q5VSG8|MANEL_HUMAN	44.5	1L6N_A	5M17_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q5VSL9|STRP1_HUMAN	44.5	1L6N_A	5KIS_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q5VT52|RPRD2_HUMAN	44.5	1L6N_A	4NAD_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q5VTE0|EF1A3_HUMAN	44.5	1L6N_A	6RA9_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q5VTH9|WDR78_HUMAN	44.5	1L6N_A	6F1Z_o	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q5VU92|DC121_HUMAN	44.5	1L6N_A	4L9O_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q5VUA4|ZN318_HUMAN	44.5	1L6N_A	5ZWO_W	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q5VV67|PPRC1_HUMAN	44.5	1L6N_A	6D0Y_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q5VVJ2|MYSM1_HUMAN	44.5	1L6N_A	2DCE_A	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|Q5VW00|DC122_HUMAN	44.5	1L6N_A	4L9O_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q5VWQ0|RSBN1_HUMAN	44.5	1L6N_A	5UQD_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q5VZM2|RRAGB_HUMAN	44.5	1L6N_A	4ARZ_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q5W0B1|OBI1_HUMAN	44.5	1L6N_A	6O9L_3	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q5XUX1|FBXW9_HUMAN	44.5	1L6N_A	6WNX_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q5XX13|FBW10_HUMAN	44.5	1L6N_A	6WNX_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q64LD2|WDR25_HUMAN	44.5	1L6N_A	6QDV_o	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q66LE6|2ABD_HUMAN	44.5	1L6N_A	3DW8_E	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q674R7|ATG9B_HUMAN	44.5	1L6N_A	6WR4_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q676U5|A16L1_HUMAN	44.5	1L6N_A	5NPW_B	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q68DA7|FMN1_HUMAN	44.5	1L6N_A	3O4X_F	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q69YN4|VIR_HUMAN	44.5	1L6N_A	6GMH_Z	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q6DKK2|TTC19_HUMAN	44.5	1L6N_A	5O09_4	6BK8_O	6J6H_d
+sp|Q6IA86|ELP2_HUMAN	sp|P04591|GAG_HV1H2	44.5	6QK7_B	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q6N069|NAA16_HUMAN	44.5	1L6N_A	6HD5_t	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q6NWY9|PR40B_HUMAN	44.5	1L6N_A	6N7P_J	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q6NXR0|IIGP5_HUMAN	44.5	1L6N_A	1TQ6_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q6NZY4|ZCHC8_HUMAN	44.5	1L6N_A	6C90_B	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q6P158|DHX57_HUMAN	44.5	1L6N_A	5VHE_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q6P1M3|L2GL2_HUMAN	44.5	1L6N_A	6N8S_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q6P2E9|EDC4_HUMAN	44.5	1L6N_A	2VXG_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q6P2Q9|PRP8_HUMAN	44.5	1L6N_A	6ID1_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q6P3X3|TTC27_HUMAN	44.5	1L6N_A	3IEG_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q6P4I2|WDR73_HUMAN	44.5	1L6N_A	4PSW_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q6P597|KLC3_HUMAN	44.5	1L6N_A	4Y6W_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q6PCD5|RFWD3_HUMAN	44.5	1L6N_A	6CVZ_B	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q6PD62|CTR9_HUMAN	44.5	1L6N_A	6GMH_Q	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q6PGP7|TTC37_HUMAN	44.5	1L6N_A	4BUJ_F	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q6PID6|TTC33_HUMAN	44.5	1L6N_A	6FDP_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q6PJI9|WDR59_HUMAN	44.5	1L6N_A	3W15_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q6Q0C0|TRAF7_HUMAN	44.5	1L6N_A	6ID1_r	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q6QEF8|CORO6_HUMAN	44.5	1L6N_A	4OZU_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q6RFH5|WDR74_HUMAN	44.5	1L6N_A	5SUI_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q6RI45|BRWD3_HUMAN	44.5	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q6SPF0|SAMD1_HUMAN	44.5	1L6N_A	1PK1_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q6T4R5|NHS_HUMAN	44.5	1L6N_A	3P8C_D	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q6TDP4|KLH17_HUMAN	44.5	1L6N_A	4YY8_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q6UUV9|CRTC1_HUMAN	44.5	1L6N_A	5ZKO_H	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q6UXN9|WDR82_HUMAN	44.5	1L6N_A	5VH9_B	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q6VEQ5|WASH2_HUMAN	44.5	1L6N_A	6UHC_I	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q6VVB1|NHLC1_HUMAN	44.5	1L6N_A	4ZLR_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q6VY07|PACS1_HUMAN	44.5	1L6N_A	6MZM_G	6BK8_O	6J6G_A
+sp|Q6X9E4|FBW12_HUMAN	sp|P04591|GAG_HV1H2	44.5	6M90_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q6ZMI3|GLDN_HUMAN	44.5	1L6N_A	4D7C_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q6ZMW3|EMAL6_HUMAN	44.5	1L6N_A	4CI8_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q6ZMY6|WDR88_HUMAN	44.5	1L6N_A	4ZOX_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q6ZN66|GBP6_HUMAN	44.5	1L6N_A	1F5N_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q6ZNJ1|NBEL2_HUMAN	44.5	1L6N_A	1T77_D	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q6ZP01|RBM44_HUMAN	44.5	1L6N_A	2AYM_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q6ZQQ6|WDR87_HUMAN	44.5	1L6N_A	5TZS_T	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q6ZRY4|RBPS2_HUMAN	44.5	1L6N_A	2M9K_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q6ZS30|NBEL1_HUMAN	44.5	1L6N_A	1T77_D	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q6ZS81|WDFY4_HUMAN	44.5	1L6N_A	1T77_D	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q6ZV73|FGD6_HUMAN	44.5	1L6N_A	3MPX_A	6BK8_O	6J6H_Q
+sp|P04591|GAG_HV1H2	sp|Q6ZXV5|TMTC3_HUMAN	44.5	1L6N_A	6N7P_D	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q70E73|RAPH1_HUMAN	44.5	1L6N_A	6E31_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q70EK9|UBP51_HUMAN	44.5	1L6N_A	6TBM_Q	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q76FK4|NOL8_HUMAN	44.5	1L6N_A	5T9P_C	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q76KP1|B4GN4_HUMAN	44.5	1L6N_A	6PXU_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q7KZ85|SPT6H_HUMAN	44.5	1L6N_A	6GMH_M	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q7L014|DDX46_HUMAN	44.5	1L6N_A	6Y50_p	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q7L1Q6|BZW1_HUMAN	44.5	1L6N_A	3L6A_A	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|Q7L2E3|DHX30_HUMAN	44.5	1L6N_A	5AOR_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q7L523|RRAGA_HUMAN	44.5	1L6N_A	4ARZ_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q7L7V1|DHX32_HUMAN	44.5	1L6N_A	5YLZ_W	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q7Z2Z2|EFL1_HUMAN	44.5	1L6N_A	5ANC_K	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q7Z3J3|RGPD4_HUMAN	44.5	1L6N_A	3M1I_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q7Z429|LFG1_HUMAN	44.5	1L6N_A	6NQ7_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q7Z478|DHX29_HUMAN	44.5	1L6N_A	5VHE_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q7Z494|NPHP3_HUMAN	44.5	1L6N_A	6EJN_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q7Z4L5|TT21B_HUMAN	44.5	1L6N_A	5MC6_i	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q7Z4S6|KI21A_HUMAN	44.5	1L6N_A	5MM7_K	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q7Z5L3|C1QL2_HUMAN	44.5	1L6N_A	2OII_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q7Z5Q1|CPEB2_HUMAN	44.5	1L6N_A	2MKI_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q7Z5U6|WDR53_HUMAN	44.5	1L6N_A	5KC2_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q7Z6P3|RAB44_HUMAN	44.5	1L6N_A	5SZH_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q7Z739|YTHD3_HUMAN	44.5	1L6N_A	4RCJ_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q86SE5|RALYL_HUMAN	44.5	1L6N_A	1WF2_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q86T65|DAAM2_HUMAN	44.5	1L6N_A	2J1D_G	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q86TD4|SRCA_HUMAN	44.5	1L6N_A	2QPT_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q86TI4|WDR86_HUMAN	44.5	1L6N_A	6G6O_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q86TJ2|TAD2B_HUMAN	44.5	1L6N_A	6CW3_E	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|Q86TM3|DDX53_HUMAN	44.5	1L6N_A	6Y5Q_p	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q86TM6|SYVN1_HUMAN	44.5	1L6N_A	6VK0_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q86TV6|TTC7B_HUMAN	44.5	1L6N_A	5DSE_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q86TZ1|TTC6_HUMAN	44.5	1L6N_A	4RG6_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q86U06|RBM23_HUMAN	44.5	1L6N_A	5EV3_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q86UA1|PRP39_HUMAN	44.5	1L6N_A	6G70_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q86UK7|ZN598_HUMAN	44.5	1L6N_A	6QNX_C	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q86UP3|ZFHX4_HUMAN	44.5	1L6N_A	5V3J_E	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q86UR1|NOXA1_HUMAN	44.5	1L6N_A	1HH8_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q86V15|CASZ1_HUMAN	44.5	1L6N_A	5WLC_L	6BK8_O	6J6G_S
+sp|P04591|GAG_HV1H2	sp|Q86VM9|ZCH18_HUMAN	44.5	1L6N_A	6SC2_C	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q86VZ2|WDR5B_HUMAN	44.5	1L6N_A	6E1Z_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q86W42|THOC6_HUMAN	44.5	1L6N_A	4CZX_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q86WJ1|CHD1L_HUMAN	44.5	1L6N_A	6JYL_K	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q86WT1|TT30A_HUMAN	44.5	1L6N_A	4UZY_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q86XK2|FBX11_HUMAN	44.5	1L6N_A	6KQS_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q86XP3|DDX42_HUMAN	44.5	1L6N_A	6Y5Q_p	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q86Y01|DTX1_HUMAN	44.5	1L6N_A	3PG6_C	6BK8_O	6J6G_A
+sp|Q86Y33|CD20B_HUMAN	sp|P04591|GAG_HV1H2	44.5	4GGC_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q86YC2|PALB2_HUMAN	44.5	1L6N_A	3EU7_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q86YN6|PRGC2_HUMAN	44.5	1L6N_A	6D0Y_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q86YR5|GPSM1_HUMAN	44.5	1L6N_A	6HC2_C	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q8IUF1|CBWD2_HUMAN	44.5	1L6N_A	4IXN_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q8IUH3|RBM45_HUMAN	44.5	1L6N_A	6R5K_D	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q8IUR5|TMTC1_HUMAN	44.5	1L6N_A	5JPZ_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q8IV35|WDR49_HUMAN	44.5	1L6N_A	6QK7_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8IVF7|FMNL3_HUMAN	44.5	1L6N_A	4YDH_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8IWA0|WDR75_HUMAN	44.5	1L6N_A	6RXU_U	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8IWA4|MFN1_HUMAN	44.5	1L6N_A	5GOE_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q8IWB7|WDFY1_HUMAN	44.5	1L6N_A	2PM7_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8IWG1|WDR63_HUMAN	44.5	1L6N_A	6RLB_C	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8IWX8|CHERP_HUMAN	44.5	1L6N_A	3D9N_A	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|Q8IX18|DHX40_HUMAN	44.5	1L6N_A	5YLZ_W	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q8IY21|DDX60_HUMAN	44.5	1L6N_A	6C90_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q8IY37|DHX37_HUMAN	44.5	1L6N_A	6O16_B	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q8IYB4|PEX5R_HUMAN	44.5	1L6N_A	4EQF_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q8IYB8|SUV3_HUMAN	44.5	1L6N_A	3RC8_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q8IYD1|ERF3B_HUMAN	44.5	1L6N_A	5LZT_j	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q8IYD8|FANCM_HUMAN	44.5	1L6N_A	4E45_J	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q8IYH5|ZZZ3_HUMAN	44.5	1L6N_A	2FC7_A	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|Q8IYM1|SEP12_HUMAN	44.5	1L6N_A	4Z54_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q8IYX4|DND1_HUMAN	44.5	1L6N_A	4QQB_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q8IYY4|DZI1L_HUMAN	44.5	1L6N_A	3NA7_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8IZL8|PELP1_HUMAN	44.5	1L6N_A	5TAP_E	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8IZP2|ST134_HUMAN	44.5	1L6N_A	4J8C_B	6BK8_O	6J6H_d
+sp|Q8IZQ1|WDFY3_HUMAN	sp|P04591|GAG_HV1H2	44.5	1T77_D	1L6N_A	6BK8_D	6BK8_O
+sp|Q8IZU2|WDR17_HUMAN	sp|P04591|GAG_HV1H2	44.5	5H1J_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q8N0X2|SPG16_HUMAN	44.5	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8N0Z6|TTC5_HUMAN	44.5	1L6N_A	2XVS_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q8N122|RPTOR_HUMAN	44.5	1L6N_A	6BCX_W	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8N136|DAW1_HUMAN	44.5	1L6N_A	5NNZ_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8N157|AHI1_HUMAN	44.5	1L6N_A	4J87_A	6BK8_O	5MQ0_t
+sp|Q8N1V2|CFA52_HUMAN	sp|P04591|GAG_HV1H2	44.5	6U42_5	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q8N394|TMTC2_HUMAN	44.5	1L6N_A	3IEG_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q8N3C0|ASCC3_HUMAN	44.5	1L6N_A	5DCA_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q8N3E9|PLCD3_HUMAN	44.5	1L6N_A	2ZKM_X	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8N3P4|VPS8_HUMAN	44.5	1L6N_A	6RXU_U	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8N3Y1|FBXW8_HUMAN	44.5	1L6N_A	6WNX_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8N3Z3|GTPB8_HUMAN	44.5	1L6N_A	5UCV_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q8N442|GUF1_HUMAN	44.5	1L6N_A	5IMQ_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q8N4P2|TT30B_HUMAN	44.5	1L6N_A	4UZY_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q8N4Z0|RAB42_HUMAN	44.5	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q8N594|MPND_HUMAN	44.5	1L6N_A	5CW6_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8N5C6|SRBD1_HUMAN	44.5	1L6N_A	3BZC_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q8N5D0|WDTC1_HUMAN	44.5	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8N5P1|ZC3H8_HUMAN	44.5	1L6N_A	6EOJ_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q8N693|ESX1_HUMAN	44.5	1L6N_A	1MH3_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8N6W0|CELF5_HUMAN	44.5	1L6N_A	6R5K_D	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q8N7X1|RMXL3_HUMAN	44.5	1L6N_A	5YVG_X	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q8N8A6|DDX51_HUMAN	44.5	1L6N_A	6EM3_D	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q8N8D1|PDCD7_HUMAN	44.5	1L6N_A	6LTJ_I	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8N8S7|ENAH_HUMAN	44.5	1L6N_A	1XOD_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8N9B5|JMY_HUMAN	44.5	1L6N_A	5X1G_C	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8N9F0|NAT8L_HUMAN	44.5	1L6N_A	1S3Z_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8N9V3|WSDU1_HUMAN	44.5	1L6N_A	5WUK_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8NA23|WDR31_HUMAN	44.5	1L6N_A	4J87_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8NA56|TTC29_HUMAN	44.5	1L6N_A	4G2V_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q8NA75|DC4L2_HUMAN	44.5	1L6N_A	1SQ9_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q8NAA4|A16L2_HUMAN	44.5	1L6N_A	5NPW_H	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q8NAV1|PR38A_HUMAN	44.5	1L6N_A	6AHD_Z	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|Q8NBP0|TTC13_HUMAN	44.5	1L6N_A	4R7S_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q8NBT0|POC1A_HUMAN	44.5	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8NDG6|TDRD9_HUMAN	44.5	1L6N_A	5AOR_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q8NDM7|CFA43_HUMAN	44.5	1L6N_A	6U42_5	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8NDT2|RB15B_HUMAN	44.5	1L6N_A	1OW1_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q8NDW8|TT21A_HUMAN	44.5	1L6N_A	4M57_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q8NE35|CPEB3_HUMAN	44.5	1L6N_A	2MKI_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q8NE71|ABCF1_HUMAN	44.5	1L6N_A	5ZXD_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q8NEE8|TTC16_HUMAN	44.5	1L6N_A	2Y4T_C	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q8NEZ3|WDR19_HUMAN	44.5	1L6N_A	5NZT_C	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8NFC6|BD1L1_HUMAN	44.5	1L6N_A	6RMH_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8NFH3|NUP43_HUMAN	44.5	1L6N_A	5A9Q_R	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8NFH4|NUP37_HUMAN	44.5	1L6N_A	5A9Q_T	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8NFI4|F10A5_HUMAN	44.5	1L6N_A	4J8C_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q8NFP9|NBEA_HUMAN	44.5	1L6N_A	1MI1_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8NHQ9|DDX55_HUMAN	44.5	1L6N_A	6EM3_D	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q8NHV4|NEDD1_HUMAN	44.5	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8NHY2|COP1_HUMAN	44.5	1L6N_A	5IGQ_C	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q8NI36|WDR36_HUMAN	44.5	1L6N_A	5ICA_C	6BK8_O	5YLZ_T
+sp|Q8TAF3|WDR48_HUMAN	sp|P04591|GAG_HV1H2	44.5	5K1A_F	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q8TAI7|REBL1_HUMAN	44.5	1L6N_A	3OES_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q8TAM2|TTC8_HUMAN	44.5	1L6N_A	6VBV_8	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q8TAQ2|SMRC2_HUMAN	44.5	1L6N_A	6LTJ_O	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|Q8TAT6|NPL4_HUMAN	44.5	1L6N_A	6OA9_G	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8TB24|RIN3_HUMAN	44.5	1L6N_A	2EFH_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8TBC3|SHKB1_HUMAN	44.5	1L6N_A	4BGC_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8TBF4|ZCRB1_HUMAN	44.5	1L6N_A	5TKZ_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q8TBY0|RBM46_HUMAN	44.5	1L6N_A	3VF0_B	6BK8_O	6J6G_R
+sp|Q8TBY9|CF251_HUMAN	sp|P04591|GAG_HV1H2	44.5	6U42_5	1L6N_A	6BK8_D	6BK8_O
+sp|Q8TBZ3|WDR20_HUMAN	sp|P04591|GAG_HV1H2	44.5	5K1C_C	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q8TC44|POC1B_HUMAN	44.5	1L6N_A	4J87_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8TC92|ENOX1_HUMAN	44.5	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q8TCS8|PNPT1_HUMAN	44.5	1L6N_A	1E3H_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q8TD26|CHD6_HUMAN	44.5	1L6N_A	5O9G_W	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q8TDD1|DDX54_HUMAN	44.5	1L6N_A	6Y5Q_p	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q8TDG4|HELQ_HUMAN	44.5	1L6N_A	5AGA_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q8TDJ6|DMXL2_HUMAN	44.5	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8TDN4|CABL1_HUMAN	44.5	1L6N_A	4EOJ_D	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8TE59|ATS19_HUMAN	44.5	1L6N_A	6QIG_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8TE82|S3TC1_HUMAN	44.5	1L6N_A	4WND_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q8TE96|DQX1_HUMAN	44.5	1L6N_A	5LTJ_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q8TEB1|DCA11_HUMAN	44.5	1L6N_A	2PBI_D	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8TED0|UTP15_HUMAN	44.5	1L6N_A	5WLC_L	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8TEQ6|GEMI5_HUMAN	44.5	1L6N_A	5TEE_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8TF17|S3TC2_HUMAN	44.5	1L6N_A	5A7D_C	6BK8_O	6J6H_v
+sp|P04591|GAG_HV1H2	sp|Q8WU90|ZC3HF_HUMAN	44.5	1L6N_A	4A9A_C	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q8WUA4|TF3C2_HUMAN	44.5	1L6N_A	2J04_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8WV16|DCAF4_HUMAN	44.5	1L6N_A	1SQ9_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q8WVS4|WDR60_HUMAN	44.5	1L6N_A	6RLB_C	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q8WVT3|TPC12_HUMAN	44.5	1L6N_A	4A1S_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q8WWQ0|PHIP_HUMAN	44.5	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8WXA9|SREK1_HUMAN	44.5	1L6N_A	3PGW_L	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q8WXF0|SRS12_HUMAN	44.5	1L6N_A	6N7R_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q8WXF1|PSPC1_HUMAN	44.5	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q8WXH6|RB40A_HUMAN	44.5	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q8WYJ6|SEPT1_HUMAN	44.5	1L6N_A	4Z54_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q92466|DDB2_HUMAN	44.5	1L6N_A	4E54_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q92499|DDX1_HUMAN	44.5	1L6N_A	5ZWN_y	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q92558|WASF1_HUMAN	44.5	1L6N_A	4N78_D	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q92620|PRP16_HUMAN	44.5	1L6N_A	5YZG_Z	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q92636|FAN_HUMAN	44.5	1L6N_A	1T77_D	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q92698|RAD54_HUMAN	44.5	1L6N_A	1Z3I_X	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q92730|RND1_HUMAN	44.5	1L6N_A	2REX_D	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q92737|RSLAA_HUMAN	44.5	1L6N_A	3SEA_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q92747|ARC1A_HUMAN	44.5	1L6N_A	1K8K_C	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q92804|RBP56_HUMAN	44.5	1L6N_A	5YVG_X	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q92828|COR2A_HUMAN	44.5	1L6N_A	4OZU_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q92830|KAT2A_HUMAN	44.5	1L6N_A	6CW3_H	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q92838|EDA_HUMAN	44.5	1L6N_A	1RJ7_E	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q92841|DDX17_HUMAN	44.5	1L6N_A	6UV1_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q92879|CELF1_HUMAN	44.5	1L6N_A	2DHS_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q92896|GSLG1_HUMAN	44.5	1L6N_A	6X9O_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q92905|CSN5_HUMAN	44.5	1L6N_A	4D10_E	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q92922|SMRC1_HUMAN	44.5	1L6N_A	6LTJ_O	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|Q92925|SMRD2_HUMAN	44.5	1L6N_A	6LTJ_P	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q92930|RAB8B_HUMAN	44.5	1L6N_A	5SZI_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q93062|RBPMS_HUMAN	44.5	1L6N_A	5CYJ_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q969H0|FBXW7_HUMAN	44.5	1L6N_A	2OVR_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q969L4|LSM10_HUMAN	44.5	1L6N_A	6V4X_C	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|Q969S9|RRF2M_HUMAN	44.5	1L6N_A	2BM0_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q969U6|FBXW5_HUMAN	44.5	1L6N_A	6WNX_A	6BK8_O	5YLZ_T
+sp|Q969X6|UTP4_HUMAN	sp|P04591|GAG_HV1H2	44.5	5WLC_L	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q96A19|C102A_HUMAN	44.5	1L6N_A	4XA6_D	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q96A58|RERG_HUMAN	44.5	1L6N_A	3SEA_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q96AH8|RAB7B_HUMAN	44.5	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q96AX2|RAB37_HUMAN	44.5	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q96AY4|TTC28_HUMAN	44.5	1L6N_A	5MC6_i	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q96C10|DHX58_HUMAN	44.5	1L6N_A	5JB2_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q96DA2|RB39B_HUMAN	44.5	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q96DH6|MSI2H_HUMAN	44.5	1L6N_A	5HO4_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q96DI7|SNR40_HUMAN	44.5	1L6N_A	6ID1_E	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q96DN5|TBC31_HUMAN	44.5	1L6N_A	4J87_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q96DU9|PABP5_HUMAN	44.5	1L6N_A	6R5K_H	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q96E39|RMXL1_HUMAN	44.5	1L6N_A	5YVG_X	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q96EE3|SEH1_HUMAN	44.5	1L6N_A	5A9Q_P	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q96EP5|DAZP1_HUMAN	44.5	1L6N_A	2UP1_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q96EQ0|SGTB_HUMAN	44.5	1L6N_A	5L0Y_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q96EV2|RBM33_HUMAN	44.5	1L6N_A	6ODM_O	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q96EX3|WDR34_HUMAN	44.5	1L6N_A	6SC2_D	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q96FJ0|STALP_HUMAN	44.5	1L6N_A	5GM6_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q96FK6|WDR89_HUMAN	44.5	1L6N_A	6QK7_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q96G74|OTUD5_HUMAN	44.5	1L6N_A	3PFY_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q96GQ7|DDX27_HUMAN	44.5	1L6N_A	6EM3_D	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q96H35|RBM18_HUMAN	44.5	1L6N_A	2EK6_C	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q96IC2|REXO5_HUMAN	44.5	1L6N_A	5Z9X_A	6BK8_O	6J6G_R
+sp|Q96J01|THOC3_HUMAN	sp|P04591|GAG_HV1H2	44.5	6QTS_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q96J87|CELF6_HUMAN	44.5	1L6N_A	6R5K_D	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q96JH7|VCIP1_HUMAN	44.5	1L6N_A	3ZRH_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q96JK2|DCAF5_HUMAN	44.5	1L6N_A	3GRE_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q96JM2|ZN462_HUMAN	44.5	1L6N_A	5V3J_F	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q96KV7|WDR90_HUMAN	44.5	1L6N_A	3SFZ_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q96L91|EP400_HUMAN	44.5	1L6N_A	6IGM_H	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q96MF7|NSE2_HUMAN	44.5	1L6N_A	3HTK_C	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q96MR6|CFA57_HUMAN	44.5	1L6N_A	6U42_5	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q96MT7|CFA44_HUMAN	44.5	1L6N_A	6U42_5	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q96MX6|WDR92_HUMAN	44.5	1L6N_A	3I2N_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q96N46|TTC14_HUMAN	44.5	1L6N_A	2HR2_D	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q96NG3|TTC25_HUMAN	44.5	1L6N_A	4A1S_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q96P53|WDFY2_HUMAN	44.5	1L6N_A	2PM7_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q96PK6|RBM14_HUMAN	44.5	1L6N_A	2MJN_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q96PQ0|SORC2_HUMAN	44.5	1L6N_A	6FFY_A	6BK8_O	6J6G_A
+sp|Q96PQ7|KLHL5_HUMAN	sp|P04591|GAG_HV1H2	44.5	4YY8_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q96PV6|LENG8_HUMAN	44.5	1L6N_A	5L4K_T	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q96PY5|FMNL2_HUMAN	44.5	1L6N_A	4YDH_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q96RK4|BBS4_HUMAN	44.5	1L6N_A	6VBV_4	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q96RP9|EFGM_HUMAN	44.5	1L6N_A	3J0E_H	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q96RR1|PEO1_HUMAN	44.5	1L6N_A	1Q57_F	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q96RY7|IF140_HUMAN	44.5	1L6N_A	3MKQ_E	6BK8_O	5YLZ_T
+sp|Q96S15|WDR24_HUMAN	sp|P04591|GAG_HV1H2	44.5	3W15_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q96S21|RB40C_HUMAN	44.5	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q96S59|RANB9_HUMAN	44.5	1L6N_A	6SWY_1	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q96SQ7|ATOH8_HUMAN	44.5	1L6N_A	6MGM_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q96ST3|SIN3A_HUMAN	44.5	1L6N_A	2N2H_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q96T37|RBM15_HUMAN	44.5	1L6N_A	2RT5_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q99543|DNJC2_HUMAN	44.5	1L6N_A	5DJE_B	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|Q99590|SCAFB_HUMAN	44.5	1L6N_A	5VZV_C	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q99614|TTC1_HUMAN	44.5	1L6N_A	4APO_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q99615|DNJC7_HUMAN	44.5	1L6N_A	2Y4U_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q99633|PRP18_HUMAN	44.5	1L6N_A	1DVK_B	6BK8_O	6BK8_N
+sp|P04591|GAG_HV1H2	sp|Q99666|RGPD5_HUMAN	44.5	1L6N_A	3M1I_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q99698|LYST_HUMAN	44.5	1L6N_A	1T77_D	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q99719|SEPT5_HUMAN	44.5	1L6N_A	4Z54_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q99729|ROAA_HUMAN	44.5	1L6N_A	2UP1_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q99973|TEP1_HUMAN	44.5	1L6N_A	3SFZ_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9BQ04|RBM4B_HUMAN	44.5	1L6N_A	2MJN_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9BQ39|DDX50_HUMAN	44.5	1L6N_A	6L5O_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9BQ67|GRWD1_HUMAN	44.5	1L6N_A	4PSW_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9BQ87|TBL1Y_HUMAN	44.5	1L6N_A	4LG9_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9BQA1|MEP50_HUMAN	44.5	1L6N_A	4GQB_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9BQI5|SGIP1_HUMAN	44.5	1L6N_A	5JP2_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9BR76|COR1B_HUMAN	44.5	1L6N_A	4OZU_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9BRA0|LSMD1_HUMAN	44.5	1L6N_A	3JB9_E	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|Q9BRL6|SRSF8_HUMAN	44.5	1L6N_A	6N7R_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9BRP4|PAAF1_HUMAN	44.5	1L6N_A	3ACP_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9BRT8|CBWD1_HUMAN	44.5	1L6N_A	4IXN_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q9BRX9|WDR83_HUMAN	44.5	1L6N_A	6U8B_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9BSC4|NOL10_HUMAN	44.5	1L6N_A	5WLC_L	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9BTD8|RBM42_HUMAN	44.5	1L6N_A	6QW6_R	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9BTV6|DPH7_HUMAN	44.5	1L6N_A	4PSW_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9BU20|CPLN2_HUMAN	44.5	1L6N_A	1R2Q_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q9BUQ8|DDX23_HUMAN	44.5	1L6N_A	6QW6_5	6BK8_O	6BK8_P
+sp|Q9BUR4|TCAB1_HUMAN	sp|P04591|GAG_HV1H2	44.5	3DW8_E	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q9BV38|WDR18_HUMAN	44.5	1L6N_A	4U1E_I	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9BVA0|KTNB1_HUMAN	44.5	1L6N_A	5LB7_A	6BK8_O	5MQ0_t
+sp|Q9BVC4|LST8_HUMAN	sp|P04591|GAG_HV1H2	44.5	6BCU_E	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q9BWF3|RBM4_HUMAN	44.5	1L6N_A	2MJN_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9BX10|GTPB2_HUMAN	44.5	1L6N_A	5LZZ_j	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q9BX46|RBM24_HUMAN	44.5	1L6N_A	5Z9Z_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9BXJ9|NAA15_HUMAN	44.5	1L6N_A	4XNH_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q9BXX0|EMIL2_HUMAN	44.5	1L6N_A	2OII_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9BY44|EIF2A_HUMAN	44.5	1L6N_A	6GSN_p	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9BYB4|GNB1L_HUMAN	44.5	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9BYG3|MK67I_HUMAN	44.5	1L6N_A	2AFF_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9BYW2|SETD2_HUMAN	44.5	1L6N_A	6PX3_S	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9BYX4|IFIH1_HUMAN	44.5	1L6N_A	6GKM_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9BZC1|CELF4_HUMAN	44.5	1L6N_A	2DHS_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9BZG1|RAB34_HUMAN	44.5	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|Q9BZH6|WDR11_HUMAN	sp|P04591|GAG_HV1H2	44.5	5H1J_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q9BZJ0|CRNL1_HUMAN	44.5	1L6N_A	6ID1_J	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q9BZK7|TBL1R_HUMAN	44.5	1L6N_A	4LG9_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9C0C7|AMRA1_HUMAN	44.5	1L6N_A	6CVZ_B	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9C0D6|FHDC1_HUMAN	44.5	1L6N_A	3O4X_F	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9C0F0|ASXL3_HUMAN	44.5	1L6N_A	6CGA_D	6BK8_O	6J6G_A
+sp|Q9C0H6|KLHL4_HUMAN	sp|P04591|GAG_HV1H2	44.5	4YY8_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q9C0J8|WDR33_HUMAN	44.5	1L6N_A	6URO_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9GZL7|WDR12_HUMAN	44.5	1L6N_A	6N31_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9GZR7|DDX24_HUMAN	44.5	1L6N_A	6Y5Q_p	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9GZS0|DNAI2_HUMAN	44.5	1L6N_A	6RLB_C	6BK8_O	5YLZ_T
+sp|Q9GZS3|WDR61_HUMAN	sp|P04591|GAG_HV1H2	44.5	3OW8_B	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q9H013|ADA19_HUMAN	44.5	1L6N_A	3G5C_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9H074|PAIP1_HUMAN	44.5	1L6N_A	3RK6_B	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|Q9H082|RB33B_HUMAN	44.5	1L6N_A	2G77_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q9H0B6|KLC2_HUMAN	44.5	1L6N_A	6EJN_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q9H0N0|RAB6C_HUMAN	44.5	1L6N_A	3BBP_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q9H0S4|DDX47_HUMAN	44.5	1L6N_A	6EM3_D	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9H0Z9|RBM38_HUMAN	44.5	1L6N_A	5Z9Z_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9H161|ALX4_HUMAN	44.5	1L6N_A	1MH3_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9H172|ABCG4_HUMAN	44.5	1L6N_A	5DO7_C	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9H1Z4|WDR13_HUMAN	44.5	1L6N_A	3GRE_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9H221|ABCG8_HUMAN	44.5	1L6N_A	5DO7_D	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9H222|ABCG5_HUMAN	44.5	1L6N_A	5DO7_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9H254|SPTN4_HUMAN	44.5	1L6N_A	1SJJ_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9H2G4|TSYL2_HUMAN	44.5	1L6N_A	5X7V_D	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9H2U1|DHX36_HUMAN	44.5	1L6N_A	5VHE_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9H2Y7|ZN106_HUMAN	44.5	1L6N_A	6M90_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9H361|PABP3_HUMAN	44.5	1L6N_A	6R5K_H	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9H3S7|PTN23_HUMAN	44.5	1L6N_A	2R03_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9H461|FZD8_HUMAN	44.5	1L6N_A	5V57_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9H4L7|SMRCD_HUMAN	44.5	1L6N_A	6GEN_M	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9H4P4|RNF41_HUMAN	44.5	1L6N_A	2FZP_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9H5Z1|DHX35_HUMAN	44.5	1L6N_A	5YLZ_W	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9H6R0|DHX33_HUMAN	44.5	1L6N_A	5YLZ_W	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9H6S0|YTDC2_HUMAN	44.5	1L6N_A	5VHE_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9H6T3|RPAP3_HUMAN	44.5	1L6N_A	6FO1_G	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q9H6Y2|WDR55_HUMAN	44.5	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9H7D7|WDR26_HUMAN	44.5	1L6N_A	6MZM_G	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9H7N4|SFR19_HUMAN	44.5	1L6N_A	6ICZ_Y	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9H7X7|IFT22_HUMAN	44.5	1L6N_A	6IAN_E	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q9H808|TLE6_HUMAN	44.5	1L6N_A	1GXR_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9H892|TTC12_HUMAN	44.5	1L6N_A	4I2Z_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q9H8H2|DDX31_HUMAN	44.5	1L6N_A	6EM3_D	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9H967|WDR76_HUMAN	44.5	1L6N_A	4XYH_A	6BK8_O	5YLZ_T
+sp|Q9H977|WDR54_HUMAN	sp|P04591|GAG_HV1H2	44.5	6G6M_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q9HAD4|WDR41_HUMAN	44.5	1L6N_A	6LT0_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9HAU5|RENT2_HUMAN	44.5	1L6N_A	4CEM_B	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|Q9HAV0|GBB4_HUMAN	44.5	1L6N_A	5KDO_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9HBD1|RC3H2_HUMAN	44.5	1L6N_A	4Z31_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9HBG6|IF122_HUMAN	44.5	1L6N_A	3MKQ_E	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9HC35|EMAL4_HUMAN	44.5	1L6N_A	4CI8_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9HCK8|CHD8_HUMAN	44.5	1L6N_A	5O9G_W	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9HCS7|SYF1_HUMAN	44.5	1L6N_A	6FF7_M	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q9HCU5|PREB_HUMAN	44.5	1L6N_A	5TF2_A	6BK8_O	5YLZ_T
+sp|Q9NNW5|WDR6_HUMAN	sp|P04591|GAG_HV1H2	44.5	6QK7_B	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q9NP58|ABCB6_HUMAN	44.5	1L6N_A	4MYC_C	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9NP64|NO40_HUMAN	44.5	1L6N_A	2CQO_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9NP78|ABCB9_HUMAN	44.5	1L6N_A	4AYX_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9NP90|RAB9B_HUMAN	44.5	1L6N_A	1S8F_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q9NQ94|A1CF_HUMAN	44.5	1L6N_A	3VF0_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9NQC3|RTN4_HUMAN	44.5	1L6N_A	2KO2_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9NQI0|DDX4_HUMAN	44.5	1L6N_A	2DB3_B	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9NQL2|RRAGD_HUMAN	44.5	1L6N_A	6ULG_G	6BK8_O	6TEO_C
+sp|Q9NQW1|SC31B_HUMAN	sp|P04591|GAG_HV1H2	44.5	4BZJ_C	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q9NR30|DDX21_HUMAN	44.5	1L6N_A	6L5O_A	6BK8_O	6BK8_P
+sp|Q9NR64|KLHL1_HUMAN	sp|P04591|GAG_HV1H2	44.5	4YY8_A	1L6N_A	6BK8_D	6BK8_O
+sp|Q9NRG9|AAAS_HUMAN	sp|P04591|GAG_HV1H2	44.5	5T2A_7	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q9NRJ4|TULP4_HUMAN	44.5	1L6N_A	1S31_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9NRK6|ABCBA_HUMAN	44.5	1L6N_A	4AYX_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9NRL3|STRN4_HUMAN	44.5	1L6N_A	5VH9_B	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9NRR4|RNC_HUMAN	44.5	1L6N_A	6LXD_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9NRW1|RAB6B_HUMAN	44.5	1L6N_A	3BBP_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q9NRZ9|HELLS_HUMAN	44.5	1L6N_A	6JYL_K	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9NSI6|BRWD1_HUMAN	44.5	1L6N_A	1VYH_D	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9NSK0|KLC4_HUMAN	44.5	1L6N_A	6EJN_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q9NSV4|DIAP3_HUMAN	44.5	1L6N_A	3O4X_F	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9NUL7|DDX28_HUMAN	44.5	1L6N_A	5Z3G_Y	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9NUQ8|ABCF3_HUMAN	44.5	1L6N_A	5ZXD_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9NUT2|MITOS_HUMAN	44.5	1L6N_A	5OCH_B	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9NUU7|DD19A_HUMAN	44.5	1L6N_A	3FMP_B	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9NV06|DCA13_HUMAN	44.5	1L6N_A	5WLC_L	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9NVA2|SEP11_HUMAN	44.5	1L6N_A	2QAG_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q9NVP1|DDX18_HUMAN	44.5	1L6N_A	6EM3_D	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9NVX2|NLE1_HUMAN	44.5	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9NW64|RBM22_HUMAN	44.5	1L6N_A	6ID1_O	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9NW82|WDR70_HUMAN	44.5	1L6N_A	1YFQ_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9NWB1|RFOX1_HUMAN	44.5	1L6N_A	4ZKA_C	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9NWH9|SLTM_HUMAN	44.5	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9NWT1|PK1IP_HUMAN	44.5	1L6N_A	3V7D_D	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9NXC5|MIO_HUMAN	44.5	1L6N_A	4YCZ_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9NXZ2|DDX43_HUMAN	44.5	1L6N_A	6Y5Q_p	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9NY43|BARH2_HUMAN	44.5	1L6N_A	1MH3_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9NY93|DDX56_HUMAN	44.5	1L6N_A	5Z3G_Y	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9NYS7|WSB2_HUMAN	44.5	1L6N_A	4J87_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9NZ56|FMN2_HUMAN	44.5	1L6N_A	3O4X_F	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9NZ81|PRR13_HUMAN	44.5	1L6N_A	6J6G_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9NZC9|SMAL1_HUMAN	44.5	1L6N_A	6PWF_K	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9NZJ0|DTL_HUMAN	44.5	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9P013|CWC15_HUMAN	44.5	1L6N_A	6ID1_P	6BK8_O	6J6G_S
+sp|P04591|GAG_HV1H2	sp|Q9P0K8|FOXJ2_HUMAN	44.5	1L6N_A	1JXS_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9P2C4|TM181_HUMAN	44.5	1L6N_A	6LTJ_P	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9P2D1|CHD7_HUMAN	44.5	1L6N_A	5O9G_W	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9P2H3|IFT80_HUMAN	44.5	1L6N_A	5N4A_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9P2L0|WDR35_HUMAN	44.5	1L6N_A	3MKQ_E	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9P2N5|RBM27_HUMAN	44.5	1L6N_A	6ICZ_Y	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9P2R6|RERE_HUMAN	44.5	1L6N_A	4BKX_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9P2S5|WRP73_HUMAN	44.5	1L6N_A	4U1F_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9UBJ2|ABCD2_HUMAN	44.5	1L6N_A	6JBJ_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9UBK2|PRGC1_HUMAN	44.5	1L6N_A	6D0Y_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9UBK7|RBL2A_HUMAN	44.5	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q9UFC0|LRWD1_HUMAN	44.5	1L6N_A	6CVZ_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9UG01|IF172_HUMAN	44.5	1L6N_A	6QK7_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9UG63|ABCF2_HUMAN	44.5	1L6N_A	6R84_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9UGI6|KCNN3_HUMAN	44.5	1L6N_A	6CNM_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9UGR2|Z3H7B_HUMAN	44.5	1L6N_A	2D9M_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q9UH03|SEPT3_HUMAN	44.5	1L6N_A	4Z54_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q9UHD8|SEPT9_HUMAN	44.5	1L6N_A	4Z54_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q9UHI6|DDX20_HUMAN	44.5	1L6N_A	5SUQ_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9UHL0|DDX25_HUMAN	44.5	1L6N_A	3FMP_B	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9UHX1|PUF60_HUMAN	44.5	1L6N_A	2KXH_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9UI08|EVL_HUMAN	44.5	1L6N_A	1QC6_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9UI46|DNAI1_HUMAN	44.5	1L6N_A	6F1Z_o	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9UIM3|FKBPL_HUMAN	44.5	1L6N_A	1P5Q_B	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q9UJ55|MAGL2_HUMAN	44.5	1L6N_A	6R7T_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9UJV9|DDX41_HUMAN	44.5	1L6N_A	5ZWN_y	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9UJX2|CDC23_HUMAN	44.5	1L6N_A	6Q6H_V	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q9UJX3|APC7_HUMAN	44.5	1L6N_A	6Q6G_Z	6BK8_O	6J6H_d
+sp|Q9UJX5|APC4_HUMAN	sp|P04591|GAG_HV1H2	44.5	6TM5_I	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q9UK45|LSM7_HUMAN	44.5	1L6N_A	6QW6_6	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|Q9UKB1|FBW1B_HUMAN	44.5	1L6N_A	6WNX_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9UKM9|RALY_HUMAN	44.5	1L6N_A	4PKD_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9UKT8|FBXW2_HUMAN	44.5	1L6N_A	3V7D_D	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9UL51|HCN2_HUMAN	44.5	1L6N_A	6UQF_C	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9ULG1|INO80_HUMAN	44.5	1L6N_A	6HTS_G	6BK8_O	6BK8_P
+sp|Q9ULI1|NWD2_HUMAN	sp|P04591|GAG_HV1H2	44.5	3SFZ_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q9ULL5|PRR12_HUMAN	44.5	1L6N_A	4UUD_D	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9ULT0|TTC7A_HUMAN	44.5	1L6N_A	5DSE_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q9ULV4|COR1C_HUMAN	44.5	1L6N_A	4OZU_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9UM11|FZR1_HUMAN	44.5	1L6N_A	4UI9_R	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9UMN6|KMT2B_HUMAN	44.5	1L6N_A	6KIZ_K	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9UMR2|DD19B_HUMAN	44.5	1L6N_A	3FMP_B	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9UMS4|PRP19_HUMAN	44.5	1L6N_A	6J6G_q	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9UNE7|CHIP_HUMAN	44.5	1L6N_A	2C2L_B	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9UNQ0|ABCG2_HUMAN	44.5	1L6N_A	6HZM_B	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9UNT1|RBL2B_HUMAN	44.5	1L6N_A	6JMG_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q9UPN6|SCAF8_HUMAN	44.5	1L6N_A	2DIW_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9UPQ9|TNR6B_HUMAN	44.5	1L6N_A	2WBR_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9UPS6|SET1B_HUMAN	44.5	1L6N_A	6UH5_M	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9UPT8|ZC3H4_HUMAN	44.5	1L6N_A	2CQE_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9UPY3|DICER_HUMAN	44.5	1L6N_A	5ZAM_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9UPY6|WASF3_HUMAN	44.5	1L6N_A	4N78_D	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9UQ03|COR2B_HUMAN	44.5	1L6N_A	4OZU_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9UQ16|DYN3_HUMAN	44.5	1L6N_A	4UUK_I	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q9UQ35|SRRM2_HUMAN	44.5	1L6N_A	6ICZ_U	6BK8_O	5MPS_R
+sp|P04591|GAG_HV1H2	sp|Q9Y222|DMTF1_HUMAN	44.5	1L6N_A	5EYB_A	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|Q9Y263|PLAP_HUMAN	44.5	1L6N_A	3PST_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9Y297|FBW1A_HUMAN	44.5	1L6N_A	6TTU_T	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9Y2G1|MYRF_HUMAN	44.5	1L6N_A	5YHU_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9Y2I8|WDR37_HUMAN	44.5	1L6N_A	2QXV_A	6BK8_O	5MQ0_t
+sp|Q9Y2K9|STB5L_HUMAN	sp|P04591|GAG_HV1H2	44.5	6N8R_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q9Y2R4|DDX52_HUMAN	44.5	1L6N_A	6Y5Q_p	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9Y2T4|2ABG_HUMAN	44.5	1L6N_A	3DW8_E	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9Y2X0|MED16_HUMAN	44.5	1L6N_A	6RM3_S	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9Y2Z0|SGT1_HUMAN	44.5	1L6N_A	2KMW_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q9Y333|LSM2_HUMAN	44.5	1L6N_A	6QX9_6	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|Q9Y383|LC7L2_HUMAN	44.5	1L6N_A	5ZWN_Y	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|Q9Y388|RBMX2_HUMAN	44.5	1L6N_A	6FF4_1	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9Y3B4|SF3B6_HUMAN	44.5	1L6N_A	3LQV_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9Y3F4|STRAP_HUMAN	44.5	1L6N_A	4WJV_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9Y450|HBS1L_HUMAN	44.5	1L6N_A	5LZZ_j	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q9Y484|WIPI4_HUMAN	44.5	1L6N_A	5LTD_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9Y485|DMXL1_HUMAN	44.5	1L6N_A	6JLQ_C	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9Y4B6|DCAF1_HUMAN	44.5	1L6N_A	4PXW_B	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9Y4D1|DAAM1_HUMAN	44.5	1L6N_A	2J1D_G	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9Y4E6|WDR7_HUMAN	44.5	1L6N_A	6QK7_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9Y4P3|TBL2_HUMAN	44.5	1L6N_A	2PBI_D	6BK8_O	5MQ0_t
+sp|Q9Y4P8|WIPI2_HUMAN	sp|P04591|GAG_HV1H2	44.5	5LTG_B	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q9Y4Y9|LSM5_HUMAN	44.5	1L6N_A	6QW6_6	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|Q9Y4Z0|LSM4_HUMAN	44.5	1L6N_A	3JCR_4	6BK8_O	5ZWO_T
+sp|P04591|GAG_HV1H2	sp|Q9Y580|RBM7_HUMAN	44.5	1L6N_A	6ELD_A	6BK8_O	6J6G_R
+sp|Q9Y597|KCTD3_HUMAN	sp|P04591|GAG_HV1H2	44.5	4BGC_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q9Y5J1|UTP18_HUMAN	44.5	1L6N_A	6ND4_S	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9Y5M8|SRPRB_HUMAN	44.5	1L6N_A	2FH5_B	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q9Y5Q9|TF3C3_HUMAN	44.5	1L6N_A	5AIO_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q9Y5S9|RBM8A_HUMAN	44.5	1L6N_A	6ICZ_w	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9Y613|FHOD1_HUMAN	44.5	1L6N_A	3DAD_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9Y618|NCOR2_HUMAN	44.5	1L6N_A	4CZZ_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9Y620|RA54B_HUMAN	44.5	1L6N_A	1Z3I_X	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9Y661|HS3S4_HUMAN	44.5	1L6N_A	1T8T_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9Y6I7|WSB1_HUMAN	44.5	1L6N_A	4J87_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9Y6J0|CABIN_HUMAN	44.5	1L6N_A	1N6J_G	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q9Y6M1|IF2B2_HUMAN	44.5	1L6N_A	3N89_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9Y6V0|PCLO_HUMAN	44.5	1L6N_A	1RH8_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9Y6V7|DDX49_HUMAN	44.5	1L6N_A	6EM3_D	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9Y6W5|WASF2_HUMAN	44.5	1L6N_A	4N78_D	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9Y6X3|SCC4_HUMAN	44.5	1L6N_A	5W94_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q9Y6Y8|S23IP_HUMAN	44.5	1L6N_A	3IDW_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	tr|A0A0B4J2E5|A0A0B4J2E5_HUMAN	44.5	1L6N_A	5WLC_L	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	tr|A0A0G2JNQ3|A0A0G2JNQ3_HUMAN	44.5	1L6N_A	2KVI_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	tr|A0A0G2JPF8|A0A0G2JPF8_HUMAN	44.5	1L6N_A	2KVI_A	6BK8_O	6J6G_R
+sp|A0A0K0K1E9|TVB77_HUMAN	sp|P04601|NEF_HV1H2	44.5	1YJD_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04601|NEF_HV1H2	sp|A8K4G0|CLM7_HUMAN	44.5	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O75871|CEAM4_HUMAN	44.5	3TB8_A	6JXR_f	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	tr|A0A087WYE8|A0A087WYE8_HUMAN	44.5	3TB8_A	3U1S_H	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|Q96S86|HPLN3_HUMAN	44.5	2X7L_R	2PF5_B	2X7L_R	5I8O_H
+sp|P04578|ENV_HV1H2	sp|P43626|KI2L1_HUMAN	44.4	6PWU_E	1B6U_A	6UM5_E	6CBP_A
+sp|P04578|ENV_HV1H2	tr|A0A087WZ39|A0A087WZ39_HUMAN	44.4	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A0A0K0K1G8|TVBJ2_HUMAN	44.4	1L6N_A	5E9D_E	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O95198|KLHL2_HUMAN	44.4	1L6N_A	4YY8_A	6ICZ_Z	6ID0_W
+sp|P04585|POL_HV1H2	sp|P12814|ACTN1_HUMAN	44.4	1L6N_A	1SJJ_A	2MGU_M	5DOW_A
+sp|P55082|MFAP3_HUMAN	sp|P04585|POL_HV1H2	44.4	6J8H_C	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q5BKX5|CS054_HUMAN	44.4	1L6N_A	5ZZ8_u	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9P2G3|KLH14_HUMAN	44.4	1L6N_A	4YY8_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|A0A0K0K1G8|TVBJ2_HUMAN	44.4	1L6N_A	5E9D_E	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A1B0GTH6|CS2IP_HUMAN	44.4	1L6N_A	6FF7_T	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|A0JLT2|MED19_HUMAN	44.4	1L6N_A	6J6G_A	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|A3KN83|SBNO1_HUMAN	44.4	1L6N_A	6NE3_W	6ICZ_Z	6S8Q_B
+sp|P04591|GAG_HV1H2	sp|A5YKK6|CNOT1_HUMAN	44.4	1L6N_A	4C0D_A	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|A6NH57|ARL5C_HUMAN	44.4	1L6N_A	1Z6Y_A	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|A7MD48|SRRM4_HUMAN	44.4	1L6N_A	6FF4_S	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|A8MPP1|D11L8_HUMAN	44.4	1L6N_A	5OQM_0	6ICZ_Z	6S8Q_B
+sp|P04591|GAG_HV1H2	sp|B3KS81|SRRM5_HUMAN	44.4	1L6N_A	6FF4_S	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|O00425|IF2B3_HUMAN	44.4	1L6N_A	3N89_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|O14979|HNRDL_HUMAN	44.4	1L6N_A	5HO4_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|O14981|BTAF1_HUMAN	44.4	1L6N_A	6G7E_B	6ICZ_Z	6S8Q_B
+sp|P04591|GAG_HV1H2	sp|O15050|TRNK1_HUMAN	44.4	1L6N_A	3VKW_A	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|O15056|SYNJ2_HUMAN	44.4	1L6N_A	3LWT_X	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|O15372|EIF3H_HUMAN	44.4	1L6N_A	6YAM_r	6ICZ_Z	6ID1_A
+sp|P04591|GAG_HV1H2	sp|O15417|TNC18_HUMAN	44.4	1L6N_A	1ZBX_A	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|O43379|WDR62_HUMAN	44.4	1L6N_A	6U42_5	6ICZ_Z	5MQF_F
+sp|P04591|GAG_HV1H2	sp|O43390|HNRPR_HUMAN	44.4	1L6N_A	2NBB_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|O43426|SYNJ1_HUMAN	44.4	1L6N_A	4TU3_X	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|O43719|HTSF1_HUMAN	44.4	1L6N_A	6Y5Q_q	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|O60271|JIP4_HUMAN	44.4	1L6N_A	2W83_D	6ICZ_Z	6ID0_W
+sp|P04591|GAG_HV1H2	sp|O60306|AQR_HUMAN	44.4	1L6N_A	4PJ3_A	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|O60313|OPA1_HUMAN	44.4	1L6N_A	6JTG_A	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|O60336|MABP1_HUMAN	44.4	1L6N_A	6U42_5	6ICZ_Z	5MQF_F
+sp|O75127|PTCD1_HUMAN	sp|P04591|GAG_HV1H2	44.4	4M59_B	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|O95198|KLHL2_HUMAN	44.4	1L6N_A	4YY8_A	6ICZ_Z	6ID0_W
+sp|P04591|GAG_HV1H2	sp|O95628|CNOT4_HUMAN	44.4	1L6N_A	5AIE_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|P02452|CO1A1_HUMAN	44.4	1L6N_A	3HQV_C	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|P09471|GNAO_HUMAN	44.4	1L6N_A	6NE6_A	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|P0C7P3|SLN14_HUMAN	44.4	1L6N_A	6RR9_A	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|P10323|ACRO_HUMAN	44.4	1L6N_A	5EDM_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|P12814|ACTN1_HUMAN	44.4	1L6N_A	1SJJ_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P13645|K1C10_HUMAN	44.4	1L6N_A	3TNU_B	6ICZ_Z	6ID1_L
+sp|P04591|GAG_HV1H2	sp|P14866|HNRPL_HUMAN	44.4	1L6N_A	4N0T_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|P15880|RS2_HUMAN	44.4	1L6N_A	6EK0_S	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|P18074|ERCC2_HUMAN	44.4	1L6N_A	6RO4_B	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|P19338|NUCL_HUMAN	44.4	1L6N_A	6R5K_D	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|P23588|IF4B_HUMAN	44.4	1L6N_A	6FEC_u	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|P26368|U2AF2_HUMAN	44.4	1L6N_A	5EV3_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|P26378|ELAV4_HUMAN	44.4	1L6N_A	2GHP_D	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|P26599|PTBP1_HUMAN	44.4	1L6N_A	4N0T_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|P29558|RBMS1_HUMAN	44.4	1L6N_A	5MMJ_v	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|P29973|CNGA1_HUMAN	44.4	1L6N_A	5VA1_A	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|P35637|FUS_HUMAN	44.4	1L6N_A	5YVG_X	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|P38935|SMBP2_HUMAN	44.4	1L6N_A	4B3F_X	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|P42568|AF9_HUMAN	44.4	1L6N_A	5YYF_C	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|P42768|WASP_HUMAN	44.4	1L6N_A	6UHC_I	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|P43243|MATR3_HUMAN	44.4	1L6N_A	2MJU_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|P49756|RBM25_HUMAN	44.4	1L6N_A	6N7X_H	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|P50570|DYN2_HUMAN	44.4	1L6N_A	4UUK_I	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|P51398|RT29_HUMAN	44.4	1L6N_A	6GAZ_A	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|P51530|DNA2_HUMAN	44.4	1L6N_A	5EAN_A	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|P51531|SMCA2_HUMAN	44.4	1L6N_A	6LTJ_I	6ICZ_Z	6S8Q_B
+sp|P04591|GAG_HV1H2	sp|P51532|SMCA4_HUMAN	44.4	1L6N_A	6LTJ_I	6ICZ_Z	6S8Q_B
+sp|P04591|GAG_HV1H2	sp|P51826|AFF3_HUMAN	44.4	1L6N_A	6KN5_A	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|P52272|HNRPM_HUMAN	44.4	1L6N_A	4P6Q_A	6ICZ_Z	2CQB_A
+sp|P52597|HNRPF_HUMAN	sp|P04591|GAG_HV1H2	44.4	6DHS_D	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|P52756|RBM5_HUMAN	44.4	1L6N_A	6N7R_C	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|P53804|TTC3_HUMAN	44.4	1L6N_A	5AIE_A	6ICZ_Z	6ID1_I
+sp|P04591|GAG_HV1H2	sp|P56559|ARL4C_HUMAN	44.4	1L6N_A	4M9Q_B	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|P62330|ARF6_HUMAN	44.4	1L6N_A	3L82_B	6ICZ_Z	6ID1_C
+sp|P98175|RBM10_HUMAN	sp|P04591|GAG_HV1H2	44.4	2MXW_A	1L6N_A	6ICZ_w	6ICZ_Z
+sp|Q02040|AK17A_HUMAN	sp|P04591|GAG_HV1H2	44.4	4WIJ_B	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q05193|DYN1_HUMAN	44.4	1L6N_A	4UUK_I	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|Q07955|SRSF1_HUMAN	44.4	1L6N_A	2MJN_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q08170|SRSF4_HUMAN	44.4	1L6N_A	2MJN_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q08AF3|SLFN5_HUMAN	44.4	1L6N_A	6RR9_A	6ICZ_Z	4PJ3_A
+sp|Q12849|GRSF1_HUMAN	sp|P04591|GAG_HV1H2	44.4	6DHS_D	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q12872|SFSWA_HUMAN	44.4	1L6N_A	2E60_A	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q12873|CHD3_HUMAN	44.4	1L6N_A	6G0L_W	6ICZ_Z	6S8Q_B
+sp|P04591|GAG_HV1H2	sp|Q12996|CSTF3_HUMAN	44.4	1L6N_A	6URO_F	6ICZ_Z	6ID1_I
+sp|P04591|GAG_HV1H2	sp|Q13117|DAZ2_HUMAN	44.4	1L6N_A	2XS7_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q13148|TADBP_HUMAN	44.4	1L6N_A	5MRG_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q13243|SRSF5_HUMAN	44.4	1L6N_A	2MJN_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q13247|SRSF6_HUMAN	44.4	1L6N_A	2MJN_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q13283|G3BP1_HUMAN	44.4	1L6N_A	5FW5_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q13428|TCOF_HUMAN	44.4	1L6N_A	5O9Z_L	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q14103|HNRPD_HUMAN	44.4	1L6N_A	5HO4_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q14344|GNA13_HUMAN	44.4	1L6N_A	6NE6_A	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|Q14494|NF2L1_HUMAN	44.4	1L6N_A	1SKN_P	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|Q14527|HLTF_HUMAN	44.4	1L6N_A	6GEN_M	6ICZ_Z	6S8Q_B
+sp|P04591|GAG_HV1H2	sp|Q14576|ELAV3_HUMAN	44.4	1L6N_A	2GHP_D	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q14966|ZN638_HUMAN	44.4	1L6N_A	5TF6_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q15032|R3HD1_HUMAN	44.4	1L6N_A	1WHR_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q15287|RNPS1_HUMAN	44.4	1L6N_A	5MMJ_v	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q15434|RBMS2_HUMAN	44.4	1L6N_A	2DHS_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q4VCS5|AMOT_HUMAN	44.4	1L6N_A	1I84_V	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q5BKX5|CS054_HUMAN	44.4	1L6N_A	5ZZ8_u	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q5C9Z4|NOM1_HUMAN	44.4	1L6N_A	6ICZ_V	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|Q5HYC2|K2026_HUMAN	44.4	1L6N_A	6MF9_A	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q5JWF2|GNAS1_HUMAN	44.4	1L6N_A	6EG8_I	6ICZ_Z	6ID1_C
+sp|Q5T200|ZC3HD_HUMAN	sp|P04591|GAG_HV1H2	44.4	6SC2_C	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q5T481|RBM20_HUMAN	44.4	1L6N_A	6SO9_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q5TEA6|SE1L2_HUMAN	44.4	1L6N_A	6VK3_A	6ICZ_Z	6ID1_I
+sp|Q5VTL8|PR38B_HUMAN	sp|P04591|GAG_HV1H2	44.4	6AHD_Z	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q5VYV0|FOXB2_HUMAN	44.4	1L6N_A	6FEC_w	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q5W5X9|TTC23_HUMAN	44.4	1L6N_A	4Y6W_A	6ICZ_Z	6ID1_I
+sp|P04591|GAG_HV1H2	sp|Q659C4|LAR1B_HUMAN	44.4	1L6N_A	5V4R_B	6ICZ_Z	4F7U_A
+sp|Q68CQ4|DIEXF_HUMAN	sp|P04591|GAG_HV1H2	44.4	6H57_A	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q68D06|SLN13_HUMAN	44.4	1L6N_A	5YD0_B	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|Q6P5Q4|LMOD2_HUMAN	44.4	1L6N_A	5WFN_C	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q6PKG0|LARP1_HUMAN	44.4	1L6N_A	5V4R_B	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|Q6T311|ARL9_HUMAN	44.4	1L6N_A	4M9Q_B	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|Q6XE24|RBMS3_HUMAN	44.4	1L6N_A	5X8P_v	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q6ZRS2|SRCAP_HUMAN	44.4	1L6N_A	6IGM_H	6ICZ_Z	6S8Q_B
+sp|Q7Z333|SETX_HUMAN	sp|P04591|GAG_HV1H2	44.4	5MZN_A	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q7Z6M4|MTEF4_HUMAN	44.4	1L6N_A	4FP9_H	6ICZ_Z	6ID1_P
+sp|P04591|GAG_HV1H2	sp|Q7Z7L1|SLN11_HUMAN	44.4	1L6N_A	5YD0_B	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|Q86U42|PABP2_HUMAN	44.4	1L6N_A	2M70_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q86V81|THOC4_HUMAN	44.4	1L6N_A	2F3J_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q86YS6|RAB43_HUMAN	44.4	1L6N_A	6JMG_A	6ICZ_Z	6ID1_C
+sp|Q8IX12|CCAR1_HUMAN	sp|P04591|GAG_HV1H2	44.4	1WFQ_A	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q8IY67|RAVR1_HUMAN	44.4	1L6N_A	3SMZ_A	6ICZ_Z	2CQB_A
+sp|Q8IYB3|SRRM1_HUMAN	sp|P04591|GAG_HV1H2	44.4	6FF4_Y	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|Q8IYF3|TEX11_HUMAN	sp|P04591|GAG_HV1H2	44.4	4GYO_B	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q8N2M8|CLASR_HUMAN	44.4	1L6N_A	6QX9_K	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q8N3X1|FNBP4_HUMAN	44.4	1L6N_A	2JX8_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q8N684|CPSF7_HUMAN	44.4	1L6N_A	3Q2T_C	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q8N8V2|GBP7_HUMAN	44.4	1L6N_A	1F5N_A	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|Q8N9W6|BOLL_HUMAN	44.4	1L6N_A	2N6D_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q8NAF0|ZN579_HUMAN	44.4	1L6N_A	5V3J_F	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|Q8NDV7|TNR6A_HUMAN	44.4	1L6N_A	2WBR_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q8NFZ0|FBH1_HUMAN	44.4	1L6N_A	1PJR_A	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|Q8NG08|HELB_HUMAN	44.4	1L6N_A	3GP8_A	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|Q8TDI0|CHD5_HUMAN	44.4	1L6N_A	6G0L_W	6ICZ_Z	6S8Q_B
+sp|P04591|GAG_HV1H2	sp|Q8TF01|PNISR_HUMAN	44.4	1L6N_A	6QX9_K	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q8TF30|WHAMM_HUMAN	44.4	1L6N_A	5X1G_C	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q8WXU2|DAAF4_HUMAN	44.4	1L6N_A	2JKI_U	6ICZ_Z	6ID1_I
+sp|P04591|GAG_HV1H2	sp|Q92624|APBP2_HUMAN	44.4	1L6N_A	6EJN_A	6ICZ_Z	6ID1_I
+sp|P04591|GAG_HV1H2	sp|Q92771|DDX12_HUMAN	44.4	1L6N_A	5OQM_0	6ICZ_Z	6S8Q_B
+sp|P04591|GAG_HV1H2	sp|Q92794|KAT6A_HUMAN	44.4	1L6N_A	2RC4_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q92900|RENT1_HUMAN	44.4	1L6N_A	2WJY_A	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|Q92904|DAZL_HUMAN	44.4	1L6N_A	2XS2_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q96FC9|DDX11_HUMAN	44.4	1L6N_A	5OQM_0	6ICZ_Z	6S8Q_B
+sp|P04591|GAG_HV1H2	sp|Q96IZ5|RBM41_HUMAN	44.4	1L6N_A	2CPX_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q96K80|ZC3HA_HUMAN	44.4	1L6N_A	6FBS_C	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q96LT9|RNPC3_HUMAN	44.4	1L6N_A	5OBN_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q96PN6|ADCYA_HUMAN	44.4	1L6N_A	4CLY_A	6ICZ_Z	6S8Q_B
+sp|P04591|GAG_HV1H2	sp|Q96T58|MINT_HUMAN	44.4	1L6N_A	1OW1_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q99459|CDC5L_HUMAN	44.4	1L6N_A	6ID0_L	6ICZ_Z	6ID1_L
+sp|P04591|GAG_HV1H2	sp|Q99700|ATX2_HUMAN	44.4	1L6N_A	6EOJ_D	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|Q9BRZ2|TRI56_HUMAN	44.4	1L6N_A	6H3A_F	6ICZ_Z	5MQF_F
+sp|P04591|GAG_HV1H2	sp|Q9BU76|MMTA2_HUMAN	44.4	1L6N_A	6FF4_S	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q9BUJ2|HNRL1_HUMAN	44.4	1L6N_A	5TAP_E	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9BX63|FANCJ_HUMAN	44.4	1L6N_A	5OQM_0	6ICZ_Z	6S8Q_B
+sp|P04591|GAG_HV1H2	sp|Q9BXF3|CECR2_HUMAN	44.4	1L6N_A	3NXB_A	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q9BXT6|M10L1_HUMAN	44.4	1L6N_A	2XZL_A	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|Q9BY77|PDIP3_HUMAN	44.4	1L6N_A	2AYM_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9BYK8|HELZ2_HUMAN	44.4	1L6N_A	2XZL_A	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|Q9BZB8|CPEB1_HUMAN	44.4	1L6N_A	2M13_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9GZT3|SLIRP_HUMAN	44.4	1L6N_A	6NTY_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q9H0L4|CSTFT_HUMAN	44.4	1L6N_A	2L9B_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q9H223|EHD4_HUMAN	44.4	1L6N_A	5MTV_A	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|Q9H307|PININ_HUMAN	44.4	1L6N_A	6UXW_B	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q9H4M9|EHD1_HUMAN	44.4	1L6N_A	2QPT_A	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|Q9H611|PIF1_HUMAN	44.4	1L6N_A	6HPH_A	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|Q9H6X2|ANTR1_HUMAN	44.4	1L6N_A	3N2N_C	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9H7Z3|NRDE2_HUMAN	44.4	1L6N_A	6IEH_A	6ICZ_Z	6ID1_I
+sp|P04591|GAG_HV1H2	sp|Q9H875|PKRI1_HUMAN	44.4	1L6N_A	6ICZ_X	6ICZ_Z	6ICZ_X
+sp|Q9H9A5|CNO10_HUMAN	sp|P04591|GAG_HV1H2	44.4	3HYM_B	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q9H9J4|UBP42_HUMAN	44.4	1L6N_A	6TBM_Q	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q9HAQ2|KIF9_HUMAN	44.4	1L6N_A	3NWN_A	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|Q9HB90|RRAGC_HUMAN	44.4	1L6N_A	6ULG_G	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|Q9HCE1|MOV10_HUMAN	44.4	1L6N_A	2XZL_A	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|Q9HCJ0|TNR6C_HUMAN	44.4	1L6N_A	2DKL_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9HCJ3|RAVR2_HUMAN	44.4	1L6N_A	3VF0_B	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q9NP73|ALG13_HUMAN	44.4	1L6N_A	4BOU_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9NPG3|UBN1_HUMAN	44.4	1L6N_A	6ICZ_U	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q9NQ29|LUC7L_HUMAN	44.4	1L6N_A	5ZWN_Y	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q9NR31|SAR1A_HUMAN	44.4	1L6N_A	1F6B_B	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|Q9NR90|DAZ3_HUMAN	44.4	1L6N_A	2XS7_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q9NTZ6|RBM12_HUMAN	44.4	1L6N_A	5TF6_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q9NVW2|RNF12_HUMAN	44.4	1L6N_A	6W7Z_B	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|Q9NW13|RBM28_HUMAN	44.4	1L6N_A	6R5K_H	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q9NX07|TSAP1_HUMAN	44.4	1L6N_A	6N7R_F	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9NXE8|CWC25_HUMAN	44.4	1L6N_A	5YZG_X	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q9NXH9|TRM1_HUMAN	44.4	1L6N_A	3AXT_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9NYF8|BCLF1_HUMAN	44.4	1L6N_A	2HYI_D	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q9NYH9|UTP6_HUMAN	44.4	1L6N_A	6ND4_P	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q9NYR9|KBRS2_HUMAN	44.4	1L6N_A	3RWO_A	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|Q9NYS0|KBRS1_HUMAN	44.4	1L6N_A	3RWO_A	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|Q9NZ71|RTEL1_HUMAN	44.4	1L6N_A	5OQM_0	6ICZ_Z	6S8Q_B
+sp|P04591|GAG_HV1H2	sp|Q9NZI8|IF2B1_HUMAN	44.4	1L6N_A	3N89_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9NZN3|EHD3_HUMAN	44.4	1L6N_A	2QPT_A	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|Q9NZN4|EHD2_HUMAN	44.4	1L6N_A	2QPT_A	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|Q9P2E3|ZNFX1_HUMAN	44.4	1L6N_A	2XZO_A	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|Q9P2G3|KLH14_HUMAN	44.4	1L6N_A	4YY8_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9P2K5|MYEF2_HUMAN	44.4	1L6N_A	3VF0_B	6ICZ_Z	2CQB_A
+sp|Q9P2M1|LR2BP_HUMAN	sp|P04591|GAG_HV1H2	44.4	6ONW_B	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q9UBB5|MBD2_HUMAN	44.4	1L6N_A	6ACV_A	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|Q9UBV2|SE1L1_HUMAN	44.4	1L6N_A	6VK3_A	6ICZ_Z	6ID1_I
+sp|P04591|GAG_HV1H2	sp|Q9UGP8|SEC63_HUMAN	44.4	1L6N_A	6N3Q_D	6ICZ_Z	6S8Q_B
+sp|P04591|GAG_HV1H2	sp|Q9UH77|KLHL3_HUMAN	44.4	1L6N_A	4YY8_A	6ICZ_Z	6ID0_W
+sp|P04591|GAG_HV1H2	sp|Q9UK53|ING1_HUMAN	44.4	1L6N_A	2JMI_A	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q9UKJ3|GPTC8_HUMAN	44.4	1L6N_A	5NRL_L	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q9UKV3|ACINU_HUMAN	44.4	1L6N_A	6QX9_1	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9UKY1|ZHX1_HUMAN	44.4	1L6N_A	2YS9_A	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|Q9UL25|RAB21_HUMAN	44.4	1L6N_A	6JMG_A	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|Q9UN86|G3BP2_HUMAN	44.4	1L6N_A	5FW5_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q9UNX4|WDR3_HUMAN	44.4	1L6N_A	5WLC_L	6ICZ_Z	5MQF_F
+sp|P04591|GAG_HV1H2	sp|Q9UNY4|TTF2_HUMAN	44.4	1L6N_A	6GEN_M	6ICZ_Z	6S8Q_B
+sp|P04591|GAG_HV1H2	sp|Q9UPT6|JIP3_HUMAN	44.4	1L6N_A	6EJN_D	6ICZ_Z	6ID0_W
+sp|P04591|GAG_HV1H2	sp|Q9UPZ3|HPS5_HUMAN	44.4	1L6N_A	6DLP_A	6ICZ_Z	6ID1_T
+sp|Q9Y2G9|SBNO2_HUMAN	sp|P04591|GAG_HV1H2	44.4	1Z6A_A	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q9Y4A5|TRRAP_HUMAN	44.4	1L6N_A	6TB4_L	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9Y4B4|ARIP4_HUMAN	44.4	1L6N_A	6FML_G	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|Q9Y4C8|RBM19_HUMAN	44.4	1L6N_A	6R5K_D	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9Y520|PRC2C_HUMAN	44.4	1L6N_A	6MZL_C	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q9Y6B6|SAR1B_HUMAN	44.4	1L6N_A	1F6B_B	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|Q9Y6E2|BZW2_HUMAN	44.4	1L6N_A	3L6A_A	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	tr|A0A2R8Y4L2|A0A2R8Y4L2_HUMAN	44.4	1L6N_A	5HO4_A	6ICZ_Z	2CQB_A
+sp|P04601|NEF_HV1H2	sp|A0A0A6YYC5|TVA14_HUMAN	44.4	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0B4J1V6|HV373_HUMAN	44.4	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0K0K1G6|TVBJ3_HUMAN	44.4	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q06787|FMR1_HUMAN	44.4	3MI9_C	4QW2_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A075B6I4|LVX54_HUMAN	44.4	2X7L_R	6ULC_L	2X7L_R	5I8O_H
+sp|Q15916|ZBTB6_HUMAN	sp|P69723|VIF_HV1H2	44.4	3W5K_B	4N9F_b	6P59_Z	6P59_B
+sp|O43395|PRPF3_HUMAN	sp|P04591|GAG_HV1H2	44.4	6QW6_4	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|O95758|PTBP3_HUMAN	sp|P04591|GAG_HV1H2	44.4	4N0T_A	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P30988|CALCR_HUMAN	sp|P04578|ENV_HV1H2	44.4	6NIY_R	6PWU_E	6MEO_B	3J70_P
+sp|P31943|HNRH1_HUMAN	sp|P04591|GAG_HV1H2	44.4	6DHS_D	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P55795|HNRH2_HUMAN	sp|P04591|GAG_HV1H2	44.4	6DHS_D	1L6N_A	6ICZ_w	6ICZ_Z
+sp|Q6NXG1|ESRP1_HUMAN	sp|P04591|GAG_HV1H2	44.4	3CM6_B	1L6N_A	6ICZ_w	6ICZ_Z
+sp|Q9HC52|CBX8_HUMAN	sp|P04591|GAG_HV1H2	44.4	3GS2_B	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|Q9UKA9|PTBP2_HUMAN	sp|P04591|GAG_HV1H2	44.4	4N0T_A	1L6N_A	6ICZ_w	6ICZ_Z
+sp|Q9Y2W1|TR150_HUMAN	sp|P04585|POL_HV1H2	44.4	2HYI_D	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|Q9Y2W1|TR150_HUMAN	sp|P04591|GAG_HV1H2	44.4	2HYI_D	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04578|ENV_HV1H2	sp|P01850|TRBC1_HUMAN	44.3	6PWU_E	6U07_B	6FY1_G	4HJJ_H
+sp|P04578|ENV_HV1H2	tr|A0A191URJ7|A0A191URJ7_HUMAN	44.3	6PWU_E	1B6U_A	6UM5_E	6CBP_A
+sp|P04585|POL_HV1H2	sp|P46379|BAG6_HUMAN	44.3	1L6N_A	4X86_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P46379|BAG6_HUMAN	44.3	1L6N_A	4X86_B	6BK8_O	6J6G_A
+sp|P04618|REV_HV1H2	sp|P24071|FCAR_HUMAN	44.3	2X7L_R	1UCT_A	5DHX_C	6CVK_A
+sp|P69723|VIF_HV1H2	sp|Q9HAC8|UBTD1_HUMAN	44.3	4N9F_b	2KSN_A	4N9F_b	2MA9_B
+sp|P69726|VPR_HV1H2	sp|Q15493|RGN_HUMAN	44.3	1ESX_A	4GNA_B	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|A0A0J9YX75|TVB69_HUMAN	44.2	6PWU_E	5E9D_E	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	tr|A0A1W2PQF6|A0A1W2PQF6_HUMAN	44.2	6PWU_E	1NKR_A	6UM5_E	6CBP_A
+sp|P04585|POL_HV1H2	sp|A0A1B0GX51|TVB78_HUMAN	44.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|O76036|NCTR1_HUMAN	sp|P04585|POL_HV1H2	44.2	1P6F_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|P13797|PLST_HUMAN	44.2	1L6N_A	1PXY_B	2MGU_M	5DOW_A
+sp|P43632|KI2S4_HUMAN	sp|P04585|POL_HV1H2	44.2	1NKR_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q8N5F7|NKAP_HUMAN	44.2	1L6N_A	6QDV_Z	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q9BYJ9|YTHD1_HUMAN	44.2	1L6N_A	4RCJ_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9NQA3|WASH6_HUMAN	44.2	1L6N_A	4JHD_F	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9UJS0|CMC2_HUMAN	44.2	1L6N_A	6GCI_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A0A1B0GX51|TVB78_HUMAN	44.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P13797|PLST_HUMAN	44.2	1L6N_A	1PXY_B	2MGU_M	5DOW_A
+sp|Q7Z6A9|BTLA_HUMAN	sp|P04591|GAG_HV1H2	44.2	5OR7_C	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|Q8N5F7|NKAP_HUMAN	44.2	1L6N_A	6QDV_Z	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q9BYJ9|YTHD1_HUMAN	44.2	1L6N_A	4RCJ_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9NQA3|WASH6_HUMAN	44.2	1L6N_A	4JHD_F	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9UJS0|CMC2_HUMAN	44.2	1L6N_A	6GCI_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|Q6UXN2|TRML4_HUMAN	44.2	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q86XA9|HTR5A_HUMAN	44.2	3TB8_A	5VCH_A	6CRI_Z	6CRI_R
+sp|P04601|NEF_HV1H2	sp|Q8WXH5|SOCS4_HUMAN	44.2	3TB8_A	2N34_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A0B4J249|TVA5_HUMAN	44.2	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0K0K1D8|TVB61_HUMAN	44.2	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0JD36|TRDV2_HUMAN	44.2	2X7L_R	5WB1_A	2X7L_R	5I8O_L
+sp|P05919|VPU_HV1H2	sp|Q8NDA8|MROH1_HUMAN	44.2	2N28_A	6BCU_A	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q9P1A2|PP4RL_HUMAN	44.2	2N28_A	3VWA_A	4P6Z_V	4P6Z_B
+sp|P69723|VIF_HV1H2	sp|Q71RG4|TMUB2_HUMAN	44.2	4N9F_b	1WIA_A	4N9F_b	2MA9_B
+sp|O76036|NCTR1_HUMAN	sp|P04591|GAG_HV1H2	44.2	1P6F_A	1L6N_A	5T70_G	3GV2_A
+sp|P07204|TRBM_HUMAN	sp|P04578|ENV_HV1H2	44.2	1DX5_K	6PWU_E	1QO3_C	3J70_P
+sp|P43632|KI2S4_HUMAN	sp|P04591|GAG_HV1H2	44.2	1NKR_A	1L6N_A	5T70_G	3GV2_A
+sp|Q13057|COASY_HUMAN	sp|P04601|NEF_HV1H2	44.2	2F6R_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q9NPG1|FZD3_HUMAN	sp|P04578|ENV_HV1H2	44.2	5V56_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|O00401|WASL_HUMAN	44.1	1L6N_A	6UHC_I	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|P0CE71|OCM2_HUMAN	44.1	1L6N_A	3FS7_G	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q6PEV8|F199X_HUMAN	44.1	1L6N_A	6BGH_A	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	sp|Q8N3F8|MILK1_HUMAN	44.1	1L6N_A	5SZJ_B	6UCA_B	6UCA_D
+sp|P04591|GAG_HV1H2	sp|O00401|WASL_HUMAN	44.1	1L6N_A	6UHC_I	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|P0CE71|OCM2_HUMAN	44.1	1L6N_A	3FS7_G	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q6PEV8|F199X_HUMAN	44.1	1L6N_A	6BGH_A	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|Q8N3F8|MILK1_HUMAN	44.1	1L6N_A	5SZJ_B	6UCA_D	6UCA_B
+sp|P04601|NEF_HV1H2	sp|A6NJW9|CD8B2_HUMAN	44.1	3TB8_A	6J8J_B	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9UFD9|RIM3A_HUMAN	44.1	3TB8_A	2CSP_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A0B4J272|TVA24_HUMAN	44.1	2X7L_R	1YJD_C	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|P04435|TVB79_HUMAN	44.1	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P05362|ICAM1_HUMAN	44.1	2X7L_R	1Z7Z_I	5DHX_C	6CVK_A
+sp|P04585|POL_HV1H2	sp|A0A1B0GTU1|ZC11B_HUMAN	44.0	1L6N_A	6EOJ_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|O75564|JERKY_HUMAN	44.0	1L6N_A	1IUF_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|O75746|CMC1_HUMAN	44.0	1L6N_A	4C9H_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P0CE72|ONCO_HUMAN	44.0	1L6N_A	3FS7_G	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q02548|PAX5_HUMAN	44.0	1L6N_A	1MDM_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q02962|PAX2_HUMAN	44.0	1L6N_A	1MDM_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q06710|PAX8_HUMAN	44.0	1L6N_A	2K27_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q17RP2|TIGD6_HUMAN	44.0	1L6N_A	1IUF_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q3ZCU0|GVQW3_HUMAN	44.0	1L6N_A	4U7B_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q4W5G0|TIGD2_HUMAN	44.0	1L6N_A	1IUF_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q6NT04|TIGD7_HUMAN	44.0	1L6N_A	1IUF_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q7Z3K3|POGZ_HUMAN	44.0	1L6N_A	5V3J_E	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q8IY51|TIGD4_HUMAN	44.0	1L6N_A	1IUF_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q96MW7|TIGD1_HUMAN	44.0	1L6N_A	4U7B_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q9H0J9|PAR12_HUMAN	44.0	1L6N_A	3U9G_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9NZQ3|SPN90_HUMAN	44.0	1L6N_A	6DEE_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9P215|POGK_HUMAN	44.0	1L6N_A	1IUF_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q9Y4A0|JERKL_HUMAN	44.0	1L6N_A	1IUF_A	4U7B_A	4U7B_A
+sp|P04591|GAG_HV1H2	sp|A0A1B0GTU1|ZC11B_HUMAN	44.0	1L6N_A	6EOJ_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|O75746|CMC1_HUMAN	44.0	1L6N_A	4C9H_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P0CE72|ONCO_HUMAN	44.0	1L6N_A	3FS7_G	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9H0J9|PAR12_HUMAN	44.0	1L6N_A	3U9G_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9NZQ3|SPN90_HUMAN	44.0	1L6N_A	6DEE_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	tr|A0A087WYE8|A0A087WYE8_HUMAN	44.0	1L6N_A	3U1S_H	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J1U7|HV601_HUMAN	44.0	3TB8_A	5WTS_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A075B6N2|TVBT1_HUMAN	44.0	2X7L_R	2WBJ_D	2X7L_R	5I8O_H
+sp|A0A075B6N4|TVBY1_HUMAN	sp|P04578|ENV_HV1H2	43.9	1YJD_C	6PWU_E	6UDK_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|Q14952|KI2S3_HUMAN	43.9	6PWU_E	3VH8_H	3U2S_C	5N2K_F
+sp|P04578|ENV_HV1H2	sp|Q95460|HMR1_HUMAN	43.9	6PWU_E	6PUJ_C	5ESV_G	5KG9_H
+sp|A0A0B4J268|TVA4_HUMAN	sp|P04585|POL_HV1H2	43.9	6AT6_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|A0A599|TVB56_HUMAN	43.9	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P31942|HNRH3_HUMAN	sp|P04585|POL_HV1H2	43.9	6DHS_B	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q8IZL2|MAML2_HUMAN	43.9	1L6N_A	2F8X_M	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q92777|SYN2_HUMAN	43.9	1L6N_A	1PK8_C	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|A0A599|TVB56_HUMAN	43.9	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8IZL2|MAML2_HUMAN	43.9	1L6N_A	2F8X_M	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q92777|SYN2_HUMAN	43.9	1L6N_A	1PK8_C	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q96S86|HPLN3_HUMAN	43.9	1L6N_A	2PF5_B	5O2U_C	5O2U_D
+sp|P04601|NEF_HV1H2	sp|P13611|CSPG2_HUMAN	43.9	3TB8_A	2N40_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q6UXY1|BI2L2_HUMAN	43.9	3TB8_A	3OK8_A	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|Q14643|ITPR1_HUMAN	43.9	3MI9_C	6MU2_B	3MI9_C	2PK2_B
+sp|P69723|VIF_HV1H2	sp|Q504T8|MIDN_HUMAN	43.9	4N9F_b	1WM2_A	4N9F_b	2MA9_B
+sp|P69723|VIF_HV1H2	sp|Q99933|BAG1_HUMAN	43.9	4N9F_b	4HWI_B	4N9F_b	2MA9_B
+sp|B9A064|IGLL5_HUMAN	sp|P04601|NEF_HV1H2	43.9	6FIB_C	3TB8_A	5XOV_H	3TB8_A
+sp|P31942|HNRH3_HUMAN	sp|P04591|GAG_HV1H2	43.9	6DHS_B	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P98153|IDD_HUMAN	sp|P04578|ENV_HV1H2	43.9	3T3A_B	6PWU_E	1QO3_C	3J70_P
+sp|Q13467|FZD5_HUMAN	sp|P04578|ENV_HV1H2	43.9	5V56_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q86X29|LSR_HUMAN	43.8	6PWU_E	5XSY_B	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|O75152|ZC11A_HUMAN	43.8	1L6N_A	6EOJ_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P07384|CAN1_HUMAN	43.8	1L6N_A	1QXP_B	2MGU_M	5DOW_A
+sp|Q14954|KI2S1_HUMAN	sp|P04585|POL_HV1H2	43.8	1B6U_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q96HR8|NAF1_HUMAN	43.8	1L6N_A	2V3M_E	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|O75152|ZC11A_HUMAN	43.8	1L6N_A	6EOJ_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P07384|CAN1_HUMAN	43.8	1L6N_A	1QXP_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q96HR8|NAF1_HUMAN	43.8	1L6N_A	2V3M_E	6ICZ_Z	6ICZ_U
+sp|P04601|NEF_HV1H2	sp|A0A075B6W5|TVA23_HUMAN	43.8	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH27|TRGV8_HUMAN	43.8	3TB8_A	5I0Z_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0JD37|TRDV3_HUMAN	43.8	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P05919|VPU_HV1H2	sp|Q86XA9|HTR5A_HUMAN	43.8	2N28_A	5VCH_A	4P6Z_V	4P6Z_G
+sp|A6NI73|LIRA5_HUMAN	sp|P04585|POL_HV1H2	43.8	2D3V_A	1L6N_A	5T70_G	3GV2_A
+sp|A6NI73|LIRA5_HUMAN	sp|P04591|GAG_HV1H2	43.8	2D3V_A	1L6N_A	5T70_G	3GV2_A
+sp|Q14954|KI2S1_HUMAN	sp|P04591|GAG_HV1H2	43.8	1B6U_A	1L6N_A	5T70_G	3GV2_A
+sp|Q96A28|SLAF9_HUMAN	sp|P04591|GAG_HV1H2	43.8	3ALW_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q9UQF0|SYCY1_HUMAN	43.7	6PWU_E	4JF3_B	6PWU_E	6PWU_E
+sp|P04585|POL_HV1H2	sp|O75400|PR40A_HUMAN	43.7	1L6N_A	6N7P_J	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|P24468|COT2_HUMAN	43.7	1L6N_A	3DZY_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q86X29|LSR_HUMAN	43.7	1L6N_A	5XSY_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q9BUY7|EFC11_HUMAN	43.7	1L6N_A	2OBH_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9H6R6|ZDHC6_HUMAN	43.7	1L6N_A	6BML_B	6UCA_B	6UCA_D
+tr|A0A0G2JQ47|A0A0G2JQ47_HUMAN	sp|P04585|POL_HV1H2	43.7	1B6U_A	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|O75400|PR40A_HUMAN	43.7	1L6N_A	6N7P_J	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|P24468|COT2_HUMAN	43.7	1L6N_A	3DZY_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q86X29|LSR_HUMAN	43.7	1L6N_A	5XSY_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q9BUY7|EFC11_HUMAN	43.7	1L6N_A	2OBH_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9H6R6|ZDHC6_HUMAN	43.7	1L6N_A	6BML_B	6UCA_D	6UCA_B
+sp|P04601|NEF_HV1H2	sp|P27986|P85A_HUMAN	43.7	3TB8_A	5M6U_B	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A075B6I0|LV861_HUMAN	43.7	2X7L_R	6ULC_L	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	tr|A0A075B6L6|A0A075B6L6_HUMAN	43.7	2X7L_R	5E9D_J	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A0A0MS01|A0A0A0MS01_HUMAN	43.7	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P55082|MFAP3_HUMAN	sp|P04591|GAG_HV1H2	43.7	6J8H_C	1L6N_A	5T70_G	3GV2_A
+tr|A0A0G2JQ47|A0A0G2JQ47_HUMAN	sp|P04591|GAG_HV1H2	43.7	1B6U_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|A0A0B4J244|TVA3_HUMAN	43.6	1L6N_A	1MWA_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O15504|NUP42_HUMAN	43.6	1L6N_A	6B4F_C	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|P15863|PAX1_HUMAN	43.6	1L6N_A	6PAX_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q6ZNA4|RN111_HUMAN	43.6	1L6N_A	5LG0_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9H3P7|GCP60_HUMAN	43.6	1L6N_A	5LZ1_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J244|TVA3_HUMAN	43.6	1L6N_A	1MWA_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O15504|NUP42_HUMAN	43.6	1L6N_A	6B4F_C	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q6ZNA4|RN111_HUMAN	43.6	1L6N_A	5LG0_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9H3P7|GCP60_HUMAN	43.6	1L6N_A	5LZ1_A	6BK8_O	6J6G_A
+sp|A0A1B0GX31|TVB76_HUMAN	sp|P04601|NEF_HV1H2	43.6	1YJD_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04601|NEF_HV1H2	sp|Q5SQ64|LY66F_HUMAN	43.6	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|Q7Z2Y8|GVIN1_HUMAN	sp|P04601|NEF_HV1H2	43.6	2D4H_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q8TE82|S3TC1_HUMAN	43.6	3TB8_A	4WND_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9NP99|TREM1_HUMAN	43.6	3TB8_A	1Q8M_C	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0A6YYJ7|TVA83_HUMAN	43.6	2X7L_R	1G6R_C	2X7L_R	5I8O_H
+sp|P04578|ENV_HV1H2	sp|A0A087WV62|TVB16_HUMAN	43.5	6PWU_E	5E9D_J	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	tr|A0A0G2JNG1|A0A0G2JNG1_HUMAN	43.5	6PWU_E	1B6U_A	3U2S_C	5N2K_F
+sp|P04585|POL_HV1H2	sp|A0A1B0GX95|TVB74_HUMAN	43.5	1L6N_A	1YJD_C	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|Q6P1N0|C2D1A_HUMAN	43.5	1L6N_A	6EI6_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q96SI9|STRBP_HUMAN	43.5	1L6N_A	5DV7_C	3NYB_B	3NYB_A
+sp|P04585|POL_HV1H2	sp|Q9BRC7|PLCD4_HUMAN	43.5	1L6N_A	2ZKM_X	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q6P1N0|C2D1A_HUMAN	43.5	1L6N_A	6EI6_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q96SI9|STRBP_HUMAN	43.5	1L6N_A	5DV7_C	3NYB_B	3NYB_A
+sp|P04591|GAG_HV1H2	sp|Q9BRC7|PLCD4_HUMAN	43.5	1L6N_A	2ZKM_X	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J244|TVA3_HUMAN	43.5	3TB8_A	1MWA_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q6PJG6|BRAT1_HUMAN	43.5	3TB8_A	4LAC_A	6CRI_Z	6CRI_I
+sp|P04601|NEF_HV1H2	sp|Q9C0B7|TNG6_HUMAN	43.5	3TB8_A	3VWA_B	6OWT_N	6OWT_A
+sp|P05919|VPU_HV1H2	sp|Q6AI08|HEAT6_HUMAN	43.5	2N28_A	6S47_B	4P6Z_V	4P6Z_G
+sp|P69726|VPR_HV1H2	sp|Q13094|LCP2_HUMAN	43.5	1ESX_A	2EAP_A	4Z8L_B	4Z8L_F
+sp|Q08722|CD47_HUMAN	sp|P04578|ENV_HV1H2	43.4	2JJS_D	6PWU_E	6UDK_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A0A6YYK6|TVA16_HUMAN	43.4	1L6N_A	2J8U_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A597|TVB55_HUMAN	43.4	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P01732|CD8A_HUMAN	43.4	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q14671|PUM1_HUMAN	43.4	1L6N_A	5YKI_A	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q86YM7|HOME1_HUMAN	43.4	1L6N_A	1I2H_A	6ICZ_Z	6ID1_K
+sp|P04585|POL_HV1H2	sp|Q8IVQ6|ZDH21_HUMAN	43.4	1L6N_A	6BML_B	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q8IXZ2|ZC3H3_HUMAN	43.4	1L6N_A	6EOJ_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9NS56|TOPRS_HUMAN	43.4	1L6N_A	5YZG_s	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|A0A0A6YYK6|TVA16_HUMAN	43.4	1L6N_A	2J8U_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A597|TVB55_HUMAN	43.4	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P01732|CD8A_HUMAN	43.4	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q14671|PUM1_HUMAN	43.4	1L6N_A	5YKI_A	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q86YM7|HOME1_HUMAN	43.4	1L6N_A	1I2H_A	6ICZ_Z	6ID1_K
+sp|P04591|GAG_HV1H2	sp|Q8IVQ6|ZDH21_HUMAN	43.4	1L6N_A	6BML_B	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q8IXZ2|ZC3H3_HUMAN	43.4	1L6N_A	6EOJ_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9NS56|TOPRS_HUMAN	43.4	1L6N_A	5YZG_s	6ICZ_Z	6ICZ_U
+sp|P04618|REV_HV1H2	sp|A0A584|TVBK2_HUMAN	43.4	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A5B7|TVB29_HUMAN	43.4	2X7L_R	4R0L_D	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P25189|MYP0_HUMAN	43.4	2X7L_R	6AGF_B	6CF2_F	5DHY_A
+sp|P05919|VPU_HV1H2	sp|Q9UPM8|AP4E1_HUMAN	43.4	2N28_A	6OWT_A	4P6Z_V	4P6Z_B
+sp|Q86UT6|NLRX1_HUMAN	sp|P04601|NEF_HV1H2	43.4	5IRM_C	3TB8_A	6CRI_L	6CRI_Z
+sp|Q8NHJ6|LIRB4_HUMAN	sp|P04601|NEF_HV1H2	43.4	3P2T_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q9P0V8|SLAF8_HUMAN	sp|P04578|ENV_HV1H2	43.3	6JXR_n	6PWU_E	6UDK_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A1B0GX78|TVBL5_HUMAN	43.3	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P43626|KI2L1_HUMAN	sp|P04585|POL_HV1H2	43.3	1B6U_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|P55771|PAX9_HUMAN	43.3	1L6N_A	6PAX_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q8N5M4|TTC9C_HUMAN	43.3	1L6N_A	1P5Q_B	6BK8_O	6J6H_v
+sp|P04585|POL_HV1H2	sp|Q9H6U6|BCAS3_HUMAN	43.3	1L6N_A	5LTG_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9NVM6|DJC17_HUMAN	43.3	1L6N_A	5Y88_T	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|A0A1B0GX78|TVBL5_HUMAN	43.3	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0JD32|TV382_HUMAN	43.3	1L6N_A	5YXU_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8N5M4|TTC9C_HUMAN	43.3	1L6N_A	1P5Q_B	6BK8_O	6J6H_v
+sp|P04591|GAG_HV1H2	sp|Q96D42|HAVR1_HUMAN	43.3	1L6N_A	5DZO_A	5O2U_C	5O2U_B
+sp|P04591|GAG_HV1H2	sp|Q9H6U6|BCAS3_HUMAN	43.3	1L6N_A	5LTG_B	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9NVM6|DJC17_HUMAN	43.3	1L6N_A	5Y88_T	6ICZ_Z	6ID1_O
+sp|P04601|NEF_HV1H2	sp|A0A075B6I0|LV861_HUMAN	43.3	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q13387|JIP2_HUMAN	43.3	3TB8_A	6ITU_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A0B4J1V7|HV781_HUMAN	43.3	2X7L_R	3U1S_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0K0K1B3|TVB30_HUMAN	43.3	2X7L_R	1G6R_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P42081|CD86_HUMAN	43.3	2X7L_R	5OR7_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A087X0K7|A0A087X0K7_HUMAN	43.3	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P43626|KI2L1_HUMAN	sp|P04591|GAG_HV1H2	43.3	1B6U_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|P17655|CAN2_HUMAN	43.2	1L6N_A	1KFU_L	2MGU_M	5DOW_A
+sp|P43631|KI2S2_HUMAN	sp|P04585|POL_HV1H2	43.2	1B6U_A	1L6N_A	5T70_G	3GV2_A
+sp|Q5VZ19|TDR10_HUMAN	sp|P04585|POL_HV1H2	43.2	2E5J_A	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q6IE81|JADE1_HUMAN	43.2	1L6N_A	5DAH_B	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	tr|A0A075B6L6|A0A075B6L6_HUMAN	43.2	1L6N_A	5E9D_J	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P17655|CAN2_HUMAN	43.2	1L6N_A	1KFU_L	2MGU_M	5DOW_A
+sp|Q5VZ19|TDR10_HUMAN	sp|P04591|GAG_HV1H2	43.2	2E5J_A	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q6IE81|JADE1_HUMAN	43.2	1L6N_A	5DAH_B	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	tr|A0A075B6L6|A0A075B6L6_HUMAN	43.2	1L6N_A	5E9D_J	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A6NJZ7|RIM3C_HUMAN	43.2	3TB8_A	2CSP_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|A6NNM3|RIM3B_HUMAN	43.2	3TB8_A	2CSP_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|P16410|CTLA4_HUMAN	43.2	3TB8_A	5GGV_Y	4ORZ_B	5MZV_D
+sp|P05919|VPU_HV1H2	sp|O94973|AP2A2_HUMAN	43.2	2N28_A	6OWT_A	4P6Z_V	4P6Z_G
+sp|P69726|VPR_HV1H2	sp|Q9UPZ3|HPS5_HUMAN	43.2	1ESX_A	6DLP_A	5JK7_F	5JK7_E
+sp|A6BM72|MEG11_HUMAN	sp|P04585|POL_HV1H2	43.2	4XBM_B	1L6N_A	6CPL_A	2XXM_A
+sp|A6BM72|MEG11_HUMAN	sp|P04591|GAG_HV1H2	43.2	4XBM_B	1L6N_A	6CPL_A	2XXM_A
+sp|P43631|KI2S2_HUMAN	sp|P04591|GAG_HV1H2	43.2	1B6U_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A0B4J263|TVA39_HUMAN	43.1	6PWU_E	2CDE_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P06340|DOA_HUMAN	43.1	6PWU_E	2P24_A	5C0R_A	6U1T_L
+sp|P04578|ENV_HV1H2	sp|P43632|KI2S4_HUMAN	43.1	6PWU_E	1NKR_A	3U2S_C	5N2K_F
+sp|Q8WWV6|FCAMR_HUMAN	sp|P04578|ENV_HV1H2	43.1	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|P36956|SRBP1_HUMAN	43.1	1L6N_A	1AM9_C	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q0VF49|K2012_HUMAN	43.1	1L6N_A	2I1K_A	6ICZ_Z	6ID1_R
+sp|P04585|POL_HV1H2	sp|Q5JVL4|EFHC1_HUMAN	43.1	1L6N_A	6U42_7	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q8N5A5|ZGPAT_HUMAN	43.1	1L6N_A	4II1_A	6ICZ_Z	6ID1_O
+sp|Q9NQ25|SLAF7_HUMAN	sp|P04585|POL_HV1H2	43.1	3ALW_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	sp|P36956|SRBP1_HUMAN	43.1	1L6N_A	1AM9_C	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q0VF49|K2012_HUMAN	43.1	1L6N_A	2I1K_A	6ICZ_Z	6ID1_R
+sp|P04591|GAG_HV1H2	sp|Q5JVL4|EFHC1_HUMAN	43.1	1L6N_A	6U42_7	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8N5A5|ZGPAT_HUMAN	43.1	1L6N_A	4II1_A	6ICZ_Z	6ID1_O
+sp|P04601|NEF_HV1H2	sp|Q86WN1|FCSD1_HUMAN	43.1	3TB8_A	4DYL_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	tr|A0A0B4J2B6|A0A0B4J2B6_HUMAN	43.1	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q8WXS5|CCG8_HUMAN	43.1	3MI9_C	6QKC_I	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|P10321|HLAC_HUMAN	43.1	2X7L_R	6AT5_A	2X7L_R	5I8O_H
+sp|P69723|VIF_HV1H2	sp|Q15646|OASL_HUMAN	43.1	4N9F_b	4XQ7_A	4N9F_b	2MA9_B
+sp|Q13478|IL18R_HUMAN	sp|P04601|NEF_HV1H2	43.1	3WO3_H	3TB8_A	5XOV_H	3TB8_A
+sp|Q9NQ25|SLAF7_HUMAN	sp|P04591|GAG_HV1H2	43.1	3ALW_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|A0A0B4J266|TVA41_HUMAN	43.0	1L6N_A	4MNQ_D	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q13111|CAF1A_HUMAN	43.0	1L6N_A	1S4Z_C	6ICZ_Z	6ID1_R
+sp|P04585|POL_HV1H2	sp|Q6UXN2|TRML4_HUMAN	43.0	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q6ZU67|BEND4_HUMAN	43.0	1L6N_A	4L9U_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8TF64|GIPC3_HUMAN	43.0	1L6N_A	5V6B_A	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q9HCG8|CWC22_HUMAN	43.0	1L6N_A	6ICZ_V	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|A0A0B4J266|TVA41_HUMAN	43.0	1L6N_A	4MNQ_D	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q13111|CAF1A_HUMAN	43.0	1L6N_A	1S4Z_C	6ICZ_Z	6ID1_R
+sp|P04591|GAG_HV1H2	sp|Q6UXN2|TRML4_HUMAN	43.0	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q6ZU67|BEND4_HUMAN	43.0	1L6N_A	4L9U_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8TF64|GIPC3_HUMAN	43.0	1L6N_A	5V6B_A	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q9HCG8|CWC22_HUMAN	43.0	1L6N_A	6ICZ_V	6ICZ_Z	6ICZ_V
+sp|P04618|REV_HV1H2	sp|A0A0A6YYC5|TVA14_HUMAN	43.0	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0B4J235|TVAM2_HUMAN	43.0	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q8TDQ0|HAVR2_HUMAN	43.0	2X7L_R	5OR7_C	2X7L_R	5I8O_H
+sp|P15814|IGLL1_HUMAN	sp|P04601|NEF_HV1H2	43.0	6FIB_C	3TB8_A	5XOV_H	3TB8_A
+sp|Q9H461|FZD8_HUMAN	sp|P04578|ENV_HV1H2	43.0	5V57_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|A8MZ26|EFCB9_HUMAN	42.9	1L6N_A	4IEB_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P20073|ANXA7_HUMAN	42.9	1L6N_A	1AEI_D	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P40123|CAP2_HUMAN	42.9	1L6N_A	1K4Z_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9BRR8|GPTC1_HUMAN	42.9	1L6N_A	6RM9_C	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|A8MZ26|EFCB9_HUMAN	42.9	1L6N_A	4IEB_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P20073|ANXA7_HUMAN	42.9	1L6N_A	1AEI_D	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P40123|CAP2_HUMAN	42.9	1L6N_A	1K4Z_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9BRR8|GPTC1_HUMAN	42.9	1L6N_A	6RM9_C	6ICZ_Z	6ICZ_U
+sp|P04601|NEF_HV1H2	sp|A0A0A6YYJ7|TVA83_HUMAN	42.9	3TB8_A	1G6R_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH59|TVB54_HUMAN	42.9	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A1B0GX78|TVBL5_HUMAN	42.9	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|P52306|GDS1_HUMAN	42.9	2N28_A	5XGC_A	4P6Z_V	4P6Z_G
+sp|P69726|VPR_HV1H2	sp|Q75VX8|GARE2_HUMAN	42.9	1ESX_A	2DKZ_A	4Z8L_B	4Z8L_F
+sp|P40200|TACT_HUMAN	sp|P04601|NEF_HV1H2	42.9	6TYB_C	3TB8_A	5XOV_H	3TB8_A
+sp|P59542|T2R19_HUMAN	sp|P04578|ENV_HV1H2	42.9	6OSA_R	6PWU_E	6MEO_B	3J70_P
+sp|Q8IY18|SMC5_HUMAN	sp|P04601|NEF_HV1H2	42.9	6WG3_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|A0A0A6YYG2|TVB66_HUMAN	42.8	6PWU_E	5E9D_E	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A0A075B6N1|TVB19_HUMAN	42.8	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A5A2|TVB58_HUMAN	42.8	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O15117|FYB1_HUMAN	42.8	1L6N_A	2GTJ_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9HCE6|ARGAL_HUMAN	42.8	1L6N_A	6L30_A	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|Q9Y4K3|TRAF6_HUMAN	42.8	1L6N_A	1FLK_B	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|A0A075B6N1|TVB19_HUMAN	42.8	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0A6YYJ7|TVA83_HUMAN	42.8	1L6N_A	1G6R_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A5A2|TVB58_HUMAN	42.8	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O15117|FYB1_HUMAN	42.8	1L6N_A	2GTJ_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9HCE6|ARGAL_HUMAN	42.8	1L6N_A	6L30_A	6ICZ_Z	6ID1_T
+sp|P04591|GAG_HV1H2	sp|Q9Y4K3|TRAF6_HUMAN	42.8	1L6N_A	1FLK_B	6BK8_O	5MQ0_t
+sp|P04601|NEF_HV1H2	sp|O14594|NCAN_HUMAN	42.8	3TB8_A	2N40_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9UKJ1|PILRA_HUMAN	42.8	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0K0K1G6|TVBJ3_HUMAN	42.8	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q8IWT1|SCN4B_HUMAN	42.8	2X7L_R	5XSY_B	6CF2_F	5DHY_A
+sp|P04618|REV_HV1H2	tr|A0A0A0MS02|A0A0A0MS02_HUMAN	42.8	2X7L_R	6ULC_L	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	tr|A0A0B4J2B8|A0A0B4J2B8_HUMAN	42.8	2X7L_R	3U1S_H	2X7L_R	5I8O_H
+sp|P69723|VIF_HV1H2	sp|Q86UV5|UBP48_HUMAN	42.8	4N9F_b	6HEI_A	4N9F_b	2MA9_B
+sp|P04578|ENV_HV1H2	sp|A0A075B6N1|TVB19_HUMAN	42.7	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|A0A584|TVBK2_HUMAN	sp|P04578|ENV_HV1H2	42.7	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|Q9NTN9|SEM4G_HUMAN	42.7	6PWU_E	6QP7_B	2NY2_A	4HJJ_L
+sp|P04585|POL_HV1H2	sp|A7MCY6|TBKB1_HUMAN	42.7	1L6N_A	5Z7G_D	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|A8K855|EFCB7_HUMAN	42.7	1L6N_A	5H53_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q86Z23|C1QL4_HUMAN	42.7	1L6N_A	2OII_B	6BK8_O	6J6G_A
+sp|Q9NZN9|AIPL1_HUMAN	sp|P04585|POL_HV1H2	42.7	2IF4_A	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q9P2K3|RCOR3_HUMAN	42.7	1L6N_A	4CZZ_B	6ICZ_Z	6ID1_L
+sp|P04591|GAG_HV1H2	sp|A7MCY6|TBKB1_HUMAN	42.7	1L6N_A	5Z7G_D	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|A8K855|EFCB7_HUMAN	42.7	1L6N_A	5H53_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q86Z23|C1QL4_HUMAN	42.7	1L6N_A	2OII_B	6BK8_O	6J6G_A
+sp|Q9NZN9|AIPL1_HUMAN	sp|P04591|GAG_HV1H2	42.7	2IF4_A	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q9P2K3|RCOR3_HUMAN	42.7	1L6N_A	4CZZ_B	6ICZ_Z	6ID1_L
+sp|P04601|NEF_HV1H2	sp|A0A0B4J238|TVA12_HUMAN	42.7	3TB8_A	4G8E_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P0DPF4|TVA35_HUMAN	42.7	3TB8_A	5W1W_D	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q8WWV6|FCAMR_HUMAN	42.7	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A075B6I9|LV746_HUMAN	42.7	2X7L_R	6ULC_L	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|A2RTY3|HEAT9_HUMAN	42.7	2N28_A	1OYZ_A	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|P49815|TSC2_HUMAN	42.7	2N28_A	5HIU_A	4P6Z_V	4P6Z_B
+sp|P04578|ENV_HV1H2	sp|A0A0J9YXY3|TVB62_HUMAN	42.6	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|A0A0K0K1G8|TVBJ2_HUMAN	42.6	6PWU_E	5E9D_E	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P0DPF7|TVB63_HUMAN	42.6	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A8MZA4|GG6L6_HUMAN	42.6	1L6N_A	6K06_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P16410|CTLA4_HUMAN	42.6	1L6N_A	5GGV_Y	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P48436|SOX9_HUMAN	42.6	1L6N_A	6JRP_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|P54259|ATN1_HUMAN	42.6	1L6N_A	6MZL_C	6ICZ_Z	6ID1_R
+sp|P04585|POL_HV1H2	sp|Q01518|CAP1_HUMAN	42.6	1L6N_A	1S0P_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q3KQU3|MA7D1_HUMAN	42.6	1L6N_A	6UZ7_1	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q5VTM2|AGAP9_HUMAN	42.6	1L6N_A	3JUE_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|A8MZA4|GG6L6_HUMAN	42.6	1L6N_A	6K06_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P16410|CTLA4_HUMAN	42.6	1L6N_A	5GGV_Y	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P48436|SOX9_HUMAN	42.6	1L6N_A	6JRP_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|P54259|ATN1_HUMAN	42.6	1L6N_A	6MZL_C	6ICZ_Z	6ID1_R
+sp|P04591|GAG_HV1H2	sp|Q01518|CAP1_HUMAN	42.6	1L6N_A	1S0P_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q3KQU3|MA7D1_HUMAN	42.6	1L6N_A	6UZ7_1	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q5VTM2|AGAP9_HUMAN	42.6	1L6N_A	3JUE_A	6BK8_O	6TEO_C
+sp|P04601|NEF_HV1H2	sp|A1IGU5|ARH37_HUMAN	42.6	3TB8_A	3JV3_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|P10915|HPLN1_HUMAN	42.6	3TB8_A	2PF5_B	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	tr|A0A075B6H5|A0A075B6H5_HUMAN	42.6	3TB8_A	2WBJ_D	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0B4J268|TVA4_HUMAN	42.6	2X7L_R	6AT6_A	2X7L_R	5I8O_H
+sp|Q6ZU45|CL20A_HUMAN	sp|P04578|ENV_HV1H2	42.6	6INU_A	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q96BF3|TMIG2_HUMAN	42.5	6PWU_E	5OR7_C	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|P23610|HAP40_HUMAN	42.5	1L6N_A	6EZ8_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P41219|PERI_HUMAN	42.5	1L6N_A	3TNU_A	6ICZ_Z	6ID1_L
+sp|P04585|POL_HV1H2	sp|Q9BVL2|NUP58_HUMAN	42.5	1L6N_A	5IJO_G	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|P23610|HAP40_HUMAN	42.5	1L6N_A	6EZ8_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P41219|PERI_HUMAN	42.5	1L6N_A	3TNU_A	6ICZ_Z	6ID1_L
+sp|P04591|GAG_HV1H2	sp|Q9BVL2|NUP58_HUMAN	42.5	1L6N_A	5IJO_G	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	tr|A0A0A0MS01|A0A0A0MS01_HUMAN	42.5	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0A6YYK6|TVA16_HUMAN	42.5	3TB8_A	2J8U_L	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9UKJ0|PILRB_HUMAN	42.5	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q14003|KCNC3_HUMAN	42.5	3MI9_C	2R9R_H	3MI9_C	2PK2_B
+sp|P05919|VPU_HV1H2	sp|Q9C0B7|TNG6_HUMAN	42.5	2N28_A	3VWA_B	4P6Z_V	4P6Z_B
+sp|P69723|VIF_HV1H2	sp|Q96S82|UBL7_HUMAN	42.5	4N9F_b	1X1M_A	4N9F_b	2MA9_B
+sp|P01920|DQB1_HUMAN	sp|P04601|NEF_HV1H2	42.5	6PY2_B	3TB8_A	5XOV_H	3TB8_A
+sp|P05538|DQB2_HUMAN	sp|P04601|NEF_HV1H2	42.5	6PY2_B	3TB8_A	5XOV_H	3TB8_A
+sp|P60510|PP4C_HUMAN	sp|P04585|POL_HV1H2	42.4	4IL1_D	1L6N_A	6HMS_A	6T8H_B
+sp|P04585|POL_HV1H2	sp|Q9UK59|DBR1_HUMAN	42.4	1L6N_A	5UKI_A	6T8H_B	6T8H_A
+sp|P60510|PP4C_HUMAN	sp|P04591|GAG_HV1H2	42.4	4IL1_D	1L6N_A	6HMS_A	6T8H_B
+sp|P04591|GAG_HV1H2	sp|Q9UK59|DBR1_HUMAN	42.4	1L6N_A	5UKI_A	6T8H_B	6T8H_A
+sp|P69726|VPR_HV1H2	sp|Q504Q3|PAN2_HUMAN	42.4	1ESX_A	6R5K_A	5JK7_F	5JK7_E
+sp|P41180|CASR_HUMAN	sp|P04578|ENV_HV1H2	42.4	5K5T_A	6PWU_E	6MEO_B	3J70_P
+sp|P16410|CTLA4_HUMAN	sp|P04578|ENV_HV1H2	42.3	5GGV_Y	6PWU_E	6NM6_U	6MTJ_B
+sp|P04585|POL_HV1H2	sp|O95801|TTC4_HUMAN	42.3	1L6N_A	6HFO_A	6ICZ_Z	6ID1_I
+sp|P04585|POL_HV1H2	sp|P54274|TERF1_HUMAN	42.3	1L6N_A	3BQO_A	6ICZ_Z	6ID1_L
+sp|P04585|POL_HV1H2	sp|Q15293|RCN1_HUMAN	42.3	1L6N_A	4I5J_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q8WUM4|PDC6I_HUMAN	42.3	1L6N_A	2R03_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9BQI9|NRIP2_HUMAN	42.3	1L6N_A	5YQ8_C	3S8I_B	3S8I_A
+sp|P04585|POL_HV1H2	sp|Q9H270|VPS11_HUMAN	42.3	1L6N_A	5NZR_C	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9NVU7|SDA1_HUMAN	42.3	1L6N_A	5FL8_r	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|O95801|TTC4_HUMAN	42.3	1L6N_A	6HFO_A	6ICZ_Z	6ID1_I
+sp|P04591|GAG_HV1H2	sp|P54274|TERF1_HUMAN	42.3	1L6N_A	3BQO_A	6ICZ_Z	6ID1_L
+sp|P04591|GAG_HV1H2	sp|Q15293|RCN1_HUMAN	42.3	1L6N_A	4I5J_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8WUM4|PDC6I_HUMAN	42.3	1L6N_A	2R03_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9H270|VPS11_HUMAN	42.3	1L6N_A	5NZR_C	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9NVU7|SDA1_HUMAN	42.3	1L6N_A	5FL8_r	6ICZ_Z	6ICZ_V
+sp|P04601|NEF_HV1H2	sp|O00499|BIN1_HUMAN	42.3	3TB8_A	1MV3_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9BRR9|RHG09_HUMAN	42.3	3TB8_A	6GVC_Q	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9UQF2|JIP1_HUMAN	42.3	3TB8_A	6ITU_A	4U5W_C	4U5W_B
+sp|P05919|VPU_HV1H2	sp|Q16401|PSMD5_HUMAN	42.3	2N28_A	4A3T_B	4P6Z_V	4P6Z_G
+sp|P59534|T2R39_HUMAN	sp|P04578|ENV_HV1H2	42.3	4BUO_B	6PWU_E	6MEO_B	3J70_P
+sp|O15083|ERC2_HUMAN	sp|P04578|ENV_HV1H2	42.2	6WG3_B	6PWU_E	6R2G_A	5KA6_B
+sp|P43627|KI2L2_HUMAN	sp|P04585|POL_HV1H2	42.2	1B6U_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q8NCU4|CC191_HUMAN	42.2	1L6N_A	2DOQ_D	6ICZ_Z	6ID1_R
+sp|P04585|POL_HV1H2	sp|Q96D15|RCN3_HUMAN	42.2	1L6N_A	4I5J_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q99457|NP1L3_HUMAN	42.2	1L6N_A	6K02_B	6ICZ_Z	6ICZ_U
+tr|A0A0G2JLQ3|A0A0G2JLQ3_HUMAN	sp|P04585|POL_HV1H2	42.2	1NKR_A	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH30|HV316_HUMAN	42.2	1L6N_A	6QNO_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8NCU4|CC191_HUMAN	42.2	1L6N_A	2DOQ_D	6ICZ_Z	6ID1_R
+sp|P04591|GAG_HV1H2	sp|Q96D15|RCN3_HUMAN	42.2	1L6N_A	4I5J_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q99457|NP1L3_HUMAN	42.2	1L6N_A	6K02_B	6ICZ_Z	6ICZ_U
+sp|P04601|NEF_HV1H2	sp|Q7Z6A9|BTLA_HUMAN	42.2	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|P04437|TVA29_HUMAN	42.2	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A087WYE8|A0A087WYE8_HUMAN	42.2	2X7L_R	3U1S_H	2X7L_R	5I8O_H
+sp|P43627|KI2L2_HUMAN	sp|P04591|GAG_HV1H2	42.2	1B6U_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9NPI5|NRK2_HUMAN	sp|P04601|NEF_HV1H2	42.2	2QG6_A	3TB8_A	6CRI_L	6CRI_Z
+tr|A0A0G2JLQ3|A0A0G2JLQ3_HUMAN	sp|P04591|GAG_HV1H2	42.2	1NKR_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q86YW5|TRML1_HUMAN	42.1	6PWU_E	5OR7_C	6PWU_E	6ULC_L
+sp|P04578|ENV_HV1H2	sp|Q92854|SEM4D_HUMAN	42.1	6PWU_E	1OLZ_A	6PWU_E	4JG1_H
+sp|P04585|POL_HV1H2	sp|Q7Z572|SPT21_HUMAN	42.1	1L6N_A	6MUD_B	2MGU_M	5DOW_A
+sp|Q9BXC9|BBS2_HUMAN	sp|P04585|POL_HV1H2	42.1	6VBU_2	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q9UKL0|RCOR1_HUMAN	42.1	1L6N_A	5L3D_B	6ICZ_Z	6ID1_L
+sp|P04591|GAG_HV1H2	sp|Q7Z572|SPT21_HUMAN	42.1	1L6N_A	6MUD_B	2MGU_M	5DOW_A
+sp|Q9BXC9|BBS2_HUMAN	sp|P04591|GAG_HV1H2	42.1	6VBU_2	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q9UKL0|RCOR1_HUMAN	42.1	1L6N_A	5L3D_B	6ICZ_Z	6ID1_L
+sp|P04601|NEF_HV1H2	sp|A0A087WT03|TVAZ1_HUMAN	42.1	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9UHR4|BI2L1_HUMAN	42.1	3TB8_A	2YKT_A	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|P41225|SOX3_HUMAN	42.1	3MI9_C	6JRP_A	3MI9_C	2PK2_B
+sp|P28068|DMB_HUMAN	sp|P04601|NEF_HV1H2	42.1	2BC4_D	3TB8_A	5XOV_H	3TB8_A
+sp|Q4V339|CBWD6_HUMAN	sp|P04601|NEF_HV1H2	42.1	4IXN_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q5JTY5|CBWD3_HUMAN	sp|P04601|NEF_HV1H2	42.1	4IXN_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q5RIA9|CBWD5_HUMAN	sp|P04601|NEF_HV1H2	42.1	4IXN_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|A0A0A6YYG3|TVB68_HUMAN	42.0	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|O75871|CEAM4_HUMAN	42.0	6PWU_E	6JXR_f	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A0A075B6N4|TVBY1_HUMAN	42.0	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A0J9YX75|TVB69_HUMAN	42.0	1L6N_A	5E9D_E	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A0K0K1A5|TVB65_HUMAN	42.0	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|Q8IYS5|OSCAR_HUMAN	sp|P04585|POL_HV1H2	42.0	5EIQ_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6N4|TVBY1_HUMAN	42.0	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0J9YX75|TVB69_HUMAN	42.0	1L6N_A	5E9D_E	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0K0K1A5|TVB65_HUMAN	42.0	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6T8|TVA91_HUMAN	42.0	3TB8_A	2J8U_L	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9NR46|SHLB2_HUMAN	42.0	3TB8_A	6UPN_n	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A5A6|TVBK3_HUMAN	42.0	2X7L_R	6GJS_B	2X7L_R	5I8O_H
+sp|P05362|ICAM1_HUMAN	sp|P04601|NEF_HV1H2	42.0	1Z7Z_I	3TB8_A	5XOV_H	3TB8_A
+sp|Q9C093|SPEF2_HUMAN	sp|P04601|NEF_HV1H2	42.0	3BE4_A	3TB8_A	6CRI_L	6CRI_Z
+sp|A0A075B6X5|TVA18_HUMAN	sp|P04578|ENV_HV1H2	41.9	1YJD_C	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A087WT03|TVAZ1_HUMAN	41.9	1L6N_A	1YJD_C	1R0A_A	2XKN_C
+sp|P04585|POL_HV1H2	sp|Q01151|CD83_HUMAN	41.9	1L6N_A	5MJ2_A	2XT1_A	6FPV_A
+sp|Q14953|KI2S5_HUMAN	sp|P04585|POL_HV1H2	41.9	1NKR_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q6P0N0|M18BP_HUMAN	41.9	1L6N_A	1WGX_A	6BK8_O	5WSG_c
+sp|P04585|POL_HV1H2	sp|Q6P444|MTFR2_HUMAN	41.9	1L6N_A	5GAM_A	6BK8_O	6J6G_A
+sp|Q9H6T0|ESRP2_HUMAN	sp|P04585|POL_HV1H2	41.9	3CM6_B	1L6N_A	6ICZ_w	6ICZ_Z
+tr|A0A5F9ZH88|A0A5F9ZH88_HUMAN	sp|P04585|POL_HV1H2	41.9	1NKR_A	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|A0A1B0GX95|TVB74_HUMAN	41.9	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q01151|CD83_HUMAN	41.9	1L6N_A	5MJ2_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q6P0N0|M18BP_HUMAN	41.9	1L6N_A	1WGX_A	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|Q6P444|MTFR2_HUMAN	41.9	1L6N_A	5GAM_A	6BK8_O	6J6G_A
+sp|Q9H6T0|ESRP2_HUMAN	sp|P04591|GAG_HV1H2	41.9	3CM6_B	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P04435|TVB79_HUMAN	sp|P04601|NEF_HV1H2	41.9	1YJD_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04608|TAT_HV1H2	sp|O15523|DDX3Y_HUMAN	41.9	3MI9_C	6O5F_A	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q5UCC4|EMC10_HUMAN	41.9	3MI9_C	6WW7_I	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A075B6W5|TVA23_HUMAN	41.9	2X7L_R	1YJD_C	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|A0A0B4J266|TVA41_HUMAN	41.9	2X7L_R	4MNQ_D	2X7L_R	5I8O_L
+sp|Q14953|KI2S5_HUMAN	sp|P04591|GAG_HV1H2	41.9	1NKR_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8WZA9|IRGQ_HUMAN	sp|P04601|NEF_HV1H2	41.9	4LV5_B	3TB8_A	6CRI_L	6CRI_Z
+sp|Q96KG7|MEG10_HUMAN	sp|P04585|POL_HV1H2	41.9	4XBM_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q96KG7|MEG10_HUMAN	sp|P04591|GAG_HV1H2	41.9	4XBM_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q9ULW2|FZD10_HUMAN	sp|P04578|ENV_HV1H2	41.9	5V56_A	6PWU_E	6MEO_B	3J70_P
+tr|A0A5F9ZH88|A0A5F9ZH88_HUMAN	sp|P04591|GAG_HV1H2	41.9	1NKR_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|B6SEH9|ERVV2_HUMAN	41.8	6PWU_E	5HA6_A	6UM5_E	6MAR_D
+sp|P04585|POL_HV1H2	sp|P07199|CENPB_HUMAN	41.8	1L6N_A	1UFI_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q3KNS1|PTHD3_HUMAN	41.8	1L6N_A	6N7K_D	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q495A1|TIGIT_HUMAN	41.8	1L6N_A	3UCR_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A087WZ39|A0A087WZ39_HUMAN	41.8	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+tr|A0A1W2PQF6|A0A1W2PQF6_HUMAN	sp|P04585|POL_HV1H2	41.8	1NKR_A	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|Q3KNS1|PTHD3_HUMAN	41.8	1L6N_A	6N7K_D	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q495A1|TIGIT_HUMAN	41.8	1L6N_A	3UCR_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A087WZ39|A0A087WZ39_HUMAN	41.8	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04618|REV_HV1H2	sp|A0A0B4J1U6|TVB9_HUMAN	41.8	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A6NI73|LIRA5_HUMAN	41.8	2X7L_R	2D3V_A	2X7L_R	5I8O_L
+sp|P69726|VPR_HV1H2	sp|O15357|SHIP2_HUMAN	41.8	1ESX_A	6XY7_A	4Z8L_B	4Z8L_F
+sp|P69726|VPR_HV1H2	sp|Q9H706|GARE1_HUMAN	41.8	1ESX_A	2DKZ_A	4Z8L_B	4Z8L_F
+tr|A0A1W2PQF6|A0A1W2PQF6_HUMAN	sp|P04591|GAG_HV1H2	41.8	1NKR_A	1L6N_A	5T70_G	3GV2_A
+sp|P48454|PP2BC_HUMAN	sp|P04585|POL_HV1H2	41.7	1AUI_A	1L6N_A	6HMS_A	6T8H_B
+sp|P04585|POL_HV1H2	sp|Q8N7Z2|GG6L1_HUMAN	41.7	1L6N_A	6K06_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8WVV9|HNRLL_HUMAN	41.7	1L6N_A	4N0T_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q9NYG2|ZDHC3_HUMAN	41.7	1L6N_A	6BMN_B	6UCA_B	6UCA_D
+sp|P48454|PP2BC_HUMAN	sp|P04591|GAG_HV1H2	41.7	1AUI_A	1L6N_A	6HMS_A	6T8H_B
+sp|Q685J3|MUC17_HUMAN	sp|P04591|GAG_HV1H2	41.7	6UJA_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	sp|Q8N7Z2|GG6L1_HUMAN	41.7	1L6N_A	6K06_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8WVV9|HNRLL_HUMAN	41.7	1L6N_A	4N0T_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q9NYG2|ZDHC3_HUMAN	41.7	1L6N_A	6BMN_B	6UCA_D	6UCA_B
+sp|P04601|NEF_HV1H2	sp|O95153|RIMB1_HUMAN	41.7	3TB8_A	2CSP_A	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|Q12946|FOXF1_HUMAN	41.7	3MI9_C	1JXS_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|O15533|TPSN_HUMAN	41.7	2X7L_R	6ENY_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P40200|TACT_HUMAN	41.7	2X7L_R	6TYB_C	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	tr|A0A075B7B8|A0A075B7B8_HUMAN	41.7	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|O15533|TPSN_HUMAN	sp|P04601|NEF_HV1H2	41.7	6ENY_C	3TB8_A	5XOV_H	3TB8_A
+sp|P47871|GLR_HUMAN	sp|P04578|ENV_HV1H2	41.7	5YQZ_R	6PWU_E	6MEO_B	3J70_P
+sp|Q685J3|MUC17_HUMAN	sp|P04585|POL_HV1H2	41.7	6UJA_B	1L6N_A	6CPL_A	2XXM_A
+sp|A0A0B4J234|TVA2_HUMAN	sp|P04585|POL_HV1H2	41.6	1YJD_C	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|P31249|HXD3_HUMAN	41.6	1L6N_A	1AU7_A	6BK8_O	6J6G_A
+sp|Q5VTQ0|TT39B_HUMAN	sp|P04585|POL_HV1H2	41.6	5OJ8_A	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q96S94|CCNL2_HUMAN	41.6	1L6N_A	2W2H_A	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q9NQC1|JADE2_HUMAN	41.6	1L6N_A	5DAH_B	6UCA_B	6UCA_D
+sp|P04591|GAG_HV1H2	sp|A0A075B6R9|KVD24_HUMAN	41.6	1L6N_A	6BPC_F	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P31249|HXD3_HUMAN	41.6	1L6N_A	1AU7_A	6BK8_O	6J6G_A
+sp|Q5VTQ0|TT39B_HUMAN	sp|P04591|GAG_HV1H2	41.6	5OJ8_A	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q96S94|CCNL2_HUMAN	41.6	1L6N_A	2W2H_A	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q9NQC1|JADE2_HUMAN	41.6	1L6N_A	5DAH_B	6UCA_D	6UCA_B
+sp|P04601|NEF_HV1H2	sp|A0A0A6YYK7|TVA19_HUMAN	41.6	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0B4J280|TVA40_HUMAN	41.6	3TB8_A	6RNN_H	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q16401|PSMD5_HUMAN	41.6	3TB8_A	4A3T_B	6OWT_N	6OWT_A
+sp|P04601|NEF_HV1H2	sp|Q96JP2|MY15B_HUMAN	41.6	3TB8_A	5I0I_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9BTW9|TBCD_HUMAN	41.6	3TB8_A	4FDD_A	6OWT_N	6QH5_B
+sp|P04608|TAT_HV1H2	sp|P54652|HSP72_HUMAN	41.6	3MI9_C	5FPN_A	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q99856|ARI3A_HUMAN	41.6	3MI9_C	4LJX_B	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A0C4DH59|TVB54_HUMAN	41.6	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|Q8TD46|MO2R1_HUMAN	sp|P04601|NEF_HV1H2	41.6	4BFG_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04585|POL_HV1H2	sp|A0A1B0GX49|TVB64_HUMAN	41.5	1L6N_A	5E9D_E	2XT1_A	6FPV_A
+sp|O00743|PPP6_HUMAN	sp|P04585|POL_HV1H2	41.5	1AUI_A	1L6N_A	6HMS_A	6T8H_B
+sp|P04585|POL_HV1H2	sp|P32242|OTX1_HUMAN	41.5	1L6N_A	1MH3_A	6AR3_D	6AR3_D
+sp|Q9P0V8|SLAF8_HUMAN	sp|P04585|POL_HV1H2	41.5	6JXR_n	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q9UBC2|EP15R_HUMAN	41.5	1L6N_A	5MTV_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A0A1B0GX49|TVB64_HUMAN	41.5	1L6N_A	5E9D_E	2XT1_A	6FPV_A
+sp|O00743|PPP6_HUMAN	sp|P04591|GAG_HV1H2	41.5	1AUI_A	1L6N_A	6HMS_A	6T8H_B
+sp|P04591|GAG_HV1H2	sp|Q9UBC2|EP15R_HUMAN	41.5	1L6N_A	5MTV_A	2MGU_M	5DOW_A
+sp|P04608|TAT_HV1H2	sp|O14730|RIOK3_HUMAN	41.5	3MI9_C	6G5I_z	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q7Z695|ADCK2_HUMAN	41.5	3MI9_C	4PED_A	3MI9_C	3MI9_A
+sp|P04618|REV_HV1H2	sp|Q9P0V8|SLAF8_HUMAN	41.5	2X7L_R	6JXR_n	2X7L_R	5I8O_H
+sp|P04440|DPB1_HUMAN	sp|P04601|NEF_HV1H2	41.5	6PY2_B	3TB8_A	5XOV_H	3TB8_A
+sp|P55082|MFAP3_HUMAN	sp|P04601|NEF_HV1H2	41.5	6J8H_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04585|POL_HV1H2	sp|P29400|CO4A5_HUMAN	41.4	1L6N_A	6MPX_A	6ICZ_Z	6S8Q_B
+sp|Q08209|PP2BA_HUMAN	sp|P04585|POL_HV1H2	41.4	1AUI_A	1L6N_A	6HMS_A	6T8H_B
+sp|P04585|POL_HV1H2	sp|Q9UK58|CCNL1_HUMAN	41.4	1L6N_A	2PK2_B	6BK8_O	6J6G_Z
+tr|A0A0G2JP03|A0A0G2JP03_HUMAN	sp|P04585|POL_HV1H2	41.4	1NKR_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|P29400|CO4A5_HUMAN	41.4	1L6N_A	6MPX_A	6ICZ_Z	6S8Q_B
+sp|Q08209|PP2BA_HUMAN	sp|P04591|GAG_HV1H2	41.4	1AUI_A	1L6N_A	6HMS_A	6T8H_B
+sp|P04591|GAG_HV1H2	sp|Q9UK58|CCNL1_HUMAN	41.4	1L6N_A	2PK2_B	6BK8_O	6J6G_Z
+sp|P04601|NEF_HV1H2	sp|A0A0B4J266|TVA41_HUMAN	41.4	3TB8_A	4MNQ_D	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q8TB24|RIN3_HUMAN	41.4	3TB8_A	2EFH_A	4U5W_C	4U5W_B
+sp|P04585|POL_HV1H2	sp|A8K4G0|CLM7_HUMAN	41.3	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q6ZVX7|FBX50_HUMAN	41.3	1L6N_A	3WSO_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q92541|RTF1_HUMAN	41.3	1L6N_A	3U1U_B	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	sp|Q9NRY6|PLS3_HUMAN	41.3	1L6N_A	2Q4M_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|A8K4G0|CLM7_HUMAN	41.3	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q6ZVX7|FBX50_HUMAN	41.3	1L6N_A	3WSO_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q92541|RTF1_HUMAN	41.3	1L6N_A	3U1U_B	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|Q9NRY6|PLS3_HUMAN	41.3	1L6N_A	2Q4M_A	6BK8_O	6J6G_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J1U6|TVB9_HUMAN	41.3	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q12906|ILF3_HUMAN	41.3	3MI9_C	5DV7_C	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A0B4J234|TVA2_HUMAN	41.3	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|A6NFU0|F187A_HUMAN	sp|P04578|ENV_HV1H2	41.2	3J8F_7	6PWU_E	6MEO_A	3J70_P
+sp|P04578|ENV_HV1H2	tr|A0A0G2JMH6|A0A0G2JMH6_HUMAN	41.2	6PWU_E	6CPL_A	5C0R_A	6U1T_L
+sp|P04585|POL_HV1H2	sp|A0A0A6YYG2|TVB66_HUMAN	41.2	1L6N_A	5E9D_E	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A8MTJ6|FOXI3_HUMAN	41.2	1L6N_A	1KQ8_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q53EQ6|TIGD5_HUMAN	41.2	1L6N_A	1IUF_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8IYW5|RN168_HUMAN	41.2	1L6N_A	5XIT_A	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q8N3Z6|ZCHC7_HUMAN	41.2	1L6N_A	2LLI_A	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q8WVK2|SNR27_HUMAN	41.2	1L6N_A	6QX9_X	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q92738|US6NL_HUMAN	41.2	1L6N_A	4P17_B	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|Q96D31|CRCM1_HUMAN	41.2	1L6N_A	4HKR_A	6BK8_O	6J6G_A
+tr|A0A2R8YCY7|A0A2R8YCY7_HUMAN	sp|P04585|POL_HV1H2	41.2	1NKR_A	1L6N_A	5T70_G	3GV2_A
+tr|A0A376A8Z9|A0A376A8Z9_HUMAN	sp|P04585|POL_HV1H2	41.2	1NKR_A	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|A0A0A6YYG2|TVB66_HUMAN	41.2	1L6N_A	5E9D_E	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A6NCF5|KLH33_HUMAN	41.2	1L6N_A	4XMB_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|A8MTJ6|FOXI3_HUMAN	41.2	1L6N_A	1KQ8_A	6BK8_O	6J6G_A
+sp|B2RPK0|HGB1A_HUMAN	sp|P04591|GAG_HV1H2	41.2	5ZE0_N	1L6N_A	6CIL_N	6OET_C
+sp|P04591|GAG_HV1H2	sp|C9JR72|KBTBD_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|O14682|ENC1_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|O60294|TYW4_HUMAN	41.2	1L6N_A	2ZWA_B	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|O60662|KLH41_HUMAN	41.2	1L6N_A	2WOZ_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|O75882|ATRN_HUMAN	41.2	1L6N_A	5A10_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|O94819|KBTBB_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|O94889|KLH18_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P09429|HMGB1_HUMAN	sp|P04591|GAG_HV1H2	41.2	5ZE0_N	1L6N_A	6CIL_N	6OET_C
+sp|P04591|GAG_HV1H2	sp|P15918|RAG1_HUMAN	41.2	1L6N_A	6OET_C	6OET_C	5ZE0_A
+sp|P17480|UBF1_HUMAN	sp|P04591|GAG_HV1H2	41.2	1L8Z_A	1L6N_A	6CIL_N	6OET_C
+sp|P26583|HMGB2_HUMAN	sp|P04591|GAG_HV1H2	41.2	5ZE0_N	1L6N_A	6CIL_N	6OET_C
+sp|P35711|SOX5_HUMAN	sp|P04591|GAG_HV1H2	41.2	6JRP_A	1L6N_A	6CIL_N	6OET_C
+sp|P35716|SOX11_HUMAN	sp|P04591|GAG_HV1H2	41.2	6T7A_K	1L6N_A	6CIL_N	6OET_C
+sp|P04591|GAG_HV1H2	sp|P51610|HCFC1_HUMAN	41.2	1L6N_A	6DO5_A	6OET_C	6CIK_B
+sp|Q00059|TFAM_HUMAN	sp|P04591|GAG_HV1H2	41.2	6HC3_A	1L6N_A	6CIL_N	6OET_C
+sp|P04591|GAG_HV1H2	sp|Q0D2K2|KLH30_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|Q12766|HMGX3_HUMAN	sp|P04591|GAG_HV1H2	41.2	2YUK_A	1L6N_A	6CIL_N	6OET_C
+sp|P04591|GAG_HV1H2	sp|Q13939|CALI_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q14145|KEAP1_HUMAN	41.2	1L6N_A	4XMB_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q2TBA0|KLH40_HUMAN	41.2	1L6N_A	2WOZ_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q2WGJ6|KLH38_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q3ZCT8|KBTBC_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q53EQ6|TIGD5_HUMAN	41.2	1L6N_A	1IUF_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q53G59|KLH12_HUMAN	41.2	1L6N_A	2VPJ_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q53GT1|KLH22_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q53HC5|KLH26_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q5VTJ3|KLD7A_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q5VV63|ATRN1_HUMAN	41.2	1L6N_A	5A10_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q6JEL2|KLH10_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q6P3S6|FBX42_HUMAN	41.2	1L6N_A	5A10_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q6PF15|KLH35_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q6PID8|KLD10_HUMAN	41.2	1L6N_A	6DO5_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q6TFL4|KLH24_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q7Z6M1|RABEK_HUMAN	41.2	1L6N_A	5A10_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q7Z7M0|MEGF8_HUMAN	41.2	1L6N_A	5ZE0_D	6OET_C	6CIK_B
+sp|Q86V97|KBTB6_HUMAN	sp|P04591|GAG_HV1H2	41.2	4HXI_A	1L6N_A	6CIL_B	6OET_C
+sp|P04591|GAG_HV1H2	sp|Q8IXQ5|KLHL7_HUMAN	41.2	1L6N_A	3II7_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q8IXV7|KLD8B_HUMAN	41.2	1L6N_A	2VPJ_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q8IYD2|KLD8A_HUMAN	41.2	1L6N_A	2VPJ_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q8IYW5|RN168_HUMAN	41.2	1L6N_A	5XIT_A	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q8N239|KLH34_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q8N3Z6|ZCHC7_HUMAN	41.2	1L6N_A	2LLI_A	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q8N4N3|KLH36_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q8N653|LZTR1_HUMAN	41.2	1L6N_A	6DO4_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q8N7A1|KLDC1_HUMAN	41.2	1L6N_A	6DO4_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q8NAB2|KBTB3_HUMAN	41.2	1L6N_A	3I3N_B	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q8NBE8|KLH23_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q8NEP7|KLDC9_HUMAN	41.2	1L6N_A	5A10_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q8NFY9|KBTB8_HUMAN	41.2	1L6N_A	3HVE_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q8TBB5|KLDC4_HUMAN	41.2	1L6N_A	6DO4_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q8WVK2|SNR27_HUMAN	41.2	1L6N_A	6QX9_X	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q8WVZ9|KBTB7_HUMAN	41.2	1L6N_A	4HXI_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q8WZ60|KLHL6_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q92738|US6NL_HUMAN	41.2	1L6N_A	4P17_B	6BK8_O	6J6G_Z
+sp|Q969G3|SMCE1_HUMAN	sp|P04591|GAG_HV1H2	41.2	6LTJ_Q	1L6N_A	6CIL_N	6OET_C
+sp|P04591|GAG_HV1H2	sp|Q96CT2|KLH29_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q96D31|CRCM1_HUMAN	41.2	1L6N_A	4HKR_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q96G42|KLD7B_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q96M94|KLH15_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q96NJ5|KLH32_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q9BQ90|KLDC3_HUMAN	41.2	1L6N_A	6DO4_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q9H0H3|KLH25_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q9H2C0|GAN_HUMAN	41.2	1L6N_A	3HVE_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q9H511|KLH31_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|Q9NP66|HM20A_HUMAN	sp|P04591|GAG_HV1H2	41.2	1HME_A	1L6N_A	6CIL_N	6OET_C
+sp|P04591|GAG_HV1H2	sp|Q9NVR0|KLH11_HUMAN	41.2	1L6N_A	3I3N_B	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q9NVX7|KBTB4_HUMAN	41.2	1L6N_A	4YY8_B	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q9NXS3|KLH28_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|Q9P0W2|HM20B_HUMAN	sp|P04591|GAG_HV1H2	41.2	6LTJ_Q	1L6N_A	6CIL_N	6OET_C
+sp|P04591|GAG_HV1H2	sp|Q9P2G9|KLHL8_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q9P2J3|KLHL9_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q9P2K6|KLH42_HUMAN	41.2	1L6N_A	4YY8_B	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q9P2N7|KLH13_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q9UJP4|KLH21_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q9UL63|MKLN1_HUMAN	41.2	1L6N_A	4OYU_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q9Y2M5|KLH20_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q9Y2U9|KLDC2_HUMAN	41.2	1L6N_A	6DO3_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q9Y573|IPP_HUMAN	41.2	1L6N_A	4YY8_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q9Y5Z7|HCFC2_HUMAN	41.2	1L6N_A	6DO3_A	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q9Y6Y0|NS1BP_HUMAN	41.2	1L6N_A	6N3H_A	6OET_C	6CIK_B
+sp|P04601|NEF_HV1H2	sp|P01737|TVA84_HUMAN	41.2	3TB8_A	6FUN_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|P01732|CD8A_HUMAN	41.2	2X7L_R	5OR7_C	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|P17693|HLAG_HUMAN	41.2	2X7L_R	6AT5_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q9H7M9|VISTA_HUMAN	41.2	2X7L_R	6OIL_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q5H9R4|ARMX4_HUMAN	41.2	2N28_A	1XQR_A	4P6Z_V	4P6Z_G
+sp|P69723|VIF_HV1H2	sp|Q9BYM8|HOIL1_HUMAN	41.2	4N9F_b	4ZYN_A	4N9F_b	2MA9_B
+sp|C9JSJ3|BHMG1_HUMAN	sp|P04591|GAG_HV1H2	41.2	2CO9_A	1L6N_A	6CIL_N	6OET_C
+sp|O00570|SOX1_HUMAN	sp|P04591|GAG_HV1H2	41.2	6JRP_A	1L6N_A	6CIL_N	6OET_C
+sp|O15347|HMGB3_HUMAN	sp|P04591|GAG_HV1H2	41.2	2GZK_A	1L6N_A	6CIL_N	6OET_C
+sp|O15370|SOX12_HUMAN	sp|P04591|GAG_HV1H2	41.2	6JRP_A	1L6N_A	6CIL_N	6OET_C
+sp|O15405|TOX3_HUMAN	sp|P04591|GAG_HV1H2	41.2	2LHJ_A	1L6N_A	6CIL_N	6OET_C
+sp|O60248|SOX15_HUMAN	sp|P04591|GAG_HV1H2	41.2	6JRP_A	1L6N_A	6CIL_N	6OET_C
+sp|O60381|HBP1_HUMAN	sp|P04591|GAG_HV1H2	41.2	3QVE_A	1L6N_A	6CIL_N	6OET_C
+sp|O94842|TOX4_HUMAN	sp|P04591|GAG_HV1H2	41.2	2LHJ_A	1L6N_A	6CIL_N	6OET_C
+sp|O94900|TOX_HUMAN	sp|P04591|GAG_HV1H2	41.2	2LHJ_A	1L6N_A	6CIL_N	6OET_C
+sp|O94993|SOX30_HUMAN	sp|P04591|GAG_HV1H2	41.2	1J46_A	1L6N_A	6CIL_N	6OET_C
+sp|O95416|SOX14_HUMAN	sp|P04591|GAG_HV1H2	41.2	1J46_A	1L6N_A	6CIL_N	6OET_C
+sp|O96028|NSD2_HUMAN	sp|P04591|GAG_HV1H2	41.2	3OOI_A	1L6N_A	6CG0_N	6OET_C
+sp|P23497|SP100_HUMAN	sp|P04591|GAG_HV1H2	41.2	1H5P_A	1L6N_A	6CG0_N	6OET_C
+sp|P35712|SOX6_HUMAN	sp|P04591|GAG_HV1H2	41.2	6JRP_A	1L6N_A	6CIL_N	6OET_C
+sp|P35713|SOX18_HUMAN	sp|P04591|GAG_HV1H2	41.2	6JRP_A	1L6N_A	6CIL_N	6OET_C
+sp|P36402|TCF7_HUMAN	sp|P04591|GAG_HV1H2	41.2	3OUW_B	1L6N_A	6CIL_N	6OET_C
+sp|P41225|SOX3_HUMAN	sp|P04591|GAG_HV1H2	41.2	6JRP_A	1L6N_A	6CIL_N	6OET_C
+sp|P48431|SOX2_HUMAN	sp|P04591|GAG_HV1H2	41.2	6JRP_A	1L6N_A	6CIL_N	6OET_C
+sp|P54277|PMS1_HUMAN	sp|P04591|GAG_HV1H2	41.2	1B63_A	1L6N_A	6CIL_N	6OET_C
+sp|P56693|SOX10_HUMAN	sp|P04591|GAG_HV1H2	41.2	6JRP_A	1L6N_A	6CIL_N	6OET_C
+sp|P57073|SOX8_HUMAN	sp|P04591|GAG_HV1H2	41.2	1HME_A	1L6N_A	6CIL_N	6OET_C
+sp|Q05066|SRY_HUMAN	sp|P04591|GAG_HV1H2	41.2	1J46_A	1L6N_A	6CIL_N	6OET_C
+sp|Q06945|SOX4_HUMAN	sp|P04591|GAG_HV1H2	41.2	6T7A_K	1L6N_A	6CIL_N	6OET_C
+sp|Q08945|SSRP1_HUMAN	sp|P04591|GAG_HV1H2	41.2	6UPL_H	1L6N_A	6CIL_N	6OET_C
+sp|Q8WW32|HMGB4_HUMAN	sp|P04591|GAG_HV1H2	41.2	2GZK_A	1L6N_A	6CIL_N	6OET_C
+sp|Q8WY36|BBX_HUMAN	sp|P04591|GAG_HV1H2	41.2	6T7A_K	1L6N_A	6CIL_N	6OET_C
+sp|Q96NM4|TOX2_HUMAN	sp|P04591|GAG_HV1H2	41.2	2YUK_A	1L6N_A	6CIL_N	6OET_C
+sp|Q96RK0|CIC_HUMAN	sp|P04591|GAG_HV1H2	41.2	6JRP_A	1L6N_A	6CIL_N	6OET_C
+sp|Q9BT81|SOX7_HUMAN	sp|P04591|GAG_HV1H2	41.2	6T7A_K	1L6N_A	6CIL_N	6OET_C
+sp|Q9H6I2|SOX17_HUMAN	sp|P04591|GAG_HV1H2	41.2	6T7A_K	1L6N_A	6CIL_N	6OET_C
+sp|Q9HCS4|TF7L1_HUMAN	sp|P04591|GAG_HV1H2	41.2	3OUW_B	1L6N_A	6CIL_N	6OET_C
+sp|Q9NQB0|TF7L2_HUMAN	sp|P04591|GAG_HV1H2	41.2	2GL7_E	1L6N_A	6CIL_N	6OET_C
+sp|Q9UGU5|HMGX4_HUMAN	sp|P04591|GAG_HV1H2	41.2	2D7L_A	1L6N_A	6CIL_N	6OET_C
+sp|Q9UJU2|LEF1_HUMAN	sp|P04591|GAG_HV1H2	41.2	3OUW_B	1L6N_A	6CIL_N	6OET_C
+sp|Q9UN79|SOX13_HUMAN	sp|P04591|GAG_HV1H2	41.2	1I11_A	1L6N_A	6CIL_N	6OET_C
+sp|Q9Y651|SOX21_HUMAN	sp|P04591|GAG_HV1H2	41.2	2LEF_A	1L6N_A	6CIL_N	6OET_C
+tr|A0A2R8YCY7|A0A2R8YCY7_HUMAN	sp|P04591|GAG_HV1H2	41.2	1NKR_A	1L6N_A	5T70_G	3GV2_A
+tr|A0A376A8Z9|A0A376A8Z9_HUMAN	sp|P04591|GAG_HV1H2	41.2	1NKR_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A577|TVB41_HUMAN	41.1	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|P01903|DRA_HUMAN	41.1	6PWU_E	6CPL_A	5C0R_A	6U1T_L
+sp|P04585|POL_HV1H2	sp|A0MZ66|SHOT1_HUMAN	41.1	1L6N_A	6SO3_B	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|P06748|NPM_HUMAN	41.1	1L6N_A	2LLH_A	6ICZ_Z	6ID1_P
+sp|P04585|POL_HV1H2	sp|Q6UN15|FIP1_HUMAN	41.1	1L6N_A	6SC2_C	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q96K31|CH076_HUMAN	41.1	1L6N_A	1NA0_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|A0MZ66|SHOT1_HUMAN	41.1	1L6N_A	6SO3_B	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|P06748|NPM_HUMAN	41.1	1L6N_A	2LLH_A	6ICZ_Z	6ID1_P
+sp|P04591|GAG_HV1H2	sp|Q6UN15|FIP1_HUMAN	41.1	1L6N_A	6SC2_C	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q96K31|CH076_HUMAN	41.1	1L6N_A	1NA0_A	6BK8_O	6J6H_d
+sp|P04601|NEF_HV1H2	sp|Q8IWW6|RHG12_HUMAN	41.1	3TB8_A	6GVC_Q	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q96S86|HPLN3_HUMAN	41.1	3TB8_A	2PF5_B	4ORZ_B	5MZV_D
+sp|Q96A28|SLAF9_HUMAN	sp|P04601|NEF_HV1H2	41.1	3ALW_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q9UJA3|MCM8_HUMAN	sp|P04601|NEF_HV1H2	41.1	6RAX_4	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|A8MXK1|VSTM5_HUMAN	41.0	6PWU_E	6J8H_C	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|O15083|ERC2_HUMAN	41.0	1L6N_A	6WG3_B	6AR3_D	6AR3_D
+sp|P04585|POL_HV1H2	sp|P26651|TTP_HUMAN	41.0	1L6N_A	1RGO_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P28676|GRAN_HUMAN	41.0	1L6N_A	1F4Q_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q5RL73|RBM48_HUMAN	41.0	1L6N_A	5TKZ_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q6ZU65|UBN2_HUMAN	41.0	1L6N_A	5ZZ8_u	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8IZN3|ZDH14_HUMAN	41.0	1L6N_A	6BMS_A	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q99816|TS101_HUMAN	41.0	1L6N_A	2P22_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P26651|TTP_HUMAN	41.0	1L6N_A	1RGO_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P28676|GRAN_HUMAN	41.0	1L6N_A	1F4Q_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q5RL73|RBM48_HUMAN	41.0	1L6N_A	5TKZ_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q6ZU65|UBN2_HUMAN	41.0	1L6N_A	5ZZ8_u	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8IW00|VSTM4_HUMAN	41.0	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8IZN3|ZDH14_HUMAN	41.0	1L6N_A	6BMS_A	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q99816|TS101_HUMAN	41.0	1L6N_A	2P22_A	6BK8_O	6J6G_A
+sp|P04601|NEF_HV1H2	sp|P42081|CD86_HUMAN	41.0	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|P0C7X3|CCYL3_HUMAN	41.0	3MI9_C	4KRD_B	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|Q96A28|SLAF9_HUMAN	41.0	2X7L_R	3ALW_A	2X7L_R	5I8O_H
+sp|Q16602|CALRL_HUMAN	sp|P04578|ENV_HV1H2	41.0	6FJ3_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|P20036|DPA1_HUMAN	40.9	6PWU_E	2P24_A	5C0R_A	6U1T_L
+sp|P04585|POL_HV1H2	sp|Q9NP99|TREM1_HUMAN	40.9	1L6N_A	1Q8M_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A1W2PPD8|A0A1W2PPD8_HUMAN	40.9	1L6N_A	6F5R_A	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|Q9NP99|TREM1_HUMAN	40.9	1L6N_A	1Q8M_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A1W2PPD8|A0A1W2PPD8_HUMAN	40.9	1L6N_A	6F5R_A	6ICZ_Z	4F7U_A
+sp|P04601|NEF_HV1H2	sp|A0A0C4DH30|HV316_HUMAN	40.9	3TB8_A	6QNO_H	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0A6YYK7|TVA19_HUMAN	40.9	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0B4J265|TVAZ2_HUMAN	40.9	2X7L_R	1YJD_C	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|A0A0B4J280|TVA40_HUMAN	40.9	2X7L_R	6RNN_H	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|O95782|AP2A1_HUMAN	40.9	2N28_A	6OWT_A	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q6PJG6|BRAT1_HUMAN	40.9	2N28_A	4LAC_A	4P6Z_V	4P6Z_B
+sp|P69723|VIF_HV1H2	sp|Q6PF15|KLH35_HUMAN	40.9	4N9F_b	4YY8_A	4N9F_b	4AJY_C
+sp|P48546|GIPR_HUMAN	sp|P04578|ENV_HV1H2	40.9	6WHC_R	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q13275|SEM3F_HUMAN	40.8	6PWU_E	6QP7_B	6NIJ_B	5WHZ_L
+sp|A0A0B4J265|TVAZ2_HUMAN	sp|P04585|POL_HV1H2	40.8	1YJD_C	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q14154|DELE1_HUMAN	40.8	1L6N_A	6ONW_A	6ICZ_Z	6ID1_I
+sp|P04585|POL_HV1H2	sp|Q9Y5B6|PAXB1_HUMAN	40.8	1L6N_A	5Y88_V	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9Y6Y0|NS1BP_HUMAN	40.8	1L6N_A	6N3H_A	6ICZ_Z	6ID1_T
+sp|P04591|GAG_HV1H2	sp|Q14154|DELE1_HUMAN	40.8	1L6N_A	6ONW_A	6ICZ_Z	6ID1_I
+sp|P04591|GAG_HV1H2	sp|Q9Y5B6|PAXB1_HUMAN	40.8	1L6N_A	5Y88_V	6BK8_O	6J6G_A
+sp|P04601|NEF_HV1H2	sp|A0A0K0K1A5|TVB65_HUMAN	40.8	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P04437|TVA29_HUMAN	40.8	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q86X29|LSR_HUMAN	40.8	3TB8_A	5XSY_B	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q8IW00|VSTM4_HUMAN	40.8	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q96T76|MMS19_HUMAN	40.8	3TB8_A	5VE8_B	6CRI_Z	6CRI_R
+sp|P04618|REV_HV1H2	sp|O76036|NCTR1_HUMAN	40.8	2X7L_R	1P6F_A	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q95460|HMR1_HUMAN	40.8	2X7L_R	6PUJ_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q96N03|VTM2L_HUMAN	40.8	2X7L_R	6VEP_O	2X7L_R	5I8O_H
+sp|P06340|DOA_HUMAN	sp|P04601|NEF_HV1H2	40.8	2P24_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|A0A0K0K1C4|TVB27_HUMAN	40.7	6PWU_E	5E9D_E	6NIJ_B	3U1S_H
+sp|O95976|IGSF6_HUMAN	sp|P04578|ENV_HV1H2	40.7	4R0L_D	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A0A6YYG3|TVB68_HUMAN	40.7	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A0B4J262|TVA86_HUMAN	40.7	1L6N_A	2J8U_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A0K0K1C0|TVBK1_HUMAN	40.7	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|A8MVZ5|BTNLA_HUMAN	sp|P04585|POL_HV1H2	40.7	4HH8_A	1L6N_A	6CPL_A	2XXM_A
+sp|P15391|CD19_HUMAN	sp|P04585|POL_HV1H2	40.7	6AL5_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q5SRH9|TT39A_HUMAN	40.7	1L6N_A	5OJ8_A	6BK8_O	6J6H_v
+sp|Q6UX27|VSTM1_HUMAN	sp|P04585|POL_HV1H2	40.7	5OR7_C	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|Q7L3V2|BOP_HUMAN	40.7	1L6N_A	6R23_B	6R24_C	6R24_C
+sp|P04585|POL_HV1H2	sp|Q92736|RYR2_HUMAN	40.7	1L6N_A	6JIY_J	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q96EF9|ZHX1R_HUMAN	40.7	1L6N_A	1NA0_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q99608|NECD_HUMAN	40.7	1L6N_A	2WA0_A	6BK8_O	6J6G_A
+tr|A0A5F9Z9Y6|A0A5F9Z9Y6_HUMAN	sp|P04585|POL_HV1H2	40.7	1NKR_A	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|A0A0A6YYG3|TVB68_HUMAN	40.7	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J262|TVA86_HUMAN	40.7	1L6N_A	2J8U_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0K0K1C0|TVBK1_HUMAN	40.7	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|A8MVZ5|BTNLA_HUMAN	sp|P04591|GAG_HV1H2	40.7	4HH8_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	sp|P42081|CD86_HUMAN	40.7	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q5SRH9|TT39A_HUMAN	40.7	1L6N_A	5OJ8_A	6BK8_O	6J6H_v
+sp|Q6UX27|VSTM1_HUMAN	sp|P04591|GAG_HV1H2	40.7	5OR7_C	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	sp|Q7L3V2|BOP_HUMAN	40.7	1L6N_A	6R23_B	6R23_B	6R23_B
+sp|P04591|GAG_HV1H2	sp|Q92736|RYR2_HUMAN	40.7	1L6N_A	6JIY_J	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q96EF9|ZHX1R_HUMAN	40.7	1L6N_A	1NA0_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q99608|NECD_HUMAN	40.7	1L6N_A	2WA0_A	6BK8_O	6J6G_A
+sp|P04601|NEF_HV1H2	sp|A0A087WT02|TVA92_HUMAN	40.7	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P0DTW3|HV384_HUMAN	40.7	3TB8_A	3U1S_H	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q52LJ0|FA98B_HUMAN	40.7	3MI9_C	5AOR_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A0C4DH30|HV316_HUMAN	40.7	2X7L_R	6QNO_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01737|TVA84_HUMAN	40.7	2X7L_R	6FUN_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q9BTW9|TBCD_HUMAN	40.7	2N28_A	4FDD_A	4P6Z_V	4P6Z_B
+sp|P0CF74|IGLC6_HUMAN	sp|P04601|NEF_HV1H2	40.7	6U07_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q96SB8|SMC6_HUMAN	sp|P04601|NEF_HV1H2	40.7	6WG3_A	3TB8_A	6CRI_L	6CRI_Z
+tr|A0A5F9Z9Y6|A0A5F9Z9Y6_HUMAN	sp|P04591|GAG_HV1H2	40.7	1NKR_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|A0A075B6N3|TVBX1_HUMAN	40.6	1L6N_A	5E9D_J	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A5A6|TVBK3_HUMAN	40.6	1L6N_A	6GJS_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O75444|MAF_HUMAN	40.6	1L6N_A	1K1V_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q8TBK6|ZCH10_HUMAN	40.6	1L6N_A	3E2U_G	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q9P2E8|MARH4_HUMAN	40.6	1L6N_A	2M6M_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9UPR0|PLCL2_HUMAN	40.6	1L6N_A	2ZKM_X	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9Y397|ZDHC9_HUMAN	40.6	1L6N_A	6BMS_A	6UCA_B	6UCA_D
+sp|P04591|GAG_HV1H2	sp|A0A075B6N3|TVBX1_HUMAN	40.6	1L6N_A	5E9D_J	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A5A6|TVBK3_HUMAN	40.6	1L6N_A	6GJS_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O75444|MAF_HUMAN	40.6	1L6N_A	1K1V_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q8TBK6|ZCH10_HUMAN	40.6	1L6N_A	3E2U_G	6ICZ_Z	6ICZ_U
+sp|Q96MU7|YTDC1_HUMAN	sp|P04591|GAG_HV1H2	40.6	2YUD_A	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q9P2E8|MARH4_HUMAN	40.6	1L6N_A	2M6M_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9UPR0|PLCL2_HUMAN	40.6	1L6N_A	2ZKM_X	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9Y397|ZDHC9_HUMAN	40.6	1L6N_A	6BMS_A	6UCA_D	6UCA_B
+sp|P04601|NEF_HV1H2	sp|A0A5A2|TVB58_HUMAN	40.6	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|P19622|HME2_HUMAN	40.6	3MI9_C	1MH3_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A087WT03|TVAZ1_HUMAN	40.6	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P03979|TRGV3_HUMAN	40.6	2X7L_R	5GIS_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A0G2JP03|A0A0G2JP03_HUMAN	40.6	2X7L_R	1NKR_A	2X7L_R	5I8O_H
+sp|Q96MU7|YTDC1_HUMAN	sp|P04585|POL_HV1H2	40.6	2YUD_A	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|Q9NYW4|TA2R5_HUMAN	sp|P04578|ENV_HV1H2	40.6	5UEN_B	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|Q5D862|FILA2_HUMAN	40.5	1L6N_A	2M9G_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q66PJ3|AR6P4_HUMAN	40.5	1L6N_A	1LSH_B	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q9BRK5|CAB45_HUMAN	40.5	1L6N_A	4I5J_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	tr|A0A0A0MS03|A0A0A0MS03_HUMAN	40.5	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q5D862|FILA2_HUMAN	40.5	1L6N_A	2M9G_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q66PJ3|AR6P4_HUMAN	40.5	1L6N_A	1LSH_B	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q9BRK5|CAB45_HUMAN	40.5	1L6N_A	4I5J_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	tr|A0A0A0MS03|A0A0A0MS03_HUMAN	40.5	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|O60667|FAIM3_HUMAN	40.5	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q86XI2|CNDG2_HUMAN	40.5	3TB8_A	5OQQ_B	6CRI_Z	6CRI_I
+sp|P04618|REV_HV1H2	sp|A0A1B0GX56|TRDV1_HUMAN	40.5	2X7L_R	5YXU_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P08887|IL6RA_HUMAN	40.5	2X7L_R	1N26_A	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q9BZW8|CD244_HUMAN	40.5	2X7L_R	6A69_B	2X7L_R	5I8O_L
+sp|P69726|VPR_HV1H2	sp|Q8WYQ9|ZCH14_HUMAN	40.5	1ESX_A	2FE9_A	5AJA_B	5AJA_C
+sp|A0M8Q6|IGLC7_HUMAN	sp|P04601|NEF_HV1H2	40.5	6U07_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q8TD07|RAE1E_HUMAN	sp|P04585|POL_HV1H2	40.5	1DE4_G	1L6N_A	6CPL_A	2XXM_A
+sp|Q8TD07|RAE1E_HUMAN	sp|P04591|GAG_HV1H2	40.5	1DE4_G	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|P40259|CD79B_HUMAN	40.4	6PWU_E	3KG5_A	6UM5_E	6CBP_A
+sp|P04585|POL_HV1H2	sp|P40259|CD79B_HUMAN	40.4	1L6N_A	3KG5_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q07352|TISB_HUMAN	40.4	1L6N_A	1RGO_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q86Y37|CACL1_HUMAN	40.4	1L6N_A	4WQO_D	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	sp|Q8N4C6|NIN_HUMAN	40.4	1L6N_A	4P5W_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9H2W2|MIXL1_HUMAN	40.4	1L6N_A	1MH3_A	6BK8_O	6J6G_A
+sp|P0CB47|UBFL1_HUMAN	sp|P04591|GAG_HV1H2	40.4	3TQ6_B	1L6N_A	6CIL_N	6OET_C
+sp|P04591|GAG_HV1H2	sp|P40259|CD79B_HUMAN	40.4	1L6N_A	3KG5_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q07352|TISB_HUMAN	40.4	1L6N_A	1RGO_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q86Y37|CACL1_HUMAN	40.4	1L6N_A	4WQO_D	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|Q8N4C6|NIN_HUMAN	40.4	1L6N_A	4P5W_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9H2W2|MIXL1_HUMAN	40.4	1L6N_A	1MH3_A	6BK8_O	6J6G_A
+sp|P04601|NEF_HV1H2	sp|Q8TCX1|DC2L1_HUMAN	40.4	3TB8_A	6SC2_E	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|Q9H0R5|GBP3_HUMAN	40.4	3TB8_A	1F5N_A	6CRI_Z	6DFF_C
+sp|P04608|TAT_HV1H2	sp|Q06587|RING1_HUMAN	40.4	3MI9_C	2CKL_B	3MI9_C	2PK2_B
+sp|Q9NYW7|TA2R1_HUMAN	sp|P04578|ENV_HV1H2	40.4	5XJM_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|P40198|CEAM3_HUMAN	40.3	6PWU_E	1E07_A	3U2S_C	5N2K_F
+sp|P04578|ENV_HV1H2	sp|Q29980|MICB_HUMAN	40.3	6PWU_E	2WY3_A	2NY2_A	4HJJ_L
+sp|P04585|POL_HV1H2	sp|Q5JS37|NHLC3_HUMAN	40.3	1L6N_A	1Q7F_A	6ICZ_Z	5MQF_F
+sp|P04585|POL_HV1H2	sp|Q9UJX4|APC5_HUMAN	40.3	1L6N_A	6Q6H_O	6BK8_O	6J6H_v
+sp|P04591|GAG_HV1H2	sp|A0A0B4J234|TVA2_HUMAN	40.3	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q5JS37|NHLC3_HUMAN	40.3	1L6N_A	1Q7F_A	6ICZ_Z	5MQF_F
+sp|Q8IY47|KBTB2_HUMAN	sp|P04591|GAG_HV1H2	40.3	4HXI_A	1L6N_A	6CIL_B	6OET_C
+sp|P04591|GAG_HV1H2	sp|Q9UJX4|APC5_HUMAN	40.3	1L6N_A	6Q6H_O	6BK8_O	6J6H_v
+sp|P04601|NEF_HV1H2	sp|P0DMS9|TMIG3_HUMAN	40.3	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P42695|CNDD3_HUMAN	40.3	3TB8_A	5ME3_A	6OWT_N	6OWT_A
+sp|P04608|TAT_HV1H2	sp|Q9H4S2|GSX1_HUMAN	40.3	3MI9_C	1MH3_A	3MI9_C	2PK2_B
+sp|P69723|VIF_HV1H2	sp|Q8NA54|IQUB_HUMAN	40.3	4N9F_b	2DAF_A	4N9F_b	2MA9_B
+sp|P59535|T2R40_HUMAN	sp|P04578|ENV_HV1H2	40.3	6UP7_R	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|A6NF34|ANTRL_HUMAN	40.2	1L6N_A	1TZN_b	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|O00482|NR5A2_HUMAN	40.2	1L6N_A	3TX7_B	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|O75469|NR1I2_HUMAN	40.2	1L6N_A	4X1F_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|O95718|ERR2_HUMAN	40.2	1L6N_A	5UAN_B	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P03372|ESR1_HUMAN	40.2	1L6N_A	2OCF_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P04150|GCR_HUMAN	40.2	1L6N_A	4NQA_I	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P06401|PRGR_HUMAN	40.2	1L6N_A	3DZY_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P08235|MCR_HUMAN	40.2	1L6N_A	4NQA_I	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P10275|ANDR_HUMAN	40.2	1L6N_A	3DZY_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P10276|RARA_HUMAN	40.2	1L6N_A	6FX0_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P10588|NR2F6_HUMAN	40.2	1L6N_A	3DZY_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P10589|COT1_HUMAN	40.2	1L6N_A	3DZY_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P10826|RARB_HUMAN	40.2	1L6N_A	6FX0_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P10827|THA_HUMAN	40.2	1L6N_A	6FX0_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P10828|THB_HUMAN	40.2	1L6N_A	6FX0_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P11473|VDR_HUMAN	40.2	1L6N_A	5E7V_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P11474|ERR1_HUMAN	40.2	1L6N_A	3DZY_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P13056|NR2C1_HUMAN	40.2	1L6N_A	3DZY_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P13631|RARG_HUMAN	40.2	1L6N_A	6FX0_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P19793|RXRA_HUMAN	40.2	1L6N_A	3DZY_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P20393|NR1D1_HUMAN	40.2	1L6N_A	6FX0_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P22736|NR4A1_HUMAN	40.2	1L6N_A	3DZY_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P35398|RORA_HUMAN	40.2	1L6N_A	6FX0_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P37231|PPARG_HUMAN	40.2	1L6N_A	3DZY_D	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P41235|HNF4A_HUMAN	40.2	1L6N_A	4IQR_F	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P43354|NR4A2_HUMAN	40.2	1L6N_A	3DZY_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P48443|RXRG_HUMAN	40.2	1L6N_A	3DZY_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P49116|NR2C2_HUMAN	40.2	1L6N_A	3DZY_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P51449|RORG_HUMAN	40.2	1L6N_A	6FX0_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P51843|NR0B1_HUMAN	40.2	1L6N_A	3F5C_B	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P55055|NR1H2_HUMAN	40.2	1L6N_A	4NQA_I	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|P62508|ERR3_HUMAN	40.2	1L6N_A	6FX0_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|Q03181|PPARD_HUMAN	40.2	1L6N_A	3E00_D	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|Q07869|PPARA_HUMAN	40.2	1L6N_A	3E00_D	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|Q13133|NR1H3_HUMAN	40.2	1L6N_A	4NQA_I	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|Q14541|HNF4G_HUMAN	40.2	1L6N_A	4IQR_F	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|Q14994|NR1I3_HUMAN	40.2	1L6N_A	5UAN_B	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|Q14995|NR1D2_HUMAN	40.2	1L6N_A	6FX0_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|Q15406|NR6A1_HUMAN	40.2	1L6N_A	4NQA_I	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|Q15466|NR0B2_HUMAN	40.2	1L6N_A	3F5C_B	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|Q92570|NR4A3_HUMAN	40.2	1L6N_A	3DZY_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|Q92731|ESR2_HUMAN	40.2	1L6N_A	3DZY_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|Q92753|RORB_HUMAN	40.2	1L6N_A	6FX0_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|Q96M27|PRRC1_HUMAN	40.2	1L6N_A	1ZWY_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q96RI1|NR1H4_HUMAN	40.2	1L6N_A	6FX0_A	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|Q9BSW2|EFC4B_HUMAN	40.2	1L6N_A	2SAS_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9UFE4|CCD39_HUMAN	40.2	1L6N_A	6WG3_B	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	sp|Q9Y466|NR2E1_HUMAN	40.2	1L6N_A	4NQA_I	3HST_B	4XAJ_B
+sp|P04585|POL_HV1H2	sp|Q9Y5X4|NR2E3_HUMAN	40.2	1L6N_A	3DZY_A	3HST_B	4XAJ_B
+sp|P04591|GAG_HV1H2	sp|A6NF34|ANTRL_HUMAN	40.2	1L6N_A	1TZN_b	6ICZ_Z	6ID1_O
+sp|P0CB48|UBFL6_HUMAN	sp|P04591|GAG_HV1H2	40.2	3TQ6_B	1L6N_A	6CIL_N	6OET_C
+sp|P04591|GAG_HV1H2	sp|Q96M27|PRRC1_HUMAN	40.2	1L6N_A	1ZWY_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9BSW2|EFC4B_HUMAN	40.2	1L6N_A	2SAS_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9UFE4|CCD39_HUMAN	40.2	1L6N_A	6WG3_B	6ICZ_Z	6ICZ_V
+sp|P04601|NEF_HV1H2	sp|Q15021|CND1_HUMAN	40.2	3TB8_A	6QJ3_A	6OWT_N	6OWT_A
+sp|P04618|REV_HV1H2	sp|Q96H15|TIMD4_HUMAN	40.2	2X7L_R	5F7H_A	2X7L_R	5I8O_L
+sp|P69726|VPR_HV1H2	sp|Q5JS37|NHLC3_HUMAN	40.2	1ESX_A	1Q7F_A	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|A0A0K0K1C0|TVBK1_HUMAN	40.1	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|O75153|CLU_HUMAN	40.1	1L6N_A	1SGO_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|P08887|IL6RA_HUMAN	40.1	1L6N_A	1N26_A	1R0A_A	2XKN_C
+sp|P04585|POL_HV1H2	sp|P19105|ML12A_HUMAN	40.1	1L6N_A	2MYS_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P35244|RFA3_HUMAN	40.1	1L6N_A	3KDF_C	6D6V_A	6D6V_F
+sp|P04585|POL_HV1H2	sp|P78332|RBM6_HUMAN	40.1	1L6N_A	4PKD_B	6D6V_A	6D6V_H
+sp|P04585|POL_HV1H2	sp|Q14159|SPIDR_HUMAN	40.1	1L6N_A	3U50_C	6D6V_A	6D6V_D
+sp|P04585|POL_HV1H2	sp|Q6NSI4|RADX_HUMAN	40.1	1L6N_A	1MJE_A	6D6V_A	6D6V_D
+sp|P04585|POL_HV1H2	sp|Q71RC2|LARP4_HUMAN	40.1	1L6N_A	6D6V_H	6D6V_A	6D6V_H
+sp|P04585|POL_HV1H2	sp|Q86SG3|DAZ4_HUMAN	40.1	1L6N_A	2N6D_A	6D6V_A	6D6V_H
+sp|P04585|POL_HV1H2	sp|Q86V20|SHLD2_HUMAN	40.1	1L6N_A	6KTO_D	6D6V_A	6D6V_D
+sp|P04585|POL_HV1H2	sp|Q8IXT1|DDIAS_HUMAN	40.1	1L6N_A	1L1O_C	6D6V_A	6D6V_D
+sp|P04585|POL_HV1H2	sp|Q8IXT5|RB12B_HUMAN	40.1	1L6N_A	4N0T_A	6D6V_A	6D6V_H
+sp|P04585|POL_HV1H2	sp|Q8N635|MEIOB_HUMAN	40.1	1L6N_A	4GNX_C	6D6V_A	6D6V_D
+sp|P04585|POL_HV1H2	sp|Q92615|LAR4B_HUMAN	40.1	1L6N_A	6D6V_H	6D6V_A	6D6V_H
+sp|P04585|POL_HV1H2	sp|Q96AH0|SOSB2_HUMAN	40.1	1L6N_A	4OWT_B	6D6V_A	6D6V_D
+sp|P04585|POL_HV1H2	sp|Q9BQ15|SOSB1_HUMAN	40.1	1L6N_A	4OWW_B	6D6V_A	6D6V_D
+sp|P04585|POL_HV1H2	sp|Q9NQZ3|DAZ1_HUMAN	40.1	1L6N_A	6N7R_F	6D6V_A	6D6V_H
+sp|P04585|POL_HV1H2	sp|Q9NUX5|POTE1_HUMAN	40.1	1L6N_A	5UN7_A	6D6V_A	6D6V_D
+sp|P04585|POL_HV1H2	sp|Q9Y3A4|RRP7A_HUMAN	40.1	1L6N_A	5WYJ_C	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9Y4F3|MARF1_HUMAN	40.1	1L6N_A	5YAD_A	6D6V_A	6D6V_H
+sp|P04591|GAG_HV1H2	sp|O75153|CLU_HUMAN	40.1	1L6N_A	1SGO_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|P19105|ML12A_HUMAN	40.1	1L6N_A	2MYS_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9Y3A4|RRP7A_HUMAN	40.1	1L6N_A	5WYJ_C	6BK8_O	6J6G_R
+sp|P04601|NEF_HV1H2	sp|A0A0J9YX75|TVB69_HUMAN	40.1	3TB8_A	5E9D_E	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	tr|A0A075B6H5|A0A075B6H5_HUMAN	40.1	2X7L_R	2WBJ_D	2X7L_R	5I8O_H
+sp|P69723|VIF_HV1H2	sp|P05161|ISG15_HUMAN	40.1	4N9F_b	6BI8_D	4N9F_b	2MA9_B
+sp|P69726|VPR_HV1H2	sp|Q96PE2|ARHGH_HUMAN	40.1	1ESX_A	6L30_A	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|A0A5A6|TVBK3_HUMAN	40.0	6PWU_E	6GJS_B	6NIJ_B	3U1S_H
+sp|P25311|ZA2G_HUMAN	sp|P04578|ENV_HV1H2	40.0	1ZAG_B	6PWU_E	2F58_H	6MUF_G
+sp|P04585|POL_HV1H2	sp|O43745|CHP2_HUMAN	40.0	1L6N_A	2BEC_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|O95218|ZRAB2_HUMAN	40.0	1L6N_A	1N0Z_A	6BK8_O	6J6G_Z
+sp|Q14626|I11RA_HUMAN	sp|P04585|POL_HV1H2	40.0	6O4P_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q8IWR0|Z3H7A_HUMAN	40.0	1L6N_A	2D9M_A	6ICZ_Z	6ID1_O
+sp|Q8N7X8|SIGL1_HUMAN	sp|P04585|POL_HV1H2	40.0	5A2F_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|Q8WWM7|ATX2L_HUMAN	40.0	1L6N_A	1Y96_D	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|Q9H8Y1|VRTN_HUMAN	40.0	1L6N_A	2LVS_A	4FCY_A	4FCY_B
+sp|P04591|GAG_HV1H2	sp|O43745|CHP2_HUMAN	40.0	1L6N_A	2BEC_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|O95218|ZRAB2_HUMAN	40.0	1L6N_A	1N0Z_A	6BK8_O	6J6G_Z
+sp|Q14626|I11RA_HUMAN	sp|P04591|GAG_HV1H2	40.0	6O4P_A	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|Q8IWR0|Z3H7A_HUMAN	40.0	1L6N_A	2D9M_A	6ICZ_Z	6ID1_O
+sp|Q8N7X8|SIGL1_HUMAN	sp|P04591|GAG_HV1H2	40.0	5A2F_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	sp|Q8WWM7|ATX2L_HUMAN	40.0	1L6N_A	1Y96_D	6ICZ_Z	4F7U_A
+sp|P04601|NEF_HV1H2	sp|A0A075B6J2|LV233_HUMAN	40.0	3TB8_A	6ULC_L	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0J9YXY3|TVB62_HUMAN	40.0	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|A0A1B0GX95|TVB74_HUMAN	sp|P04601|NEF_HV1H2	40.0	1YJD_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04601|NEF_HV1H2	sp|P0DPF7|TVB63_HUMAN	40.0	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0B4J244|TVA3_HUMAN	40.0	2X7L_R	1MWA_C	2X7L_R	5I8O_H
+sp|Q9P0V8|SLAF8_HUMAN	sp|P04591|GAG_HV1H2	40.0	6JXR_n	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|A0A0A6YYD4|TVB13_HUMAN	39.9	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O43255|SIAH2_HUMAN	39.9	1L6N_A	4CA1_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|P79522|PRR3_HUMAN	39.9	1L6N_A	6PMG_X	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P84550|SKOR1_HUMAN	39.9	1L6N_A	1MR1_C	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q14149|MORC3_HUMAN	39.9	1L6N_A	6O1E_A	6ICZ_Z	6ID1_L
+sp|P04585|POL_HV1H2	sp|Q7Z6J2|GRASP_HUMAN	39.9	1L6N_A	2EGO_B	6BK8_O	6J6G_A
+sp|Q96BF3|TMIG2_HUMAN	sp|P04585|POL_HV1H2	39.9	5OR7_C	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	sp|A0A0A6YYD4|TVB13_HUMAN	39.9	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O43255|SIAH2_HUMAN	39.9	1L6N_A	4CA1_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|P79522|PRR3_HUMAN	39.9	1L6N_A	6PMG_X	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P84550|SKOR1_HUMAN	39.9	1L6N_A	1MR1_C	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q14149|MORC3_HUMAN	39.9	1L6N_A	6O1E_A	6ICZ_Z	6ID1_L
+sp|P04591|GAG_HV1H2	sp|Q7Z6J2|GRASP_HUMAN	39.9	1L6N_A	2EGO_B	6BK8_O	6J6G_A
+sp|Q96BF3|TMIG2_HUMAN	sp|P04591|GAG_HV1H2	39.9	5OR7_C	1L6N_A	6CPL_A	2XXM_A
+sp|A0A1B0GX51|TVB78_HUMAN	sp|P04601|NEF_HV1H2	39.9	1YJD_C	3TB8_A	5XOV_H	3TB8_A
+sp|A0A599|TVB56_HUMAN	sp|P04601|NEF_HV1H2	39.9	1YJD_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04608|TAT_HV1H2	sp|Q99967|CITE2_HUMAN	39.9	3MI9_C	1R8U_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A075B6N3|TVBX1_HUMAN	39.9	2X7L_R	5E9D_J	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|O14931|NCTR3_HUMAN	39.9	2X7L_R	5XSY_B	2X7L_R	5I8O_H
+sp|P69723|VIF_HV1H2	sp|A6NFN9|ANKUB_HUMAN	39.9	4N9F_b	6BI8_D	4N9F_b	2MA9_B
+sp|P04439|HLAA_HUMAN	sp|P04601|NEF_HV1H2	39.9	6AT5_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04585|POL_HV1H2	sp|P02462|CO4A1_HUMAN	39.8	1L6N_A	6MPX_A	6ICZ_Z	6S8Q_B
+sp|P04585|POL_HV1H2	sp|P23760|PAX3_HUMAN	39.8	1L6N_A	2H8R_B	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|P26022|PTX3_HUMAN	39.8	1L6N_A	6V55_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q8IZP7|H6ST3_HUMAN	39.8	1L6N_A	5T05_A	6BK8_O	6J6G_A
+sp|Q96DB5|RMD1_HUMAN	sp|P04585|POL_HV1H2	39.8	6CRL_A	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q9H628|RERGL_HUMAN	39.8	1L6N_A	5U4U_A	6BK8_O	6TEO_C
+sp|P04585|POL_HV1H2	sp|Q9NXF8|ZDHC7_HUMAN	39.8	1L6N_A	6BMN_B	6UCA_B	6UCA_D
+sp|P04591|GAG_HV1H2	sp|P02462|CO4A1_HUMAN	39.8	1L6N_A	6MPX_A	6ICZ_Z	6S8Q_B
+sp|P04591|GAG_HV1H2	sp|P26022|PTX3_HUMAN	39.8	1L6N_A	6V55_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q8IZP7|H6ST3_HUMAN	39.8	1L6N_A	5T05_A	6BK8_O	6J6G_A
+sp|Q96DB5|RMD1_HUMAN	sp|P04591|GAG_HV1H2	39.8	6CRL_A	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q9H628|RERGL_HUMAN	39.8	1L6N_A	5U4U_A	6BK8_O	6TEO_C
+sp|P04591|GAG_HV1H2	sp|Q9NXF8|ZDHC7_HUMAN	39.8	1L6N_A	6BMN_B	6UCA_D	6UCA_B
+sp|A6NE02|BTBDH_HUMAN	sp|P69723|VIF_HV1H2	39.8	4HXI_A	4N9F_b	6P59_Z	6P59_B
+sp|O60353|FZD6_HUMAN	sp|P04578|ENV_HV1H2	39.8	5V56_A	6PWU_E	6MEO_B	3J70_P
+sp|Q86T13|CLC14_HUMAN	sp|P04578|ENV_HV1H2	39.8	3P7G_B	6PWU_E	1QO3_C	3J70_P
+sp|Q29983|MICA_HUMAN	sp|P04578|ENV_HV1H2	39.7	2WY3_A	6PWU_E	4XMP_L	4JZZ_A
+sp|P04578|ENV_HV1H2	sp|Q6UX27|VSTM1_HUMAN	39.7	6PWU_E	5OR7_C	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|A6NLP5|TTC36_HUMAN	39.7	1L6N_A	6W5Q_H	6BK8_O	6J6H_v
+sp|P04585|POL_HV1H2	sp|Q68DK2|ZFY26_HUMAN	39.7	1L6N_A	3MPX_A	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|Q8IZ40|RCOR2_HUMAN	39.7	1L6N_A	4CZZ_B	6BK8_O	5WSG_c
+sp|P04585|POL_HV1H2	sp|Q8N6N2|TTC9B_HUMAN	39.7	1L6N_A	2IF4_A	6BK8_O	6J6H_v
+sp|P04585|POL_HV1H2	sp|Q9H0C1|ZMY12_HUMAN	39.7	1L6N_A	5OJ8_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|A6NLP5|TTC36_HUMAN	39.7	1L6N_A	6W5Q_H	6BK8_O	6J6H_v
+sp|P04591|GAG_HV1H2	sp|Q68DK2|ZFY26_HUMAN	39.7	1L6N_A	3MPX_A	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|Q8IZ40|RCOR2_HUMAN	39.7	1L6N_A	4CZZ_B	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|Q8N6N2|TTC9B_HUMAN	39.7	1L6N_A	2IF4_A	6BK8_O	6J6H_v
+sp|P04591|GAG_HV1H2	sp|Q9H0C1|ZMY12_HUMAN	39.7	1L6N_A	5OJ8_A	6BK8_O	6J6H_d
+sp|P04601|NEF_HV1H2	sp|P01733|TVBL3_HUMAN	39.7	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q495A1|TIGIT_HUMAN	39.7	3TB8_A	3UCR_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q96BF3|TMIG2_HUMAN	39.7	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|Q96PP9|GBP4_HUMAN	sp|P04601|NEF_HV1H2	39.7	1F5N_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P01893|HLAH_HUMAN	sp|P04601|NEF_HV1H2	39.7	6AT5_A	3TB8_A	5XOV_H	3TB8_A
+sp|P24071|FCAR_HUMAN	sp|P04585|POL_HV1H2	39.7	1UCT_A	1L6N_A	5T70_G	3GV2_A
+sp|P24071|FCAR_HUMAN	sp|P04591|GAG_HV1H2	39.7	1UCT_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q8N3J2|METL4_HUMAN	39.6	1L6N_A	5K7W_B	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q96B70|LENG9_HUMAN	39.6	1L6N_A	3J4R_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q96QC0|PP1RA_HUMAN	39.6	1L6N_A	6VTI_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q8N3J2|METL4_HUMAN	39.6	1L6N_A	5K7W_B	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q96B70|LENG9_HUMAN	39.6	1L6N_A	3J4R_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q96QC0|PP1RA_HUMAN	39.6	1L6N_A	6VTI_A	6BK8_O	6J6G_R
+sp|P04601|NEF_HV1H2	sp|A0A075B6N3|TVBX1_HUMAN	39.6	3TB8_A	5E9D_J	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A087X0M5|TVB18_HUMAN	39.6	3TB8_A	5WB2_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0B4J234|TVA2_HUMAN	39.6	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0B4J2E0|TVBL4_HUMAN	39.6	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q8TF17|S3TC2_HUMAN	39.6	3TB8_A	5A7D_C	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A0C4DH28|TRGV4_HUMAN	39.6	2X7L_R	5I0Z_A	2X7L_R	5I8O_H
+sp|P04578|ENV_HV1H2	sp|W5XKT8|SACA6_HUMAN	39.5	6PWU_E	5JK9_D	6NIJ_B	5WHZ_L
+sp|P04585|POL_HV1H2	sp|O14950|ML12B_HUMAN	39.5	1L6N_A	2MYS_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q6NYC1|JMJD6_HUMAN	39.5	1L6N_A	6GDY_B	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	sp|Q6VN20|RBP10_HUMAN	39.5	1L6N_A	6SWY_1	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	sp|Q8WUQ7|CATIN_HUMAN	39.5	1L6N_A	6QDV_F	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|O14950|ML12B_HUMAN	39.5	1L6N_A	2MYS_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q6NYC1|JMJD6_HUMAN	39.5	1L6N_A	6GDY_B	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|Q6VN20|RBP10_HUMAN	39.5	1L6N_A	6SWY_1	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|Q8WUQ7|CATIN_HUMAN	39.5	1L6N_A	6QDV_F	6BK8_O	6J6G_Z
+sp|P04601|NEF_HV1H2	sp|P08887|IL6RA_HUMAN	39.5	3TB8_A	1N26_A	4ORZ_B	5MZV_D
+sp|Q7L311|ARMX2_HUMAN	sp|P04601|NEF_HV1H2	39.5	1XQR_A	3TB8_A	4NEE_G	3TB8_A
+sp|P04601|NEF_HV1H2	sp|Q9P2D3|HTR5B_HUMAN	39.5	3TB8_A	5VCH_A	6OWT_N	6OWT_A
+sp|P04618|REV_HV1H2	sp|A0A578|TVB51_HUMAN	39.5	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P69723|VIF_HV1H2	sp|Q8WTU0|DDI1_HUMAN	39.5	4N9F_b	4RGH_A	4N9F_b	2MA9_B
+sp|P69726|VPR_HV1H2	sp|Q9Y2X0|MED16_HUMAN	39.5	1ESX_A	6RM3_S	5JK7_F	5JK7_E
+sp|P33993|MCM7_HUMAN	sp|P04601|NEF_HV1H2	39.5	3JC6_7	3TB8_A	6CRI_L	6CRI_Z
+sp|A0A539|TVB42_HUMAN	sp|P04578|ENV_HV1H2	39.4	1YJD_C	6PWU_E	6UDK_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|Q86YD3|TMM25_HUMAN	39.4	6PWU_E	6A69_B	2NY2_A	4HJJ_L
+sp|P04585|POL_HV1H2	sp|A0A0A6YYK1|TVA81_HUMAN	39.4	1L6N_A	6FRC_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q14152|EIF3A_HUMAN	39.4	1L6N_A	6YAM_y	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|Q8TDI8|TMC1_HUMAN	39.4	1L6N_A	6GMH_Z	6ICZ_Z	6ID0_W
+sp|P04585|POL_HV1H2	sp|Q9NUE0|ZDH18_HUMAN	39.4	1L6N_A	6BMN_B	6UCA_B	6UCA_D
+sp|Q9Y2M5|KLH20_HUMAN	sp|P04585|POL_HV1H2	39.4	4YY8_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|A0A0A6YYK1|TVA81_HUMAN	39.4	1L6N_A	6FRC_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q14152|EIF3A_HUMAN	39.4	1L6N_A	6YAM_y	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|Q8TDI8|TMC1_HUMAN	39.4	1L6N_A	6GMH_Z	6ICZ_Z	6ID0_W
+sp|P04591|GAG_HV1H2	sp|Q9NUE0|ZDH18_HUMAN	39.4	1L6N_A	6BMN_B	6UCA_D	6UCA_B
+sp|A6NI73|LIRA5_HUMAN	sp|P04601|NEF_HV1H2	39.4	2D3V_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q8IYS5|OSCAR_HUMAN	sp|P04601|NEF_HV1H2	39.4	5EIQ_A	3TB8_A	5XOV_H	3TB8_A
+sp|P01906|DQA2_HUMAN	sp|P04578|ENV_HV1H2	39.3	2P24_A	6PWU_E	6BF4_B	3NGB_D
+sp|P04585|POL_HV1H2	sp|B4DYI2|S31C2_HUMAN	39.3	1L6N_A	3JC9_O	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|O15169|AXIN1_HUMAN	39.3	1L6N_A	2D5G_B	4RGH_A	4RGH_A
+sp|P04585|POL_HV1H2	sp|Q96IZ7|RSRC1_HUMAN	39.3	1L6N_A	6QX9_K	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|B4DYI2|S31C2_HUMAN	39.3	1L6N_A	3JC9_O	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q96IZ7|RSRC1_HUMAN	39.3	1L6N_A	6QX9_K	6ICZ_Z	6ICZ_U
+sp|P04601|NEF_HV1H2	sp|A0A0A6YYD4|TVB13_HUMAN	39.3	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A578|TVB51_HUMAN	39.3	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q6ZUX3|TGRM2_HUMAN	39.3	3TB8_A	6MZE_Z	6CRI_Z	6CRI_I
+sp|P04618|REV_HV1H2	sp|A0A075B6J2|LV233_HUMAN	39.3	2X7L_R	6ULC_L	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|A0A0J9YX75|TVB69_HUMAN	39.3	2X7L_R	5E9D_E	2X7L_R	5I8O_H
+sp|P06576|ATPB_HUMAN	sp|P04601|NEF_HV1H2	39.3	6REF_Z	3TB8_A	6CRI_L	6CRI_Z
+sp|P06126|CD1A_HUMAN	sp|P04578|ENV_HV1H2	39.2	5J1A_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|Q07283|TRHY_HUMAN	39.2	1L6N_A	2M9G_B	2MGU_M	5DOW_A
+sp|Q9BQS8|FYCO1_HUMAN	sp|P04585|POL_HV1H2	39.2	2DWK_A	1L6N_A	5O2U_C	5TEO_B
+sp|P04585|POL_HV1H2	sp|Q9H115|SNAB_HUMAN	39.2	1L6N_A	3J99_G	6ICZ_Z	6ID1_I
+sp|P04591|GAG_HV1H2	sp|Q07283|TRHY_HUMAN	39.2	1L6N_A	2M9G_B	2MGU_M	5DOW_A
+sp|Q9BQS8|FYCO1_HUMAN	sp|P04591|GAG_HV1H2	39.2	2DWK_A	1L6N_A	5O2U_C	5TEO_B
+sp|P04591|GAG_HV1H2	sp|Q9H115|SNAB_HUMAN	39.2	1L6N_A	3J99_G	6ICZ_Z	6ID1_I
+sp|P04601|NEF_HV1H2	sp|Q01151|CD83_HUMAN	39.2	3TB8_A	5MJ2_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q5H9R4|ARMX4_HUMAN	39.2	3TB8_A	1XQR_A	6OWT_N	6OWT_A
+sp|P04618|REV_HV1H2	sp|Q495A1|TIGIT_HUMAN	39.2	2X7L_R	3UCR_C	6CF2_F	5DHY_A
+sp|P04618|REV_HV1H2	tr|A0A5K1VDZ0|A0A5K1VDZ0_HUMAN	39.2	2X7L_R	3VH8_H	2X7L_R	5I8O_H
+sp|P52701|MSH6_HUMAN	sp|P04601|NEF_HV1H2	39.2	2O8B_B	3TB8_A	6CRI_L	6CRI_Z
+sp|Q9NYV9|T2R13_HUMAN	sp|P04578|ENV_HV1H2	39.2	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q02930|CREB5_HUMAN	39.1	6PWU_E	6MG2_B	2X7R_N	1FAV_A
+sp|Q99985|SEM3C_HUMAN	sp|P04578|ENV_HV1H2	39.1	6QP7_B	6PWU_E	6MET_A	3J70_P
+sp|P04585|POL_HV1H2	sp|A0A075B6I7|LV548_HUMAN	39.1	1L6N_A	6HD8_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A0A0MS00|LV332_HUMAN	39.1	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A0K0K1C4|TVB27_HUMAN	39.1	1L6N_A	5E9D_E	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O75154|RFIP3_HUMAN	39.1	1L6N_A	2HV8_E	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P02746|C1QB_HUMAN	39.1	1L6N_A	5HKJ_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q10586|DBP_HUMAN	39.1	1L6N_A	4U5T_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q3B726|RPA43_HUMAN	39.1	1L6N_A	2RF4_C	6ICZ_Z	6ICZ_U
+sp|P04585|POL_HV1H2	sp|Q7Z6G3|NECA2_HUMAN	39.1	1L6N_A	2PD1_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q8N9I9|DTX3_HUMAN	39.1	1L6N_A	3PG6_C	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8NFJ9|BBS1_HUMAN	39.1	1L6N_A	6XT9_A	6ICZ_Z	6ID0_W
+sp|Q92854|SEM4D_HUMAN	sp|P04585|POL_HV1H2	39.1	1OLZ_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q99958|FOXC2_HUMAN	39.1	1L6N_A	6AKP_C	6AR3_D	6AR3_D
+tr|A0A1W2PRS3|A0A1W2PRS3_HUMAN	sp|P04585|POL_HV1H2	39.1	3VH8_H	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6I7|LV548_HUMAN	39.1	1L6N_A	6HD8_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0A0MS00|LV332_HUMAN	39.1	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0K0K1C4|TVB27_HUMAN	39.1	1L6N_A	5E9D_E	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O75154|RFIP3_HUMAN	39.1	1L6N_A	2HV8_E	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P02746|C1QB_HUMAN	39.1	1L6N_A	5HKJ_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q10586|DBP_HUMAN	39.1	1L6N_A	4U5T_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q3B726|RPA43_HUMAN	39.1	1L6N_A	2RF4_C	6ICZ_Z	6ICZ_U
+sp|P04591|GAG_HV1H2	sp|Q7Z6G3|NECA2_HUMAN	39.1	1L6N_A	2PD1_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8N9I9|DTX3_HUMAN	39.1	1L6N_A	3PG6_C	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8NFJ9|BBS1_HUMAN	39.1	1L6N_A	6XT9_A	6ICZ_Z	6ID0_W
+sp|Q92854|SEM4D_HUMAN	sp|P04591|GAG_HV1H2	39.1	1OLZ_A	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J262|TVA86_HUMAN	39.1	3TB8_A	2J8U_L	4ORZ_B	5MZV_D
+sp|P01732|CD8A_HUMAN	sp|P04601|NEF_HV1H2	39.1	5OR7_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04601|NEF_HV1H2	sp|Q86YW5|TRML1_HUMAN	39.1	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|Q14954|KI2S1_HUMAN	39.1	2X7L_R	1B6U_A	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	tr|A0A0G2JQ47|A0A0G2JQ47_HUMAN	39.1	2X7L_R	1B6U_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q6ZUX3|TGRM2_HUMAN	39.1	2N28_A	6MZE_Z	4P6Z_V	4P6Z_B
+tr|A0A1W2PRS3|A0A1W2PRS3_HUMAN	sp|P04591|GAG_HV1H2	39.1	3VH8_H	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|A0A589|TVB43_HUMAN	39.0	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|O60885|BRD4_HUMAN	39.0	1L6N_A	6DNE_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q13064|MKRN3_HUMAN	39.0	1L6N_A	6FF7_t	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q8N5S1|S2541_HUMAN	39.0	1L6N_A	4C9G_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8TF65|GIPC2_HUMAN	39.0	1L6N_A	5V6B_B	6BK8_O	6BK8_P
+sp|P04585|POL_HV1H2	sp|Q96B36|AKTS1_HUMAN	39.0	1L6N_A	6SB0_O	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9BQI0|AIF1L_HUMAN	39.0	1L6N_A	2VTG_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9Y6U7|RN215_HUMAN	39.0	1L6N_A	4CDJ_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|O60885|BRD4_HUMAN	39.0	1L6N_A	6DNE_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q13064|MKRN3_HUMAN	39.0	1L6N_A	6FF7_t	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q8N5S1|S2541_HUMAN	39.0	1L6N_A	4C9G_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8TF65|GIPC2_HUMAN	39.0	1L6N_A	5V6B_B	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|Q92834|RPGR_HUMAN	39.0	1L6N_A	4JHN_D	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q96B36|AKTS1_HUMAN	39.0	1L6N_A	6SB0_O	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9BQI0|AIF1L_HUMAN	39.0	1L6N_A	2VTG_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9Y6U7|RN215_HUMAN	39.0	1L6N_A	4CDJ_B	6BK8_O	6J6G_A
+sp|P04601|NEF_HV1H2	sp|A0A597|TVB55_HUMAN	39.0	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P49418|AMPH_HUMAN	39.0	3TB8_A	4ATM_A	4U5W_C	4U5W_B
+sp|Q8N8V2|GBP7_HUMAN	sp|P04601|NEF_HV1H2	39.0	1F5N_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P05919|VPU_HV1H2	sp|Q86XI2|CNDG2_HUMAN	39.0	2N28_A	5OQQ_B	4P6Z_V	4P6Z_B
+sp|P04578|ENV_HV1H2	sp|O95025|SEM3D_HUMAN	38.9	6PWU_E	6QP7_B	3J70_P	4Q6I_J
+sp|P04578|ENV_HV1H2	sp|P04216|THY1_HUMAN	38.9	6PWU_E	5XSY_B	2NY2_A	4HJJ_L
+sp|P04585|POL_HV1H2	sp|O94889|KLH18_HUMAN	38.9	1L6N_A	4YY8_A	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|P26367|PAX6_HUMAN	38.9	1L6N_A	6PAX_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|P62633|CNBP_HUMAN	38.9	1L6N_A	2LLI_A	6R24_C	6R24_C
+sp|P04585|POL_HV1H2	sp|Q0VF96|CGNL1_HUMAN	38.9	1L6N_A	6FSA_A	6ICZ_Z	6ID1_L
+sp|P04585|POL_HV1H2	sp|Q8IXM2|BAP18_HUMAN	38.9	1L6N_A	6CW3_E	6ICZ_Z	6ID1_L
+tr|A0A0G2JNG1|A0A0G2JNG1_HUMAN	sp|P04585|POL_HV1H2	38.9	1B6U_A	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|P62633|CNBP_HUMAN	38.9	1L6N_A	2LLI_A	6R23_B	6R23_B
+sp|P04591|GAG_HV1H2	sp|Q0VF96|CGNL1_HUMAN	38.9	1L6N_A	6FSA_A	6ICZ_Z	6ID1_L
+sp|P04591|GAG_HV1H2	sp|Q8IXM2|BAP18_HUMAN	38.9	1L6N_A	6CW3_E	6ICZ_Z	6ID1_L
+sp|P04601|NEF_HV1H2	sp|O94955|RHBT3_HUMAN	38.9	3TB8_A	4U2M_D	6CRI_Z	6DFF_C
+sp|Q96PP8|GBP5_HUMAN	sp|P04601|NEF_HV1H2	38.9	1F5N_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P69726|VPR_HV1H2	sp|Q5PRF9|SMAG2_HUMAN	38.9	1ESX_A	1OXJ_A	5AJA_B	5AJA_C
+sp|P69726|VPR_HV1H2	sp|Q86VZ5|SMS1_HUMAN	38.9	1ESX_A	2D8C_A	4Z8L_B	4Z8L_F
+tr|A0A0G2JNG1|A0A0G2JNG1_HUMAN	sp|P04591|GAG_HV1H2	38.9	1B6U_A	1L6N_A	5T70_G	3GV2_A
+sp|P62140|PP1B_HUMAN	sp|P04585|POL_HV1H2	38.8	4IL1_C	1L6N_A	6HMS_A	6T8H_B
+sp|P04585|POL_HV1H2	sp|Q8WV24|PHLA1_HUMAN	38.8	1L6N_A	6ODM_O	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9UMQ6|CAN11_HUMAN	38.8	1L6N_A	1KFU_L	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9Y2U8|MAN1_HUMAN	38.8	1L6N_A	2CH0_A	6ICZ_Z	6ID1_O
+sp|P62140|PP1B_HUMAN	sp|P04591|GAG_HV1H2	38.8	4IL1_C	1L6N_A	6HMS_A	6T8H_B
+sp|P04591|GAG_HV1H2	sp|Q8WV24|PHLA1_HUMAN	38.8	1L6N_A	6ODM_O	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9UMQ6|CAN11_HUMAN	38.8	1L6N_A	1KFU_L	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9Y2U8|MAN1_HUMAN	38.8	1L6N_A	2CH0_A	6ICZ_Z	6ID1_O
+sp|P04601|NEF_HV1H2	sp|A0A0B4J268|TVA4_HUMAN	38.8	3TB8_A	6AT6_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0A6YYD4|TVB13_HUMAN	38.8	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0B4J1U4|TRGV5_HUMAN	38.8	2X7L_R	5GIS_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0K0K1C0|TVBK1_HUMAN	38.8	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q6Q8B3|MO2R2_HUMAN	38.8	2X7L_R	4BFG_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A0J9YW62|A0A0J9YW62_HUMAN	38.8	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P69723|VIF_HV1H2	sp|Q9H0F6|SHRPN_HUMAN	38.8	4N9F_b	4EMO_C	4N9F_b	2MA9_B
+sp|A0A0B4J263|TVA39_HUMAN	sp|P04585|POL_HV1H2	38.7	2CDE_C	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|P30622|CLIP1_HUMAN	38.7	1L6N_A	2CP6_A	5A9E_I	5A9E_I
+sp|P04585|POL_HV1H2	sp|P42566|EPS15_HUMAN	38.7	1L6N_A	5MTV_A	2MGU_M	5DOW_A
+sp|Q14157|UBP2L_HUMAN	sp|P04585|POL_HV1H2	38.7	1WJ7_A	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q2VWA4|SKOR2_HUMAN	38.7	1L6N_A	1MR1_C	6ICZ_Z	6ID1_P
+sp|P04585|POL_HV1H2	sp|Q5JXM2|MET24_HUMAN	38.7	1L6N_A	2PY6_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q6ZSC3|RBM43_HUMAN	38.7	1L6N_A	2MKK_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q7Z5R6|AB1IP_HUMAN	38.7	1L6N_A	6E31_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q8IYP9|ZDH23_HUMAN	38.7	1L6N_A	6BML_B	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q9Y6T7|DGKB_HUMAN	38.7	1L6N_A	2JGR_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P30622|CLIP1_HUMAN	38.7	1L6N_A	2CP6_A	5A9E_I	5A9E_I
+sp|P04591|GAG_HV1H2	sp|P42566|EPS15_HUMAN	38.7	1L6N_A	5MTV_A	2MGU_M	5DOW_A
+sp|Q14157|UBP2L_HUMAN	sp|P04591|GAG_HV1H2	38.7	1WJ7_A	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q2VWA4|SKOR2_HUMAN	38.7	1L6N_A	1MR1_C	6ICZ_Z	6ID1_P
+sp|P04591|GAG_HV1H2	sp|Q5JXM2|MET24_HUMAN	38.7	1L6N_A	2PY6_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q6ZSC3|RBM43_HUMAN	38.7	1L6N_A	2MKK_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q7Z5R6|AB1IP_HUMAN	38.7	1L6N_A	6E31_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q8IYP9|ZDH23_HUMAN	38.7	1L6N_A	6BML_B	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q9Y6T7|DGKB_HUMAN	38.7	1L6N_A	2JGR_A	2MGU_M	5DOW_A
+sp|Q9ULX5|RN112_HUMAN	sp|P04601|NEF_HV1H2	38.7	3X1D_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04608|TAT_HV1H2	sp|O00571|DDX3X_HUMAN	38.7	3MI9_C	6O5F_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A0K0K1A5|TVB65_HUMAN	38.7	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A576|TVB31_HUMAN	38.7	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q96T76|MMS19_HUMAN	38.7	2N28_A	5VE8_B	4P6Z_V	4P6Z_B
+sp|P13765|DOB_HUMAN	sp|P04601|NEF_HV1H2	38.7	4I0P_D	3TB8_A	5XOV_H	3TB8_A
+sp|Q86Y34|AGRG3_HUMAN	sp|P04578|ENV_HV1H2	38.7	5KVM_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|O43847|NRDC_HUMAN	38.6	1L6N_A	4LTE_A	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|O95976|IGSF6_HUMAN	38.6	1L6N_A	4R0L_D	2XT1_A	6FPV_A
+sp|Q96EY7|PTCD3_HUMAN	sp|P04585|POL_HV1H2	38.6	6NEQ_o	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q9C0B0|UNK_HUMAN	38.6	1L6N_A	5ELH_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	tr|A0A075B6U6|A0A075B6U6_HUMAN	38.6	1L6N_A	5I0Z_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O43847|NRDC_HUMAN	38.6	1L6N_A	4LTE_A	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|O95976|IGSF6_HUMAN	38.6	1L6N_A	4R0L_D	2XT1_A	6FPV_A
+sp|Q96EY7|PTCD3_HUMAN	sp|P04591|GAG_HV1H2	38.6	6NEQ_o	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q9C0B0|UNK_HUMAN	38.6	1L6N_A	5ELH_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	tr|A0A075B6U6|A0A075B6U6_HUMAN	38.6	1L6N_A	5I0Z_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0A6YYG2|TVB66_HUMAN	38.6	3TB8_A	5E9D_E	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A1B0GX49|TVB64_HUMAN	38.6	3TB8_A	5E9D_E	4ORZ_B	5MZV_D
+sp|P32455|GBP1_HUMAN	sp|P04601|NEF_HV1H2	38.6	1F5N_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|P06729|CD2_HUMAN	38.6	2X7L_R	1HNF_A	2X7L_R	5I8O_L
+sp|P05919|VPU_HV1H2	sp|A6NES4|MRO2A_HUMAN	38.6	2N28_A	3ND2_A	4P6Z_V	4P6Z_G
+sp|P05919|VPU_HV1H2	sp|P42695|CNDD3_HUMAN	38.6	2N28_A	5ME3_A	4P6Z_V	4P6Z_B
+sp|P69726|VPR_HV1H2	sp|Q13586|STIM1_HUMAN	38.6	1ESX_A	3TER_A	4Z8L_B	4Z8L_F
+sp|P69726|VPR_HV1H2	sp|Q9UPU9|SMAG1_HUMAN	38.6	1ESX_A	1OXJ_A	4Z8L_B	4Z8L_F
+sp|P41180|CASR_HUMAN	sp|P04601|NEF_HV1H2	38.6	5K5T_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04585|POL_HV1H2	sp|A6NNH2|F90AR_HUMAN	38.5	1L6N_A	6TAS_F	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|O14815|CAN9_HUMAN	38.5	1L6N_A	1KFU_L	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P20930|FILA_HUMAN	38.5	1L6N_A	4PCW_C	2MGU_M	5DOW_A
+sp|P36873|PP1G_HUMAN	sp|P04585|POL_HV1H2	38.5	4IL1_C	1L6N_A	6HMS_A	6T8H_B
+sp|P61201|CSN2_HUMAN	sp|P04585|POL_HV1H2	38.5	6R7N_B	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q99942|RNF5_HUMAN	38.5	1L6N_A	3JB9_U	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|A6NNH2|F90AR_HUMAN	38.5	1L6N_A	6TAS_F	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|O14815|CAN9_HUMAN	38.5	1L6N_A	1KFU_L	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P20930|FILA_HUMAN	38.5	1L6N_A	4PCW_C	2MGU_M	5DOW_A
+sp|P36873|PP1G_HUMAN	sp|P04591|GAG_HV1H2	38.5	4IL1_C	1L6N_A	6HMS_A	6T8H_B
+sp|P61201|CSN2_HUMAN	sp|P04591|GAG_HV1H2	38.5	6R7N_B	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q99942|RNF5_HUMAN	38.5	1L6N_A	3JB9_U	6BK8_O	5MQ0_t
+sp|Q14669|TRIPC_HUMAN	sp|P04601|NEF_HV1H2	38.5	5TJ8_A	3TB8_A	4NEE_G	3TB8_A
+sp|P04618|REV_HV1H2	sp|A0A075B6T8|TVA91_HUMAN	38.5	2X7L_R	2J8U_L	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q5SQ64|LY66F_HUMAN	38.5	2X7L_R	5OR7_C	2X7L_R	5I8O_H
+tr|A0A1W2PQM1|A0A1W2PQM1_HUMAN	sp|P04578|ENV_HV1H2	38.4	1B6U_A	6PWU_E	6MET_A	3J70_P
+sp|P04585|POL_HV1H2	sp|P51178|PLCD1_HUMAN	38.4	1L6N_A	1DJW_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q14244|MAP7_HUMAN	38.4	1L6N_A	5YFP_A	6ICZ_Z	6ID1_R
+sp|P04585|POL_HV1H2	sp|Q15059|BRD3_HUMAN	38.4	1L6N_A	6DNE_A	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	sp|Q5VWW1|C1QL3_HUMAN	38.4	1L6N_A	1O91_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9H4M7|PKHA4_HUMAN	38.4	1L6N_A	1UPQ_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|P51178|PLCD1_HUMAN	38.4	1L6N_A	1DJW_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q14244|MAP7_HUMAN	38.4	1L6N_A	5YFP_A	6ICZ_Z	6ID1_R
+sp|P04591|GAG_HV1H2	sp|Q15059|BRD3_HUMAN	38.4	1L6N_A	6DNE_A	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|Q5VWW1|C1QL3_HUMAN	38.4	1L6N_A	1O91_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9H4M7|PKHA4_HUMAN	38.4	1L6N_A	1UPQ_A	6BK8_O	5MQ0_t
+sp|P04601|NEF_HV1H2	sp|Q5JTH9|RRP12_HUMAN	38.4	3TB8_A	1QBK_B	6OWT_N	6OWT_A
+sp|P04618|REV_HV1H2	sp|Q01151|CD83_HUMAN	38.4	2X7L_R	5MJ2_A	5DHX_C	6CVK_A
+sp|P69726|VPR_HV1H2	sp|Q9H6U6|BCAS3_HUMAN	38.4	1ESX_A	5LTG_B	5JK7_F	5JK7_E
+sp|P0DOY2|IGLC2_HUMAN	sp|P04601|NEF_HV1H2	38.4	6U07_A	3TB8_A	5XOV_H	3TB8_A
+sp|P13747|HLAE_HUMAN	sp|P04601|NEF_HV1H2	38.4	6AT5_A	3TB8_A	5XOV_H	3TB8_A
+sp|P54819|KAD2_HUMAN	sp|P04601|NEF_HV1H2	38.4	2C9Y_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q8IUG5|MY18B_HUMAN	sp|P04601|NEF_HV1H2	38.4	6SO3_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04585|POL_HV1H2	sp|O60721|NCKX1_HUMAN	38.3	1L6N_A	4KJR_A	6ICZ_Z	6ID0_W
+sp|P04585|POL_HV1H2	sp|Q01449|MLRA_HUMAN	38.3	1L6N_A	1I84_U	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q7LDG7|GRP2_HUMAN	38.3	1L6N_A	4L9M_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q8TC26|TM163_HUMAN	38.3	1L6N_A	3J1Z_Q	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9H9P5|UNKL_HUMAN	38.3	1L6N_A	5ELH_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|O60721|NCKX1_HUMAN	38.3	1L6N_A	4KJR_A	6ICZ_Z	6ID0_W
+sp|P04591|GAG_HV1H2	sp|Q01449|MLRA_HUMAN	38.3	1L6N_A	1I84_U	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q7LDG7|GRP2_HUMAN	38.3	1L6N_A	4L9M_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8TC26|TM163_HUMAN	38.3	1L6N_A	3J1Z_Q	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9H9P5|UNKL_HUMAN	38.3	1L6N_A	5ELH_B	6BK8_O	6J6G_R
+sp|P04601|NEF_HV1H2	sp|A0A075B6I7|LV548_HUMAN	38.3	3TB8_A	6HD8_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|O00305|CACB4_HUMAN	38.3	3TB8_A	6JPA_C	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|P40198|CEAM3_HUMAN	38.3	3TB8_A	1E07_A	4ORZ_B	5MZV_D
+sp|Q6ZN66|GBP6_HUMAN	sp|P04601|NEF_HV1H2	38.3	1F5N_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	tr|A0A075B6U6|A0A075B6U6_HUMAN	38.3	3TB8_A	5I0Z_A	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|B2RXF0|T229A_HUMAN	38.3	3MI9_C	4OGR_D	4OGR_D	4OGR_D
+sp|P04608|TAT_HV1H2	sp|P41594|GRM5_HUMAN	38.3	3MI9_C	6N52_B	3MI9_C	2PK2_B
+sp|P24071|FCAR_HUMAN	sp|P04601|NEF_HV1H2	38.3	1UCT_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q8N680|ZBTB2_HUMAN	sp|P69723|VIF_HV1H2	38.3	3ZMS_C	4N9F_b	6P59_Z	6P59_B
+tr|A0A0G2JP03|A0A0G2JP03_HUMAN	sp|P04591|GAG_HV1H2	38.3	1NKR_A	1L6N_A	5T70_G	3GV2_A
+sp|P01909|DQA1_HUMAN	sp|P04578|ENV_HV1H2	38.2	2P24_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0A0J9YXY3|TVB62_HUMAN	38.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P0DPF7|TVB63_HUMAN	38.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P62136|PP1A_HUMAN	sp|P04585|POL_HV1H2	38.2	4IL1_D	1L6N_A	6HMS_A	6T8H_B
+sp|P04585|POL_HV1H2	sp|Q14469|HES1_HUMAN	38.2	1L6N_A	2DB7_B	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q969K3|RNF34_HUMAN	38.2	1L6N_A	1Y02_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q96IV0|NGLY1_HUMAN	38.2	1L6N_A	2F4M_A	6UCA_B	6UCA_D
+sp|Q96PE2|ARHGH_HUMAN	sp|P04585|POL_HV1H2	38.2	6L30_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|A0A0B4J263|TVA39_HUMAN	38.2	1L6N_A	2CDE_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0J9YXY3|TVB62_HUMAN	38.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P0DPF7|TVB63_HUMAN	38.2	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P62136|PP1A_HUMAN	sp|P04591|GAG_HV1H2	38.2	4IL1_D	1L6N_A	6HMS_A	6T8H_B
+sp|P04591|GAG_HV1H2	sp|Q14469|HES1_HUMAN	38.2	1L6N_A	2DB7_B	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q969K3|RNF34_HUMAN	38.2	1L6N_A	1Y02_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q96IV0|NGLY1_HUMAN	38.2	1L6N_A	2F4M_A	6UCA_D	6UCA_B
+sp|Q96PE2|ARHGH_HUMAN	sp|P04591|GAG_HV1H2	38.2	6L30_A	1L6N_A	6BK8_D	6BK8_O
+sp|P27707|DCK_HUMAN	sp|P04601|NEF_HV1H2	38.2	1P60_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04601|NEF_HV1H2	sp|Q8WYP3|RIN2_HUMAN	38.2	3TB8_A	2EFH_A	4U5W_C	4U5W_B
+tr|A0A0A0MS03|A0A0A0MS03_HUMAN	sp|P04601|NEF_HV1H2	38.2	1YJD_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04618|REV_HV1H2	sp|P0DTW3|HV384_HUMAN	38.2	2X7L_R	3U1S_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P43626|KI2L1_HUMAN	38.2	2X7L_R	1B6U_A	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|A6NGR9|MROH6_HUMAN	38.2	2N28_A	3TJZ_B	4P6Z_V	4P6Z_G
+sp|Q00839|HNRPU_HUMAN	sp|P04601|NEF_HV1H2	38.2	4XW3_B	3TB8_A	6CRI_L	6CRI_Z
+tr|A0A1W2PQM1|A0A1W2PQM1_HUMAN	sp|P04585|POL_HV1H2	38.2	1B6U_A	1L6N_A	5T70_G	3GV2_A
+tr|A0A1W2PQM1|A0A1W2PQM1_HUMAN	sp|P04591|GAG_HV1H2	38.2	1B6U_A	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q71H61|ILDR2_HUMAN	38.1	6PWU_E	5OR7_C	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|A0A0K0K1A3|TVBJ1_HUMAN	38.1	1L6N_A	5E9D_E	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A576|TVB31_HUMAN	38.1	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q71H61|ILDR2_HUMAN	38.1	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q8IWL2|SFTA1_HUMAN	38.1	1L6N_A	1PWB_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9NPG8|ZDHC4_HUMAN	38.1	1L6N_A	6BMS_A	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q9UK99|FBX3_HUMAN	38.1	1L6N_A	5HDW_A	6BK8_O	6J6G_S
+sp|P04591|GAG_HV1H2	sp|A0A0K0K1A3|TVBJ1_HUMAN	38.1	1L6N_A	5E9D_E	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A576|TVB31_HUMAN	38.1	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q71H61|ILDR2_HUMAN	38.1	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8IWL2|SFTA1_HUMAN	38.1	1L6N_A	1PWB_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9NPG8|ZDHC4_HUMAN	38.1	1L6N_A	6BMS_A	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q9UK99|FBX3_HUMAN	38.1	1L6N_A	5HDW_A	6BK8_O	6J6G_S
+sp|P04608|TAT_HV1H2	sp|Q9Y5R6|DMRT1_HUMAN	38.1	3MI9_C	4YJ0_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	tr|A0A191URJ7|A0A191URJ7_HUMAN	38.1	2X7L_R	1B6U_A	5DHX_C	6CVK_A
+sp|P69723|VIF_HV1H2	sp|G2XKQ0|SUMO5_HUMAN	38.1	4N9F_b	6RPQ_A	4N9F_b	2MA9_B
+sp|P15391|CD19_HUMAN	sp|P04601|NEF_HV1H2	38.1	6AL5_A	3TB8_A	5XOV_H	3TB8_A
+sp|P26992|CNTFR_HUMAN	sp|P04585|POL_HV1H2	38.1	1N26_A	1L6N_A	5T70_G	3GV2_A
+sp|P26992|CNTFR_HUMAN	sp|P04591|GAG_HV1H2	38.1	1N26_A	1L6N_A	5T70_G	3GV2_A
+sp|Q8IYS5|OSCAR_HUMAN	sp|P04591|GAG_HV1H2	38.1	5EIQ_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9HCK0|ZBT26_HUMAN	sp|P69723|VIF_HV1H2	38.1	3W5K_B	4N9F_b	6P59_Z	6P59_B
+sp|P04578|ENV_HV1H2	sp|A0A5B6|TVB28_HUMAN	38.0	6PWU_E	5E9D_J	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|O43506|ADA20_HUMAN	38.0	6PWU_E	5Y31_A	6PWU_E	6PWU_E
+sp|P04585|POL_HV1H2	sp|P15923|TFE2_HUMAN	38.0	1L6N_A	6MGN_A	6ICZ_Z	6ID1_R
+sp|Q13472|TOP3A_HUMAN	sp|P04585|POL_HV1H2	38.0	4CGY_A	1L6N_A	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|Q6P2C0|WDR93_HUMAN	38.0	1L6N_A	6G6M_A	6ICZ_Z	6ID0_W
+sp|P04591|GAG_HV1H2	sp|P15923|TFE2_HUMAN	38.0	1L6N_A	6MGN_A	6ICZ_Z	6ID1_R
+sp|Q13472|TOP3A_HUMAN	sp|P04591|GAG_HV1H2	38.0	4CGY_A	1L6N_A	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|Q6P2C0|WDR93_HUMAN	38.0	1L6N_A	6G6M_A	6ICZ_Z	6ID0_W
+sp|P04601|NEF_HV1H2	sp|A6NES4|MRO2A_HUMAN	38.0	3TB8_A	3ND2_A	6CRI_Z	6CRI_R
+sp|P04618|REV_HV1H2	sp|A0A075B6N1|TVB19_HUMAN	38.0	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A599|TVB56_HUMAN	38.0	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q7L311|ARMX2_HUMAN	38.0	2N28_A	1XQR_A	4P6Z_V	4P6Z_G
+sp|P24278|ZBT25_HUMAN	sp|P69723|VIF_HV1H2	38.0	1WJP_A	4N9F_b	6P59_Z	6P59_B
+sp|A1L1A6|IGS23_HUMAN	sp|P04578|ENV_HV1H2	37.9	5A2F_A	6PWU_E	6MET_A	3J70_P
+sp|P04585|POL_HV1H2	sp|A6NDY2|F90AA_HUMAN	37.9	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|A8MXJ8|F90A5_HUMAN	37.9	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|A8MXZ1|F90AN_HUMAN	37.9	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|P0C7V4|F90AJ_HUMAN	37.9	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|P0C7W9|F90AE_HUMAN	37.9	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|Q13275|SEM3F_HUMAN	sp|P04585|POL_HV1H2	37.9	6QP7_B	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q6TFL4|KLH24_HUMAN	37.9	1L6N_A	4YY8_A	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|Q86SH2|ZAR1_HUMAN	37.9	1L6N_A	2FIY_B	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|A6NDY2|F90AA_HUMAN	37.9	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|A8MXJ8|F90A5_HUMAN	37.9	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|A8MXZ1|F90AN_HUMAN	37.9	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|P0C7V4|F90AJ_HUMAN	37.9	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|P0C7W9|F90AE_HUMAN	37.9	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|Q13275|SEM3F_HUMAN	sp|P04591|GAG_HV1H2	37.9	6QP7_B	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|Q86SH2|ZAR1_HUMAN	37.9	1L6N_A	2FIY_B	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	tr|A0A0J9YW62|A0A0J9YW62_HUMAN	37.9	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04618|REV_HV1H2	sp|A0A1B0GX49|TVB64_HUMAN	37.9	2X7L_R	5E9D_E	2X7L_R	5I8O_H
+sp|P01889|HLAB_HUMAN	sp|P04601|NEF_HV1H2	37.9	6AT5_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q95460|HMR1_HUMAN	sp|P04601|NEF_HV1H2	37.9	6PUJ_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04585|POL_HV1H2	sp|A6NE21|F90AI_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|A6NEW6|F90AG_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|A6NJQ4|F90A8_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|A6NKC0|F90A7_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|A6NNJ1|F90A9_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|A8MWA6|F90AM_HUMAN	37.8	1L6N_A	5FUR_G	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|A8MX19|F90AC_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|D6RGX4|F90AP_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|O60667|FAIM3_HUMAN	sp|P04585|POL_HV1H2	37.8	5OR7_C	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|O75891|AL1L1_HUMAN	37.8	1L6N_A	3RHO_D	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|P0C7W8|F90AD_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|P0C7X0|F90AO_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|P20472|PRVA_HUMAN	37.8	1L6N_A	2NLN_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P55008|AIF1_HUMAN	37.8	1L6N_A	1WY9_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P78524|DEN2B_HUMAN	37.8	1L6N_A	6EKK_B	6ICZ_Z	6ID0_W
+sp|P04585|POL_HV1H2	sp|Q8WWV6|FCAMR_HUMAN	37.8	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q96AY3|FKB10_HUMAN	37.8	1L6N_A	3JYM_B	2MGU_M	5DOW_A
+sp|Q9NTN9|SEM4G_HUMAN	sp|P04585|POL_HV1H2	37.8	6QP7_B	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|A6NE21|F90AI_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|A6NEW6|F90AG_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|A6NJQ4|F90A8_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|A6NKC0|F90A7_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|A6NNJ1|F90A9_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|A8MWA6|F90AM_HUMAN	37.8	1L6N_A	5FUR_G	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|A8MX19|F90AC_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|D6RGX4|F90AP_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|O75891|AL1L1_HUMAN	37.8	1L6N_A	3RHO_D	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|P0C7W8|F90AD_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|P0C7X0|F90AO_HUMAN	37.8	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|P0DTW3|HV384_HUMAN	37.8	1L6N_A	3U1S_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P20472|PRVA_HUMAN	37.8	1L6N_A	2NLN_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P37231|PPARG_HUMAN	37.8	1L6N_A	3DZY_D	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|P55008|AIF1_HUMAN	37.8	1L6N_A	1WY9_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P78524|DEN2B_HUMAN	37.8	1L6N_A	6EKK_B	6ICZ_Z	6ID0_W
+sp|P04591|GAG_HV1H2	sp|Q8WWV6|FCAMR_HUMAN	37.8	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q92615|LAR4B_HUMAN	37.8	1L6N_A	6D6V_H	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q96AY3|FKB10_HUMAN	37.8	1L6N_A	3JYM_B	2MGU_M	5DOW_A
+sp|Q9NTN9|SEM4G_HUMAN	sp|P04591|GAG_HV1H2	37.8	6QP7_B	1L6N_A	5T70_G	3GV2_A
+sp|P04601|NEF_HV1H2	sp|Q9Y5L0|TNPO3_HUMAN	37.8	3TB8_A	4C0O_B	6CRI_Z	6CRI_I
+sp|P04618|REV_HV1H2	sp|A0A087WT02|TVA92_HUMAN	37.8	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P43628|KI2L3_HUMAN	37.8	2X7L_R	1B6U_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q9H583|HEAT1_HUMAN	37.8	2N28_A	5WLC_L	4P6Z_V	4P6Z_B
+sp|P69723|VIF_HV1H2	sp|P63165|SUMO1_HUMAN	37.8	4N9F_b	6RPQ_A	4N9F_b	2MA9_B
+sp|P69723|VIF_HV1H2	sp|Q9NZJ4|SACS_HUMAN	37.8	4N9F_b	5V44_B	4N9F_b	2MA9_B
+sp|Q9Y2Y4|ZBT32_HUMAN	sp|P69723|VIF_HV1H2	37.8	5UND_A	4N9F_b	6P59_Z	6P59_B
+sp|P01834|IGKC_HUMAN	sp|P04601|NEF_HV1H2	37.8	6FIB_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|O76015|KRT38_HUMAN	37.7	6PWU_E	3TNU_B	2B9B_B	2B9B_B
+sp|P04585|POL_HV1H2	sp|P19021|AMD_HUMAN	37.7	1L6N_A	5WM0_A	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q10570|CPSF1_HUMAN	37.7	1L6N_A	6F9N_A	6DNH_C	6URG_A
+sp|P04585|POL_HV1H2	sp|Q13495|MAMD1_HUMAN	37.7	1L6N_A	6UXW_B	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q14687|GSE1_HUMAN	37.7	1L6N_A	6SC2_C	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q15393|SF3B3_HUMAN	37.7	1L6N_A	6FF7_v	6DNH_C	6URG_A
+sp|P04585|POL_HV1H2	sp|Q16531|DDB1_HUMAN	37.7	1L6N_A	5JK7_B	6DNH_C	6URG_A
+sp|P04585|POL_HV1H2	sp|Q4KMP7|TB10B_HUMAN	37.7	1L6N_A	4P17_B	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q5TC82|RC3H1_HUMAN	37.7	1L6N_A	4QIK_A	6BK8_O	6J6G_R
+sp|Q8N584|TT39C_HUMAN	sp|P04585|POL_HV1H2	37.7	5O09_4	1L6N_A	6URO_F	6DNH_C
+sp|P04585|POL_HV1H2	sp|Q96JC9|EAF1_HUMAN	37.7	1L6N_A	5GAM_A	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	sp|Q9P2G9|KLHL8_HUMAN	37.7	1L6N_A	4YY8_A	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	tr|A0A0A0MS06|A0A0A0MS06_HUMAN	37.7	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q13495|MAMD1_HUMAN	37.7	1L6N_A	6UXW_B	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q5TC82|RC3H1_HUMAN	37.7	1L6N_A	4QIK_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q96JC9|EAF1_HUMAN	37.7	1L6N_A	5GAM_A	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	tr|A0A0A0MS06|A0A0A0MS06_HUMAN	37.7	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|A0A0A6YYG3|TVB68_HUMAN	37.7	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|Q6ZUA9|MROH5_HUMAN	sp|P04601|NEF_HV1H2	37.7	2QK1_A	3TB8_A	4NEE_G	3TB8_A
+sp|P04608|TAT_HV1H2	sp|O00267|SPT5H_HUMAN	37.7	3MI9_C	6GMH_Z	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|P06340|DOA_HUMAN	37.7	2X7L_R	2P24_A	2X7L_R	5I8O_H
+tr|A0A075B6L2|A0A075B6L2_HUMAN	sp|P04578|ENV_HV1H2	37.6	6QD6_G	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A6NIJ5|F90AK_HUMAN	37.6	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|P17480|UBF1_HUMAN	37.6	1L6N_A	1L8Z_A	6ICZ_Z	6ID1_P
+sp|P04585|POL_HV1H2	sp|P19013|K2C4_HUMAN	37.6	1L6N_A	3TNU_A	6ICZ_Z	6ID1_K
+sp|P53675|CLH2_HUMAN	sp|P04585|POL_HV1H2	37.6	3IYV_B	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|A6NIJ5|F90AK_HUMAN	37.6	1L6N_A	6MZL_A	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|P19013|K2C4_HUMAN	37.6	1L6N_A	3TNU_A	6ICZ_Z	6ID1_K
+sp|P53675|CLH2_HUMAN	sp|P04591|GAG_HV1H2	37.6	3IYV_B	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04608|TAT_HV1H2	sp|Q2VWA4|SKOR2_HUMAN	37.6	3MI9_C	1MR1_C	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	tr|A0A0G2JNF4|A0A0G2JNF4_HUMAN	37.6	2X7L_R	1B6U_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q5TIA1|MEI1_HUMAN	37.6	2N28_A	5ZHX_D	4P6Z_V	4P6Z_B
+sp|P04578|ENV_HV1H2	sp|P60507|EFC1_HUMAN	37.5	6PWU_E	4JF3_B	6UM5_E	6MAR_D
+sp|P04585|POL_HV1H2	sp|A6NHC0|CAN8_HUMAN	37.5	1L6N_A	1KFU_L	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P17661|DESM_HUMAN	37.5	1L6N_A	6UUI_X	6ICZ_Z	6ID1_L
+sp|P04585|POL_HV1H2	sp|P47974|TISD_HUMAN	37.5	1L6N_A	1RGO_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q8NG50|RDM1_HUMAN	37.5	1L6N_A	1H2I_S	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|A6NHC0|CAN8_HUMAN	37.5	1L6N_A	1KFU_L	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P17661|DESM_HUMAN	37.5	1L6N_A	6UUI_X	6ICZ_Z	6ID1_L
+sp|P04591|GAG_HV1H2	sp|P47974|TISD_HUMAN	37.5	1L6N_A	1RGO_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q8NG50|RDM1_HUMAN	37.5	1L6N_A	1H2I_S	6BK8_O	6J6G_R
+sp|P04601|NEF_HV1H2	sp|Q9BPX3|CND3_HUMAN	37.5	3TB8_A	6IGX_D	6OWT_N	6QH5_B
+sp|P04601|NEF_HV1H2	tr|A0A0J9YW62|A0A0J9YW62_HUMAN	37.5	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q9UPT8|ZC3H4_HUMAN	37.5	3MI9_C	2CQE_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A0A0MS00|LV332_HUMAN	37.5	2X7L_R	5WB1_A	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|Q9BPX3|CND3_HUMAN	37.5	2N28_A	6IGX_D	4P6Z_V	4P6Z_B
+sp|Q8IZS7|CLCL1_HUMAN	sp|P04578|ENV_HV1H2	37.5	3WBR_B	6PWU_E	1QO3_C	3J70_P
+sp|P29017|CD1C_HUMAN	sp|P04578|ENV_HV1H2	37.4	1CD1_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|Q13370|PDE3B_HUMAN	37.4	1L6N_A	1SOJ_H	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q6IEG0|SNR48_HUMAN	37.4	1L6N_A	2VY4_A	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|Q86YW5|TRML1_HUMAN	37.4	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q96QS3|ARX_HUMAN	37.4	1L6N_A	1MH3_A	6BK8_O	6J6G_S
+sp|P04585|POL_HV1H2	sp|Q9H000|MKRN2_HUMAN	37.4	1L6N_A	6FUW_C	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P55895|RAG2_HUMAN	37.4	1L6N_A	6DBJ_B	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|Q13370|PDE3B_HUMAN	37.4	1L6N_A	1SOJ_H	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q6IEG0|SNR48_HUMAN	37.4	1L6N_A	2VY4_A	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|Q86YW5|TRML1_HUMAN	37.4	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q96QS3|ARX_HUMAN	37.4	1L6N_A	1MH3_A	6BK8_O	6J6G_S
+sp|P04591|GAG_HV1H2	sp|Q9H000|MKRN2_HUMAN	37.4	1L6N_A	6FUW_C	6BK8_O	6J6G_R
+sp|P04601|NEF_HV1H2	sp|A0A075B6N1|TVB19_HUMAN	37.4	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0A6YYK1|TVA81_HUMAN	37.4	3TB8_A	6FRC_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q96DC7|TMCO6_HUMAN	37.4	3TB8_A	1WA5_B	6CRI_Z	6CRI_I
+sp|P04601|NEF_HV1H2	tr|A0A087WZ39|A0A087WZ39_HUMAN	37.4	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0A6YYK6|TVA16_HUMAN	37.4	2X7L_R	2J8U_L	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A5F9ZH88|A0A5F9ZH88_HUMAN	37.4	2X7L_R	1NKR_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q92797|SYMPK_HUMAN	37.4	2N28_A	6V4X_J	4P6Z_V	4P6Z_B
+sp|P04578|ENV_HV1H2	sp|Q6ZP82|CC141_HUMAN	37.3	6PWU_E	1SJJ_A	2NY2_A	4HJJ_L
+sp|P04585|POL_HV1H2	sp|O95199|RCBT2_HUMAN	37.3	1L6N_A	4JHN_D	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q6ZU64|CFA65_HUMAN	37.3	1L6N_A	2QSV_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8N7B9|EFCB3_HUMAN	37.3	1L6N_A	2LHI_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q8NDX6|ZN740_HUMAN	37.3	1L6N_A	3W5K_B	6BK8_O	6J6H_Q
+sp|P04585|POL_HV1H2	sp|Q9C0C4|SEM4C_HUMAN	37.3	1L6N_A	6QP8_A	1R0A_A	2XKN_C
+sp|P04585|POL_HV1H2	sp|Q9UKJ1|PILRA_HUMAN	37.3	1L6N_A	5OR7_C	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|Q6ZU64|CFA65_HUMAN	37.3	1L6N_A	2QSV_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8N7B9|EFCB3_HUMAN	37.3	1L6N_A	2LHI_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8NDX6|ZN740_HUMAN	37.3	1L6N_A	3W5K_B	6BK8_O	6J6H_Q
+sp|P04601|NEF_HV1H2	sp|Q86VX9|MON1A_HUMAN	37.3	3TB8_A	5LDD_D	4EN2_B	6CRI_M
+sp|P04618|REV_HV1H2	sp|A0A0A6YYG2|TVB66_HUMAN	37.3	2X7L_R	5E9D_E	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A5B9|TRBC2_HUMAN	37.3	2X7L_R	6U07_B	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P43631|KI2S2_HUMAN	37.3	2X7L_R	1B6U_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A1W2PQF6|A0A1W2PQF6_HUMAN	37.3	2X7L_R	1NKR_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q86VX9|MON1A_HUMAN	37.3	2N28_A	5LDD_D	4P6Z_V	6CRI_M
+sp|P69723|VIF_HV1H2	sp|P54578|UBP14_HUMAN	37.3	4N9F_b	5GJQ_x	4N9F_b	2MA9_B
+sp|Q7Z7M1|AGRD2_HUMAN	sp|P04578|ENV_HV1H2	37.3	6FJ3_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|A8MYZ6|FOXO6_HUMAN	37.2	1L6N_A	5DUI_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|O43524|FOXO3_HUMAN	37.2	1L6N_A	6QVW_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|P55316|FOXG1_HUMAN	37.2	1L6N_A	1JXS_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|P55317|FOXA1_HUMAN	37.2	1L6N_A	6FEC_w	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|P55318|FOXA3_HUMAN	37.2	1L6N_A	6FEC_w	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|P78364|PHC1_HUMAN	37.2	1L6N_A	2W0T_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|P98177|FOXO4_HUMAN	37.2	1L6N_A	1E17_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q08050|FOXM1_HUMAN	37.2	1L6N_A	6OSW_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q12778|FOXO1_HUMAN	37.2	1L6N_A	4LG0_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q12946|FOXF1_HUMAN	37.2	1L6N_A	1JXS_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q12947|FOXF2_HUMAN	37.2	1L6N_A	1JXS_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q12948|FOXC1_HUMAN	37.2	1L6N_A	6FEC_w	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q12951|FOXI1_HUMAN	37.2	1L6N_A	1KQ8_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q12952|FOXL1_HUMAN	37.2	1L6N_A	6FEC_w	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q5JPB2|ZN831_HUMAN	37.2	1L6N_A	5UND_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q6ZQN5|FOXI2_HUMAN	37.2	1L6N_A	1JXS_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q75N03|HAKAI_HUMAN	37.2	1L6N_A	3VK6_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q86VP1|TAXB1_HUMAN	37.2	1L6N_A	5Z7G_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q8IVH2|FOXP4_HUMAN	37.2	1L6N_A	4I1L_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q8IWT3|CUL9_HUMAN	37.2	1L6N_A	5UDH_B	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q8N9W4|GG6L2_HUMAN	37.2	1L6N_A	6K06_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q96ME7|ZN512_HUMAN	37.2	1L6N_A	5YEF_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9H1K0|RBNS5_HUMAN	37.2	1L6N_A	5OD1_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9H5J0|ZBTB3_HUMAN	37.2	1L6N_A	6GUW_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9HAW0|BRF2_HUMAN	37.2	1L6N_A	4ROE_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9NSE4|SYIM_HUMAN	37.2	1L6N_A	1FFY_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9NWK9|BCD1_HUMAN	37.2	1L6N_A	6HFM_B	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9Y261|FOXA2_HUMAN	37.2	1L6N_A	6FEC_w	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|O95199|RCBT2_HUMAN	37.2	1L6N_A	4JHN_D	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|P19021|AMD_HUMAN	37.2	1L6N_A	5WM0_A	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q10570|CPSF1_HUMAN	37.2	1L6N_A	6F9N_A	6DNH_C	6URG_A
+sp|P04591|GAG_HV1H2	sp|Q14687|GSE1_HUMAN	37.2	1L6N_A	6SC2_C	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q15393|SF3B3_HUMAN	37.2	1L6N_A	6FF7_v	6DNH_C	6URG_A
+sp|P04591|GAG_HV1H2	sp|Q16531|DDB1_HUMAN	37.2	1L6N_A	5JK7_B	6DNH_C	6URG_A
+sp|P04591|GAG_HV1H2	sp|Q4KMP7|TB10B_HUMAN	37.2	1L6N_A	4P17_B	6DNH_C	6URO_B
+sp|Q8N584|TT39C_HUMAN	sp|P04591|GAG_HV1H2	37.2	5O09_4	1L6N_A	6URO_F	6DNH_C
+sp|P04591|GAG_HV1H2	sp|Q8N9W4|GG6L2_HUMAN	37.2	1L6N_A	6K06_A	6BK8_O	5MQ0_t
+sp|P04618|REV_HV1H2	sp|A0A075B6N4|TVBY1_HUMAN	37.2	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04578|ENV_HV1H2	sp|P29460|IL12B_HUMAN	37.1	6PWU_E	5MJ3_A	3U2S_C	5N2K_F
+sp|P04578|ENV_HV1H2	sp|P32242|OTX1_HUMAN	37.1	6PWU_E	1MH3_A	6PWU_E	6ULC_L
+sp|P04578|ENV_HV1H2	tr|A0A0A0MS06|A0A0A0MS06_HUMAN	37.1	6PWU_E	5WB1_A	3U2S_C	5N2K_F
+sp|P04585|POL_HV1H2	sp|A2CJ06|DYTN_HUMAN	37.1	1L6N_A	1EG4_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|O94818|NOL4_HUMAN	37.1	1L6N_A	1K6Y_B	6RWM_A	6RWM_A
+sp|P04585|POL_HV1H2	sp|Q8NA31|TERB1_HUMAN	37.1	1L6N_A	6J07_B	6ICZ_Z	6ID1_L
+sp|P04585|POL_HV1H2	sp|Q96A59|MALD3_HUMAN	37.1	1L6N_A	6C14_D	6ICZ_Z	6ICZ_V
+sp|P04585|POL_HV1H2	sp|Q9C0B5|ZDHC5_HUMAN	37.1	1L6N_A	6BMN_B	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q9NQS7|INCE_HUMAN	37.1	1L6N_A	6YIH_C	6ICZ_Z	6ID1_R
+sp|P04591|GAG_HV1H2	sp|A2CJ06|DYTN_HUMAN	37.1	1L6N_A	1EG4_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q8NA31|TERB1_HUMAN	37.1	1L6N_A	6J07_B	6ICZ_Z	6ID1_L
+sp|Q8TAE6|PP14C_HUMAN	sp|P04591|GAG_HV1H2	37.1	1J2N_A	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q96A59|MALD3_HUMAN	37.1	1L6N_A	6C14_D	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|Q9C0B5|ZDHC5_HUMAN	37.1	1L6N_A	6BMN_B	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q9NQS7|INCE_HUMAN	37.1	1L6N_A	6YIH_C	6ICZ_Z	6ID1_R
+sp|P04601|NEF_HV1H2	sp|Q14997|PSME4_HUMAN	37.1	3TB8_A	6KWY_c	6OWT_N	6QH5_B
+sp|P04608|TAT_HV1H2	sp|P55317|FOXA1_HUMAN	37.1	3MI9_C	6FEC_w	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q10571|MN1_HUMAN	37.1	3MI9_C	6UXW_B	3MI9_C	2PK2_B
+sp|Q8TAE6|PP14C_HUMAN	sp|P04585|POL_HV1H2	37.1	1J2N_A	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04578|ENV_HV1H2	sp|P17544|ATF7_HUMAN	37.0	6PWU_E	6MG2_B	2X7R_N	1FAV_A
+sp|P04585|POL_HV1H2	sp|Q8IWL3|HSC20_HUMAN	37.0	1L6N_A	3BVO_B	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q8TAT5|NEIL3_HUMAN	37.0	1L6N_A	3W0F_A	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q96KC8|DNJC1_HUMAN	37.0	1L6N_A	4J7Z_A	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|Q8TAT5|NEIL3_HUMAN	37.0	1L6N_A	3W0F_A	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q96KC8|DNJC1_HUMAN	37.0	1L6N_A	4J7Z_A	6BK8_O	5WSG_c
+sp|P04601|NEF_HV1H2	sp|A0A075B6N4|TVBY1_HUMAN	37.0	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q92845|KIFA3_HUMAN	37.0	3TB8_A	5XGC_A	6OWT_N	6OWT_A
+sp|Q9P291|ARMX1_HUMAN	sp|P04601|NEF_HV1H2	37.0	1XQR_A	3TB8_A	4NEE_G	3TB8_A
+sp|P04608|TAT_HV1H2	sp|P22681|CBL_HUMAN	37.0	3MI9_C	5HKX_A	3MI9_C	2PK2_B
+sp|P04578|ENV_HV1H2	sp|Q13477|MADCA_HUMAN	36.9	6PWU_E	1BQS_A	6PWU_E	6ULC_L
+sp|A0A075B6X5|TVA18_HUMAN	sp|P04585|POL_HV1H2	36.9	1YJD_C	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q15413|RYR3_HUMAN	36.9	1L6N_A	6JI8_G	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q5T6F2|UBAP2_HUMAN	36.9	1L6N_A	1WJ7_A	6ICZ_Z	6ID1_h
+sp|P04585|POL_HV1H2	sp|Q5W0Q7|USPL1_HUMAN	36.9	1L6N_A	5L8H_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q6Y7W6|GGYF2_HUMAN	36.9	1L6N_A	5NVL_D	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q15413|RYR3_HUMAN	36.9	1L6N_A	6JI8_G	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q5T6F2|UBAP2_HUMAN	36.9	1L6N_A	1WJ7_A	6ICZ_Z	6ID1_h
+sp|P04591|GAG_HV1H2	sp|Q6Y7W6|GGYF2_HUMAN	36.9	1L6N_A	5NVL_D	6DNH_C	6URO_B
+sp|P04618|REV_HV1H2	sp|A0A0B4J262|TVA86_HUMAN	36.9	2X7L_R	2J8U_L	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A8MVZ5|BTNLA_HUMAN	36.9	2X7L_R	4HH8_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P43627|KI2L2_HUMAN	36.9	2X7L_R	1B6U_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q9NQ25|SLAF7_HUMAN	36.9	2X7L_R	3ALW_A	2X7L_R	5I8O_L
+sp|P04578|ENV_HV1H2	sp|O75900|MMP23_HUMAN	36.8	6PWU_E	1L6J_A	6NIJ_B	5WHZ_L
+sp|P29016|CD1B_HUMAN	sp|P04578|ENV_HV1H2	36.8	1CD1_A	6PWU_E	2F58_H	6MUF_G
+sp|P04585|POL_HV1H2	sp|B2RXH2|KDM4E_HUMAN	36.8	1L6N_A	6F5R_A	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|O95876|FRITZ_HUMAN	36.8	1L6N_A	4GGC_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q6PF15|KLH35_HUMAN	36.8	1L6N_A	4YY8_A	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|Q86VE0|MYPOP_HUMAN	36.8	1L6N_A	5CQQ_B	6BK8_O	5WSG_c
+sp|P04585|POL_HV1H2	sp|Q9H714|PACER_HUMAN	36.8	1L6N_A	6WCW_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|B2RXH2|KDM4E_HUMAN	36.8	1L6N_A	6F5R_A	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|O60667|FAIM3_HUMAN	36.8	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O95876|FRITZ_HUMAN	36.8	1L6N_A	4GGC_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|P35398|RORA_HUMAN	36.8	1L6N_A	6FX0_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q86VE0|MYPOP_HUMAN	36.8	1L6N_A	5CQQ_B	6BK8_O	5WSG_c
+sp|P04601|NEF_HV1H2	sp|A0A0B4J265|TVAZ2_HUMAN	36.8	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9UGK3|STAP2_HUMAN	36.8	3TB8_A	2EL8_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|Q13275|SEM3F_HUMAN	36.8	2X7L_R	6QP7_B	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A087WZ39|A0A087WZ39_HUMAN	36.8	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q14997|PSME4_HUMAN	36.8	2N28_A	6KWY_c	4P6Z_V	4P6Z_B
+sp|P69726|VPR_HV1H2	sp|O75335|LIPA4_HUMAN	36.8	1ESX_A	6KIP_B	4Z8L_B	4Z8L_F
+sp|Q30201|HFE_HUMAN	sp|P04601|NEF_HV1H2	36.8	1A6Z_C	3TB8_A	5XOV_H	3TB8_A
+sp|Q9UIJ7|KAD3_HUMAN	sp|P04601|NEF_HV1H2	36.8	1ZD8_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|Q13291|SLAF1_HUMAN	36.7	6PWU_E	3ALZ_B	2NY2_A	4HJJ_L
+sp|P04585|POL_HV1H2	sp|O94929|ABLM3_HUMAN	36.7	1L6N_A	1RUT_X	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|P29083|T2EA_HUMAN	36.7	1L6N_A	5IYD_Q	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q7Z417|NUFP2_HUMAN	36.7	1L6N_A	4O8M_G	6AR3_D	6AR3_D
+sp|P04585|POL_HV1H2	sp|Q96I25|SPF45_HUMAN	36.7	1L6N_A	5LSO_B	6D6V_A	6D6V_H
+sp|P04585|POL_HV1H2	sp|Q96T17|MA7D2_HUMAN	36.7	1L6N_A	6UZ7_1	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q9NXG6|P4HTM_HUMAN	36.7	1L6N_A	2JIG_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9Y5Q3|MAFB_HUMAN	36.7	1L6N_A	1K1V_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|O94929|ABLM3_HUMAN	36.7	1L6N_A	1RUT_X	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q96T17|MA7D2_HUMAN	36.7	1L6N_A	6UZ7_1	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q9NXG6|P4HTM_HUMAN	36.7	1L6N_A	2JIG_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9Y5Q3|MAFB_HUMAN	36.7	1L6N_A	1K1V_A	6BK8_O	5MQ0_t
+sp|P04601|NEF_HV1H2	sp|A0A576|TVB31_HUMAN	36.7	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9HBF4|ZFYV1_HUMAN	36.7	3TB8_A	4IDQ_C	6CRI_Z	6DFF_C
+sp|P04608|TAT_HV1H2	sp|Q9UK58|CCNL1_HUMAN	36.7	3MI9_C	2PK2_B	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A087WV62|TVB16_HUMAN	36.7	2X7L_R	5E9D_J	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0B4J263|TVA39_HUMAN	36.7	2X7L_R	2CDE_C	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	tr|A0A0G2JLQ3|A0A0G2JLQ3_HUMAN	36.7	2X7L_R	1NKR_A	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|Q7Z4Q2|HEAT3_HUMAN	36.7	2N28_A	4GMO_A	4P6Z_V	4P6Z_G
+sp|P16150|LEUK_HUMAN	sp|P04585|POL_HV1H2	36.7	5OB4_B	1L6N_A	6CPL_A	2XXM_A
+sp|P16150|LEUK_HUMAN	sp|P04591|GAG_HV1H2	36.7	5OB4_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|P09693|CD3G_HUMAN	36.6	6PWU_E	6JXR_g	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|Q5JSP0|FGD3_HUMAN	36.6	1L6N_A	3MPX_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q5JU85|IQEC2_HUMAN	36.6	1L6N_A	5NLY_B	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q8IV76|PASD1_HUMAN	36.6	1L6N_A	5VJI_D	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q96EY1|DNJA3_HUMAN	36.6	1L6N_A	3LZ8_B	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q9H3P2|NELFA_HUMAN	36.6	1L6N_A	6GML_U	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q9H6R7|WDCP_HUMAN	36.6	1L6N_A	5C9Z_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9HAE3|EFCB1_HUMAN	36.6	1L6N_A	5X9A_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q5JSP0|FGD3_HUMAN	36.6	1L6N_A	3MPX_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q5JU85|IQEC2_HUMAN	36.6	1L6N_A	5NLY_B	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q8IV76|PASD1_HUMAN	36.6	1L6N_A	5VJI_D	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q96EY1|DNJA3_HUMAN	36.6	1L6N_A	3LZ8_B	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q9H3P2|NELFA_HUMAN	36.6	1L6N_A	6GML_U	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q9H6R7|WDCP_HUMAN	36.6	1L6N_A	5C9Z_B	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9HAE3|EFCB1_HUMAN	36.6	1L6N_A	5X9A_B	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|Q13368|MPP3_HUMAN	36.6	3TB8_A	2XKX_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q13671|RIN1_HUMAN	36.6	3TB8_A	2EFH_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|A0A5A2|TVB58_HUMAN	36.6	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q8IW00|VSTM4_HUMAN	36.6	2X7L_R	5OR7_C	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q13535|ATR_HUMAN	36.6	2N28_A	5YZ0_A	4P6Z_V	4P6Z_G
+sp|P69723|VIF_HV1H2	sp|Q8IWT3|CUL9_HUMAN	36.6	4N9F_b	5UDH_B	4N9F_b	4JGH_D
+sp|P15812|CD1E_HUMAN	sp|P04578|ENV_HV1H2	36.5	1CD1_A	6PWU_E	5VIY_H	4TVP_G
+sp|A1L1A6|IGS23_HUMAN	sp|P04585|POL_HV1H2	36.5	5A2F_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|P67870|CSK2B_HUMAN	36.5	1L6N_A	4DGL_B	4ESJ_B	4KYW_A
+sp|Q6IA17|SIGIR_HUMAN	sp|P04585|POL_HV1H2	36.5	2J67_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|Q86YZ3|HORN_HUMAN	36.5	1L6N_A	1PSR_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q96EZ8|MCRS1_HUMAN	36.5	1L6N_A	2PIE_A	6ICZ_Z	6ID1_L
+sp|P04585|POL_HV1H2	sp|Q9BRK4|LZTS2_HUMAN	36.5	1L6N_A	1I84_V	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9H1C7|CYTM1_HUMAN	36.5	1L6N_A	6ID1_O	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9Y2W2|WBP11_HUMAN	36.5	1L6N_A	6LTH_O	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q86YZ3|HORN_HUMAN	36.5	1L6N_A	1PSR_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q96EZ8|MCRS1_HUMAN	36.5	1L6N_A	2PIE_A	6ICZ_Z	6ID1_L
+sp|P04591|GAG_HV1H2	sp|Q9BRK4|LZTS2_HUMAN	36.5	1L6N_A	1I84_V	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9H1C7|CYTM1_HUMAN	36.5	1L6N_A	6ID1_O	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9Y2W2|WBP11_HUMAN	36.5	1L6N_A	6LTH_O	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9Y4F3|MARF1_HUMAN	36.5	1L6N_A	5YAD_A	6ICZ_Z	2CQB_A
+sp|P04601|NEF_HV1H2	sp|A0A087WV62|TVB16_HUMAN	36.5	3TB8_A	5E9D_J	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|A0A0A0MS00|LV332_HUMAN	36.5	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|Q9C0C4|SEM4C_HUMAN	36.5	2X7L_R	6QP8_A	2X7L_R	5I8O_L
+sp|P05919|VPU_HV1H2	sp|Q5JTH9|RRP12_HUMAN	36.5	2N28_A	1QBK_B	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q6ZUA9|MROH5_HUMAN	36.5	2N28_A	2QK1_A	4P6Z_V	4P6Z_G
+sp|A1L1A6|IGS23_HUMAN	sp|P04591|GAG_HV1H2	36.5	5A2F_A	1L6N_A	5T70_G	3GV2_A
+sp|Q6IA17|SIGIR_HUMAN	sp|P04591|GAG_HV1H2	36.5	2J67_A	1L6N_A	6CPL_A	2XXM_A
+sp|P08123|CO1A2_HUMAN	sp|P04578|ENV_HV1H2	36.4	3HQV_B	6PWU_E	6MET_A	3J70_P
+sp|P04585|POL_HV1H2	sp|Q6ISS4|LAIR2_HUMAN	36.4	1L6N_A	3KGR_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q7L5Y9|MAEA_HUMAN	36.4	1L6N_A	6SWY_9	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q96DM3|RMC1_HUMAN	36.4	1L6N_A	5ODS_A	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|Q9NXX6|NSE4A_HUMAN	36.4	1L6N_A	5WSG_Z	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|Q9UIJ5|ZDHC2_HUMAN	36.4	1L6N_A	6BMN_A	6UCA_B	6UCA_D
+sp|P04591|GAG_HV1H2	sp|A0A075B6X5|TVA18_HUMAN	36.4	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q6ISS4|LAIR2_HUMAN	36.4	1L6N_A	3KGR_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q6R2W3|SCND3_HUMAN	36.4	1L6N_A	2BW3_A	6R23_B	6R23_B
+sp|P04591|GAG_HV1H2	sp|Q7L5Y9|MAEA_HUMAN	36.4	1L6N_A	6SWY_9	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q96DM3|RMC1_HUMAN	36.4	1L6N_A	5ODS_A	6ICZ_Z	6ID1_T
+sp|P04591|GAG_HV1H2	sp|Q9NXX6|NSE4A_HUMAN	36.4	1L6N_A	5WSG_Z	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|Q9UIJ5|ZDHC2_HUMAN	36.4	1L6N_A	6BMN_A	6UCA_D	6UCA_B
+sp|P04601|NEF_HV1H2	sp|A0A075B6X5|TVA18_HUMAN	36.4	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|A0A1B0GX78|TVBL5_HUMAN	sp|P04601|NEF_HV1H2	36.4	1YJD_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04601|NEF_HV1H2	sp|Q6UX27|VSTM1_HUMAN	36.4	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q7Z4Q2|HEAT3_HUMAN	36.4	3TB8_A	4GMO_A	6CRI_Z	6CRI_R
+sp|P04601|NEF_HV1H2	sp|Q9P260|RELCH_HUMAN	36.4	3TB8_A	2NYL_A	4NEE_K	2JKT_A
+sp|P04608|TAT_HV1H2	sp|P12035|K2C3_HUMAN	36.4	3MI9_C	3TNU_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A0K0K1G8|TVBJ2_HUMAN	36.4	2X7L_R	5E9D_E	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|P11308|ERG_HUMAN	36.4	1ESX_A	4IRI_A	4Z8L_B	4Z8L_F
+sp|O43908|NKG2F_HUMAN	sp|P04578|ENV_HV1H2	36.4	2L35_A	6PWU_E	1QO3_C	3J70_P
+sp|P10321|HLAC_HUMAN	sp|P04601|NEF_HV1H2	36.4	6AT5_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q8NCL8|TM116_HUMAN	sp|P04578|ENV_HV1H2	36.4	5TZR_A	6PWU_E	6MEO_B	3J70_P
+tr|Q9BZC5|Q9BZC5_HUMAN	sp|P04578|ENV_HV1H2	36.4	6ME6_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|O95376|ARI2_HUMAN	36.3	1L6N_A	5UDH_B	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|P27694|RFA1_HUMAN	36.3	1L6N_A	4GNX_C	6D6V_A	6D6V_D
+sp|P04585|POL_HV1H2	sp|Q0VAK6|LMOD3_HUMAN	36.3	1L6N_A	5WFN_C	6ICZ_Z	6ID1_P
+sp|P04585|POL_HV1H2	sp|Q5VUJ9|DRC8_HUMAN	36.3	1L6N_A	3OX6_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9BVG3|TRI62_HUMAN	36.3	1L6N_A	4CFG_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9ULC8|ZDHC8_HUMAN	36.3	1L6N_A	6BMN_A	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q9ULL8|SHRM4_HUMAN	36.3	1L6N_A	5F4Y_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O95376|ARI2_HUMAN	36.3	1L6N_A	5UDH_B	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q0VAK6|LMOD3_HUMAN	36.3	1L6N_A	5WFN_C	6ICZ_Z	6ID1_P
+sp|P04591|GAG_HV1H2	sp|Q5VUJ9|DRC8_HUMAN	36.3	1L6N_A	3OX6_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9BVG3|TRI62_HUMAN	36.3	1L6N_A	4CFG_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9ULC8|ZDHC8_HUMAN	36.3	1L6N_A	6BMN_A	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q9ULL8|SHRM4_HUMAN	36.3	1L6N_A	5F4Y_B	6BK8_O	5YLZ_T
+sp|P04601|NEF_HV1H2	sp|Q5TIA1|MEI1_HUMAN	36.3	3TB8_A	5ZHX_D	4NEE_K	2JKT_A
+sp|P04608|TAT_HV1H2	sp|O60548|FOXD2_HUMAN	36.3	3MI9_C	1JXS_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|P25311|ZA2G_HUMAN	36.3	2X7L_R	1ZAG_B	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q29980|MICB_HUMAN	36.3	2X7L_R	2WY3_A	2X7L_R	5I8O_L
+sp|P05919|VPU_HV1H2	sp|Q92845|KIFA3_HUMAN	36.3	2N28_A	5XGC_A	4P6Z_V	4P6Z_G
+sp|P04578|ENV_HV1H2	sp|O15041|SEM3E_HUMAN	36.2	6PWU_E	6QP7_B	3J70_P	4Q6I_J
+sp|P04578|ENV_HV1H2	sp|Q14563|SEM3A_HUMAN	36.2	6PWU_E	4GZ8_A	3J70_P	4Q6I_J
+sp|P04578|ENV_HV1H2	sp|Q17R55|F187B_HUMAN	36.2	6PWU_E	6OOL_A	6NIJ_B	3U1S_H
+sp|Q6ISS4|LAIR2_HUMAN	sp|P04578|ENV_HV1H2	36.2	3KGR_B	6PWU_E	6MET_A	3J70_P
+sp|P04585|POL_HV1H2	sp|O00358|FOXE1_HUMAN	36.2	1L6N_A	6AKP_C	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|O75808|CAN15_HUMAN	36.2	1L6N_A	1KFU_L	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|O95159|ZFPL1_HUMAN	36.2	1L6N_A	2CT0_A	6BK8_O	6J6H_Q
+sp|P03986|TRGC2_HUMAN	sp|P04585|POL_HV1H2	36.2	6D7G_E	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|P54920|SNAA_HUMAN	36.2	1L6N_A	3J96_H	6ICZ_Z	6ID1_I
+sp|P04585|POL_HV1H2	sp|Q11130|FUT7_HUMAN	36.2	1L6N_A	2NZX_B	6UCA_B	6UCA_D
+sp|Q68CR1|SE1L3_HUMAN	sp|P04585|POL_HV1H2	36.2	6ONW_B	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q8N2R8|FA43A_HUMAN	36.2	1L6N_A	6ITU_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q8WVZ9|KBTB7_HUMAN	36.2	1L6N_A	4HXI_A	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q9UGP5|DPOLL_HUMAN	36.2	1L6N_A	5IIM_A	3NYB_B	3NYB_A
+sp|P04585|POL_HV1H2	sp|Q9UH99|SUN2_HUMAN	36.2	1L6N_A	5ED8_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9ULW3|ABT1_HUMAN	36.2	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|O95159|ZFPL1_HUMAN	36.2	1L6N_A	2CT0_A	6BK8_O	6J6H_Q
+sp|P04591|GAG_HV1H2	sp|P54920|SNAA_HUMAN	36.2	1L6N_A	3J96_H	6ICZ_Z	6ID1_I
+sp|P04591|GAG_HV1H2	sp|Q11130|FUT7_HUMAN	36.2	1L6N_A	2NZX_B	6UCA_D	6UCA_B
+sp|Q68CR1|SE1L3_HUMAN	sp|P04591|GAG_HV1H2	36.2	6ONW_B	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q8N2R8|FA43A_HUMAN	36.2	1L6N_A	6ITU_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9UGP5|DPOLL_HUMAN	36.2	1L6N_A	5IIM_A	3NYB_B	3NYB_A
+sp|P04591|GAG_HV1H2	sp|Q9UH99|SUN2_HUMAN	36.2	1L6N_A	5ED8_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9ULW3|ABT1_HUMAN	36.2	1L6N_A	4WIJ_B	6BK8_O	6J6G_R
+sp|P04601|NEF_HV1H2	sp|A0A0K0K1G8|TVBJ2_HUMAN	36.2	3TB8_A	5E9D_E	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9NVH2|INT7_HUMAN	36.2	3TB8_A	6QH5_B	4NEE_K	2JKT_A
+sp|P04618|REV_HV1H2	sp|P43632|KI2S4_HUMAN	36.2	2X7L_R	1NKR_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A0A0MS03|A0A0A0MS03_HUMAN	36.2	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|P42858|HD_HUMAN	36.2	2N28_A	6X9O_A	4P6Z_V	4P6Z_B
+sp|O00142|KITM_HUMAN	sp|P04601|NEF_HV1H2	36.2	3IPX_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P01903|DRA_HUMAN	sp|P04601|NEF_HV1H2	36.2	6CPL_A	3TB8_A	5XOV_H	3TB8_A
+sp|P03986|TRGC2_HUMAN	sp|P04591|GAG_HV1H2	36.2	6D7G_E	1L6N_A	6CPL_A	2XXM_A
+sp|Q9NQ25|SLAF7_HUMAN	sp|P04601|NEF_HV1H2	36.2	3ALW_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q9Y653|AGRG1_HUMAN	sp|P04578|ENV_HV1H2	36.2	5KVM_A	6PWU_E	6MEO_B	3J70_P
+tr|A0A0G2JMH6|A0A0G2JMH6_HUMAN	sp|P04601|NEF_HV1H2	36.2	6CPL_A	3TB8_A	5XOV_H	3TB8_A
+sp|O15013|ARHGA_HUMAN	sp|P04585|POL_HV1H2	36.1	6L30_A	1L6N_A	6BK8_D	6BK8_O
+sp|P40198|CEAM3_HUMAN	sp|P04585|POL_HV1H2	36.1	1E07_A	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|Q8IY33|MILK2_HUMAN	36.1	1L6N_A	5LPN_B	6UCA_B	6UCA_D
+sp|Q8TA86|RP9_HUMAN	sp|P04585|POL_HV1H2	36.1	6ID1_U	1L6N_A	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q96GF1|RN185_HUMAN	36.1	1L6N_A	3JB9_U	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9BVA6|FICD_HUMAN	36.1	1L6N_A	6I7H_A	6ICZ_Z	6ID1_I
+sp|O15013|ARHGA_HUMAN	sp|P04591|GAG_HV1H2	36.1	6L30_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q8IY33|MILK2_HUMAN	36.1	1L6N_A	5LPN_B	6UCA_D	6UCA_B
+sp|Q8TA86|RP9_HUMAN	sp|P04591|GAG_HV1H2	36.1	6ID1_U	1L6N_A	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q96GF1|RN185_HUMAN	36.1	1L6N_A	3JB9_U	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9BVA6|FICD_HUMAN	36.1	1L6N_A	6I7H_A	6ICZ_Z	6ID1_I
+sp|P04601|NEF_HV1H2	sp|A0A0K0K1A3|TVBJ1_HUMAN	36.1	3TB8_A	5E9D_E	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q92854|SEM4D_HUMAN	36.1	3TB8_A	1OLZ_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9BYC5|FUT8_HUMAN	36.1	3TB8_A	6VLF_B	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|Q96BF3|TMIG2_HUMAN	36.1	2X7L_R	5OR7_C	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q99985|SEM3C_HUMAN	36.1	2X7L_R	6QP7_B	5DHX_C	6CVK_A
+sp|P15813|CD1D_HUMAN	sp|P04578|ENV_HV1H2	36.0	4MNG_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|O43316|PAX4_HUMAN	36.0	1L6N_A	6PAX_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|P02461|CO3A1_HUMAN	36.0	1L6N_A	3HQV_C	5OVN_A	5OVN_B
+sp|P04585|POL_HV1H2	sp|Q6ZUS6|CC149_HUMAN	36.0	1L6N_A	5IJN_H	6ICZ_Z	6ID1_L
+sp|P04591|GAG_HV1H2	sp|Q6ZUS6|CC149_HUMAN	36.0	1L6N_A	5IJN_H	6ICZ_Z	6ID1_L
+sp|P04601|NEF_HV1H2	sp|P32456|GBP2_HUMAN	36.0	3TB8_A	1F5N_A	6CRI_Z	6DFF_C
+sp|P04601|NEF_HV1H2	sp|Q13535|ATR_HUMAN	36.0	3TB8_A	5YZ0_A	6CRI_Z	6CRI_I
+sp|P04601|NEF_HV1H2	sp|Q9NTN9|SEM4G_HUMAN	36.0	3TB8_A	6QP7_B	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q12947|FOXF2_HUMAN	36.0	3MI9_C	1JXS_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|Q14953|KI2S5_HUMAN	36.0	2X7L_R	1NKR_A	5DHX_C	6CVK_A
+sp|P69726|VPR_HV1H2	sp|Q8N9M1|CS047_HUMAN	36.0	1ESX_A	3IDW_A	5AJA_B	5AJA_C
+sp|P04585|POL_HV1H2	sp|O60318|GANP_HUMAN	35.9	1L6N_A	5G5P_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|P40222|TXLNA_HUMAN	35.9	1L6N_A	1I84_V	6ICZ_Z	6ID1_L
+sp|P04585|POL_HV1H2	sp|Q70CQ3|UBP30_HUMAN	35.9	1L6N_A	5OHK_A	4ESJ_B	4KYW_A
+sp|Q8N2G6|ZCH24_HUMAN	sp|P04585|POL_HV1H2	35.9	6OET_C	1L6N_A	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q96MT1|RN145_HUMAN	35.9	1L6N_A	6VK0_B	6BK8_O	5MQ0_t
+sp|Q9Y493|ZAN_HUMAN	sp|P04585|POL_HV1H2	35.9	6N29_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	sp|O60318|GANP_HUMAN	35.9	1L6N_A	5G5P_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|P40222|TXLNA_HUMAN	35.9	1L6N_A	1I84_V	6ICZ_Z	6ID1_L
+sp|Q8N2G6|ZCH24_HUMAN	sp|P04591|GAG_HV1H2	35.9	6OET_C	1L6N_A	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q96MT1|RN145_HUMAN	35.9	1L6N_A	6VK0_B	6BK8_O	5MQ0_t
+sp|Q9Y493|ZAN_HUMAN	sp|P04591|GAG_HV1H2	35.9	6N29_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04601|NEF_HV1H2	sp|A8MVZ5|BTNLA_HUMAN	35.9	3TB8_A	4HH8_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q6P1M9|ARMX5_HUMAN	35.9	3TB8_A	4HXT_A	6OWT_N	6OWT_A
+sp|P04578|ENV_HV1H2	sp|Q86Y22|CONA1_HUMAN	35.8	6PWU_E	3HQV_C	5FYJ_G	6B0N_G
+sp|P04585|POL_HV1H2	sp|O15541|R113A_HUMAN	35.8	1L6N_A	6FF4_t	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|O43164|PJA2_HUMAN	35.8	1L6N_A	6VK0_B	6BK8_O	5MQ0_t
+sp|P0CF51|TRGC1_HUMAN	sp|P04585|POL_HV1H2	35.8	6D7G_E	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|P25440|BRD2_HUMAN	35.8	1L6N_A	6DNE_B	6ICZ_Z	6ID1_P
+sp|P04585|POL_HV1H2	sp|P50461|CSRP3_HUMAN	35.8	1L6N_A	1B8T_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q6JEL2|KLH10_HUMAN	35.8	1L6N_A	4YY8_A	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|Q8IVE0|CROL2_HUMAN	35.8	1L6N_A	5DFZ_D	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q8NG27|PJA1_HUMAN	35.8	1L6N_A	2L0B_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9NX78|TM260_HUMAN	35.8	1L6N_A	5EZM_A	6HWW_C	6HWW_C
+sp|P04591|GAG_HV1H2	sp|O15541|R113A_HUMAN	35.8	1L6N_A	6FF4_t	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|O43164|PJA2_HUMAN	35.8	1L6N_A	6VK0_B	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|P25440|BRD2_HUMAN	35.8	1L6N_A	6DNE_B	6ICZ_Z	6ID1_P
+sp|P04591|GAG_HV1H2	sp|Q8IVE0|CROL2_HUMAN	35.8	1L6N_A	5DFZ_D	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q8NG27|PJA1_HUMAN	35.8	1L6N_A	2L0B_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q96I25|SPF45_HUMAN	35.8	1L6N_A	5LSO_B	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9NX78|TM260_HUMAN	35.8	1L6N_A	5EZM_A	6HWW_C	6HWW_C
+sp|P04601|NEF_HV1H2	sp|P25054|APC_HUMAN	35.8	3TB8_A	1TH1_D	4NEE_K	2JKT_A
+sp|P04601|NEF_HV1H2	sp|Q08289|CACB2_HUMAN	35.8	3TB8_A	6JPA_C	4U5W_C	4U5W_B
+sp|P05919|VPU_HV1H2	sp|Q9P2D3|HTR5B_HUMAN	35.8	2N28_A	5VCH_A	4P6Z_V	4P6Z_B
+sp|P69726|VPR_HV1H2	sp|O94885|SASH1_HUMAN	35.8	1ESX_A	2DL0_A	4Z8L_B	4Z8L_F
+sp|P0CF51|TRGC1_HUMAN	sp|P04591|GAG_HV1H2	35.8	6D7G_E	1L6N_A	6CPL_A	2XXM_A
+sp|P51810|GP143_HUMAN	sp|P04578|ENV_HV1H2	35.8	6BD4_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|O15409|FOXP2_HUMAN	35.7	1L6N_A	4I1L_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|O75312|ZPR1_HUMAN	35.7	1L6N_A	2QKD_A	4ESJ_B	4KYW_A
+sp|O75871|CEAM4_HUMAN	sp|P04585|POL_HV1H2	35.7	6JXR_f	1L6N_A	6ID4_C	1R0A_A
+sp|P04585|POL_HV1H2	sp|O95789|ZMYM6_HUMAN	35.7	1L6N_A	2BW3_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|P08123|CO1A2_HUMAN	35.7	1L6N_A	3HQV_B	5OVN_A	5OVN_B
+sp|P04585|POL_HV1H2	sp|Q0D2K2|KLH30_HUMAN	35.7	1L6N_A	4YY8_A	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|Q13461|FOXE3_HUMAN	35.7	1L6N_A	1JXS_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q8WXA3|RUFY2_HUMAN	35.7	1L6N_A	2DWK_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9BW85|YJU2_HUMAN	35.7	1L6N_A	5YZG_Y	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9UBS8|RNF14_HUMAN	35.7	1L6N_A	5C1Z_B	4ESJ_B	4KYW_A
+sp|P04601|NEF_HV1H2	sp|A0A0B4J263|TVA39_HUMAN	35.7	3TB8_A	2CDE_C	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A0J9YXY3|TVB62_HUMAN	35.7	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P0DPF7|TVB63_HUMAN	35.7	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P20036|DPA1_HUMAN	35.7	2X7L_R	2P24_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A376A8Z9|A0A376A8Z9_HUMAN	35.7	2X7L_R	1NKR_A	5DHX_C	6CVK_A
+sp|P59533|T2R38_HUMAN	sp|P04578|ENV_HV1H2	35.7	5ZKQ_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9H0W8|SMG9_HUMAN	sp|P04601|NEF_HV1H2	35.7	6Z3R_C	3TB8_A	6CRI_L	6CRI_Z
+sp|O00231|PSD11_HUMAN	sp|P04585|POL_HV1H2	35.6	5VFP_X	1L6N_A	6ICZ_J	6ICZ_Z
+sp|O75900|MMP23_HUMAN	sp|P04585|POL_HV1H2	35.6	1L6J_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|P19438|TNR1A_HUMAN	35.6	1L6N_A	1EXT_A	6UCA_B	6UCA_D
+sp|P62714|PP2AB_HUMAN	sp|P04585|POL_HV1H2	35.6	4I5L_C	1L6N_A	6HMS_A	6T8H_B
+sp|P04585|POL_HV1H2	sp|Q13438|OS9_HUMAN	35.6	1L6N_A	6VK3_B	6ICZ_Z	6ID1_P
+sp|P04585|POL_HV1H2	sp|Q8TD91|MAGC3_HUMAN	35.6	1L6N_A	6R7T_B	6ICZ_Z	6ID1_O
+sp|O00231|PSD11_HUMAN	sp|P04591|GAG_HV1H2	35.6	5VFP_X	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|P19438|TNR1A_HUMAN	35.6	1L6N_A	1EXT_A	6UCA_D	6UCA_B
+sp|P62714|PP2AB_HUMAN	sp|P04591|GAG_HV1H2	35.6	4I5L_C	1L6N_A	6HMS_A	6T8H_B
+sp|P04591|GAG_HV1H2	sp|Q13438|OS9_HUMAN	35.6	1L6N_A	6VK3_B	6ICZ_Z	6ID1_P
+sp|P04591|GAG_HV1H2	sp|Q8TD91|MAGC3_HUMAN	35.6	1L6N_A	6R7T_B	6ICZ_Z	6ID1_O
+sp|P04601|NEF_HV1H2	sp|Q9NXF1|TEX10_HUMAN	35.6	3TB8_A	3WOZ_D	6OWT_N	6OWT_A
+sp|P04608|TAT_HV1H2	sp|Q8NCA5|FA98A_HUMAN	35.6	3MI9_C	5AOR_B	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A597|TVB55_HUMAN	35.6	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|O75900|MMP23_HUMAN	sp|P04591|GAG_HV1H2	35.6	1L6J_A	1L6N_A	5T70_G	3GV2_A
+sp|P15941|MUC1_HUMAN	sp|P04585|POL_HV1H2	35.6	2ACM_A	1L6N_A	6CPL_A	2XXM_A
+sp|P15941|MUC1_HUMAN	sp|P04591|GAG_HV1H2	35.6	2ACM_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q96JY0|MAEL_HUMAN	sp|P04591|GAG_HV1H2	35.6	4YBG_A	1L6N_A	6CIL_N	6OET_C
+sp|P04578|ENV_HV1H2	tr|A0A0A0MS04|A0A0A0MS04_HUMAN	35.5	6PWU_E	5E9D_E	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|A0A577|TVB41_HUMAN	35.5	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O43638|FOXS1_HUMAN	35.5	1L6N_A	1JXS_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|O60548|FOXD2_HUMAN	35.5	1L6N_A	1JXS_A	4ESJ_B	4KYW_A
+sp|Q86YD3|TMM25_HUMAN	sp|P04585|POL_HV1H2	35.5	6A69_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|Q9BQ24|ZFY21_HUMAN	35.5	1L6N_A	2RRF_A	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q9UJW0|DCTN4_HUMAN	35.5	1L6N_A	5K2M_E	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9UKJ0|PILRB_HUMAN	35.5	1L6N_A	5OR7_C	1R0A_A	1HYS_D
+sp|P04591|GAG_HV1H2	sp|A0A577|TVB41_HUMAN	35.5	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q9BQ24|ZFY21_HUMAN	35.5	1L6N_A	2RRF_A	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q9UKJ0|PILRB_HUMAN	35.5	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04618|REV_HV1H2	tr|A0A1W2PRS3|A0A1W2PRS3_HUMAN	35.5	2X7L_R	3VH8_H	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q15021|CND1_HUMAN	35.5	2N28_A	6QJ3_A	4P6Z_V	4P6Z_B
+sp|Q6Q8B3|MO2R2_HUMAN	sp|P04601|NEF_HV1H2	35.5	4BFG_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q86YD3|TMM25_HUMAN	sp|P04591|GAG_HV1H2	35.5	6A69_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|P40126|TYRP2_HUMAN	35.4	6PWU_E	5M8S_B	6DCQ_D	6DCQ_D
+sp|P04585|POL_HV1H2	sp|Q8NDX5|PHC3_HUMAN	35.4	1L6N_A	2NA1_A	5A9E_I	5A9E_I
+sp|P04585|POL_HV1H2	sp|Q8WVD3|RN138_HUMAN	35.4	1L6N_A	5DKA_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q96QA6|YPEL2_HUMAN	35.4	1L6N_A	6R1A_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q8NDX5|PHC3_HUMAN	35.4	1L6N_A	2NA1_A	5A9E_I	5A9E_I
+sp|P04601|NEF_HV1H2	sp|A0A577|TVB41_HUMAN	35.4	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+tr|A0A075B6L6|A0A075B6L6_HUMAN	sp|P04601|NEF_HV1H2	35.4	5E9D_J	3TB8_A	5XOV_H	3TB8_A
+sp|P04618|REV_HV1H2	sp|P01850|TRBC1_HUMAN	35.4	2X7L_R	6U07_B	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A0A6YYK4|A0A0A6YYK4_HUMAN	35.4	2X7L_R	5E9D_J	2X7L_R	5I8O_H
+sp|P04585|POL_HV1H2	sp|O14639|ABLM1_HUMAN	35.3	1L6N_A	1RUT_X	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|O95897|NOE2_HUMAN	35.3	1L6N_A	5AMO_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9BRS8|LARP6_HUMAN	35.3	1L6N_A	2MTF_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|O14639|ABLM1_HUMAN	35.3	1L6N_A	1RUT_X	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|O95897|NOE2_HUMAN	35.3	1L6N_A	5AMO_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9BRS8|LARP6_HUMAN	35.3	1L6N_A	2MTF_A	6BK8_O	6J6G_R
+sp|P04601|NEF_HV1H2	sp|P42858|HD_HUMAN	35.3	3TB8_A	6X9O_A	4NEE_K	2JKT_A
+sp|P04608|TAT_HV1H2	sp|Q96PX6|CC85A_HUMAN	35.3	3MI9_C	6WX6_N	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q9NUG4|CCM2L_HUMAN	35.3	3MI9_C	4YKC_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|Q29983|MICA_HUMAN	35.3	2X7L_R	2WY3_A	2X7L_R	5I8O_L
+sp|P69723|VIF_HV1H2	sp|Q9BZL1|UBL5_HUMAN	35.3	4N9F_b	1WM2_A	4N9F_b	2MA9_B
+sp|P69726|VPR_HV1H2	sp|Q9NSI8|SAMN1_HUMAN	35.3	1ESX_A	6UZJ_A	4Z8L_B	4Z8L_F
+sp|P04585|POL_HV1H2	sp|P08590|MYL3_HUMAN	35.2	1L6N_A	6FSA_D	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q6ZW33|MICLK_HUMAN	35.2	1L6N_A	5LPN_B	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q8IZP6|R113B_HUMAN	35.2	1L6N_A	6FF7_t	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q8TDW4|ST7L_HUMAN	35.2	1L6N_A	2VQ2_A	6BK8_O	6J6H_v
+sp|P04585|POL_HV1H2	sp|Q8WXS8|ATS14_HUMAN	35.2	1L6N_A	6QIG_A	6BK8_O	6J6G_T
+sp|P04585|POL_HV1H2	sp|Q9UDW3|ZMAT5_HUMAN	35.2	1L6N_A	6FF4_t	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9UHC7|MKRN1_HUMAN	35.2	1L6N_A	6FBS_C	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q9UJP4|KLH21_HUMAN	35.2	1L6N_A	4YY8_A	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|A8MYZ6|FOXO6_HUMAN	35.2	1L6N_A	5DUI_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|O00358|FOXE1_HUMAN	35.2	1L6N_A	6AKP_C	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|O15409|FOXP2_HUMAN	35.2	1L6N_A	4I1L_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|O43524|FOXO3_HUMAN	35.2	1L6N_A	6QVW_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|O43638|FOXS1_HUMAN	35.2	1L6N_A	1JXS_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|O60548|FOXD2_HUMAN	35.2	1L6N_A	1JXS_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|O75312|ZPR1_HUMAN	35.2	1L6N_A	2QKD_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|O75808|CAN15_HUMAN	35.2	1L6N_A	1KFU_L	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|O95789|ZMYM6_HUMAN	35.2	1L6N_A	2BW3_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|P08590|MYL3_HUMAN	35.2	1L6N_A	6FSA_D	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P29083|T2EA_HUMAN	35.2	1L6N_A	5IYD_Q	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|P50461|CSRP3_HUMAN	35.2	1L6N_A	1B8T_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|P55316|FOXG1_HUMAN	35.2	1L6N_A	1JXS_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|P55317|FOXA1_HUMAN	35.2	1L6N_A	6FEC_w	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|P55318|FOXA3_HUMAN	35.2	1L6N_A	6FEC_w	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|P67870|CSK2B_HUMAN	35.2	1L6N_A	4DGL_B	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|P78364|PHC1_HUMAN	35.2	1L6N_A	2W0T_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|P98177|FOXO4_HUMAN	35.2	1L6N_A	1E17_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q08050|FOXM1_HUMAN	35.2	1L6N_A	6OSW_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q12778|FOXO1_HUMAN	35.2	1L6N_A	4LG0_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q12946|FOXF1_HUMAN	35.2	1L6N_A	1JXS_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q12947|FOXF2_HUMAN	35.2	1L6N_A	1JXS_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q12948|FOXC1_HUMAN	35.2	1L6N_A	6FEC_w	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q12951|FOXI1_HUMAN	35.2	1L6N_A	1KQ8_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q12952|FOXL1_HUMAN	35.2	1L6N_A	6FEC_w	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q13461|FOXE3_HUMAN	35.2	1L6N_A	1JXS_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q5JPB2|ZN831_HUMAN	35.2	1L6N_A	5UND_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q5W0Q7|USPL1_HUMAN	35.2	1L6N_A	5L8H_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q6ZQN5|FOXI2_HUMAN	35.2	1L6N_A	1JXS_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q6ZW33|MICLK_HUMAN	35.2	1L6N_A	5LPN_B	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q70CQ3|UBP30_HUMAN	35.2	1L6N_A	5OHK_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q75N03|HAKAI_HUMAN	35.2	1L6N_A	3VK6_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q86VP1|TAXB1_HUMAN	35.2	1L6N_A	5Z7G_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q8IVH2|FOXP4_HUMAN	35.2	1L6N_A	4I1L_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q8IWL3|HSC20_HUMAN	35.2	1L6N_A	3BVO_B	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q8IWT3|CUL9_HUMAN	35.2	1L6N_A	5UDH_B	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q8IZP6|R113B_HUMAN	35.2	1L6N_A	6FF7_t	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q8TDW4|ST7L_HUMAN	35.2	1L6N_A	2VQ2_A	6BK8_O	6J6H_v
+sp|P04591|GAG_HV1H2	sp|Q8WVD3|RN138_HUMAN	35.2	1L6N_A	5DKA_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q8WXA3|RUFY2_HUMAN	35.2	1L6N_A	2DWK_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q8WXS8|ATS14_HUMAN	35.2	1L6N_A	6QIG_A	6BK8_O	6J6G_T
+sp|P04591|GAG_HV1H2	sp|Q96ME7|ZN512_HUMAN	35.2	1L6N_A	5YEF_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q96QA6|YPEL2_HUMAN	35.2	1L6N_A	6R1A_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q99958|FOXC2_HUMAN	35.2	1L6N_A	6AKP_C	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9BW85|YJU2_HUMAN	35.2	1L6N_A	5YZG_Y	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9H1K0|RBNS5_HUMAN	35.2	1L6N_A	5OD1_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9H5J0|ZBTB3_HUMAN	35.2	1L6N_A	6GUW_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9H714|PACER_HUMAN	35.2	1L6N_A	6WCW_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9HAW0|BRF2_HUMAN	35.2	1L6N_A	4ROE_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9NSE4|SYIM_HUMAN	35.2	1L6N_A	1FFY_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9NWK9|BCD1_HUMAN	35.2	1L6N_A	6HFM_B	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9UBS8|RNF14_HUMAN	35.2	1L6N_A	5C1Z_B	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9UDW3|ZMAT5_HUMAN	35.2	1L6N_A	6FF4_t	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9UHC7|MKRN1_HUMAN	35.2	1L6N_A	6FBS_C	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q9UJW0|DCTN4_HUMAN	35.2	1L6N_A	5K2M_E	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9Y261|FOXA2_HUMAN	35.2	1L6N_A	6FEC_w	4ESJ_B	4KYW_A
+tr|A0A087X0K7|A0A087X0K7_HUMAN	sp|P04601|NEF_HV1H2	35.2	5WB1_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04608|TAT_HV1H2	sp|Q96S94|CCNL2_HUMAN	35.2	3MI9_C	2W2H_A	3MI9_C	2PK2_B
+sp|P69726|VPR_HV1H2	sp|Q9Y6Y0|NS1BP_HUMAN	35.2	1ESX_A	6N3H_A	5JK7_F	5JK7_E
+sp|O95025|SEM3D_HUMAN	sp|P04585|POL_HV1H2	35.2	6QP7_B	1L6N_A	5T70_G	3GV2_A
+sp|O95025|SEM3D_HUMAN	sp|P04591|GAG_HV1H2	35.2	6QP7_B	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q15714|T22D1_HUMAN	35.1	6PWU_E	1DIP_A	2X7R_N	1FAV_A
+sp|P04585|POL_HV1H2	sp|O75398|DEAF1_HUMAN	35.1	1L6N_A	1OQJ_A	6T61_E	6T61_E
+sp|P04585|POL_HV1H2	sp|Q14765|STAT4_HUMAN	35.1	1L6N_A	1YVL_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q86SU0|ILDR1_HUMAN	35.1	1L6N_A	5XSY_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q8N108|MIER1_HUMAN	35.1	1L6N_A	4BKX_A	6BK8_O	5WSG_c
+sp|P04585|POL_HV1H2	sp|Q96NS1|YPEL4_HUMAN	35.1	1L6N_A	5HJ0_B	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9H334|FOXP1_HUMAN	35.1	1L6N_A	4I1L_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|O75398|DEAF1_HUMAN	35.1	1L6N_A	1OQJ_A	6T61_E	6T61_E
+sp|P04591|GAG_HV1H2	sp|Q14765|STAT4_HUMAN	35.1	1L6N_A	1YVL_B	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q86SU0|ILDR1_HUMAN	35.1	1L6N_A	5XSY_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q8N108|MIER1_HUMAN	35.1	1L6N_A	4BKX_A	6BK8_O	5WSG_c
+sp|P04591|GAG_HV1H2	sp|Q96NS1|YPEL4_HUMAN	35.1	1L6N_A	5HJ0_B	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9H334|FOXP1_HUMAN	35.1	1L6N_A	4I1L_A	4ESJ_B	4KYW_A
+sp|P04601|NEF_HV1H2	sp|Q13200|PSMD2_HUMAN	35.1	3TB8_A	5L4K_Z	6CRI_Z	6CRI_R
+sp|P69726|VPR_HV1H2	sp|Q6P2C0|WDR93_HUMAN	35.1	1ESX_A	6G6M_A	5JK7_F	5JK7_E
+sp|Q16854|DGUOK_HUMAN	sp|P04601|NEF_HV1H2	35.1	2OCP_G	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|Q13214|SEM3B_HUMAN	35.0	6PWU_E	6QP7_B	6TYB_G	6TYB_C
+sp|Q7Z692|CEA19_HUMAN	sp|P04578|ENV_HV1H2	35.0	6J8H_C	6PWU_E	6NNF_U	6B0N_G
+sp|P04585|POL_HV1H2	sp|P17535|JUND_HUMAN	35.0	1L6N_A	1JUN_A	6ICZ_Z	6ID1_K
+sp|P04585|POL_HV1H2	sp|Q07699|SCN1B_HUMAN	35.0	1L6N_A	6J8J_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q2TBE0|C19L2_HUMAN	35.0	1L6N_A	6ID1_U	6ICZ_Z	6ICZ_X
+sp|P04585|POL_HV1H2	sp|Q7L590|MCM10_HUMAN	35.0	1L6N_A	3H15_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q8IWZ6|BBS7_HUMAN	35.0	1L6N_A	6VBU_7	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|Q8N7E2|CBLL2_HUMAN	35.0	1L6N_A	3VK6_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9BY12|SCAPE_HUMAN	35.0	1L6N_A	6FML_J	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q9UBZ4|APEX2_HUMAN	35.0	1L6N_A	6WCD_A	6UCA_B	6UCA_D
+sp|P04591|GAG_HV1H2	sp|P17535|JUND_HUMAN	35.0	1L6N_A	1JUN_A	6ICZ_Z	6ID1_K
+sp|P04591|GAG_HV1H2	sp|Q07699|SCN1B_HUMAN	35.0	1L6N_A	6J8J_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q07869|PPARA_HUMAN	35.0	1L6N_A	3E00_D	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q2TBE0|C19L2_HUMAN	35.0	1L6N_A	6ID1_U	6ICZ_Z	6ICZ_X
+sp|P04591|GAG_HV1H2	sp|Q7L590|MCM10_HUMAN	35.0	1L6N_A	3H15_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q8IWZ6|BBS7_HUMAN	35.0	1L6N_A	6VBU_7	6ICZ_Z	6ID1_T
+sp|P04591|GAG_HV1H2	sp|Q8N7E2|CBLL2_HUMAN	35.0	1L6N_A	3VK6_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9BY12|SCAPE_HUMAN	35.0	1L6N_A	6FML_J	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q9UBZ4|APEX2_HUMAN	35.0	1L6N_A	6WCD_A	6UCA_D	6UCA_B
+sp|P04618|REV_HV1H2	sp|A0A075B6X5|TVA18_HUMAN	35.0	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A0A6YYG3|TVB68_HUMAN	35.0	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|O95025|SEM3D_HUMAN	35.0	2X7L_R	6QP7_B	2X7L_R	5I8O_H
+sp|P69723|VIF_HV1H2	sp|Q14999|CUL7_HUMAN	35.0	4N9F_b	2JNG_A	4N9F_b	4JGH_D
+sp|P04578|ENV_HV1H2	sp|O76014|KRT37_HUMAN	34.9	6PWU_E	3TNU_B	2B9B_B	2B9B_B
+sp|P04585|POL_HV1H2	sp|A0A539|TVB42_HUMAN	34.9	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O00635|TRI38_HUMAN	34.9	1L6N_A	4CFG_A	6ICZ_Z	6ID1_L
+sp|P04585|POL_HV1H2	sp|P12757|SKIL_HUMAN	34.9	1L6N_A	5C4V_F	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q16676|FOXD1_HUMAN	34.9	1L6N_A	5A5U_B	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q86X95|CIR1_HUMAN	34.9	1L6N_A	5YZG_X	6R24_C	6R24_C
+sp|P04585|POL_HV1H2	sp|Q8N9Q2|SR1IP_HUMAN	34.9	1L6N_A	6TAS_F	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|Q96K19|RN170_HUMAN	34.9	1L6N_A	2C2L_B	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9BXP5|SRRT_HUMAN	34.9	1L6N_A	6F8D_C	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	sp|Q9NPJ6|MED4_HUMAN	34.9	1L6N_A	5OQM_h	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9ULF5|S39AA_HUMAN	34.9	1L6N_A	5TSA_A	6AR3_D	6AR3_D
+sp|P04591|GAG_HV1H2	sp|A0A539|TVB42_HUMAN	34.9	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O00635|TRI38_HUMAN	34.9	1L6N_A	4CFG_A	6ICZ_Z	6ID1_L
+sp|P04591|GAG_HV1H2	sp|P12757|SKIL_HUMAN	34.9	1L6N_A	5C4V_F	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q16676|FOXD1_HUMAN	34.9	1L6N_A	5A5U_B	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q86X95|CIR1_HUMAN	34.9	1L6N_A	5YZG_X	6R23_B	6R23_B
+sp|P04591|GAG_HV1H2	sp|Q8N9Q2|SR1IP_HUMAN	34.9	1L6N_A	6TAS_F	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|Q96K19|RN170_HUMAN	34.9	1L6N_A	2C2L_B	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9BXP5|SRRT_HUMAN	34.9	1L6N_A	6F8D_C	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q9NPJ6|MED4_HUMAN	34.9	1L6N_A	5OQM_h	6BK8_O	5MQ0_t
+sp|A0A584|TVBK2_HUMAN	sp|P04601|NEF_HV1H2	34.9	1YJD_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04601|NEF_HV1H2	sp|A0A5A6|TVBK3_HUMAN	34.9	3TB8_A	6GJS_B	4ORZ_B	5MZV_D
+sp|P69723|VIF_HV1H2	sp|Q17RS7|GEN_HUMAN	34.9	4N9F_b	5T9J_B	4N9F_b	4N9F_b
+sp|P69726|VPR_HV1H2	sp|Q674X7|KAZRN_HUMAN	34.9	1ESX_A	3TAD_A	5AJA_B	5AJA_C
+sp|P0DMS9|TMIG3_HUMAN	sp|P04578|ENV_HV1H2	34.8	5OR7_C	6PWU_E	6NNF_U	6B0N_G
+sp|P04578|ENV_HV1H2	sp|P0DTE2|HV511_HUMAN	34.8	6PWU_E	5WB1_A	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|Q86SU0|ILDR1_HUMAN	34.8	6PWU_E	5XSY_B	3J70_P	4Q6I_J
+tr|A0A0A6YYK4|A0A0A6YYK4_HUMAN	sp|P04578|ENV_HV1H2	34.8	5E9D_J	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|O95302|FKBP9_HUMAN	34.8	1L6N_A	3JYM_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P23193|TCEA1_HUMAN	34.8	1L6N_A	5IYB_U	3HPG_B	6EMQ_A
+sp|P04585|POL_HV1H2	sp|P58012|FOXL2_HUMAN	34.8	1L6N_A	2HDC_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q5T230|UTF1_HUMAN	34.8	1L6N_A	2JMW_A	6ICZ_Z	6ID1_L
+sp|P04585|POL_HV1H2	sp|Q96MV8|ZDH15_HUMAN	34.8	1L6N_A	6BMS_D	6UCA_B	6UCA_D
+sp|P04591|GAG_HV1H2	sp|O95302|FKBP9_HUMAN	34.8	1L6N_A	3JYM_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P03372|ESR1_HUMAN	34.8	1L6N_A	2OCF_A	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|P58012|FOXL2_HUMAN	34.8	1L6N_A	2HDC_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q5T230|UTF1_HUMAN	34.8	1L6N_A	2JMW_A	6ICZ_Z	6ID1_L
+sp|P04591|GAG_HV1H2	sp|Q96MV8|ZDH15_HUMAN	34.8	1L6N_A	6BMS_D	6UCA_D	6UCA_B
+sp|P04601|NEF_HV1H2	sp|Q7Z692|CEA19_HUMAN	34.8	3TB8_A	6J8H_C	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|P84550|SKOR1_HUMAN	34.8	3MI9_C	1MR1_C	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	tr|A0A0G2JNG1|A0A0G2JNG1_HUMAN	34.8	2X7L_R	1B6U_A	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|Q14669|TRIPC_HUMAN	34.8	2N28_A	5TJ8_A	4P6Z_V	4P6Z_G
+sp|P69726|VPR_HV1H2	sp|O15350|P73_HUMAN	34.8	1ESX_A	5XZC_C	5AJA_B	5AJA_C
+sp|O75084|FZD7_HUMAN	sp|P04578|ENV_HV1H2	34.8	5V56_A	6PWU_E	6MEO_B	3J70_P
+sp|P17693|HLAG_HUMAN	sp|P04601|NEF_HV1H2	34.8	6AT5_A	3TB8_A	5XOV_H	3TB8_A
+sp|P20036|DPA1_HUMAN	sp|P04601|NEF_HV1H2	34.8	2P24_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q8IZA0|K319L_HUMAN	sp|P04578|ENV_HV1H2	34.8	6NZ0_Z	6PWU_E	6MET_A	3J70_P
+sp|P04578|ENV_HV1H2	sp|O14668|TMG1_HUMAN	34.7	6PWU_E	1J34_C	6DCQ_D	6DCQ_D
+sp|P04578|ENV_HV1H2	sp|Q6UX52|IL40_HUMAN	34.7	6PWU_E	1FNL_A	6NIJ_B	5WHZ_L
+sp|P04585|POL_HV1H2	sp|P12035|K2C3_HUMAN	34.7	1L6N_A	3TNU_A	6R24_C	6R24_C
+sp|P04585|POL_HV1H2	sp|Q7Z4V0|ZN438_HUMAN	34.7	1L6N_A	3ZMS_C	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q86W67|F228A_HUMAN	34.7	1L6N_A	4PJ3_A	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|Q96GR4|ZDH12_HUMAN	34.7	1L6N_A	6BML_B	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q9BUZ4|TRAF4_HUMAN	34.7	1L6N_A	3ZJB_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|P12035|K2C3_HUMAN	34.7	1L6N_A	3TNU_A	6R23_B	6R23_B
+sp|P04591|GAG_HV1H2	sp|P40198|CEAM3_HUMAN	34.7	1L6N_A	1E07_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q7Z4V0|ZN438_HUMAN	34.7	1L6N_A	3ZMS_C	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q86W67|F228A_HUMAN	34.7	1L6N_A	4PJ3_A	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|Q96GR4|ZDH12_HUMAN	34.7	1L6N_A	6BML_B	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q9BUZ4|TRAF4_HUMAN	34.7	1L6N_A	3ZJB_A	6BK8_O	5MQ0_t
+sp|P04601|NEF_HV1H2	sp|A8MXK1|VSTM5_HUMAN	34.7	3TB8_A	6J8H_C	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|A0A075B6I7|LV548_HUMAN	34.7	2X7L_R	6HD8_A	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|O75995|SASH3_HUMAN	34.7	1ESX_A	2MYQ_A	4Z8L_B	4Z8L_F
+sp|Q8IZA0|K319L_HUMAN	sp|P04585|POL_HV1H2	34.7	6NZ0_Z	1L6N_A	6CPL_A	2XXM_A
+sp|Q8IZA0|K319L_HUMAN	sp|P04591|GAG_HV1H2	34.7	6NZ0_Z	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|Q6ZMT4|KDM7A_HUMAN	34.6	6PWU_E	3KV5_A	6OHY_D	6NIJ_B
+sp|P04578|ENV_HV1H2	sp|Q99958|FOXC2_HUMAN	34.6	6PWU_E	6AKP_C	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|Q96GM8|TOE1_HUMAN	34.6	1L6N_A	3D45_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|A0A1B0GTZ2|CC196_HUMAN	34.6	1L6N_A	6GPZ_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|A0A1B0GV03|GG6L7_HUMAN	34.6	1L6N_A	6K06_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A0A1B0GVG4|CC194_HUMAN	34.6	1L6N_A	6GAP_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A1A5D9|BICL2_HUMAN	34.6	1L6N_A	6F1U_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A1L390|PKHG3_HUMAN	34.6	1L6N_A	4XH9_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A2IDD5|CCD78_HUMAN	34.6	1L6N_A	6OWD_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|A2RUR9|C144A_HUMAN	34.6	1L6N_A	5TBY_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A4D0S4|LAMB4_HUMAN	34.6	1L6N_A	4AQS_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A4D2H0|CTGEF_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A4FU28|CTGE9_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A5D8V6|VP37C_HUMAN	34.6	1L6N_A	2P22_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A5D8V7|CC151_HUMAN	34.6	1L6N_A	6U42_7	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NC78|GOG8I_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NC98|CC88B_HUMAN	34.6	1L6N_A	1WIX_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NCC3|GOG8O_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NCK2|TR43B_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NCL1|GEMC1_HUMAN	34.6	1L6N_A	5C9N_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|A6NCN2|KR87P_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NDK9|GOG6C_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NDN3|GOG6B_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NEE1|PLHD1_HUMAN	34.6	1L6N_A	1U5E_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NEF3|GG6L4_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NEM1|GG6L9_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NEY3|GG6L3_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NF01|P121B_HUMAN	34.6	1L6N_A	5OWU_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|A6NFE2|SMCO2_HUMAN	34.6	1L6N_A	5Z4Z_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NGB0|T191C_HUMAN	34.6	1L6N_A	4LIN_I	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NGG8|PCARE_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|A6NGH7|CC160_HUMAN	34.6	1L6N_A	6GAP_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|A6NGJ6|TRI64_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|A6NI03|TR64B_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|A6NI56|CC154_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NI86|GG6LA_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|A6NJT0|UNC4_HUMAN	34.6	1L6N_A	1MH3_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|A6NK02|TRI75_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NLI5|TR64C_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|A6NMD2|GOG8J_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NN73|GOG8C_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NNT2|CP096_HUMAN	34.6	1L6N_A	5G6U_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A7E2F4|GOG8A_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A7E2Y1|MYH7B_HUMAN	34.6	1L6N_A	5TBY_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|A8CG34|P121C_HUMAN	34.6	1L6N_A	4YI0_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A8MQT2|GOG8B_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A8MT33|SYC1L_HUMAN	34.6	1L6N_A	6PFP_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|A8MTL3|R212B_HUMAN	34.6	1L6N_A	3JB9_U	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A8MVX0|ARG33_HUMAN	34.6	1L6N_A	3ODX_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A8MW95|BECN2_HUMAN	34.6	1L6N_A	5DFZ_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A8MYB1|TMC5B_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|A8MZ36|EVPLL_HUMAN	34.6	1L6N_A	2IAK_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|B3KU38|IQIP1_HUMAN	34.6	1L6N_A	4WSO_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|B9ZVM9|TCP2L_HUMAN	34.6	1L6N_A	5U5A_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|D6RF30|GOG8K_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|D6RGH6|MCIN_HUMAN	34.6	1L6N_A	4BRY_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|F8WBI6|GOG8N_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|H0YKK7|GG6LS_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|H3BPF8|GOG8S_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|H3BQL2|GOG8T_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|H3BSY2|GOG8M_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|H3BV12|GOG8Q_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|H7BZ55|CRCC2_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|H7C350|CC188_HUMAN	34.6	1L6N_A	4U5T_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|I6L899|GOG8R_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O00291|HIP1_HUMAN	34.6	1L6N_A	1R0D_I	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O00300|TR11B_HUMAN	34.6	1L6N_A	4E4D_R	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O00461|GOLI4_HUMAN	34.6	1L6N_A	4CGK_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O00463|TRAF5_HUMAN	34.6	1L6N_A	1FLK_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O00471|EXOC5_HUMAN	34.6	1L6N_A	5YFP_E	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O00499|BIN1_HUMAN	34.6	1L6N_A	1MV3_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O00567|NOP56_HUMAN	34.6	1L6N_A	6ND4_a	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O14513|NCKP5_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O14526|FCHO1_HUMAN	34.6	1L6N_A	6IKN_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O14529|CUX2_HUMAN	34.6	1L6N_A	1WH8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O14662|STX16_HUMAN	34.6	1L6N_A	4JEH_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O14777|NDC80_HUMAN	34.6	1L6N_A	2VE7_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O14782|KIF3C_HUMAN	34.6	1L6N_A	5MM7_K	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O14791|APOL1_HUMAN	34.6	1L6N_A	3GWK_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O14795|UN13B_HUMAN	34.6	1L6N_A	5UE8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O14964|HGS_HUMAN	34.6	1L6N_A	3ZYQ_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O15049|N4BP3_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O15061|SYNEM_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O15078|CE290_HUMAN	34.6	1L6N_A	5TBY_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O15079|SNPH_HUMAN	34.6	1L6N_A	6GAO_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O15083|ERC2_HUMAN	34.6	1L6N_A	6WG3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O15123|ANGP2_HUMAN	34.6	1L6N_A	1LWU_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O15127|SCAM2_HUMAN	34.6	1L6N_A	2R32_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O15226|NKRF_HUMAN	34.6	1L6N_A	5ZAL_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O15230|LAMA5_HUMAN	34.6	1L6N_A	2Y38_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O15400|STX7_HUMAN	34.6	1L6N_A	4JEH_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O15482|TEX28_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O15519|CFLAR_HUMAN	34.6	1L6N_A	2BBZ_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O15553|MEFV_HUMAN	34.6	1L6N_A	4CG4_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O15554|KCNN4_HUMAN	34.6	1L6N_A	6CNN_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O43303|CP110_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O43312|MTSS1_HUMAN	34.6	1L6N_A	2D1L_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O43490|PROM1_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O43586|PPIP1_HUMAN	34.6	1L6N_A	4BNE_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O43663|PRC1_HUMAN	34.6	1L6N_A	4L6Y_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O43752|STX6_HUMAN	34.6	1L6N_A	4J2C_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O43790|KRT86_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O43896|KIF1C_HUMAN	34.6	1L6N_A	6A20_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O43909|EXTL3_HUMAN	34.6	1L6N_A	1ON8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O60239|3BP5_HUMAN	34.6	1L6N_A	6IXV_D	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O60282|KIF5C_HUMAN	34.6	1L6N_A	5GSZ_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O60284|ST18_HUMAN	34.6	1L6N_A	2MF8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O60296|TRAK2_HUMAN	34.6	1L6N_A	6F1U_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O60299|LZTS3_HUMAN	34.6	1L6N_A	3OJA_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O60343|TBCD4_HUMAN	34.6	1L6N_A	3QYB_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O60437|PEPL_HUMAN	34.6	1L6N_A	3PE0_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O60447|EVI5_HUMAN	34.6	1L6N_A	4NC6_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O60641|AP180_HUMAN	34.6	1L6N_A	1HX8_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O60664|PLIN3_HUMAN	34.6	1L6N_A	1SZI_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O60749|SNX2_HUMAN	34.6	1L6N_A	4AKV_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O60763|USO1_HUMAN	34.6	1L6N_A	3GQ2_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O60826|CCD22_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O60858|TRI13_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O60941|DTNB_HUMAN	34.6	1L6N_A	1EG4_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O75069|TMCC2_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O75071|EFC14_HUMAN	34.6	1L6N_A	5ZGM_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O75145|LIPA3_HUMAN	34.6	1L6N_A	6KIP_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O75146|HIP1R_HUMAN	34.6	1L6N_A	6R9T_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O75150|BRE1B_HUMAN	34.6	1L6N_A	5TRB_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O75330|HMMR_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O75334|LIPA2_HUMAN	34.6	1L6N_A	6KIP_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O75335|LIPA4_HUMAN	34.6	1L6N_A	6KIP_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O75381|PEX14_HUMAN	34.6	1L6N_A	4BXU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O75410|TACC1_HUMAN	34.6	1L6N_A	5LXN_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O75558|STX11_HUMAN	34.6	1L6N_A	4JEU_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O75665|OFD1_HUMAN	34.6	1L6N_A	2D68_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O75694|NU155_HUMAN	34.6	1L6N_A	5A9Q_B	5IJN_H	5IJO_K
+sp|P04591|GAG_HV1H2	sp|O75901|RASF9_HUMAN	34.6	1L6N_A	2CS4_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O75909|CCNK_HUMAN	34.6	1L6N_A	6B3E_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O76009|KT33A_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O76011|KRT34_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O76013|KRT36_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O76014|KRT37_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O76015|KRT38_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O76064|RNF8_HUMAN	34.6	1L6N_A	4AYC_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O94763|RMP_HUMAN	34.6	1L6N_A	6NR8_5	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O94876|TMCC1_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O94901|SUN1_HUMAN	34.6	1L6N_A	5YWZ_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O94964|SOGA1_HUMAN	34.6	1L6N_A	5NPW_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O94972|TRI37_HUMAN	34.6	1L6N_A	6QU1_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O94986|CE152_HUMAN	34.6	1L6N_A	6CSU_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O95153|RIMB1_HUMAN	34.6	1L6N_A	2CSP_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O95202|LETM1_HUMAN	34.6	1L6N_A	3SKQ_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O95219|SNX4_HUMAN	34.6	1L6N_A	6H7W_F	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O95235|KI20A_HUMAN	34.6	1L6N_A	5ND4_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O95263|PDE8B_HUMAN	34.6	1L6N_A	4Y2B_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O95359|TACC2_HUMAN	34.6	1L6N_A	5LXN_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O95361|TRI16_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O95397|PKHA9_HUMAN	34.6	1L6N_A	5KDI_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O95447|LCA5L_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O95502|NPTXR_HUMAN	34.6	1L6N_A	6V55_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O95613|PCNT_HUMAN	34.6	1L6N_A	5TBY_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O95678|K2C75_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O95721|SNP29_HUMAN	34.6	1L6N_A	3J96_M	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O95995|DRC4_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O95996|APCL_HUMAN	34.6	1L6N_A	1TH1_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P01100|FOS_HUMAN	34.6	1L6N_A	6MG1_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P02458|CO2A1_HUMAN	34.6	1L6N_A	3HQV_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P02461|CO3A1_HUMAN	34.6	1L6N_A	3HQV_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P02533|K1C14_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P02538|K2C6A_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P02545|LMNA_HUMAN	34.6	1L6N_A	6JLB_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P02647|APOA1_HUMAN	34.6	1L6N_A	3K2S_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P02649|APOE_HUMAN	34.6	1L6N_A	2L7B_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P02671|FIBA_HUMAN	34.6	1L6N_A	3GHG_J	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P02675|FIBB_HUMAN	34.6	1L6N_A	3GHG_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P02679|FIBG_HUMAN	34.6	1L6N_A	1M1J_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P04114|APOB_HUMAN	34.6	1L6N_A	1LSH_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P04259|K2C6B_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P04264|K2C1_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P04844|RPN2_HUMAN	34.6	1L6N_A	6S7O_F	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P05067|A4_HUMAN	34.6	1L6N_A	5BUO_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P05412|JUN_HUMAN	34.6	1L6N_A	1JUN_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P05783|K1C18_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P05787|K2C8_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P05997|CO5A2_HUMAN	34.6	1L6N_A	3HQV_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P06727|APOA4_HUMAN	34.6	1L6N_A	3S84_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P06734|FCER2_HUMAN	34.6	1L6N_A	5G6U_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P07196|NFL_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P07197|NFM_HUMAN	34.6	1L6N_A	6UUI_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P07942|LAMB1_HUMAN	34.6	1L6N_A	4AQS_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P07951|TPM2_HUMAN	34.6	1L6N_A	2B9C_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P08123|CO1A2_HUMAN	34.6	1L6N_A	3HQV_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P08473|NEP_HUMAN	34.6	1L6N_A	6SUK_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P08670|VIME_HUMAN	34.6	1L6N_A	6UUI_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P08727|K1C19_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P08729|K2C7_HUMAN	34.6	1L6N_A	6UUI_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P08779|K1C16_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P09603|CSF1_HUMAN	34.6	1L6N_A	5LXF_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P0C221|CC175_HUMAN	34.6	1L6N_A	5VLI_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P0C7I6|CC159_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P0C7N4|T191B_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P0CAP1|MYZAP_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P0CG33|GOG6D_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P0CG41|CTGE8_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P0CJ92|GOG8H_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P0CW27|CC166_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P0DJJ0|SRG2C_HUMAN	34.6	1L6N_A	5I6R_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P0DMV8|HS71A_HUMAN	34.6	1L6N_A	5FPN_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P0DMV9|HS71B_HUMAN	34.6	1L6N_A	5FPN_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P0DPB3|SCHI1_HUMAN	34.6	1L6N_A	4WSO_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P10911|MCF2_HUMAN	34.6	1L6N_A	3ODW_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P11021|BIP_HUMAN	34.6	1L6N_A	6ASY_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P11047|LAMC1_HUMAN	34.6	1L6N_A	6FKQ_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P11055|MYH3_HUMAN	34.6	1L6N_A	5TBY_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P11277|SPTB1_HUMAN	34.6	1L6N_A	1SJJ_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P11387|TOP1_HUMAN	34.6	1L6N_A	1K4T_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P11532|DMD_HUMAN	34.6	1L6N_A	1SJJ_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P12036|NFH_HUMAN	34.6	1L6N_A	6UUI_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P12107|COBA1_HUMAN	34.6	1L6N_A	3HQV_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P12270|TPR_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P12755|SKI_HUMAN	34.6	1L6N_A	5C4V_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P12882|MYH1_HUMAN	34.6	1L6N_A	5TBY_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P13646|K1C13_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P13647|K2C5_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P14136|GFAP_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P14373|TRI27_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P14859|PO2F1_HUMAN	34.6	1L6N_A	6YOV_K	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P15407|FOSL1_HUMAN	34.6	1L6N_A	6MG1_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P15408|FOSL2_HUMAN	34.6	1L6N_A	6MG2_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P15884|ITF2_HUMAN	34.6	1L6N_A	2MH0_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P15924|DESP_HUMAN	34.6	1L6N_A	5DZZ_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P16383|GCFC2_HUMAN	34.6	1L6N_A	5Y88_V	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P17275|JUNB_HUMAN	34.6	1L6N_A	1JUN_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P17676|CEBPB_HUMAN	34.6	1L6N_A	1HJB_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P17861|XBP1_HUMAN	34.6	1L6N_A	2WT7_B	5IJN_H	5IJO_L
+sp|P04591|GAG_HV1H2	sp|P18206|VINC_HUMAN	34.6	1L6N_A	6NR7_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P18848|ATF4_HUMAN	34.6	1L6N_A	6IRR_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P19012|K1C15_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P19474|RO52_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P19634|SL9A1_HUMAN	34.6	1L6N_A	4CZ9_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P20264|PO3F3_HUMAN	34.6	1L6N_A	6T90_K	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P20700|LMNB1_HUMAN	34.6	1L6N_A	6JLB_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P20701|ITAL_HUMAN	34.6	1L6N_A	4NEH_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P21854|CD72_HUMAN	34.6	1L6N_A	5G6U_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P22059|OSBP1_HUMAN	34.6	1L6N_A	5ZM5_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P23508|CRCM_HUMAN	34.6	1L6N_A	6GAP_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P23677|IP3KA_HUMAN	34.6	1L6N_A	1W2F_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P23760|PAX3_HUMAN	34.6	1L6N_A	2H8R_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P24043|LAMA2_HUMAN	34.6	1L6N_A	4AQS_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P25054|APC_HUMAN	34.6	1L6N_A	1TH1_D	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P25391|LAMA1_HUMAN	34.6	1L6N_A	4AQS_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P26038|MOES_HUMAN	34.6	1L6N_A	4RM8_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P27987|IP3KB_HUMAN	34.6	1L6N_A	2AQX_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P29590|PML_HUMAN	34.6	1L6N_A	6H3A_F	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P30533|AMRP_HUMAN	34.6	1L6N_A	2P03_A	5IJN_H	5IJO_L
+sp|P04591|GAG_HV1H2	sp|P30566|PUR8_HUMAN	34.6	1L6N_A	5NXA_H	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P32856|STX2_HUMAN	34.6	1L6N_A	4JEH_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P33176|KINH_HUMAN	34.6	1L6N_A	5MM7_K	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P34932|HSP74_HUMAN	34.6	1L6N_A	3D2F_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P35052|GPC1_HUMAN	34.6	1L6N_A	4YWT_D	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P35527|K1C9_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P35579|MYH9_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P35580|MYH10_HUMAN	34.6	1L6N_A	3JBH_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P35749|MYH11_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P35900|K1C20_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P35908|K22E_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P37198|NUP62_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P39880|CUX1_HUMAN	34.6	1L6N_A	1S7E_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P40424|PBX1_HUMAN	34.6	1L6N_A	3D1N_M	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P40425|PBX2_HUMAN	34.6	1L6N_A	3D1N_M	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P40426|PBX3_HUMAN	34.6	1L6N_A	3D1N_M	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P40763|STAT3_HUMAN	34.6	1L6N_A	1YVL_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P41229|KDM5C_HUMAN	34.6	1L6N_A	5CEH_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P42224|STAT1_HUMAN	34.6	1L6N_A	1YVL_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P42229|STA5A_HUMAN	34.6	1L6N_A	1YVL_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P42331|RHG25_HUMAN	34.6	1L6N_A	2MBG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P46939|UTRO_HUMAN	34.6	1L6N_A	1SJJ_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P47972|NPTX2_HUMAN	34.6	1L6N_A	6YPE_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P48553|TPC10_HUMAN	34.6	1L6N_A	6AU8_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P48668|K2C6C_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P49257|LMAN1_HUMAN	34.6	1L6N_A	3LCP_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P49418|AMPH_HUMAN	34.6	1L6N_A	4ATM_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P49454|CENPF_HUMAN	34.6	1L6N_A	6WG3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P49675|STAR_HUMAN	34.6	1L6N_A	3P0L_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P49715|CEBPA_HUMAN	34.6	1L6N_A	1HJB_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P49716|CEBPD_HUMAN	34.6	1L6N_A	1H89_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P49790|NU153_HUMAN	34.6	1L6N_A	3GJ7_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P51587|BRCA2_HUMAN	34.6	1L6N_A	1IYJ_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P51692|STA5B_HUMAN	34.6	1L6N_A	6UX2_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P51693|APLP1_HUMAN	34.6	1L6N_A	3PMR_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P51805|PLXA3_HUMAN	34.6	1L6N_A	6VXK_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P52594|AGFG1_HUMAN	34.6	1L6N_A	2OLM_A	5IJN_H	5IJO_L
+sp|P04591|GAG_HV1H2	sp|P52630|STAT2_HUMAN	34.6	1L6N_A	6WCZ_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P52732|KIF11_HUMAN	34.6	1L6N_A	6G6Y_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P52948|NUP98_HUMAN	34.6	1L6N_A	5A9Q_E	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P53539|FOSB_HUMAN	34.6	1L6N_A	6MG2_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P53990|IST1_HUMAN	34.6	1L6N_A	6E8G_D	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P54257|HAP1_HUMAN	34.6	1L6N_A	6F1U_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P54652|HSP72_HUMAN	34.6	1L6N_A	5FPN_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P55081|MFAP1_HUMAN	34.6	1L6N_A	6AHD_0	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P55268|LAMB2_HUMAN	34.6	1L6N_A	4AQS_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P55327|TPD52_HUMAN	34.6	1L6N_A	6NR8_2	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P56962|STX17_HUMAN	34.6	1L6N_A	4WY4_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P57077|M3KCL_HUMAN	34.6	1L6N_A	6IAN_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P57740|NU107_HUMAN	34.6	1L6N_A	5A9Q_D	5IJN_H	5IJO_O
+sp|P04591|GAG_HV1H2	sp|P61266|STX1B_HUMAN	34.6	1L6N_A	4JEU_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P61289|PSME3_HUMAN	34.6	1L6N_A	5MX5_L	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P67936|TPM4_HUMAN	34.6	1L6N_A	2B9C_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P78385|KRT83_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P78386|KRT85_HUMAN	34.6	1L6N_A	6UUI_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P78559|MAP1A_HUMAN	34.6	1L6N_A	1WRA_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P82094|TMF1_HUMAN	34.6	1L6N_A	6FSA_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P83436|COG7_HUMAN	34.6	1L6N_A	5H11_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P98082|DAB2_HUMAN	34.6	1L6N_A	6O5O_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q00613|HSF1_HUMAN	34.6	1L6N_A	5D5V_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q00722|PLCB2_HUMAN	34.6	1L6N_A	4GNK_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q01082|SPTB2_HUMAN	34.6	1L6N_A	1SJJ_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q01538|MYT1_HUMAN	34.6	1L6N_A	2MF8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q01546|K22O_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q01664|TFAP4_HUMAN	34.6	1L6N_A	6MGM_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q01850|CDR2_HUMAN	34.6	1L6N_A	6F1U_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q01860|PO5F1_HUMAN	34.6	1L6N_A	6YOV_K	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q01970|PLCB3_HUMAN	34.6	1L6N_A	4GNK_D	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q02224|CENPE_HUMAN	34.6	1L6N_A	2OWM_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q02505|MUC3A_HUMAN	34.6	1L6N_A	6UJA_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q03181|PPARD_HUMAN	34.6	1L6N_A	3E00_D	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q03252|LMNB2_HUMAN	34.6	1L6N_A	6JLB_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q03426|KIME_HUMAN	34.6	1L6N_A	2R3V_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q04695|K1C17_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q05D60|DEUP1_HUMAN	34.6	1L6N_A	6CSU_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q06481|APLP2_HUMAN	34.6	1L6N_A	5BUO_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q07092|COGA1_HUMAN	34.6	1L6N_A	3HQV_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q07889|SOS1_HUMAN	34.6	1L6N_A	3KSY_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q08379|GOGA2_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q08AF8|GOG8F_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q0D2H9|GOG8D_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q0D2I5|IFFO1_HUMAN	34.6	1L6N_A	1X8Y_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q0JRZ9|FCHO2_HUMAN	34.6	1L6N_A	5JP2_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q12769|NU160_HUMAN	34.6	1L6N_A	5A9Q_S	5IJN_H	5IJO_K
+sp|P04591|GAG_HV1H2	sp|Q12799|TCP10_HUMAN	34.6	1L6N_A	5U5A_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q12802|AKP13_HUMAN	34.6	1L6N_A	4D0N_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q12816|TROP_HUMAN	34.6	1L6N_A	6R7T_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q12840|KIF5A_HUMAN	34.6	1L6N_A	5MM7_K	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q12846|STX4_HUMAN	34.6	1L6N_A	4JEU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q12912|IRAG2_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q12933|TRAF2_HUMAN	34.6	1L6N_A	1FLK_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q12934|BFSP1_HUMAN	34.6	1L6N_A	6E2J_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q12981|SEC20_HUMAN	34.6	1L6N_A	2NPS_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q13023|AKAP6_HUMAN	34.6	1L6N_A	1U4Q_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q13077|TRAF1_HUMAN	34.6	1L6N_A	1FLK_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q13114|TRAF3_HUMAN	34.6	1L6N_A	1FLK_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q13136|LIPA1_HUMAN	34.6	1L6N_A	6KIP_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q13137|CACO2_HUMAN	34.6	1L6N_A	5Z7G_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q13155|AIMP2_HUMAN	34.6	1L6N_A	5A1N_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q13190|STX5_HUMAN	34.6	1L6N_A	2XHE_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q13201|MMRN1_HUMAN	34.6	1L6N_A	5H48_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q13263|TIF1B_HUMAN	34.6	1L6N_A	6H3A_F	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q13277|STX3_HUMAN	34.6	1L6N_A	4JEH_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q13315|ATM_HUMAN	34.6	1L6N_A	6K9L_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q13439|GOGA4_HUMAN	34.6	1L6N_A	1R4A_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q13474|DRP2_HUMAN	34.6	1L6N_A	1EG4_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q13488|VPP3_HUMAN	34.6	1L6N_A	6PE5_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q13492|PICAL_HUMAN	34.6	1L6N_A	1HX8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q13515|BFSP2_HUMAN	34.6	1L6N_A	4YPC_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q13561|DCTN2_HUMAN	34.6	1L6N_A	6F1T_b	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q13586|STIM1_HUMAN	34.6	1L6N_A	3TER_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q13596|SNX1_HUMAN	34.6	1L6N_A	4AKV_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q13751|LAMB3_HUMAN	34.6	1L6N_A	4AQS_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q13753|LAMC2_HUMAN	34.6	1L6N_A	4AQS_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q13769|THOC5_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q13796|SHRM2_HUMAN	34.6	1L6N_A	5F4Y_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q14134|TRI29_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q14142|TRI14_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q14155|ARHG7_HUMAN	34.6	1L6N_A	2PZ1_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q14186|TFDP1_HUMAN	34.6	1L6N_A	5TUU_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q14203|DCTN1_HUMAN	34.6	1L6N_A	4RFX_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q14258|TRI25_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q14314|FGL2_HUMAN	34.6	1L6N_A	3GHG_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q14444|CAPR1_HUMAN	34.6	1L6N_A	5J97_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q14457|BECN1_HUMAN	34.6	1L6N_A	5DFZ_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q14525|KT33B_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q14532|K1H2_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q14533|KRT81_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q14667|K0100_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q14746|COG2_HUMAN	34.6	1L6N_A	2JQQ_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q14789|GOGB1_HUMAN	34.6	1L6N_A	6FSA_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q14980|NUMA1_HUMAN	34.6	1L6N_A	6HC2_T	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q14BN4|SLMAP_HUMAN	34.6	1L6N_A	6AKM_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q14CN4|K2C72_HUMAN	34.6	1L6N_A	6UUI_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q15007|FL2D_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q15018|ABRX2_HUMAN	34.6	1L6N_A	6H3C_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q15025|TNIP1_HUMAN	34.6	1L6N_A	5H07_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q15075|EEA1_HUMAN	34.6	1L6N_A	1JOC_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q15147|PLCB4_HUMAN	34.6	1L6N_A	4GNK_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q15149|PLEC_HUMAN	34.6	1L6N_A	5DZZ_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q15154|PCM1_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q15276|RABE1_HUMAN	34.6	1L6N_A	1TU3_J	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q15311|RBP1_HUMAN	34.6	1L6N_A	2MBG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q15323|K1H1_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q15389|ANGP1_HUMAN	34.6	1L6N_A	1LWU_I	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q15431|SYCP1_HUMAN	34.6	1L6N_A	4YTO_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q15438|CYH1_HUMAN	34.6	1L6N_A	6U3G_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q15528|MED22_HUMAN	34.6	1L6N_A	5N9J_Z	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q15545|TAF7_HUMAN	34.6	1L6N_A	5FUR_H	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q155Q3|DIXC1_HUMAN	34.6	1L6N_A	5Y3C_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q15642|CIP4_HUMAN	34.6	1L6N_A	2EFK_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q15643|TRIPB_HUMAN	34.6	1L6N_A	6FSA_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q15650|TRIP4_HUMAN	34.6	1L6N_A	2E5O_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q15818|NPTX1_HUMAN	34.6	1L6N_A	6YPE_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q15846|CLUL1_HUMAN	34.6	1L6N_A	6RWG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q15853|USF2_HUMAN	34.6	1L6N_A	6G6K_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q16204|CCDC6_HUMAN	34.6	1L6N_A	4KBL_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q16281|CNGA3_HUMAN	34.6	1L6N_A	5VA1_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q16352|AINX_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q16363|LAMA4_HUMAN	34.6	1L6N_A	5XAU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q16621|NFE2_HUMAN	34.6	1L6N_A	2KZ5_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q16623|STX1A_HUMAN	34.6	1L6N_A	4JEU_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q16625|OCLN_HUMAN	34.6	1L6N_A	1XAW_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q16643|DREB_HUMAN	34.6	1L6N_A	5Y1Z_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q16787|LAMA3_HUMAN	34.6	1L6N_A	4AQS_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q16891|MIC60_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q17RW2|COOA1_HUMAN	34.6	1L6N_A	3HQV_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q2KHM9|MOONR_HUMAN	34.6	1L6N_A	6RW4_U	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q2M1P5|KIF7_HUMAN	34.6	1L6N_A	6MLR_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q2M243|CCD27_HUMAN	34.6	1L6N_A	6F1U_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q2M2I5|K1C24_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q2M329|CCD96_HUMAN	34.6	1L6N_A	5VJ4_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q2M3G4|SHRM1_HUMAN	34.6	1L6N_A	3THF_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q2NKQ1|SGSM1_HUMAN	34.6	1L6N_A	4QXA_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q2TAC2|CCD57_HUMAN	34.6	1L6N_A	6F1T_x	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q2TAL5|SMTL2_HUMAN	34.6	1L6N_A	6ICI_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q309B1|TR16L_HUMAN	34.6	1L6N_A	6FLN_E	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q32MZ4|LRRF1_HUMAN	34.6	1L6N_A	4H22_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q33E94|RFX4_HUMAN	34.6	1L6N_A	1DP7_P	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q3MJ40|C144B_HUMAN	34.6	1L6N_A	1NLW_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q3SY84|K2C71_HUMAN	34.6	1L6N_A	6UUI_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q3V6T2|GRDN_HUMAN	34.6	1L6N_A	1WIX_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q494R4|CC153_HUMAN	34.6	1L6N_A	3NA7_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q494V2|CP100_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q495X7|TRI60_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q49A88|CCD14_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q4G0S7|CC152_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q4G0X9|CCD40_HUMAN	34.6	1L6N_A	3JBH_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q4L180|FIL1L_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q4V328|GRAP1_HUMAN	34.6	1L6N_A	3JBH_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q502W7|CCD38_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q52LJ0|FA98B_HUMAN	34.6	1L6N_A	5AOR_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q52LW3|RHG29_HUMAN	34.6	1L6N_A	1XA6_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q53EZ4|CEP55_HUMAN	34.6	1L6N_A	3WUV_K	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q53GS7|GLE1_HUMAN	34.6	1L6N_A	6B4F_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q53HC0|CCD92_HUMAN	34.6	1L6N_A	5YZ0_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q567U6|CCD93_HUMAN	34.6	1L6N_A	4LL8_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q569K6|CC157_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q58FG0|HS905_HUMAN	34.6	1L6N_A	2CG9_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q59EK9|RUN3A_HUMAN	34.6	1L6N_A	2DWK_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5BJE1|CC178_HUMAN	34.6	1L6N_A	6JLB_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5BJF6|ODFP2_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5CZC0|FSIP2_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5EBL4|RIPL1_HUMAN	34.6	1L6N_A	4KP3_D	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q5JR59|MTUS2_HUMAN	34.6	1L6N_A	4GNK_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5JTD0|TJAP1_HUMAN	34.6	1L6N_A	4XA3_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5JU67|CF157_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5M775|CYTSB_HUMAN	34.6	1L6N_A	6ICI_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5M9N0|CD158_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5SRE5|NU188_HUMAN	34.6	1L6N_A	5IJO_V	5IJN_H	5IJN_P
+sp|P04591|GAG_HV1H2	sp|Q5SZL2|CE85L_HUMAN	34.6	1L6N_A	5OI7_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5T0J7|TEX35_HUMAN	34.6	1L6N_A	4DZN_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q5T0N5|FBP1L_HUMAN	34.6	1L6N_A	2EFL_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q5T0U0|CC122_HUMAN	34.6	1L6N_A	4CGK_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q5T124|UBX11_HUMAN	34.6	1L6N_A	6OPC_Z	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5T1B0|AXDN1_HUMAN	34.6	1L6N_A	1ZKE_F	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q5T1M5|FKB15_HUMAN	34.6	1L6N_A	5U9K_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5T1N1|AKND1_HUMAN	34.6	1L6N_A	2KGO_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q5T5P2|SKT_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5T655|CFA58_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5T9S5|CCD18_HUMAN	34.6	1L6N_A	6FSA_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5TB80|CE162_HUMAN	34.6	1L6N_A	6U42_7	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5TBA9|FRY_HUMAN	34.6	1L6N_A	6SGA_F	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q5TEA3|CT194_HUMAN	34.6	1L6N_A	4IXN_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q5TEZ5|CF163_HUMAN	34.6	1L6N_A	5XSO_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q5TF21|SOGA3_HUMAN	34.6	1L6N_A	6U42_7	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5TF58|IFFO2_HUMAN	34.6	1L6N_A	1X8Y_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5TKA1|LIN9_HUMAN	34.6	1L6N_A	6C48_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5TZA2|CROCC_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5VIR6|VPS53_HUMAN	34.6	1L6N_A	5YFP_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5VTR2|BRE1A_HUMAN	34.6	1L6N_A	6NMI_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5VU43|MYOME_HUMAN	34.6	1L6N_A	5MW9_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5VVM6|CCD30_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5VWJ9|SNX30_HUMAN	34.6	1L6N_A	3DYT_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q5VWQ8|DAB2P_HUMAN	34.6	1L6N_A	3BXJ_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5VX52|SPAT1_HUMAN	34.6	1L6N_A	2KWI_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5VZ66|JKIP3_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5XKE5|K2C79_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q66GS9|CP135_HUMAN	34.6	1L6N_A	5FCM_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q674X7|KAZRN_HUMAN	34.6	1L6N_A	3TAD_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q68BL8|OLM2B_HUMAN	34.6	1L6N_A	6QHJ_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q68CJ9|CR3L3_HUMAN	34.6	1L6N_A	6IAK_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q68CZ1|FTM_HUMAN	34.6	1L6N_A	4QAM_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q68D86|C102B_HUMAN	34.6	1L6N_A	4XA6_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q68DK7|MSL1_HUMAN	34.6	1L6N_A	2Y0N_E	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q68EM7|RHG17_HUMAN	34.6	1L6N_A	5C2K_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q69YQ0|CYTSA_HUMAN	34.6	1L6N_A	6ICI_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6A162|K1C40_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6A163|K1C39_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6AZY7|SCAR3_HUMAN	34.6	1L6N_A	3HQV_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6AZZ1|TRI68_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6IPM2|IQCE_HUMAN	34.6	1L6N_A	4R8G_E	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6IQ23|PKHA7_HUMAN	34.6	1L6N_A	2Y7B_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6KB66|K2C80_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6NSJ2|PHLB3_HUMAN	34.6	1L6N_A	4EJN_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6NUQ1|RINT1_HUMAN	34.6	1L6N_A	3FHN_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q6P2H3|CEP85_HUMAN	34.6	1L6N_A	5OI7_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6P4E1|GOLM2_HUMAN	34.6	1L6N_A	6GAP_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6P9F0|CCD62_HUMAN	34.6	1L6N_A	6GAP_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6P9F5|TRI40_HUMAN	34.6	1L6N_A	6QU1_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6PIF2|SYCE2_HUMAN	34.6	1L6N_A	6QU1_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6PJ69|TRI65_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJO_L
+sp|P04591|GAG_HV1H2	sp|Q6Q788|APOA5_HUMAN	34.6	1L6N_A	2L7B_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q6TFL3|CC171_HUMAN	34.6	1L6N_A	3JBH_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6UVJ0|SAS6_HUMAN	34.6	1L6N_A	3Q0X_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6UWJ1|TMCO3_HUMAN	34.6	1L6N_A	5BZ3_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q6UWY5|OLFL1_HUMAN	34.6	1L6N_A	4D7C_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6UWZ7|ABRX1_HUMAN	34.6	1L6N_A	6GVW_F	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q6UX06|OLFM4_HUMAN	34.6	1L6N_A	5AMO_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6UXH0|ANGL8_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q6UXY1|BI2L2_HUMAN	34.6	1L6N_A	3OK8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6WCQ1|MPRIP_HUMAN	34.6	1L6N_A	3LJU_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6ZMI0|PPR21_HUMAN	34.6	1L6N_A	6GAP_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q6ZMJ2|SCAR5_HUMAN	34.6	1L6N_A	5ZE3_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6ZMU5|TRI72_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6ZMV7|LEKR1_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q6ZMZ3|SYNE3_HUMAN	34.6	1L6N_A	1U4Q_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q6ZNE5|BAKOR_HUMAN	34.6	1L6N_A	5DFZ_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q6ZNE9|RUFY4_HUMAN	34.6	1L6N_A	2DWK_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6ZNL6|FGD5_HUMAN	34.6	1L6N_A	3MPX_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6ZP65|BICL1_HUMAN	34.6	1L6N_A	6F1U_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6ZP82|CC141_HUMAN	34.6	1L6N_A	1SJJ_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q6ZRF8|RN207_HUMAN	34.6	1L6N_A	6H3A_F	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q6ZRK6|CCD73_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6ZRS4|ITPI1_HUMAN	34.6	1L6N_A	2JSA_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6ZS17|RIPR1_HUMAN	34.6	1L6N_A	3H0G_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q6ZSZ5|ARHGI_HUMAN	34.6	1L6N_A	4MT7_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6ZT62|BGIN_HUMAN	34.6	1L6N_A	3FK2_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q6ZT98|TTLL7_HUMAN	34.6	1L6N_A	4YLR_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6ZTR7|CBAR2_HUMAN	34.6	1L6N_A	4AVM_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6ZTU2|E400N_HUMAN	34.6	1L6N_A	5LNF_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6ZU52|K0408_HUMAN	34.6	1L6N_A	6ID1_N	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6ZU80|CE128_HUMAN	34.6	1L6N_A	6FSA_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6ZWJ1|STXB4_HUMAN	34.6	1L6N_A	2OEI_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q70SY1|CR3L2_HUMAN	34.6	1L6N_A	6IAK_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q70UQ0|IKIP_HUMAN	34.6	1L6N_A	6GAK_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q70YC5|ZN365_HUMAN	34.6	1L6N_A	6CVQ_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q71F23|CENPU_HUMAN	34.6	1L6N_A	3PLT_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q765P7|MTSS2_HUMAN	34.6	1L6N_A	2D1L_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q76N32|CEP68_HUMAN	34.6	1L6N_A	1QUU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q7L099|RUFY3_HUMAN	34.6	1L6N_A	2DWK_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q7L2Z9|CENPQ_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q7L8J4|3BP5L_HUMAN	34.6	1L6N_A	6IXV_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q7RTS7|K2C74_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q7RTX7|CTSR4_HUMAN	34.6	1L6N_A	3J9P_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q7Z2Z1|TICRR_HUMAN	34.6	1L6N_A	3WI3_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q7Z3B4|NUP54_HUMAN	34.6	1L6N_A	5IJO_L	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q7Z3E2|CC186_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q7Z3Y7|K1C28_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q7Z3Y8|K1C27_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q7Z3Y9|K1C26_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q7Z3Z0|K1C25_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q7Z4H7|HAUS6_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q7Z4K8|TRI46_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q7Z569|BRAP_HUMAN	34.6	1L6N_A	3IHP_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q7Z5H3|RHG22_HUMAN	34.6	1L6N_A	3FK2_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q7Z5P9|MUC19_HUMAN	34.6	1L6N_A	6N29_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q7Z628|ARHG8_HUMAN	34.6	1L6N_A	4XH9_D	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q7Z6B0|CCD91_HUMAN	34.6	1L6N_A	4GNK_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q7Z6B7|SRGP1_HUMAN	34.6	1L6N_A	5I6R_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q7Z794|K2C1B_HUMAN	34.6	1L6N_A	6UUI_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q7Z7B0|FLIP1_HUMAN	34.6	1L6N_A	6FSA_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q7Z7E8|UB2Q1_HUMAN	34.6	1L6N_A	2QGX_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q86SQ0|PHLB2_HUMAN	34.6	1L6N_A	4EJN_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86SQ7|SDCG8_HUMAN	34.6	1L6N_A	6F1T_x	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86T90|K1328_HUMAN	34.6	1L6N_A	2VE7_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86TE4|LUZP2_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86UC2|RSPH3_HUMAN	34.6	1L6N_A	4WIJ_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86UF2|CTGE6_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86UP2|KTN1_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86UU1|PHLB1_HUMAN	34.6	1L6N_A	5DJO_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86V48|LUZP1_HUMAN	34.6	1L6N_A	4UXV_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86VH2|KIF27_HUMAN	34.6	1L6N_A	5MM7_K	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86VQ0|LCA5_HUMAN	34.6	1L6N_A	6GAP_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86VS8|HOOK3_HUMAN	34.6	1L6N_A	6B9H_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86VW0|SESD1_HUMAN	34.6	1L6N_A	1SJJ_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q86VW2|ARHGP_HUMAN	34.6	1L6N_A	2RGN_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86W54|SPA24_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86W92|LIPB1_HUMAN	34.6	1L6N_A	3TAD_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86WT6|TRI69_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86X02|CDR2L_HUMAN	34.6	1L6N_A	6F1U_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86XN7|PRSR1_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86XR8|CEP57_HUMAN	34.6	1L6N_A	4L0R_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86XZ4|SPAS2_HUMAN	34.6	1L6N_A	6H3A_F	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86Y13|DZIP3_HUMAN	34.6	1L6N_A	6VK0_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q86Y46|K2C73_HUMAN	34.6	1L6N_A	6UUI_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86YF9|DZIP1_HUMAN	34.6	1L6N_A	1M36_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q86YS3|RFIP4_HUMAN	34.6	1L6N_A	2HV8_E	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86YV0|RASL3_HUMAN	34.6	1L6N_A	3BXJ_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86Z20|CC125_HUMAN	34.6	1L6N_A	6PFP_C	5IJN_H	5IJO_L
+sp|P04591|GAG_HV1H2	sp|Q8IUD2|RB6I2_HUMAN	34.6	1L6N_A	6FSA_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IUG5|MY18B_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IUN9|CLC10_HUMAN	34.6	1L6N_A	5G6U_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IV77|CNGA4_HUMAN	34.6	1L6N_A	5VA1_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8IVE3|PKHH2_HUMAN	34.6	1L6N_A	3AU4_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IVI9|NOSTN_HUMAN	34.6	1L6N_A	4BNE_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IWA6|CCD60_HUMAN	34.6	1L6N_A	6AO7_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8IWB1|IPRI_HUMAN	34.6	1L6N_A	4WOY_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IWF6|DEN6A_HUMAN	34.6	1L6N_A	3TW8_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8IWF9|CCD83_HUMAN	34.6	1L6N_A	6CMO_R	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8IWJ2|GCC2_HUMAN	34.6	1L6N_A	3BBP_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IWR1|TRI59_HUMAN	34.6	1L6N_A	6H3A_F	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IWZ8|SUGP1_HUMAN	34.6	1L6N_A	1UG0_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IX03|KIBRA_HUMAN	34.6	1L6N_A	6JJX_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IX94|CTGE4_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IXW0|LMTD2_HUMAN	34.6	1L6N_A	1UFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IY63|AMOL1_HUMAN	34.6	1L6N_A	6JLB_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IYA2|C144C_HUMAN	34.6	1L6N_A	6F1T_x	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IYA8|IHO1_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IYE0|CC146_HUMAN	34.6	1L6N_A	6WG3_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8IYE1|CCD13_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IYJ2|CJ067_HUMAN	34.6	1L6N_A	5FIY_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8IYK2|CC105_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IYM9|TRI22_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IYT3|CC170_HUMAN	34.6	1L6N_A	6FSA_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8IYX8|CE57L_HUMAN	34.6	1L6N_A	4L0R_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N0S2|SYCE1_HUMAN	34.6	1L6N_A	3A2A_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N0Z3|SPICE_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N137|CNTRB_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N1A0|KT222_HUMAN	34.6	1L6N_A	6UUI_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N1B4|VPS52_HUMAN	34.6	1L6N_A	5YFP_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8N1F7|NUP93_HUMAN	34.6	1L6N_A	5IJO_O	5IJN_H	5IJO_O
+sp|P04591|GAG_HV1H2	sp|Q8N1H7|S6OS1_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N1N0|CLC4F_HUMAN	34.6	1L6N_A	5G6U_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N1N4|K2C78_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N205|SYNE4_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N264|RHG24_HUMAN	34.6	1L6N_A	3FK2_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N271|PROM2_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8N302|AGGF1_HUMAN	34.6	1L6N_A	2MXW_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N3D4|EH1L1_HUMAN	34.6	1L6N_A	5SZH_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N3L3|TXLNB_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N4C7|STX19_HUMAN	34.6	1L6N_A	4JEU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N4L8|CCD24_HUMAN	34.6	1L6N_A	2N9B_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8N4S9|MALD2_HUMAN	34.6	1L6N_A	1WPA_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N4U5|T11L2_HUMAN	34.6	1L6N_A	2LI5_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8N556|AFAP1_HUMAN	34.6	1L6N_A	1U5E_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N5G2|MACOI_HUMAN	34.6	1L6N_A	3JBH_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N5R6|CCD33_HUMAN	34.6	1L6N_A	2EP6_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N6G5|CGAT2_HUMAN	34.6	1L6N_A	6FWT_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8N6L0|KASH5_HUMAN	34.6	1L6N_A	4ILO_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N6V9|TEX9_HUMAN	34.6	1L6N_A	6GAP_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N6Y0|USBP1_HUMAN	34.6	1L6N_A	5U5A_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N7C3|TRIMM_HUMAN	34.6	1L6N_A	4CG4_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N8E3|CE112_HUMAN	34.6	1L6N_A	6F1T_x	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N960|CE120_HUMAN	34.6	1L6N_A	6EWP_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N998|CCD89_HUMAN	34.6	1L6N_A	5NPW_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N9N5|BANP_HUMAN	34.6	1L6N_A	4IX7_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N9V2|TRIML_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8NA03|FSIP1_HUMAN	34.6	1L6N_A	1MN3_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NA47|CCD63_HUMAN	34.6	1L6N_A	6U42_7	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NA72|POC5_HUMAN	34.6	1L6N_A	3FWB_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NB25|F184A_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NB49|AT11C_HUMAN	34.6	1L6N_A	6LKN_I	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NBJ4|GOLM1_HUMAN	34.6	1L6N_A	4Q4G_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NC74|RB8NL_HUMAN	34.6	1L6N_A	4D2H_F	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NCU1|CC197_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NCX0|CC150_HUMAN	34.6	1L6N_A	3JBH_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8ND07|BBOF1_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8ND24|RN214_HUMAN	34.6	1L6N_A	5AIE_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8ND30|LIPB2_HUMAN	34.6	1L6N_A	3TAD_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NDI1|EHBP1_HUMAN	34.6	1L6N_A	5SZG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NEU8|DP13B_HUMAN	34.6	1L6N_A	5C5B_D	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8NEZ2|VP37A_HUMAN	34.6	1L6N_A	2P22_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NF67|A2012_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NF91|SYNE1_HUMAN	34.6	1L6N_A	4Z6G_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NFW1|COMA1_HUMAN	34.6	1L6N_A	3HQV_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NFZ5|TNIP2_HUMAN	34.6	1L6N_A	5H07_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NG31|KNL1_HUMAN	34.6	1L6N_A	4NFA_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NHQ1|CEP70_HUMAN	34.6	1L6N_A	3OJA_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8NHQ8|RASF8_HUMAN	34.6	1L6N_A	2UWQ_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8NHS4|CLHC1_HUMAN	34.6	1L6N_A	1BPO_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NI77|KI18A_HUMAN	34.6	1L6N_A	5OCU_K	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8TAG9|EXOC6_HUMAN	34.6	1L6N_A	5YFP_F	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8TAQ9|SUN3_HUMAN	34.6	1L6N_A	5YWZ_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8TAV0|FA76A_HUMAN	34.6	1L6N_A	5FIY_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8TB36|GDAP1_HUMAN	34.6	1L6N_A	6UIH_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8TBA6|GOGA5_HUMAN	34.6	1L6N_A	3JBH_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8TBF8|FA81A_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8TBY8|PMFBP_HUMAN	34.6	1L6N_A	3JBH_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8TBZ0|CC110_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8TC07|TBC15_HUMAN	34.6	1L6N_A	5TUC_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8TC20|CAGE1_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8TC29|ENKUR_HUMAN	34.6	1L6N_A	6U42_5	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8TC71|MIEAP_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8TCG1|CIP2A_HUMAN	34.6	1L6N_A	5UFL_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8TD10|MIPO1_HUMAN	34.6	1L6N_A	5FIY_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8TD16|BICD2_HUMAN	34.6	1L6N_A	4YTD_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8TD31|CCHCR_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8TDI7|TMC2_HUMAN	34.6	1L6N_A	6QP6_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8TDM6|DLG5_HUMAN	34.6	1L6N_A	2XKX_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8TDR0|MIPT3_HUMAN	34.6	1L6N_A	2EQO_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8TDY2|RBCC1_HUMAN	34.6	1L6N_A	6GMA_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8TE76|MORC4_HUMAN	34.6	1L6N_A	5OFB_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8TEK3|DOT1L_HUMAN	34.6	1L6N_A	3UWP_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8TEQ0|SNX29_HUMAN	34.6	1L6N_A	2DWK_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8TER5|ARH40_HUMAN	34.6	1L6N_A	1NTY_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8TES7|FBF1_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8TF61|FBX41_HUMAN	34.6	1L6N_A	4I6J_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8TF72|SHRM3_HUMAN	34.6	1L6N_A	5F5P_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8WTT2|NOC3L_HUMAN	34.6	1L6N_A	6EM5_I	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8WTW3|COG1_HUMAN	34.6	1L6N_A	5YFP_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8WUM0|NU133_HUMAN	34.6	1L6N_A	5A9Q_L	5IJN_H	5IJO_K
+sp|P04591|GAG_HV1H2	sp|Q8WUX9|CHMP7_HUMAN	34.6	1L6N_A	3CUQ_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8WV44|TRI41_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8WV48|CC107_HUMAN	34.6	1L6N_A	2ZDI_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8WVM8|SCFD1_HUMAN	34.6	1L6N_A	1MQS_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8WVV4|POF1B_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8WWY3|PRP31_HUMAN	34.6	1L6N_A	6QW6_4	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8WXE1|ATRIP_HUMAN	34.6	1L6N_A	5YZ0_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8WXH0|SYNE2_HUMAN	34.6	1L6N_A	4Z6G_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8WXW3|PIBF1_HUMAN	34.6	1L6N_A	6FSA_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8WYA0|IFT81_HUMAN	34.6	1L6N_A	6IAN_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8WYH8|ING5_HUMAN	34.6	1L6N_A	5J9Q_K	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q92569|P55G_HUMAN	34.6	1L6N_A	4JPS_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q92574|TSC1_HUMAN	34.6	1L6N_A	4KK1_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q92598|HS105_HUMAN	34.6	1L6N_A	3C7N_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q92609|TBCD5_HUMAN	34.6	1L6N_A	6D0S_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q92621|NU205_HUMAN	34.6	1L6N_A	5IJN_P	5IJN_H	5IJN_P
+sp|P04591|GAG_HV1H2	sp|Q92750|TAF4B_HUMAN	34.6	1L6N_A	6MZM_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q92753|RORB_HUMAN	34.6	1L6N_A	6FX0_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q92764|KRT35_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q92786|PROX1_HUMAN	34.6	1L6N_A	2LMD_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q92805|GOGA1_HUMAN	34.6	1L6N_A	1UPT_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q92817|EVPL_HUMAN	34.6	1L6N_A	5DZZ_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q92851|CASPA_HUMAN	34.6	1L6N_A	3J9K_f	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q92952|KCNN1_HUMAN	34.6	1L6N_A	6CNN_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q92953|KCNB2_HUMAN	34.6	1L6N_A	2R9R_H	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q93008|USP9X_HUMAN	34.6	1L6N_A	5WCH_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q93050|VPP1_HUMAN	34.6	1L6N_A	6PE5_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q969P6|TOP1M_HUMAN	34.6	1L6N_A	1RRJ_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q969R2|OSBP2_HUMAN	34.6	1L6N_A	5ZM5_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q969V4|TEKT1_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96A99|PTX4_HUMAN	34.6	1L6N_A	6V55_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96AA8|JKIP2_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96AC6|KIFC2_HUMAN	34.6	1L6N_A	3U06_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96AJ1|CLUA1_HUMAN	34.6	1L6N_A	5WLC_L	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96AJ9|VTI1A_HUMAN	34.6	1L6N_A	1VCS_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96AQ6|PBIP1_HUMAN	34.6	1L6N_A	6GAP_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96BA8|CR3L1_HUMAN	34.6	1L6N_A	6IAK_F	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96BD5|PF21A_HUMAN	34.6	1L6N_A	2LRI_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96BQ3|TRI43_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96C34|RUND1_HUMAN	34.6	1L6N_A	6IF2_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96C92|ENTR1_HUMAN	34.6	1L6N_A	2D3E_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96CN4|EVI5L_HUMAN	34.6	1L6N_A	4NC6_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96CN9|GCC1_HUMAN	34.6	1L6N_A	1UPT_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96CS2|HAUS1_HUMAN	34.6	1L6N_A	3U59_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96CV9|OPTN_HUMAN	34.6	1L6N_A	3CL3_E	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96DY2|DRC10_HUMAN	34.6	1L6N_A	4M1L_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96EA4|SPDLY_HUMAN	34.6	1L6N_A	6F1U_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96ED9|HOOK2_HUMAN	34.6	1L6N_A	6B9H_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96ER9|MITOK_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96F44|TRI11_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96G01|BICD1_HUMAN	34.6	1L6N_A	4YTD_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96G75|RMD5B_HUMAN	34.6	1L6N_A	6SWY_9	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96GE4|CEP95_HUMAN	34.6	1L6N_A	2YRN_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96GM5|SMRD1_HUMAN	34.6	1L6N_A	6LTJ_P	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96GM8|TOE1_HUMAN	34.6	1L6N_A	3D45_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q96HA1|P121A_HUMAN	34.6	1L6N_A	4YI0_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96HB5|CC120_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96HR3|MED30_HUMAN	34.6	1L6N_A	1YKE_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96IZ0|PAWR_HUMAN	34.6	1L6N_A	5FIY_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96JA3|PKHA8_HUMAN	34.6	1L6N_A	5KDI_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96JB2|COG3_HUMAN	34.6	1L6N_A	5YFP_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96JB5|CK5P3_HUMAN	34.6	1L6N_A	5N9J_R	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96JN2|CC136_HUMAN	34.6	1L6N_A	6F1T_x	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96KN7|RPGR1_HUMAN	34.6	1L6N_A	4QAM_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96KP1|EXOC2_HUMAN	34.6	1L6N_A	5YFP_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96KP6|TNIP3_HUMAN	34.6	1L6N_A	5H07_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96L14|C170L_HUMAN	34.6	1L6N_A	6TH8_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96LB3|IFT74_HUMAN	34.6	1L6N_A	6IAN_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96LP2|FA81B_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96M29|TEKT5_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96M63|CC114_HUMAN	34.6	1L6N_A	6U42_7	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96M83|CCDC7_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96M89|CC138_HUMAN	34.6	1L6N_A	3OJA_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96MC2|DRC1_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96MK2|RIPR3_HUMAN	34.6	1L6N_A	5COY_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96MT8|CEP63_HUMAN	34.6	1L6N_A	6CSU_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96MY1|NOL4L_HUMAN	34.6	1L6N_A	4LG3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96N16|JKIP1_HUMAN	34.6	1L6N_A	6MI3_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96NA2|RILP_HUMAN	34.6	1L6N_A	1YHN_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96NA8|TSNA1_HUMAN	34.6	1L6N_A	4JEH_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96NL0|RUN3B_HUMAN	34.6	1L6N_A	2DWK_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96NL6|SCLT1_HUMAN	34.6	1L6N_A	3JBH_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96NX9|DACH2_HUMAN	34.6	1L6N_A	1L8R_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96P44|COLA1_HUMAN	34.6	1L6N_A	3HQV_B	5IJN_H	5IJO_L
+sp|P04591|GAG_HV1H2	sp|Q96PB7|NOE3_HUMAN	34.6	1L6N_A	5AMO_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96PC5|MIA2_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96PV0|SYGP1_HUMAN	34.6	1L6N_A	3BXJ_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96PV7|F193B_HUMAN	34.6	1L6N_A	1W2L_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96PX6|CC85A_HUMAN	34.6	1L6N_A	6WX6_N	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96PZ2|F111A_HUMAN	34.6	1L6N_A	1LVM_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96Q06|PLIN4_HUMAN	34.6	1L6N_A	1SZI_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96Q15|SMG1_HUMAN	34.6	1L6N_A	6Z3R_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96Q89|KI20B_HUMAN	34.6	1L6N_A	5MM7_K	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96QF0|RAB3I_HUMAN	34.6	1L6N_A	4UJ3_E	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96R06|SPAG5_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96RN5|MED15_HUMAN	34.6	1L6N_A	2GUT_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96RT6|CTGE2_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96RT7|GCP6_HUMAN	34.6	1L6N_A	6V6C_L	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96RU3|FNBP1_HUMAN	34.6	1L6N_A	2EFL_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96SB3|NEB2_HUMAN	34.6	1L6N_A	3EGG_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96SN8|CK5P2_HUMAN	34.6	1L6N_A	5MW9_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96ST8|CEP89_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96SU4|OSBL9_HUMAN	34.6	1L6N_A	4B2Z_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96T51|RUFY1_HUMAN	34.6	1L6N_A	2DWK_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96TA1|NIBA2_HUMAN	34.6	1L6N_A	2D9X_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q99418|CYH2_HUMAN	34.6	1L6N_A	6U3G_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q99456|K1C12_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q99550|MPP9_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q99567|NUP88_HUMAN	34.6	1L6N_A	5CWW_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q99583|MNT_HUMAN	34.6	1L6N_A	1NKP_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q99708|CTIP_HUMAN	34.6	1L6N_A	4D2H_F	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q99784|NOE1_HUMAN	34.6	1L6N_A	5AMO_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q99848|EBP2_HUMAN	34.6	1L6N_A	6ELZ_J	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q99933|BAG1_HUMAN	34.6	1L6N_A	4HWI_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q99944|EGFL8_HUMAN	34.6	1L6N_A	6M3B_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q99961|SH3G1_HUMAN	34.6	1L6N_A	6UP6_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q99962|SH3G2_HUMAN	34.6	1L6N_A	6UP6_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q99972|MYOC_HUMAN	34.6	1L6N_A	5AMO_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q99996|AKAP9_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BQE5|APOL2_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9BQI4|CCDC3_HUMAN	34.6	1L6N_A	4OWI_B	5IJN_H	5IJO_L
+sp|P04591|GAG_HV1H2	sp|Q9BR77|CCD77_HUMAN	34.6	1L6N_A	5Y06_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9BSJ1|TRI51_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9BT25|HAUS8_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9BTA9|WAC_HUMAN	34.6	1L6N_A	2DK7_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BTC0|DIDO1_HUMAN	34.6	1L6N_A	4BXZ_X	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9BUH8|BEGIN_HUMAN	34.6	1L6N_A	6UUI_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BV73|CP250_HUMAN	34.6	1L6N_A	6OQA_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BVG8|KIFC3_HUMAN	34.6	1L6N_A	4ETP_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9BVL4|SELO_HUMAN	34.6	1L6N_A	6EAC_D	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9BVV6|TALD3_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BW19|KIFC1_HUMAN	34.6	1L6N_A	5WDH_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BWF2|TRAIP_HUMAN	34.6	1L6N_A	3JB9_U	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BWT7|CAR10_HUMAN	34.6	1L6N_A	6N2P_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BXF9|TEKT3_HUMAN	34.6	1L6N_A	3HE4_H	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9BXG8|SPZ1_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BXL6|CAR14_HUMAN	34.6	1L6N_A	3SHW_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BXL7|CAR11_HUMAN	34.6	1L6N_A	6N2P_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BY11|PACN1_HUMAN	34.6	1L6N_A	4BNE_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9BY15|AGRE3_HUMAN	34.6	1L6N_A	6FJ3_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BY76|ANGL4_HUMAN	34.6	1L6N_A	6U73_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BYC5|FUT8_HUMAN	34.6	1L6N_A	6VLF_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9BYJ4|TRI34_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BYU1|PBX4_HUMAN	34.6	1L6N_A	3D1N_M	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9BYV2|TRI54_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9BYV6|TRI55_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BYX2|TBD2A_HUMAN	34.6	1L6N_A	4P17_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BZD4|NUF2_HUMAN	34.6	1L6N_A	2VE7_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BZR9|TRIM8_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BZW7|TSG10_HUMAN	34.6	1L6N_A	6FSA_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BZY9|TRI31_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9C019|TRI15_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9C029|TRIM7_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9C030|TRIM6_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9C035|TRIM5_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9C037|TRIM4_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9C075|K1C23_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9C0B2|CFA74_HUMAN	34.6	1L6N_A	2QSV_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9C0H9|SRCN1_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9C0J9|BHE41_HUMAN	34.6	1L6N_A	6G6J_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9GZM8|NDEL1_HUMAN	34.6	1L6N_A	2V71_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H095|DRC9_HUMAN	34.6	1L6N_A	4M1L_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9H0E3|SP130_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H0H5|RGAP1_HUMAN	34.6	1L6N_A	3CXL_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H0J4|QRIC2_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H1M0|N62CL_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H257|CARD9_HUMAN	34.6	1L6N_A	6N2P_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9H267|VP33B_HUMAN	34.6	1L6N_A	4JC8_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9H2D6|TARA_HUMAN	34.6	1L6N_A	3TFM_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H2F5|EPC1_HUMAN	34.6	1L6N_A	5J9U_N	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9H2F9|CCD68_HUMAN	34.6	1L6N_A	6GAO_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H2G9|GO45_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H2S1|KCNN2_HUMAN	34.6	1L6N_A	6CNM_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H2X3|CLC4M_HUMAN	34.6	1L6N_A	3JQH_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H3R5|CENPH_HUMAN	34.6	1L6N_A	5Z08_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H410|DSN1_HUMAN	34.6	1L6N_A	5LSK_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H4E7|DEFI6_HUMAN	34.6	1L6N_A	4Y93_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H5N1|RABE2_HUMAN	34.6	1L6N_A	1TU3_I	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9H6N6|MYH16_HUMAN	34.6	1L6N_A	6SO3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H6S1|AZI2_HUMAN	34.6	1L6N_A	5Z7G_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H7C4|SYNCI_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9H869|YYAP1_HUMAN	34.6	1L6N_A	2LR8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H871|RMD5A_HUMAN	34.6	1L6N_A	6SWY_9	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H8K7|PAAT_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9H8L6|MMRN2_HUMAN	34.6	1L6N_A	2OII_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9H8W5|TRI45_HUMAN	34.6	1L6N_A	6H3A_F	5IJN_H	5IJO_L
+sp|P04591|GAG_HV1H2	sp|Q9H939|PPIP2_HUMAN	34.6	1L6N_A	4BNE_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9H993|ARMT1_HUMAN	34.6	1L6N_A	3PT1_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9H9E3|COG4_HUMAN	34.6	1L6N_A	3HR0_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9HAP2|MLXIP_HUMAN	34.6	1L6N_A	5F74_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9HAU0|PKHA5_HUMAN	34.6	1L6N_A	2DKP_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9HB20|PKHA3_HUMAN	34.6	1L6N_A	3RCP_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9HBG4|VPP4_HUMAN	34.6	1L6N_A	6PE4_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9HBM0|VEZA_HUMAN	34.6	1L6N_A	4NKQ_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9HC77|CENPJ_HUMAN	34.6	1L6N_A	4BXR_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9HCC9|LST2_HUMAN	34.6	1L6N_A	1X4U_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9HCH0|NCK5L_HUMAN	34.6	1L6N_A	2V66_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9HCM9|TRI39_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9HD23|MRS2_HUMAN	34.6	1L6N_A	3RKG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NNX1|TUFT1_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NNX6|CD209_HUMAN	34.6	1L6N_A	3JQH_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NP71|MLXPL_HUMAN	34.6	1L6N_A	5F74_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NP74|PALMD_HUMAN	34.6	1L6N_A	2JEE_B	5IJN_H	5IJO_L
+sp|P04591|GAG_HV1H2	sp|Q9NP81|SYSM_HUMAN	34.6	1L6N_A	1WLE_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NPC3|CIP1_HUMAN	34.6	1L6N_A	6NMI_H	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9NPE6|SPAG4_HUMAN	34.6	1L6N_A	5ED8_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9NQ48|LZTL1_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NQ66|PLCB1_HUMAN	34.6	1L6N_A	4GNK_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NQ89|CL004_HUMAN	34.6	1L6N_A	1VHU_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9NQG5|RPR1B_HUMAN	34.6	1L6N_A	4NAD_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NQP4|PFD4_HUMAN	34.6	1L6N_A	6NR8_4	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9NQX4|MYO5C_HUMAN	34.6	1L6N_A	2DFS_M	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NQZ6|ZC4H2_HUMAN	34.6	1L6N_A	2APO_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NR46|SHLB2_HUMAN	34.6	1L6N_A	6UPN_n	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9NR81|ARHG3_HUMAN	34.6	1L6N_A	4XH9_D	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9NRI5|DISC1_HUMAN	34.6	1L6N_A	6IRR_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NRN5|OLFL3_HUMAN	34.6	1L6N_A	4D77_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NRR5|UBQL4_HUMAN	34.6	1L6N_A	1OQY_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9NS73|MBIP1_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9NSB2|KRT84_HUMAN	34.6	1L6N_A	6UUI_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NSB4|KRT82_HUMAN	34.6	1L6N_A	3TNU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NSB8|HOME2_HUMAN	34.6	1L6N_A	1I2H_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NSC5|HOME3_HUMAN	34.6	1L6N_A	1I2H_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NT22|EMIL3_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NUD7|CT096_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NUN5|LMBD1_HUMAN	34.6	1L6N_A	4KMC_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9NUQ3|TXLNG_HUMAN	34.6	1L6N_A	6F1T_x	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NUQ6|SPS2L_HUMAN	34.6	1L6N_A	6H3A_F	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NV70|EXOC1_HUMAN	34.6	1L6N_A	5YFP_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NVF7|FBX28_HUMAN	34.6	1L6N_A	3V7D_B	5IJN_H	5IJO_L
+sp|P04591|GAG_HV1H2	sp|Q9NVK5|FGOP2_HUMAN	34.6	1L6N_A	6AKM_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NVV9|THAP1_HUMAN	34.6	1L6N_A	2JTG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9NVX0|HAUS2_HUMAN	34.6	1L6N_A	6CFZ_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9NWB7|IFT57_HUMAN	34.6	1L6N_A	2C5K_T	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NX95|SYBU_HUMAN	34.6	1L6N_A	5YZ0_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NXG0|CNTLN_HUMAN	34.6	1L6N_A	6FSA_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NXR1|NDE1_HUMAN	34.6	1L6N_A	2V71_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NYA3|GOG6A_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NYJ8|TAB2_HUMAN	34.6	1L6N_A	2DAE_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NZ52|GGA3_HUMAN	34.6	1L6N_A	1NAF_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9NZ72|STMN3_HUMAN	34.6	1L6N_A	5Z4P_E	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9NZM4|BICRA_HUMAN	34.6	1L6N_A	5ZZ8_u	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NZZ3|CHMP5_HUMAN	34.6	1L6N_A	3FRV_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9P0V3|SH3B4_HUMAN	34.6	1L6N_A	3G5B_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9P1Q0|VPS54_HUMAN	34.6	1L6N_A	5YFP_D	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9P1Z2|CACO1_HUMAN	34.6	1L6N_A	4NLH_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9P1Z9|CC180_HUMAN	34.6	1L6N_A	5TAQ_I	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9P209|CEP72_HUMAN	34.6	1L6N_A	3JB9_j	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9P219|DAPLE_HUMAN	34.6	1L6N_A	1WIX_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9P246|STIM2_HUMAN	34.6	1L6N_A	3TER_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9P253|VPS18_HUMAN	34.6	1L6N_A	4UUY_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9P2B4|CT2NL_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9P2B7|CFA97_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9P2E9|RRBP1_HUMAN	34.6	1L6N_A	3JBH_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9P2K1|C2D2A_HUMAN	34.6	1L6N_A	4FGQ_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9P2M7|CING_HUMAN	34.6	1L6N_A	6FSA_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9P2P6|STAR9_HUMAN	34.6	1L6N_A	6A20_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9P2W1|HOP2_HUMAN	34.6	1L6N_A	4Y66_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9P2W9|STX18_HUMAN	34.6	1L6N_A	2XHE_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UBL0|ARP21_HUMAN	34.6	1L6N_A	1WHR_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UBP4|DKK3_HUMAN	34.6	1L6N_A	5O57_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UBS9|SUCO_HUMAN	34.6	1L6N_A	4DXT_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UBT7|CTNL1_HUMAN	34.6	1L6N_A	4P9T_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UBW5|BIN2_HUMAN	34.6	1L6N_A	4AVM_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UDT6|CLIP2_HUMAN	34.6	1L6N_A	2CP6_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UEY8|ADDG_HUMAN	34.6	1L6N_A	3OCR_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UGJ1|GCP4_HUMAN	34.6	1L6N_A	3RIP_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UH65|SWP70_HUMAN	34.6	1L6N_A	4Y93_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UHF1|EGFL7_HUMAN	34.6	1L6N_A	2H9E_L	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UHR4|BI2L1_HUMAN	34.6	1L6N_A	2YKT_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UHV9|PFD2_HUMAN	34.6	1L6N_A	6NR8_2	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UI36|DACH1_HUMAN	34.6	1L6N_A	1L8R_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UI42|CBPA4_HUMAN	34.6	1L6N_A	2BOA_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UI47|CTNA3_HUMAN	34.6	1L6N_A	4IGG_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UJ41|RABX5_HUMAN	34.6	1L6N_A	4Q9U_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UJ71|CLC4K_HUMAN	34.6	1L6N_A	5G6U_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UJC3|HOOK1_HUMAN	34.6	1L6N_A	1WIX_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UJF2|NGAP_HUMAN	34.6	1L6N_A	3BXJ_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UJT2|TSKS_HUMAN	34.6	1L6N_A	5Y06_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UJV3|TRIM1_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UJY5|GGA1_HUMAN	34.6	1L6N_A	1NAF_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UKD1|GMEB2_HUMAN	34.6	1L6N_A	1OQJ_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UKK3|PARP4_HUMAN	34.6	1L6N_A	6FPZ_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UKN1|MUC12_HUMAN	34.6	1L6N_A	6UJB_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UKS6|PACN3_HUMAN	34.6	1L6N_A	4BNE_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UKX2|MYH2_HUMAN	34.6	1L6N_A	5TBY_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UKX3|MYH13_HUMAN	34.6	1L6N_A	5TBY_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UL68|MYT1L_HUMAN	34.6	1L6N_A	2CS8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9ULD2|MTUS1_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9ULE0|WWC3_HUMAN	34.6	1L6N_A	2Z0U_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9ULE4|F184B_HUMAN	34.6	1L6N_A	3ZIA_T	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9ULG6|CCPG1_HUMAN	34.6	1L6N_A	6GAP_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9ULJ1|ODF2L_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9ULJ8|NEB1_HUMAN	34.6	1L6N_A	3EGG_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9ULL1|PKHG1_HUMAN	34.6	1L6N_A	4XH9_D	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9ULM0|PKHH1_HUMAN	34.6	1L6N_A	3AU4_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9ULM3|YETS2_HUMAN	34.6	1L6N_A	5IQL_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9ULS5|TMCC3_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9ULV0|MYO5B_HUMAN	34.6	1L6N_A	2DFS_M	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UMD9|COHA1_HUMAN	34.6	1L6N_A	3HQV_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UN81|LORF1_HUMAN	34.6	1L6N_A	2YKO_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UNF0|PACN2_HUMAN	34.6	1L6N_A	4BNE_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UNK0|STX8_HUMAN	34.6	1L6N_A	2NPS_D	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UNL4|ING4_HUMAN	34.6	1L6N_A	5J9T_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UP83|COG5_HUMAN	34.6	1L6N_A	4U6U_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UPA5|BSN_HUMAN	34.6	1L6N_A	1ZBD_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UPN4|CP131_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UPT5|EXOC7_HUMAN	34.6	1L6N_A	2PFT_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UPU7|TBD2B_HUMAN	34.6	1L6N_A	4P17_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UPV0|CE164_HUMAN	34.6	1L6N_A	2NC6_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UPV9|TRAK1_HUMAN	34.6	1L6N_A	6F1U_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UPW8|UN13A_HUMAN	34.6	1L6N_A	5UE8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UQB8|BAIP2_HUMAN	34.6	1L6N_A	2YKT_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UQF0|SYCY1_HUMAN	34.6	1L6N_A	4JF3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UQN3|CHM2B_HUMAN	34.6	1L6N_A	3FRT_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UQQ1|NALDL_HUMAN	34.6	1L6N_A	4TWE_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y216|MTMR7_HUMAN	34.6	1L6N_A	1M7R_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y228|T3JAM_HUMAN	34.6	1L6N_A	6AKM_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y250|LZTS1_HUMAN	34.6	1L6N_A	4ILO_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y264|ANGP4_HUMAN	34.6	1L6N_A	1M1J_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y2D4|EXC6B_HUMAN	34.6	1L6N_A	5YFP_F	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y2D8|ADIP_HUMAN	34.6	1L6N_A	6BL7_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y2F5|ICE1_HUMAN	34.6	1L6N_A	3OJA_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y2G3|AT11B_HUMAN	34.6	1L6N_A	6LCP_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y2H2|SAC2_HUMAN	34.6	1L6N_A	3LWT_X	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y2H5|PKHA6_HUMAN	34.6	1L6N_A	2DKP_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y2I9|TBC30_HUMAN	34.6	1L6N_A	5TUB_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y2J4|AMOL2_HUMAN	34.6	1L6N_A	6U42_7	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y2L6|FRM4B_HUMAN	34.6	1L6N_A	1E5W_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y2V7|COG6_HUMAN	34.6	1L6N_A	2B1E_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y2X3|NOP58_HUMAN	34.6	1L6N_A	6RXU_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y3L3|3BP1_HUMAN	34.6	1L6N_A	3FK2_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y3P9|RBGP1_HUMAN	34.6	1L6N_A	4NC6_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y3R5|DOP2_HUMAN	34.6	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y487|VPP2_HUMAN	34.6	1L6N_A	6PE4_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y496|KIF3A_HUMAN	34.6	1L6N_A	5MM7_K	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y4A8|NF2L3_HUMAN	34.6	1L6N_A	1SKN_P	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y4B5|MTCL1_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y4F1|FARP1_HUMAN	34.6	1L6N_A	4H6Y_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y4F9|RIPR2_HUMAN	34.6	1L6N_A	6FT5_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y4J8|DTNA_HUMAN	34.6	1L6N_A	1EG4_A	5IJN_H	5IJO_L
+sp|P04591|GAG_HV1H2	sp|Q9Y577|TRI17_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y592|CEP83_HUMAN	34.6	1L6N_A	3JBH_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y5C1|ANGL3_HUMAN	34.6	1L6N_A	6EUA_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y5J3|HEY1_HUMAN	34.6	1L6N_A	2DB7_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y5K5|UCHL5_HUMAN	34.6	1L6N_A	4WLR_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y5V3|MAGD1_HUMAN	34.6	1L6N_A	6R7T_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y608|LRRF2_HUMAN	34.6	1L6N_A	4H22_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y623|MYH4_HUMAN	34.6	1L6N_A	5TBY_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y692|GMEB1_HUMAN	34.6	1L6N_A	1OQJ_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y6A5|TACC3_HUMAN	34.6	1L6N_A	5LXN_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y6C2|EMIL1_HUMAN	34.6	1L6N_A	2OII_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y6D9|MD1L1_HUMAN	34.6	1L6N_A	4DZO_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y6F6|IRAG1_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y6F7|CDY2_HUMAN	34.6	1L6N_A	2FW2_F	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y6K9|NEMO_HUMAN	34.6	1L6N_A	3CL3_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y6N6|LAMC3_HUMAN	34.6	1L6N_A	6FKQ_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y6W3|CAN7_HUMAN	34.6	1L6N_A	1QXP_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	tr|A0A0M3HER8|A0A0M3HER8_HUMAN	34.6	1L6N_A	6IW8_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	tr|A0A140TA62|A0A140TA62_HUMAN	34.6	1L6N_A	3TNU_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	tr|A0A1W2PRN1|A0A1W2PRN1_HUMAN	34.6	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	tr|A0A2R8YE69|A0A2R8YE69_HUMAN	34.6	1L6N_A	1I84_V	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	tr|A0A3B3IT33|A0A3B3IT33_HUMAN	34.6	1L6N_A	4CFG_A	5IJN_H	5IJO_G
+sp|P04601|NEF_HV1H2	sp|O94885|SASH1_HUMAN	34.6	3TB8_A	2DL0_A	4U5W_C	4U5W_B
+sp|P05919|VPU_HV1H2	sp|Q9BU89|DOHH_HUMAN	34.6	2N28_A	4D50_A	4P6Z_V	4P6Z_G
+sp|Q9P0V8|SLAF8_HUMAN	sp|P04601|NEF_HV1H2	34.6	6JXR_n	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|B6SEH8|ERVV1_HUMAN	34.5	6PWU_E	5HA6_A	6UM5_E	6MAR_D
+sp|P04578|ENV_HV1H2	sp|Q68CZ6|HAUS3_HUMAN	34.5	6PWU_E	2LF0_A	5EVM_F	5EVM_F
+sp|P04585|POL_HV1H2	sp|Q6PCB5|RSBNL_HUMAN	34.5	1L6N_A	5UQD_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q7Z3E1|PARPT_HUMAN	34.5	1L6N_A	4F0E_B	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q92622|RUBIC_HUMAN	34.5	1L6N_A	6WCW_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9Y2L5|TPPC8_HUMAN	34.5	1L6N_A	6VBU_4	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q02833|RASF7_HUMAN	34.5	1L6N_A	2UWQ_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6PCB5|RSBNL_HUMAN	34.5	1L6N_A	5UQD_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q7Z3E1|PARPT_HUMAN	34.5	1L6N_A	4F0E_B	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q86UK5|LBN_HUMAN	34.5	1L6N_A	6WB8_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8IYR0|CF206_HUMAN	34.5	1L6N_A	3S4R_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q92622|RUBIC_HUMAN	34.5	1L6N_A	6WCW_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9H444|CHM4B_HUMAN	34.5	1L6N_A	3FRT_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NXR8|ING3_HUMAN	34.5	1L6N_A	4AFL_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y2L5|TPPC8_HUMAN	34.5	1L6N_A	6VBU_4	6BK8_O	6J6H_d
+sp|P04601|NEF_HV1H2	sp|O75995|SASH3_HUMAN	34.5	3TB8_A	2MYQ_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9ULZ2|STAP1_HUMAN	34.5	3TB8_A	1X1F_A	4U5W_C	4U5W_B
+sp|P04585|POL_HV1H2	sp|A8MXK1|VSTM5_HUMAN	34.4	1L6N_A	6J8H_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O60688|YPEL1_HUMAN	34.4	1L6N_A	6R1A_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|O94763|RMP_HUMAN	34.4	1L6N_A	6NR8_5	6ICZ_Z	6ID1_P
+sp|P67775|PP2AA_HUMAN	sp|P04585|POL_HV1H2	34.4	4I5L_C	1L6N_A	6HMS_A	6T8H_B
+sp|P04585|POL_HV1H2	sp|Q53G59|KLH12_HUMAN	34.4	1L6N_A	2VPJ_A	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|Q8N987|NECA1_HUMAN	34.4	1L6N_A	3FGV_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A8MXK1|VSTM5_HUMAN	34.4	1L6N_A	6J8H_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O60688|YPEL1_HUMAN	34.4	1L6N_A	6R1A_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|O75674|TM1L1_HUMAN	34.4	1L6N_A	1ELK_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P09493|TPM1_HUMAN	34.4	1L6N_A	2B9C_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P59074|CHM4P_HUMAN	34.4	1L6N_A	5T8N_A	5IJN_H	5IJN_H
+sp|P67775|PP2AA_HUMAN	sp|P04591|GAG_HV1H2	34.4	4I5L_C	1L6N_A	6HMS_A	6T8H_B
+sp|P04591|GAG_HV1H2	sp|Q5T7V8|GORAB_HUMAN	34.4	1L6N_A	3LAY_H	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8N987|NECA1_HUMAN	34.4	1L6N_A	3FGV_B	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|P55060|XPO2_HUMAN	34.4	3TB8_A	1WA5_C	6OWT_N	6QH5_B
+sp|P04601|NEF_HV1H2	sp|Q13835|PKP1_HUMAN	34.4	3TB8_A	1XM9_A	4NEE_K	2JKT_A
+sp|P04618|REV_HV1H2	sp|A0A0K0K1A3|TVBJ1_HUMAN	34.4	2X7L_R	5E9D_E	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q9P260|RELCH_HUMAN	34.4	2N28_A	2NYL_A	4P6Z_V	4P6Z_G
+sp|P05919|VPU_HV1H2	sp|Q9UQB3|CTND2_HUMAN	34.4	2N28_A	3L6X_A	4P6Z_V	4P6Z_G
+sp|P98172|EFNB1_HUMAN	sp|P04585|POL_HV1H2	34.4	1IKO_P	1L6N_A	6CPL_A	2XXM_A
+sp|P98172|EFNB1_HUMAN	sp|P04591|GAG_HV1H2	34.4	1IKO_P	1L6N_A	6CPL_A	2XXM_A
+sp|Q6GTX8|LAIR1_HUMAN	sp|P04578|ENV_HV1H2	34.3	5OR7_C	6PWU_E	6MET_A	3J70_P
+sp|P04585|POL_HV1H2	sp|P12036|NFH_HUMAN	34.3	1L6N_A	6UUI_X	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|P23769|GATA2_HUMAN	34.3	1L6N_A	4HC7_A	4ESJ_B	4KYW_A
+sp|Q8IVL5|P3H2_HUMAN	sp|P04585|POL_HV1H2	34.3	2JIG_A	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q96KN3|PKNX2_HUMAN	34.3	1L6N_A	2LK2_A	6ICZ_Z	6ID1_P
+sp|P04585|POL_HV1H2	sp|Q9H0U9|TSYL1_HUMAN	34.3	1L6N_A	5X7V_C	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q9H2A3|NGN2_HUMAN	34.3	1L6N_A	6MGN_A	6ICZ_Z	6ICZ_V
+tr|A0A075B6L2|A0A075B6L2_HUMAN	sp|P04585|POL_HV1H2	34.3	6QD6_G	1L6N_A	6ID4_C	1R0A_A
+sp|P04591|GAG_HV1H2	sp|O75871|CEAM4_HUMAN	34.3	1L6N_A	6JXR_f	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P23769|GATA2_HUMAN	34.3	1L6N_A	4HC7_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|P78318|IGBP1_HUMAN	34.3	1L6N_A	4IYP_A	5IJN_H	5IJO_G
+sp|Q8IVL5|P3H2_HUMAN	sp|P04591|GAG_HV1H2	34.3	2JIG_A	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q8NEL0|CCD54_HUMAN	34.3	1L6N_A	2YKO_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96E29|MTEF3_HUMAN	34.3	1L6N_A	3M66_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96KN3|PKNX2_HUMAN	34.3	1L6N_A	2LK2_A	6ICZ_Z	6ID1_P
+sp|P04591|GAG_HV1H2	sp|Q9H0U9|TSYL1_HUMAN	34.3	1L6N_A	5X7V_C	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q9H2A3|NGN2_HUMAN	34.3	1L6N_A	6MGN_A	6ICZ_Z	6ICZ_V
+sp|P05919|VPU_HV1H2	sp|Q9NVH2|INT7_HUMAN	34.3	2N28_A	6QH5_B	4P6Z_V	4P6Z_B
+sp|P69723|VIF_HV1H2	sp|Q5TDH0|DDI2_HUMAN	34.3	4N9F_b	5K57_A	4N9F_b	2MA9_B
+sp|P04578|ENV_HV1H2	sp|Q07699|SCN1B_HUMAN	34.2	6PWU_E	6J8J_B	3U2S_C	5N2K_F
+sp|P04578|ENV_HV1H2	sp|Q8IYV9|IZUM1_HUMAN	34.2	6PWU_E	5F4E_A	6PWU_E	6ULC_L
+sp|P04578|ENV_HV1H2	tr|A0A0A0MS05|A0A0A0MS05_HUMAN	34.2	6PWU_E	1YJD_C	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|O75146|HIP1R_HUMAN	34.2	1L6N_A	6R9T_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q14206|RCAN2_HUMAN	34.2	1L6N_A	1WEY_A	6ICZ_Z	6ID1_O
+sp|Q92484|ASM3A_HUMAN	sp|P04585|POL_HV1H2	34.2	5EBE_B	1L6N_A	6HMS_A	6T8H_B
+sp|P04585|POL_HV1H2	sp|Q9BUL5|PHF23_HUMAN	34.2	1L6N_A	6MZL_C	6BK8_O	6J6G_T
+sp|P04591|GAG_HV1H2	sp|A6NI79|CCD69_HUMAN	34.2	1L6N_A	2K0L_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q14206|RCAN2_HUMAN	34.2	1L6N_A	1WEY_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q7LBR1|CHM1B_HUMAN	34.2	1L6N_A	6E8G_C	5IJN_H	5IJO_G
+sp|Q92484|ASM3A_HUMAN	sp|P04591|GAG_HV1H2	34.2	5EBE_B	1L6N_A	6HMS_A	6T8H_B
+sp|P04591|GAG_HV1H2	sp|Q9BUL5|PHF23_HUMAN	34.2	1L6N_A	6MZL_C	6BK8_O	6J6G_T
+sp|P04608|TAT_HV1H2	sp|Q8NC24|RELL2_HUMAN	34.2	3MI9_C	5OYM_F	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q9BV87|CNPD1_HUMAN	34.2	3MI9_C	4KRD_B	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|O15041|SEM3E_HUMAN	34.2	2X7L_R	6QP7_B	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|Q68CQ1|MROH7_HUMAN	34.2	2N28_A	4RXH_B	4P6Z_V	4P6Z_G
+sp|W5XKT8|SACA6_HUMAN	sp|P04585|POL_HV1H2	34.2	5JK9_D	1L6N_A	5T70_G	3GV2_A
+sp|W5XKT8|SACA6_HUMAN	sp|P04591|GAG_HV1H2	34.2	5JK9_D	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q96PV0|SYGP1_HUMAN	34.1	6PWU_E	3BXJ_B	6NQD_F	6NQD_F
+sp|P04578|ENV_HV1H2	sp|Q9Y3D6|FIS1_HUMAN	34.1	6PWU_E	1PC2_A	3MAW_A	3MAW_A
+sp|P04585|POL_HV1H2	sp|A0A589|TVB43_HUMAN	34.1	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A1L0T0|HACL2_HUMAN	34.1	1L6N_A	2PAN_F	5MD4_I	3GV2_A
+sp|P04585|POL_HV1H2	sp|P05412|JUN_HUMAN	34.1	1L6N_A	1JUN_A	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|P51572|BAP31_HUMAN	34.1	1L6N_A	4JZP_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|P54845|NRL_HUMAN	34.1	1L6N_A	1K1V_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q7Z794|K2C1B_HUMAN	34.1	1L6N_A	6UUI_X	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q8IY57|YAF2_HUMAN	34.1	1L6N_A	3IXS_H	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q99732|LITAF_HUMAN	34.1	1L6N_A	4ILO_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9H6F2|TM38A_HUMAN	34.1	1L6N_A	6IYX_A	4RGH_A	4RGH_A
+sp|P04585|POL_HV1H2	sp|Q9UPW0|FOXJ3_HUMAN	34.1	1L6N_A	1JXS_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|A0A589|TVB43_HUMAN	34.1	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A1L0T0|HACL2_HUMAN	34.1	1L6N_A	2PAN_F	5MD4_I	3GV2_A
+sp|P04591|GAG_HV1H2	sp|P28289|TMOD1_HUMAN	34.1	1L6N_A	5WFN_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P51572|BAP31_HUMAN	34.1	1L6N_A	4JZP_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|P54845|NRL_HUMAN	34.1	1L6N_A	1K1V_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q8IY57|YAF2_HUMAN	34.1	1L6N_A	3IXS_H	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q96AQ8|MCUR1_HUMAN	34.1	1L6N_A	6H9M_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q99732|LITAF_HUMAN	34.1	1L6N_A	4ILO_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q99733|NP1L4_HUMAN	34.1	1L6N_A	2AYU_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9BS16|CENPK_HUMAN	34.1	1L6N_A	6OUA_K	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UPW0|FOXJ3_HUMAN	34.1	1L6N_A	1JXS_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9Y448|SKAP_HUMAN	34.1	1L6N_A	5IJO_G	5IJN_H	5IJN_H
+sp|P04601|NEF_HV1H2	sp|O94829|IPO13_HUMAN	34.1	3TB8_A	2XWU_B	6CRI_Z	6CRI_I
+sp|P04601|NEF_HV1H2	sp|O95976|IGSF6_HUMAN	34.1	3TB8_A	4R0L_D	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q71H61|ILDR2_HUMAN	34.1	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9BZZ5|API5_HUMAN	34.1	3TB8_A	3U0R_A	6OWT_N	6QH5_B
+sp|P04608|TAT_HV1H2	sp|Q9Y259|CHKB_HUMAN	34.1	3MI9_C	1NW1_A	3MI9_C	3MI9_A
+sp|P04618|REV_HV1H2	sp|P06126|CD1A_HUMAN	34.1	2X7L_R	5J1A_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q6ZP82|CC141_HUMAN	34.1	2X7L_R	1SJJ_A	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|Q13200|PSMD2_HUMAN	34.1	2N28_A	5L4K_Z	4P6Z_V	4P6Z_G
+sp|P01906|DQA2_HUMAN	sp|P04601|NEF_HV1H2	34.1	2P24_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04585|POL_HV1H2	sp|P04053|TDT_HUMAN	34.0	1L6N_A	4I2F_A	3NYB_B	3NYB_A
+sp|P04585|POL_HV1H2	sp|Q14134|TRI29_HUMAN	34.0	1L6N_A	4CFG_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q14739|LBR_HUMAN	34.0	1L6N_A	4QUV_B	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|Q2TAA2|IAH1_HUMAN	34.0	1L6N_A	3MIL_A	6ICZ_Z	4PJ3_A
+sp|P04585|POL_HV1H2	sp|Q86YS3|RFIP4_HUMAN	34.0	1L6N_A	2HV8_E	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9BY14|TX101_HUMAN	34.0	1L6N_A	3U74_U	6UCA_B	6UCA_D
+sp|P04591|GAG_HV1H2	sp|P04053|TDT_HUMAN	34.0	1L6N_A	4I2F_A	3NYB_B	3NYB_A
+sp|P04591|GAG_HV1H2	sp|Q14739|LBR_HUMAN	34.0	1L6N_A	4QUV_B	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|Q2TAA2|IAH1_HUMAN	34.0	1L6N_A	3MIL_A	6ICZ_Z	4PJ3_A
+sp|P04591|GAG_HV1H2	sp|Q96NB3|ZN830_HUMAN	34.0	1L6N_A	5Z56_v	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BXJ8|TACAN_HUMAN	34.0	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9BY14|TX101_HUMAN	34.0	1L6N_A	3U74_U	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q9ULE3|DEN2A_HUMAN	34.0	1L6N_A	6EKK_B	5IJN_H	5IJO_G
+sp|P04601|NEF_HV1H2	sp|Q9H583|HEAT1_HUMAN	34.0	3TB8_A	5WLC_L	4NEE_K	2JKT_A
+sp|P04608|TAT_HV1H2	sp|Q6ZN04|MEX3B_HUMAN	34.0	3MI9_C	2ANN_A	3MI9_C	2PK2_B
+sp|P69723|VIF_HV1H2	sp|P55854|SUMO3_HUMAN	34.0	4N9F_b	3UF8_A	4N9F_b	2MA9_B
+sp|P04585|POL_HV1H2	sp|A8MWE9|EFCB8_HUMAN	33.9	1L6N_A	1AVS_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|O75344|FKBP6_HUMAN	33.9	1L6N_A	5MGX_G	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q13490|BIRC2_HUMAN	33.9	1L6N_A	3T6P_A	6BK8_O	6J6H_Q
+sp|P04585|POL_HV1H2	sp|Q53GT1|KLH22_HUMAN	33.9	1L6N_A	4YY8_A	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|Q5T124|UBX11_HUMAN	33.9	1L6N_A	6OPC_Z	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q5VZF2|MBNL2_HUMAN	33.9	1L6N_A	6FBS_C	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q8IV61|GRP3_HUMAN	33.9	1L6N_A	4L9M_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q8N4Y2|EFC4A_HUMAN	33.9	1L6N_A	2MX7_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q8N556|AFAP1_HUMAN	33.9	1L6N_A	1U5E_A	6ICZ_Z	6ID1_K
+sp|P04585|POL_HV1H2	sp|Q8WU68|U2AF4_HUMAN	33.9	1L6N_A	4YH8_A	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q99747|SNAG_HUMAN	33.9	1L6N_A	2IFU_A	6ICZ_Z	6ID1_I
+sp|Q9H0D6|XRN2_HUMAN	sp|P04585|POL_HV1H2	33.9	3FQD_A	1L6N_A	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|A8MWE9|EFCB8_HUMAN	33.9	1L6N_A	1AVS_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|O75344|FKBP6_HUMAN	33.9	1L6N_A	5MGX_G	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|O75496|GEMI_HUMAN	33.9	1L6N_A	2WVR_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q13490|BIRC2_HUMAN	33.9	1L6N_A	3T6P_A	6BK8_O	6J6H_Q
+sp|P04591|GAG_HV1H2	sp|Q5TGL8|PXDC1_HUMAN	33.9	1L6N_A	1KQ6_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5VZF2|MBNL2_HUMAN	33.9	1L6N_A	6FBS_C	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q5W0U4|BSPRY_HUMAN	33.9	1L6N_A	4CFG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q6ZMS7|ZN783_HUMAN	33.9	1L6N_A	1V65_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8IV61|GRP3_HUMAN	33.9	1L6N_A	4L9M_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8N4Y2|EFC4A_HUMAN	33.9	1L6N_A	2MX7_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8WU68|U2AF4_HUMAN	33.9	1L6N_A	4YH8_A	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q99747|SNAG_HUMAN	33.9	1L6N_A	2IFU_A	6ICZ_Z	6ID1_I
+sp|Q9H0D6|XRN2_HUMAN	sp|P04591|GAG_HV1H2	33.9	3FQD_A	1L6N_A	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q9NWS6|F118A_HUMAN	33.9	1L6N_A	6LHX_C	5IJN_H	5IJO_G
+sp|P04601|NEF_HV1H2	sp|Q5JRA6|TGO1_HUMAN	33.9	3TB8_A	6LTJ_I	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|Q13144|EI2BE_HUMAN	33.9	3MI9_C	6O81_A	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q5VT06|CE350_HUMAN	33.9	3MI9_C	2COZ_A	4OGR_D	4IMY_H
+sp|P04618|REV_HV1H2	sp|A0A0A6YYK1|TVA81_HUMAN	33.9	2X7L_R	6FRC_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P01906|DQA2_HUMAN	33.9	2X7L_R	2P24_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|P29017|CD1C_HUMAN	33.9	2X7L_R	1CD1_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q99569|PKP4_HUMAN	33.9	2N28_A	3L6X_A	4P6Z_V	4P6Z_G
+sp|P04585|POL_HV1H2	sp|A0A1W2PRP0|FOXL3_HUMAN	33.8	1L6N_A	6FEC_w	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|A6NCI8|CB078_HUMAN	33.8	1L6N_A	6ID1_L	6ICZ_Z	6ID1_L
+sp|P04585|POL_HV1H2	sp|Q01955|CO4A3_HUMAN	33.8	1L6N_A	6MPX_A	1K6Y_D	1K6Y_B
+sp|P04585|POL_HV1H2	sp|Q13434|MKRN4_HUMAN	33.8	1L6N_A	6FBS_C	6BK8_O	6J6G_R
+sp|P04585|POL_HV1H2	sp|Q4G1C9|GRPL2_HUMAN	33.8	1L6N_A	3Q2U_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q6ZNE9|RUFY4_HUMAN	33.8	1L6N_A	2DWK_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q75LS8|FKB9L_HUMAN	33.8	1L6N_A	4MSP_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q8N114|SHSA5_HUMAN	33.8	1L6N_A	5M0W_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q8TF61|FBX41_HUMAN	33.8	1L6N_A	4I6J_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9BYC8|RM32_HUMAN	33.8	1L6N_A	6GB2_B	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9Y2Y1|RPC10_HUMAN	33.8	1L6N_A	6TUT_I	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9Y314|NOSIP_HUMAN	33.8	1L6N_A	6J6G_q	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	tr|A0A0A0MS04|A0A0A0MS04_HUMAN	33.8	1L6N_A	5E9D_E	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A1W2PRP0|FOXL3_HUMAN	33.8	1L6N_A	6FEC_w	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|A6NCI8|CB078_HUMAN	33.8	1L6N_A	6ID1_L	6ICZ_Z	6ID1_L
+sp|P04591|GAG_HV1H2	sp|O00258|GET1_HUMAN	33.8	1L6N_A	3SJB_D	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P55209|NP1L1_HUMAN	33.8	1L6N_A	2AYU_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q13434|MKRN4_HUMAN	33.8	1L6N_A	6FBS_C	6BK8_O	6J6G_R
+sp|P04591|GAG_HV1H2	sp|Q13516|OLIG2_HUMAN	33.8	1L6N_A	4AYA_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q4G1C9|GRPL2_HUMAN	33.8	1L6N_A	3Q2U_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q75LS8|FKB9L_HUMAN	33.8	1L6N_A	4MSP_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8N114|SHSA5_HUMAN	33.8	1L6N_A	5M0W_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q8NAN2|MIGA1_HUMAN	33.8	1L6N_A	4NKQ_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BYC8|RM32_HUMAN	33.8	1L6N_A	6GB2_B	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9NWA0|MED9_HUMAN	33.8	1L6N_A	1YKE_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y2Y1|RPC10_HUMAN	33.8	1L6N_A	6TUT_I	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9Y314|NOSIP_HUMAN	33.8	1L6N_A	6J6G_q	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	tr|A0A0A0MS04|A0A0A0MS04_HUMAN	33.8	1L6N_A	5E9D_E	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|O75691|UTP20_HUMAN	33.8	3TB8_A	6RXU_U	6OWT_N	6QH5_B
+sp|P04601|NEF_HV1H2	sp|Q9UI26|IPO11_HUMAN	33.8	3TB8_A	6FVB_A	6CRI_Z	6CRI_R
+sp|P04608|TAT_HV1H2	sp|Q00403|TF2B_HUMAN	33.8	3MI9_C	5IYB_M	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|P40259|CD79B_HUMAN	33.8	2X7L_R	3KG5_A	6CF2_F	5DHY_A
+sp|P04578|ENV_HV1H2	sp|P15336|ATF2_HUMAN	33.7	6PWU_E	6MG1_A	2X7R_N	1FAV_A
+sp|P04585|POL_HV1H2	sp|O43149|ZZEF1_HUMAN	33.7	1L6N_A	6E86_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|O95985|TOP3B_HUMAN	33.7	1L6N_A	4CHT_A	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|P29377|S100G_HUMAN	33.7	1L6N_A	1QX2_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q5XKE5|K2C79_HUMAN	33.7	1L6N_A	3TNU_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q8N884|CGAS_HUMAN	33.7	1L6N_A	6EDB_A	3NYB_B	3NYB_A
+sp|P04585|POL_HV1H2	sp|Q9BWX5|GATA5_HUMAN	33.7	1L6N_A	4HC7_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9UI36|DACH1_HUMAN	33.7	1L6N_A	1L8R_A	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q9Y4X5|ARI1_HUMAN	33.7	1L6N_A	4KBL_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|O43149|ZZEF1_HUMAN	33.7	1L6N_A	6E86_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|O95985|TOP3B_HUMAN	33.7	1L6N_A	4CHT_A	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|P29377|S100G_HUMAN	33.7	1L6N_A	1QX2_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q13227|GPS2_HUMAN	33.7	1L6N_A	2L5G_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q15555|MARE2_HUMAN	33.7	1L6N_A	2R8U_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q2T9L4|INSY1_HUMAN	33.7	1L6N_A	6AHX_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q71RC2|LARP4_HUMAN	33.7	1L6N_A	6D6V_H	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q8N187|CARTF_HUMAN	33.7	1L6N_A	2EKF_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8N884|CGAS_HUMAN	33.7	1L6N_A	6EDB_A	3NYB_B	3NYB_A
+sp|P04591|GAG_HV1H2	sp|Q8NFJ8|BHE22_HUMAN	33.7	1L6N_A	4AYA_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8TDR4|TCP1L_HUMAN	33.7	1L6N_A	5U59_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9BWX5|GATA5_HUMAN	33.7	1L6N_A	4HC7_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9GZV5|WWTR1_HUMAN	33.7	1L6N_A	4RE1_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NXZ1|SAGE1_HUMAN	33.7	1L6N_A	3DFZ_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y4X5|ARI1_HUMAN	33.7	1L6N_A	4KBL_A	4ESJ_B	4KYW_A
+sp|P04601|NEF_HV1H2	sp|Q6ZUM4|RHG27_HUMAN	33.7	3TB8_A	6GVC_Q	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9Y4F9|RIPR2_HUMAN	33.7	3TB8_A	6FT5_A	6OWT_N	6QH5_B
+sp|P04608|TAT_HV1H2	sp|Q13207|TBX2_HUMAN	33.7	3MI9_C	5BQD_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A0K0K1C4|TVB27_HUMAN	33.7	2X7L_R	5E9D_E	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|A0A5B6|TVB28_HUMAN	33.7	2X7L_R	5E9D_J	2X7L_R	5I8O_H
+sp|Q9H329|E41LB_HUMAN	sp|P04578|ENV_HV1H2	33.7	6D21_A	6PWU_E	6R2G_A	5KA6_B
+sp|P04578|ENV_HV1H2	sp|P61769|B2MG_HUMAN	33.6	6PWU_E	5J1A_B	6DCQ_D	6N16_D
+sp|P04585|POL_HV1H2	sp|Q3SY69|AL1L2_HUMAN	33.6	1L6N_A	3RHO_D	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|Q86XE3|MICU3_HUMAN	33.6	1L6N_A	6AGI_B	2MGU_M	5DOW_A
+sp|Q96LZ7|RMD2_HUMAN	sp|P04585|POL_HV1H2	33.6	3LY7_A	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q9P2U7|VGLU1_HUMAN	33.6	1L6N_A	6V4D_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9Y3B2|EXOS1_HUMAN	33.6	1L6N_A	6D6Q_I	6BK8_O	6BK8_P
+sp|P04591|GAG_HV1H2	sp|A6NFT4|CFA73_HUMAN	33.6	1L6N_A	1M7L_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q3SY69|AL1L2_HUMAN	33.6	1L6N_A	3RHO_D	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|Q86XE3|MICU3_HUMAN	33.6	1L6N_A	6AGI_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8TBN0|R3GEF_HUMAN	33.6	1L6N_A	4UJ3_E	5IJN_H	5IJN_H
+sp|Q96LZ7|RMD2_HUMAN	sp|P04591|GAG_HV1H2	33.6	3LY7_A	1L6N_A	6ICZ_J	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q9P2U7|VGLU1_HUMAN	33.6	1L6N_A	6V4D_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9Y3B2|EXOS1_HUMAN	33.6	1L6N_A	6D6Q_I	6BK8_O	6BK8_P
+sp|P04618|REV_HV1H2	sp|Q13214|SEM3B_HUMAN	33.6	2X7L_R	6QP7_B	2X7L_R	5I8O_L
+sp|P69723|VIF_HV1H2	sp|Q9BVT8|TMUB1_HUMAN	33.6	4N9F_b	3VDZ_A	4N9F_b	2MA9_B
+sp|Q99985|SEM3C_HUMAN	sp|P04601|NEF_HV1H2	33.6	6QP7_B	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|Q9UNN8|EPCR_HUMAN	33.5	6PWU_E	1LQV_B	3MAW_A	3MAW_A
+sp|P04585|POL_HV1H2	sp|A6NP61|ZAR1L_HUMAN	33.5	1L6N_A	2FIY_A	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|Q96CT2|KLH29_HUMAN	33.5	1L6N_A	4YY8_A	6ICZ_Z	6ID1_T
+sp|Q9BXS0|COPA1_HUMAN	sp|P04585|POL_HV1H2	33.5	3HQV_C	1L6N_A	5O2U_C	5TEO_B
+sp|P04591|GAG_HV1H2	sp|A6NDB9|PALM3_HUMAN	33.5	1L6N_A	5VR2_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|A6NP61|ZAR1L_HUMAN	33.5	1L6N_A	2FIY_A	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|P01210|PENK_HUMAN	33.5	1L6N_A	5X29_D	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P0C7W6|CC172_HUMAN	33.5	1L6N_A	1K1F_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q6QNY1|BL1S2_HUMAN	33.5	1L6N_A	3MNF_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86Y82|STX12_HUMAN	33.5	1L6N_A	4JEH_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8WZ33|MAFIP_HUMAN	33.5	1L6N_A	5XAU_E	5IJN_H	5IJO_G
+sp|Q9BXS0|COPA1_HUMAN	sp|P04591|GAG_HV1H2	33.5	3HQV_C	1L6N_A	5O2U_C	5TEO_B
+sp|P04601|NEF_HV1H2	sp|O60763|USO1_HUMAN	33.5	3TB8_A	3GQ2_A	6CRI_Z	6CRI_R
+sp|P04618|REV_HV1H2	sp|Q14563|SEM3A_HUMAN	33.5	2X7L_R	4GZ8_A	2X7L_R	5I8O_L
+sp|P69726|VPR_HV1H2	sp|Q86W92|LIPB1_HUMAN	33.5	1ESX_A	3TAD_A	5AJA_B	5AJA_C
+sp|Q9NZ53|PDXL2_HUMAN	sp|P04585|POL_HV1H2	33.5	6JXR_n	1L6N_A	6CPL_A	2XXM_A
+sp|Q9NZ53|PDXL2_HUMAN	sp|P04591|GAG_HV1H2	33.5	6JXR_n	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|O75326|SEM7A_HUMAN	33.4	6PWU_E	3NVQ_A	2NY2_A	4HJJ_L
+sp|P02452|CO1A1_HUMAN	sp|P04578|ENV_HV1H2	33.4	3HQV_C	6PWU_E	6MET_A	3J70_P
+sp|P04585|POL_HV1H2	sp|O60711|LPXN_HUMAN	33.4	1L6N_A	1RUT_X	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|P0DME0|SETLP_HUMAN	33.4	1L6N_A	3DM7_A	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|Q8N5U6|RNF10_HUMAN	33.4	1L6N_A	3JB9_U	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q8N766|EMC1_HUMAN	33.4	1L6N_A	6WW7_A	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|Q9H329|E41LB_HUMAN	33.4	1L6N_A	6D21_A	4RGH_A	4RGH_A
+sp|P04591|GAG_HV1H2	sp|A0PK00|T120B_HUMAN	33.4	1L6N_A	3G7C_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O60711|LPXN_HUMAN	33.4	1L6N_A	1RUT_X	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|P0C2Y1|NBPF7_HUMAN	33.4	1L6N_A	6MI3_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P0DME0|SETLP_HUMAN	33.4	1L6N_A	3DM7_A	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|Q15744|CEBPE_HUMAN	33.4	1L6N_A	1HJB_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N5U6|RNF10_HUMAN	33.4	1L6N_A	3JB9_U	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q8N766|EMC1_HUMAN	33.4	1L6N_A	6WW7_A	6ICZ_Z	6ID1_T
+sp|P04591|GAG_HV1H2	sp|Q96BD8|SKA1_HUMAN	33.4	1L6N_A	4C9Y_A	5IJN_H	5IJO_G
+sp|P04601|NEF_HV1H2	sp|Q6ISS4|LAIR2_HUMAN	33.4	3TB8_A	3KGR_B	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|Q14952|KI2S3_HUMAN	33.4	2X7L_R	3VH8_H	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q6UXN2|TRML4_HUMAN	33.4	2X7L_R	5OR7_C	6CF2_F	5DHY_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5L0|TNPO3_HUMAN	33.4	2N28_A	4C0O_B	4P6Z_V	4P6Z_B
+sp|O00144|FZD9_HUMAN	sp|P04578|ENV_HV1H2	33.4	5V56_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8IW03|SIAH3_HUMAN	sp|P04578|ENV_HV1H2	33.4	4CA1_A	6PWU_E	6R2G_A	5KA6_B
+sp|Q9UP38|FZD1_HUMAN	sp|P04578|ENV_HV1H2	33.4	5V56_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|Q06190|P2R3A_HUMAN	33.3	1L6N_A	4I5L_E	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q14952|KI2S3_HUMAN	33.3	1L6N_A	3VH8_H	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|Q16625|OCLN_HUMAN	33.3	1L6N_A	1XAW_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q7Z4N8|P4HA3_HUMAN	33.3	1L6N_A	2V4A_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q8N370|LAT4_HUMAN	33.3	1L6N_A	4TPH_B	6ICZ_Z	6ID0_W
+sp|P04585|POL_HV1H2	sp|Q8N6L0|KASH5_HUMAN	33.3	1L6N_A	4ILO_A	6VOY_C	6VOY_E
+sp|P04585|POL_HV1H2	sp|Q99626|CDX2_HUMAN	33.3	1L6N_A	6T90_K	6AR3_D	6AR3_D
+sp|P04585|POL_HV1H2	sp|Q9HCC9|LST2_HUMAN	33.3	1L6N_A	1X4U_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9NQ66|PLCB1_HUMAN	33.3	1L6N_A	4GNK_D	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9NRC1|ST7_HUMAN	33.3	1L6N_A	2VQ2_A	6BK8_O	6J6H_v
+sp|P04585|POL_HV1H2	sp|Q9UKX5|ITA11_HUMAN	33.3	1L6N_A	4NEH_A	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|P22415|USF1_HUMAN	33.3	1L6N_A	1NKP_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P78332|RBM6_HUMAN	33.3	1L6N_A	4PKD_B	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	sp|Q06190|P2R3A_HUMAN	33.3	1L6N_A	4I5L_E	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q68CZ6|HAUS3_HUMAN	33.3	1L6N_A	2LF0_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q7Z4N8|P4HA3_HUMAN	33.3	1L6N_A	2V4A_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q8N370|LAT4_HUMAN	33.3	1L6N_A	4TPH_B	6ICZ_Z	6ID0_W
+sp|P04591|GAG_HV1H2	sp|Q8TB03|CX038_HUMAN	33.3	1L6N_A	6C90_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96KS9|F167A_HUMAN	33.3	1L6N_A	4DZN_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NRC1|ST7_HUMAN	33.3	1L6N_A	2VQ2_A	6BK8_O	6J6H_v
+sp|P04591|GAG_HV1H2	sp|Q9UEU0|VTI1B_HUMAN	33.3	1L6N_A	2NPS_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UKX5|ITA11_HUMAN	33.3	1L6N_A	4NEH_A	6DNH_C	6URO_B
+sp|P04601|NEF_HV1H2	sp|O15397|IPO8_HUMAN	33.3	3TB8_A	6N88_A	6OWT_N	6QH5_B
+sp|P04601|NEF_HV1H2	sp|Q9BU89|DOHH_HUMAN	33.3	3TB8_A	4D50_A	6OWT_N	6OWT_A
+sp|P04608|TAT_HV1H2	sp|Q9UKL4|CXD2_HUMAN	33.3	3MI9_C	6MHQ_F	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|A0A589|TVB43_HUMAN	33.3	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|Q9UPT6|JIP3_HUMAN	33.3	1ESX_A	6EJN_D	5JK7_F	5JK7_E
+sp|P07766|CD3E_HUMAN	sp|P04585|POL_HV1H2	33.3	6JXR_f	1L6N_A	6CPL_A	2XXM_A
+sp|P07766|CD3E_HUMAN	sp|P04591|GAG_HV1H2	33.3	6JXR_f	1L6N_A	6CPL_A	2XXM_A
+sp|Q13155|AIMP2_HUMAN	sp|P04578|ENV_HV1H2	33.3	5A1N_B	6PWU_E	4GIP_D	2B9B_B
+sp|Q29983|MICA_HUMAN	sp|P04601|NEF_HV1H2	33.3	2WY3_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q6ZP82|CC141_HUMAN	sp|P04601|NEF_HV1H2	33.3	1SJJ_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q9H5V8|CDCP1_HUMAN	sp|P04585|POL_HV1H2	33.3	3KQ4_F	1L6N_A	6CPL_A	2XXM_A
+sp|Q9H5V8|CDCP1_HUMAN	sp|P04591|GAG_HV1H2	33.3	3KQ4_F	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|A0A5B6|TVB28_HUMAN	33.2	1L6N_A	5E9D_J	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A6NLF2|ELB3D_HUMAN	33.2	1L6N_A	4HFX_B	3HPG_B	6EMQ_A
+sp|P04585|POL_HV1H2	sp|P23771|GATA3_HUMAN	33.2	1L6N_A	4HC7_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q08722|CD47_HUMAN	33.2	1L6N_A	2JJS_D	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q13562|NDF1_HUMAN	33.2	1L6N_A	4AYA_B	6ICZ_Z	6ID0_W
+sp|P04585|POL_HV1H2	sp|Q3SY89|ELB3B_HUMAN	33.2	1L6N_A	4HFX_B	3HPG_B	6EMQ_A
+sp|P04585|POL_HV1H2	sp|Q495C1|RN212_HUMAN	33.2	1L6N_A	6ID1_r	6BK8_O	6J6H_Q
+sp|P04585|POL_HV1H2	sp|Q6S9Z5|ZN474_HUMAN	33.2	1L6N_A	3ZMS_C	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q8NG57|ELOA3_HUMAN	33.2	1L6N_A	4HFX_C	3HPG_B	6EMQ_A
+sp|P04585|POL_HV1H2	sp|Q8WWW0|RASF5_HUMAN	33.2	1L6N_A	3DDC_B	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q96N95|ZN396_HUMAN	33.2	1L6N_A	1Y7Q_B	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|Q9NR09|BIRC6_HUMAN	33.2	1L6N_A	3CEG_B	6ICZ_Z	5MQF_F
+sp|P04591|GAG_HV1H2	sp|A0A5B6|TVB28_HUMAN	33.2	1L6N_A	5E9D_J	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P23771|GATA3_HUMAN	33.2	1L6N_A	4HC7_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q08722|CD47_HUMAN	33.2	1L6N_A	2JJS_D	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q13562|NDF1_HUMAN	33.2	1L6N_A	4AYA_B	6ICZ_Z	6ID0_W
+sp|P04591|GAG_HV1H2	sp|Q2LD37|K1109_HUMAN	33.2	1L6N_A	1BM4_A	6GZA_A	6GZA_A
+sp|P04591|GAG_HV1H2	sp|Q495C1|RN212_HUMAN	33.2	1L6N_A	6ID1_r	6BK8_O	6J6H_Q
+sp|P04591|GAG_HV1H2	sp|Q6S9Z5|ZN474_HUMAN	33.2	1L6N_A	3ZMS_C	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q8TDH9|BL1S5_HUMAN	33.2	1L6N_A	5FGO_D	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8WWW0|RASF5_HUMAN	33.2	1L6N_A	3DDC_B	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q96N95|ZN396_HUMAN	33.2	1L6N_A	1Y7Q_B	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|Q9C0D2|CE295_HUMAN	33.2	1L6N_A	1W93_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NR09|BIRC6_HUMAN	33.2	1L6N_A	3CEG_B	6ICZ_Z	5MQF_F
+sp|P04601|NEF_HV1H2	sp|Q08722|CD47_HUMAN	33.2	3TB8_A	2JJS_D	4ORZ_B	5MZV_D
+sp|Q5SY16|NOL9_HUMAN	sp|P04601|NEF_HV1H2	33.2	6OF3_E	3TB8_A	6CRI_L	6CRI_Z
+sp|P04608|TAT_HV1H2	sp|Q12948|FOXC1_HUMAN	33.2	3MI9_C	6FEC_w	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|P04216|THY1_HUMAN	33.2	2X7L_R	5XSY_B	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|P49639|HXA1_HUMAN	33.2	2N28_A	1B72_A	4P6Z_V	4P6Z_B
+sp|P69726|VPR_HV1H2	sp|Q13136|LIPA1_HUMAN	33.2	1ESX_A	6KIP_B	5AJA_B	5AJA_C
+sp|Q9UNN8|EPCR_HUMAN	sp|P04585|POL_HV1H2	33.2	1LQV_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q9UNN8|EPCR_HUMAN	sp|P04591|GAG_HV1H2	33.2	1LQV_B	1L6N_A	6CPL_A	2XXM_A
+sp|O95948|ONEC2_HUMAN	sp|P04578|ENV_HV1H2	33.1	2D5V_A	6PWU_E	6NM6_D	6MTJ_B
+sp|P10747|CD28_HUMAN	sp|P04578|ENV_HV1H2	33.1	1YJD_C	6PWU_E	6NNF_U	6B0N_G
+sp|P04578|ENV_HV1H2	sp|Q6ZSJ8|CA122_HUMAN	33.1	6PWU_E	5ZCX_C	5FYJ_G	6B0N_G
+sp|P04585|POL_HV1H2	sp|O75694|NU155_HUMAN	33.1	1L6N_A	5A9Q_B	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|P23759|PAX7_HUMAN	33.1	1L6N_A	2H8R_B	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q13616|CUL1_HUMAN	33.1	1L6N_A	1LDJ_A	6HWX_B	6HWX_B
+sp|P04585|POL_HV1H2	sp|Q6ZSI9|CAN12_HUMAN	33.1	1L6N_A	1KFU_L	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q99828|CIB1_HUMAN	33.1	1L6N_A	6OCX_D	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9NQC8|IFT46_HUMAN	33.1	1L6N_A	4UZZ_A	6ICZ_Z	6ID1_P
+sp|P04585|POL_HV1H2	sp|Q9P2B4|CT2NL_HUMAN	33.1	1L6N_A	5IJO_G	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|P23193|TCEA1_HUMAN	33.1	1L6N_A	5IYB_U	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q13616|CUL1_HUMAN	33.1	1L6N_A	1LDJ_A	6HWX_B	6HWX_B
+sp|P04591|GAG_HV1H2	sp|Q6ZSI9|CAN12_HUMAN	33.1	1L6N_A	1KFU_L	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8TC05|MDM1_HUMAN	33.1	1L6N_A	6OD7_I	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q99828|CIB1_HUMAN	33.1	1L6N_A	6OCX_D	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9NQC8|IFT46_HUMAN	33.1	1L6N_A	4UZZ_A	6ICZ_Z	6ID1_P
+sp|P04591|GAG_HV1H2	sp|Q9NQY0|BIN3_HUMAN	33.1	1L6N_A	4NQI_D	5IJN_H	5IJO_G
+sp|P04608|TAT_HV1H2	sp|Q6ZS72|PEAK3_HUMAN	33.1	3MI9_C	6BHC_A	4OGR_D	4OR5_F
+sp|P04618|REV_HV1H2	sp|A0A539|TVB42_HUMAN	33.1	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|Q9BSF8|BTBDA_HUMAN	sp|P69723|VIF_HV1H2	33.1	1DSX_E	4N9F_b	6P59_Z	6P59_B
+sp|Q9ULV1|FZD4_HUMAN	sp|P04578|ENV_HV1H2	33.1	5V56_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|P61550|ENVT1_HUMAN	33.0	6PWU_E	1LCS_A	6UM5_E	6MAR_D
+sp|P04585|POL_HV1H2	sp|O75909|CCNK_HUMAN	33.0	1L6N_A	6B3E_B	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|P04216|THY1_HUMAN	33.0	1L6N_A	5XSY_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q2LD37|K1109_HUMAN	33.0	1L6N_A	1BM4_A	6GZA_A	6GZA_A
+sp|P04585|POL_HV1H2	sp|Q86TY3|ARMD4_HUMAN	33.0	1L6N_A	5WLC_L	6ICZ_Z	6ID1_P
+sp|Q8IYV9|IZUM1_HUMAN	sp|P04585|POL_HV1H2	33.0	5F4E_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q9BTV7|CABL2_HUMAN	33.0	1L6N_A	4EOJ_D	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9NP66|HM20A_HUMAN	33.0	1L6N_A	1HME_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9NQ55|SSF1_HUMAN	33.0	1L6N_A	6C0F_v	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|Q9Y252|RNF6_HUMAN	33.0	1L6N_A	6VK0_B	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	tr|A0A0A6YYK4|A0A0A6YYK4_HUMAN	33.0	1L6N_A	5E9D_J	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P04216|THY1_HUMAN	33.0	1L6N_A	5XSY_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P20393|NR1D1_HUMAN	33.0	1L6N_A	6FX0_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|P23763|VAMP1_HUMAN	33.0	1L6N_A	2KOG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P50539|MXI1_HUMAN	33.0	1L6N_A	6G6K_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q3KP66|INAVA_HUMAN	33.0	1L6N_A	1PQR_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86TY3|ARMD4_HUMAN	33.0	1L6N_A	5WLC_L	6ICZ_Z	6ID1_P
+sp|Q8IYV9|IZUM1_HUMAN	sp|P04591|GAG_HV1H2	33.0	5F4E_A	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|Q8N6M0|OTU6B_HUMAN	33.0	1L6N_A	6W9O_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BTV7|CABL2_HUMAN	33.0	1L6N_A	4EOJ_D	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9NQ55|SSF1_HUMAN	33.0	1L6N_A	6C0F_v	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|Q9NRY5|F1142_HUMAN	33.0	1L6N_A	6E4H_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9NX63|MIC19_HUMAN	33.0	1L6N_A	6RW4_2	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y252|RNF6_HUMAN	33.0	1L6N_A	6VK0_B	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	tr|A0A0A6YYK4|A0A0A6YYK4_HUMAN	33.0	1L6N_A	5E9D_J	2XT1_A	6FPV_A
+sp|A0A0K0K1C0|TVBK1_HUMAN	sp|P04601|NEF_HV1H2	33.0	1YJD_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04601|NEF_HV1H2	sp|A0A539|TVB42_HUMAN	33.0	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P20963|CD3Z_HUMAN	33.0	3TB8_A	6JXR_a	3IK5_A	3IOZ_B
+sp|P04601|NEF_HV1H2	sp|Q6ZQN5|FOXI2_HUMAN	33.0	3TB8_A	1JXS_A	4U5W_C	4ORZ_B
+sp|P04601|NEF_HV1H2	sp|Q9UQB3|CTND2_HUMAN	33.0	3TB8_A	3L6X_A	4NEE_K	2JKT_A
+sp|P04608|TAT_HV1H2	sp|Q9H3T3|SEM6B_HUMAN	33.0	3MI9_C	3AL8_A	3MI9_C	2PK2_B
+sp|Q29980|MICB_HUMAN	sp|P04601|NEF_HV1H2	33.0	2WY3_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q8TAD4|ZNT5_HUMAN	sp|P04578|ENV_HV1H2	33.0	3J1Z_Q	6PWU_E	6R2G_A	5KA6_B
+sp|P04585|POL_HV1H2	sp|O43439|MTG8R_HUMAN	32.9	1L6N_A	2H7B_A	5A9E_I	5A9E_I
+sp|P04585|POL_HV1H2	sp|Q15560|TCEA2_HUMAN	32.9	1L6N_A	5IY7_U	3HPG_B	6EMQ_A
+sp|P04585|POL_HV1H2	sp|Q8IYF1|ELOA2_HUMAN	32.9	1L6N_A	4HFX_C	3HPG_B	6EMQ_A
+sp|P04585|POL_HV1H2	sp|Q9BPX6|MICU1_HUMAN	32.9	1L6N_A	6WDN_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9BTD3|TM121_HUMAN	32.9	1L6N_A	3TU5_B	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9ULX6|AKP8L_HUMAN	32.9	1L6N_A	1ZU1_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|O43439|MTG8R_HUMAN	32.9	1L6N_A	2H7B_A	5A9E_I	5A9E_I
+sp|P04591|GAG_HV1H2	sp|O43805|SSNA1_HUMAN	32.9	1L6N_A	5HHE_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O95249|GOSR1_HUMAN	32.9	1L6N_A	2NPS_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P0DO97|CC192_HUMAN	32.9	1L6N_A	6K93_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8N6Q1|TMC5A_HUMAN	32.9	1L6N_A	4ILO_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96CF2|CHM4C_HUMAN	32.9	1L6N_A	3FRT_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96P16|RPR1A_HUMAN	32.9	1L6N_A	4NAD_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9BPX6|MICU1_HUMAN	32.9	1L6N_A	6WDN_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9BTD3|TM121_HUMAN	32.9	1L6N_A	3TU5_B	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9BU64|CENPO_HUMAN	32.9	1L6N_A	6QLD_O	5IJN_H	5IJO_L
+sp|P04591|GAG_HV1H2	sp|Q9H081|MIS12_HUMAN	32.9	1L6N_A	5LSJ_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9ULX6|AKP8L_HUMAN	32.9	1L6N_A	1ZU1_A	6ICZ_Z	6ID1_O
+sp|P04601|NEF_HV1H2	sp|O95373|IPO7_HUMAN	32.9	3TB8_A	6N88_A	6OWT_N	6QH5_B
+sp|P04601|NEF_HV1H2	sp|Q9NSI8|SAMN1_HUMAN	32.9	3TB8_A	6UZJ_A	4U5W_C	4U5W_B
+sp|Q14952|KI2S3_HUMAN	sp|P04591|GAG_HV1H2	32.9	3VH8_H	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|O75157|T22D2_HUMAN	32.8	6PWU_E	1DIP_A	2X7R_N	1FAV_A
+sp|P04578|ENV_HV1H2	sp|Q6IA17|SIGIR_HUMAN	32.8	6PWU_E	2J67_A	6NIJ_B	5WHZ_L
+sp|Q9NS98|SEM3G_HUMAN	sp|P04578|ENV_HV1H2	32.8	6QP7_B	6PWU_E	5VIY_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|A0PJX0|CIB4_HUMAN	32.8	1L6N_A	1Y1A_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P15408|FOSL2_HUMAN	32.8	1L6N_A	6MG2_B	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q14031|CO4A6_HUMAN	32.8	1L6N_A	6MPX_A	3JCA_A	3JCA_A
+sp|P04585|POL_HV1H2	sp|Q86WR6|CQ064_HUMAN	32.8	1L6N_A	2N39_A	6BK8_O	6BK8_N
+sp|P04585|POL_HV1H2	sp|Q96LD4|TRI47_HUMAN	32.8	1L6N_A	4CFG_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q96P71|NECA3_HUMAN	32.8	1L6N_A	1TUV_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9C004|SPY4_HUMAN	32.8	1L6N_A	3BJI_A	6UCA_B	6UCA_D
+sp|P04591|GAG_HV1H2	sp|A0PJX0|CIB4_HUMAN	32.8	1L6N_A	1Y1A_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P07306|ASGR1_HUMAN	32.8	1L6N_A	5G6U_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P51449|RORG_HUMAN	32.8	1L6N_A	6FX0_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q6ZSJ8|CA122_HUMAN	32.8	1L6N_A	5ZCX_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q86WR6|CQ064_HUMAN	32.8	1L6N_A	2N39_A	6BK8_O	6BK8_N
+sp|P04591|GAG_HV1H2	sp|Q96EU6|RRP36_HUMAN	32.8	1L6N_A	6XYW_B	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96LD4|TRI47_HUMAN	32.8	1L6N_A	4CFG_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q96P71|NECA3_HUMAN	32.8	1L6N_A	1TUV_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9C004|SPY4_HUMAN	32.8	1L6N_A	3BJI_A	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|Q9H607|OCEL1_HUMAN	32.8	1L6N_A	5JW9_B	5IJN_H	5IJO_G
+sp|Q6ZS17|RIPR1_HUMAN	sp|P04601|NEF_HV1H2	32.8	3H0G_A	3TB8_A	4NEE_G	3TB8_A
+sp|P04608|TAT_HV1H2	sp|Q92994|TF3B_HUMAN	32.8	3MI9_C	6F40_V	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|P01903|DRA_HUMAN	32.8	2X7L_R	6CPL_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	tr|A0A0G2JMH6|A0A0G2JMH6_HUMAN	32.8	2X7L_R	6CPL_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q6P1X5|TAF2_HUMAN	32.8	2N28_A	5FUR_I	4P6Z_V	4P6Z_G
+sp|P05919|VPU_HV1H2	sp|Q9BZZ5|API5_HUMAN	32.8	2N28_A	3U0R_A	4P6Z_V	4P6Z_B
+sp|Q8ND90|PNMA1_HUMAN	sp|P69726|VPR_HV1H2	32.8	6TAS_D	1ESX_A	4Z8L_B	5AJA_B
+sp|P01909|DQA1_HUMAN	sp|P04601|NEF_HV1H2	32.8	2P24_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q13255|GRM1_HUMAN	sp|P04578|ENV_HV1H2	32.8	6N4X_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9ULX7|CAH14_HUMAN	sp|P04585|POL_HV1H2	32.8	5CJF_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q9ULX7|CAH14_HUMAN	sp|P04591|GAG_HV1H2	32.8	5CJF_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|P27824|CALX_HUMAN	32.7	6PWU_E	1JHN_A	6DCQ_D	6DCQ_D
+sp|P04585|POL_HV1H2	sp|O43242|PSMD3_HUMAN	32.7	1L6N_A	5L4K_S	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|P12755|SKI_HUMAN	32.7	1L6N_A	5C4V_B	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|P17544|ATF7_HUMAN	32.7	1L6N_A	6MG2_B	6ICZ_Z	6ID1_K
+sp|P04585|POL_HV1H2	sp|P60006|APC15_HUMAN	32.7	1L6N_A	6Q6H_D	6ICZ_Z	6ID1_P
+sp|P04585|POL_HV1H2	sp|P61513|RL37A_HUMAN	32.7	1L6N_A	4V8P_B	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q00403|TF2B_HUMAN	32.7	1L6N_A	5IYB_M	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q2KHN1|RN151_HUMAN	32.7	1L6N_A	3HCS_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q6ZUL3|CH086_HUMAN	32.7	1L6N_A	5ODC_C	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|Q96GY0|ZC21A_HUMAN	32.7	1L6N_A	2MRF_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9Y5P8|P2R3B_HUMAN	32.7	1L6N_A	4I5L_E	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|O43242|PSMD3_HUMAN	32.7	1L6N_A	5L4K_S	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|O75396|SC22B_HUMAN	32.7	1L6N_A	2NUT_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P17544|ATF7_HUMAN	32.7	1L6N_A	6MG2_B	6ICZ_Z	6ID1_K
+sp|P04591|GAG_HV1H2	sp|P60006|APC15_HUMAN	32.7	1L6N_A	6Q6H_D	6ICZ_Z	6ID1_P
+sp|P04591|GAG_HV1H2	sp|P61513|RL37A_HUMAN	32.7	1L6N_A	4V8P_B	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q00403|TF2B_HUMAN	32.7	1L6N_A	5IYB_M	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q2KHN1|RN151_HUMAN	32.7	1L6N_A	3HCS_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q5T5S1|CC183_HUMAN	32.7	1L6N_A	6U42_7	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q6ZUL3|CH086_HUMAN	32.7	1L6N_A	5ODC_C	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q969X0|RIPL2_HUMAN	32.7	1L6N_A	4KP3_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96GY0|ZC21A_HUMAN	32.7	1L6N_A	2MRF_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q96HT8|MR1L1_HUMAN	32.7	1L6N_A	5IJO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96LT6|CA074_HUMAN	32.7	1L6N_A	3ZIE_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UKJ1|PILRA_HUMAN	32.7	1L6N_A	5OR7_C	5O2U_C	5O2U_D
+sp|P04591|GAG_HV1H2	sp|Q9Y5P8|P2R3B_HUMAN	32.7	1L6N_A	4I5L_E	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|Q9Y6D5|BIG2_HUMAN	32.7	3TB8_A	5HAS_C	6OWT_N	6QH5_B
+sp|P04601|NEF_HV1H2	sp|Q9Y6D6|BIG1_HUMAN	32.7	3TB8_A	5HAS_B	6OWT_N	6QH5_B
+sp|P04608|TAT_HV1H2	sp|Q53HC5|KLH26_HUMAN	32.7	3MI9_C	4YY8_A	3MI9_C	3MI9_A
+sp|P69723|VIF_HV1H2	sp|P61956|SUMO2_HUMAN	32.7	4N9F_b	5UJM_A	4N9F_b	2MA9_B
+sp|Q8N187|CARTF_HUMAN	sp|P04578|ENV_HV1H2	32.7	2EKF_A	6PWU_E	6MUF_G	6E5P_D
+sp|Q8WVC6|DCAKD_HUMAN	sp|P04601|NEF_HV1H2	32.7	2F6R_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|P07766|CD3E_HUMAN	32.6	6PWU_E	6JXR_f	6NIJ_B	3U1S_H
+sp|P04578|ENV_HV1H2	sp|Q9Y4B5|MTCL1_HUMAN	32.6	6PWU_E	1I84_V	3U2S_C	5N2K_F
+sp|P04585|POL_HV1H2	sp|O15079|SNPH_HUMAN	32.6	1L6N_A	6GAO_A	6ICZ_Z	6ID1_K
+sp|P04585|POL_HV1H2	sp|Q14258|TRI25_HUMAN	32.6	1L6N_A	4CFG_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q15147|PLCB4_HUMAN	32.6	1L6N_A	4GNK_D	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q155Q3|DIXC1_HUMAN	32.6	1L6N_A	5Y3C_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9Y4W2|LAS1L_HUMAN	32.6	1L6N_A	6OF3_A	6BK8_O	6J6G_S
+sp|P04591|GAG_HV1H2	sp|Q9Y4W2|LAS1L_HUMAN	32.6	1L6N_A	6OF3_A	6BK8_O	6J6G_S
+sp|P04601|NEF_HV1H2	sp|Q9BYG7|MSTRO_HUMAN	32.6	3TB8_A	3ND2_A	6OWT_N	6QH5_B
+sp|P04601|NEF_HV1H2	sp|Q9UH62|ARMX3_HUMAN	32.6	3TB8_A	3TT9_A	6OWT_N	6OWT_A
+sp|P04608|TAT_HV1H2	sp|Q7Z794|K2C1B_HUMAN	32.6	3MI9_C	6UUI_X	3MI9_C	2PK2_B
+sp|P69723|VIF_HV1H2	sp|P85299|PRR5_HUMAN	32.6	4N9F_b	4WQO_D	4N9F_b	4N9F_I
+sp|P69726|VPR_HV1H2	sp|P41212|ETV6_HUMAN	32.6	1ESX_A	2LF8_A	4Z8L_B	4Z8L_F
+sp|Q6UVK1|CSPG4_HUMAN	sp|P04585|POL_HV1H2	32.6	3POY_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q6UVK1|CSPG4_HUMAN	sp|P04591|GAG_HV1H2	32.6	3POY_A	1L6N_A	6CPL_A	2XXM_A
+sp|W5XKT8|SACA6_HUMAN	sp|P04601|NEF_HV1H2	32.6	5JK9_D	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|O14905|WNT9B_HUMAN	32.5	6PWU_E	6AHY_B	5FYJ_G	6B0N_G
+sp|Q6P7N7|TMM81_HUMAN	sp|P04578|ENV_HV1H2	32.5	5JK9_D	6PWU_E	5I9Q_C	3NGB_D
+sp|P04578|ENV_HV1H2	sp|Q7Z417|NUFP2_HUMAN	32.5	6PWU_E	4O8M_G	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|O75764|TCEA3_HUMAN	32.5	1L6N_A	5IY7_U	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|P15976|GATA1_HUMAN	32.5	1L6N_A	4HC7_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|P42224|STAT1_HUMAN	32.5	1L6N_A	1YVL_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q5JSZ5|PRC2B_HUMAN	32.5	1L6N_A	6NU2_q	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q9NSB8|HOME2_HUMAN	32.5	1L6N_A	1I2H_A	6ICZ_Z	6ID1_K
+sp|P04591|GAG_HV1H2	sp|O75764|TCEA3_HUMAN	32.5	1L6N_A	5IY7_U	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|P06753|TPM3_HUMAN	32.5	1L6N_A	2B9C_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P15976|GATA1_HUMAN	32.5	1L6N_A	4HC7_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q147U7|SMCO1_HUMAN	32.5	1L6N_A	5WLC_L	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5JSZ5|PRC2B_HUMAN	32.5	1L6N_A	6NU2_q	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q8IWE2|NXP20_HUMAN	32.5	1L6N_A	6EPF_U	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96B96|LDAF1_HUMAN	32.5	1L6N_A	1Z8U_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96E40|SACA9_HUMAN	32.5	1L6N_A	6CFZ_D	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9UHQ4|BAP29_HUMAN	32.5	1L6N_A	4W80_B	5IJN_H	5IJN_H
+sp|P04601|NEF_HV1H2	sp|Q6GQQ9|OTU7B_HUMAN	32.5	3TB8_A	5LRW_A	3IK5_A	6K6N_A
+sp|P04608|TAT_HV1H2	sp|Q15406|NR6A1_HUMAN	32.5	3MI9_C	4NQA_I	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q2TAP0|GOG7B_HUMAN	32.5	3MI9_C	3ZUQ_A	3MI9_C	2PK2_B
+sp|P05919|VPU_HV1H2	sp|Q6ZS17|RIPR1_HUMAN	32.5	2N28_A	3H0G_A	4P6Z_V	4P6Z_G
+sp|P69726|VPR_HV1H2	sp|Q8ND30|LIPB2_HUMAN	32.5	1ESX_A	3TAD_A	4Z8L_B	4Z8L_F
+sp|P04585|POL_HV1H2	sp|P53539|FOSB_HUMAN	32.4	1L6N_A	6MG2_B	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|P55010|IF5_HUMAN	32.4	1L6N_A	6FYX_m	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q01105|SET_HUMAN	32.4	1L6N_A	3DM7_A	6ICZ_Z	6ID1_C
+sp|P04585|POL_HV1H2	sp|Q8WUB8|PHF10_HUMAN	32.4	1L6N_A	6LTJ_R	6T61_E	6T61_E
+sp|P04591|GAG_HV1H2	sp|P55010|IF5_HUMAN	32.4	1L6N_A	6FYX_m	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q01105|SET_HUMAN	32.4	1L6N_A	3DM7_A	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|Q14995|NR1D2_HUMAN	32.4	1L6N_A	6FX0_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q68EN5|K895L_HUMAN	32.4	1L6N_A	3CQB_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8TAB5|CA216_HUMAN	32.4	1L6N_A	2ETD_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8WUB8|PHF10_HUMAN	32.4	1L6N_A	6LTJ_R	6T61_E	6T61_E
+sp|P04601|NEF_HV1H2	sp|A0A0K0K1C4|TVB27_HUMAN	32.4	3TB8_A	5E9D_E	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q5VW36|FOCAD_HUMAN	32.4	3TB8_A	6CRI_R	6CRI_Z	6CRI_R
+sp|P04601|NEF_HV1H2	sp|Q96P70|IPO9_HUMAN	32.4	3TB8_A	6N1Z_A	6CRI_Z	6CRI_I
+sp|P04608|TAT_HV1H2	sp|Q5T2Q4|CCYL2_HUMAN	32.4	3MI9_C	4KRD_B	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q9H8M5|CNNM2_HUMAN	32.4	3MI9_C	6N7E_D	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|P01909|DQA1_HUMAN	32.4	2X7L_R	2P24_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q9Y6D5|BIG2_HUMAN	32.4	2N28_A	5HAS_C	4P6Z_V	4P6Z_B
+sp|P69723|VIF_HV1H2	sp|P32320|CDD_HUMAN	32.4	4N9F_b	2D30_B	6NIL_F	5HX4_A
+sp|P69726|VPR_HV1H2	sp|Q6P1R3|MSD2_HUMAN	32.4	1ESX_A	2JMW_A	1X9V_A	1X9V_A
+sp|Q9HCM3|K1549_HUMAN	sp|P04585|POL_HV1H2	32.4	2KNC_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q9HCM3|K1549_HUMAN	sp|P04591|GAG_HV1H2	32.4	2KNC_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|Q9BS86|ZPBP1_HUMAN	32.3	6PWU_E	2V5T_A	6UM5_E	4IML_A
+sp|P04585|POL_HV1H2	sp|O75689|ADAP1_HUMAN	32.3	1L6N_A	3LJU_X	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|O95267|GRP1_HUMAN	32.3	1L6N_A	4L9M_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P61236|YPEL3_HUMAN	32.3	1L6N_A	5HJ0_B	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q86YB8|ERO1B_HUMAN	32.3	1L6N_A	3AHQ_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q96EU7|C1GLC_HUMAN	32.3	1L6N_A	2J0A_A	6AR1_A	6AR1_A
+sp|P04585|POL_HV1H2	sp|Q9BXU3|TX13A_HUMAN	32.3	1L6N_A	2K1P_A	5A9E_I	5A9E_I
+sp|P04585|POL_HV1H2	sp|Q9NR55|BATF3_HUMAN	32.3	1L6N_A	6UCI_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9Y471|CMAH_HUMAN	32.3	1L6N_A	4QN9_B	6GZA_A	6GZA_A
+sp|P04591|GAG_HV1H2	sp|O75689|ADAP1_HUMAN	32.3	1L6N_A	3LJU_X	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|O95267|GRP1_HUMAN	32.3	1L6N_A	4L9M_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P61236|YPEL3_HUMAN	32.3	1L6N_A	5HJ0_B	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q86YB8|ERO1B_HUMAN	32.3	1L6N_A	3AHQ_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9BXU3|TX13A_HUMAN	32.3	1L6N_A	2K1P_A	5A9E_I	5A9E_I
+sp|P04591|GAG_HV1H2	sp|Q9NR55|BATF3_HUMAN	32.3	1L6N_A	6UCI_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9NUP1|BL1S4_HUMAN	32.3	1L6N_A	2PAG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9ULX9|MAFF_HUMAN	32.3	1L6N_A	1K1V_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9Y471|CMAH_HUMAN	32.3	1L6N_A	4QN9_B	6GZA_A	6GZA_A
+sp|P04601|NEF_HV1H2	sp|Q02641|CACB1_HUMAN	32.3	3TB8_A	6JPA_C	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q99569|PKP4_HUMAN	32.3	3TB8_A	3L6X_A	4NEE_K	2JKT_A
+sp|P04608|TAT_HV1H2	sp|P23327|SRCH_HUMAN	32.3	3MI9_C	5TTE_B	4OGR_D	4OGR_D
+sp|P69726|VPR_HV1H2	sp|O60271|JIP4_HUMAN	32.3	1ESX_A	2W83_D	5JK7_F	5JK7_E
+sp|Q5VV43|K0319_HUMAN	sp|P04585|POL_HV1H2	32.3	6NZ0_Z	1L6N_A	6CPL_A	2XXM_A
+sp|Q5VV43|K0319_HUMAN	sp|P04591|GAG_HV1H2	32.3	6NZ0_Z	1L6N_A	6CPL_A	2XXM_A
+sp|Q8N7X8|SIGL1_HUMAN	sp|P04578|ENV_HV1H2	32.2	5A2F_A	6PWU_E	6MET_A	3J70_P
+sp|P04585|POL_HV1H2	sp|O75534|CSDE1_HUMAN	32.2	1L6N_A	2YTX_A	5UDZ_B	5UDZ_B
+sp|P04585|POL_HV1H2	sp|P09603|CSF1_HUMAN	32.2	1L6N_A	5LXF_B	3HPG_B	6EMQ_A
+sp|P04585|POL_HV1H2	sp|Q13287|NMI_HUMAN	32.2	1L6N_A	6DHS_B	6D6V_A	6D6V_H
+sp|P04585|POL_HV1H2	sp|Q5TF58|IFFO2_HUMAN	32.2	1L6N_A	1X8Y_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q8N4F7|RN175_HUMAN	32.2	1L6N_A	4ZDT_C	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9NUC0|SRTD4_HUMAN	32.2	1L6N_A	1JER_A	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|O75534|CSDE1_HUMAN	32.2	1L6N_A	2YTX_A	5UDZ_B	5UDZ_B
+sp|P04591|GAG_HV1H2	sp|P60880|SNP25_HUMAN	32.2	1L6N_A	6MDP_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8N4F7|RN175_HUMAN	32.2	1L6N_A	4ZDT_C	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9BY43|CHM4A_HUMAN	32.2	1L6N_A	3FRT_A	5IJN_H	5IJN_H
+sp|Q9H1U4|MEGF9_HUMAN	sp|P04591|GAG_HV1H2	32.2	4AQS_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	sp|Q9HD42|CHM1A_HUMAN	32.2	1L6N_A	3FRT_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9NUC0|SRTD4_HUMAN	32.2	1L6N_A	1JER_A	6ICZ_Z	6ICZ_V
+sp|P04591|GAG_HV1H2	sp|Q9NX70|MED29_HUMAN	32.2	1L6N_A	6T29_A	5IJN_H	5IJO_G
+sp|P04601|NEF_HV1H2	sp|Q8TCG1|CIP2A_HUMAN	32.2	3TB8_A	5UFL_A	6OWT_N	6QH5_B
+sp|P69726|VPR_HV1H2	sp|Q9NZI7|UBIP1_HUMAN	32.2	1ESX_A	5MPH_A	4Z8L_B	4Z8L_F
+sp|Q8IZF7|AGRF2_HUMAN	sp|P04578|ENV_HV1H2	32.2	6FJ3_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9H1U4|MEGF9_HUMAN	sp|P04585|POL_HV1H2	32.2	4AQS_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|O43610|SPY3_HUMAN	32.1	1L6N_A	1M36_A	6UCA_B	6UCA_D
+sp|P04585|POL_HV1H2	sp|O94972|TRI37_HUMAN	32.1	1L6N_A	6QU1_A	6BK8_O	6J6G_T
+sp|P04585|POL_HV1H2	sp|P28328|PEX2_HUMAN	32.1	1L6N_A	6H3A_F	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|P49354|FNTA_HUMAN	32.1	1L6N_A	1TN7_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|P51114|FXR1_HUMAN	32.1	1L6N_A	4QW2_A	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|P53420|CO4A4_HUMAN	32.1	1L6N_A	6MPX_A	6RWM_A	6RWM_A
+sp|P04585|POL_HV1H2	sp|Q12904|AIMP1_HUMAN	32.1	1L6N_A	4R3Z_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q5D1E8|ZC12A_HUMAN	32.1	1L6N_A	3V33_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q7L0R7|RNF44_HUMAN	32.1	1L6N_A	4V3L_C	6BK8_O	5MQ0_t
+sp|Q8NET5|NFAM1_HUMAN	sp|P04585|POL_HV1H2	32.1	5XSY_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|Q9BXQ6|T121B_HUMAN	32.1	1L6N_A	4XIG_N	4RGH_A	4RGH_A
+sp|P04585|POL_HV1H2	sp|Q9NZS9|BFAR_HUMAN	32.1	1L6N_A	2C2L_B	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|E9PJI5|NPIA7_HUMAN	32.1	1L6N_A	2P8Z_S	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O15525|MAFG_HUMAN	32.1	1L6N_A	1K1V_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O43610|SPY3_HUMAN	32.1	1L6N_A	1M36_A	6UCA_D	6UCA_B
+sp|P04591|GAG_HV1H2	sp|P0DM63|NPIA8_HUMAN	32.1	1L6N_A	2P8X_S	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|P28328|PEX2_HUMAN	32.1	1L6N_A	6H3A_F	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|P49354|FNTA_HUMAN	32.1	1L6N_A	1TN7_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|P51114|FXR1_HUMAN	32.1	1L6N_A	4QW2_A	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|Q12904|AIMP1_HUMAN	32.1	1L6N_A	4R3Z_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q5D1E8|ZC12A_HUMAN	32.1	1L6N_A	3V33_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q7L0R7|RNF44_HUMAN	32.1	1L6N_A	4V3L_C	6BK8_O	5MQ0_t
+sp|Q8NET5|NFAM1_HUMAN	sp|P04591|GAG_HV1H2	32.1	5XSY_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	sp|Q9H6A0|DEN2D_HUMAN	32.1	1L6N_A	6EKK_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9NZS9|BFAR_HUMAN	32.1	1L6N_A	2C2L_B	4ESJ_B	4KYW_A
+sp|P04618|REV_HV1H2	sp|O95976|IGSF6_HUMAN	32.1	2X7L_R	4R0L_D	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q08722|CD47_HUMAN	32.1	2X7L_R	2JJS_D	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|O00192|ARVC_HUMAN	32.1	2N28_A	3L6X_A	4P6Z_V	4P6Z_G
+sp|P05919|VPU_HV1H2	sp|O60763|USO1_HUMAN	32.1	2N28_A	3GQ2_A	4P6Z_V	4P6Z_B
+sp|Q86SQ6|AGRA1_HUMAN	sp|P04578|ENV_HV1H2	32.1	4K5Y_C	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q9Y4X5|ARI1_HUMAN	32.0	6PWU_E	4KBL_A	6NQD_F	6NQD_F
+sp|P04585|POL_HV1H2	sp|P43694|GATA4_HUMAN	32.0	1L6N_A	4HC7_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q6UVJ0|SAS6_HUMAN	32.0	1L6N_A	3Q0X_A	6ICZ_Z	6ID1_K
+sp|P04591|GAG_HV1H2	sp|P13521|SCG2_HUMAN	32.0	1L6N_A	6GAW_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P43694|GATA4_HUMAN	32.0	1L6N_A	4HC7_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9BRV8|SIKE1_HUMAN	32.0	1L6N_A	6AKM_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9P242|NYAP2_HUMAN	32.0	1L6N_A	4DYS_C	5IJN_H	5IJN_H
+sp|P04608|TAT_HV1H2	sp|Q5GH73|XKR6_HUMAN	32.0	3MI9_C	6MZM_G	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q9UKT5|FBX4_HUMAN	32.0	3MI9_C	3L2O_B	4OGR_D	4OR5_F
+sp|P05919|VPU_HV1H2	sp|O60308|CE104_HUMAN	32.0	2N28_A	5LPH_B	4P6Z_V	4P6Z_B
+sp|P69726|VPR_HV1H2	sp|Q96DM3|RMC1_HUMAN	32.0	1ESX_A	5ODS_A	5JK7_F	5JK7_E
+sp|Q14332|FZD2_HUMAN	sp|P04578|ENV_HV1H2	32.0	5V56_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|O75175|CNOT3_HUMAN	31.9	6PWU_E	4C0D_C	6MUF_G	6NNJ_D
+sp|P04578|ENV_HV1H2	sp|Q9ULX7|CAH14_HUMAN	31.9	6PWU_E	5CJF_A	6UM5_E	6MAR_D
+sp|P04585|POL_HV1H2	sp|O14910|LIN7A_HUMAN	31.9	1L6N_A	1Y74_C	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q14CW9|AT7L3_HUMAN	31.9	1L6N_A	2KKT_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q5SSJ5|HP1B3_HUMAN	31.9	1L6N_A	2RQP_A	6ICZ_Z	6ID1_P
+sp|P04585|POL_HV1H2	sp|Q86XS8|GOLI_HUMAN	31.9	1L6N_A	3ICU_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q96DC7|TMCO6_HUMAN	31.9	1L6N_A	1WA5_B	6VOY_C	6VOY_E
+sp|P04585|POL_HV1H2	sp|Q9NWB7|IFT57_HUMAN	31.9	1L6N_A	2C5K_T	6ICZ_Z	6ID1_K
+sp|P04585|POL_HV1H2	tr|A0A0A0MS05|A0A0A0MS05_HUMAN	31.9	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O14910|LIN7A_HUMAN	31.9	1L6N_A	1Y74_C	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|O75822|EIF3J_HUMAN	31.9	1L6N_A	3BPJ_C	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O95295|SNAPN_HUMAN	31.9	1L6N_A	3MUD_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O95816|BAG2_HUMAN	31.9	1L6N_A	3CQX_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q14CW9|AT7L3_HUMAN	31.9	1L6N_A	2KKT_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q5SSJ5|HP1B3_HUMAN	31.9	1L6N_A	2RQP_A	6ICZ_Z	6ID1_P
+sp|P04591|GAG_HV1H2	sp|Q86XS8|GOLI_HUMAN	31.9	1L6N_A	3ICU_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	tr|A0A0A0MS05|A0A0A0MS05_HUMAN	31.9	1L6N_A	1YJD_C	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|O60308|CE104_HUMAN	31.9	3TB8_A	5LPH_B	6CRI_Z	6CRI_I
+sp|P04618|REV_HV1H2	sp|A0A577|TVB41_HUMAN	31.9	2X7L_R	1YJD_C	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|O95373|IPO7_HUMAN	31.9	2N28_A	6N88_A	4P6Z_V	4P6Z_B
+sp|P51809|VAMP7_HUMAN	sp|P05919|VPU_HV1H2	31.9	4B93_A	2N28_A	4P6Z_M	4P6Z_V
+sp|P05919|VPU_HV1H2	sp|Q9Y4F9|RIPR2_HUMAN	31.9	2N28_A	6FT5_A	4P6Z_V	4P6Z_G
+sp|P69726|VPR_HV1H2	sp|Q9HCE6|ARGAL_HUMAN	31.9	1ESX_A	6L30_A	5JK7_F	5JK7_E
+sp|Q14118|DAG1_HUMAN	sp|P04585|POL_HV1H2	31.9	4WIQ_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q14118|DAG1_HUMAN	sp|P04591|GAG_HV1H2	31.9	4WIQ_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|A7E2F4|GOG8A_HUMAN	31.8	1L6N_A	1I84_V	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|P60002|ELOF1_HUMAN	31.8	1L6N_A	6IR9_M	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q8NF37|PCAT1_HUMAN	31.8	1L6N_A	5KYM_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9NR56|MBNL1_HUMAN	31.8	1L6N_A	6FBS_C	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9P2M4|TBC14_HUMAN	31.8	1L6N_A	2QQ8_A	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q9UKV5|AMFR_HUMAN	31.8	1L6N_A	6VK0_B	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|P60002|ELOF1_HUMAN	31.8	1L6N_A	6IR9_M	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q2M2Z5|KIZ_HUMAN	31.8	1L6N_A	3TXQ_G	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q8NF37|PCAT1_HUMAN	31.8	1L6N_A	5KYM_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8WZA0|LZIC_HUMAN	31.8	1L6N_A	1M1E_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9NR56|MBNL1_HUMAN	31.8	1L6N_A	6FBS_C	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9P2M4|TBC14_HUMAN	31.8	1L6N_A	2QQ8_A	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q9UKV5|AMFR_HUMAN	31.8	1L6N_A	6VK0_B	6BK8_O	5MQ0_t
+sp|P04601|NEF_HV1H2	sp|Q7Z3E5|ARMC9_HUMAN	31.8	3TB8_A	5MFO_E	6CRI_Z	6CRI_I
+sp|P04601|NEF_HV1H2	sp|Q8NFA2|NOXO1_HUMAN	31.8	3TB8_A	2L73_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	sp|Q5T2D2|TRML2_HUMAN	31.8	2X7L_R	5OR7_C	6CF2_F	5DHY_A
+sp|P04585|POL_HV1H2	sp|A8MTL3|R212B_HUMAN	31.7	1L6N_A	3JB9_U	6UCA_B	6UCA_D
+sp|O00151|PDLI1_HUMAN	sp|P04585|POL_HV1H2	31.7	2PKT_A	1L6N_A	5FMF_I	5FMF_R
+sp|P04585|POL_HV1H2	sp|O00267|SPT5H_HUMAN	31.7	1L6N_A	6GMH_Z	5FMF_R	1TWF_A
+sp|P04585|POL_HV1H2	sp|O14802|RPC1_HUMAN	31.7	1L6N_A	3H0G_A	5FMF_R	1TWF_A
+sp|P04585|POL_HV1H2	sp|O15160|RPAC1_HUMAN	31.7	1L6N_A	6RUI_C	5FMF_R	5IP7_C
+sp|P04585|POL_HV1H2	sp|O15209|ZBT22_HUMAN	31.7	1L6N_A	3ZMS_C	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|O15514|RPB4_HUMAN	31.7	1L6N_A	6GML_D	5FMF_R	3PO2_D
+sp|P04585|POL_HV1H2	sp|O43298|ZBT43_HUMAN	31.7	1L6N_A	2CSH_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|O60260|PRKN_HUMAN	31.7	1L6N_A	4I1F_A	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|O60333|KIF1B_HUMAN	31.7	1L6N_A	6A20_A	5FMF_R	5FMF_1
+sp|P04585|POL_HV1H2	sp|O60583|CCNT2_HUMAN	31.7	1L6N_A	6GZH_B	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|O60741|HCN1_HUMAN	31.7	1L6N_A	6UQF_C	5FMF_R	1TWF_A
+sp|P04585|POL_HV1H2	sp|O75541|ZN821_HUMAN	31.7	1L6N_A	5UND_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|O75575|RPC9_HUMAN	31.7	1L6N_A	3AYH_A	5FMF_R	3PO2_D
+sp|P04585|POL_HV1H2	sp|O95067|CCNB2_HUMAN	31.7	1L6N_A	6Q6G_S	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|O95081|AGFG2_HUMAN	31.7	1L6N_A	2OLM_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|O95239|KIF4A_HUMAN	31.7	1L6N_A	5M5L_C	5FMF_R	5FMF_1
+sp|P04585|POL_HV1H2	sp|O95602|RPA1_HUMAN	31.7	1L6N_A	6RUI_A	5FMF_R	1TWF_A
+sp|P04585|POL_HV1H2	sp|O96020|CCNE2_HUMAN	31.7	1L6N_A	1W98_B	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P06400|RB_HUMAN	31.7	1L6N_A	4ELJ_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P0C6A0|ZGLP1_HUMAN	31.7	1L6N_A	2L6Z_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P0C7X2|ZN688_HUMAN	31.7	1L6N_A	5UND_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|P0DPB6|RPAC2_HUMAN	31.7	1L6N_A	6RUI_K	5FMF_R	5FMF_K
+sp|P04585|POL_HV1H2	sp|P13984|T2FB_HUMAN	31.7	1L6N_A	6O9L_T	5FMF_R	5FMF_V
+sp|P04585|POL_HV1H2	sp|P14635|CCNB1_HUMAN	31.7	1L6N_A	6GU2_B	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P15927|RFA2_HUMAN	31.7	1L6N_A	2PI2_A	5FMF_R	5FMF_S
+sp|P04585|POL_HV1H2	sp|P19387|RPB3_HUMAN	31.7	1L6N_A	5IYC_C	5FMF_R	5IP7_C
+sp|P04585|POL_HV1H2	sp|P19388|RPAB1_HUMAN	31.7	1L6N_A	1DZF_A	5FMF_R	3PO2_E
+sp|P04585|POL_HV1H2	sp|P20226|TBP_HUMAN	31.7	1L6N_A	5IYB_P	5FMF_R	6GYM_O
+sp|P04585|POL_HV1H2	sp|P22674|CCNO_HUMAN	31.7	1L6N_A	6Q6G_S	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P23743|DGKA_HUMAN	31.7	1L6N_A	2JGR_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P24385|CCND1_HUMAN	31.7	1L6N_A	2W96_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P24864|CCNE1_HUMAN	31.7	1L6N_A	1W98_B	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P24928|RPB1_HUMAN	31.7	1L6N_A	6O9L_A	5FMF_R	1TWF_A
+sp|P04585|POL_HV1H2	sp|P28749|RBL1_HUMAN	31.7	1L6N_A	4ELJ_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P29084|T2EB_HUMAN	31.7	1L6N_A	5IYB_R	5FMF_R	5FMF_S
+sp|P04585|POL_HV1H2	sp|P29590|PML_HUMAN	31.7	1L6N_A	6H3A_F	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P30279|CCND2_HUMAN	31.7	1L6N_A	3G33_B	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P30281|CCND3_HUMAN	31.7	1L6N_A	3G33_D	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P30876|RPB2_HUMAN	31.7	1L6N_A	5IY7_B	5FMF_R	5VVS_B
+sp|P04585|POL_HV1H2	sp|P35269|T2FA_HUMAN	31.7	1L6N_A	6O9L_S	5FMF_R	5FMF_U
+sp|P04585|POL_HV1H2	sp|P36954|RPB9_HUMAN	31.7	1L6N_A	5IY8_I	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|P41002|CCNF_HUMAN	31.7	1L6N_A	6GU2_B	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P42677|RS27_HUMAN	31.7	1L6N_A	6AZ1_c	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P51959|CCNG1_HUMAN	31.7	1L6N_A	2F2C_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P52434|RPAB3_HUMAN	31.7	1L6N_A	6GMH_H	5FMF_R	3PO2_H
+sp|P04585|POL_HV1H2	sp|P52435|RPB11_HUMAN	31.7	1L6N_A	1TWF_K	5FMF_R	5FMF_K
+sp|P04585|POL_HV1H2	sp|P52594|AGFG1_HUMAN	31.7	1L6N_A	2OLM_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P52655|TF2AA_HUMAN	31.7	1L6N_A	5IY8_N	5FMF_R	5FMF_M
+sp|P04585|POL_HV1H2	sp|P52657|T2AG_HUMAN	31.7	1L6N_A	5IY7_O	5FMF_R	1NH2_D
+sp|P04585|POL_HV1H2	sp|P53803|RPAB4_HUMAN	31.7	1L6N_A	3H0G_L	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|P53990|IST1_HUMAN	31.7	1L6N_A	6E8G_D	5FMF_R	1TWF_A
+sp|P04585|POL_HV1H2	sp|P53992|SC24C_HUMAN	31.7	1L6N_A	5KYY_B	5FMF_R	1TWF_A
+sp|P04585|POL_HV1H2	sp|P61218|RPAB2_HUMAN	31.7	1L6N_A	6GMH_F	5FMF_R	5IP7_F
+sp|P04585|POL_HV1H2	sp|P62380|TBPL1_HUMAN	31.7	1L6N_A	6E16_A	5FMF_R	6GYM_O
+sp|P04585|POL_HV1H2	sp|P62487|RPB7_HUMAN	31.7	1L6N_A	2C35_B	5FMF_R	3PO2_G
+sp|P04585|POL_HV1H2	sp|P62875|RPAB5_HUMAN	31.7	1L6N_A	1TWF_J	5FMF_R	5FMF_J
+sp|P04585|POL_HV1H2	sp|P78317|RNF4_HUMAN	31.7	1L6N_A	2C2L_B	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P78396|CCNA1_HUMAN	31.7	1L6N_A	6Q6G_S	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P98170|XIAP_HUMAN	31.7	1L6N_A	5YUD_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q01113|IL9R_HUMAN	31.7	1L6N_A	4NKQ_B	5FMF_R	1TWF_A
+sp|P04585|POL_HV1H2	sp|Q02447|SP3_HUMAN	31.7	1L6N_A	6A59_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q08999|RBL2_HUMAN	31.7	1L6N_A	4ELJ_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q12766|HMGX3_HUMAN	31.7	1L6N_A	2YUK_A	5FMF_R	5FMF_J
+sp|P04585|POL_HV1H2	sp|Q13227|GPS2_HUMAN	31.7	1L6N_A	2L5G_A	5FMF_R	1TWF_A
+sp|P04585|POL_HV1H2	sp|Q13642|FHL1_HUMAN	31.7	1L6N_A	4JCJ_B	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q14094|CCNI_HUMAN	31.7	1L6N_A	1G3N_C	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q15428|SF3A2_HUMAN	31.7	1L6N_A	6AHD_v	5FMF_R	1TWF_A
+sp|P04585|POL_HV1H2	sp|Q15652|JHD2C_HUMAN	31.7	1L6N_A	2YPD_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q15654|TRIP6_HUMAN	31.7	1L6N_A	2JTN_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q15697|ZN174_HUMAN	31.7	1L6N_A	1Y7Q_B	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q16204|CCDC6_HUMAN	31.7	1L6N_A	4KBL_A	5FMF_R	1TWF_A
+sp|P04585|POL_HV1H2	sp|Q16589|CCNG2_HUMAN	31.7	1L6N_A	1F5Q_D	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q2VIQ3|KIF4B_HUMAN	31.7	1L6N_A	5M5L_C	5FMF_R	5FMF_1
+sp|P04585|POL_HV1H2	sp|Q5HYJ3|FA76B_HUMAN	31.7	1L6N_A	5IP7_L	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q5T2Q4|CCYL2_HUMAN	31.7	1L6N_A	4KRD_B	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q5T4S7|UBR4_HUMAN	31.7	1L6N_A	5VMD_C	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q5T5M9|CCNJ_HUMAN	31.7	1L6N_A	3G33_D	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q5T7B8|KIF24_HUMAN	31.7	1L6N_A	5XJA_A	5FMF_R	5FMF_1
+sp|P04585|POL_HV1H2	sp|Q5T7W0|ZN618_HUMAN	31.7	1L6N_A	2BW3_A	5FMF_R	5FMF_2
+sp|P04585|POL_HV1H2	sp|Q68EM7|RHG17_HUMAN	31.7	1L6N_A	5C2K_A	5FMF_R	1TWF_A
+sp|P04585|POL_HV1H2	sp|Q6AHZ1|Z518A_HUMAN	31.7	1L6N_A	5V3J_E	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q6ICG8|WBP2L_HUMAN	31.7	1L6N_A	2HTH_B	5FMF_R	1TWF_A
+sp|P04585|POL_HV1H2	sp|Q6NUN9|ZN746_HUMAN	31.7	1L6N_A	3W5K_B	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q6ZMN8|CCNI2_HUMAN	31.7	1L6N_A	1BU2_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q6ZMV9|KIF6_HUMAN	31.7	1L6N_A	5MM7_K	5FMF_R	5FMF_1
+sp|P04585|POL_HV1H2	sp|Q6ZMY3|SPOC1_HUMAN	31.7	1L6N_A	4BXZ_X	5FMF_R	5FMF_2
+sp|P04585|POL_HV1H2	sp|Q6ZN54|DEFI8_HUMAN	31.7	1L6N_A	6WCW_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q6ZNL6|FGD5_HUMAN	31.7	1L6N_A	3MPX_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q6ZS17|RIPR1_HUMAN	31.7	1L6N_A	3H0G_A	5FMF_R	1TWF_A
+sp|P04585|POL_HV1H2	sp|Q6ZT77|ZN826_HUMAN	31.7	1L6N_A	4X9J_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q6ZWE6|PKHM3_HUMAN	31.7	1L6N_A	6WCW_A	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q6ZYL4|TF2H5_HUMAN	31.7	1L6N_A	2JNJ_A	5FMF_R	5FMF_X
+sp|P04585|POL_HV1H2	sp|Q71UM5|RS27L_HUMAN	31.7	1L6N_A	6AZ1_c	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q7LBC6|KDM3B_HUMAN	31.7	1L6N_A	5RAG_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q7Z4I7|LIMS2_HUMAN	31.7	1L6N_A	1RUT_X	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q86UA6|RIP_HUMAN	31.7	1L6N_A	2KPI_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q86UZ6|ZBT46_HUMAN	31.7	1L6N_A	3W5K_B	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q86YA3|ZGRF1_HUMAN	31.7	1L6N_A	2XZL_A	5FMF_R	5FMF_1
+sp|P04585|POL_HV1H2	sp|Q86YP4|P66A_HUMAN	31.7	1L6N_A	2L2L_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q8IV13|CCNJL_HUMAN	31.7	1L6N_A	3G33_D	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q8N0Y2|ZN444_HUMAN	31.7	1L6N_A	3ZMS_C	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q8N1B3|CCNQ_HUMAN	31.7	1L6N_A	4BCG_B	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q8N1G0|ZN687_HUMAN	31.7	1L6N_A	5V3J_E	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q8N4N8|KIF2B_HUMAN	31.7	1L6N_A	5XJA_A	5FMF_R	5FMF_1
+sp|P04585|POL_HV1H2	sp|Q8N554|ZN276_HUMAN	31.7	1L6N_A	3ZMS_C	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8N7R7|CCYL1_HUMAN	31.7	1L6N_A	4KRD_B	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q8N806|UBR7_HUMAN	31.7	1L6N_A	6VEN_R	6ICZ_Z	6ID1_N
+sp|P04585|POL_HV1H2	sp|Q8N815|CNTD1_HUMAN	31.7	1L6N_A	4EOJ_D	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q8N8B7|TEANC_HUMAN	31.7	1L6N_A	1PQV_S	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q8NA54|IQUB_HUMAN	31.7	1L6N_A	2DAF_A	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q8NBB4|ZSCA1_HUMAN	31.7	1L6N_A	1Y7Q_B	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8ND76|CCNY_HUMAN	31.7	1L6N_A	4KRD_B	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q8TAX0|OSR1_HUMAN	31.7	1L6N_A	3W5K_B	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8TBC5|ZSC18_HUMAN	31.7	1L6N_A	1Y7Q_B	5FMF_R	5FMF_2
+sp|P04585|POL_HV1H2	sp|Q8TCN5|ZN507_HUMAN	31.7	1L6N_A	5V3J_E	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q8WWL7|CCNB3_HUMAN	31.7	1L6N_A	6Q6G_S	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q92576|PHF3_HUMAN	31.7	1L6N_A	4BXZ_X	5FMF_R	5FMF_2
+sp|P04585|POL_HV1H2	sp|Q92618|ZN516_HUMAN	31.7	1L6N_A	5UND_B	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q92759|TF2H4_HUMAN	31.7	1L6N_A	5OQJ_2	5FMF_R	5FMF_W
+sp|P04585|POL_HV1H2	sp|Q92908|GATA6_HUMAN	31.7	1L6N_A	4HC7_A	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q92994|TF3B_HUMAN	31.7	1L6N_A	6F40_V	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q96C55|ZN524_HUMAN	31.7	1L6N_A	2N26_A	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q96CK0|ZN653_HUMAN	31.7	1L6N_A	5T0U_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q96DT7|ZBT10_HUMAN	31.7	1L6N_A	3W5K_B	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q96FN5|KIF12_HUMAN	31.7	1L6N_A	5MM7_K	5FMF_R	5FMF_1
+sp|P04585|POL_HV1H2	sp|Q96HM7|PED1B_HUMAN	31.7	1L6N_A	4H08_A	6BK8_O	6J6N_t
+sp|P04585|POL_HV1H2	sp|Q96JG9|ZN469_HUMAN	31.7	1L6N_A	5UND_A	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q96JM3|CHAP1_HUMAN	31.7	1L6N_A	1WJP_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q96M96|FGD4_HUMAN	31.7	1L6N_A	3MPX_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q96MF2|STAC3_HUMAN	31.7	1L6N_A	6UY8_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q96MN5|TEAN2_HUMAN	31.7	1L6N_A	1PQV_S	5FMF_R	5FMF_2
+sp|P04585|POL_HV1H2	sp|Q96RN5|MED15_HUMAN	31.7	1L6N_A	2GUT_A	5FMF_R	5FMF_2
+sp|P04585|POL_HV1H2	sp|Q96T51|RUFY1_HUMAN	31.7	1L6N_A	2DWK_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q96T92|INSM2_HUMAN	31.7	1L6N_A	3ZMS_C	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q99592|ZBT18_HUMAN	31.7	1L6N_A	2N26_A	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q99661|KIF2C_HUMAN	31.7	1L6N_A	5XJA_A	5FMF_R	5FMF_1
+sp|P04585|POL_HV1H2	sp|Q9BTC0|DIDO1_HUMAN	31.7	1L6N_A	4BXZ_X	5FMF_R	5FMF_2
+sp|P04585|POL_HV1H2	sp|Q9BU19|ZN692_HUMAN	31.7	1L6N_A	5T0U_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9BV68|RN126_HUMAN	31.7	1L6N_A	6VK0_B	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9BWW7|SCRT1_HUMAN	31.7	1L6N_A	3ZMS_C	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q9C0D4|Z518B_HUMAN	31.7	1L6N_A	3ZMS_C	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q9GZM3|RPB1B_HUMAN	31.7	1L6N_A	1TWF_K	5FMF_R	5FMF_K
+sp|P04585|POL_HV1H2	sp|Q9H0H3|KLH25_HUMAN	31.7	1L6N_A	4YY8_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9H1A7|RPB1C_HUMAN	31.7	1L6N_A	1TWF_K	5FMF_R	5FMF_K
+sp|P04585|POL_HV1H2	sp|Q9H2S9|IKZF4_HUMAN	31.7	1L6N_A	5UND_B	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q9H4Q3|PRD13_HUMAN	31.7	1L6N_A	3ZMS_C	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9H582|ZN644_HUMAN	31.7	1L6N_A	5V3J_E	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q9H609|ZN576_HUMAN	31.7	1L6N_A	5YEF_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9H8S5|CCNP_HUMAN	31.7	1L6N_A	6Q6G_S	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q9H9Y6|RPA2_HUMAN	31.7	1L6N_A	6RUI_B	5FMF_R	5VVS_B
+sp|Q9NP87|DPOLM_HUMAN	sp|P04585|POL_HV1H2	31.7	4I2F_A	1L6N_A	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q9NQ03|SCRT2_HUMAN	31.7	1L6N_A	3ZMS_C	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q9NS87|KIF15_HUMAN	31.7	1L6N_A	4BN2_C	5FMF_R	5FMF_1
+sp|P04585|POL_HV1H2	sp|Q9NUL5|SHFL_HUMAN	31.7	1L6N_A	6KF3_P	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q9NW08|RPC2_HUMAN	31.7	1L6N_A	4C2M_B	5FMF_R	5VVS_B
+sp|P04585|POL_HV1H2	sp|Q9NZV6|MSRB1_HUMAN	31.7	1L6N_A	2KV1_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q9P1U0|RPA12_HUMAN	31.7	1L6N_A	3QT1_I	5FMF_R	5FMF_2
+sp|P04585|POL_HV1H2	sp|Q9P2P6|STAR9_HUMAN	31.7	1L6N_A	6A20_A	5FMF_R	5FMF_1
+sp|P04585|POL_HV1H2	sp|Q9UHF7|TRPS1_HUMAN	31.7	1L6N_A	5V3J_E	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q9UKA8|RCAN3_HUMAN	31.7	1L6N_A	1WEY_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9UKF5|ADA29_HUMAN	31.7	1L6N_A	5Y31_A	5FMF_R	1TWF_A
+sp|P04585|POL_HV1H2	sp|Q9UKS7|IKZF2_HUMAN	31.7	1L6N_A	5UND_B	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9UKT9|IKZF3_HUMAN	31.7	1L6N_A	5UND_B	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q9UNN4|TF2AY_HUMAN	31.7	1L6N_A	5IY8_N	5FMF_R	5FMF_M
+sp|P04585|POL_HV1H2	sp|Q9Y315|DEOC_HUMAN	31.7	1L6N_A	3QYQ_A	5FMF_R	5FMF_S
+sp|P04585|POL_HV1H2	sp|Q9Y330|ZBT12_HUMAN	31.7	1L6N_A	3W5K_B	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q9Y535|RPC8_HUMAN	31.7	1L6N_A	6EU0_G	5FMF_R	3PO2_G
+sp|P04591|GAG_HV1H2	sp|P23743|DGKA_HUMAN	31.7	1L6N_A	2JGR_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q13642|FHL1_HUMAN	31.7	1L6N_A	4JCJ_B	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q8N806|UBR7_HUMAN	31.7	1L6N_A	6VEN_R	6ICZ_Z	6ID1_N
+sp|P04591|GAG_HV1H2	sp|Q96HM7|PED1B_HUMAN	31.7	1L6N_A	4H08_A	6BK8_O	6J6N_t
+sp|P04591|GAG_HV1H2	sp|Q9BV68|RN126_HUMAN	31.7	1L6N_A	6VK0_B	4ESJ_B	4KYW_A
+sp|Q9NP87|DPOLM_HUMAN	sp|P04591|GAG_HV1H2	31.7	4I2F_A	1L6N_A	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q9UKA8|RCAN3_HUMAN	31.7	1L6N_A	1WEY_A	6ICZ_Z	6ID1_O
+sp|P04618|REV_HV1H2	sp|P15812|CD1E_HUMAN	31.7	2X7L_R	1CD1_A	2X7L_R	5I8O_H
+sp|Q6N043|Z280D_HUMAN	sp|P04585|POL_HV1H2	31.7	5V3J_E	1L6N_A	5FMF_I	5FMF_R
+sp|Q9HCE3|ZN532_HUMAN	sp|P04585|POL_HV1H2	31.7	6QNX_C	1L6N_A	5FMF_I	5FMF_R
+sp|P0CF51|TRGC1_HUMAN	sp|P04578|ENV_HV1H2	31.6	6D7G_E	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|P19256|LFA3_HUMAN	31.6	6PWU_E	3ALW_A	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|O15231|ZN185_HUMAN	31.6	1L6N_A	2L4Z_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|O75150|BRE1B_HUMAN	31.6	1L6N_A	5TRB_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|O75783|RHBL1_HUMAN	31.6	1L6N_A	4QO2_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|O76064|RNF8_HUMAN	31.6	1L6N_A	4AYC_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|P09884|DPOLA_HUMAN	31.6	1L6N_A	5EXR_C	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|P48059|LIMS1_HUMAN	31.6	1L6N_A	1RUT_X	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q15075|EEA1_HUMAN	31.6	1L6N_A	1JOC_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q49AM1|MTEF2_HUMAN	31.6	1L6N_A	5CKY_O	5FMF_R	3PO2_D
+sp|P04585|POL_HV1H2	sp|Q5VTR2|BRE1A_HUMAN	31.6	1L6N_A	6NMI_H	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q6NYC8|PPR18_HUMAN	31.6	1L6N_A	3TU5_B	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q8IYR2|SMYD4_HUMAN	31.6	1L6N_A	4WUY_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q8NES3|LFNG_HUMAN	31.6	1L6N_A	2J0A_A	5A9E_I	5A9E_I
+sp|P04585|POL_HV1H2	sp|Q8TDF6|GRP4_HUMAN	31.6	1L6N_A	4L9M_A	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q8TDW5|SYTL5_HUMAN	31.6	1L6N_A	1ZBD_B	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9BZY9|TRI31_HUMAN	31.6	1L6N_A	4CFG_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9UDY6|TRI10_HUMAN	31.6	1L6N_A	4CFG_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9UPQ0|LIMC1_HUMAN	31.6	1L6N_A	1UJO_A	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|O75783|RHBL1_HUMAN	31.6	1L6N_A	4QO2_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q6NYC8|PPR18_HUMAN	31.6	1L6N_A	3TU5_B	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q8NES3|LFNG_HUMAN	31.6	1L6N_A	2J0A_A	5A9E_I	5A9E_I
+sp|P04601|NEF_HV1H2	sp|A0A589|TVB43_HUMAN	31.6	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|P51809|VAMP7_HUMAN	31.6	3TB8_A	4B93_A	6OWT_N	6QH5_N
+sp|P04601|NEF_HV1H2	sp|Q86SU0|ILDR1_HUMAN	31.6	3TB8_A	5XSY_B	4ORZ_B	5MZV_D
+sp|P69726|VPR_HV1H2	sp|Q8N766|EMC1_HUMAN	31.6	1ESX_A	6WW7_A	5JK7_F	5JK7_E
+sp|Q9H2U9|ADAM7_HUMAN	sp|P04585|POL_HV1H2	31.6	2E3X_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q9H2U9|ADAM7_HUMAN	sp|P04591|GAG_HV1H2	31.6	2E3X_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|B5ME19|EIFCL_HUMAN	31.5	1L6N_A	6W2S_2	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|H7C350|CC188_HUMAN	31.5	1L6N_A	4U5T_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|O00294|TULP1_HUMAN	31.5	1L6N_A	3C5N_A	6BK8_O	6J6G_S
+sp|P04585|POL_HV1H2	sp|O75071|EFC14_HUMAN	31.5	1L6N_A	5ZGM_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q02318|CP27A_HUMAN	31.5	1L6N_A	6M7X_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q16352|AINX_HUMAN	31.5	1L6N_A	3TNU_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q5JVS0|HABP4_HUMAN	31.5	1L6N_A	4V6X_A	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|Q5T4F4|ZFY27_HUMAN	31.5	1L6N_A	1X4U_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q6P9F5|TRI40_HUMAN	31.5	1L6N_A	6QU1_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q6XPR3|RPTN_HUMAN	31.5	1L6N_A	2M9G_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q8NHW3|MAFA_HUMAN	31.5	1L6N_A	1K1V_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q96FX2|DPH3_HUMAN	31.5	1L6N_A	2JR7_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9NXR8|ING3_HUMAN	31.5	1L6N_A	4AFL_C	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9UNE2|RPH3L_HUMAN	31.5	1L6N_A	1ZBD_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|B5ME19|EIFCL_HUMAN	31.5	1L6N_A	6W2S_2	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O00294|TULP1_HUMAN	31.5	1L6N_A	3C5N_A	6BK8_O	6J6G_S
+sp|P04591|GAG_HV1H2	sp|O95229|ZWINT_HUMAN	31.5	1L6N_A	3TNU_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q02318|CP27A_HUMAN	31.5	1L6N_A	6M7X_B	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q15834|CC85B_HUMAN	31.5	1L6N_A	1GK7_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5JVS0|HABP4_HUMAN	31.5	1L6N_A	4V6X_A	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|Q5T4F4|ZFY27_HUMAN	31.5	1L6N_A	1X4U_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q6I9Y2|THOC7_HUMAN	31.5	1L6N_A	3NA7_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6XPR3|RPTN_HUMAN	31.5	1L6N_A	2M9G_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8NHW3|MAFA_HUMAN	31.5	1L6N_A	1K1V_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	tr|A0A0G2JN53|A0A0G2JN53_HUMAN	31.5	1L6N_A	1NKP_A	5IJN_H	5IJO_L
+sp|P04601|NEF_HV1H2	sp|O00192|ARVC_HUMAN	31.5	3TB8_A	3L6X_A	4NEE_K	2JKT_A
+sp|P04578|ENV_HV1H2	sp|O95971|BY55_HUMAN	31.4	6PWU_E	6NGG_B	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|A6NMK7|CPS4L_HUMAN	31.4	1L6N_A	6DNH_C	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|P08047|SP1_HUMAN	31.4	1L6N_A	3W5K_B	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q02446|SP4_HUMAN	31.4	1L6N_A	3W5K_B	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q2WGJ6|KLH38_HUMAN	31.4	1L6N_A	4YY8_A	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|Q5T5F5|A4AS1_HUMAN	31.4	1L6N_A	1QD6_C	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q7RTX1|TS1R1_HUMAN	31.4	1L6N_A	6N4X_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q86T24|KAISO_HUMAN	31.4	1L6N_A	5VMY_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8WVZ7|RN133_HUMAN	31.4	1L6N_A	3ICU_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q96BS2|CHP3_HUMAN	31.4	1L6N_A	2CT9_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9NVV9|THAP1_HUMAN	31.4	1L6N_A	2JTG_A	6ICZ_Z	6ID1_L
+sp|P04585|POL_HV1H2	sp|Q9UK33|ZN580_HUMAN	31.4	1L6N_A	3ZMS_C	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q9ULX3|NOB1_HUMAN	31.4	1L6N_A	6G5I_y	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9Y2Q9|RT28_HUMAN	31.4	1L6N_A	6RW4_W	5FMF_R	3PO2_G
+sp|P04591|GAG_HV1H2	sp|A6NF36|CC182_HUMAN	31.4	1L6N_A	1L4A_C	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|A6NMK7|CPS4L_HUMAN	31.4	1L6N_A	6DNH_C	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|A6NNP5|CC169_HUMAN	31.4	1L6N_A	6JFV_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q5T5F5|A4AS1_HUMAN	31.4	1L6N_A	1QD6_C	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8WVZ7|RN133_HUMAN	31.4	1L6N_A	3ICU_A	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q96BS2|CHP3_HUMAN	31.4	1L6N_A	2CT9_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q96FZ7|CHMP6_HUMAN	31.4	1L6N_A	3FRV_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9ULX3|NOB1_HUMAN	31.4	1L6N_A	6G5I_y	4ESJ_B	4KYW_A
+sp|P04618|REV_HV1H2	sp|Q9NTN9|SEM4G_HUMAN	31.4	2X7L_R	6QP7_B	6CF2_F	5DHY_A
+sp|P69726|VPR_HV1H2	sp|Q05209|PTN12_HUMAN	31.4	1ESX_A	5HDE_A	5JK7_F	5JK7_F
+sp|Q14773|ICAM4_HUMAN	sp|P04585|POL_HV1H2	31.4	1T0P_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q14773|ICAM4_HUMAN	sp|P04591|GAG_HV1H2	31.4	1T0P_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|A8MWX3|WASH4_HUMAN	31.3	1L6N_A	4JHD_F	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|O60563|CCNT1_HUMAN	31.3	1L6N_A	6GZH_B	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|O75593|FOXH1_HUMAN	31.3	1L6N_A	6EL8_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|O95415|BRI3_HUMAN	31.3	1L6N_A	6KF3_P	6BK8_O	6BK8_O
+sp|P04585|POL_HV1H2	sp|P08670|VIME_HUMAN	31.3	1L6N_A	6UUI_X	6ICZ_Z	6ID1_K
+sp|P04585|POL_HV1H2	sp|Q13563|PKD2_HUMAN	31.3	1L6N_A	5MKE_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q7Z419|R144B_HUMAN	31.3	1L6N_A	5C1Z_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|A8MWX3|WASH4_HUMAN	31.3	1L6N_A	4JHD_F	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|O75593|FOXH1_HUMAN	31.3	1L6N_A	6EL8_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|O95415|BRI3_HUMAN	31.3	1L6N_A	6KF3_P	6BK8_O	6BK8_O
+sp|P04591|GAG_HV1H2	sp|Q13563|PKD2_HUMAN	31.3	1L6N_A	5MKE_B	2MGU_M	5DOW_A
+sp|P69723|VIF_HV1H2	sp|Q96JH7|VCIP1_HUMAN	31.3	4N9F_b	3ZRH_A	4N9F_b	2MA9_B
+sp|Q8N8Z6|DCBD1_HUMAN	sp|P04585|POL_HV1H2	31.3	6BRJ_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q8N8Z6|DCBD1_HUMAN	sp|P04591|GAG_HV1H2	31.3	6BRJ_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q9BYF1|ACE2_HUMAN	sp|P04585|POL_HV1H2	31.3	6M18_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q9BYF1|ACE2_HUMAN	sp|P04591|GAG_HV1H2	31.3	6M18_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|B2RPK0|HGB1A_HUMAN	31.2	1L6N_A	5ZE0_N	6ICZ_Z	6ID1_P
+sp|P04585|POL_HV1H2	sp|O60683|PEX10_HUMAN	31.2	1L6N_A	2C2L_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|P50579|MAP2_HUMAN	31.2	1L6N_A	1KQ9_A	6ICZ_Z	6ID0_W
+sp|P04585|POL_HV1H2	sp|Q8IV56|PRR15_HUMAN	31.2	1L6N_A	2OOL_A	6BK8_O	6J6G_A
+sp|P04585|POL_HV1H2	sp|Q8NBE8|KLH23_HUMAN	31.2	1L6N_A	4YY8_A	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|Q96K21|ANCHR_HUMAN	31.2	1L6N_A	2D8V_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q9H0F5|RNF38_HUMAN	31.2	1L6N_A	4V3L_C	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|A0A1B0GUS4|UB2L5_HUMAN	31.2	1L6N_A	4Q5E_C	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|A1L167|U2QL1_HUMAN	31.2	1L6N_A	2QGX_B	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|G2XKQ0|SUMO5_HUMAN	31.2	1L6N_A	6RPQ_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|O00762|UBE2C_HUMAN	31.2	1L6N_A	1I7K_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|O14562|UBFD1_HUMAN	31.2	1L6N_A	3SHQ_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|O14933|UB2L6_HUMAN	31.2	1L6N_A	1WZV_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|O15205|UBD_HUMAN	31.2	1L6N_A	4BKG_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|O15212|PFD6_HUMAN	31.2	1L6N_A	6NRC_6	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O60260|PRKN_HUMAN	31.2	1L6N_A	4I1F_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|O60683|PEX10_HUMAN	31.2	1L6N_A	2C2L_B	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|O95379|TFIP8_HUMAN	31.2	1L6N_A	5JXD_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P05113|IL5_HUMAN	31.2	1L6N_A	3B5K_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P05161|ISG15_HUMAN	31.2	1L6N_A	6BI8_D	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|P11441|UBL4A_HUMAN	31.2	1L6N_A	4X86_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|P35544|UBIM_HUMAN	31.2	1L6N_A	4KZY_e	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|P49427|UB2R1_HUMAN	31.2	1L6N_A	3RZ3_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|P49459|UBE2A_HUMAN	31.2	1L6N_A	1JAS_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|P50579|MAP2_HUMAN	31.2	1L6N_A	1KQ9_A	6ICZ_Z	6ID0_W
+sp|P04591|GAG_HV1H2	sp|P51668|UB2D1_HUMAN	31.2	1L6N_A	5LBN_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|P51965|UB2E1_HUMAN	31.2	1L6N_A	3BZH_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|P54725|RD23A_HUMAN	31.2	1L6N_A	1OQY_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|P54727|RD23B_HUMAN	31.2	1L6N_A	1OQY_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|P55854|SUMO3_HUMAN	31.2	1L6N_A	3UF8_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|P60604|UB2G2_HUMAN	31.2	1L6N_A	3H8K_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|P61077|UB2D3_HUMAN	31.2	1L6N_A	5LBN_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|P61081|UBC12_HUMAN	31.2	1L6N_A	2NVU_C	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|P61086|UBE2K_HUMAN	31.2	1L6N_A	3K9O_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|P61088|UBE2N_HUMAN	31.2	1L6N_A	5YWR_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|P61244|MAX_HUMAN	31.2	1L6N_A	1A93_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P61956|SUMO2_HUMAN	31.2	1L6N_A	5UJM_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|P62253|UB2G1_HUMAN	31.2	1L6N_A	6D68_B	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|P62256|UBE2H_HUMAN	31.2	1L6N_A	2Z5D_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|P62837|UB2D2_HUMAN	31.2	1L6N_A	5LBN_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|P62979|RS27A_HUMAN	31.2	1L6N_A	5XXU_f	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|P62987|RL40_HUMAN	31.2	1L6N_A	4V88_B	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|P63146|UBE2B_HUMAN	31.2	1L6N_A	1JAS_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|P63165|SUMO1_HUMAN	31.2	1L6N_A	6RPQ_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|P63279|UBC9_HUMAN	31.2	1L6N_A	5F6E_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|P68036|UB2L3_HUMAN	31.2	1L6N_A	4Q5E_C	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q13404|UB2V1_HUMAN	31.2	1L6N_A	2A4D_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q15370|ELOB_HUMAN	31.2	1L6N_A	6I7R_B	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q15459|SF3A1_HUMAN	31.2	1L6N_A	6AHD_u	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q15819|UB2V2_HUMAN	31.2	1L6N_A	1J7D_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q15843|NEDD8_HUMAN	31.2	1L6N_A	5XXU_f	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q16763|UBE2S_HUMAN	31.2	1L6N_A	5L9T_T	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q504T8|MIDN_HUMAN	31.2	1L6N_A	1WM2_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q5JXB2|UE2NL_HUMAN	31.2	1L6N_A	2GMI_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q5TDH0|DDI2_HUMAN	31.2	1L6N_A	5K57_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q5VVX9|UBE2U_HUMAN	31.2	1L6N_A	1YRV_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q6EEV6|SUMO4_HUMAN	31.2	1L6N_A	4GIV_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q712K3|UB2R2_HUMAN	31.2	1L6N_A	6NYO_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q71RG4|TMUB2_HUMAN	31.2	1L6N_A	1WIA_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q86XD8|ZFAN4_HUMAN	31.2	1L6N_A	1WFF_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q8IV56|PRR15_HUMAN	31.2	1L6N_A	2OOL_A	6BK8_O	6J6G_A
+sp|P04591|GAG_HV1H2	sp|Q8IWF7|U2D2L_HUMAN	31.2	1L6N_A	4R62_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q8IX04|UEVLD_HUMAN	31.2	1L6N_A	3DL2_B	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q8IYU4|UBQLN_HUMAN	31.2	1L6N_A	2BPS_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q8N2K1|UB2J2_HUMAN	31.2	1L6N_A	2F4W_B	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q8N7F7|UBL4B_HUMAN	31.2	1L6N_A	4X86_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q8NA54|IQUB_HUMAN	31.2	1L6N_A	2DAF_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q8WTU0|DDI1_HUMAN	31.2	1L6N_A	4RGH_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q8WUN7|UBTD2_HUMAN	31.2	1L6N_A	2KSN_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q8WVN8|UB2Q2_HUMAN	31.2	1L6N_A	2QGX_B	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q969M7|UBE2F_HUMAN	31.2	1L6N_A	3FN1_B	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q969T4|UB2E3_HUMAN	31.2	1L6N_A	2R0J_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q96B02|UBE2W_HUMAN	31.2	1L6N_A	2MT6_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q96LR5|UB2E2_HUMAN	31.2	1L6N_A	6W9A_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q96PU4|UHRF2_HUMAN	31.2	1L6N_A	4TVR_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q96S82|UBL7_HUMAN	31.2	1L6N_A	1X1M_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q9BYM8|HOIL1_HUMAN	31.2	1L6N_A	4ZYN_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q9BZL1|UBL5_HUMAN	31.2	1L6N_A	1WM2_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q9C0C9|UBE2O_HUMAN	31.2	1L6N_A	3CEG_B	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q9H0F5|RNF38_HUMAN	31.2	1L6N_A	4V3L_C	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9H347|UBQL3_HUMAN	31.2	1L6N_A	1OQY_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q9H832|UBE2Z_HUMAN	31.2	1L6N_A	5A4P_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q9H8T0|AKTIP_HUMAN	31.2	1L6N_A	1TTE_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q9HAC8|UBTD1_HUMAN	31.2	1L6N_A	2KSN_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q9NPD8|UBE2T_HUMAN	31.2	1L6N_A	6R75_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q9NQ50|RM40_HUMAN	31.2	1L6N_A	6I9R_8	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9NZJ4|SACS_HUMAN	31.2	1L6N_A	5V44_B	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q9UHD9|UBQL2_HUMAN	31.2	1L6N_A	1J8C_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q9UMX0|UBQL1_HUMAN	31.2	1L6N_A	1OQY_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q9UPU5|UBP24_HUMAN	31.2	1L6N_A	5JTV_E	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q9Y2X8|UB2D4_HUMAN	31.2	1L6N_A	5LBN_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q9Y385|UB2J1_HUMAN	31.2	1L6N_A	2F4W_B	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q9Y3C8|UFC1_HUMAN	31.2	1L6N_A	2Z6O_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	tr|A0A2R8Y422|A0A2R8Y422_HUMAN	31.2	1L6N_A	5XXU_f	5TTE_B	4II2_B
+sp|Q92797|SYMPK_HUMAN	sp|P04601|NEF_HV1H2	31.2	6V4X_J	3TB8_A	4NEE_G	3TB8_A
+sp|P06729|CD2_HUMAN	sp|P04601|NEF_HV1H2	31.2	1HNF_A	3TB8_A	5XOV_H	3TB8_A
+sp|P29460|IL12B_HUMAN	sp|P04585|POL_HV1H2	31.2	5MJ3_A	1L6N_A	5T70_G	3GV2_A
+sp|P29460|IL12B_HUMAN	sp|P04591|GAG_HV1H2	31.2	5MJ3_A	1L6N_A	5T70_G	3GV2_A
+sp|P29460|IL12B_HUMAN	sp|P04601|NEF_HV1H2	31.2	5MJ3_A	3TB8_A	5XOV_H	3TB8_A
+sp|Q6AZY7|SCAR3_HUMAN	sp|P04601|NEF_HV1H2	31.2	3HQV_B	3TB8_A	4U5W_C	4ORZ_B
+sp|P28067|DMA_HUMAN	sp|P04578|ENV_HV1H2	31.1	2BC4_A	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|P60608|EFC2_HUMAN	31.1	6PWU_E	4JF3_B	6UM5_E	6MAR_D
+sp|P04585|POL_HV1H2	sp|O00541|PESC_HUMAN	31.1	1L6N_A	3JCT_n	6BK8_O	6J6G_S
+sp|P04585|POL_HV1H2	sp|P51946|CCNH_HUMAN	31.1	1L6N_A	1KXU_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q13214|SEM3B_HUMAN	31.1	1L6N_A	6QP7_B	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|Q15025|TNIP1_HUMAN	31.1	1L6N_A	5H07_D	6ICZ_Z	6ID1_K
+sp|P04585|POL_HV1H2	sp|Q53FD0|ZC21C_HUMAN	31.1	1L6N_A	6TBM_C	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q569H4|LARGN_HUMAN	31.1	1L6N_A	6KF3_P	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q6GTX8|LAIR1_HUMAN	31.1	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q96JS3|PGBD1_HUMAN	31.1	1L6N_A	1Y7Q_B	6S7X_A	6S7X_B
+sp|P04585|POL_HV1H2	sp|Q96NK8|NDF6_HUMAN	31.1	1L6N_A	4AYA_A	6T61_E	6T61_E
+sp|P04585|POL_HV1H2	sp|Q96NT1|NP1L5_HUMAN	31.1	1L6N_A	2AYU_A	6ICZ_Z	6ID1_L
+sp|P04585|POL_HV1H2	sp|Q9NWS9|ZN446_HUMAN	31.1	1L6N_A	1Y7Q_B	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|O00541|PESC_HUMAN	31.1	1L6N_A	3JCT_n	6BK8_O	6J6G_S
+sp|P04591|GAG_HV1H2	sp|P01563|IFNA2_HUMAN	31.1	1L6N_A	2LAG_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q53FD0|ZC21C_HUMAN	31.1	1L6N_A	6TBM_C	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q569H4|LARGN_HUMAN	31.1	1L6N_A	6KF3_P	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q6GTX8|LAIR1_HUMAN	31.1	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q7Z7G2|CPLX4_HUMAN	31.1	1L6N_A	5W5C_E	5IJN_H	5IJO_G
+sp|Q96C90|PP14B_HUMAN	sp|P04591|GAG_HV1H2	31.1	1J2N_A	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q96NK8|NDF6_HUMAN	31.1	1L6N_A	4AYA_A	6T61_E	6T61_E
+sp|P04591|GAG_HV1H2	sp|Q96NT1|NP1L5_HUMAN	31.1	1L6N_A	2AYU_A	6ICZ_Z	6ID1_L
+sp|P04591|GAG_HV1H2	sp|Q9P0W8|SPAT7_HUMAN	31.1	1L6N_A	2YZT_A	5IJN_H	5IJO_G
+sp|P04601|NEF_HV1H2	sp|A6NFU0|F187A_HUMAN	31.1	3TB8_A	3J8F_7	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q7L1V2|MON1B_HUMAN	31.1	3TB8_A	5LDD_A	6OWT_N	6QH7_S
+sp|P04618|REV_HV1H2	sp|Q13291|SLAF1_HUMAN	31.1	2X7L_R	3ALZ_B	2X7L_R	5I8O_L
+sp|P05919|VPU_HV1H2	sp|Q8TAQ2|SMRC2_HUMAN	31.1	2N28_A	6LTJ_O	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q9NX05|F120C_HUMAN	31.1	2N28_A	5ZOD_A	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q9NXF1|TEX10_HUMAN	31.1	2N28_A	3WOZ_D	4P6Z_V	4P6Z_G
+sp|Q7RTS7|K2C74_HUMAN	sp|P04585|POL_HV1H2	31.1	3TNU_A	1L6N_A	6ICZ_J	6ICZ_Z
+sp|Q96C90|PP14B_HUMAN	sp|P04585|POL_HV1H2	31.1	1J2N_A	1L6N_A	6ICZ_Y	6ICZ_Z
+sp|P04578|ENV_HV1H2	sp|P54727|RD23B_HUMAN	31.0	6PWU_E	1OQY_A	6NQD_F	6NQD_F
+sp|P04585|POL_HV1H2	sp|A0A2Z4LIS9|FXO3B_HUMAN	31.0	1L6N_A	3L2C_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|O76014|KRT37_HUMAN	31.0	1L6N_A	3TNU_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|P31941|ABC3A_HUMAN	31.0	1L6N_A	5CQI_A	5FMF_R	3PO2_E
+sp|P04585|POL_HV1H2	sp|P46976|GLYG_HUMAN	31.0	1L6N_A	1LL2_A	6HWW_C	6HWW_C
+sp|P04585|POL_HV1H2	sp|P55327|TPD52_HUMAN	31.0	1L6N_A	6NR8_2	6BK8_O	6J6G_S
+sp|P04585|POL_HV1H2	sp|Q99856|ARI3A_HUMAN	31.0	1L6N_A	4LJX_B	6BK8_O	6J6G_S
+sp|P04585|POL_HV1H2	sp|Q9UBL3|ASH2L_HUMAN	31.0	1L6N_A	6PWV_D	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|A0A2Z4LIS9|FXO3B_HUMAN	31.0	1L6N_A	3L2C_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|O00151|PDLI1_HUMAN	31.0	1L6N_A	2PKT_A	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|O00267|SPT5H_HUMAN	31.0	1L6N_A	6GMH_Z	5FMF_R	1TWF_A
+sp|P04591|GAG_HV1H2	sp|O00482|NR5A2_HUMAN	31.0	1L6N_A	3TX7_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|O14802|RPC1_HUMAN	31.0	1L6N_A	3H0G_A	5FMF_R	1TWF_A
+sp|P04591|GAG_HV1H2	sp|O15160|RPAC1_HUMAN	31.0	1L6N_A	6RUI_C	5FMF_R	5IP7_C
+sp|P04591|GAG_HV1H2	sp|O15209|ZBT22_HUMAN	31.0	1L6N_A	3ZMS_C	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|O15514|RPB4_HUMAN	31.0	1L6N_A	6GML_D	5FMF_R	3PO2_D
+sp|P04591|GAG_HV1H2	sp|O43298|ZBT43_HUMAN	31.0	1L6N_A	2CSH_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|O60333|KIF1B_HUMAN	31.0	1L6N_A	6A20_A	5FMF_R	5FMF_1
+sp|P04591|GAG_HV1H2	sp|O60563|CCNT1_HUMAN	31.0	1L6N_A	6GZH_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|O60583|CCNT2_HUMAN	31.0	1L6N_A	6GZH_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|O60741|HCN1_HUMAN	31.0	1L6N_A	6UQF_C	5FMF_R	1TWF_A
+sp|P04591|GAG_HV1H2	sp|O75541|ZN821_HUMAN	31.0	1L6N_A	5UND_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|O75575|RPC9_HUMAN	31.0	1L6N_A	3AYH_A	5FMF_R	3PO2_D
+sp|P04591|GAG_HV1H2	sp|O95067|CCNB2_HUMAN	31.0	1L6N_A	6Q6G_S	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|O95081|AGFG2_HUMAN	31.0	1L6N_A	2OLM_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|O95239|KIF4A_HUMAN	31.0	1L6N_A	5M5L_C	5FMF_R	5FMF_1
+sp|P04591|GAG_HV1H2	sp|O95602|RPA1_HUMAN	31.0	1L6N_A	6RUI_A	5FMF_R	1TWF_A
+sp|P04591|GAG_HV1H2	sp|O96020|CCNE2_HUMAN	31.0	1L6N_A	1W98_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P06400|RB_HUMAN	31.0	1L6N_A	4ELJ_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P08047|SP1_HUMAN	31.0	1L6N_A	3W5K_B	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|P0C6A0|ZGLP1_HUMAN	31.0	1L6N_A	2L6Z_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P0C7X2|ZN688_HUMAN	31.0	1L6N_A	5UND_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|P0DPB6|RPAC2_HUMAN	31.0	1L6N_A	6RUI_K	5FMF_R	5FMF_K
+sp|P04591|GAG_HV1H2	sp|P13984|T2FB_HUMAN	31.0	1L6N_A	6O9L_T	5FMF_R	5FMF_V
+sp|P04591|GAG_HV1H2	sp|P14635|CCNB1_HUMAN	31.0	1L6N_A	6GU2_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P15927|RFA2_HUMAN	31.0	1L6N_A	2PI2_A	5FMF_R	5FMF_S
+sp|P04591|GAG_HV1H2	sp|P19387|RPB3_HUMAN	31.0	1L6N_A	5IYC_C	5FMF_R	5IP7_C
+sp|P04591|GAG_HV1H2	sp|P19388|RPAB1_HUMAN	31.0	1L6N_A	1DZF_A	5FMF_R	3PO2_E
+sp|P04591|GAG_HV1H2	sp|P20226|TBP_HUMAN	31.0	1L6N_A	5IYB_P	5FMF_R	6GYM_O
+sp|P04591|GAG_HV1H2	sp|P22674|CCNO_HUMAN	31.0	1L6N_A	6Q6G_S	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P24385|CCND1_HUMAN	31.0	1L6N_A	2W96_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P24864|CCNE1_HUMAN	31.0	1L6N_A	1W98_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P24928|RPB1_HUMAN	31.0	1L6N_A	6O9L_A	5FMF_R	1TWF_A
+sp|P04591|GAG_HV1H2	sp|P27694|RFA1_HUMAN	31.0	1L6N_A	4GNX_C	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P28749|RBL1_HUMAN	31.0	1L6N_A	4ELJ_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P29084|T2EB_HUMAN	31.0	1L6N_A	5IYB_R	5FMF_R	5FMF_S
+sp|P04591|GAG_HV1H2	sp|P30279|CCND2_HUMAN	31.0	1L6N_A	3G33_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P30281|CCND3_HUMAN	31.0	1L6N_A	3G33_D	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P30876|RPB2_HUMAN	31.0	1L6N_A	5IY7_B	5FMF_R	5VVS_B
+sp|P04591|GAG_HV1H2	sp|P31941|ABC3A_HUMAN	31.0	1L6N_A	5CQI_A	5FMF_R	3PO2_E
+sp|P04591|GAG_HV1H2	sp|P35269|T2FA_HUMAN	31.0	1L6N_A	6O9L_S	5FMF_R	5FMF_U
+sp|P04591|GAG_HV1H2	sp|P36954|RPB9_HUMAN	31.0	1L6N_A	5IY8_I	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|P41002|CCNF_HUMAN	31.0	1L6N_A	6GU2_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P42677|RS27_HUMAN	31.0	1L6N_A	6AZ1_c	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P46976|GLYG_HUMAN	31.0	1L6N_A	1LL2_A	6HWW_C	6HWW_C
+sp|P04591|GAG_HV1H2	sp|P48059|LIMS1_HUMAN	31.0	1L6N_A	1RUT_X	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P51946|CCNH_HUMAN	31.0	1L6N_A	1KXU_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P51959|CCNG1_HUMAN	31.0	1L6N_A	2F2C_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P52434|RPAB3_HUMAN	31.0	1L6N_A	6GMH_H	5FMF_R	3PO2_H
+sp|P04591|GAG_HV1H2	sp|P52435|RPB11_HUMAN	31.0	1L6N_A	1TWF_K	5FMF_R	5FMF_K
+sp|P04591|GAG_HV1H2	sp|P52655|TF2AA_HUMAN	31.0	1L6N_A	5IY8_N	5FMF_R	5FMF_M
+sp|P04591|GAG_HV1H2	sp|P52657|T2AG_HUMAN	31.0	1L6N_A	5IY7_O	5FMF_R	1NH2_D
+sp|P04591|GAG_HV1H2	sp|P53803|RPAB4_HUMAN	31.0	1L6N_A	3H0G_L	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|P53992|SC24C_HUMAN	31.0	1L6N_A	5KYY_B	5FMF_R	1TWF_A
+sp|P04591|GAG_HV1H2	sp|P61218|RPAB2_HUMAN	31.0	1L6N_A	6GMH_F	5FMF_R	5IP7_F
+sp|P04591|GAG_HV1H2	sp|P62380|TBPL1_HUMAN	31.0	1L6N_A	6E16_A	5FMF_R	6GYM_O
+sp|P04591|GAG_HV1H2	sp|P62487|RPB7_HUMAN	31.0	1L6N_A	2C35_B	5FMF_R	3PO2_G
+sp|P04591|GAG_HV1H2	sp|P62875|RPAB5_HUMAN	31.0	1L6N_A	1TWF_J	5FMF_R	5FMF_J
+sp|P04591|GAG_HV1H2	sp|P78317|RNF4_HUMAN	31.0	1L6N_A	2C2L_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P78396|CCNA1_HUMAN	31.0	1L6N_A	6Q6G_S	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P98170|XIAP_HUMAN	31.0	1L6N_A	5YUD_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q01113|IL9R_HUMAN	31.0	1L6N_A	4NKQ_B	5FMF_R	1TWF_A
+sp|P04591|GAG_HV1H2	sp|Q02446|SP4_HUMAN	31.0	1L6N_A	3W5K_B	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q02447|SP3_HUMAN	31.0	1L6N_A	6A59_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q08999|RBL2_HUMAN	31.0	1L6N_A	4ELJ_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q14094|CCNI_HUMAN	31.0	1L6N_A	1G3N_C	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q14159|SPIDR_HUMAN	31.0	1L6N_A	3U50_C	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q15428|SF3A2_HUMAN	31.0	1L6N_A	6AHD_v	5FMF_R	1TWF_A
+sp|P04591|GAG_HV1H2	sp|Q15560|TCEA2_HUMAN	31.0	1L6N_A	5IY7_U	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q15652|JHD2C_HUMAN	31.0	1L6N_A	2YPD_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q15654|TRIP6_HUMAN	31.0	1L6N_A	2JTN_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q15697|ZN174_HUMAN	31.0	1L6N_A	1Y7Q_B	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q16589|CCNG2_HUMAN	31.0	1L6N_A	1F5Q_D	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q2VIQ3|KIF4B_HUMAN	31.0	1L6N_A	5M5L_C	5FMF_R	5FMF_1
+sp|P04591|GAG_HV1H2	sp|Q49AM1|MTEF2_HUMAN	31.0	1L6N_A	5CKY_O	5FMF_R	3PO2_D
+sp|P04591|GAG_HV1H2	sp|Q5HYJ3|FA76B_HUMAN	31.0	1L6N_A	5IP7_L	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q5T2Q4|CCYL2_HUMAN	31.0	1L6N_A	4KRD_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q5T4S7|UBR4_HUMAN	31.0	1L6N_A	5VMD_C	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q5T5M9|CCNJ_HUMAN	31.0	1L6N_A	3G33_D	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q5T7B8|KIF24_HUMAN	31.0	1L6N_A	5XJA_A	5FMF_R	5FMF_1
+sp|P04591|GAG_HV1H2	sp|Q5T7W0|ZN618_HUMAN	31.0	1L6N_A	2BW3_A	5FMF_R	5FMF_2
+sp|P04591|GAG_HV1H2	sp|Q5T8I3|F102B_HUMAN	31.0	1L6N_A	5IJN_H	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q6AHZ1|Z518A_HUMAN	31.0	1L6N_A	5V3J_E	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q6ICG8|WBP2L_HUMAN	31.0	1L6N_A	2HTH_B	5FMF_R	1TWF_A
+sp|Q6N043|Z280D_HUMAN	sp|P04591|GAG_HV1H2	31.0	5V3J_E	1L6N_A	5FMF_I	5FMF_R
+sp|P04591|GAG_HV1H2	sp|Q6NUN9|ZN746_HUMAN	31.0	1L6N_A	3W5K_B	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q6ZMN8|CCNI2_HUMAN	31.0	1L6N_A	1BU2_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q6ZMV9|KIF6_HUMAN	31.0	1L6N_A	5MM7_K	5FMF_R	5FMF_1
+sp|P04591|GAG_HV1H2	sp|Q6ZMY3|SPOC1_HUMAN	31.0	1L6N_A	4BXZ_X	5FMF_R	5FMF_2
+sp|P04591|GAG_HV1H2	sp|Q6ZN54|DEFI8_HUMAN	31.0	1L6N_A	6WCW_A	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q6ZT77|ZN826_HUMAN	31.0	1L6N_A	4X9J_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q6ZWE6|PKHM3_HUMAN	31.0	1L6N_A	6WCW_A	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q6ZYL4|TF2H5_HUMAN	31.0	1L6N_A	2JNJ_A	5FMF_R	5FMF_X
+sp|P04591|GAG_HV1H2	sp|Q71UM5|RS27L_HUMAN	31.0	1L6N_A	6AZ1_c	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q7LBC6|KDM3B_HUMAN	31.0	1L6N_A	5RAG_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q7RTX1|TS1R1_HUMAN	31.0	1L6N_A	6N4X_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q7Z419|R144B_HUMAN	31.0	1L6N_A	5C1Z_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q7Z4I7|LIMS2_HUMAN	31.0	1L6N_A	1RUT_X	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q86T24|KAISO_HUMAN	31.0	1L6N_A	5VMY_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q86UA6|RIP_HUMAN	31.0	1L6N_A	2KPI_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q86UZ6|ZBT46_HUMAN	31.0	1L6N_A	3W5K_B	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q86YA3|ZGRF1_HUMAN	31.0	1L6N_A	2XZL_A	5FMF_R	5FMF_1
+sp|P04591|GAG_HV1H2	sp|Q86YP4|P66A_HUMAN	31.0	1L6N_A	2L2L_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q8IV13|CCNJL_HUMAN	31.0	1L6N_A	3G33_D	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q8N0Y2|ZN444_HUMAN	31.0	1L6N_A	3ZMS_C	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q8N1B3|CCNQ_HUMAN	31.0	1L6N_A	4BCG_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q8N1G0|ZN687_HUMAN	31.0	1L6N_A	5V3J_E	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q8N4N8|KIF2B_HUMAN	31.0	1L6N_A	5XJA_A	5FMF_R	5FMF_1
+sp|P04591|GAG_HV1H2	sp|Q8N554|ZN276_HUMAN	31.0	1L6N_A	3ZMS_C	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q8N7R7|CCYL1_HUMAN	31.0	1L6N_A	4KRD_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q8N815|CNTD1_HUMAN	31.0	1L6N_A	4EOJ_D	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q8N8B7|TEANC_HUMAN	31.0	1L6N_A	1PQV_S	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q8NBB4|ZSCA1_HUMAN	31.0	1L6N_A	1Y7Q_B	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q8ND76|CCNY_HUMAN	31.0	1L6N_A	4KRD_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q8TAX0|OSR1_HUMAN	31.0	1L6N_A	3W5K_B	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q8TBC5|ZSC18_HUMAN	31.0	1L6N_A	1Y7Q_B	5FMF_R	5FMF_2
+sp|P04591|GAG_HV1H2	sp|Q8TCN5|ZN507_HUMAN	31.0	1L6N_A	5V3J_E	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q8TDF6|GRP4_HUMAN	31.0	1L6N_A	4L9M_A	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q8TDW5|SYTL5_HUMAN	31.0	1L6N_A	1ZBD_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q8WWL7|CCNB3_HUMAN	31.0	1L6N_A	6Q6G_S	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q92576|PHF3_HUMAN	31.0	1L6N_A	4BXZ_X	5FMF_R	5FMF_2
+sp|P04591|GAG_HV1H2	sp|Q92618|ZN516_HUMAN	31.0	1L6N_A	5UND_B	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q92759|TF2H4_HUMAN	31.0	1L6N_A	5OQJ_2	5FMF_R	5FMF_W
+sp|P04591|GAG_HV1H2	sp|Q92908|GATA6_HUMAN	31.0	1L6N_A	4HC7_A	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q92994|TF3B_HUMAN	31.0	1L6N_A	6F40_V	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q96C55|ZN524_HUMAN	31.0	1L6N_A	2N26_A	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q96CK0|ZN653_HUMAN	31.0	1L6N_A	5T0U_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q96DT7|ZBT10_HUMAN	31.0	1L6N_A	3W5K_B	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q96FN5|KIF12_HUMAN	31.0	1L6N_A	5MM7_K	5FMF_R	5FMF_1
+sp|P04591|GAG_HV1H2	sp|Q96FX2|DPH3_HUMAN	31.0	1L6N_A	2JR7_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q96JG9|ZN469_HUMAN	31.0	1L6N_A	5UND_A	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q96JM3|CHAP1_HUMAN	31.0	1L6N_A	1WJP_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q96K21|ANCHR_HUMAN	31.0	1L6N_A	2D8V_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q96M96|FGD4_HUMAN	31.0	1L6N_A	3MPX_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q96MF2|STAC3_HUMAN	31.0	1L6N_A	6UY8_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q96MN5|TEAN2_HUMAN	31.0	1L6N_A	1PQV_S	5FMF_R	5FMF_2
+sp|P04591|GAG_HV1H2	sp|Q96T92|INSM2_HUMAN	31.0	1L6N_A	3ZMS_C	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q99592|ZBT18_HUMAN	31.0	1L6N_A	2N26_A	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q99661|KIF2C_HUMAN	31.0	1L6N_A	5XJA_A	5FMF_R	5FMF_1
+sp|P04591|GAG_HV1H2	sp|Q99856|ARI3A_HUMAN	31.0	1L6N_A	4LJX_B	6BK8_O	6J6G_S
+sp|P04591|GAG_HV1H2	sp|Q9BU19|ZN692_HUMAN	31.0	1L6N_A	5T0U_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q9BWW7|SCRT1_HUMAN	31.0	1L6N_A	3ZMS_C	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q9C0D4|Z518B_HUMAN	31.0	1L6N_A	3ZMS_C	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q9GZM3|RPB1B_HUMAN	31.0	1L6N_A	1TWF_K	5FMF_R	5FMF_K
+sp|P04591|GAG_HV1H2	sp|Q9H1A7|RPB1C_HUMAN	31.0	1L6N_A	1TWF_K	5FMF_R	5FMF_K
+sp|P04591|GAG_HV1H2	sp|Q9H2S9|IKZF4_HUMAN	31.0	1L6N_A	5UND_B	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q9H4Q3|PRD13_HUMAN	31.0	1L6N_A	3ZMS_C	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q9H582|ZN644_HUMAN	31.0	1L6N_A	5V3J_E	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q9H609|ZN576_HUMAN	31.0	1L6N_A	5YEF_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q9H8S5|CCNP_HUMAN	31.0	1L6N_A	6Q6G_S	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q9H9Y6|RPA2_HUMAN	31.0	1L6N_A	6RUI_B	5FMF_R	5VVS_B
+sp|Q9HCE3|ZN532_HUMAN	sp|P04591|GAG_HV1H2	31.0	6QNX_C	1L6N_A	5FMF_I	5FMF_R
+sp|P04591|GAG_HV1H2	sp|Q9NQ03|SCRT2_HUMAN	31.0	1L6N_A	3ZMS_C	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q9NS87|KIF15_HUMAN	31.0	1L6N_A	4BN2_C	5FMF_R	5FMF_1
+sp|P04591|GAG_HV1H2	sp|Q9NUL5|SHFL_HUMAN	31.0	1L6N_A	6KF3_P	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q9NW08|RPC2_HUMAN	31.0	1L6N_A	4C2M_B	5FMF_R	5VVS_B
+sp|P04591|GAG_HV1H2	sp|Q9NWS9|ZN446_HUMAN	31.0	1L6N_A	1Y7Q_B	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q9NZV6|MSRB1_HUMAN	31.0	1L6N_A	2KV1_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q9P1U0|RPA12_HUMAN	31.0	1L6N_A	3QT1_I	5FMF_R	5FMF_2
+sp|P04591|GAG_HV1H2	sp|Q9UHF7|TRPS1_HUMAN	31.0	1L6N_A	5V3J_E	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q9UK33|ZN580_HUMAN	31.0	1L6N_A	3ZMS_C	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q9UKF5|ADA29_HUMAN	31.0	1L6N_A	5Y31_A	5FMF_R	1TWF_A
+sp|P04591|GAG_HV1H2	sp|Q9UKS7|IKZF2_HUMAN	31.0	1L6N_A	5UND_B	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q9UKT9|IKZF3_HUMAN	31.0	1L6N_A	5UND_B	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q9UNE2|RPH3L_HUMAN	31.0	1L6N_A	1ZBD_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q9UNN4|TF2AY_HUMAN	31.0	1L6N_A	5IY8_N	5FMF_R	5FMF_M
+sp|P04591|GAG_HV1H2	sp|Q9Y2Q9|RT28_HUMAN	31.0	1L6N_A	6RW4_W	5FMF_R	3PO2_G
+sp|P04591|GAG_HV1H2	sp|Q9Y315|DEOC_HUMAN	31.0	1L6N_A	3QYQ_A	5FMF_R	5FMF_S
+sp|P04591|GAG_HV1H2	sp|Q9Y330|ZBT12_HUMAN	31.0	1L6N_A	3W5K_B	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q9Y535|RPC8_HUMAN	31.0	1L6N_A	6EU0_G	5FMF_R	3PO2_G
+sp|P04601|NEF_HV1H2	sp|Q9Y446|PKP3_HUMAN	31.0	3TB8_A	3L6X_A	6CRI_Z	6CRI_I
+sp|P04618|REV_HV1H2	tr|A0A0A0MS04|A0A0A0MS04_HUMAN	31.0	2X7L_R	5E9D_E	2X7L_R	5I8O_H
+sp|P69726|VPR_HV1H2	sp|O75334|LIPA2_HUMAN	31.0	1ESX_A	6KIP_B	4Z8L_B	4Z8L_F
+sp|Q5VV43|K0319_HUMAN	sp|P04578|ENV_HV1H2	31.0	6NZ0_Z	6PWU_E	6MET_A	3J70_P
+sp|P04578|ENV_HV1H2	sp|P15259|PGAM2_HUMAN	30.9	6PWU_E	6H26_A	6P6F_A	2OBX_A
+sp|P04578|ENV_HV1H2	sp|Q9C0J9|BHE41_HUMAN	30.9	6PWU_E	6G6J_B	6NQD_F	6NQD_F
+sp|P04585|POL_HV1H2	sp|A8MQT2|GOG8B_HUMAN	30.9	1L6N_A	6IW8_A	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|O95257|GA45G_HUMAN	30.9	1L6N_A	2WAL_B	5MD4_I	3GV2_A
+sp|P04585|POL_HV1H2	sp|P0DMS9|TMIG3_HUMAN	30.9	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q13137|CACO2_HUMAN	30.9	1L6N_A	5Z7G_A	5FMF_R	5FMF_2
+sp|P04585|POL_HV1H2	sp|Q8TC41|RN217_HUMAN	30.9	1L6N_A	5C1Z_B	5FMF_R	5FMF_2
+sp|P04585|POL_HV1H2	sp|Q96EK2|PF21B_HUMAN	30.9	1L6N_A	5XHT_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9H8H0|NOL11_HUMAN	30.9	1L6N_A	6RXV_U	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9NWF9|RN216_HUMAN	30.9	1L6N_A	5C1Z_B	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q9ULW0|TPX2_HUMAN	30.9	1L6N_A	6BJC_P	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q9Y2Y8|PRG3_HUMAN	30.9	1L6N_A	1H8U_B	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|O95257|GA45G_HUMAN	30.9	1L6N_A	2WAL_B	5MD4_I	3GV2_A
+sp|P04591|GAG_HV1H2	sp|P0DMS9|TMIG3_HUMAN	30.9	1L6N_A	5OR7_C	2XT1_A	6FPV_A
+sp|Q02086|SP2_HUMAN	sp|P04591|GAG_HV1H2	30.9	2EBT_A	1L6N_A	5FMF_I	5FMF_R
+sp|P04591|GAG_HV1H2	sp|Q10589|BST2_HUMAN	30.9	1L6N_A	3MQ7_D	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8TC41|RN217_HUMAN	30.9	1L6N_A	5C1Z_B	5FMF_R	5FMF_2
+sp|P04591|GAG_HV1H2	sp|Q96JS3|PGBD1_HUMAN	30.9	1L6N_A	1Y7Q_B	6R23_B	6R23_B
+sp|P04591|GAG_HV1H2	sp|Q99471|PFD5_HUMAN	30.9	1L6N_A	6NR9_5	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9H8H0|NOL11_HUMAN	30.9	1L6N_A	6RXV_U	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9NWF9|RN216_HUMAN	30.9	1L6N_A	5C1Z_B	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|Q9ULW0|TPX2_HUMAN	30.9	1L6N_A	6BJC_P	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q9Y2Y8|PRG3_HUMAN	30.9	1L6N_A	1H8U_B	6ICZ_Z	6ID1_O
+sp|P04601|NEF_HV1H2	tr|A0A0A0MS06|A0A0A0MS06_HUMAN	30.9	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q9NYP3|DONS_HUMAN	30.9	3MI9_C	6S3L_K	3MI9_C	2PK2_B
+sp|P05919|VPU_HV1H2	sp|Q96DC7|TMCO6_HUMAN	30.9	2N28_A	1WA5_B	4P6Z_V	4P6Z_G
+sp|P41594|GRM5_HUMAN	sp|P04578|ENV_HV1H2	30.9	6N52_B	6PWU_E	6MEO_B	3J70_P
+sp|Q02086|SP2_HUMAN	sp|P04585|POL_HV1H2	30.9	2EBT_A	1L6N_A	5FMF_I	5FMF_R
+sp|P03986|TRGC2_HUMAN	sp|P04578|ENV_HV1H2	30.8	6D7G_E	6PWU_E	5VIY_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|Q9BWD1|THIC_HUMAN	30.8	6PWU_E	1WL5_A	5ESV_G	5ESV_F
+sp|P04585|POL_HV1H2	sp|O95397|PKHA9_HUMAN	30.8	1L6N_A	5KDI_B	5MD4_I	3GV2_A
+sp|P04585|POL_HV1H2	sp|P83369|LSM11_HUMAN	30.8	1L6N_A	6V4X_D	6BK8_O	6N7R_M
+sp|P04585|POL_HV1H2	sp|Q96D71|REPS1_HUMAN	30.8	1L6N_A	2QPT_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9BV36|MELPH_HUMAN	30.8	1L6N_A	2ZET_C	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q9NP08|HMX1_HUMAN	30.8	1L6N_A	1AU7_A	6BK8_O	6J6G_S
+sp|P04591|GAG_HV1H2	sp|A0A0G2JMD5|PRA33_HUMAN	30.8	1L6N_A	5Y3S_C	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|O75081|MTG16_HUMAN	30.8	1L6N_A	2H7B_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|P12883|MYH7_HUMAN	30.8	1L6N_A	5TBY_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|P13533|MYH6_HUMAN	30.8	1L6N_A	5TBY_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|P13535|MYH8_HUMAN	30.8	1L6N_A	5TBY_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|P15311|EZRI_HUMAN	30.8	1L6N_A	4RM8_B	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|P22459|KCNA4_HUMAN	30.8	1L6N_A	2R9R_H	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|P35241|RADI_HUMAN	30.8	1L6N_A	4RM8_B	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|P60509|ERB1_HUMAN	30.8	1L6N_A	4G2K_B	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|P83369|LSM11_HUMAN	30.8	1L6N_A	6V4X_D	6BK8_O	6N7R_M
+sp|P04591|GAG_HV1H2	sp|Q06455|MTG8_HUMAN	30.8	1L6N_A	2H7B_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q7Z406|MYH14_HUMAN	30.8	1L6N_A	6SO3_B	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q8IXS6|PALM2_HUMAN	30.8	1L6N_A	6GAP_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q8N163|CCAR2_HUMAN	30.8	1L6N_A	1X65_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q8N4X5|AF1L2_HUMAN	30.8	1L6N_A	1U5E_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q8NG06|TRI58_HUMAN	30.8	1L6N_A	4CFG_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q8NGY6|OR6N2_HUMAN	30.8	1L6N_A	4ZUD_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q8TED9|AF1L1_HUMAN	30.8	1L6N_A	1U5E_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q92614|MY18A_HUMAN	30.8	1L6N_A	6SO3_B	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q96D71|REPS1_HUMAN	30.8	1L6N_A	2QPT_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9BV36|MELPH_HUMAN	30.8	1L6N_A	2ZET_C	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q9HD26|GOPC_HUMAN	30.8	1L6N_A	1Z87_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q9NP08|HMX1_HUMAN	30.8	1L6N_A	1AU7_A	6BK8_O	6J6G_S
+sp|P04591|GAG_HV1H2	sp|Q9P1W3|CSC1_HUMAN	30.8	1L6N_A	5Z1F_B	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q9UBP9|GULP1_HUMAN	30.8	1L6N_A	6ITU_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q9UM54|MYO6_HUMAN	30.8	1L6N_A	4ANJ_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q9Y2M0|FAN1_HUMAN	30.8	1L6N_A	4REC_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	tr|C9JA33|C9JA33_HUMAN	30.8	1L6N_A	6GAP_A	6GAP_C	6GAP_A
+sp|P04601|NEF_HV1H2	tr|A0A0A0MS04|A0A0A0MS04_HUMAN	30.8	3TB8_A	5E9D_E	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|P10124|SRGN_HUMAN	30.8	3MI9_C	6NIF_A	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q96F45|ZN503_HUMAN	30.8	3MI9_C	6MZM_G	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q9H461|FZD8_HUMAN	30.8	3MI9_C	5V57_A	3MI9_C	2PK2_B
+sp|P05919|VPU_HV1H2	sp|O94829|IPO13_HUMAN	30.8	2N28_A	2XWU_B	4P6Z_V	4P6Z_B
+sp|P69723|VIF_HV1H2	sp|Q9BSE4|HERP2_HUMAN	30.8	4N9F_b	1WGH_A	4N9F_b	2MA9_B
+sp|P69726|VPR_HV1H2	sp|O95876|FRITZ_HUMAN	30.8	1ESX_A	4GGC_A	5JK7_F	5JK7_E
+sp|P04578|ENV_HV1H2	sp|Q03933|HSF2_HUMAN	30.7	6PWU_E	5D8L_H	2X7R_N	1FAV_A
+sp|Q9H2S1|KCNN2_HUMAN	sp|P04578|ENV_HV1H2	30.7	6CNM_A	6PWU_E	6NM6_D	6MTJ_B
+sp|P04585|POL_HV1H2	sp|O43399|TPD54_HUMAN	30.7	1L6N_A	1DIP_A	6BK8_O	6J6G_S
+sp|P04585|POL_HV1H2	sp|P52757|CHIO_HUMAN	30.7	1L6N_A	1XA6_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P80217|IN35_HUMAN	30.7	1L6N_A	5TF6_A	6D6V_A	6D6V_H
+sp|P04585|POL_HV1H2	sp|Q53T94|TAF1B_HUMAN	30.7	1L6N_A	5O7X_B	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q56NI9|ESCO2_HUMAN	30.7	1L6N_A	6SP0_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q6IQ23|PKHA7_HUMAN	30.7	1L6N_A	2Y7B_A	6R24_C	6R24_C
+sp|P04585|POL_HV1H2	sp|Q8TAV0|FA76A_HUMAN	30.7	1L6N_A	5FIY_G	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9NUK0|MBNL3_HUMAN	30.7	1L6N_A	6FBS_C	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9P0J7|KCMF1_HUMAN	30.7	1L6N_A	2E5R_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9UIF3|TEKT2_HUMAN	30.7	1L6N_A	6UUI_C	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|A1YPR0|ZBT7C_HUMAN	30.7	1L6N_A	2N26_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|A6NCQ9|RN222_HUMAN	30.7	1L6N_A	6H3A_F	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|A6NDI0|TR49B_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|A6NIN4|RN227_HUMAN	30.7	1L6N_A	2C2L_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|A6NL88|SHSA7_HUMAN	30.7	1L6N_A	5M0W_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|A6NLU0|RFPLA_HUMAN	30.7	1L6N_A	2FBE_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|A7E2V4|ZSWM8_HUMAN	30.7	1L6N_A	3TIX_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|A8MQ27|NEU1B_HUMAN	30.7	1L6N_A	4KG0_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|A8MT70|ZBBX_HUMAN	30.7	1L6N_A	2FFW_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|B1AL88|F155A_HUMAN	30.7	1L6N_A	6UXW_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|C9J1S8|TR49D_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|E7ERA6|RN223_HUMAN	30.7	1L6N_A	4KBL_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|F8VTS6|RFAL1_HUMAN	30.7	1L6N_A	2FBE_C	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|I1YAP6|TRI77_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|M0QZC1|RN225_HUMAN	30.7	1L6N_A	6QU1_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O00213|APBB1_HUMAN	30.7	1L6N_A	3D8D_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O00237|RN103_HUMAN	30.7	1L6N_A	5AIE_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O15164|TIF1A_HUMAN	30.7	1L6N_A	4YAT_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O15344|TRI18_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O15355|PPM1G_HUMAN	30.7	1L6N_A	4RA2_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O43189|PHF1_HUMAN	30.7	1L6N_A	5XFN_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O43294|TGFI1_HUMAN	30.7	1L6N_A	1RUT_X	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O43399|TPD54_HUMAN	30.7	1L6N_A	1DIP_A	6BK8_O	6J6G_S
+sp|P04591|GAG_HV1H2	sp|O43567|RNF13_HUMAN	30.7	1L6N_A	6VK0_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O60291|MGRN1_HUMAN	30.7	1L6N_A	2Y1N_C	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O60337|MARH6_HUMAN	30.7	1L6N_A	2M6M_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O75182|SIN3B_HUMAN	30.7	1L6N_A	2N2H_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O75382|TRIM3_HUMAN	30.7	1L6N_A	6QU1_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O75592|MYCB2_HUMAN	30.7	1L6N_A	5O6C_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O75678|RFPL2_HUMAN	30.7	1L6N_A	5HM7_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O75679|RFPL3_HUMAN	30.7	1L6N_A	5HM7_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O76050|NEUL1_HUMAN	30.7	1L6N_A	2YUE_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O94880|PHF14_HUMAN	30.7	1L6N_A	5DAG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O94941|RNF37_HUMAN	30.7	1L6N_A	6QU1_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O95622|ADCY5_HUMAN	30.7	1L6N_A	6R4P_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|O95936|EOMES_HUMAN	30.7	1L6N_A	5T1J_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P0CI25|TRI49_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P0CI26|TR49C_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P0DH78|RN224_HUMAN	30.7	1L6N_A	6H3A_F	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P10275|ANDR_HUMAN	30.7	1L6N_A	3DZY_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P14651|HXB3_HUMAN	30.7	1L6N_A	2CUF_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P18146|EGR1_HUMAN	30.7	1L6N_A	4X9J_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P21817|RYR1_HUMAN	30.7	1L6N_A	6JIY_J	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P22681|CBL_HUMAN	30.7	1L6N_A	5HKX_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P28356|HXD9_HUMAN	30.7	1L6N_A	6YOV_K	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P35226|BMI1_HUMAN	30.7	1L6N_A	2NA1_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P35227|PCGF2_HUMAN	30.7	1L6N_A	2NA1_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P36406|TRI23_HUMAN	30.7	1L6N_A	4M9Q_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P38398|BRCA1_HUMAN	30.7	1L6N_A	4U4A_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P42356|PI4KA_HUMAN	30.7	1L6N_A	6BQ1_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P49023|PAXI_HUMAN	30.7	1L6N_A	1RUT_X	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P49640|EVX1_HUMAN	30.7	1L6N_A	1MH3_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P50219|MNX1_HUMAN	30.7	1L6N_A	1AU7_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P50876|R144A_HUMAN	30.7	1L6N_A	5C1Z_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P51784|UBP11_HUMAN	30.7	1L6N_A	2GFO_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P51948|MAT1_HUMAN	30.7	1L6N_A	6NMI_H	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|P52757|CHIO_HUMAN	30.7	1L6N_A	1XA6_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P53567|CEBPG_HUMAN	30.7	1L6N_A	1IO4_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P55198|AF17_HUMAN	30.7	1L6N_A	5DAG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q00987|MDM2_HUMAN	30.7	1L6N_A	5SWK_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q01851|PO4F1_HUMAN	30.7	1L6N_A	6YOV_K	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q02575|HEN1_HUMAN	30.7	1L6N_A	6MGN_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q03828|EVX2_HUMAN	30.7	1L6N_A	1MH3_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q06587|RING1_HUMAN	30.7	1L6N_A	2CKL_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q08828|ADCY1_HUMAN	30.7	1L6N_A	6R4P_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q12899|TRI26_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q12986|NFX1_HUMAN	30.7	1L6N_A	1WHR_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q13029|PRDM2_HUMAN	30.7	1L6N_A	2JV0_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q13049|TRI32_HUMAN	30.7	1L6N_A	6ID1_r	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q13144|EI2BE_HUMAN	30.7	1L6N_A	6O81_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q13191|CBLB_HUMAN	30.7	1L6N_A	5HKX_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q13387|JIP2_HUMAN	30.7	1L6N_A	6ITU_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q13489|BIRC3_HUMAN	30.7	1L6N_A	3T6P_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q13888|TF2H2_HUMAN	30.7	1L6N_A	6O9L_6	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q15005|SPCS2_HUMAN	30.7	1L6N_A	4LAD_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q15022|SUZ12_HUMAN	30.7	1L6N_A	6C23_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q15270|NKX11_HUMAN	30.7	1L6N_A	1AU7_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q15911|ZFHX3_HUMAN	30.7	1L6N_A	5V3J_E	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q15942|ZYX_HUMAN	30.7	1L6N_A	2JTN_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q17RB8|LONF1_HUMAN	30.7	1L6N_A	1ZBO_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q2KJY2|KI26B_HUMAN	30.7	1L6N_A	5GSY_K	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q2Q1W2|LIN41_HUMAN	30.7	1L6N_A	6H3A_F	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q2VPK5|CTU2_HUMAN	30.7	1L6N_A	5MKO_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q496Y0|LONF3_HUMAN	30.7	1L6N_A	2C2L_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q4G163|FBX43_HUMAN	30.7	1L6N_A	4UI9_S	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q4LE39|ARI4B_HUMAN	30.7	1L6N_A	2YRV_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q53T94|TAF1B_HUMAN	30.7	1L6N_A	5O7X_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q56NI9|ESCO2_HUMAN	30.7	1L6N_A	6SP0_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q5GH76|XKR4_HUMAN	30.7	1L6N_A	6MZM_G	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q5T197|DCST1_HUMAN	30.7	1L6N_A	6VK0_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q5T6S3|PHF19_HUMAN	30.7	1L6N_A	5XFN_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q5U5Q3|MEX3C_HUMAN	30.7	1L6N_A	2ANR_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q5VTB9|RN220_HUMAN	30.7	1L6N_A	6ID1_r	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q5XPI4|RN123_HUMAN	30.7	1L6N_A	3M63_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q63HN8|RN213_HUMAN	30.7	1L6N_A	6TAY_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q66K64|DCA15_HUMAN	30.7	1L6N_A	6UD7_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q68DV7|RNF43_HUMAN	30.7	1L6N_A	4KNG_E	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q68E01|INT3_HUMAN	30.7	1L6N_A	4OWT_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q6H9L7|ISM2_HUMAN	30.7	1L6N_A	4OKR_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q6NXT6|TAPT1_HUMAN	30.7	1L6N_A	4KBL_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q6P1K8|T2H2L_HUMAN	30.7	1L6N_A	6O9L_6	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q6P1L5|F117B_HUMAN	30.7	1L6N_A	3ZUQ_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q6ZMK1|CYHR1_HUMAN	30.7	1L6N_A	2YRE_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q6ZMN7|PZRN4_HUMAN	30.7	1L6N_A	2XKX_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q6ZMZ0|RN19B_HUMAN	30.7	1L6N_A	5C1Z_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q6ZN04|MEX3B_HUMAN	30.7	1L6N_A	2ANN_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q6ZN18|AEBP2_HUMAN	30.7	1L6N_A	6C23_P	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q6ZNB6|NFXL1_HUMAN	30.7	1L6N_A	5HVQ_C	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q6ZSG1|RN165_HUMAN	30.7	1L6N_A	5D0I_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q6ZT12|UBR3_HUMAN	30.7	1L6N_A	5TDA_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q6ZTA4|TRI67_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q6ZW49|PAXI1_HUMAN	30.7	1L6N_A	6J0Y_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q6ZWI9|RFPLB_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q7L0X2|ERIP6_HUMAN	30.7	1L6N_A	5T15_G	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q7RTS3|PTF1A_HUMAN	30.7	1L6N_A	6MGN_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q7Z5L9|I2BP2_HUMAN	30.7	1L6N_A	2CS3_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q7Z6J0|SH3R1_HUMAN	30.7	1L6N_A	6UY8_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q86SE9|PCGF5_HUMAN	30.7	1L6N_A	5FR6_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q86T96|RN180_HUMAN	30.7	1L6N_A	6RZZ_s	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q86UT8|CCD84_HUMAN	30.7	1L6N_A	2YRK_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q86UV7|TRI73_HUMAN	30.7	1L6N_A	6QU1_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q86UW9|DTX2_HUMAN	30.7	1L6N_A	3PG6_C	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q86XN8|MEX3D_HUMAN	30.7	1L6N_A	2ANN_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q86XP1|DGKH_HUMAN	30.7	1L6N_A	1R79_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q86XT4|TRI50_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q86Y38|XYLT1_HUMAN	30.7	1L6N_A	6EJ7_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8IU81|I2BP1_HUMAN	30.7	1L6N_A	2CS3_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8IUD6|RN135_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8IUQ4|SIAH1_HUMAN	30.7	1L6N_A	4CA1_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8IUR6|CRERF_HUMAN	30.7	1L6N_A	5OIK_Z	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8IWV7|UBR1_HUMAN	30.7	1L6N_A	6KGI_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8IWV8|UBR2_HUMAN	30.7	1L6N_A	5TDA_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8IWZ4|TRI48_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8IWZ5|TRI42_HUMAN	30.7	1L6N_A	6H3A_F	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8IXJ9|ASXL1_HUMAN	30.7	1L6N_A	6CGA_D	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8N2C7|UNC80_HUMAN	30.7	1L6N_A	6NHJ_J	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8N2H9|PELI3_HUMAN	30.7	1L6N_A	3EGA_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8N448|LNX2_HUMAN	30.7	1L6N_A	2XKX_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8N6D2|RN182_HUMAN	30.7	1L6N_A	6H3A_F	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8N7C7|RN148_HUMAN	30.7	1L6N_A	3ICU_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8N8N0|RN152_HUMAN	30.7	1L6N_A	6H3A_F	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8NA82|MARHA_HUMAN	30.7	1L6N_A	2M6M_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8NC42|RN149_HUMAN	30.7	1L6N_A	3ICU_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8NCN4|RN169_HUMAN	30.7	1L6N_A	5VEY_C	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8ND25|ZNRF1_HUMAN	30.7	1L6N_A	5YWR_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8NEG5|ZSWM2_HUMAN	30.7	1L6N_A	2DIP_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8NEZ4|KMT2C_HUMAN	30.7	1L6N_A	6KIW_K	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8NF64|ZMIZ2_HUMAN	30.7	1L6N_A	4FO9_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8NHG8|ZNRF2_HUMAN	30.7	1L6N_A	5YWR_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8TBB1|LNX1_HUMAN	30.7	1L6N_A	2XKX_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8TDB6|DTX3L_HUMAN	30.7	1L6N_A	3PG6_C	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8TEB7|RN128_HUMAN	30.7	1L6N_A	3ICU_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8TEC5|SH3R2_HUMAN	30.7	1L6N_A	6AMW_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8TEJ3|SH3R3_HUMAN	30.7	1L6N_A	6UY8_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8WU17|RN139_HUMAN	30.7	1L6N_A	6VK0_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8WUP2|FBLI1_HUMAN	30.7	1L6N_A	1RUT_X	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8WV22|NSE1_HUMAN	30.7	1L6N_A	5HVQ_C	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8WVD5|RN141_HUMAN	30.7	1L6N_A	2C2L_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8WVR3|MA11_HUMAN	30.7	1L6N_A	6MZM_G	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8WWF5|ZNRF4_HUMAN	30.7	1L6N_A	3ICU_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8WYB5|KAT6B_HUMAN	30.7	1L6N_A	6OIO_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8WZ73|RFFL_HUMAN	30.7	1L6N_A	1Y02_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q969Q1|TRI63_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q969S3|ZN622_HUMAN	30.7	1L6N_A	6QIK_z	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q969V5|MUL1_HUMAN	30.7	1L6N_A	3T6P_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96A37|RN166_HUMAN	30.7	1L6N_A	5DKA_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96A61|TRI52_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96BH1|RNF25_HUMAN	30.7	1L6N_A	5D1M_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96C00|ZBTB9_HUMAN	30.7	1L6N_A	3GA1_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96C24|SYTL4_HUMAN	30.7	1L6N_A	1ZBD_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96CA5|BIRC7_HUMAN	30.7	1L6N_A	3T6P_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96DM1|PGBD4_HUMAN	30.7	1L6N_A	6KF4_G	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96DX4|RSPRY_HUMAN	30.7	1L6N_A	5T15_G	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96DX7|TRI44_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96EH8|NEUL3_HUMAN	30.7	1L6N_A	4KG0_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96EP0|RNF31_HUMAN	30.7	1L6N_A	6SC6_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96EP1|CHFR_HUMAN	30.7	1L6N_A	2XOY_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96EQ8|RN125_HUMAN	30.7	1L6N_A	5DKA_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96EX2|RNFT2_HUMAN	30.7	1L6N_A	6ID1_r	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96F45|ZN503_HUMAN	30.7	1L6N_A	6MZM_G	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96IF1|AJUBA_HUMAN	30.7	1L6N_A	1RUT_X	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96IP4|TET5A_HUMAN	30.7	1L6N_A	6JYJ_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96MI9|CBPC4_HUMAN	30.7	1L6N_A	4B6Z_C	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96P09|BIRC8_HUMAN	30.7	1L6N_A	3T6P_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q96PX1|RN157_HUMAN	30.7	1L6N_A	4LAD_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q99496|RING2_HUMAN	30.7	1L6N_A	3IXS_C	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q99675|CGRF1_HUMAN	30.7	1L6N_A	2EA5_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q99932|SPAG8_HUMAN	30.7	1L6N_A	6U42_6	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9BSM1|PCGF1_HUMAN	30.7	1L6N_A	5FR6_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9BWX1|PHF7_HUMAN	30.7	1L6N_A	1WEQ_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9BXT8|RNF17_HUMAN	30.7	1L6N_A	4Q5Y_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9BY07|S4A5_HUMAN	30.7	1L6N_A	6CAA_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9BY78|RNF26_HUMAN	30.7	1L6N_A	3T6P_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9BYE7|PCGF6_HUMAN	30.7	1L6N_A	5FR6_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9C026|TRIM9_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9C040|TRIM2_HUMAN	30.7	1L6N_A	6H3A_F	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9H091|ZMY15_HUMAN	30.7	1L6N_A	3N71_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9H0A6|RNF32_HUMAN	30.7	1L6N_A	5AIE_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9H0X6|RN208_HUMAN	30.7	1L6N_A	6H3A_F	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9H1B7|I2BPL_HUMAN	30.7	1L6N_A	2CS3_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9H2S5|RNF39_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9H920|RN121_HUMAN	30.7	1L6N_A	4ZDT_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9H992|MARH7_HUMAN	30.7	1L6N_A	2M6M_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9H9V4|RN122_HUMAN	30.7	1L6N_A	6VK0_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9HC58|NCKX3_HUMAN	30.7	1L6N_A	5HYA_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9HCI7|MSL2_HUMAN	30.7	1L6N_A	4RKH_D	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9HCJ5|ZSWM6_HUMAN	30.7	1L6N_A	6MZM_G	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9NQ86|TRI36_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9NQS1|AVEN_HUMAN	30.7	1L6N_A	6RXU_C	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9NS91|RAD18_HUMAN	30.7	1L6N_A	2Y43_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9NTX7|RN146_HUMAN	30.7	1L6N_A	4QPL_C	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9NUK0|MBNL3_HUMAN	30.7	1L6N_A	6FBS_C	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9NV58|RN19A_HUMAN	30.7	1L6N_A	5C1Z_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9NW38|FANCL_HUMAN	30.7	1L6N_A	6SRI_q	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9NWM3|CUED1_HUMAN	30.7	1L6N_A	2DHY_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9NXI6|RN186_HUMAN	30.7	1L6N_A	6H3A_F	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9NYA4|MTMR4_HUMAN	30.7	1L6N_A	1LW3_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9NYG5|APC11_HUMAN	30.7	1L6N_A	6Q6H_C	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9P0J7|KCMF1_HUMAN	30.7	1L6N_A	2E5R_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q9P0P0|RN181_HUMAN	30.7	1L6N_A	5AIE_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9P1Y6|PHRF1_HUMAN	30.7	1L6N_A	2YSM_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9P287|BCCIP_HUMAN	30.7	1L6N_A	5TTE_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9P2G1|AKIB1_HUMAN	30.7	1L6N_A	5UDH_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9UBC3|DNM3B_HUMAN	30.7	1L6N_A	6PA7_S	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9UDV7|ZN282_HUMAN	30.7	1L6N_A	3ZMS_C	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9UDY6|TRI10_HUMAN	30.7	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9UHB9|SRP68_HUMAN	30.7	1L6N_A	6FRK_u	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9UHV5|RPGFL_HUMAN	30.7	1L6N_A	4MGZ_E	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9UIF3|TEKT2_HUMAN	30.7	1L6N_A	6UUI_C	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9UIF8|BAZ2B_HUMAN	30.7	1L6N_A	6IEU_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9ULJ6|ZMIZ1_HUMAN	30.7	1L6N_A	5AIZ_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9ULK6|RN150_HUMAN	30.7	1L6N_A	3ICU_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9ULT6|ZNRF3_HUMAN	30.7	1L6N_A	4CDK_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9ULV3|CIZ1_HUMAN	30.7	1L6N_A	1ZU1_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9ULV8|CBLC_HUMAN	30.7	1L6N_A	3VRP_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9ULX5|RN112_HUMAN	30.7	1L6N_A	3X1D_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9UM82|SPAT2_HUMAN	30.7	1L6N_A	5LJM_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9UPN9|TRI33_HUMAN	30.7	1L6N_A	6H3A_F	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9UPQ7|PZRN3_HUMAN	30.7	1L6N_A	2XKX_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9UQL6|HDAC5_HUMAN	30.7	1L6N_A	2VQM_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9Y225|RNF24_HUMAN	30.7	1L6N_A	6VK0_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9Y2E6|DTX4_HUMAN	30.7	1L6N_A	3PG6_C	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9Y2I7|FYV1_HUMAN	30.7	1L6N_A	5E3S_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9Y3C5|RNF11_HUMAN	30.7	1L6N_A	5AIE_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9Y3Y2|CHTOP_HUMAN	30.7	1L6N_A	5SUP_G	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9Y483|MTF2_HUMAN	30.7	1L6N_A	5XFR_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9Y4L5|RN115_HUMAN	30.7	1L6N_A	6VK0_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9Y508|RN114_HUMAN	30.7	1L6N_A	5DKA_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	tr|A0A2R8Y4M4|A0A2R8Y4M4_HUMAN	30.7	1L6N_A	5AIE_A	4KBL_A	4KBL_A
+sp|P04601|NEF_HV1H2	sp|O43156|TTI1_HUMAN	30.7	3TB8_A	3W3U_A	6OWT_N	6QH5_B
+sp|P04618|REV_HV1H2	sp|P29016|CD1B_HUMAN	30.7	2X7L_R	1CD1_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q6ISS4|LAIR2_HUMAN	30.7	2X7L_R	3KGR_B	2X7L_R	5I8O_L
+sp|P05919|VPU_HV1H2	sp|Q9Y446|PKP3_HUMAN	30.7	2N28_A	3L6X_A	4P6Z_V	4P6Z_G
+sp|Q9H3F6|BACD3_HUMAN	sp|P69723|VIF_HV1H2	30.7	3DRX_B	4N9F_b	6P59_Z	6P59_B
+sp|Q9UPZ6|THS7A_HUMAN	sp|P04585|POL_HV1H2	30.7	1W0R_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q9UPZ6|THS7A_HUMAN	sp|P04591|GAG_HV1H2	30.7	1W0R_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q9Y6Q6|TNR11_HUMAN	sp|P04585|POL_HV1H2	30.7	5BNQ_R	1L6N_A	6CPL_A	2XXM_A
+sp|Q9Y6Q6|TNR11_HUMAN	sp|P04591|GAG_HV1H2	30.7	5BNQ_R	1L6N_A	6CPL_A	2XXM_A
+sp|Q8N2C7|UNC80_HUMAN	sp|P04578|ENV_HV1H2	30.6	6NHJ_J	6PWU_E	6NM6_D	6MTJ_B
+sp|P04585|POL_HV1H2	sp|O15360|FANCA_HUMAN	30.6	1L6N_A	6LHU_B	6D6V_A	6D6V_E
+sp|P04585|POL_HV1H2	sp|O43809|CPSF5_HUMAN	30.6	1L6N_A	2CL3_A	6BK8_O	6J6G_P
+sp|P04585|POL_HV1H2	sp|O95678|K2C75_HUMAN	30.6	1L6N_A	3TNU_A	6ICZ_Z	6ID1_K
+sp|P04585|POL_HV1H2	sp|P35716|SOX11_HUMAN	30.6	1L6N_A	6T7A_K	6ICZ_Z	6ID1_P
+sp|P04585|POL_HV1H2	sp|Q6ZU52|K0408_HUMAN	30.6	1L6N_A	6ID1_N	6ICZ_Z	6ID1_N
+sp|P04585|POL_HV1H2	sp|Q86YD7|F90A1_HUMAN	30.6	1L6N_A	3E2U_G	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q8NC51|PAIRB_HUMAN	30.6	1L6N_A	4V6X_A	6ICZ_Z	6ID1_h
+sp|Q96AP4|ZUP1_HUMAN	sp|P04585|POL_HV1H2	30.6	6EI1_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q96QF7|ACRC_HUMAN	30.6	1L6N_A	6MDW_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|O15231|ZN185_HUMAN	30.6	1L6N_A	2L4Z_A	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|O43809|CPSF5_HUMAN	30.6	1L6N_A	2CL3_A	6BK8_O	6J6G_P
+sp|P04591|GAG_HV1H2	sp|P09884|DPOLA_HUMAN	30.6	1L6N_A	5EXR_C	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|Q86YD7|F90A1_HUMAN	30.6	1L6N_A	3E2U_G	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q8IYR2|SMYD4_HUMAN	30.6	1L6N_A	4WUY_A	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|Q8NC51|PAIRB_HUMAN	30.6	1L6N_A	4V6X_A	6ICZ_Z	6ID1_h
+sp|Q96AP4|ZUP1_HUMAN	sp|P04591|GAG_HV1H2	30.6	6EI1_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04591|GAG_HV1H2	sp|Q96EK2|PF21B_HUMAN	30.6	1L6N_A	5XHT_A	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|Q96QF7|ACRC_HUMAN	30.6	1L6N_A	6MDW_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q9UBL3|ASH2L_HUMAN	30.6	1L6N_A	6PWV_D	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|Q9UPQ0|LIMC1_HUMAN	30.6	1L6N_A	1UJO_A	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|Q9Y466|NR2E1_HUMAN	30.6	1L6N_A	4NQA_I	1NUI_A	1NUI_A
+sp|P04601|NEF_HV1H2	sp|Q5T9G4|ARM12_HUMAN	30.6	3TB8_A	4R0Z_A	6OWT_N	6OWT_A
+sp|P05919|VPU_HV1H2	sp|Q13835|PKP1_HUMAN	30.6	2N28_A	1XM9_A	4P6Z_V	4P6Z_G
+sp|P69723|VIF_HV1H2	sp|Q9UPU5|UBP24_HUMAN	30.6	4N9F_b	5JTV_E	4N9F_b	2MA9_B
+sp|P69726|VPR_HV1H2	sp|Q12800|TFCP2_HUMAN	30.6	1ESX_A	5MPH_A	5AJA_B	5AJA_C
+sp|P17643|TYRP1_HUMAN	sp|P04585|POL_HV1H2	30.6	5M8T_B	1L6N_A	6CPL_A	2XXM_A
+sp|P17643|TYRP1_HUMAN	sp|P04591|GAG_HV1H2	30.6	5M8T_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|P49908|SEPP1_HUMAN	30.5	6PWU_E	6MZL_B	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|P15407|FOSL1_HUMAN	30.5	1L6N_A	6MG1_A	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q6AZZ1|TRI68_HUMAN	30.5	1L6N_A	4CFG_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q7L3T8|SYPM_HUMAN	30.5	1L6N_A	2I4N_C	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q86VI1|EX3L1_HUMAN	30.5	1L6N_A	5B86_B	2XDE_B	2XDE_B
+sp|P04585|POL_HV1H2	sp|Q86WD7|SPA9_HUMAN	30.5	1L6N_A	3KCG_I	2XGU_A	2XGU_A
+sp|P04585|POL_HV1H2	sp|Q8IXK0|PHC2_HUMAN	30.5	1L6N_A	2NA1_A	5FMF_R	5FMF_2
+sp|P04585|POL_HV1H2	sp|Q96JP5|ZFP91_HUMAN	30.5	1L6N_A	5T0U_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q96TC7|RMD3_HUMAN	30.5	1L6N_A	6CRL_A	6BK8_O	6J6H_v
+sp|P04585|POL_HV1H2	sp|Q9Y5Q8|TF3C5_HUMAN	30.5	1L6N_A	4BJI_A	5FMF_R	5FMF_V
+sp|P04591|GAG_HV1H2	sp|A0AVI4|TM129_HUMAN	30.5	1L6N_A	4ZDT_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|A1L4K1|FSD2_HUMAN	30.5	1L6N_A	4CFG_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|A6NIX2|WTIP_HUMAN	30.5	1L6N_A	4JCJ_C	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|C9JCN9|HSBPL_HUMAN	30.5	1L6N_A	3CI9_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O14686|KMT2D_HUMAN	30.5	1L6N_A	6KIW_K	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|O15151|MDM4_HUMAN	30.5	1L6N_A	3DAC_M	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|O15304|SIVA_HUMAN	30.5	1L6N_A	6H3A_F	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|O43257|ZNHI1_HUMAN	30.5	1L6N_A	6GEN_S	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|O43918|AIRE_HUMAN	30.5	1L6N_A	2KWK_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|O75677|RFPL1_HUMAN	30.5	1L6N_A	5HM7_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|O75925|PIAS1_HUMAN	30.5	1L6N_A	4FO9_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|O94822|LTN1_HUMAN	30.5	1L6N_A	3J92_z	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|O95405|ZFYV9_HUMAN	30.5	1L6N_A	4BKW_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|P04150|GCR_HUMAN	30.5	1L6N_A	4NQA_I	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|P06401|PRGR_HUMAN	30.5	1L6N_A	3DZY_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|P29122|PCSK6_HUMAN	30.5	1L6N_A	5JXG_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|P35240|MERL_HUMAN	30.5	1L6N_A	2I1J_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|P55197|AF10_HUMAN	30.5	1L6N_A	5DAH_B	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q03164|KMT2A_HUMAN	30.5	1L6N_A	6KIZ_K	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q13772|NCOA4_HUMAN	30.5	1L6N_A	6H3A_F	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q3KNV8|PCGF3_HUMAN	30.5	1L6N_A	2NA1_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q5M7Z0|RNFT1_HUMAN	30.5	1L6N_A	6VK0_B	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q5T0T0|MARH8_HUMAN	30.5	1L6N_A	2M6M_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q5T1A1|DCST2_HUMAN	30.5	1L6N_A	1WEW_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q5TA31|RN187_HUMAN	30.5	1L6N_A	4CFG_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q5TD97|FHL5_HUMAN	30.5	1L6N_A	4JCJ_B	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q70CQ1|UBP49_HUMAN	30.5	1L6N_A	6TBM_Q	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q7L3T8|SYPM_HUMAN	30.5	1L6N_A	2I4N_C	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q7L622|G2E3_HUMAN	30.5	1L6N_A	1ZVD_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q7Z3G6|PRIC2_HUMAN	30.5	1L6N_A	2JTN_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q7Z3K3|POGZ_HUMAN	30.5	1L6N_A	5V3J_E	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q7Z3T8|ZFY16_HUMAN	30.5	1L6N_A	4BKW_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q7Z6J4|FGD2_HUMAN	30.5	1L6N_A	3MPX_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q86T03|PP4P1_HUMAN	30.5	1L6N_A	3ZMS_C	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q86UV6|TRI74_HUMAN	30.5	1L6N_A	6QU1_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q86VI1|EX3L1_HUMAN	30.5	1L6N_A	5B86_B	2XDE_B	2XDE_B
+sp|P04591|GAG_HV1H2	sp|Q86WD7|SPA9_HUMAN	30.5	1L6N_A	3KCG_I	2XGU_A	2XGU_A
+sp|P04591|GAG_HV1H2	sp|Q8IUI8|CRLF3_HUMAN	30.5	1L6N_A	6RPZ_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q8IXK0|PHC2_HUMAN	30.5	1L6N_A	2NA1_A	5FMF_R	5FMF_2
+sp|P04591|GAG_HV1H2	sp|Q8N2W9|PIAS4_HUMAN	30.5	1L6N_A	4FO9_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q8N3K9|CMYA5_HUMAN	30.5	1L6N_A	4CFG_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q8NEB7|ACRBP_HUMAN	30.5	1L6N_A	2KCX_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q8TCQ1|MARH1_HUMAN	30.5	1L6N_A	2M6M_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q8TEY7|UBP33_HUMAN	30.5	1L6N_A	6TBM_Q	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q8WV99|ZFN2B_HUMAN	30.5	1L6N_A	4XKH_H	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q8WY64|MYLIP_HUMAN	30.5	1L6N_A	6QLY_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q92793|CBP_HUMAN	30.5	1L6N_A	5XZC_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q93052|LPP_HUMAN	30.5	1L6N_A	1RUT_X	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q96D59|RN183_HUMAN	30.5	1L6N_A	6QU1_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q96GN5|CDA7L_HUMAN	30.5	1L6N_A	6EMO_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q96JP5|ZFP91_HUMAN	30.5	1L6N_A	5T0U_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q96T88|UHRF1_HUMAN	30.5	1L6N_A	2PB7_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q96TC7|RMD3_HUMAN	30.5	1L6N_A	6CRL_A	6BK8_O	6J6H_v
+sp|P04591|GAG_HV1H2	sp|Q9BTV5|FSD1_HUMAN	30.5	1L6N_A	6FLN_B	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q9BXM9|FSD1L_HUMAN	30.5	1L6N_A	6FLN_E	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q9H6Y7|RN167_HUMAN	30.5	1L6N_A	6VK0_B	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q9HBF4|ZFYV1_HUMAN	30.5	1L6N_A	4IDQ_C	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q9NUG6|PDRG1_HUMAN	30.5	1L6N_A	6NR8_6	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9P0N8|MARH2_HUMAN	30.5	1L6N_A	2M6M_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q9UBF6|RBX2_HUMAN	30.5	1L6N_A	6V9I_R	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q9UBN7|HDAC6_HUMAN	30.5	1L6N_A	5G0J_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q9UGI8|TES_HUMAN	30.5	1L6N_A	2XQN_T	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q9UHR6|ZNHI2_HUMAN	30.5	1L6N_A	1X4S_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q9UPQ4|TRI35_HUMAN	30.5	1L6N_A	4CFG_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9Y2J0|RP3A_HUMAN	30.5	1L6N_A	5W5C_F	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q9Y5Q8|TF3C5_HUMAN	30.5	1L6N_A	4BJI_A	5FMF_R	5FMF_V
+sp|P04591|GAG_HV1H2	sp|Q9Y6I4|UBP3_HUMAN	30.5	1L6N_A	6TBM_Q	6QAJ_A	6QAJ_B
+sp|P04601|NEF_HV1H2	sp|P04216|THY1_HUMAN	30.5	3TB8_A	5XSY_B	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	tr|A0A0A0MS06|A0A0A0MS06_HUMAN	30.5	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|P55060|XPO2_HUMAN	30.5	2N28_A	1WA5_C	4P6Z_V	4P6Z_B
+tr|A0A087X1L8|A0A087X1L8_HUMAN	sp|P04578|ENV_HV1H2	30.4	1S7X_G	6PWU_E	2F58_H	6MUF_G
+sp|P04585|POL_HV1H2	sp|P17275|JUNB_HUMAN	30.4	1L6N_A	1JUN_A	6ICZ_Z	6ID1_K
+sp|P04585|POL_HV1H2	sp|P40925|MDHC_HUMAN	30.4	1L6N_A	1B8P_A	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|Q14563|SEM3A_HUMAN	30.4	1L6N_A	4GZ8_A	5O2U_C	5O2U_B
+sp|P04585|POL_HV1H2	sp|Q9Y5L0|TNPO3_HUMAN	30.4	1L6N_A	4C0O_B	6GZA_A	6GZA_A
+sp|P04591|GAG_HV1H2	sp|P40925|MDHC_HUMAN	30.4	1L6N_A	1B8P_A	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|Q14563|SEM3A_HUMAN	30.4	1L6N_A	4GZ8_A	5O2U_C	5O2U_B
+sp|P04591|GAG_HV1H2	sp|Q96A00|PP14A_HUMAN	30.4	1L6N_A	1J2N_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q9Y5L0|TNPO3_HUMAN	30.4	1L6N_A	4C0O_B	6GZA_A	6GZA_A
+sp|P04601|NEF_HV1H2	sp|Q03701|CEBPZ_HUMAN	30.4	3TB8_A	6RXU_U	6CRI_Z	6CRI_I
+sp|P05919|VPU_HV1H2	sp|A6NF34|ANTRL_HUMAN	30.4	2N28_A	1TZN_b	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q6PIY5|ARMD1_HUMAN	30.4	2N28_A	3L6X_A	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q7L1V2|MON1B_HUMAN	30.4	2N28_A	5LDD_A	4P6Z_V	4P6Z_S
+sp|Q8NBV8|SYT8_HUMAN	sp|P04585|POL_HV1H2	30.4	5W5C_F	1L6N_A	6CPL_A	2XXM_A
+sp|Q8NBV8|SYT8_HUMAN	sp|P04591|GAG_HV1H2	30.4	5W5C_F	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|O15169|AXIN1_HUMAN	30.3	6PWU_E	2D5G_B	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|P13674|P4HA1_HUMAN	30.3	1L6N_A	4BT9_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|P61927|RL37_HUMAN	30.3	1L6N_A	4V6W_C	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q6NT76|HMBX1_HUMAN	30.3	1L6N_A	4J19_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q6PI48|SYDM_HUMAN	30.3	1L6N_A	4AH6_B	6D6V_A	6D6V_F
+sp|P04585|POL_HV1H2	sp|Q6ZNE5|BAKOR_HUMAN	30.3	1L6N_A	5DFZ_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q7RTX0|TS1R3_HUMAN	30.3	1L6N_A	6N52_B	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8NHW6|OTOSP_HUMAN	30.3	1L6N_A	1U7K_D	6HWX_B	6HWX_B
+sp|P04585|POL_HV1H2	sp|Q8WUU5|GATD1_HUMAN	30.3	1L6N_A	3GAT_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q9BZE0|GLIS2_HUMAN	30.3	1L6N_A	2GLI_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9H2S5|RNF39_HUMAN	30.3	1L6N_A	4CFG_A	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|O60675|MAFK_HUMAN	30.3	1L6N_A	1K1V_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P13674|P4HA1_HUMAN	30.3	1L6N_A	4BT9_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|P43268|ETV4_HUMAN	30.3	1L6N_A	4CO8_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|P61927|RL37_HUMAN	30.3	1L6N_A	4V6W_C	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q12870|TCF15_HUMAN	30.3	1L6N_A	6MGN_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q5T8A7|PPR26_HUMAN	30.3	1L6N_A	1DEC_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q6P1K2|PMF1_HUMAN	30.3	1L6N_A	5LSJ_E	5IJN_H	5IJO_L
+sp|P04591|GAG_HV1H2	sp|Q7RTX0|TS1R3_HUMAN	30.3	1L6N_A	6N52_B	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q8NHW6|OTOSP_HUMAN	30.3	1L6N_A	1U7K_D	6HWX_B	6HWX_B
+sp|P04591|GAG_HV1H2	sp|Q8WUU5|GATD1_HUMAN	30.3	1L6N_A	3GAT_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q9BZE0|GLIS2_HUMAN	30.3	1L6N_A	2GLI_A	5FMF_R	5IP7_L
+sp|P04618|REV_HV1H2	sp|P29460|IL12B_HUMAN	30.3	2X7L_R	5MJ3_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q9UI26|IPO11_HUMAN	30.3	2N28_A	6FVB_A	4P6Z_V	4P6Z_B
+sp|P04578|ENV_HV1H2	sp|P17275|JUNB_HUMAN	30.2	6PWU_E	1JUN_A	2X7R_N	1FAV_A
+sp|P04578|ENV_HV1H2	sp|Q13474|DRP2_HUMAN	30.2	6PWU_E	1EG4_A	2X7R_N	1FAV_A
+sp|P04585|POL_HV1H2	sp|O00170|AIP_HUMAN	30.2	1L6N_A	2LKN_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|P09693|CD3G_HUMAN	30.2	1L6N_A	6JXR_g	1R0A_A	1HYS_D
+sp|P04585|POL_HV1H2	sp|P15882|CHIN_HUMAN	30.2	1L6N_A	1XA6_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P20142|PEPC_HUMAN	30.2	1L6N_A	5UX4_B	5C9F_A	5C9F_A
+sp|P04585|POL_HV1H2	sp|P21675|TAF1_HUMAN	30.2	1L6N_A	5FUR_G	6R24_C	6R24_C
+sp|P04585|POL_HV1H2	sp|P49619|DGKG_HUMAN	30.2	1L6N_A	3S40_D	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q02930|CREB5_HUMAN	30.2	1L6N_A	6MG2_B	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q03060|CREM_HUMAN	30.2	1L6N_A	2LXT_C	6DNH_C	6URO_B
+sp|Q06455|MTG8_HUMAN	sp|P04585|POL_HV1H2	30.2	2H7B_A	1L6N_A	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|Q5SXM8|DNLZ_HUMAN	30.2	1L6N_A	2E2Z_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q8N4L2|PP4P2_HUMAN	30.2	1L6N_A	3WWL_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q96BR9|ZBT8A_HUMAN	30.2	1L6N_A	6GUW_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q99853|FOXB1_HUMAN	30.2	1L6N_A	5A5U_B	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9H160|ING2_HUMAN	30.2	1L6N_A	2JMI_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9NPF8|ADAP2_HUMAN	30.2	1L6N_A	3LJU_X	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9NXS3|KLH28_HUMAN	30.2	1L6N_A	4YY8_A	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|O00170|AIP_HUMAN	30.2	1L6N_A	2LKN_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|O60519|CRBL2_HUMAN	30.2	1L6N_A	2C9L_Z	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P15882|CHIN_HUMAN	30.2	1L6N_A	1XA6_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P21675|TAF1_HUMAN	30.2	1L6N_A	5FUR_G	6R23_B	6R23_B
+sp|P04591|GAG_HV1H2	sp|P49619|DGKG_HUMAN	30.2	1L6N_A	3S40_D	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q02930|CREB5_HUMAN	30.2	1L6N_A	6MG2_B	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q03060|CREM_HUMAN	30.2	1L6N_A	2LXT_C	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q5SXM8|DNLZ_HUMAN	30.2	1L6N_A	2E2Z_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q8IVP5|FUND1_HUMAN	30.2	1L6N_A	6DZI_T	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q8N4L2|PP4P2_HUMAN	30.2	1L6N_A	3WWL_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q8NGX8|OR6Y1_HUMAN	30.2	1L6N_A	4ZUD_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q96BR9|ZBT8A_HUMAN	30.2	1L6N_A	6GUW_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q99853|FOXB1_HUMAN	30.2	1L6N_A	5A5U_B	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9H160|ING2_HUMAN	30.2	1L6N_A	2JMI_A	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|Q9NPF8|ADAP2_HUMAN	30.2	1L6N_A	3LJU_X	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|Q9UHK0|NUFP1_HUMAN	30.2	1L6N_A	5L85_B	4KBL_A	4KBL_A
+sp|P04601|NEF_HV1H2	sp|P51692|STA5B_HUMAN	30.2	3TB8_A	6UX2_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q07699|SCN1B_HUMAN	30.2	3TB8_A	6J8J_B	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9NZL4|HPBP1_HUMAN	30.2	3TB8_A	1XQS_B	6CRI_Z	6CRI_R
+sp|P04608|TAT_HV1H2	sp|Q9NS37|ZHANG_HUMAN	30.2	3MI9_C	6IAK_F	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|P15813|CD1D_HUMAN	30.2	2X7L_R	4MNG_A	2X7L_R	5I8O_H
+sp|P69723|VIF_HV1H2	sp|Q15011|HERP1_HUMAN	30.2	4N9F_b	2KDB_A	4N9F_b	2MA9_B
+sp|P69726|VPR_HV1H2	sp|O15013|ARHGA_HUMAN	30.2	1ESX_A	6L30_A	5JK7_F	5JK7_E
+sp|Q15768|EFNB3_HUMAN	sp|P04585|POL_HV1H2	30.2	4BKF_D	1L6N_A	6CPL_A	2XXM_A
+sp|Q15768|EFNB3_HUMAN	sp|P04591|GAG_HV1H2	30.2	4BKF_D	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|O75496|GEMI_HUMAN	30.1	1L6N_A	2WVR_B	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|P50238|CRIP1_HUMAN	30.1	1L6N_A	1IML_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|P50876|R144A_HUMAN	30.1	1L6N_A	5C1Z_B	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q06889|EGR3_HUMAN	30.1	1L6N_A	4X9J_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q16520|BATF_HUMAN	30.1	1L6N_A	1HJB_E	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q86YW0|PLCZ1_HUMAN	30.1	1L6N_A	1DJW_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q8N5C7|DTWD1_HUMAN	30.1	1L6N_A	2F5Q_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q96KP6|TNIP3_HUMAN	30.1	1L6N_A	5H07_D	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9NVU0|RPC5_HUMAN	30.1	1L6N_A	6TUT_M	5FMF_R	5FMF_V
+sp|P04591|GAG_HV1H2	sp|O15315|RA51B_HUMAN	30.1	1L6N_A	2Z43_C	6N7I_C	1E0K_A
+sp|P04591|GAG_HV1H2	sp|O15457|MSH4_HUMAN	30.1	1L6N_A	3THW_A	6N7I_C	1E0K_A
+sp|P04591|GAG_HV1H2	sp|O43502|RA51C_HUMAN	30.1	1L6N_A	2BKE_A	6N7I_C	1E0K_A
+sp|P04591|GAG_HV1H2	sp|O43542|XRCC3_HUMAN	30.1	1L6N_A	2Z43_C	6N7I_C	1E0K_A
+sp|P04591|GAG_HV1H2	sp|O43543|XRCC2_HUMAN	30.1	1L6N_A	2Z43_C	6N7I_C	1E0K_A
+sp|P04591|GAG_HV1H2	sp|O75771|RA51D_HUMAN	30.1	1L6N_A	2ZUC_B	6N7I_C	1E0K_A
+sp|P04591|GAG_HV1H2	sp|P06576|ATPB_HUMAN	30.1	1L6N_A	6REF_Z	6N7I_C	1E0K_A
+sp|P04591|GAG_HV1H2	sp|P08240|SRPRA_HUMAN	30.1	1L6N_A	5L3Q_B	6N7I_C	1E0K_A
+sp|P04591|GAG_HV1H2	sp|P10589|COT1_HUMAN	30.1	1L6N_A	3DZY_A	6N7I_C	6N9X_B
+sp|P04591|GAG_HV1H2	sp|P19793|RXRA_HUMAN	30.1	1L6N_A	3DZY_A	6N7I_C	6N9X_B
+sp|P04591|GAG_HV1H2	sp|P22736|NR4A1_HUMAN	30.1	1L6N_A	3DZY_A	6N7I_C	6N9X_B
+sp|P04591|GAG_HV1H2	sp|P25705|ATPA_HUMAN	30.1	1L6N_A	6F5D_A	6N7I_C	1E0K_A
+sp|P04591|GAG_HV1H2	sp|P38606|VATA_HUMAN	30.1	1L6N_A	6VQB_A	6N7I_C	1E0K_A
+sp|P04591|GAG_HV1H2	sp|P48443|RXRG_HUMAN	30.1	1L6N_A	3DZY_A	6N7I_C	6N9X_B
+sp|P04591|GAG_HV1H2	sp|P50238|CRIP1_HUMAN	30.1	1L6N_A	1IML_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|P53384|NUBP1_HUMAN	30.1	1L6N_A	6G2G_A	6N7I_C	1E0K_A
+sp|P04591|GAG_HV1H2	sp|P60321|NANO2_HUMAN	30.1	1L6N_A	3ALR_C	6N7I_C	6N9X_B
+sp|P04591|GAG_HV1H2	sp|Q06609|RAD51_HUMAN	30.1	1L6N_A	5JZC_D	6N7I_C	1E0K_A
+sp|P04591|GAG_HV1H2	sp|Q06889|EGR3_HUMAN	30.1	1L6N_A	4X9J_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q0ZLH3|PJVK_HUMAN	30.1	1L6N_A	6N9N_A	6N7I_C	6N9X_B
+sp|P04591|GAG_HV1H2	sp|Q14565|DMC1_HUMAN	30.1	1L6N_A	1V5W_B	6N7I_C	1E0K_A
+sp|P04591|GAG_HV1H2	sp|Q16520|BATF_HUMAN	30.1	1L6N_A	1HJB_E	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q5VTA0|PRA17_HUMAN	30.1	1L6N_A	5Y3S_C	6N7I_C	6N9X_B
+sp|P04591|GAG_HV1H2	sp|Q6NVH7|SWAP1_HUMAN	30.1	1L6N_A	4DC9_B	6N7I_C	1E0K_A
+sp|P04591|GAG_HV1H2	sp|Q86YW0|PLCZ1_HUMAN	30.1	1L6N_A	1DJW_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8IV42|PSTK_HUMAN	30.1	1L6N_A	3ADD_A	6N7I_C	1E0K_A
+sp|P04591|GAG_HV1H2	sp|Q8N5C7|DTWD1_HUMAN	30.1	1L6N_A	2F5Q_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q8N5I9|CL045_HUMAN	30.1	1L6N_A	6RXU_U	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|Q96HA4|CA159_HUMAN	30.1	1L6N_A	6N9X_B	6N7I_C	6N9X_B
+sp|P04591|GAG_HV1H2	sp|Q9NVU0|RPC5_HUMAN	30.1	1L6N_A	6TUT_M	5FMF_R	5FMF_V
+sp|P04591|GAG_HV1H2	sp|Q9UJW3|DNM3L_HUMAN	30.1	1L6N_A	2PV0_B	6N7I_C	6N9X_B
+sp|P04591|GAG_HV1H2	sp|Q9Y5X4|NR2E3_HUMAN	30.1	1L6N_A	3DZY_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q9Y5Y2|NUBP2_HUMAN	30.1	1L6N_A	6G2G_A	6N7I_C	1E0K_A
+sp|P04601|NEF_HV1H2	sp|P42229|STA5A_HUMAN	30.1	3TB8_A	1YVL_B	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|P19013|K2C4_HUMAN	30.1	3MI9_C	3TNU_A	3MI9_C	2PK2_B
+sp|P05919|VPU_HV1H2	sp|Q8TCG1|CIP2A_HUMAN	30.1	2N28_A	5UFL_A	4P6Z_V	4P6Z_B
+sp|P69723|VIF_HV1H2	sp|Q6IQ49|SDE2_HUMAN	30.1	4N9F_b	4V6W_A	4N9F_b	2MA9_B
+sp|P69723|VIF_HV1H2	tr|A0A2R8Y7D0|A0A2R8Y7D0_HUMAN	30.1	4N9F_b	5D6J_B	4N9F_b	2MA9_B
+sp|P26006|ITA3_HUMAN	sp|P04585|POL_HV1H2	30.1	3IJE_A	1L6N_A	6CPL_A	2XXM_A
+sp|P26006|ITA3_HUMAN	sp|P04591|GAG_HV1H2	30.1	3IJE_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|Q9UKL4|CXD2_HUMAN	30.0	6PWU_E	6MHQ_F	6OHY_D	6NIJ_B
+sp|P04585|POL_HV1H2	sp|A6NCQ9|RN222_HUMAN	30.0	1L6N_A	6H3A_F	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|A6NKH3|RL37L_HUMAN	30.0	1L6N_A	4V8P_B	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|O43257|ZNHI1_HUMAN	30.0	1L6N_A	6GEN_S	4ESJ_B	4KYW_A
+sp|O75326|SEM7A_HUMAN	sp|P04585|POL_HV1H2	30.0	3NVQ_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|P37198|NUP62_HUMAN	30.0	1L6N_A	5IJN_H	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q7RTU3|OLIG3_HUMAN	30.0	1L6N_A	4AYA_A	6AR3_D	6AR3_D
+sp|Q8WY41|NANO1_HUMAN	sp|P04585|POL_HV1H2	30.0	3ALR_A	1L6N_A	5O2U_C	5TEO_B
+sp|P04585|POL_HV1H2	sp|Q96SU4|OSBL9_HUMAN	30.0	1L6N_A	4B2Z_B	5FMF_R	5FMF_X
+sp|P04585|POL_HV1H2	sp|Q9UGP4|LIMD1_HUMAN	30.0	1L6N_A	1RUT_X	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|A6NKH3|RL37L_HUMAN	30.0	1L6N_A	4V8P_B	1NUI_A	1NUI_A
+sp|O75326|SEM7A_HUMAN	sp|P04591|GAG_HV1H2	30.0	3NVQ_A	1L6N_A	5T70_G	3GV2_A
+sp|P04591|GAG_HV1H2	sp|P0DPF2|NBPFK_HUMAN	30.0	1L6N_A	1TVS_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|P47902|CDX1_HUMAN	30.0	1L6N_A	1AU7_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q86UV5|UBP48_HUMAN	30.0	1L6N_A	6HEI_A	5TTE_B	4II2_B
+sp|Q8WY41|NANO1_HUMAN	sp|P04591|GAG_HV1H2	30.0	3ALR_A	1L6N_A	5O2U_C	5TEO_B
+sp|P04591|GAG_HV1H2	sp|Q9UGP4|LIMD1_HUMAN	30.0	1L6N_A	1RUT_X	5FMF_R	5IP7_L
+sp|P04608|TAT_HV1H2	sp|P25685|DNJB1_HUMAN	30.0	3MI9_C	3LZ8_B	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q13516|OLIG2_HUMAN	30.0	3MI9_C	4AYA_B	3MI9_C	2PK2_B
+sp|P05919|VPU_HV1H2	sp|Q9NVU7|SDA1_HUMAN	30.0	2N28_A	5FL8_r	4P6Z_V	4P6Z_G
+sp|Q13829|BACD2_HUMAN	sp|P69723|VIF_HV1H2	30.0	3DRX_B	4N9F_b	6P59_Z	6P59_B
+sp|P09693|CD3G_HUMAN	sp|P04591|GAG_HV1H2	30.0	6JXR_g	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q9BZF1|OSBL8_HUMAN	29.9	6PWU_E	4B2Z_B	5YB2_B	4KHX_A
+sp|P04585|POL_HV1H2	sp|P31949|S10AB_HUMAN	29.9	1L6N_A	1NSH_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q658T7|F90A2_HUMAN	29.9	1L6N_A	6MZL_A	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q9BRB3|PIGQ_HUMAN	29.9	1L6N_A	4J8C_B	6GZA_A	6GZA_A
+sp|P04585|POL_HV1H2	sp|Q9H4G8|DPH3B_HUMAN	29.9	1L6N_A	2JR7_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|P31949|S10AB_HUMAN	29.9	1L6N_A	1NSH_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q5JQS6|GSAML_HUMAN	29.9	1L6N_A	2WCU_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q658T7|F90A2_HUMAN	29.9	1L6N_A	6MZL_A	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q7L2K0|TEDC2_HUMAN	29.9	1L6N_A	4UYG_E	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9BRB3|PIGQ_HUMAN	29.9	1L6N_A	4J8C_B	6GZA_A	6GZA_A
+sp|P04591|GAG_HV1H2	sp|Q9H4G8|DPH3B_HUMAN	29.9	1L6N_A	2JR7_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q9H8W4|PKHF2_HUMAN	29.9	1L6N_A	3MPX_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q9UKT4|FBX5_HUMAN	29.9	1L6N_A	4UI9_S	4KBL_A	4KBL_A
+sp|P05919|VPU_HV1H2	sp|A0A0U1RQS6|TM275_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|A0A1B0GVQ0|SPAR_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|A0PJX4|SHSA3_HUMAN	29.9	2N28_A	5M0W_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|A0PJZ3|GXLT2_HUMAN	29.9	2N28_A	5H18_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|A0PK11|CLRN2_HUMAN	29.9	2N28_A	6C14_D	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|A6H8M9|CDHR4_HUMAN	29.9	2N28_A	6C13_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|A6NFC5|TM235_HUMAN	29.9	2N28_A	6NJN_F	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|A6NGA9|TM202_HUMAN	29.9	2N28_A	4P79_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|A6NKW6|SHL2B_HUMAN	29.9	2N28_A	5M0W_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|A6NM45|CLD24_HUMAN	29.9	2N28_A	6AKF_C	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|A8K0Z3|WASH1_HUMAN	29.9	2N28_A	6UHC_I	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|A8MUP6|GS1L2_HUMAN	29.9	2N28_A	6NJN_F	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|A8MVS5|HIDE1_HUMAN	29.9	2N28_A	6CPL_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|A8MVW0|F1712_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|A8MWX3|WASH4_HUMAN	29.9	2N28_A	4JHD_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|B1AJZ9|FHAD1_HUMAN	29.9	2N28_A	2N84_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|B3SHH9|TM114_HUMAN	29.9	2N28_A	6QKC_I	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|C4AMC7|WASH3_HUMAN	29.9	2N28_A	6UHC_I	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|C9JDP6|CLD25_HUMAN	29.9	2N28_A	6AKF_C	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|E2RYF6|MUC22_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|H3BS89|T178B_HUMAN	29.9	2N28_A	6JP8_E	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|H7C241|CLD34_HUMAN	29.9	2N28_A	6OV2_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|I3L273|GFY_HUMAN	29.9	2N28_A	2KNC_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|M0QZC1|RN225_HUMAN	29.9	2N28_A	6QU1_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O00401|WASL_HUMAN	29.9	2N28_A	6UHC_I	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O00445|SYT5_HUMAN	29.9	2N28_A	5W5C_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O00453|LST1_HUMAN	29.9	2N28_A	5OR7_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O00501|CLD5_HUMAN	29.9	2N28_A	6OV2_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|O00592|PODXL_HUMAN	29.9	2N28_A	6IRT_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O14493|CLD4_HUMAN	29.9	2N28_A	6OV2_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|O14525|ASTN1_HUMAN	29.9	2N28_A	5J67_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O14669|TMG2_HUMAN	29.9	2N28_A	1J34_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O14917|PCD17_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O14944|EREG_HUMAN	29.9	2N28_A	5E8D_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O15321|TM9S1_HUMAN	29.9	2N28_A	6NBQ_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|O15551|CLD3_HUMAN	29.9	2N28_A	6OV2_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|O43184|ADA12_HUMAN	29.9	2N28_A	3G5C_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O43451|MGA_HUMAN	29.9	2N28_A	3TON_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O43490|PROM1_HUMAN	29.9	2N28_A	5IJO_G	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|O43556|SGCE_HUMAN	29.9	2N28_A	6JXR_n	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O43567|RNF13_HUMAN	29.9	2N28_A	6VK0_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O43570|CAH12_HUMAN	29.9	2N28_A	5MSA_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O60245|PCDH7_HUMAN	29.9	2N28_A	6VG1_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O60330|PCDGC_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O60359|CCG3_HUMAN	29.9	2N28_A	5VOU_F	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|O60610|DIAP1_HUMAN	29.9	2N28_A	3O4X_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O60909|B4GT2_HUMAN	29.9	2N28_A	2FYB_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O75128|COBL_HUMAN	29.9	2N28_A	4JHD_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O75129|ASTN2_HUMAN	29.9	2N28_A	5J67_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O75204|TM127_HUMAN	29.9	2N28_A	6JPA_E	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|O75309|CAD16_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O75310|UDB11_HUMAN	29.9	2N28_A	6INF_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O75324|SNN_HUMAN	29.9	2N28_A	1ZZA_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O75355|ENTP3_HUMAN	29.9	2N28_A	3ZX3_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O75508|CLD11_HUMAN	29.9	2N28_A	4P79_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|O75795|UDB17_HUMAN	29.9	2N28_A	6INF_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O75871|CEAM4_HUMAN	29.9	2N28_A	6JXR_f	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O75949|F155B_HUMAN	29.9	2N28_A	6NE4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O94956|SO2B1_HUMAN	29.9	2N28_A	4IKW_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|O94985|CSTN1_HUMAN	29.9	2N28_A	6SIT_D	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O95206|PCDH8_HUMAN	29.9	2N28_A	6VG1_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O95471|CLD7_HUMAN	29.9	2N28_A	6OV2_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|O95484|CLD9_HUMAN	29.9	2N28_A	6OV2_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|O95490|AGRL2_HUMAN	29.9	2N28_A	6VHH_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O95500|CLD14_HUMAN	29.9	2N28_A	6OV2_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|O95832|CLD1_HUMAN	29.9	2N28_A	6OV2_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P04921|GLPC_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P05181|CP2E1_HUMAN	29.9	2N28_A	3LC4_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P06729|CD2_HUMAN	29.9	2N28_A	1HNF_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P06756|ITAV_HUMAN	29.9	2N28_A	3IJE_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P08123|CO1A2_HUMAN	29.9	2N28_A	3HQV_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P08173|ACM4_HUMAN	29.9	2N28_A	6KP6_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P08235|MCR_HUMAN	29.9	2N28_A	4NQA_I	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P08588|ADRB1_HUMAN	29.9	2N28_A	6KR8_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P08648|ITA5_HUMAN	29.9	2N28_A	3IJE_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P09758|TACD2_HUMAN	29.9	2N28_A	4MZV_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P0DJ93|SIM13_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P0DP42|T225B_HUMAN	29.9	2N28_A	4P79_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P10747|CD28_HUMAN	29.9	2N28_A	1YJD_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P11279|LAMP1_HUMAN	29.9	2N28_A	5GV0_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P12830|CADH1_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P13612|ITA4_HUMAN	29.9	2N28_A	3IJE_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P15144|AMPN_HUMAN	29.9	2N28_A	4FYS_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P15260|INGR1_HUMAN	29.9	2N28_A	3BES_R	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P15529|MCP_HUMAN	29.9	2N28_A	3O8E_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P15941|MUC1_HUMAN	29.9	2N28_A	2ACM_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P16070|CD44_HUMAN	29.9	2N28_A	2JCQ_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P16422|EPCAM_HUMAN	29.9	2N28_A	4MZV_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P16662|UD2B7_HUMAN	29.9	2N28_A	6INF_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P16871|IL7RA_HUMAN	29.9	2N28_A	3UP1_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P17301|ITA2_HUMAN	29.9	2N28_A	4NEH_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P17643|TYRP1_HUMAN	29.9	2N28_A	5M8T_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P18433|PTPRA_HUMAN	29.9	2N28_A	6UZT_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P19022|CADH2_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P19235|EPOR_HUMAN	29.9	2N28_A	4NKQ_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P19438|TNR1A_HUMAN	29.9	2N28_A	1EXT_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P21579|SYT1_HUMAN	29.9	2N28_A	5W5C_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P21917|DRD4_HUMAN	29.9	2N28_A	5WIU_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P22223|CADH3_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P22460|KCNA5_HUMAN	29.9	2N28_A	2R9R_H	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P22794|EVI2A_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P23229|ITA6_HUMAN	29.9	2N28_A	3IJE_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P23610|HAP40_HUMAN	29.9	2N28_A	6EZ8_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P25942|TNR5_HUMAN	29.9	2N28_A	4MXW_R	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P26006|ITA3_HUMAN	29.9	2N28_A	3IJE_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P29536|LMOD1_HUMAN	29.9	2N28_A	5WFN_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P30989|NTR1_HUMAN	29.9	2N28_A	6OSA_R	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P32926|DSG3_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P33151|CADH5_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P34810|CD68_HUMAN	29.9	2N28_A	5GV0_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P34910|EVI2B_HUMAN	29.9	2N28_A	2KNC_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P35070|BTC_HUMAN	29.9	2N28_A	5E8D_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P35241|RADI_HUMAN	29.9	2N28_A	4RM8_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P36537|UDB10_HUMAN	29.9	2N28_A	6INF_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P40123|CAP2_HUMAN	29.9	2N28_A	1K4Z_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P40126|TYRP2_HUMAN	29.9	2N28_A	5M8S_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P40198|CEAM3_HUMAN	29.9	2N28_A	1E07_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P43489|TNR4_HUMAN	29.9	2N28_A	2HEV_R	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P46379|BAG6_HUMAN	29.9	2N28_A	4X86_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P48509|CD151_HUMAN	29.9	2N28_A	5TCX_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P49771|FLT3L_HUMAN	29.9	2N28_A	3QS7_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P51172|SCNND_HUMAN	29.9	2N28_A	6BQN_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P51512|MMP16_HUMAN	29.9	2N28_A	1SU3_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P52799|EFNB2_HUMAN	29.9	2N28_A	1IKO_P	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P53801|PTTG_HUMAN	29.9	2N28_A	6J8H_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P54849|EMP1_HUMAN	29.9	2N28_A	3X29_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P54851|EMP2_HUMAN	29.9	2N28_A	3X29_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P54852|EMP3_HUMAN	29.9	2N28_A	4P79_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P54855|UDB15_HUMAN	29.9	2N28_A	6INF_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P55010|IF5_HUMAN	29.9	2N28_A	6FYX_m	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P55283|CADH4_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P55285|CADH6_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P55286|CADH8_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P55287|CAD11_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P55289|CAD12_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P55290|CAD13_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P55291|CAD15_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P55318|FOXA3_HUMAN	29.9	2N28_A	6FEC_w	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P55344|LMIP_HUMAN	29.9	2N28_A	6OV2_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P56199|ITA1_HUMAN	29.9	2N28_A	4NEH_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P56746|CLD15_HUMAN	29.9	2N28_A	4P79_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P56747|CLD6_HUMAN	29.9	2N28_A	6OV2_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P56748|CLD8_HUMAN	29.9	2N28_A	6OV2_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P56749|CLD12_HUMAN	29.9	2N28_A	6JPA_E	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P56750|CLD17_HUMAN	29.9	2N28_A	6OV2_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P56856|CLD18_HUMAN	29.9	2N28_A	5B2G_E	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P56880|CLD20_HUMAN	29.9	2N28_A	6OV2_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P57739|CLD2_HUMAN	29.9	2N28_A	6OV2_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P58418|CLRN1_HUMAN	29.9	2N28_A	6AKE_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P61565|ENK21_HUMAN	29.9	2N28_A	6MAR_D	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P62955|CCG7_HUMAN	29.9	2N28_A	6NJN_F	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P63135|POK7_HUMAN	29.9	2N28_A	5OVN_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P78357|CNTP1_HUMAN	29.9	2N28_A	3POY_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P78369|CLD10_HUMAN	29.9	2N28_A	4P79_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P78536|ADA17_HUMAN	29.9	2N28_A	6BE6_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P81408|F189B_HUMAN	29.9	2N28_A	6VJA_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P98153|IDD_HUMAN	29.9	2N28_A	3T3A_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P98172|EFNB1_HUMAN	29.9	2N28_A	1IKO_P	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q01344|IL5RA_HUMAN	29.9	2N28_A	3QT2_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q01453|PMP22_HUMAN	29.9	2N28_A	6C14_D	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q01518|CAP1_HUMAN	29.9	2N28_A	1S0P_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q02078|MEF2A_HUMAN	29.9	2N28_A	6BZ1_D	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q02413|DSG1_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q02487|DSC2_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q06432|CCG1_HUMAN	29.9	2N28_A	6JPA_E	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q06481|APLP2_HUMAN	29.9	2N28_A	5BUO_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q08174|PCDH1_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q08334|I10R2_HUMAN	29.9	2N28_A	3BES_R	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q08499|PDE4D_HUMAN	29.9	2N28_A	4WZI_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q08554|DSC1_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q0D2K0|NIPA4_HUMAN	29.9	2N28_A	5I20_E	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q12864|CAD17_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q12907|LMAN2_HUMAN	29.9	2N28_A	2DUR_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q12948|FOXC1_HUMAN	29.9	2N28_A	6FEC_w	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q13443|ADAM9_HUMAN	29.9	2N28_A	5Y31_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q13444|ADA15_HUMAN	29.9	2N28_A	5Y31_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q13571|LAPM5_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q13585|MTR1L_HUMAN	29.9	2N28_A	4U15_B	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q13634|CAD18_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q13651|I10R1_HUMAN	29.9	2N28_A	3BES_R	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q13683|ITA7_HUMAN	29.9	2N28_A	3IJE_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q13797|ITA9_HUMAN	29.9	2N28_A	3IJE_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q14003|KCNC3_HUMAN	29.9	2N28_A	2R9R_H	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q14118|DAG1_HUMAN	29.9	2N28_A	4WIQ_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q14126|DSG2_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q14202|ZMYM3_HUMAN	29.9	2N28_A	2DAS_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q14517|FAT1_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q14574|DSC3_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q14956|GPNMB_HUMAN	29.9	2N28_A	5JMB_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q14C87|T132D_HUMAN	29.9	2N28_A	4IN3_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q14DG7|T132B_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q15047|SETB1_HUMAN	29.9	2N28_A	6BHE_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q15637|SF01_HUMAN	29.9	2N28_A	2M0G_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q16617|NKG7_HUMAN	29.9	2N28_A	6OV2_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q16625|OCLN_HUMAN	29.9	2N28_A	1XAW_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q16676|FOXD1_HUMAN	29.9	2N28_A	5A5U_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q16696|CP2AD_HUMAN	29.9	2N28_A	2FDV_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q16820|MEP1B_HUMAN	29.9	2N28_A	4GWM_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q19T08|ECSCR_HUMAN	29.9	2N28_A	6A69_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q1HG43|DOXA1_HUMAN	29.9	2N28_A	6JPA_E	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q2KHT4|GSG1_HUMAN	29.9	2N28_A	5VOU_F	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q2M2E3|ODFP4_HUMAN	29.9	2N28_A	5B2G_E	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q2M385|MPEG1_HUMAN	29.9	2N28_A	6U2J_I	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q3B7T3|BEAN1_HUMAN	29.9	2N28_A	2N2A_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q4KMG9|TM52B_HUMAN	29.9	2N28_A	6C13_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q4V9L6|TM119_HUMAN	29.9	2N28_A	2N2A_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q5SRN2|TSBP1_HUMAN	29.9	2N28_A	6C13_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q5SSG8|MUC21_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q5U5Q3|MEX3C_HUMAN	29.9	2N28_A	2ANR_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q5VUB5|F1711_HUMAN	29.9	2N28_A	2M20_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q5VV43|K0319_HUMAN	29.9	2N28_A	6NZ0_Z	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q5VWQ8|DAB2P_HUMAN	29.9	2N28_A	3BXJ_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q5VY43|PEAR1_HUMAN	29.9	2N28_A	4XBM_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q5VZ72|IZUM3_HUMAN	29.9	2N28_A	5JK9_D	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q685J3|MUC17_HUMAN	29.9	2N28_A	6UJA_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6GTX8|LAIR1_HUMAN	29.9	2N28_A	5OR7_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6GV28|TM225_HUMAN	29.9	2N28_A	3X29_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q6H3X3|ULBP5_HUMAN	29.9	2N28_A	1A6Z_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6ICI0|TM211_HUMAN	29.9	2N28_A	6C14_D	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q6IEE7|T132E_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6NUJ2|CK087_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6P1M9|ARMX5_HUMAN	29.9	2N28_A	4HXT_A	4P6Z_V	4P6Z_G
+sp|P05919|VPU_HV1H2	sp|Q6P9G4|TM154_HUMAN	29.9	2N28_A	6N3Q_E	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6TDP4|KLH17_HUMAN	29.9	2N28_A	4YY8_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6UVK1|CSPG4_HUMAN	29.9	2N28_A	3POY_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6UW88|EPGN_HUMAN	29.9	2N28_A	1XDT_R	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6UWF3|SCIMP_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6UWT2|ENHO_HUMAN	29.9	2N28_A	6C13_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6UWV7|SHL2A_HUMAN	29.9	2N28_A	5M0W_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6UWW9|TM207_HUMAN	29.9	2N28_A	6C13_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6UX15|LAYN_HUMAN	29.9	2N28_A	6RYG_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6UX34|SNORC_HUMAN	29.9	2N28_A	2LOH_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6UXF1|TM108_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6UXU4|GSG1L_HUMAN	29.9	2N28_A	5VOU_F	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q6UXU6|TMM92_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6V0I7|FAT4_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6V1P9|PCD23_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6VEQ5|WASH2_HUMAN	29.9	2N28_A	6UHC_I	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6ZMI3|GLDN_HUMAN	29.9	2N28_A	4D7C_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6ZP80|TM182_HUMAN	29.9	2N28_A	6DLZ_B	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q6ZTQ4|CDHR3_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6ZUX7|LHPL2_HUMAN	29.9	2N28_A	6C14_D	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q6ZW33|MICLK_HUMAN	29.9	2N28_A	5LPN_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6ZW49|PAXI1_HUMAN	29.9	2N28_A	6J0Y_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q70E73|RAPH1_HUMAN	29.9	2N28_A	6E31_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q70EK9|UBP51_HUMAN	29.9	2N28_A	6TBM_Q	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q70JA7|CHSS3_HUMAN	29.9	2N28_A	2J0A_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q7Z429|LFG1_HUMAN	29.9	2N28_A	6NQ7_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q7Z692|CEA19_HUMAN	29.9	2N28_A	6J8H_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q7Z7J7|LHPL4_HUMAN	29.9	2N28_A	6C14_D	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q7Z7M8|B3GN8_HUMAN	29.9	2N28_A	2J0A_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q86SJ6|DSG4_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q86SU0|ILDR1_HUMAN	29.9	2N28_A	5XSY_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q86T65|DAAM2_HUMAN	29.9	2N28_A	2J1D_G	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q86TB9|PATL1_HUMAN	29.9	2N28_A	2XES_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q86UP0|CAD24_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q86UP9|LHPL3_HUMAN	29.9	2N28_A	6C14_D	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q86VB7|C163A_HUMAN	29.9	2N28_A	5A2E_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q86WI0|LHPL1_HUMAN	29.9	2N28_A	6C14_D	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q86X29|LSR_HUMAN	29.9	2N28_A	5XSY_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q86YL7|PDPN_HUMAN	29.9	2N28_A	2LCX_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8IWV1|LAX1_HUMAN	29.9	2N28_A	2LCX_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8IXH8|CAD26_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8IY95|TM192_HUMAN	29.9	2N28_A	4GBR_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8IYJ0|PIANP_HUMAN	29.9	2N28_A	6J8H_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8IYR6|TEFF1_HUMAN	29.9	2N28_A	2ARP_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8IYY4|DZI1L_HUMAN	29.9	2N28_A	3NA7_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8IZA0|K319L_HUMAN	29.9	2N28_A	6NZ0_Z	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8IZP7|H6ST3_HUMAN	29.9	2N28_A	5T05_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8IZP9|AGRG2_HUMAN	29.9	2N28_A	6LML_R	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8N114|SHSA5_HUMAN	29.9	2N28_A	5M0W_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8N144|CXD3_HUMAN	29.9	2N28_A	6MHQ_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8N292|GAPT_HUMAN	29.9	2N28_A	2M0B_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8N386|LRC25_HUMAN	29.9	2N28_A	3J0A_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8N3T6|T132C_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8N3X1|FNBP4_HUMAN	29.9	2N28_A	2JX8_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8N414|PGBD5_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8N699|MYCT1_HUMAN	29.9	2N28_A	2MOF_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8N6F1|CLD19_HUMAN	29.9	2N28_A	3X29_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q8N6Y1|PCD20_HUMAN	29.9	2N28_A	6C13_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8N7P3|CLD22_HUMAN	29.9	2N28_A	6AKF_C	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q8N8Z6|DCBD1_HUMAN	29.9	2N28_A	6BRJ_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8N9I0|SYT2_HUMAN	29.9	2N28_A	5W5C_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8NBL3|T178A_HUMAN	29.9	2N28_A	6NJN_F	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q8NBV8|SYT8_HUMAN	29.9	2N28_A	5W5C_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8NCR9|CLRN3_HUMAN	29.9	2N28_A	6JPA_E	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8NDY8|TMM52_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8NEA6|GLIS3_HUMAN	29.9	2N28_A	2GLI_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8NEN9|PDZD8_HUMAN	29.9	2N28_A	4P42_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8NEQ5|CA162_HUMAN	29.9	2N28_A	5OR7_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8NFY4|SEM6D_HUMAN	29.9	2N28_A	3AL8_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8NHS1|CLDN2_HUMAN	29.9	2N28_A	3X29_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q8NHV5|MOSMO_HUMAN	29.9	2N28_A	4P79_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q8TAB3|PCD19_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8TAF8|LHPL5_HUMAN	29.9	2N28_A	6C14_D	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q8TAZ6|CKLF2_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8TB68|PRR7_HUMAN	29.9	2N28_A	6C13_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8TB96|TIP_HUMAN	29.9	2N28_A	5KIS_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8TDW7|FAT3_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8TE59|ATS19_HUMAN	29.9	2N28_A	6QIG_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8TF30|WHAMM_HUMAN	29.9	2N28_A	5X1G_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8WVE6|TM171_HUMAN	29.9	2N28_A	5TCX_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8WVN6|SCTM1_HUMAN	29.9	2N28_A	6J8H_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8WXI7|MUC16_HUMAN	29.9	2N28_A	1IVZ_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8WXS4|CCGL_HUMAN	29.9	2N28_A	5B2G_E	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q8WXS5|CCG8_HUMAN	29.9	2N28_A	6QKC_I	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q92956|TNR14_HUMAN	29.9	2N28_A	1JMA_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q969X1|LFG3_HUMAN	29.9	2N28_A	6NQ7_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q96A59|MALD3_HUMAN	29.9	2N28_A	6C14_D	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q96B33|CLD23_HUMAN	29.9	2N28_A	6AKE_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q96EV2|RBM33_HUMAN	29.9	2N28_A	6ODM_O	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96F05|CK024_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96F46|I17RA_HUMAN	29.9	2N28_A	5N9B_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96FX8|PERP_HUMAN	29.9	2N28_A	3X29_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q96GP6|SREC2_HUMAN	29.9	2N28_A	6UJA_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96HA1|P121A_HUMAN	29.9	2N28_A	4YI0_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96J86|CYYR1_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96JP9|CDHR1_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96JQ0|PCD16_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96K80|ZC3HA_HUMAN	29.9	2N28_A	6FBS_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96L08|SUSD3_HUMAN	29.9	2N28_A	6J8H_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96PD2|DCBD2_HUMAN	29.9	2N28_A	6BSD_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96QU1|PCD15_HUMAN	29.9	2N28_A	6C13_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96RJ3|TR13C_HUMAN	29.9	2N28_A	4V46_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96TA0|PCDBI_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q99590|SCAFB_HUMAN	29.9	2N28_A	5VZV_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9BQJ4|TMM47_HUMAN	29.9	2N28_A	3X29_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q9BQS2|SYT15_HUMAN	29.9	2N28_A	1DQV_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9BQT9|CSTN3_HUMAN	29.9	2N28_A	6BXZ_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9BSN7|TM204_HUMAN	29.9	2N28_A	4P79_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q9BT22|ALG1_HUMAN	29.9	2N28_A	3C4V_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9BT88|SYT11_HUMAN	29.9	2N28_A	1DQV_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9BUJ2|HNRL1_HUMAN	29.9	2N28_A	5TAP_E	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9BXS0|COPA1_HUMAN	29.9	2N28_A	3HQV_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9BXT2|CCG6_HUMAN	29.9	2N28_A	6JP8_E	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q9BYE2|TMPSD_HUMAN	29.9	2N28_A	1Z8G_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9BYE9|CDHR2_HUMAN	29.9	2N28_A	6C13_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9BYF1|ACE2_HUMAN	29.9	2N28_A	6M18_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9BZA7|PC11X_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9BZA8|PC11Y_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9BZD6|TMG4_HUMAN	29.9	2N28_A	1J34_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9C0C4|SEM4C_HUMAN	29.9	2N28_A	6QP8_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9C0D6|FHDC1_HUMAN	29.9	2N28_A	3O4X_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H013|ADA19_HUMAN	29.9	2N28_A	3G5C_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H0V9|LMA2L_HUMAN	29.9	2N28_A	2DUR_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H158|PCDC1_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H159|CAD19_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H161|ALX4_HUMAN	29.9	2N28_A	1MH3_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H1B5|XYLT2_HUMAN	29.9	2N28_A	6FOA_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H1B7|I2BPL_HUMAN	29.9	2N28_A	2CS3_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H1U4|MEGF9_HUMAN	29.9	2N28_A	4AQS_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H251|CAD23_HUMAN	29.9	2N28_A	4AK1_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H2E6|SEM6A_HUMAN	29.9	2N28_A	3AL8_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H2U9|ADAM7_HUMAN	29.9	2N28_A	2E3X_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H3T2|SEM6C_HUMAN	29.9	2N28_A	3AL8_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H4D0|CSTN2_HUMAN	29.9	2N28_A	5KJ4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H5V8|CDCP1_HUMAN	29.9	2N28_A	3KQ4_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H6X2|ANTR1_HUMAN	29.9	2N28_A	3N2N_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H7P6|MB12B_HUMAN	29.9	2N28_A	3TOW_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9HAR2|AGRL3_HUMAN	29.9	2N28_A	6VHH_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9HAV5|TNR27_HUMAN	29.9	2N28_A	5T2Q_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9HBB8|CDHR5_HUMAN	29.9	2N28_A	6OAE_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9HBJ8|CLTRN_HUMAN	29.9	2N28_A	6M18_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9HBT6|CAD20_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9HBV2|SACA1_HUMAN	29.9	2N28_A	5F4E_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9HC56|PCDH9_HUMAN	29.9	2N28_A	6C13_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9HCL0|PCD18_HUMAN	29.9	2N28_A	6VG1_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9HCM3|K1549_HUMAN	29.9	2N28_A	2KNC_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9HCU0|CD248_HUMAN	29.9	2N28_A	4C16_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9HCU4|CELR2_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NPG4|PCD12_HUMAN	29.9	2N28_A	6C13_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NPR2|SEM4B_HUMAN	29.9	2N28_A	6QP8_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NQA3|WASH6_HUMAN	29.9	2N28_A	4JHD_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NQS5|GPR84_HUMAN	29.9	2N28_A	5DSG_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NR16|C163B_HUMAN	29.9	2N28_A	5A2E_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NRJ7|PCDBG_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NS62|THSD1_HUMAN	29.9	2N28_A	3VDJ_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NSV4|DIAP3_HUMAN	29.9	2N28_A	3O4X_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NV12|TM140_HUMAN	29.9	2N28_A	6JPA_E	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q9NV29|TM100_HUMAN	29.9	2N28_A	2LCX_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NWQ8|PHAG1_HUMAN	29.9	2N28_A	2RSY_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NX94|WBP1L_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NY35|CLDN1_HUMAN	29.9	2N28_A	6QKC_I	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q9NYQ6|CELR1_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NYQ7|CELR3_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NYQ8|FAT2_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NZ53|PDXL2_HUMAN	29.9	2N28_A	6JXR_n	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9P203|BTBD7_HUMAN	29.9	2N28_A	4U2N_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9P2E7|PCD10_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9P2S2|NRX2A_HUMAN	29.9	2N28_A	3QCW_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UBN1|CCG4_HUMAN	29.9	2N28_A	6NJN_F	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q9UF02|CCG5_HUMAN	29.9	2N28_A	6NJN_F	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q9UI08|EVL_HUMAN	29.9	2N28_A	1QC6_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UIK5|TEFF2_HUMAN	29.9	2N28_A	2ARP_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UJ99|CAD22_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UK00|CC018_HUMAN	29.9	2N28_A	2N5S_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UKN1|MUC12_HUMAN	29.9	2N28_A	6UJB_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UL52|TM11E_HUMAN	29.9	2N28_A	1MD8_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9ULB4|CADH9_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9ULB5|CADH7_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9ULI3|HEG1_HUMAN	29.9	2N28_A	4UM8_D	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9ULT6|ZNRF3_HUMAN	29.9	2N28_A	4CDK_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9ULX6|AKP8L_HUMAN	29.9	2N28_A	1ZU1_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9ULX7|CAH14_HUMAN	29.9	2N28_A	5CJF_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UMD9|COHA1_HUMAN	29.9	2N28_A	3HQV_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UMR7|CLC4A_HUMAN	29.9	2N28_A	5B1W_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UN66|PCDB8_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UN67|PCDBA_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UN70|PCDGK_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UN71|PCDGG_HUMAN	29.9	2N28_A	6E6B_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UN72|PCDA7_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UN73|PCDA6_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UN74|PCDA4_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UN75|PCDAC_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UNG2|TNF18_HUMAN	29.9	2N28_A	2R32_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UP38|FZD1_HUMAN	29.9	2N28_A	5V56_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UPP2|IQEC3_HUMAN	29.9	2N28_A	4C0A_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UPT8|ZC3H4_HUMAN	29.9	2N28_A	2CQE_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UPY6|WASF3_HUMAN	29.9	2N28_A	4N78_D	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y4C5|CHST2_HUMAN	29.9	2N28_A	2Z5F_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y4D7|PLXD1_HUMAN	29.9	2N28_A	6VXK_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5E1|PCDB9_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5E2|PCDB7_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5E3|PCDB6_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5E4|PCDB5_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5E5|PCDB4_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5E6|PCDB3_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5E7|PCDB2_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5E8|PCDBF_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5E9|PCDBE_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5F0|PCDBD_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5F1|PCDBC_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5F2|PCDBB_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5F3|PCDB1_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5F6|PCDGM_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5F7|PCDGL_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5F8|PCDGJ_HUMAN	29.9	2N28_A	6E6B_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5F9|PCDGI_HUMAN	29.9	2N28_A	6E6B_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5G0|PCDGH_HUMAN	29.9	2N28_A	6E6B_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5G1|PCDGF_HUMAN	29.9	2N28_A	6E6B_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5G2|PCDGE_HUMAN	29.9	2N28_A	6E6B_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5G3|PCDGD_HUMAN	29.9	2N28_A	6E6B_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5G4|PCDG9_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5G5|PCDG8_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5G6|PCDG7_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5G7|PCDG6_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5G8|PCDG5_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5G9|PCDG4_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5H0|PCDG3_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5H1|PCDG2_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5H2|PCDGB_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5H3|PCDGA_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5H4|PCDG1_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5H5|PCDA9_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5H6|PCDA8_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5H7|PCDA5_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5H8|PCDA3_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5H9|PCDA2_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5I0|PCDAD_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5I1|PCDAB_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5I2|PCDAA_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5I3|PCDA1_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5I4|PCDC2_HUMAN	29.9	2N28_A	6VG4_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5I7|CLD16_HUMAN	29.9	2N28_A	4P79_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q9Y5Z0|BACE2_HUMAN	29.9	2N28_A	3LPJ_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y693|LHPL6_HUMAN	29.9	2N28_A	6C14_D	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q9Y698|CCG2_HUMAN	29.9	2N28_A	6NJN_F	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q9Y6H8|CXA3_HUMAN	29.9	2N28_A	6MHQ_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y6N8|CAD10_HUMAN	29.9	2N28_A	1Q5B_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y6Q6|TNR11_HUMAN	29.9	2N28_A	5BNQ_R	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	tr|A0A0G2JKD1|A0A0G2JKD1_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	tr|A0A140T8X8|A0A140T8X8_HUMAN	29.9	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P69723|VIF_HV1H2	sp|Q5XKL5|BTBD8_HUMAN	29.9	4N9F_b	4U2M_D	4N9F_b	4AJY_C
+sp|Q5T6X5|GPC6A_HUMAN	sp|P04578|ENV_HV1H2	29.9	6N4X_A	6PWU_E	6MEO_B	3J70_P
+sp|Q7Z3F1|GP155_HUMAN	sp|P04578|ENV_HV1H2	29.9	6OT0_R	6PWU_E	6MEO_B	3J70_P
+sp|Q8WVN6|SCTM1_HUMAN	sp|P04585|POL_HV1H2	29.9	6J8H_C	1L6N_A	6CPL_A	2XXM_A
+sp|Q8WVN6|SCTM1_HUMAN	sp|P04591|GAG_HV1H2	29.9	6J8H_C	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|P13598|ICAM2_HUMAN	29.8	6PWU_E	3TCX_S	6PWU_E	6ULC_L
+sp|P04578|ENV_HV1H2	sp|P53539|FOSB_HUMAN	29.8	6PWU_E	6MG2_B	2X7R_N	1FAV_A
+sp|P04585|POL_HV1H2	sp|O75781|PALM_HUMAN	29.8	1L6N_A	5WJB_B	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|P11161|EGR2_HUMAN	29.8	1L6N_A	4X9J_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|P21817|RYR1_HUMAN	29.8	1L6N_A	6JIY_J	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P57082|TBX4_HUMAN	29.8	1L6N_A	5BQD_A	5FMF_R	1NH2_D
+sp|P04585|POL_HV1H2	sp|Q16527|CSRP2_HUMAN	29.8	1L6N_A	1B8T_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q53HC5|KLH26_HUMAN	29.8	1L6N_A	4YY8_A	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|Q6PH81|CP087_HUMAN	29.8	1L6N_A	3VPB_E	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q6SJ96|TBPL2_HUMAN	29.8	1L6N_A	5IY8_P	5FMF_R	6GYM_O
+sp|P04585|POL_HV1H2	sp|Q86WT6|TRI69_HUMAN	29.8	1L6N_A	4CFG_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q8IZX4|TAF1L_HUMAN	29.8	1L6N_A	5FUR_G	6R24_C	6R24_C
+sp|P04585|POL_HV1H2	sp|Q8N3R3|TCAIM_HUMAN	29.8	1L6N_A	6SGB_F	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9H8W4|PKHF2_HUMAN	29.8	1L6N_A	3MPX_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|O75781|PALM_HUMAN	29.8	1L6N_A	5WJB_B	6DNH_C	6URO_B
+sp|P05388|RLA0_HUMAN	sp|P04591|GAG_HV1H2	29.8	4V6I_B	1L6N_A	4V7F_n	5UDH_B
+sp|P0CG21|NHLC4_HUMAN	sp|P04591|GAG_HV1H2	29.8	3HRP_A	1L6N_A	6EM5_p	5UDH_B
+sp|P04591|GAG_HV1H2	sp|P11161|EGR2_HUMAN	29.8	1L6N_A	4X9J_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|P16118|F261_HUMAN	29.8	1L6N_A	5HTK_A	6N9X_B	5IKN_H
+sp|P18124|RL7_HUMAN	sp|P04591|GAG_HV1H2	29.8	4V8M_B	1L6N_A	4V7F_r	5UDH_B
+sp|P49642|PRI1_HUMAN	sp|P04591|GAG_HV1H2	29.8	6RB4_A	1L6N_A	6N7I_C	6N9X_B
+sp|P04591|GAG_HV1H2	sp|P54098|DPOG1_HUMAN	29.8	1L6N_A	3IKM_A	6N9X_B	1T8E_A
+sp|P04591|GAG_HV1H2	sp|P57082|TBX4_HUMAN	29.8	1L6N_A	5BQD_A	5FMF_R	1NH2_D
+sp|P04591|GAG_HV1H2	sp|Q01780|EXOSX_HUMAN	29.8	1L6N_A	6D6R_J	6N9X_B	1T8E_A
+sp|P04591|GAG_HV1H2	sp|Q07864|DPOE1_HUMAN	29.8	1L6N_A	6WJV_A	6N9X_B	1T8E_A
+sp|P04591|GAG_HV1H2	sp|Q14202|ZMYM3_HUMAN	29.8	1L6N_A	2DAS_A	5UDH_B	5UDH_A
+sp|Q14993|COJA1_HUMAN	sp|P04591|GAG_HV1H2	29.8	3HQV_C	1L6N_A	6EM5_n	5UDH_B
+sp|P04591|GAG_HV1H2	sp|Q16527|CSRP2_HUMAN	29.8	1L6N_A	1B8T_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q16875|F263_HUMAN	29.8	1L6N_A	2AXN_A	6N9X_B	5IKN_H
+sp|P04591|GAG_HV1H2	sp|Q5EBN2|TRI61_HUMAN	29.8	1L6N_A	4CFG_A	5UDH_B	5UDH_A
+sp|P04591|GAG_HV1H2	sp|Q5VVQ6|OTU1_HUMAN	29.8	1L6N_A	3C0R_C	5TTE_B	4II2_B
+sp|Q6DKI1|RL7L_HUMAN	sp|P04591|GAG_HV1H2	29.8	5XY3_F	1L6N_A	4V7F_r	5UDH_B
+sp|P04591|GAG_HV1H2	sp|Q6PH81|CP087_HUMAN	29.8	1L6N_A	3VPB_E	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|Q6SJ96|TBPL2_HUMAN	29.8	1L6N_A	5IY8_P	5FMF_R	6GYM_O
+sp|P04591|GAG_HV1H2	sp|Q7Z5Q5|DPOLN_HUMAN	29.8	1L6N_A	4XVL_A	6N9X_B	1T8E_A
+sp|Q7Z6Z7|HUWE1_HUMAN	sp|P04591|GAG_HV1H2	29.8	5LP8_A	1L6N_A	6EM5_m	5UDH_B
+sp|Q7Z7H8|RM10_HUMAN	sp|P04591|GAG_HV1H2	29.8	6GAW_B	1L6N_A	4V7F_n	5UDH_B
+sp|P04591|GAG_HV1H2	sp|Q8IZX4|TAF1L_HUMAN	29.8	1L6N_A	5FUR_G	6R23_B	6R23_B
+sp|Q8N123|CPXCR_HUMAN	sp|P04591|GAG_HV1H2	29.8	5AAZ_A	1L6N_A	6N7I_C	6N9X_B
+sp|P04591|GAG_HV1H2	sp|Q8N3R3|TCAIM_HUMAN	29.8	1L6N_A	6SGB_F	6BK8_O	5MQ0_t
+sp|Q8NHW5|RLA0L_HUMAN	sp|P04591|GAG_HV1H2	29.8	4V6I_B	1L6N_A	4V7F_n	5UDH_B
+sp|Q8TCC3|RM30_HUMAN	sp|P04591|GAG_HV1H2	29.8	6I9R_Z	1L6N_A	4V7F_r	5UDH_B
+sp|P04591|GAG_HV1H2	sp|Q96AZ6|ISG20_HUMAN	29.8	1L6N_A	1WLJ_A	6N9X_B	1T8E_A
+sp|P04591|GAG_HV1H2	sp|Q9BQ50|TREX2_HUMAN	29.8	1L6N_A	1Y97_A	6N9X_B	1T8E_A
+sp|P04591|GAG_HV1H2	sp|Q9GZR2|REXO4_HUMAN	29.8	1L6N_A	6R5K_A	6N9X_B	1T8E_A
+sp|P04591|GAG_HV1H2	sp|Q9NSU2|TREX1_HUMAN	29.8	1L6N_A	3U3Y_B	6N9X_B	1T8E_A
+sp|Q9UKD2|MRT4_HUMAN	sp|P04591|GAG_HV1H2	29.8	4V7F_n	1L6N_A	4V7F_n	5UDH_B
+sp|P04608|TAT_HV1H2	sp|O15303|GRM6_HUMAN	29.8	3MI9_C	6N4X_A	4OGR_D	4OGR_D
+sp|P04618|REV_HV1H2	sp|Q6P7N7|TMM81_HUMAN	29.8	2X7L_R	5JK9_D	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|A0A1B0GTY4|TEX50_HUMAN	29.8	2N28_A	2N5S_A	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|A0A1B0GVN3|CB092_HUMAN	29.8	2N28_A	1OGO_X	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O00461|GOLI4_HUMAN	29.8	2N28_A	4CGK_A	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|O43561|LAT_HUMAN	29.8	2N28_A	4XYD_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O60235|TM11D_HUMAN	29.8	2N28_A	4BXW_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O75829|CNMD_HUMAN	29.8	2N28_A	2YAD_C	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|P02452|CO1A1_HUMAN	29.8	2N28_A	3HQV_C	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|P02786|TFR1_HUMAN	29.8	2N28_A	6OKD_B	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|P21583|SCF_HUMAN	29.8	2N28_A	1SCF_A	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|Q12912|IRAG2_HUMAN	29.8	2N28_A	5IJO_G	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|Q15768|EFNB3_HUMAN	29.8	2N28_A	4BKF_D	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|Q24JP5|T132A_HUMAN	29.8	2N28_A	5XTC_a	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q3MIR4|CC50B_HUMAN	29.8	2N28_A	6K7G_C	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|Q684P5|RPGP2_HUMAN	29.8	2N28_A	1SRQ_C	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|Q6NYC8|PPR18_HUMAN	29.8	2N28_A	3TU5_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8IU57|INLR1_HUMAN	29.8	2N28_A	3BES_R	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|Q8N6S5|AR6P6_HUMAN	29.8	2N28_A	2KNC_A	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|Q8WUM9|S20A1_HUMAN	29.8	2N28_A	3WDO_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8WUU8|TM174_HUMAN	29.8	2N28_A	1SCF_B	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|Q8WWG1|NRG4_HUMAN	29.8	2N28_A	5WB8_B	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|Q9NZ43|USE1_HUMAN	29.8	2N28_A	3HD7_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NZ45|CISD1_HUMAN	29.8	2N28_A	4EZF_B	1SCF_A	1SCF_A
+sp|P69726|VPR_HV1H2	sp|Q969R8|ITFG2_HUMAN	29.8	1ESX_A	4YD8_A	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q9Y603|ETV7_HUMAN	29.8	1ESX_A	4MHG_A	5AJA_B	5AJA_C
+sp|A6NHQ2|FBLL1_HUMAN	sp|P04591|GAG_HV1H2	29.8	5WLC_S	1L6N_A	6EM5_w	5UDH_B
+sp|A8MUP2|CSKMT_HUMAN	sp|P04591|GAG_HV1H2	29.8	2PXX_A	1L6N_A	6EM5_w	5UDH_B
+sp|O43148|MCES_HUMAN	sp|P04591|GAG_HV1H2	29.8	5E9W_A	1L6N_A	6EM5_w	5UDH_B
+sp|O43709|BUD23_HUMAN	sp|P04591|GAG_HV1H2	29.8	6G4W_q	1L6N_A	6EM5_w	5UDH_B
+sp|O75493|CAH11_HUMAN	sp|P04591|GAG_HV1H2	29.8	3JXF_B	1L6N_A	6EM5_n	5UDH_B
+sp|P09693|CD3G_HUMAN	sp|P04601|NEF_HV1H2	29.8	6JXR_g	3TB8_A	5XOV_H	3TB8_A
+sp|P18887|XRCC1_HUMAN	sp|P04591|GAG_HV1H2	29.8	3LQC_A	1L6N_A	6EM5_n	5UDH_B
+sp|P22061|PIMT_HUMAN	sp|P04591|GAG_HV1H2	29.8	1I1N_A	1L6N_A	6EM5_w	5UDH_B
+sp|P22087|FBRL_HUMAN	sp|P04591|GAG_HV1H2	29.8	5WLC_S	1L6N_A	6EM5_w	5UDH_B
+sp|P46087|NOP2_HUMAN	sp|P04591|GAG_HV1H2	29.8	6ELZ_q	1L6N_A	6EM5_w	5UDH_B
+sp|P49916|DNLI3_HUMAN	sp|P04591|GAG_HV1H2	29.8	3L2P_A	1L6N_A	6EM5_n	5UDH_B
+sp|P49917|DNLI4_HUMAN	sp|P04591|GAG_HV1H2	29.8	3W1B_A	1L6N_A	6EM5_n	5UDH_B
+sp|P52788|SPSY_HUMAN	sp|P04591|GAG_HV1H2	29.8	3C6K_B	1L6N_A	6EM5_w	5UDH_B
+sp|Q01955|CO4A3_HUMAN	sp|P04591|GAG_HV1H2	29.8	6MPX_A	1L6N_A	4V7F_n	5UDH_B
+sp|Q03701|CEBPZ_HUMAN	sp|P04591|GAG_HV1H2	29.8	6RXU_U	1L6N_A	6EM5_I	5UDH_B
+sp|Q08J23|NSUN2_HUMAN	sp|P04591|GAG_HV1H2	29.8	6ELZ_q	1L6N_A	6EM5_w	5UDH_B
+sp|Q14676|MDC1_HUMAN	sp|P04591|GAG_HV1H2	29.8	3K05_B	1L6N_A	6EM5_n	5UDH_B
+sp|Q1RMZ1|SAMTR_HUMAN	sp|P04591|GAG_HV1H2	29.8	3FZG_A	1L6N_A	6EM5_w	5UDH_B
+sp|Q5VUB5|F1711_HUMAN	sp|P04585|POL_HV1H2	29.8	2M20_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q5VUB5|F1711_HUMAN	sp|P04591|GAG_HV1H2	29.8	2M20_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q5VZV1|MT21C_HUMAN	sp|P04591|GAG_HV1H2	29.8	4MTL_B	1L6N_A	6EM5_w	5UDH_B
+sp|Q6FI81|CPIN1_HUMAN	sp|P04591|GAG_HV1H2	29.8	4M7R_B	1L6N_A	6EM5_w	5UDH_B
+sp|Q6UX53|MET7B_HUMAN	sp|P04591|GAG_HV1H2	29.8	5EPE_A	1L6N_A	6EM5_w	5UDH_B
+sp|Q7L2J0|MEPCE_HUMAN	sp|P04591|GAG_HV1H2	29.8	6DCB_A	1L6N_A	6EM5_w	5UDH_B
+sp|Q7Z4G4|TRM11_HUMAN	sp|P04591|GAG_HV1H2	29.8	5E71_A	1L6N_A	6EM5_w	5UDH_B
+sp|Q86V87|F16B2_HUMAN	sp|P04591|GAG_HV1H2	29.8	6AZ3_c	1L6N_A	4V7F_r	5UDH_B
+sp|Q8IY81|SPB1_HUMAN	sp|P04591|GAG_HV1H2	29.8	6EM5_w	1L6N_A	6EM5_w	5UDH_B
+sp|Q8IYT2|CMTR2_HUMAN	sp|P04591|GAG_HV1H2	29.8	4GUA_A	1L6N_A	6EM5_w	5UDH_B
+sp|Q8IZF4|AGRG5_HUMAN	sp|P04578|ENV_HV1H2	29.8	5KVM_A	6PWU_E	6MEO_B	3J70_P
+sp|Q8N1G2|CMTR1_HUMAN	sp|P04591|GAG_HV1H2	29.8	4N48_B	1L6N_A	6EM5_w	5UDH_B
+sp|Q8NEM0|MCPH1_HUMAN	sp|P04591|GAG_HV1H2	29.8	3U3Z_A	1L6N_A	6EM5_n	5UDH_B
+sp|Q8TEA1|NSUN6_HUMAN	sp|P04591|GAG_HV1H2	29.8	5WWQ_B	1L6N_A	6EM5_w	5UDH_B
+sp|Q92547|TOPB1_HUMAN	sp|P04591|GAG_HV1H2	29.8	2XNK_A	1L6N_A	6EM5_n	5UDH_B
+sp|Q96BT7|ALKB8_HUMAN	sp|P04591|GAG_HV1H2	29.8	3THT_B	1L6N_A	6EM5_w	5UDH_B
+sp|Q96CB9|NSUN4_HUMAN	sp|P04591|GAG_HV1H2	29.8	4FZV_A	1L6N_A	6EM5_w	5UDH_B
+sp|Q96P11|NSUN5_HUMAN	sp|P04591|GAG_HV1H2	29.8	2B9E_A	1L6N_A	6EM5_w	5UDH_B
+sp|Q9BTF0|THUM2_HUMAN	sp|P04591|GAG_HV1H2	29.8	3LDU_A	1L6N_A	6EM5_w	5UDH_B
+sp|Q9BV44|THUM3_HUMAN	sp|P04591|GAG_HV1H2	29.8	3K0B_A	1L6N_A	6EM5_w	5UDH_B
+sp|Q9BVI4|NOC4L_HUMAN	sp|P04591|GAG_HV1H2	29.8	6RXY_U	1L6N_A	6EM5_I	5UDH_B
+sp|Q9H649|NSUN3_HUMAN	sp|P04591|GAG_HV1H2	29.8	4FZV_A	1L6N_A	6EM5_w	5UDH_B
+sp|Q9H8V3|ECT2_HUMAN	sp|P04591|GAG_HV1H2	29.8	6L30_A	1L6N_A	6EM5_n	5UDH_B
+sp|Q9HDC9|APMAP_HUMAN	sp|P04591|GAG_HV1H2	29.8	2FPB_A	1L6N_A	6EM5_p	5UDH_B
+sp|Q9NYB0|TE2IP_HUMAN	sp|P04591|GAG_HV1H2	29.8	3K6G_C	1L6N_A	6EM5_n	5UDH_B
+sp|Q9NZM5|NOP53_HUMAN	sp|P04591|GAG_HV1H2	29.8	3JCT_q	1L6N_A	6EM5_m	5UDH_B
+sp|Q9P272|TRM9B_HUMAN	sp|P04591|GAG_HV1H2	29.8	5CM2_Z	1L6N_A	6EM5_w	5UDH_B
+sp|Q9UBP6|TRMB_HUMAN	sp|P04591|GAG_HV1H2	29.8	3CKK_A	1L6N_A	6EM5_w	5UDH_B
+sp|Q9UBZ9|REV1_HUMAN	sp|P04591|GAG_HV1H2	29.8	3GQC_D	1L6N_A	6EM5_n	5UDH_B
+sp|Q9UET6|TRM7_HUMAN	sp|P04591|GAG_HV1H2	29.8	6JPL_B	1L6N_A	6EM5_w	5UDH_B
+sp|Q9UI43|MRM2_HUMAN	sp|P04591|GAG_HV1H2	29.8	6JPL_B	1L6N_A	6EM5_w	5UDH_B
+sp|Q9Y5B0|CTDP1_HUMAN	sp|P04591|GAG_HV1H2	29.8	3EF1_A	1L6N_A	6EM5_n	5UDH_B
+sp|Q9Y5N5|N6MT1_HUMAN	sp|P04591|GAG_HV1H2	29.8	6KMS_C	1L6N_A	6EM5_w	5UDH_B
+sp|P04578|ENV_HV1H2	sp|P0DN25|C1C1L_HUMAN	29.7	6PWU_E	2J0A_A	3U2S_C	5N2K_F
+sp|Q8NET5|NFAM1_HUMAN	sp|P04578|ENV_HV1H2	29.7	5XSY_B	6PWU_E	6UDK_H	4TVP_G
+sp|P04585|POL_HV1H2	sp|P05154|IPSP_HUMAN	29.7	1L6N_A	3KCG_I	4FCY_A	4FCY_B
+sp|P04585|POL_HV1H2	sp|P60321|NANO2_HUMAN	29.7	1L6N_A	3ALR_C	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q12799|TCP10_HUMAN	29.7	1L6N_A	5U5A_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q5TF39|MFS4B_HUMAN	29.7	1L6N_A	3O7P_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q86XP1|DGKH_HUMAN	29.7	1L6N_A	1R79_A	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q8IU89|CERS3_HUMAN	29.7	1L6N_A	1PUF_A	5FMF_R	5FMF_1
+sp|P04585|POL_HV1H2	sp|Q8N8G2|VGLL2_HUMAN	29.7	1L6N_A	5Z2Q_D	6AR3_D	6AR3_D
+sp|P04585|POL_HV1H2	sp|Q8NAP8|ZBT8B_HUMAN	29.7	1L6N_A	5UND_A	5FMF_R	5IP7_L
+sp|Q8NG06|TRI58_HUMAN	sp|P04585|POL_HV1H2	29.7	4CFG_A	1L6N_A	5FMF_I	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q96HD1|CREL1_HUMAN	29.7	1L6N_A	1YO8_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q9NUM4|T106B_HUMAN	29.7	1L6N_A	2CTT_A	1WJB_A	1WJB_A
+sp|P04585|POL_HV1H2	sp|Q9UHB9|SRP68_HUMAN	29.7	1L6N_A	6FRK_u	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|Q5TF39|MFS4B_HUMAN	29.7	1L6N_A	3O7P_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8IU89|CERS3_HUMAN	29.7	1L6N_A	1PUF_A	5FMF_R	5FMF_1
+sp|P04591|GAG_HV1H2	sp|Q8NAP8|ZBT8B_HUMAN	29.7	1L6N_A	5UND_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q8WVY7|UBCP1_HUMAN	29.7	1L6N_A	3SHQ_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q96HD1|CREL1_HUMAN	29.7	1L6N_A	1YO8_A	5FMF_R	4V1N_M
+sp|P04608|TAT_HV1H2	sp|Q6NW34|NEPRO_HUMAN	29.7	3MI9_C	7C79_L	4OGR_D	4OGR_D
+sp|P05919|VPU_HV1H2	sp|B0FP48|UPK3L_HUMAN	29.7	2N28_A	6JXR_n	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|E5RIL1|UPKL2_HUMAN	29.7	2N28_A	6JXR_n	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P10632|CP2C8_HUMAN	29.7	2N28_A	5XXI_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8N387|MUC15_HUMAN	29.7	2N28_A	2KNC_B	6C14_A	6C14_A
+sp|P25705|ATPA_HUMAN	sp|P04601|NEF_HV1H2	29.7	6F5D_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P78325|ADAM8_HUMAN	sp|P04585|POL_HV1H2	29.7	5Y31_A	1L6N_A	6CPL_A	2XXM_A
+sp|P78325|ADAM8_HUMAN	sp|P04591|GAG_HV1H2	29.7	5Y31_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q13291|SLAF1_HUMAN	sp|P04601|NEF_HV1H2	29.7	3ALZ_B	3TB8_A	5XOV_H	3TB8_A
+sp|Q96BR5|COA7_HUMAN	sp|P04585|POL_HV1H2	29.7	6ORC_A	1L6N_A	6ICZ_J	6ICZ_Z
+sp|Q96BR5|COA7_HUMAN	sp|P04591|GAG_HV1H2	29.7	6ORC_A	1L6N_A	6ICZ_J	6ICZ_Z
+sp|Q9HBJ8|CLTRN_HUMAN	sp|P04585|POL_HV1H2	29.7	6M18_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q9HBJ8|CLTRN_HUMAN	sp|P04591|GAG_HV1H2	29.7	6M18_B	1L6N_A	6CPL_A	2XXM_A
+sp|O75364|PITX3_HUMAN	sp|P04578|ENV_HV1H2	29.6	1MH3_A	6PWU_E	2X7L_R	6BSY_A
+sp|P04585|POL_HV1H2	sp|O14561|ACPM_HUMAN	29.6	1L6N_A	6G2J_U	6TAS_D	6VTJ_A
+sp|P04585|POL_HV1H2	sp|Q06787|FMR1_HUMAN	29.6	1L6N_A	4QW2_A	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|Q9H0X6|RN208_HUMAN	29.6	1L6N_A	6H3A_F	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q9NX58|LYAR_HUMAN	29.6	1L6N_A	2VXD_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q9UFW8|CGBP1_HUMAN	29.6	1L6N_A	4PJO_M	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|O14561|ACPM_HUMAN	29.6	1L6N_A	6G2J_U	6TAS_D	6VTJ_A
+sp|P04591|GAG_HV1H2	sp|P41235|HNF4A_HUMAN	29.6	1L6N_A	4IQR_F	5UDH_B	5UDH_A
+sp|P04591|GAG_HV1H2	sp|Q06787|FMR1_HUMAN	29.6	1L6N_A	4QW2_A	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|Q15649|ZNHI3_HUMAN	29.6	1L6N_A	5L85_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q9HAT8|PELI2_HUMAN	29.6	1L6N_A	3EGA_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9NX58|LYAR_HUMAN	29.6	1L6N_A	2VXD_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q9UFW8|CGBP1_HUMAN	29.6	1L6N_A	4PJO_M	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q9Y242|TCF19_HUMAN	29.6	1L6N_A	1LGQ_A	6QAJ_A	6QAJ_B
+sp|O75364|PITX3_HUMAN	sp|P04618|REV_HV1H2	29.6	1MH3_A	2X7L_R	2X7L_R	6BSY_A
+sp|P05919|VPU_HV1H2	sp|B3KU38|IQIP1_HUMAN	29.6	2N28_A	4WSO_B	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P26951|IL3RA_HUMAN	29.6	2N28_A	6NMY_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q12894|IFRD2_HUMAN	29.6	2N28_A	6MTC_v	4P6Z_V	4P6Z_G
+sp|P05919|VPU_HV1H2	sp|Q9BY64|UDB28_HUMAN	29.6	2N28_A	6INF_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9C0H2|TTYH3_HUMAN	29.6	2N28_A	6JXR_n	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H2B2|SYT4_HUMAN	29.6	2N28_A	6ANK_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H6L5|RETR1_HUMAN	29.6	2N28_A	6UCV_k	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H9K5|MER34_HUMAN	29.6	2N28_A	6QD8_D	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9HD15|SRA1_HUMAN	29.6	2N28_A	2MGX_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UKB5|AJAP1_HUMAN	29.6	2N28_A	6C14_A	6C14_A	6C14_A
+sp|Q14566|MCM6_HUMAN	sp|P04601|NEF_HV1H2	29.6	6XTY_6	3TB8_A	6CRI_L	6CRI_Z
+sp|P04585|POL_HV1H2	sp|A6NCL1|GEMC1_HUMAN	29.5	1L6N_A	5C9N_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|P24863|CCNC_HUMAN	29.5	1L6N_A	4F6U_B	5FMF_R	4V1N_M
+sp|Q12899|TRI26_HUMAN	sp|P04585|POL_HV1H2	29.5	4CFG_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q2M2I5|K1C24_HUMAN	29.5	1L6N_A	3TNU_B	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q49A17|GLTL6_HUMAN	29.5	1L6N_A	2D7R_A	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|Q7Z401|MYCPP_HUMAN	29.5	1L6N_A	6EKK_B	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8TAD4|ZNT5_HUMAN	29.5	1L6N_A	3J1Z_Q	4RGH_A	4RGH_A
+sp|Q92974|ARHG2_HUMAN	sp|P04585|POL_HV1H2	29.5	4MT7_A	1L6N_A	5FMF_I	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q96DX7|TRI44_HUMAN	29.5	1L6N_A	4CFG_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q96HY6|DDRGK_HUMAN	29.5	1L6N_A	1WI9_A	5FMF_R	5FMF_S
+sp|P04585|POL_HV1H2	sp|Q9P2W1|HOP2_HUMAN	29.5	1L6N_A	4Y66_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9Y2T1|AXIN2_HUMAN	29.5	1L6N_A	2D5G_B	4RGH_A	4RGH_A
+sp|P04585|POL_HV1H2	sp|Q9Y2Y4|ZBT32_HUMAN	29.5	1L6N_A	5UND_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|P24863|CCNC_HUMAN	29.5	1L6N_A	4F6U_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q49A17|GLTL6_HUMAN	29.5	1L6N_A	2D7R_A	6ICZ_Z	6ID1_T
+sp|P04591|GAG_HV1H2	sp|Q7Z401|MYCPP_HUMAN	29.5	1L6N_A	6EKK_B	5FMF_R	5IP7_L
+sp|Q92974|ARHG2_HUMAN	sp|P04591|GAG_HV1H2	29.5	4MT7_A	1L6N_A	5FMF_I	5FMF_R
+sp|P04591|GAG_HV1H2	sp|Q96HY6|DDRGK_HUMAN	29.5	1L6N_A	1WI9_A	5FMF_R	5FMF_S
+sp|P04591|GAG_HV1H2	sp|Q96MD7|CI085_HUMAN	29.5	1L6N_A	6IRT_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9NUQ9|CYRIB_HUMAN	29.5	1L6N_A	4N78_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q9UIW0|VAX2_HUMAN	29.5	1L6N_A	6T90_K	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9Y2Y4|ZBT32_HUMAN	29.5	1L6N_A	5UND_A	5FMF_R	5IP7_L
+sp|P04608|TAT_HV1H2	sp|A4QPH2|PI4P2_HUMAN	29.5	3MI9_C	6BQ1_A	4OGR_D	4OR5_F
+sp|P04618|REV_HV1H2	sp|P16410|CTLA4_HUMAN	29.5	2X7L_R	5GGV_Y	6CF2_F	5DHY_A
+sp|P04618|REV_HV1H2	sp|Q9NS98|SEM3G_HUMAN	29.5	2X7L_R	6QP7_B	2X7L_R	5I8O_L
+sp|P05919|VPU_HV1H2	sp|O60927|PP1RB_HUMAN	29.5	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96KN9|CXD4_HUMAN	29.5	2N28_A	5ER7_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9P291|ARMX1_HUMAN	29.5	2N28_A	1XQR_A	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q9Y278|HS3S2_HUMAN	29.5	2N28_A	1T8T_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y2Y6|TMM98_HUMAN	29.5	2N28_A	3AY5_A	6C14_A	6C14_A
+sp|P69723|VIF_HV1H2	sp|Q8TDY2|RBCC1_HUMAN	29.5	4N9F_b	6GMA_D	4N9F_b	2MA9_B
+sp|P69726|VPR_HV1H2	sp|O75694|NU155_HUMAN	29.5	1ESX_A	5A9Q_B	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|P15036|ETS2_HUMAN	29.5	1ESX_A	3WTZ_B	4Z8L_B	4Z8L_F
+sp|P69726|VPR_HV1H2	sp|Q9HDC9|APMAP_HUMAN	29.5	1ESX_A	2FPB_A	5JK7_F	5JK7_E
+sp|P34810|CD68_HUMAN	sp|P04585|POL_HV1H2	29.5	5GV0_A	1L6N_A	6CPL_A	2XXM_A
+sp|P34810|CD68_HUMAN	sp|P04591|GAG_HV1H2	29.5	5GV0_A	1L6N_A	6CPL_A	2XXM_A
+sp|P34910|EVI2B_HUMAN	sp|P04585|POL_HV1H2	29.5	2KNC_B	1L6N_A	6CPL_A	2XXM_A
+sp|P34910|EVI2B_HUMAN	sp|P04591|GAG_HV1H2	29.5	2KNC_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q15572|TAF1C_HUMAN	sp|P04591|GAG_HV1H2	29.5	5O7X_A	1L6N_A	6EM5_p	5UDH_B
+sp|Q96FN5|KIF12_HUMAN	sp|P04601|NEF_HV1H2	29.5	5MM7_K	3TB8_A	6CRI_L	6CRI_Z
+sp|P04585|POL_HV1H2	sp|A6NIN4|RN227_HUMAN	29.4	1L6N_A	2C2L_B	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|O60565|GREM1_HUMAN	29.4	1L6N_A	5AEJ_A	6ICZ_Z	4F7U_A
+sp|O95866|G6B_HUMAN	sp|P04585|POL_HV1H2	29.4	6R0X_F	1L6N_A	6CPL_A	2XXM_A
+sp|Q6P7N7|TMM81_HUMAN	sp|P04585|POL_HV1H2	29.4	5JK9_D	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q8N7C3|TRIMM_HUMAN	29.4	1L6N_A	4CG4_A	5FMF_R	5FMF_1
+sp|P04585|POL_HV1H2	sp|Q9BX40|LS14B_HUMAN	29.4	1L6N_A	2VXF_A	6ICZ_Z	4F7U_A
+sp|Q9H2P0|ADNP_HUMAN	sp|P04585|POL_HV1H2	29.4	5V3J_E	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q9NQS1|AVEN_HUMAN	29.4	1L6N_A	6RXU_C	6ICZ_Z	6ID1_h
+sp|P04585|POL_HV1H2	sp|Q9UIU6|SIX4_HUMAN	29.4	1L6N_A	4EGC_A	4U7B_A	4U7B_A
+sp|Q9Y483|MTF2_HUMAN	sp|P04585|POL_HV1H2	29.4	5XFR_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04591|GAG_HV1H2	sp|O60565|GREM1_HUMAN	29.4	1L6N_A	5AEJ_A	6ICZ_Z	4F7U_A
+sp|O95866|G6B_HUMAN	sp|P04591|GAG_HV1H2	29.4	6R0X_F	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	sp|Q9BX40|LS14B_HUMAN	29.4	1L6N_A	2VXF_A	6ICZ_Z	4F7U_A
+sp|Q9H2P0|ADNP_HUMAN	sp|P04591|GAG_HV1H2	29.4	5V3J_E	1L6N_A	5FMF_L	5FMF_R
+sp|P04608|TAT_HV1H2	sp|P55055|NR1H2_HUMAN	29.4	3MI9_C	4NQA_I	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q5TG53|SEAS1_HUMAN	29.4	3MI9_C	2PK2_B	3MI9_C	2PK2_B
+sp|P05919|VPU_HV1H2	sp|P15514|AREG_HUMAN	29.4	2N28_A	1XDT_R	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q7Z6J2|GRASP_HUMAN	29.4	2N28_A	2EGO_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9BXN2|CLC7A_HUMAN	29.4	2N28_A	2CL8_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H3R2|MUC13_HUMAN	29.4	2N28_A	4UM8_B	6C14_A	6C14_A
+sp|Q6P7N7|TMM81_HUMAN	sp|P04591|GAG_HV1H2	29.4	5JK9_D	1L6N_A	5T70_G	3GV2_A
+sp|Q9UP65|PA24C_HUMAN	sp|P69726|VPR_HV1H2	29.4	5IZ5_A	1ESX_A	4Z8L_B	5AJA_B
+sp|P04578|ENV_HV1H2	sp|P17535|JUND_HUMAN	29.3	6PWU_E	1JUN_A	2X7R_N	1FAV_A
+sp|P04578|ENV_HV1H2	sp|Q5VWQ0|RSBN1_HUMAN	29.3	6PWU_E	5UQD_A	6PWU_E	6ULC_L
+sp|Q69YI7|NAIF1_HUMAN	sp|P04578|ENV_HV1H2	29.3	5CQQ_B	6PWU_E	6NM6_D	6MTJ_B
+sp|P04578|ENV_HV1H2	sp|Q9NW97|TMM51_HUMAN	29.3	6PWU_E	6A69_B	6DCQ_D	6DCQ_D
+sp|P04585|POL_HV1H2	sp|A6NKD9|CC85C_HUMAN	29.3	1L6N_A	6MZM_G	6U8Q_C	6PUY_B
+sp|P04585|POL_HV1H2	sp|P06703|S10A6_HUMAN	29.3	1L6N_A	1K9P_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P21291|CSRP1_HUMAN	29.3	1L6N_A	1B8T_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q5H9L4|TAF7L_HUMAN	29.3	1L6N_A	4RGW_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q7Z569|BRAP_HUMAN	29.3	1L6N_A	3IHP_B	1NUI_A	1NUI_A
+sp|Q96EP0|RNF31_HUMAN	sp|P04585|POL_HV1H2	29.3	6SC6_A	1L6N_A	5FMF_I	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q96P09|BIRC8_HUMAN	29.3	1L6N_A	3T6P_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q9BT43|RPC7L_HUMAN	29.3	1L6N_A	6TUT_Q	6ICZ_Z	4F7U_A
+sp|Q9UBQ6|EXTL2_HUMAN	sp|P04585|POL_HV1H2	29.3	1OMZ_A	1L6N_A	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q9Y5Z0|BACE2_HUMAN	29.3	1L6N_A	3LPJ_B	6BK8_O	5MPS_R
+sp|P04591|GAG_HV1H2	sp|A0A0J9YY54|TX13D_HUMAN	29.3	1L6N_A	5YVH_B	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|A6NCM1|IQCAL_HUMAN	29.3	1L6N_A	5XMK_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|A6NFK2|GRCR2_HUMAN	29.3	1L6N_A	6EKC_R	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|A6NMB9|FIGL2_HUMAN	29.3	1L6N_A	3D8B_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|A8MXD5|GRCR1_HUMAN	29.3	1L6N_A	2CT6_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|O00139|KIF2A_HUMAN	29.3	1L6N_A	5XJA_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|O14545|TRAD1_HUMAN	29.3	1L6N_A	5LPI_C	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|O15381|NVL_HUMAN	29.3	1L6N_A	5E7P_B	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|O43313|ATMIN_HUMAN	29.3	1L6N_A	3ZMS_C	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|O43593|HAIR_HUMAN	29.3	1L6N_A	2YPD_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|O43929|ORC4_HUMAN	29.3	1L6N_A	4XGC_D	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|O43933|PEX1_HUMAN	29.3	1L6N_A	5E7P_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|O75351|VPS4B_HUMAN	29.3	1L6N_A	2ZAN_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|O75449|KTNA1_HUMAN	29.3	1L6N_A	6P07_D	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|O75928|PIAS2_HUMAN	29.3	1L6N_A	4FO9_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|O75943|RAD17_HUMAN	29.3	1L6N_A	1SXJ_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|O76031|CLPX_HUMAN	29.3	1L6N_A	6VFX_E	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P04183|KITH_HUMAN	29.3	1L6N_A	2ORV_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P06703|S10A6_HUMAN	29.3	1L6N_A	1K9P_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P09543|CN37_HUMAN	29.3	1L6N_A	5AE0_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P10827|THA_HUMAN	29.3	1L6N_A	6FX0_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P17980|PRS6A_HUMAN	29.3	1L6N_A	5L4G_M	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P21291|CSRP1_HUMAN	29.3	1L6N_A	1B8T_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P33992|MCM5_HUMAN	29.3	1L6N_A	6XTY_5	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P35250|RFC2_HUMAN	29.3	1L6N_A	6VVO_B	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P35251|RFC1_HUMAN	29.3	1L6N_A	6VVO_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P35998|PRS7_HUMAN	29.3	1L6N_A	5L4G_H	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P36776|LONM_HUMAN	29.3	1L6N_A	6U5Z_B	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P40937|RFC5_HUMAN	29.3	1L6N_A	6VVO_C	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P43686|PRS6B_HUMAN	29.3	1L6N_A	6MSB_D	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P46459|NSF_HUMAN	29.3	1L6N_A	6IP2_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P49736|MCM2_HUMAN	29.3	1L6N_A	6XTX_2	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P49750|YLPM1_HUMAN	29.3	1L6N_A	5HR5_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P55072|TERA_HUMAN	29.3	1L6N_A	5E7P_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P56192|SYMC_HUMAN	29.3	1L6N_A	5GL7_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P62191|PRS4_HUMAN	29.3	1L6N_A	5L4G_I	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P62195|PRS8_HUMAN	29.3	1L6N_A	6FVU_M	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P62333|PRS10_HUMAN	29.3	1L6N_A	6FVU_M	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q00839|HNRPU_HUMAN	29.3	1L6N_A	4XW3_B	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q13415|ORC1_HUMAN	29.3	1L6N_A	5ZR1_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q13608|PEX6_HUMAN	29.3	1L6N_A	5E7P_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q14807|KIF22_HUMAN	29.3	1L6N_A	6NJE_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q15645|PCH2_HUMAN	29.3	1L6N_A	6F0X_E	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q5H9L4|TAF7L_HUMAN	29.3	1L6N_A	4RGW_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q5HY92|FIGN_HUMAN	29.3	1L6N_A	3D8B_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q5K651|SAMD9_HUMAN	29.3	1L6N_A	1PK1_B	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q5SNT2|TM201_HUMAN	29.3	1L6N_A	1S72_Z	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q5T2N8|ATD3C_HUMAN	29.3	1L6N_A	3KDS_E	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q5T9A4|ATD3B_HUMAN	29.3	1L6N_A	3KDS_E	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q5TBK1|N42L1_HUMAN	29.3	1L6N_A	4QM6_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q6P2S7|TTC41_HUMAN	29.3	1L6N_A	1Z6T_C	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q6PIW4|FIGL1_HUMAN	29.3	1L6N_A	3D8B_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q6PL18|ATAD2_HUMAN	29.3	1L6N_A	6JPU_F	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q86UD3|MARH3_HUMAN	29.3	1L6N_A	2M6M_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q86UW6|N4BP2_HUMAN	29.3	1L6N_A	2VKC_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q86W26|NAL10_HUMAN	29.3	1L6N_A	6NPY_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q86WA8|LONP2_HUMAN	29.3	1L6N_A	6U5Z_B	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q86XH1|DRC11_HUMAN	29.3	1L6N_A	5XMI_B	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q86Y91|KI18B_HUMAN	29.3	1L6N_A	5OCU_K	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q8IVG5|SAM9L_HUMAN	29.3	1L6N_A	1PK1_B	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q8IVL0|NAV3_HUMAN	29.3	1L6N_A	4XGU_B	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q8IVL1|NAV2_HUMAN	29.3	1L6N_A	4XGU_B	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q8IYT4|KATL2_HUMAN	29.3	1L6N_A	6P07_D	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q8N635|MEIOB_HUMAN	29.3	1L6N_A	4GNX_C	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q8NB90|AFG2H_HUMAN	29.3	1L6N_A	5E7P_B	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q8NBU5|ATAD1_HUMAN	29.3	1L6N_A	6P07_D	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q8ND82|Z280C_HUMAN	29.3	1L6N_A	5V3J_E	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q8WV93|AFG1L_HUMAN	29.3	1L6N_A	5HE9_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q8WVB6|CTF18_HUMAN	29.3	1L6N_A	6VVO_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q8WW22|DNJA4_HUMAN	29.3	1L6N_A	3LZ8_B	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q96EK9|KTI12_HUMAN	29.3	1L6N_A	3ADD_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q96K76|UBP47_HUMAN	29.3	1L6N_A	5FWI_C	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q96QE3|ATAD5_HUMAN	29.3	1L6N_A	6VVO_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q96S55|WRIP1_HUMAN	29.3	1L6N_A	3PVS_B	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q96TA2|YMEL1_HUMAN	29.3	1L6N_A	6AZ0_F	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q99741|CDC6_HUMAN	29.3	1L6N_A	5V8F_D	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9BT43|RPC7L_HUMAN	29.3	1L6N_A	6TUT_Q	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|Q9BVQ7|SPA5L_HUMAN	29.3	1L6N_A	5E7P_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9BW62|KATL1_HUMAN	29.3	1L6N_A	6P07_D	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9H3H1|MOD5_HUMAN	29.3	1L6N_A	3EPH_B	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9H497|TOR3A_HUMAN	29.3	1L6N_A	6OIF_Q	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9NVI7|ATD3A_HUMAN	29.3	1L6N_A	3KDS_E	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9NWV4|CZIB_HUMAN	29.3	1L6N_A	5ZLQ_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9NXL9|MCM9_HUMAN	29.3	1L6N_A	6XTY_5	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9UBC5|MYO1A_HUMAN	29.3	1L6N_A	1I84_V	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9UBP0|SPAST_HUMAN	29.3	1L6N_A	6PEN_D	5LKM_B	5LKM_A
+sp|Q9UBQ6|EXTL2_HUMAN	sp|P04591|GAG_HV1H2	29.3	1OMZ_A	1L6N_A	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q9ULI0|ATD2B_HUMAN	29.3	1L6N_A	6JPU_F	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9UN37|VPS4A_HUMAN	29.3	1L6N_A	2ZAN_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9UNI6|DUS12_HUMAN	29.3	1L6N_A	6RZZ_s	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9UQ90|SPG7_HUMAN	29.3	1L6N_A	6NYY_C	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9Y230|RUVB2_HUMAN	29.3	1L6N_A	6HTS_F	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9Y276|BCS1_HUMAN	29.3	1L6N_A	6UKO_F	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9Y2M2|SSUH2_HUMAN	29.3	1L6N_A	6EKB_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9Y4C1|KDM3A_HUMAN	29.3	1L6N_A	2YPD_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9Y4W6|AFG32_HUMAN	29.3	1L6N_A	6NYY_C	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q9Y5Z0|BACE2_HUMAN	29.3	1L6N_A	3LPJ_B	6BK8_O	5MPS_R
+sp|P04591|GAG_HV1H2	sp|Q9Y6X2|PIAS3_HUMAN	29.3	1L6N_A	4MVT_B	5LKM_B	5LKM_A
+sp|P04601|NEF_HV1H2	sp|Q12894|IFRD2_HUMAN	29.3	3TB8_A	6MTC_v	4NEE_K	2JKT_A
+sp|P04608|TAT_HV1H2	sp|Q8N6Y0|USBP1_HUMAN	29.3	3MI9_C	5U5A_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|Q86YW5|TRML1_HUMAN	29.3	2X7L_R	5OR7_C	6CF2_F	5DHV_B
+sp|P05919|VPU_HV1H2	sp|O75845|SC5D_HUMAN	29.3	2N28_A	4ZR0_B	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|P0DPB3|SCHI1_HUMAN	29.3	2N28_A	4WSO_B	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q15078|CD5R1_HUMAN	29.3	2N28_A	1UNL_E	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q3ZCQ3|F174B_HUMAN	29.3	2N28_A	4XNV_A	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|Q9BYG7|MSTRO_HUMAN	29.3	2N28_A	3ND2_A	4P6Z_V	4P6Z_B
+sp|Q13144|EI2BE_HUMAN	sp|P04578|ENV_HV1H2	29.2	6O81_A	6PWU_E	6NM6_D	6MTJ_B
+sp|P04578|ENV_HV1H2	sp|Q96EF6|FBX17_HUMAN	29.2	6PWU_E	3WSO_A	4YC2_G	4YC2_G
+sp|P04578|ENV_HV1H2	sp|Q9NVA1|UQCC1_HUMAN	29.2	6PWU_E	6RWT_A	4YC2_G	4YC2_G
+sp|P04585|POL_HV1H2	sp|O15041|SEM3E_HUMAN	29.2	1L6N_A	6QP7_B	5O2U_C	5O2U_B
+sp|P04585|POL_HV1H2	sp|O15091|MRPP3_HUMAN	29.2	1L6N_A	4ROU_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|O15371|EIF3D_HUMAN	29.2	1L6N_A	6YAM_m	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|O43278|SPIT1_HUMAN	29.2	1L6N_A	5H7V_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q5T7W7|TSTD2_HUMAN	29.2	1L6N_A	4F67_A	1WJC_A	1WJC_A
+sp|P04585|POL_HV1H2	sp|Q6ZWI9|RFPLB_HUMAN	29.2	1L6N_A	4CFG_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q8N6T3|ARFG1_HUMAN	29.2	1L6N_A	3O47_B	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q96C00|ZBTB9_HUMAN	29.2	1L6N_A	3GA1_B	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q96CB8|INT12_HUMAN	29.2	1L6N_A	1WEV_A	5FMF_R	1TWF_I
+sp|Q9UBI9|HDC_HUMAN	sp|P04585|POL_HV1H2	29.2	6KF3_P	1L6N_A	5FMF_L	5FMF_R
+sp|P04591|GAG_HV1H2	sp|A1L190|SYCE3_HUMAN	29.2	1L6N_A	4R3Q_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|O15041|SEM3E_HUMAN	29.2	1L6N_A	6QP7_B	5O2U_C	5O2U_B
+sp|P04591|GAG_HV1H2	sp|O15091|MRPP3_HUMAN	29.2	1L6N_A	4ROU_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|O15371|EIF3D_HUMAN	29.2	1L6N_A	6YAM_m	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O43278|SPIT1_HUMAN	29.2	1L6N_A	5H7V_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O60884|DNJA2_HUMAN	29.2	1L6N_A	1NLT_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P31689|DNJA1_HUMAN	29.2	1L6N_A	3LZ8_B	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q7Z7K6|CENPV_HUMAN	29.2	1L6N_A	3FAC_D	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q8N6T3|ARFG1_HUMAN	29.2	1L6N_A	3O47_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q96CB8|INT12_HUMAN	29.2	1L6N_A	1WEV_A	5FMF_R	1TWF_I
+sp|Q9UBI9|HDC_HUMAN	sp|P04591|GAG_HV1H2	29.2	6KF3_P	1L6N_A	5FMF_L	5FMF_R
+sp|P04618|REV_HV1H2	sp|O75326|SEM7A_HUMAN	29.2	2X7L_R	3NVQ_A	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q71H61|ILDR2_HUMAN	29.2	2X7L_R	5OR7_C	2X7L_R	5I8O_L
+sp|P05919|VPU_HV1H2	sp|P09016|HXD4_HUMAN	29.2	2N28_A	1MH3_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P0C851|PIRT_HUMAN	29.2	2N28_A	2KNC_B	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|P49685|GPR15_HUMAN	29.2	2N28_A	3VW7_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9Y227|ENTP4_HUMAN	29.2	2N28_A	3AGR_B	6C14_A	6C14_A
+sp|P69723|VIF_HV1H2	sp|A6NDN8|UBIML_HUMAN	29.2	4N9F_b	4KZY_e	4N9F_b	2MA9_B
+sp|P08123|CO1A2_HUMAN	sp|P04601|NEF_HV1H2	29.2	3HQV_B	3TB8_A	5XOV_H	3TB8_A
+sp|Q8NFY4|SEM6D_HUMAN	sp|P04585|POL_HV1H2	29.2	3AL8_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q8NFY4|SEM6D_HUMAN	sp|P04591|GAG_HV1H2	29.2	3AL8_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q9UEY8|ADDG_HUMAN	sp|P04578|ENV_HV1H2	29.2	3OCR_A	6PWU_E	4GIP_B	2B9B_B
+sp|P04578|ENV_HV1H2	sp|Q9BQ08|RETNB_HUMAN	29.1	6PWU_E	1RGX_C	3MAW_A	3MAW_A
+sp|P04585|POL_HV1H2	sp|O75679|RFPL3_HUMAN	29.1	1L6N_A	5HM7_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P00797|RENI_HUMAN	29.1	1L6N_A	5MLG_A	5YQ8_D	5YQ8_C
+sp|P04585|POL_HV1H2	sp|P08572|CO4A2_HUMAN	29.1	1L6N_A	6MPX_A	3HPG_B	3HPG_B
+sp|P13647|K2C5_HUMAN	sp|P04585|POL_HV1H2	29.1	3TNU_A	1L6N_A	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|P35638|DDIT3_HUMAN	29.1	1L6N_A	5SZX_A	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|Q96A33|CCD47_HUMAN	29.1	1L6N_A	4WIJ_B	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q96FF7|MISP3_HUMAN	29.1	1L6N_A	6QDV_D	6ICZ_Z	6ICZ_X
+sp|P04585|POL_HV1H2	sp|Q9NWM8|FKB14_HUMAN	29.1	1L6N_A	4MSP_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9NX05|F120C_HUMAN	29.1	1L6N_A	5ZOD_A	4RGH_A	4RGH_A
+sp|P04591|GAG_HV1H2	sp|O43827|ANGL7_HUMAN	29.1	1L6N_A	3E1I_C	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|P35638|DDIT3_HUMAN	29.1	1L6N_A	5SZX_A	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|P62508|ERR3_HUMAN	29.1	1L6N_A	6FX0_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q13133|NR1H3_HUMAN	29.1	1L6N_A	4NQA_I	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q86VX2|COMD7_HUMAN	29.1	1L6N_A	6BP6_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q96A33|CCD47_HUMAN	29.1	1L6N_A	4WIJ_B	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q96FA3|PELI1_HUMAN	29.1	1L6N_A	3EGA_A	6N7I_C	6N9X_B
+sp|P04591|GAG_HV1H2	sp|Q96FF7|MISP3_HUMAN	29.1	1L6N_A	6QDV_D	6ICZ_Z	6ICZ_X
+sp|P04591|GAG_HV1H2	sp|Q9NWM8|FKB14_HUMAN	29.1	1L6N_A	4MSP_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9Y605|MOFA1_HUMAN	29.1	1L6N_A	2JST_A	5IJN_H	5IJO_G
+sp|P04601|NEF_HV1H2	sp|P52630|STAT2_HUMAN	29.1	3TB8_A	6WCZ_A	4U5W_C	4U5W_B
+sp|P05919|VPU_HV1H2	sp|P09603|CSF1_HUMAN	29.1	2N28_A	5LXF_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P0C2L3|F163B_HUMAN	29.1	2N28_A	5XSY_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P27824|CALX_HUMAN	29.1	2N28_A	1JHN_A	6C14_A	6C14_A
+sp|Q7L273|KCTD9_HUMAN	sp|P69723|VIF_HV1H2	29.1	3DRX_B	4N9F_b	6P59_Z	6P59_B
+sp|P06126|CD1A_HUMAN	sp|P04601|NEF_HV1H2	29.1	5J1A_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|P05412|JUN_HUMAN	29.0	6PWU_E	1JUN_A	2X7R_N	1FAV_A
+sp|P04578|ENV_HV1H2	sp|Q9BZE2|PUS3_HUMAN	29.0	6PWU_E	4J37_A	2X7R_N	1FAV_A
+sp|P04585|POL_HV1H2	sp|P08138|TNR16_HUMAN	29.0	1L6N_A	3ME4_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|P19474|RO52_HUMAN	29.0	1L6N_A	4CFG_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q3KNV8|PCGF3_HUMAN	29.0	1L6N_A	2NA1_A	6BK8_O	5MQ0_t
+sp|Q5VZ89|DEN4C_HUMAN	sp|P04585|POL_HV1H2	29.0	6EKK_B	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q8NFZ5|TNIP2_HUMAN	29.0	1L6N_A	5H07_D	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q9H2C2|ARV1_HUMAN	29.0	1L6N_A	1H7V_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|A0PJY2|FEZF1_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A2RRD8|ZN320_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A4D1E9|GTPBA_HUMAN	29.0	1L6N_A	1LNZ_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|A4D1S5|RAB19_HUMAN	29.0	1L6N_A	6JMG_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|A6NDX5|ZN840_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A6NFI3|ZN316_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A6NGD5|ZSA5C_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A6NHJ4|ZN860_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A6NIZ1|RP1BL_HUMAN	29.0	1L6N_A	3BRW_D	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|A6NJL1|ZSA5B_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A6NK53|ZN233_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A6NK75|ZNF98_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A6NM28|ZFP92_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A6NN14|ZN729_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A6NNF4|ZN726_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A6NP11|ZN716_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A8K8V0|ZN785_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A8MQ14|ZN850_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A8MT65|ZN891_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A8MTY0|ZN724_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A8MUV8|ZN727_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A8MUZ8|Z705G_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A8MVS1|Z705F_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A8MWA4|Z705E_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|A8MXY4|ZNF99_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|B1APH4|ZN487_HUMAN	29.0	1L6N_A	2M0D_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|B2RXF5|ZBT42_HUMAN	29.0	1L6N_A	3W5K_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|B4DU55|ZN879_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|B4DX44|ZN736_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|B4DXR9|ZN732_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|B7Z6K7|ZN814_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|C9JN71|ZN878_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|E7ETH6|Z587B_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O00110|OVOL3_HUMAN	29.0	1L6N_A	3W5K_B	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|O00194|RB27B_HUMAN	29.0	1L6N_A	2ZET_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|O00212|RHOD_HUMAN	29.0	1L6N_A	4MIT_D	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|O14602|IF1AY_HUMAN	29.0	1L6N_A	6FYX_i	6SW9_8	6SW9_6
+sp|P04591|GAG_HV1H2	sp|O14628|ZN195_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O14709|ZN197_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O14753|OVOL1_HUMAN	29.0	1L6N_A	3W5K_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O14771|ZN213_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O14807|RASM_HUMAN	29.0	1L6N_A	3KKQ_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|O14901|KLF11_HUMAN	29.0	1L6N_A	2WBS_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O14978|ZN263_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O15015|ZN646_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O15060|ZBT39_HUMAN	29.0	1L6N_A	5V3J_F	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O15062|ZBTB5_HUMAN	29.0	1L6N_A	5GIT_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O15090|ZN536_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O15156|ZBT7B_HUMAN	29.0	1L6N_A	2M0D_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O15235|RT12_HUMAN	29.0	1L6N_A	6RW4_J	6SW9_8	5JBH_N
+sp|P04591|GAG_HV1H2	sp|O15535|ZSC9_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O43167|ZBT24_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O43237|DC1L2_HUMAN	29.0	1L6N_A	6F1T_j	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|O43296|ZN264_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O43309|ZSC12_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O43345|ZN208_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O43361|ZN749_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O43474|KLF4_HUMAN	29.0	1L6N_A	2WBS_A	6SW9_8	6SW9_C
+sp|O43583|DENR_HUMAN	sp|P04591|GAG_HV1H2	29.0	6VPQ_A	1L6N_A	5JB3_1	6SW9_8
+sp|P04591|GAG_HV1H2	sp|O43623|SNAI2_HUMAN	29.0	1L6N_A	3W5K_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O43670|ZN207_HUMAN	29.0	1L6N_A	6J0D_A	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|O43681|GET3_HUMAN	29.0	1L6N_A	3IQW_B	5AUN_A	5AUN_B
+sp|P04591|GAG_HV1H2	sp|O43829|ZBT14_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O60304|ZN500_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O60315|ZEB2_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O60481|ZIC3_HUMAN	29.0	1L6N_A	2GLI_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O60663|LMX1B_HUMAN	29.0	1L6N_A	1RUT_X	3A43_A	3A43_A
+sp|O60739|EIF1B_HUMAN	sp|P04591|GAG_HV1H2	29.0	4KZX_l	1L6N_A	5JB3_1	6SW9_8
+sp|P04591|GAG_HV1H2	sp|O60765|Z354A_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O60783|RT14_HUMAN	29.0	1L6N_A	6RW4_K	6SW9_8	5JBH_P
+sp|P04591|GAG_HV1H2	sp|O60870|KIN17_HUMAN	29.0	1L6N_A	2V1N_A	6SW9_8	6SW9_E
+sp|P04591|GAG_HV1H2	sp|O75123|ZN623_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O75290|Z780A_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O75293|GA45B_HUMAN	29.0	1L6N_A	2WAL_B	6SW9_8	3HAX_D
+sp|P04591|GAG_HV1H2	sp|O75346|ZN253_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O75362|ZN217_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O75373|ZN737_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O75437|ZN254_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O75467|Z324A_HUMAN	29.0	1L6N_A	5V3J_F	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O75616|ERAL1_HUMAN	29.0	1L6N_A	3IEU_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|O75626|PRDM1_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O75628|REM1_HUMAN	29.0	1L6N_A	2NZJ_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|O75820|ZN189_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O94892|ZN432_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O95057|DIRA1_HUMAN	29.0	1L6N_A	2GF0_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|O95125|ZN202_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O95171|SCEL_HUMAN	29.0	1L6N_A	1NYP_A	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|O95201|ZN205_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O95365|ZBT7A_HUMAN	29.0	1L6N_A	3W5K_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O95409|ZIC2_HUMAN	29.0	1L6N_A	2GLI_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O95478|NSA2_HUMAN	29.0	1L6N_A	3JCT_r	6SW9_8	5JBH_J
+sp|P04591|GAG_HV1H2	sp|O95486|SC24A_HUMAN	29.0	1L6N_A	1M2V_B	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|O95625|ZBT11_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O95661|DIRA3_HUMAN	29.0	1L6N_A	2GF0_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|O95716|RAB3D_HUMAN	29.0	1L6N_A	1ZBD_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|O95780|ZN682_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O95863|SNAI1_HUMAN	29.0	1L6N_A	3W5K_B	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|P01111|RASN_HUMAN	29.0	1L6N_A	6BOF_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P01112|RASH_HUMAN	29.0	1L6N_A	6BOF_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P01116|RASK_HUMAN	29.0	1L6N_A	6BOF_A	6SW9_8	4RJL_A
+sp|P02748|CO9_HUMAN	sp|P04591|GAG_HV1H2	29.0	6DLW_K	1L6N_A	3CW2_N	6SW9_8
+sp|P04591|GAG_HV1H2	sp|P08048|ZFY_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P08134|RHOC_HUMAN	29.0	1L6N_A	4MIT_D	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P08138|TNR16_HUMAN	29.0	1L6N_A	3ME4_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P08151|GLI1_HUMAN	29.0	1L6N_A	2GLI_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P08708|RS17_HUMAN	29.0	1L6N_A	5VYC_R	6SW9_8	5JB3_S
+sp|P04591|GAG_HV1H2	sp|P08865|RSSA_HUMAN	29.0	1L6N_A	6EK0_S	6SW9_8	5JBH_B
+sp|P04591|GAG_HV1H2	sp|P0C7X5|ZN806_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P0CB33|ZN735_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P0CG00|ZSA5D_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P0CG23|ZN853_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P0CG24|ZN883_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P0CG31|Z286B_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P0CG40|SP9_HUMAN	29.0	1L6N_A	2WBS_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P0CH99|Z705D_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P0CI00|Z705B_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P0CJ78|ZN865_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P0CJ79|ZN888_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P0DKX0|ZN728_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P0DPD5|ZN723_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P10070|GLI2_HUMAN	29.0	1L6N_A	2GLI_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P10071|GLI3_HUMAN	29.0	1L6N_A	2GLI_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P10072|ZN875_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P10073|ZSC22_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P10074|TZAP_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P10075|GLI4_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P10114|RAP2A_HUMAN	29.0	1L6N_A	3RAP_S	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P10301|RRAS_HUMAN	29.0	1L6N_A	2FN4_A	6SW9_8	4RJL_A
+sp|P11473|VDR_HUMAN	sp|P04591|GAG_HV1H2	29.0	5E7V_A	1L6N_A	5YY0_A	5AUN_A
+sp|P04591|GAG_HV1H2	sp|P13682|ZNF35_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P15153|RAC2_HUMAN	29.0	1L6N_A	2OV2_D	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P15621|ZNF44_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P15622|ZN250_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P15822|ZEP1_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P16415|ZN823_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17010|ZFX_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17014|ZNF12_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17017|ZNF14_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17019|ZN708_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17020|ZNF16_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17021|ZNF17_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17022|ZNF18_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17023|ZNF19_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17024|ZNF20_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17025|ZN182_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17026|ZNF22_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17027|ZNF23_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17028|ZNF24_HUMAN	29.0	1L6N_A	2M0D_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17029|ZKSC1_HUMAN	29.0	1L6N_A	5YEL_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17030|ZNF25_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17031|ZNF26_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17032|ZN37A_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17038|ZNF43_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17039|ZNF30_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17040|ZSC20_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17041|ZNF32_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17081|RHOQ_HUMAN	29.0	1L6N_A	2ATX_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P17097|ZNF7_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P17098|ZNF8_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P18085|ARF4_HUMAN	29.0	1L6N_A	3L82_B	6SW9_8	4RJL_A
+sp|P20042|IF2B_HUMAN	sp|P04591|GAG_HV1H2	29.0	6K71_M	1L6N_A	3CW2_N	6SW9_8
+sp|P04591|GAG_HV1H2	sp|P20336|RAB3A_HUMAN	29.0	1L6N_A	1ZBD_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P20337|RAB3B_HUMAN	29.0	1L6N_A	1ZBD_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P20339|RAB5A_HUMAN	29.0	1L6N_A	1R2Q_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P21506|ZNF10_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P22090|RS4Y1_HUMAN	29.0	1L6N_A	6AZ1_E	6SW9_8	6SW9_E
+sp|P04591|GAG_HV1H2	sp|P23025|XPA_HUMAN	29.0	1L6N_A	6RO4_G	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|P23396|RS3_HUMAN	29.0	1L6N_A	5VYC_D	6SW9_8	6TMF_C
+sp|P04591|GAG_HV1H2	sp|P24522|GA45A_HUMAN	29.0	1L6N_A	2KG4_A	6SW9_8	3HAX_D
+sp|P04591|GAG_HV1H2	sp|P25398|RS12_HUMAN	29.0	1L6N_A	4V7E_B	6SW9_8	3HAX_D
+sp|P04591|GAG_HV1H2	sp|P28698|MZF1_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P29374|ARI4A_HUMAN	29.0	1L6N_A	2YRV_A	6SW9_8	1NY4_A
+sp|P04591|GAG_HV1H2	sp|P31629|ZEP2_HUMAN	29.0	1L6N_A	5YEF_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P32455|GBP1_HUMAN	29.0	1L6N_A	1F5N_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P32456|GBP2_HUMAN	29.0	1L6N_A	1F5N_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P35789|ZNF93_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P36404|ARL2_HUMAN	29.0	1L6N_A	3DOE_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P36405|ARL3_HUMAN	29.0	1L6N_A	1FZQ_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P36508|ZNF76_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P36915|GNL1_HUMAN	29.0	1L6N_A	6QIK_o	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P37275|ZEB1_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P39019|RS19_HUMAN	29.0	1L6N_A	5OPT_o	6SW9_8	6SW9_U
+sp|P04591|GAG_HV1H2	sp|P40616|ARL1_HUMAN	29.0	1L6N_A	3L82_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P40617|ARL4A_HUMAN	29.0	1L6N_A	3L82_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P41182|BCL6_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P41214|EIF2D_HUMAN	sp|P04591|GAG_HV1H2	29.0	5OA3_0	1L6N_A	5JB3_1	6SW9_8
+sp|P41567|EIF1_HUMAN	sp|P04591|GAG_HV1H2	29.0	4KZX_l	1L6N_A	5JB3_1	6SW9_8
+sp|P04591|GAG_HV1H2	sp|P46781|RS9_HUMAN	29.0	1L6N_A	5T2A_6	6SW9_8	5JBH_D
+sp|P04591|GAG_HV1H2	sp|P46782|RS5_HUMAN	29.0	1L6N_A	6EK0_S	6SW9_8	6TMF_I
+sp|P04591|GAG_HV1H2	sp|P47813|IF1AX_HUMAN	29.0	1L6N_A	6FYX_i	6SW9_8	6SW9_6
+sp|P04591|GAG_HV1H2	sp|P49703|ARL4D_HUMAN	29.0	1L6N_A	4M9Q_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P49711|CTCF_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P49910|ZN165_HUMAN	29.0	1L6N_A	5YEL_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P51148|RAB5C_HUMAN	29.0	1L6N_A	1R2Q_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P51149|RAB7A_HUMAN	29.0	1L6N_A	1VG8_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P51153|RAB13_HUMAN	29.0	1L6N_A	6JMG_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P51504|ZNF80_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P51508|ZNF81_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P51522|ZNF83_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P51523|ZNF84_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P51786|ZN157_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P51814|ZNF41_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P51815|ZN75D_HUMAN	29.0	1L6N_A	5EGB_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P52736|ZN133_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P52737|ZN136_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P52738|ZN140_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P52739|ZN131_HUMAN	29.0	1L6N_A	5T0U_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P52740|ZN132_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P52741|ZN134_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P52742|ZN135_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P52743|ZN137_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P52744|ZN138_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P52746|ZN142_HUMAN	29.0	1L6N_A	5V3J_F	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P52747|ZN143_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P55039|DRG2_HUMAN	29.0	1L6N_A	4A9A_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P55040|GEM_HUMAN	29.0	1L6N_A	2CJW_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P55042|RAD_HUMAN	29.0	1L6N_A	3Q7Q_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P55103|INHBC_HUMAN	29.0	1L6N_A	5HLY_A	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|P55769|NH2L1_HUMAN	29.0	1L6N_A	5ZWO_M	6SW9_8	3HAX_D
+sp|P04591|GAG_HV1H2	sp|P56270|MAZ_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P57071|PRD15_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P58166|INHBE_HUMAN	29.0	1L6N_A	5NTU_A	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|P58317|ZN121_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P59190|RAB15_HUMAN	29.0	1L6N_A	6JMG_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P59817|Z280A_HUMAN	29.0	1L6N_A	5UND_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P59923|ZN445_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P60763|RAC3_HUMAN	29.0	1L6N_A	2OV2_D	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P60866|RS20_HUMAN	29.0	1L6N_A	6SNT_U	6SW9_8	5JBH_L
+sp|P04591|GAG_HV1H2	sp|P60953|CDC42_HUMAN	29.0	1L6N_A	2CLS_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P61011|SRP54_HUMAN	29.0	1L6N_A	6FRK_x	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P61020|RAB5B_HUMAN	29.0	1L6N_A	1R2Q_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P61204|ARF3_HUMAN	29.0	1L6N_A	3L82_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P61224|RAP1B_HUMAN	29.0	1L6N_A	3BRW_D	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P61225|RAP2B_HUMAN	29.0	1L6N_A	3RAP_S	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P61247|RS3A_HUMAN	29.0	1L6N_A	4V6W_A	6SW9_8	5JBH_A
+sp|P04591|GAG_HV1H2	sp|P61371|ISL1_HUMAN	29.0	1L6N_A	4JCJ_B	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|P61586|RHOA_HUMAN	29.0	1L6N_A	4MIT_D	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P61587|RND3_HUMAN	29.0	1L6N_A	2V55_D	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P62070|RRAS2_HUMAN	29.0	1L6N_A	2ERY_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P62241|RS8_HUMAN	29.0	1L6N_A	3J7A_L	6SW9_8	5JBH_J
+sp|P04591|GAG_HV1H2	sp|P62244|RS15A_HUMAN	29.0	1L6N_A	6XYW_B	6SW9_8	1I6U_A
+sp|P04591|GAG_HV1H2	sp|P62249|RS16_HUMAN	29.0	1L6N_A	4V8M_A	6SW9_8	5JB3_K
+sp|P04591|GAG_HV1H2	sp|P62263|RS14_HUMAN	29.0	1L6N_A	5LZS_O	6SW9_8	4CVN_E
+sp|P04591|GAG_HV1H2	sp|P62266|RS23_HUMAN	29.0	1L6N_A	5TBW_d	6SW9_8	5JBH_N
+sp|P04591|GAG_HV1H2	sp|P62269|RS18_HUMAN	29.0	1L6N_A	4BTS_B	6SW9_8	5JBH_O
+sp|P04591|GAG_HV1H2	sp|P62273|RS29_HUMAN	29.0	1L6N_A	5T2A_8	6SW9_8	5JBH_P
+sp|P04591|GAG_HV1H2	sp|P62277|RS13_HUMAN	29.0	1L6N_A	3J7A_U	6SW9_8	5JBH_Q
+sp|P04591|GAG_HV1H2	sp|P62280|RS11_HUMAN	29.0	1L6N_A	6RM3_S	6SW9_8	5JBH_R
+sp|P04591|GAG_HV1H2	sp|P62424|RL7A_HUMAN	29.0	1L6N_A	4V6W_C	6SW9_8	3HAX_D
+sp|P04591|GAG_HV1H2	sp|P62701|RS4X_HUMAN	29.0	1L6N_A	6AZ1_E	6SW9_8	6SW9_E
+sp|P04591|GAG_HV1H2	sp|P62745|RHOB_HUMAN	29.0	1L6N_A	6HXU_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P62753|RS6_HUMAN	29.0	1L6N_A	5XXU_G	6SW9_8	5JBH_G
+sp|P04591|GAG_HV1H2	sp|P62820|RAB1A_HUMAN	29.0	1L6N_A	5SZH_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P62834|RAP1A_HUMAN	29.0	1L6N_A	3BRW_D	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P62841|RS15_HUMAN	29.0	1L6N_A	5XXU_P	6SW9_8	6SWC_T
+sp|P04591|GAG_HV1H2	sp|P62847|RS24_HUMAN	29.0	1L6N_A	4BTS_B	6SW9_8	2V94_B
+sp|P04591|GAG_HV1H2	sp|P62857|RS28_HUMAN	29.0	1L6N_A	5TZS_G	6SW9_8	1NY4_A
+sp|P04591|GAG_HV1H2	sp|P62888|RL30_HUMAN	29.0	1L6N_A	3CPQ_B	6SW9_8	3HAX_D
+sp|P04591|GAG_HV1H2	sp|P63000|RAC1_HUMAN	29.0	1L6N_A	4MIT_D	6SW9_8	4RJL_A
+sp|P67812|SC11A_HUMAN	sp|P04591|GAG_HV1H2	29.0	4ME8_A	1L6N_A	5JB3_E	6SW9_8
+sp|P04591|GAG_HV1H2	sp|P78345|RPP38_HUMAN	29.0	1L6N_A	6AHU_C	6SW9_8	3HAX_D
+sp|P04591|GAG_HV1H2	sp|P82664|RT10_HUMAN	29.0	1L6N_A	6GAZ_A	6SW9_8	5JBH_L
+sp|P04591|GAG_HV1H2	sp|P82675|RT05_HUMAN	29.0	1L6N_A	6RW4_D	6SW9_8	5JBH_F
+sp|P04591|GAG_HV1H2	sp|P82912|RT11_HUMAN	29.0	1L6N_A	6RW4_I	6SW9_8	4CVN_E
+sp|P04591|GAG_HV1H2	sp|P82914|RT15_HUMAN	29.0	1L6N_A	6RW4_L	6SW9_8	5JBH_Q
+sp|P04591|GAG_HV1H2	sp|P82933|RT09_HUMAN	29.0	1L6N_A	6RW4_G	6SW9_8	5JB3_K
+sp|P04591|GAG_HV1H2	sp|P84077|ARF1_HUMAN	29.0	1L6N_A	3L82_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P84085|ARF5_HUMAN	29.0	1L6N_A	3L82_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P84095|RHOG_HUMAN	29.0	1L6N_A	4MIT_D	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|P98168|ZXDA_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P98169|ZXDB_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P98182|ZN200_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P98196|AT11A_HUMAN	sp|P04591|GAG_HV1H2	29.0	6LCP_A	1L6N_A	5JB3_X	6SW9_8
+sp|P04591|GAG_HV1H2	sp|Q01101|INSM1_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q02386|ZNF45_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q02548|PAX5_HUMAN	29.0	1L6N_A	1MDM_A	6SW9_8	5JBH_Q
+sp|P04591|GAG_HV1H2	sp|Q02962|PAX2_HUMAN	29.0	1L6N_A	1MDM_A	6SW9_8	5JBH_Q
+sp|P04591|GAG_HV1H2	sp|Q03112|MECOM_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q03923|ZNF85_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q03924|ZN117_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q03936|ZNF92_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q03938|ZNF90_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q05215|EGR4_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q05481|ZNF91_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q05516|ZBT16_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q06710|PAX8_HUMAN	29.0	1L6N_A	2K27_A	6SW9_8	5JBH_Q
+sp|P04591|GAG_HV1H2	sp|Q06730|ZN33A_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q06732|ZN33B_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q08AG5|ZN844_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q08AN1|ZN616_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q08ER8|ZN543_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q09FC8|ZN415_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q0D2J5|ZN763_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q0P5N6|ARL16_HUMAN	29.0	1L6N_A	2H57_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q0VGE8|ZN816_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q12901|ZN155_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q13017|RHG05_HUMAN	29.0	1L6N_A	3C5H_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q13105|ZBT17_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q13106|ZN154_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q13118|KLF10_HUMAN	29.0	1L6N_A	2WBS_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q13127|REST_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q13129|RLF_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q13351|KLF1_HUMAN	29.0	1L6N_A	2WBS_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q13360|ZN177_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q13398|ZN211_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|Q13405|RM49_HUMAN	sp|P04591|GAG_HV1H2	29.0	6GAW_B	1L6N_A	5JB3_1	6SW9_8
+sp|P04591|GAG_HV1H2	sp|Q13422|IKZF1_HUMAN	29.0	1L6N_A	5UND_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q13636|RAB31_HUMAN	29.0	1L6N_A	2FG5_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q13795|ARFRP_HUMAN	29.0	1L6N_A	3L82_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q13823|NOG2_HUMAN	29.0	1L6N_A	3JCT_m	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q13886|KLF9_HUMAN	29.0	1L6N_A	2WBS_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q14119|VEZF1_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q14141|SEPT6_HUMAN	29.0	1L6N_A	2QAG_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q14526|HIC1_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q14584|ZN266_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q14585|ZN345_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q14586|ZN267_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q14587|ZN268_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q14588|ZN234_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q14590|ZN235_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q14592|ZN460_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q14593|ZN273_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q14596|NBR1_HUMAN	29.0	1L6N_A	4OLE_D	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q147U1|ZN846_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q14872|MTF1_HUMAN	29.0	1L6N_A	1TF6_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q14929|ZN169_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q15072|OZF_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q15326|ZMY11_HUMAN	29.0	1L6N_A	4COS_A	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q15669|RHOH_HUMAN	29.0	1L6N_A	3SEA_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q15771|RAB30_HUMAN	29.0	1L6N_A	2EW1_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q15776|ZKSC8_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q15915|ZIC1_HUMAN	29.0	1L6N_A	2GLI_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q15916|ZBTB6_HUMAN	29.0	1L6N_A	3W5K_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q15928|ZN141_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q15929|ZNF56_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q15935|ZNF77_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q15937|ZNF79_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q15940|ZNF67_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q15973|ZN124_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q16587|ZNF74_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q16600|ZN239_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q16670|ZSC26_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q17R98|ZN827_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q2M1K9|ZN423_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q2M218|ZN630_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q2M3W8|ZN181_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q2M3X9|ZN674_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q2NL82|TSR1_HUMAN	29.0	1L6N_A	6G18_u	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q2QGD7|ZXDC_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q2VY69|ZN284_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q32M78|ZN699_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q3KNS6|ZN829_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q3KNW1|SNAI3_HUMAN	29.0	1L6N_A	3W5K_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q3KP31|ZN791_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q3KQV3|ZN792_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q3MIS6|ZN528_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q3MJ62|ZSC23_HUMAN	29.0	1L6N_A	5YEG_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q3SXY8|AR13B_HUMAN	29.0	1L6N_A	4M9Q_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q3SXZ3|ZN718_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q3SY52|ZIK1_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q3ZCT1|ZN260_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q3ZCX4|ZN568_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q494X3|ZN404_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q499Z4|ZN672_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q49A33|Z876P_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q49AA0|ZFP69_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q4V348|Z658B_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q52M93|Z585B_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q53GI3|ZN394_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5CZA5|ZN805_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5EBL2|ZN628_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5EBM4|ZN542_HUMAN	29.0	1L6N_A	3W5K_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5FWF6|ZN789_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5H913|AR13A_HUMAN	29.0	1L6N_A	4M9Q_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q5HY98|ZN766_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5HYK9|ZN667_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5JNZ3|ZN311_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5JVG2|ZN484_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5JVG8|ZN506_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5MCW4|ZN569_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5SVQ8|ZBT41_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5SXM1|ZN678_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5T0B9|ZN362_HUMAN	29.0	1L6N_A	5YEL_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5T1R4|ZEP3_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5T5D7|ZN684_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5T619|ZN648_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5TC79|ZBT37_HUMAN	29.0	1L6N_A	3W5K_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5TEC3|ZN697_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5TYW1|ZN658_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5VIY5|ZN468_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5VTD9|GFI1B_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q5VV52|ZN691_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|Q5VWG9|TAF3_HUMAN	sp|P04591|GAG_HV1H2	29.0	6MZL_C	1L6N_A	3CW2_N	6SW9_8
+sp|Q5VZ89|DEN4C_HUMAN	sp|P04591|GAG_HV1H2	29.0	6EKK_B	1L6N_A	5FMF_L	5FMF_R
+sp|P04591|GAG_HV1H2	sp|Q63HK3|ZKSC2_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q66K89|E4F1_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q68DI1|ZN776_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q68DY1|ZN626_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q68DY9|ZN772_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q68EA5|ZNF57_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6AW86|Z324B_HUMAN	29.0	1L6N_A	5V3J_F	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6AZW8|ZN660_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6BEB4|SP5_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6DD87|ZN787_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6DJT9|PLAG1_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ECI4|ZN470_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|Q6H8Q1|ABLM2_HUMAN	sp|P04591|GAG_HV1H2	29.0	1RUT_X	1L6N_A	3CW2_N	6SW9_8
+sp|P04591|GAG_HV1H2	sp|Q6IQ21|ZN770_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6IQ22|RAB12_HUMAN	29.0	1L6N_A	6JMG_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q6IV72|ZN425_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6NSZ9|ZSC25_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6NX45|ZN774_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6NX49|ZN544_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6P1L6|ZN343_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|Q6P1R4|DUS1L_HUMAN	sp|P04591|GAG_HV1H2	29.0	6EZA_A	1L6N_A	3CW2_N	6SW9_8
+sp|P04591|GAG_HV1H2	sp|Q6P280|ZN529_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6P2D0|ZFP1_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6P3V2|Z585A_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6P9A1|ZN530_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6P9A3|ZN549_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6P9G9|ZN449_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6P9H5|GIMA6_HUMAN	29.0	1L6N_A	3LXX_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q6PDB4|ZN880_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6PF04|ZN613_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6PG37|ZN790_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6PK81|ZN773_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6T310|RSLBA_HUMAN	29.0	1L6N_A	6JMG_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q6U7Q0|ZN322_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6V9R5|ZN562_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZMS4|ZN852_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZMV8|ZN730_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZMW2|ZN782_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZMY9|ZN517_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZN06|ZN813_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZN08|ZNF66_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZN11|ZN793_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZN19|ZN841_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZN55|ZN574_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZN57|ZFP2_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZN79|Z705A_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZNA1|ZN836_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZNG0|ZN620_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZNG1|ZN600_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZNH5|ZN497_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZR52|ZN493_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZRF7|ZN818_HUMAN	29.0	1L6N_A	2DMD_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZS27|ZN662_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZSB9|ZBT49_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZSS3|ZN621_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZTB9|ZN833_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q6ZU15|SEP14_HUMAN	29.0	1L6N_A	4Z54_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q76KX8|ZN534_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q7L0Q8|RHOU_HUMAN	29.0	1L6N_A	2Q3H_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q7L2R6|ZN765_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q7L3S4|ZN771_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q7L945|ZN627_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q7RTV3|ZN367_HUMAN	29.0	1L6N_A	3W5K_B	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q7Z340|ZN551_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q7Z398|ZN550_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q7Z3I7|ZN572_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q7Z3V5|ZN571_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q7Z444|RASE_HUMAN	29.0	1L6N_A	2KWI_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q7Z4S9|SH2D6_HUMAN	29.0	1L6N_A	2EO6_A	6SW9_8	6SW9_E
+sp|P04591|GAG_HV1H2	sp|Q7Z591|AKNA_HUMAN	29.0	1L6N_A	1H7V_A	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q7Z7K2|ZN467_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q7Z7L9|ZSCA2_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q86T29|ZN605_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q86T82|UBP37_HUMAN	29.0	1L6N_A	3U12_A	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q86TJ5|ZN554_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q86UD4|ZN329_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q86UE3|ZN546_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q86UQ0|ZN589_HUMAN	29.0	1L6N_A	2N26_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q86V71|ZN429_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q86VK4|ZN410_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q86W11|ZSC30_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q86WZ6|ZN227_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q86X67|NUD13_HUMAN	29.0	1L6N_A	6O3P_B	6SW9_8	5JB3_Y
+sp|P04591|GAG_HV1H2	sp|Q86XF7|ZN575_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q86XN6|ZN761_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q86XU0|ZN677_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q86Y25|Z354C_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q86YE8|ZN573_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q86YH2|Z280B_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8IVC4|ZN584_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8IVH4|MMAA_HUMAN	29.0	1L6N_A	2WWW_C	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q8IVP9|ZN547_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8IVW1|ARL17_HUMAN	29.0	1L6N_A	1MOZ_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q8IW36|ZN695_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8IWY8|ZSC29_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8IX07|FOG1_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8IXI1|MIRO2_HUMAN	29.0	1L6N_A	5KTY_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q8IXI2|MIRO1_HUMAN	29.0	1L6N_A	5KTY_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q8IXT1|DDIAS_HUMAN	29.0	1L6N_A	1L1O_C	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q8IXZ3|SP8_HUMAN	29.0	1L6N_A	2WBS_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8IYB9|ZN595_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8IYI8|ZN440_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8IYK8|REM2_HUMAN	29.0	1L6N_A	3Q85_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q8IYN0|ZN100_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8IYX0|ZN679_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8IZ20|ZN683_HUMAN	29.0	1L6N_A	3W5K_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8IZ26|ZNF34_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8IZ41|RASEF_HUMAN	29.0	1L6N_A	2P5S_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q8IZC7|ZN101_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N141|ZFP82_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N143|BCL6B_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N184|ZN567_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N1W2|ZN710_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N2I2|ZN619_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N2R0|OSR2_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N328|PGBD3_HUMAN	29.0	1L6N_A	1V5N_A	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q8N393|ZN786_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N3J9|ZN664_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N4G2|ARL14_HUMAN	29.0	1L6N_A	3L82_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q8N4W9|ZN808_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N587|ZN561_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N680|ZBTB2_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N720|ZN655_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N782|ZN525_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N7K0|ZN433_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N7M2|ZN283_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N7Q3|ZN676_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N823|ZN611_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N859|ZN713_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N883|ZN614_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N895|ZN366_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N8C0|ZN781_HUMAN	29.0	1L6N_A	2M0D_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N8E2|ZN513_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N8J6|ZN615_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N8L2|ZN491_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N8L6|ARL10_HUMAN	29.0	1L6N_A	4M9Q_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q8N8Y5|ZFP41_HUMAN	29.0	1L6N_A	2M0D_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N8Z8|ZN441_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N972|ZN709_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N988|ZN557_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N9F8|ZN454_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N9K5|ZN565_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8N9N8|EIF1A_HUMAN	29.0	1L6N_A	4MNO_A	6SW9_8	6SW9_6
+sp|P04591|GAG_HV1H2	sp|Q8N9Z0|ZN610_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NA42|ZN383_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NAM6|ZSCA4_HUMAN	29.0	1L6N_A	2N26_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NAP3|ZBT38_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NB42|ZN527_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NB50|ZFP62_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NC26|ZN114_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NCA9|ZN784_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NCK3|ZN485_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NCN2|ZBT34_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NCP5|ZBT44_HUMAN	29.0	1L6N_A	5UND_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NDP4|ZN439_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NDQ6|ZN540_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NDW4|ZN248_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NE86|MCU_HUMAN	29.0	1L6N_A	6O5B_G	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q8NEK5|ZN548_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NEM1|ZN680_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NEP9|ZN555_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NF99|ZN397_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NHV1|GIMA7_HUMAN	29.0	1L6N_A	3ZJC_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q8NHY6|ZFP28_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NI51|CTCFL_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TA94|ZN563_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TAF7|ZN461_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TAQ5|ZN420_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TAU3|ZN417_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TAW3|ZN671_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TB37|NUBPL_HUMAN	29.0	1L6N_A	6G2G_A	5AUN_A	5AUN_B
+sp|P04591|GAG_HV1H2	sp|Q8TB69|ZN519_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TBJ5|FEZF2_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TBZ5|ZN502_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TBZ8|ZN564_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TC21|ZN596_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TC76|F110B_HUMAN	29.0	1L6N_A	6SNT_P	6SW9_8	6SWC_T
+sp|P04591|GAG_HV1H2	sp|Q8TCX1|DC2L1_HUMAN	29.0	1L6N_A	6SC2_E	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q8TCY9|URGCP_HUMAN	29.0	1L6N_A	2B8W_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q8TD17|ZN398_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TD23|ZN675_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TD47|RS4Y2_HUMAN	29.0	1L6N_A	5T2A_1	6SW9_8	6SW9_E
+sp|P04591|GAG_HV1H2	sp|Q8TD94|KLF14_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TE12|LMX1A_HUMAN	29.0	1L6N_A	1RUT_X	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q8TF20|ZN721_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TF32|ZN431_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TF39|ZN483_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TF45|ZN418_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TF47|ZFP90_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TF50|ZN526_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8TF68|ZN384_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8WTR4|GDPD5_HUMAN	29.0	1L6N_A	2OTD_C	6SW9_8	5JBH_G
+sp|P04591|GAG_HV1H2	sp|Q8WTR7|ZN473_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8WUD1|RAB2B_HUMAN	29.0	1L6N_A	2A5J_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q8WUU4|ZN296_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8WV37|ZN480_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8WW38|FOG2_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8WXB4|ZN606_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q92599|SEPT8_HUMAN	29.0	1L6N_A	2QAG_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q92610|ZN592_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|Q92613|JADE3_HUMAN	sp|P04591|GAG_HV1H2	29.0	5DAG_A	1L6N_A	3CW2_N	6SW9_8
+sp|P04591|GAG_HV1H2	sp|Q92664|TF3A_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q92670|ZN75C_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q92766|RREB1_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q92782|DPF1_HUMAN	29.0	1L6N_A	6LTH_R	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q92928|RAB1C_HUMAN	29.0	1L6N_A	5SZH_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q92963|RIT1_HUMAN	29.0	1L6N_A	4KLZ_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q92989|CLP1_HUMAN	29.0	1L6N_A	4OHW_A	5AUN_A	5AUN_B
+sp|P04591|GAG_HV1H2	sp|Q93073|SBP2L_HUMAN	29.0	1L6N_A	6Q8U_D	6SW9_8	3HAX_D
+sp|P04591|GAG_HV1H2	sp|Q969G2|LHX4_HUMAN	29.0	1L6N_A	2JTN_A	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q969J2|ZKSC4_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q969Q4|ARL11_HUMAN	29.0	1L6N_A	3L82_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q969Q5|RAB24_HUMAN	29.0	1L6N_A	6JMG_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q969W8|ZN566_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q969Y2|GTPB3_HUMAN	29.0	1L6N_A	3GEE_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q96A47|ISL2_HUMAN	29.0	1L6N_A	4EGC_A	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q96BM9|ARL8A_HUMAN	29.0	1L6N_A	4ILE_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q96BR6|ZN669_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96BV0|ZN775_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96C28|ZN707_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96CS4|ZN689_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96CX3|ZN501_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96D21|RHES_HUMAN	29.0	1L6N_A	5UB8_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q96E17|RAB3C_HUMAN	29.0	1L6N_A	1ZBD_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q96EG3|ZN837_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96F15|GIMA5_HUMAN	29.0	1L6N_A	3LXX_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q96GC5|RM48_HUMAN	29.0	1L6N_A	6GB2_B	6SW9_8	5JBH_L
+sp|P04591|GAG_HV1H2	sp|Q96GC6|ZN274_HUMAN	29.0	1L6N_A	5YEG_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96GE5|ZN799_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96H40|ZN486_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96H86|ZN764_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96HQ0|ZN419_HUMAN	29.0	1L6N_A	5V3J_F	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96HU8|DIRA2_HUMAN	29.0	1L6N_A	2GF0_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q96I27|ZN625_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96IR2|ZN845_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96IT1|ZN496_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96JB3|HIC2_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96JC4|ZN479_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96JF6|ZN594_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96JL9|ZN333_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96K58|ZN668_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96K62|ZBT45_HUMAN	29.0	1L6N_A	2N26_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96K75|ZN514_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96K83|ZN521_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96KC2|ARL5B_HUMAN	29.0	1L6N_A	1ZJ6_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q96KM6|Z512B_HUMAN	29.0	1L6N_A	5V3J_F	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96L33|RHOV_HUMAN	29.0	1L6N_A	4MIT_D	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q96LW1|Z354B_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96LW9|ZSC31_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96LX8|ZN597_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96MN9|ZN488_HUMAN	29.0	1L6N_A	5YEF_A	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q96MR9|ZN560_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96MU6|ZN778_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96MX3|ZNF48_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96N20|ZN75A_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96N22|ZN681_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96N38|ZN714_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96N58|ZN578_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96N77|ZN641_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96ND8|ZN583_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96NG5|ZN558_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96NG8|ZN582_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96NI8|ZN570_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96NJ3|ZN285_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96NJ6|ZFP3_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96NL3|ZN599_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96NY9|MUS81_HUMAN	29.0	1L6N_A	4P0P_A	6SW9_8	6SW9_U
+sp|P04591|GAG_HV1H2	sp|Q96P47|AGAP3_HUMAN	29.0	1L6N_A	3JUE_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q96PE6|ZIM3_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96PP8|GBP5_HUMAN	29.0	1L6N_A	1F5N_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q96PP9|GBP4_HUMAN	29.0	1L6N_A	1F5N_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q96PQ6|ZN317_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96RE9|ZN300_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96RQ1|ERGI2_HUMAN	29.0	1L6N_A	3ZLC_B	6SW9_8	5JBH_O
+sp|Q96RQ3|MCCA_HUMAN	sp|P04591|GAG_HV1H2	29.0	3U9S_A	1L6N_A	5JB3_1	6SW9_8
+sp|P04591|GAG_HV1H2	sp|Q96S79|RSLAB_HUMAN	29.0	1L6N_A	3SEA_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q96SE7|ZN347_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96SK3|ZN607_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96SL8|FIZ1_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96SQ5|ZN587_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96SR6|ZN382_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96SZ4|ZSC10_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q96T21|SEBP2_HUMAN	29.0	1L6N_A	6HCT_C	6SW9_8	3HAX_D
+sp|P04591|GAG_HV1H2	sp|Q96T25|ZIC5_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q99426|TBCB_HUMAN	29.0	1L6N_A	1WHG_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q99578|RIT2_HUMAN	29.0	1L6N_A	3BRW_D	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q99676|ZN184_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q99684|GFI1_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BPW5|RSLBB_HUMAN	29.0	1L6N_A	3SEA_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9BQA5|HINFP_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BR84|ZN559_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BRH9|ZN251_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BRP0|OVOL2_HUMAN	29.0	1L6N_A	3W5K_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BRR0|ZKSC3_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BS31|ZN649_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BS34|ZN670_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BSG1|ZNF2_HUMAN	29.0	1L6N_A	5V3J_F	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BSK1|ZN577_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BT17|MTG1_HUMAN	29.0	1L6N_A	6G15_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9BTP7|FAP24_HUMAN	29.0	1L6N_A	2M9M_A	6SW9_8	5JBH_O
+sp|P04591|GAG_HV1H2	sp|Q9BUG6|ZSA5A_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BUY5|ZN426_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BVP2|GNL3_HUMAN	29.0	1L6N_A	3JCT_s	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9BW83|IFT27_HUMAN	29.0	1L6N_A	2YC2_D	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9BWE0|REPI1_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BWM5|ZN416_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BX82|ZN471_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BXA9|SALL3_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BY31|ZN717_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BYN7|ZN341_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BZE4|NOG1_HUMAN	29.0	1L6N_A	3JCT_b	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9C0F3|ZN436_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9C0G0|ZN407_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9C0K0|BC11B_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9GZT9|EGLN1_HUMAN	29.0	1L6N_A	4BQY_A	6SW9_8	5JB3_Y
+sp|P04591|GAG_HV1H2	sp|Q9GZU2|PEG3_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9GZV8|PRD14_HUMAN	29.0	1L6N_A	5T0U_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9GZX5|ZN350_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9H089|LSG1_HUMAN	29.0	1L6N_A	6QIK_o	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9H0D2|ZN541_HUMAN	29.0	1L6N_A	6Z2J_F	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9H0F7|ARL6_HUMAN	29.0	1L6N_A	6VBV_3	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9H0M5|ZN700_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9H0R5|GBP3_HUMAN	29.0	1L6N_A	1F5N_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9H0T7|RAB17_HUMAN	29.0	1L6N_A	6JMG_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9H0U4|RAB1B_HUMAN	29.0	1L6N_A	5SZH_B	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9H116|GZF1_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9H165|BC11A_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9H2C2|ARV1_HUMAN	29.0	1L6N_A	1H7V_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q9H4E5|RHOJ_HUMAN	29.0	1L6N_A	4MIT_D	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9H4K7|MTG2_HUMAN	29.0	1L6N_A	4CSU_9	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9H4Q4|PRD12_HUMAN	29.0	1L6N_A	3EP0_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9H4T2|ZSC16_HUMAN	29.0	1L6N_A	2N26_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9H4Z2|ZN335_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9H5H4|ZN768_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9H668|STN1_HUMAN	29.0	1L6N_A	6W6W_C	6SW9_8	6SW9_U
+sp|P04591|GAG_HV1H2	sp|Q9H707|ZN552_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9H7R0|ZN442_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9H7R5|ZN665_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9H7X3|ZN696_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9H8G1|ZN430_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9H963|ZN702_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9H9D4|ZN408_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9H9Y4|GPN2_HUMAN	29.0	1L6N_A	5HCI_E	5AUN_A	5AUN_B
+sp|P04591|GAG_HV1H2	sp|Q9HAH1|ZN556_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9HAZ2|PRD16_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9HBE1|PATZ1_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9HBH0|RHOF_HUMAN	29.0	1L6N_A	4MIT_D	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9HBT7|ZN287_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9HBT8|Z286A_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9HC78|ZBT20_HUMAN	29.0	1L6N_A	5EGB_A	6SW9_8	6SW9_C
+sp|Q9HCC8|GDPD2_HUMAN	sp|P04591|GAG_HV1H2	29.0	3CH0_A	1L6N_A	5JB3_E	6SW9_8
+sp|P04591|GAG_HV1H2	sp|Q9HCG1|ZN160_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9HCK0|ZBT26_HUMAN	29.0	1L6N_A	3W5K_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9HCL3|ZFP14_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9HCN4|GPN1_HUMAN	29.0	1L6N_A	5HCN_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9HCX3|ZN304_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9HCZ1|ZN334_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NP72|RAB18_HUMAN	29.0	1L6N_A	6JMG_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9NPC7|MYNN_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NQV6|PRD10_HUMAN	29.0	1L6N_A	5V3J_F	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NQV7|PRDM9_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NQV8|PRDM8_HUMAN	29.0	1L6N_A	3RAY_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NQX0|PRDM6_HUMAN	29.0	1L6N_A	4IJD_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NQX1|PRDM5_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NQX6|ZN331_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NQZ8|ZNF71_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NR11|ZN302_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NRF8|PYRG2_HUMAN	29.0	1L6N_A	4ZDJ_A	5AUN_A	5AUN_B
+sp|P04591|GAG_HV1H2	sp|Q9NRY4|RHG35_HUMAN	29.0	1L6N_A	3FK2_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9NSC2|SALL1_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NSD4|ZN275_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NSJ1|Z355P_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NTG7|SIR3_HUMAN	29.0	1L6N_A	4BN4_A	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q9NTW7|ZF64B_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NU63|ZFP57_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NUA8|ZBT40_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NUV9|GIMA4_HUMAN	29.0	1L6N_A	3LXX_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9NV31|IMP3_HUMAN	29.0	1L6N_A	6RXU_C	6SW9_8	5JBH_D
+sp|P04591|GAG_HV1H2	sp|Q9NV72|ZN701_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NVJ2|ARL8B_HUMAN	29.0	1L6N_A	4ILE_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9NW07|ZN358_HUMAN	29.0	1L6N_A	5V3J_F	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NWW7|CB042_HUMAN	29.0	1L6N_A	2EY4_F	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q9NX24|NHP2_HUMAN	29.0	1L6N_A	3O85_B	6SW9_8	3HAX_D
+sp|P04591|GAG_HV1H2	sp|Q9NX57|RAB20_HUMAN	29.0	1L6N_A	6JMG_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9NX65|ZSC32_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NXT0|ZN586_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NXU5|ARL15_HUMAN	29.0	1L6N_A	1Z6Y_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9NYN1|RASLC_HUMAN	29.0	1L6N_A	3C5C_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9NYT6|ZN226_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NYW8|RBAK_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NZL3|ZN224_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9NZQ0|DJC27_HUMAN	29.0	1L6N_A	6JMG_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9NZU5|LMCD1_HUMAN	29.0	1L6N_A	2JTN_A	6SW9_8	5JB3_Y
+sp|P04591|GAG_HV1H2	sp|Q9NZV7|ZIM2_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9P0L1|ZKSC7_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9P0T4|ZN581_HUMAN	29.0	1L6N_A	2N26_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9P0V9|SEP10_HUMAN	29.0	1L6N_A	4Z54_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9P1Z0|ZBTB4_HUMAN	29.0	1L6N_A	5YEF_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9P243|ZFAT_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9P255|ZN492_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9P2F9|ZN319_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9P2J8|ZN624_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9P2Y4|ZN219_HUMAN	29.0	1L6N_A	5V3J_F	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UC06|ZNF70_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UC07|ZNF69_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UDV6|ZN212_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UEG4|ZN629_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UFB7|ZBT47_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UHB6|LIMA1_HUMAN	29.0	1L6N_A	2D8Y_A	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q9UHW5|GPN3_HUMAN	29.0	1L6N_A	5HCI_E	5AUN_A	5AUN_B
+sp|P04591|GAG_HV1H2	sp|Q9UID6|ZN639_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UIE0|ZN230_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UIH9|KLF15_HUMAN	29.0	1L6N_A	2WBS_A	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q9UII5|ZN107_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UJL9|ZF69B_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UJN7|ZN391_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UJQ4|SALL4_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UJU3|ZN112_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UJW7|ZN229_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UJW8|ZN180_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UK10|ZN225_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UK11|ZN223_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UK12|ZN222_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UK13|ZN221_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UKN5|PRDM4_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UL26|RB22A_HUMAN	29.0	1L6N_A	1Z0J_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9UL36|ZN236_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UL58|ZN215_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UL59|ZN214_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9ULC3|RAB23_HUMAN	29.0	1L6N_A	6JMG_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9ULD5|ZN777_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9ULJ3|ZBT21_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9ULM2|ZN490_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9ULW5|RAB26_HUMAN	29.0	1L6N_A	2G6B_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9UM63|PLAL1_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UNA4|POLI_HUMAN	29.0	1L6N_A	5KT7_A	6SW9_8	5JBH_O
+sp|P04591|GAG_HV1H2	sp|Q9UNY5|ZN232_HUMAN	29.0	1L6N_A	5YEG_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UPG8|PLAL2_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UQ26|RIMS2_HUMAN	29.0	1L6N_A	2A20_A	6SW9_8	5JB3_Y
+sp|P04591|GAG_HV1H2	sp|Q9UQR1|ZN148_HUMAN	29.0	1L6N_A	2M0D_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y272|RASD1_HUMAN	29.0	1L6N_A	5UB8_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9Y285|SYFA_HUMAN	29.0	1L6N_A	3L4G_M	6SW9_8	6SW9_U
+sp|P04591|GAG_HV1H2	sp|Q9Y295|DRG1_HUMAN	29.0	1L6N_A	4A9A_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9Y2A4|ZN443_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y2D9|ZN652_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y2G7|ZFP30_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y2H8|ZN510_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y2K1|ZBTB1_HUMAN	29.0	1L6N_A	5V3J_F	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y2L8|ZKSC5_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y2P0|ZN835_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y2P7|ZN256_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y2Q1|ZN257_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y2R5|RT17_HUMAN	29.0	1L6N_A	6RW4_N	6SW9_8	5JBH_R
+sp|P04591|GAG_HV1H2	sp|Q9Y2R9|RT07_HUMAN	29.0	1L6N_A	6RW4_F	6SW9_8	6TMF_I
+sp|P04591|GAG_HV1H2	sp|Q9Y2X9|ZN281_HUMAN	29.0	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y2Y9|KLF13_HUMAN	29.0	1L6N_A	2WBS_A	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q9Y2Z4|SYYM_HUMAN	29.0	1L6N_A	6HB5_A	6SW9_8	5JBH_D
+sp|P04591|GAG_HV1H2	sp|Q9Y399|RT02_HUMAN	29.0	1L6N_A	6RW4_B	6SW9_8	5JBH_B
+sp|P04591|GAG_HV1H2	sp|Q9Y3L5|RAP2C_HUMAN	29.0	1L6N_A	3RAP_S	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9Y3M9|ZN337_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y462|ZN711_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y467|SALL2_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y473|ZN175_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y4E5|ZN451_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y5A6|ZSC21_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y5W3|KLF2_HUMAN	29.0	1L6N_A	2WBS_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y689|ARL5A_HUMAN	29.0	1L6N_A	1ZJ6_A	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9Y6G9|DC1L1_HUMAN	29.0	1L6N_A	6F1T_j	6SW9_8	4RJL_A
+sp|P04591|GAG_HV1H2	sp|Q9Y6Q3|ZFP37_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9Y6R6|Z780B_HUMAN	29.0	1L6N_A	6QNX_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	tr|A0A087WUV0|A0A087WUV0_HUMAN	29.0	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	tr|A0A1W2PQL4|A0A1W2PQL4_HUMAN	29.0	1L6N_A	5UND_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	tr|B7ZLF3|B7ZLF3_HUMAN	29.0	1L6N_A	5YEG_B	6SW9_8	6SW9_C
+sp|P04608|TAT_HV1H2	sp|Q9UJU5|FOXD3_HUMAN	29.0	3MI9_C	6FEC_w	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|Q13477|MADCA_HUMAN	29.0	2X7L_R	1BQS_A	5DHX_C	6CVK_A
+sp|P04618|REV_HV1H2	sp|Q14692|BMS1_HUMAN	29.0	2X7L_R	6RXU_C	5IW7_A	5IW7_A
+sp|P04618|REV_HV1H2	sp|Q2NL82|TSR1_HUMAN	29.0	2X7L_R	6G18_u	5IW7_A	5IW7_A
+sp|P04618|REV_HV1H2	sp|Q5VTM2|AGAP9_HUMAN	29.0	2X7L_R	3JUE_A	5IW7_A	5IW7_A
+sp|P04618|REV_HV1H2	sp|Q8NHS2|AATC2_HUMAN	29.0	2X7L_R	3K7Y_A	5IW7_A	5IW7_A
+sp|P05919|VPU_HV1H2	sp|P25100|ADA1D_HUMAN	29.0	2N28_A	5WIV_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q9NVM1|EVA1B_HUMAN	29.0	2N28_A	6J8H_C	6C14_A	6C14_A
+sp|A6NCF5|KLH33_HUMAN	sp|P69723|VIF_HV1H2	29.0	4XMB_A	4N9F_b	6P59_Z	6P59_B
+sp|P69723|VIF_HV1H2	sp|Q6EEV6|SUMO4_HUMAN	29.0	4N9F_b	4GIV_A	4N9F_b	2MA9_B
+sp|P69726|VPR_HV1H2	sp|O75145|LIPA3_HUMAN	29.0	1ESX_A	6KIP_B	5AJA_B	5AJA_C
+sp|A6NJ78|MET15_HUMAN	sp|P04618|REV_HV1H2	29.0	1M6Y_B	2X7L_R	6RBD_y	5IW7_A
+sp|O14717|TRDMT_HUMAN	sp|P04618|REV_HV1H2	29.0	1G55_A	2X7L_R	6RBD_y	5IW7_A
+sp|O43542|XRCC3_HUMAN	sp|P04601|NEF_HV1H2	29.0	2Z43_C	3TB8_A	6CRI_L	6CRI_Z
+sp|O75306|NDUS2_HUMAN	sp|P04591|GAG_HV1H2	29.0	6G2J_D	1L6N_A	5YXY_C	5AUN_A
+sp|P0C7V9|ME15P_HUMAN	sp|P04618|REV_HV1H2	29.0	1N2X_A	2X7L_R	6RBD_y	5IW7_A
+sp|P14679|TYRO_HUMAN	sp|P04585|POL_HV1H2	29.0	5M8T_B	1L6N_A	6CPL_A	2XXM_A
+sp|P14679|TYRO_HUMAN	sp|P04591|GAG_HV1H2	29.0	5M8T_B	1L6N_A	6CPL_A	2XXM_A
+sp|P46087|NOP2_HUMAN	sp|P04618|REV_HV1H2	29.0	6ELZ_q	2X7L_R	6RBD_y	5IW7_A
+sp|Q08J23|NSUN2_HUMAN	sp|P04618|REV_HV1H2	29.0	6ELZ_q	2X7L_R	6RBD_y	5IW7_A
+sp|Q32P41|TRM5_HUMAN	sp|P04618|REV_HV1H2	29.0	5YAC_A	2X7L_R	6RBD_y	5IW7_A
+sp|Q53H54|TYW2_HUMAN	sp|P04618|REV_HV1H2	29.0	5YAC_A	2X7L_R	6RBD_y	5IW7_A
+sp|Q5VZL5|ZMYM4_HUMAN	sp|P04591|GAG_HV1H2	29.0	2DAS_A	1L6N_A	3CW2_N	6SW9_8
+sp|Q7Z4G4|TRM11_HUMAN	sp|P04618|REV_HV1H2	29.0	5E71_A	2X7L_R	6RBD_y	5IW7_A
+sp|Q7Z5W3|BN3D2_HUMAN	sp|P04618|REV_HV1H2	29.0	6L8U_C	2X7L_R	6RBD_y	5IW7_A
+sp|Q86W50|MET16_HUMAN	sp|P04618|REV_HV1H2	29.0	6DU4_A	2X7L_R	6RBD_y	5IW7_A
+sp|Q8WVM0|TFB1M_HUMAN	sp|P04618|REV_HV1H2	29.0	4GC5_A	2X7L_R	6RBD_y	5IW7_A
+sp|Q8WZ04|TOMT_HUMAN	sp|P04618|REV_HV1H2	29.0	5P9V_A	2X7L_R	6RBD_y	5IW7_A
+sp|Q96CB9|NSUN4_HUMAN	sp|P04618|REV_HV1H2	29.0	4FZV_A	2X7L_R	6RBD_y	5IW7_A
+sp|Q96FB5|RRNAD_HUMAN	sp|P04618|REV_HV1H2	29.0	5EOV_A	2X7L_R	6RBD_y	5IW7_A
+sp|Q96FX7|TRM61_HUMAN	sp|P04618|REV_HV1H2	29.0	5ERG_B	2X7L_R	6RBD_y	5IW7_A
+sp|Q96GJ1|TRM2_HUMAN	sp|P04618|REV_HV1H2	29.0	5XJ1_A	2X7L_R	6RBD_y	5IW7_A
+sp|Q96MG8|PCMD1_HUMAN	sp|P04618|REV_HV1H2	29.0	4L7V_A	2X7L_R	6RBD_y	5IW7_A
+sp|Q96P11|NSUN5_HUMAN	sp|P04618|REV_HV1H2	29.0	2B9E_A	2X7L_R	6RBD_y	5IW7_A
+sp|Q96RS0|TGS1_HUMAN	sp|P04618|REV_HV1H2	29.0	3GDH_C	2X7L_R	6RBD_y	5IW7_A
+sp|Q9H5Q4|TFB2M_HUMAN	sp|P04618|REV_HV1H2	29.0	6ERQ_F	2X7L_R	6RBD_y	5IW7_A
+sp|Q9NRN9|METL5_HUMAN	sp|P04618|REV_HV1H2	29.0	6H2V_A	2X7L_R	6RBD_y	5IW7_A
+sp|Q9UBP6|TRMB_HUMAN	sp|P04618|REV_HV1H2	29.0	3CKK_A	2X7L_R	6RBD_y	5IW7_A
+sp|Q9UNQ2|DIM1_HUMAN	sp|P04618|REV_HV1H2	29.0	6W6F_A	2X7L_R	6RBD_y	5IW7_A
+sp|Q9Y5N5|N6MT1_HUMAN	sp|P04618|REV_HV1H2	29.0	6KMS_C	2X7L_R	6RBD_y	5IW7_A
+sp|Q9Y5R4|HEMK1_HUMAN	sp|P04618|REV_HV1H2	29.0	1SG9_B	2X7L_R	6RBD_y	5IW7_A
+tr|A0A2R8Y5M8|A0A2R8Y5M8_HUMAN	sp|P04618|REV_HV1H2	29.0	5P9V_A	2X7L_R	6RBD_y	5IW7_A
+sp|P04578|ENV_HV1H2	sp|Q9H8G2|CAAP1_HUMAN	28.9	6PWU_E	6XTX_B	6NQD_F	6NQD_F
+sp|P04585|POL_HV1H2	sp|P01100|FOS_HUMAN	28.9	1L6N_A	6MG1_A	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|P0C7X3|CCYL3_HUMAN	28.9	1L6N_A	4KRD_B	5FMF_R	4V1N_M
+sp|P51948|MAT1_HUMAN	sp|P04585|POL_HV1H2	28.9	6NMI_H	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q96FZ7|CHMP6_HUMAN	28.9	1L6N_A	3FRV_A	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q99832|TCPH_HUMAN	28.9	1L6N_A	6QB8_h	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|Q9H3U7|SMOC2_HUMAN	28.9	1L6N_A	6SCJ_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9H8M7|MINY3_HUMAN	28.9	1L6N_A	2KXW_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P0C7X3|CCYL3_HUMAN	28.9	1L6N_A	4KRD_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q658N2|WSCD1_HUMAN	28.9	1L6N_A	5FWW_B	6SW9_8	5JBH_O
+sp|P04591|GAG_HV1H2	sp|Q99832|TCPH_HUMAN	28.9	1L6N_A	6QB8_h	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|Q9H3U7|SMOC2_HUMAN	28.9	1L6N_A	6SCJ_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9H8M7|MINY3_HUMAN	28.9	1L6N_A	2KXW_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	tr|A0A1W2PR95|A0A1W2PR95_HUMAN	28.9	1L6N_A	4IYP_A	5IJN_H	5IJN_H
+sp|P04601|NEF_HV1H2	sp|Q17R55|F187B_HUMAN	28.9	3TB8_A	6OOL_A	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|O15234|CASC3_HUMAN	28.9	3MI9_C	5XJC_x	3MI9_C	2PK2_B
+sp|P05919|VPU_HV1H2	sp|Q12857|NFIA_HUMAN	28.9	2N28_A	5WLC_L	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8WTV0|SCRB1_HUMAN	28.9	2N28_A	5LGD_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9GZY6|NTAL_HUMAN	28.9	2N28_A	6C13_A	6C14_A	6C14_A
+sp|P69726|VPR_HV1H2	sp|Q01543|FLI1_HUMAN	28.9	1ESX_A	5E8G_C	5AJA_B	5AJA_C
+sp|P69726|VPR_HV1H2	sp|Q9NZI6|TF2L1_HUMAN	28.9	1ESX_A	5MPH_A	4Z8L_B	4Z8L_F
+sp|Q5H9J7|BEX5_HUMAN	sp|P04578|ENV_HV1H2	28.9	2JN6_A	6PWU_E	4GIP_D	2B9B_B
+sp|Q99835|SMO_HUMAN	sp|P04578|ENV_HV1H2	28.9	5V57_A	6PWU_E	6MEO_B	3J70_P
+sp|O75081|MTG16_HUMAN	sp|P04585|POL_HV1H2	28.8	2H7B_A	1L6N_A	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|P00915|CAH1_HUMAN	28.8	1L6N_A	6I0J_B	6HWX_B	6HWX_B
+sp|P04585|POL_HV1H2	sp|Q6P0A1|F180B_HUMAN	28.8	1L6N_A	6T61_E	6T61_E	6T61_E
+sp|P04585|POL_HV1H2	sp|Q8N2H9|PELI3_HUMAN	28.8	1L6N_A	3EGA_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q8WV22|NSE1_HUMAN	28.8	1L6N_A	5HVQ_C	5FMF_R	5IP7_L
+sp|Q9NV58|RN19A_HUMAN	sp|P04585|POL_HV1H2	28.8	5C1Z_B	1L6N_A	5FMF_I	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q9UBG3|CRNN_HUMAN	28.8	1L6N_A	3NSO_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A6NHN6|NPB15_HUMAN	28.8	1L6N_A	4ZGW_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|P00915|CAH1_HUMAN	28.8	1L6N_A	6I0J_B	6HWX_B	6HWX_B
+sp|P04591|GAG_HV1H2	sp|P10588|NR2F6_HUMAN	28.8	1L6N_A	3DZY_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|P20742|PZP_HUMAN	28.8	1L6N_A	4ACQ_C	4AYB_N	4AYB_E
+sp|P04591|GAG_HV1H2	sp|P41271|NBL1_HUMAN	28.8	1L6N_A	4YU8_A	4AYB_N	4AYB_A
+sp|P04591|GAG_HV1H2	sp|P56556|NDUA6_HUMAN	28.8	1L6N_A	6QC9_A	4AYB_N	4AYB_Q
+sp|P04591|GAG_HV1H2	sp|P62877|RBX1_HUMAN	28.8	1L6N_A	3DPL_R	6QAJ_A	6QAJ_B
+sp|Q16322|KCA10_HUMAN	sp|P04591|GAG_HV1H2	28.8	2R9R_H	1L6N_A	3CW2_N	6SW9_8
+sp|P04591|GAG_HV1H2	sp|Q4W5G0|TIGD2_HUMAN	28.8	1L6N_A	1IUF_A	6SW9_8	5JBH_O
+sp|P04591|GAG_HV1H2	sp|Q5T7W7|TSTD2_HUMAN	28.8	1L6N_A	4F67_A	4AYB_N	4AYB_P
+sp|P04591|GAG_HV1H2	sp|Q5VXU3|CHIC1_HUMAN	28.8	1L6N_A	6GMH_Z	4AYB_N	4AYB_Q
+sp|P04591|GAG_HV1H2	sp|Q6P0A1|F180B_HUMAN	28.8	1L6N_A	6T61_E	6T61_E	6T61_E
+sp|P04591|GAG_HV1H2	sp|Q6ZUS5|CC121_HUMAN	28.8	1L6N_A	6C48_B	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q86YJ5|MARH9_HUMAN	28.8	1L6N_A	2M6M_A	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q8N128|F177A_HUMAN	28.8	1L6N_A	4AYB_C	4AYB_N	4AYB_C
+sp|P04591|GAG_HV1H2	sp|Q8N488|RYBP_HUMAN	28.8	1L6N_A	3IXS_F	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q9BV90|SNR25_HUMAN	28.8	1L6N_A	1V2Y_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q9UBG3|CRNN_HUMAN	28.8	1L6N_A	3NSO_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9UIG0|BAZ1B_HUMAN	28.8	1L6N_A	5PYP_A	4AYB_N	4AYB_P
+sp|Q6PI77|BHLH9_HUMAN	sp|P04601|NEF_HV1H2	28.8	5MFO_F	3TB8_A	4NEE_G	3TB8_A
+sp|P04618|REV_HV1H2	sp|Q8IYV9|IZUM1_HUMAN	28.8	2X7L_R	5F4E_A	5DHX_C	6CVK_A
+sp|P05919|VPU_HV1H2	sp|P13598|ICAM2_HUMAN	28.8	2N28_A	3TCX_S	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P36941|TNR3_HUMAN	28.8	2N28_A	4MXW_R	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8N4S9|MALD2_HUMAN	28.8	2N28_A	1WPA_A	6C14_A	6C14_D
+sp|Q14541|HNF4G_HUMAN	sp|P04591|GAG_HV1H2	28.8	4IQR_F	1L6N_A	6N7I_C	6N9X_B
+sp|O43593|HAIR_HUMAN	sp|P04585|POL_HV1H2	28.7	2YPD_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|P06746|DPOLB_HUMAN	28.7	1L6N_A	6BEL_A	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q14444|CAPR1_HUMAN	28.7	1L6N_A	5J97_A	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|Q2TAZ0|ATG2A_HUMAN	28.7	1L6N_A	6CBC_B	5FMF_R	5FMF_J
+sp|P04585|POL_HV1H2	sp|Q5VV16|FX4L5_HUMAN	28.7	1L6N_A	1JXS_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q8N196|SIX5_HUMAN	28.7	1L6N_A	4EGC_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q96AE4|FUBP1_HUMAN	28.7	1L6N_A	3N89_A	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|Q96NC0|ZMAT2_HUMAN	28.7	1L6N_A	6AHD_8	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q9P021|CRIPT_HUMAN	28.7	1L6N_A	3JB9_U	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|P04899|GNAI2_HUMAN	28.7	1L6N_A	6NE6_A	2D74_B	1KJZ_A
+sp|P04591|GAG_HV1H2	sp|P06746|DPOLB_HUMAN	28.7	1L6N_A	6BEL_A	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|P08754|GNAI3_HUMAN	28.7	1L6N_A	6NE6_A	2D74_B	1KJZ_A
+sp|P04591|GAG_HV1H2	sp|P19086|GNAZ_HUMAN	28.7	1L6N_A	6NE6_A	2D74_B	1KJZ_A
+sp|P04591|GAG_HV1H2	sp|P19087|GNAT2_HUMAN	28.7	1L6N_A	6NE6_A	2D74_B	1KJZ_A
+sp|P04591|GAG_HV1H2	sp|P20592|MX2_HUMAN	28.7	1L6N_A	4WHJ_A	2D74_B	1KJZ_A
+sp|P04591|GAG_HV1H2	sp|P30679|GNA15_HUMAN	28.7	1L6N_A	6NE6_A	2D74_B	1KJZ_A
+sp|P04591|GAG_HV1H2	sp|P38405|GNAL_HUMAN	28.7	1L6N_A	6EG8_I	2D74_B	1KJZ_A
+sp|P04591|GAG_HV1H2	sp|P63096|GNAI1_HUMAN	28.7	1L6N_A	6NE6_A	2D74_B	1KJZ_A
+sp|P04591|GAG_HV1H2	sp|Q2TAZ0|ATG2A_HUMAN	28.7	1L6N_A	6CBC_B	5FMF_R	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q5VV16|FX4L5_HUMAN	28.7	1L6N_A	1JXS_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q68CJ6|SLIP_HUMAN	28.7	1L6N_A	5GOF_A	2D74_B	1KJZ_A
+sp|P04591|GAG_HV1H2	sp|Q8NC60|NOA1_HUMAN	28.7	1L6N_A	3EC1_B	2D74_B	1KJZ_A
+sp|P04591|GAG_HV1H2	sp|Q8ND71|GIMA8_HUMAN	28.7	1L6N_A	3LXX_A	2D74_B	1KJZ_A
+sp|P04591|GAG_HV1H2	sp|Q8NH07|O11H2_HUMAN	28.7	1L6N_A	6KUX_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q8WWP7|GIMA1_HUMAN	28.7	1L6N_A	3V70_B	2D74_B	1KJZ_A
+sp|P04591|GAG_HV1H2	sp|Q96AE4|FUBP1_HUMAN	28.7	1L6N_A	3N89_A	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|Q96NC0|ZMAT2_HUMAN	28.7	1L6N_A	6AHD_8	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q9H0F6|SHRPN_HUMAN	28.7	1L6N_A	4EMO_C	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q9HBM1|SPC25_HUMAN	28.7	1L6N_A	2VE7_B	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q9NTK5|OLA1_HUMAN	28.7	1L6N_A	2OHF_A	2D74_B	1KJZ_A
+sp|P04591|GAG_HV1H2	sp|Q9NVN8|GNL3L_HUMAN	28.7	1L6N_A	3JCT_s	2D74_B	1KJZ_A
+sp|P04591|GAG_HV1H2	sp|Q9P021|CRIPT_HUMAN	28.7	1L6N_A	3JB9_U	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9UG22|GIMA2_HUMAN	28.7	1L6N_A	2XTP_A	2D74_B	1KJZ_A
+sp|P04591|GAG_HV1H2	sp|Q9Y3S2|ZN330_HUMAN	28.7	1L6N_A	6T9K_Q	6QAJ_A	6QAJ_B
+sp|A0A5B6|TVB28_HUMAN	sp|P04601|NEF_HV1H2	28.7	5E9D_J	3TB8_A	5XOV_H	3TB8_A
+sp|P04608|TAT_HV1H2	sp|Q9NU39|FX4L1_HUMAN	28.7	3MI9_C	1JXS_A	3MI9_C	2PK2_B
+sp|P05919|VPU_HV1H2	sp|A0MZ66|SHOT1_HUMAN	28.7	2N28_A	6SO3_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|A6BM72|MEG11_HUMAN	28.7	2N28_A	4XBM_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|K7EJ46|SIM22_HUMAN	28.7	2N28_A	2NA9_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|O14514|AGRB1_HUMAN	28.7	2N28_A	4DLO_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|O14668|TMG1_HUMAN	28.7	2N28_A	1J34_C	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|O14836|TR13B_HUMAN	28.7	2N28_A	1XUT_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|O43193|MTLR_HUMAN	28.7	2N28_A	5NJ6_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|O43581|SYT7_HUMAN	28.7	2N28_A	6ANK_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|O60637|TSN3_HUMAN	28.7	2N28_A	5TCX_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|O75264|SIM24_HUMAN	28.7	2N28_A	3MK7_F	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|O75363|BCAS1_HUMAN	28.7	2N28_A	2LUG_A	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|P01589|IL2RA_HUMAN	28.7	2N28_A	3IU3_K	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P07766|CD3E_HUMAN	28.7	2N28_A	6JXR_f	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P11509|CP2A6_HUMAN	28.7	2N28_A	2FDV_C	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P13224|GP1BB_HUMAN	28.7	2N28_A	3RFE_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P13726|TF_HUMAN	28.7	2N28_A	3BES_R	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P16150|LEUK_HUMAN	28.7	2N28_A	5OB4_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P17302|CXA1_HUMAN	28.7	2N28_A	6MHQ_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P17483|HXB4_HUMAN	28.7	2N28_A	2R5Z_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P20701|ITAL_HUMAN	28.7	2N28_A	4NEH_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P20853|CP2A7_HUMAN	28.7	2N28_A	2FDV_C	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P21757|MSRE_HUMAN	28.7	2N28_A	5ZE3_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P21926|CD9_HUMAN	28.7	2N28_A	6K4J_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P22670|RFX1_HUMAN	28.7	2N28_A	3ZUQ_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P23469|PTPRE_HUMAN	28.7	2N28_A	6UZT_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P28067|DMA_HUMAN	28.7	2N28_A	2BC4_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P30203|CD6_HUMAN	28.7	2N28_A	5A2E_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P37088|SCNNA_HUMAN	28.7	2N28_A	6BQN_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P41273|TNFL9_HUMAN	28.7	2N28_A	6MGP_C	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P51168|SCNNB_HUMAN	28.7	2N28_A	6BQN_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P52848|NDST1_HUMAN	28.7	2N28_A	6NWZ_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P52849|NDST2_HUMAN	28.7	2N28_A	6NWZ_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P53708|ITA8_HUMAN	28.7	2N28_A	3IJE_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P58335|ANTR2_HUMAN	28.7	2N28_A	1SHU_X	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P78325|ADAM8_HUMAN	28.7	2N28_A	5Y31_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q07075|AMPE_HUMAN	28.7	2N28_A	4KX7_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q0VAQ4|SMAGP_HUMAN	28.7	2N28_A	4NKQ_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q13145|BAMBI_HUMAN	28.7	2N28_A	6MAC_K	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q14242|SELPL_HUMAN	28.7	2N28_A	4NKQ_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q14761|PTCA_HUMAN	28.7	2N28_A	6C14_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q15032|R3HD1_HUMAN	28.7	2N28_A	1WHR_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q15485|FCN2_HUMAN	28.7	2N28_A	4R9J_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q16099|GRIK4_HUMAN	28.7	2N28_A	6JFY_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q16655|MAR1_HUMAN	28.7	2N28_A	5ZAZ_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q2NL98|VMAC_HUMAN	28.7	2N28_A	3N7N_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q52LC2|VAS1L_HUMAN	28.7	2N28_A	6VQ6_c	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q5H8C1|FREM1_HUMAN	28.7	2N28_A	6PWR_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q5H943|KKLC1_HUMAN	28.7	2N28_A	6C13_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q5SZK8|FREM2_HUMAN	28.7	2N28_A	3RB7_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q5T7P8|SYT6_HUMAN	28.7	2N28_A	1DQV_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q5TGY3|AHDC1_HUMAN	28.7	2N28_A	5GAM_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q5VW36|FOCAD_HUMAN	28.7	2N28_A	6CRI_R	4P6Z_V	4P6Z_G
+sp|P05919|VPU_HV1H2	sp|Q66K66|TM198_HUMAN	28.7	2N28_A	6SO3_F	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q6PIZ9|TRAT1_HUMAN	28.7	2N28_A	5OR7_C	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q6U736|OPN5_HUMAN	28.7	2N28_A	5XSZ_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q6UWI4|SHSA2_HUMAN	28.7	2N28_A	5M0W_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q6ZVL6|K154L_HUMAN	28.7	2N28_A	5OR7_C	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q7Z3D4|LYSM3_HUMAN	28.7	2N28_A	2L9Y_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q7Z419|R144B_HUMAN	28.7	2N28_A	5C1Z_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q86TY3|ARMD4_HUMAN	28.7	2N28_A	5WLC_L	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q86UE4|LYRIC_HUMAN	28.7	2N28_A	4QMG_H	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q86XX4|FRAS1_HUMAN	28.7	2N28_A	5MY6_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q8IVY1|CA210_HUMAN	28.7	2N28_A	2KNC_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q8NB49|AT11C_HUMAN	28.7	2N28_A	6LKN_I	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q8NBJ9|SIDT2_HUMAN	28.7	2N28_A	6G7O_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q8NET5|NFAM1_HUMAN	28.7	2N28_A	5XSY_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8NEW7|TMIE_HUMAN	28.7	2N28_A	3E4P_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q8TBE3|FNDC9_HUMAN	28.7	2N28_A	4NKQ_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q8TBP5|F174A_HUMAN	28.7	2N28_A	5MMJ_u	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q8TC41|RN217_HUMAN	28.7	2N28_A	5C1Z_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q8TDF5|NETO1_HUMAN	28.7	2N28_A	2QQL_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q8TDX6|CGAT1_HUMAN	28.7	2N28_A	6FWT_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q8TEF2|CJ105_HUMAN	28.7	2N28_A	1Q5B_C	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q96FE7|P3IP1_HUMAN	28.7	2N28_A	1A0H_D	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q96KE9|BTBD6_HUMAN	28.7	2N28_A	3NO8_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q96KG7|MEG10_HUMAN	28.7	2N28_A	4XBM_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q96PE5|OPALI_HUMAN	28.7	2N28_A	6A69_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q99075|HBEGF_HUMAN	28.7	2N28_A	1XDT_R	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9C0E8|LNP_HUMAN	28.7	2N28_A	2Z73_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q9H400|LIME1_HUMAN	28.7	2N28_A	6C13_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q9H6Y7|RN167_HUMAN	28.7	2N28_A	6VK0_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q9HC73|CRLF2_HUMAN	28.7	2N28_A	5J11_C	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q9HCJ1|ANKH_HUMAN	28.7	2N28_A	4Z3N_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q9NP73|ALG13_HUMAN	28.7	2N28_A	4BOU_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q9NQX5|NPDC1_HUMAN	28.7	2N28_A	1ZZA_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q9NS68|TNR19_HUMAN	28.7	2N28_A	5T2Q_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q9NTN9|SEM4G_HUMAN	28.7	2N28_A	6QP7_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q9NW97|TMM51_HUMAN	28.7	2N28_A	6A69_B	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q9UNE0|EDAR_HUMAN	28.7	2N28_A	5T2Q_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q9Y3P8|SIT1_HUMAN	28.7	2N28_A	5OR7_C	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q9Y4D1|DAAM1_HUMAN	28.7	2N28_A	2J1D_G	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5U5|TNR18_HUMAN	28.7	2N28_A	6PE8_U	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q9Y6W8|ICOS_HUMAN	28.7	2N28_A	5OR7_C	6C13_A	6C13_A
+sp|Q9NV29|TM100_HUMAN	sp|P04585|POL_HV1H2	28.7	2LCX_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q9NV29|TM100_HUMAN	sp|P04591|GAG_HV1H2	28.7	2LCX_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q8N3F9|G137C_HUMAN	sp|P04578|ENV_HV1H2	28.6	6H3T_I	6PWU_E	6NM6_D	6MTJ_B
+sp|P04578|ENV_HV1H2	sp|Q96IX9|A26L1_HUMAN	28.6	6PWU_E	2YO3_B	2X7R_N	1FAV_A
+sp|P04585|POL_HV1H2	sp|O15062|ZBTB5_HUMAN	28.6	1L6N_A	5GIT_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q15008|PSMD6_HUMAN	28.6	1L6N_A	3JCK_D	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q5W111|SPRY7_HUMAN	28.6	1L6N_A	6E2H_D	6BK8_O	6J6G_T
+sp|P04585|POL_HV1H2	sp|Q86UC2|RSPH3_HUMAN	28.6	1L6N_A	4WIJ_B	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q8WU79|SMAP2_HUMAN	28.6	1L6N_A	2IQJ_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q92733|PRCC_HUMAN	28.6	1L6N_A	5MPS_R	6BK8_O	5MPS_R
+sp|P04585|POL_HV1H2	sp|Q969Q6|P2R3C_HUMAN	28.6	1L6N_A	4I5L_E	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q96EH8|NEUL3_HUMAN	28.6	1L6N_A	4KG0_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9P0U4|CXXC1_HUMAN	28.6	1L6N_A	6VEN_R	1NUI_A	1NUI_A
+sp|Q9Y4L5|RN115_HUMAN	sp|P04585|POL_HV1H2	28.6	6VK0_B	1L6N_A	5FMF_I	5FMF_R
+sp|A0A0J9YWL9|TX13C_HUMAN	sp|P04591|GAG_HV1H2	28.6	2K1P_A	1L6N_A	5IYB_M	5FMF_J
+sp|P04591|GAG_HV1H2	sp|A0AVK6|E2F8_HUMAN	28.6	1L6N_A	4YO2_A	5FMF_J	5FMF_R
+sp|A1A4F0|S66AL_HUMAN	sp|P04591|GAG_HV1H2	28.6	4QNC_A	1L6N_A	5M5W_B	5FMF_J
+sp|A1L162|ERIC2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4NUR_A	1L6N_A	6GMH_Z	5FMF_J
+sp|A2A3N6|PIPSL_HUMAN	sp|P04591|GAG_HV1H2	28.6	5L4K_W	1L6N_A	6O9L_6	5FMF_J
+sp|A6NCI4|VWA3A_HUMAN	sp|P04591|GAG_HV1H2	28.6	1SHU_X	1L6N_A	6O9L_4	5FMF_J
+sp|A6NK06|IRG1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6R6U_A	1L6N_A	6O9L_S	5FMF_J
+sp|A6NKC9|SH2D7_HUMAN	sp|P04591|GAG_HV1H2	28.6	2CS0_A	1L6N_A	6GMH_M	5FMF_J
+sp|A6NLF2|ELB3D_HUMAN	sp|P04591|GAG_HV1H2	28.6	4HFX_B	1L6N_A	1PQV_S	5FMF_J
+sp|A6NMZ7|CO6A6_HUMAN	sp|P04591|GAG_HV1H2	28.6	3HQV_C	1L6N_A	5OQJ_6	5FMF_J
+sp|A8K7I4|CLCA1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6PYO_A	1L6N_A	6O9L_4	5FMF_J
+sp|A8MV65|VGLL3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5Z2Q_D	1L6N_A	6GMH_Z	5FMF_J
+sp|A8TX70|CO6A5_HUMAN	sp|P04591|GAG_HV1H2	28.6	3HQV_C	1L6N_A	6O9L_6	5FMF_J
+sp|F5H4A9|CC080_HUMAN	sp|P04591|GAG_HV1H2	28.6	6EU1_Q	1L6N_A	6EU1_Q	5FMF_J
+sp|O00339|MATN2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4CN9_B	1L6N_A	5OQJ_6	5FMF_J
+sp|O00534|VMA5A_HUMAN	sp|P04591|GAG_HV1H2	28.6	6FPZ_B	1L6N_A	6O9L_4	5FMF_J
+sp|O14492|SH2B2_HUMAN	sp|P04591|GAG_HV1H2	28.6	1V5M_A	1L6N_A	6GMH_M	5FMF_J
+sp|O14508|SOCS2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6I5J_D	1L6N_A	6GMH_M	5FMF_J
+sp|O14640|DVL1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3PZ8_B	1L6N_A	6GMH_M	5FMF_J
+sp|O15232|MATN3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6S4C_A	1L6N_A	6O9L_4	5FMF_J
+sp|O15240|VGF_HUMAN	sp|P04591|GAG_HV1H2	28.6	5WLC_S	1L6N_A	5OIK_Z	5FMF_J
+sp|O15259|NPHP1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6O1Q_A	1L6N_A	6J51_W	5FMF_J
+sp|O15524|SOCS1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6C5X_D	1L6N_A	6GMH_M	5FMF_J
+sp|O43405|COCH_HUMAN	sp|P04591|GAG_HV1H2	28.6	4CN9_B	1L6N_A	6O9L_6	5FMF_J
+sp|O60784|TOM1_HUMAN	sp|P04591|GAG_HV1H2	28.6	1ELK_A	1L6N_A	5IYB_U	5FMF_J
+sp|O75131|CPNE3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6K87_B	1L6N_A	6O9L_6	5FMF_J
+sp|P04591|GAG_HV1H2	sp|O75151|PHF2_HUMAN	28.6	1L6N_A	3KV4_A	5FMF_J	5FMF_R
+sp|O75380|NDUS6_HUMAN	sp|P04591|GAG_HV1H2	28.6	6G2J_R	1L6N_A	6J51_M	5FMF_J
+sp|P04591|GAG_HV1H2	sp|O75426|FBX24_HUMAN	28.6	1L6N_A	6M90_A	5FMF_J	5FMF_R
+sp|P04591|GAG_HV1H2	sp|O75469|NR1I2_HUMAN	28.6	1L6N_A	4X1F_A	5LKM_B	5LKM_A
+sp|O75475|PSIP1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6S01_K	1L6N_A	5IYB_U	5FMF_J
+sp|O75578|ITA10_HUMAN	sp|P04591|GAG_HV1H2	28.6	4NEH_A	1L6N_A	6O9L_6	5FMF_J
+sp|O75603|GCM2_HUMAN	sp|P04591|GAG_HV1H2	28.6	1ODH_A	1L6N_A	5OIK_Y	5FMF_J
+sp|O75604|UBP2_HUMAN	sp|P04591|GAG_HV1H2	28.6	2GFO_A	1L6N_A	5JB3_1	6SW9_8
+sp|O75607|NPM3_HUMAN	sp|P04591|GAG_HV1H2	28.6	3T30_D	1L6N_A	5OIK_Z	5FMF_J
+sp|O75800|ZMY10_HUMAN	sp|P04591|GAG_HV1H2	28.6	2DJ8_A	1L6N_A	1PQV_S	5FMF_J
+sp|O75807|PR15A_HUMAN	sp|P04591|GAG_HV1H2	28.6	4V0U_K	1L6N_A	5OIK_Z	5FMF_J
+sp|O76080|ZFAN5_HUMAN	sp|P04591|GAG_HV1H2	28.6	2KZY_A	1L6N_A	6O9L_6	5FMF_J
+sp|O94776|MTA2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4BKX_A	1L6N_A	6F40_W	5FMF_J
+sp|O94953|KDM4B_HUMAN	sp|P04591|GAG_HV1H2	28.6	4LXL_A	1L6N_A	4BXZ_X	5FMF_J
+sp|O95196|CSPG5_HUMAN	sp|P04591|GAG_HV1H2	28.6	5E8D_A	1L6N_A	5OIK_Z	5FMF_J
+sp|O95373|IPO7_HUMAN	sp|P04591|GAG_HV1H2	28.6	6N88_A	1L6N_A	5OIK_Z	5FMF_J
+sp|O95402|MED26_HUMAN	sp|P04591|GAG_HV1H2	28.6	5ODD_A	1L6N_A	5IY7_U	5FMF_J
+sp|O95460|MATN4_HUMAN	sp|P04591|GAG_HV1H2	28.6	4CN9_B	1L6N_A	6O9L_4	5FMF_J
+sp|O95487|SC24B_HUMAN	sp|P04591|GAG_HV1H2	28.6	3EH1_A	1L6N_A	6O9L_4	5FMF_J
+sp|O95600|KLF8_HUMAN	sp|P04591|GAG_HV1H2	28.6	2EBT_A	1L6N_A	5IYD_Q	5FMF_J
+sp|O95718|ERR2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5UAN_B	1L6N_A	5OIK_Y	5FMF_J
+sp|O95741|CPNE6_HUMAN	sp|P04591|GAG_HV1H2	28.6	6K87_B	1L6N_A	6O9L_6	5FMF_J
+sp|P04198|MYCN_HUMAN	sp|P04591|GAG_HV1H2	28.6	5G1X_B	1L6N_A	5IY8_N	5FMF_J
+sp|P04275|VWF_HUMAN	sp|P04591|GAG_HV1H2	28.6	6N29_A	1L6N_A	6O9L_4	5FMF_J
+sp|P05107|ITB2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4UM8_B	1L6N_A	6O9L_6	5FMF_J
+sp|P05423|RPC4_HUMAN	sp|P04591|GAG_HV1H2	28.6	6TUT_N	1L6N_A	6TUT_N	5FMF_J
+sp|P05556|ITB1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4UM8_B	1L6N_A	6O9L_4	5FMF_J
+sp|P06681|CO2_HUMAN	sp|P04591|GAG_HV1H2	28.6	2XWB_F	1L6N_A	5OQJ_6	5FMF_J
+sp|P07199|CENPB_HUMAN	sp|P04591|GAG_HV1H2	28.6	1UFI_A	1L6N_A	5OIK_Z	5FMF_J
+sp|P07900|HS90A_HUMAN	sp|P04591|GAG_HV1H2	28.6	5FWK_A	1L6N_A	6GMH_Z	5FMF_J
+sp|P07992|ERCC1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6SXA_G	1L6N_A	6GMH_M	5FMF_J
+sp|P08235|MCR_HUMAN	sp|P04591|GAG_HV1H2	28.6	4NQA_I	1L6N_A	6O9L_6	5FMF_J
+sp|P08238|HS90B_HUMAN	sp|P04591|GAG_HV1H2	28.6	5FWK_A	1L6N_A	6GMH_Z	5FMF_J
+sp|P09234|RU1C_HUMAN	sp|P04591|GAG_HV1H2	28.6	6QX9_1	1L6N_A	5IYD_Q	5FMF_J
+sp|P0CG43|F157C_HUMAN	sp|P04591|GAG_HV1H2	28.6	6UXW_B	1L6N_A	5IYB_P	5FMF_J
+sp|P10155|RO60_HUMAN	sp|P04591|GAG_HV1H2	28.6	1YVP_B	1L6N_A	6O9L_6	5FMF_J
+sp|P10276|RARA_HUMAN	sp|P04591|GAG_HV1H2	28.6	6FX0_A	1L6N_A	5OQJ_6	5FMF_J
+sp|P10606|COX5B_HUMAN	sp|P04591|GAG_HV1H2	28.6	2Y69_F	1L6N_A	5IYD_Q	5FMF_J
+sp|P11137|MTAP2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6TJX_D	1L6N_A	6GMH_M	5FMF_J
+sp|P11215|ITAM_HUMAN	sp|P04591|GAG_HV1H2	28.6	4NEH_A	1L6N_A	6O9L_4	5FMF_J
+sp|P12109|CO6A1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3HQV_C	1L6N_A	6O9L_6	5FMF_J
+sp|P12110|CO6A2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3HQV_C	1L6N_A	6O9L_4	5FMF_J
+sp|P12111|CO6A3_HUMAN	sp|P04591|GAG_HV1H2	28.6	3HQV_C	1L6N_A	5OQJ_6	5FMF_J
+sp|P12956|XRCC6_HUMAN	sp|P04591|GAG_HV1H2	28.6	1JEQ_A	1L6N_A	5OQJ_6	5FMF_J
+sp|P13010|XRCC5_HUMAN	sp|P04591|GAG_HV1H2	28.6	1JEY_B	1L6N_A	6O9L_4	5FMF_J
+sp|P13056|NR2C1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3DZY_A	1L6N_A	4BXZ_X	5FMF_J
+sp|P13637|AT1A3_HUMAN	sp|P04591|GAG_HV1H2	28.6	2ZXE_A	1L6N_A	6IR9_V	5FMF_J
+sp|P17301|ITA2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4NEH_A	1L6N_A	5OQJ_6	5FMF_J
+sp|P17931|LEG3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6FOF_G	1L6N_A	5OIK_Z	5FMF_J
+sp|P18084|ITB5_HUMAN	sp|P04591|GAG_HV1H2	28.6	4UM8_B	1L6N_A	6O9L_6	5FMF_J
+sp|P18089|ADA2B_HUMAN	sp|P04591|GAG_HV1H2	28.6	6KUX_A	1L6N_A	5OIK_Z	5FMF_J
+sp|P18564|ITB6_HUMAN	sp|P04591|GAG_HV1H2	28.6	4UM8_B	1L6N_A	6O9L_6	5FMF_J
+sp|P19823|ITIH2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6FPZ_B	1L6N_A	6O9L_4	5FMF_J
+sp|P19827|ITIH1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6FPZ_B	1L6N_A	6O9L_4	5FMF_J
+sp|P20265|PO3F2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6T90_K	1L6N_A	5IY8_P	5FMF_J
+sp|P20702|ITAX_HUMAN	sp|P04591|GAG_HV1H2	28.6	4NEH_A	1L6N_A	5OQJ_6	5FMF_J
+sp|P20962|PTMS_HUMAN	sp|P04591|GAG_HV1H2	28.6	6RXZ_C	1L6N_A	6J51_W	5FMF_J
+sp|P21815|SIAL_HUMAN	sp|P04591|GAG_HV1H2	28.6	5T15_G	1L6N_A	5OIK_Z	5FMF_J
+sp|P21941|MATN1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4CN9_A	1L6N_A	6O9L_4	5FMF_J
+sp|P23759|PAX7_HUMAN	sp|P04591|GAG_HV1H2	28.6	2H8R_B	1L6N_A	6GMH_Z	5FMF_J
+sp|P25791|RBTN2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4KFZ_B	1L6N_A	5OQJ_6	5FMF_J
+sp|P25800|RBTN1_HUMAN	sp|P04591|GAG_HV1H2	28.6	1RUT_X	1L6N_A	6O9L_6	5FMF_J
+sp|P26010|ITB7_HUMAN	sp|P04591|GAG_HV1H2	28.6	4UM8_B	1L6N_A	5OQJ_6	5FMF_J
+sp|P26012|ITB8_HUMAN	sp|P04591|GAG_HV1H2	28.6	6UJB_B	1L6N_A	6O9L_6	5FMF_J
+sp|P26842|CD27_HUMAN	sp|P04591|GAG_HV1H2	28.6	5TL5_A	1L6N_A	6CPL_A	2XXM_A
+sp|P27658|CO8A1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3HQV_C	1L6N_A	5X4Z_G	5FMF_J
+sp|P29353|SHC1_HUMAN	sp|P04591|GAG_HV1H2	28.6	1N3H_A	1L6N_A	6GMH_M	5FMF_J
+sp|P35659|DEK_HUMAN	sp|P04591|GAG_HV1H2	28.6	2JX3_A	1L6N_A	5OIK_Z	5FMF_J
+sp|P38570|ITAE_HUMAN	sp|P04591|GAG_HV1H2	28.6	4NEH_A	1L6N_A	6O9L_4	5FMF_J
+sp|P43307|SSRA_HUMAN	sp|P04591|GAG_HV1H2	28.6	5WLC_L	1L6N_A	6GMH_Z	5FMF_J
+sp|P45379|TNNT2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6KN7_T	1L6N_A	5OIK_Z	5FMF_J
+sp|P48751|B3A3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6CAA_B	1L6N_A	5OIK_Z	5FMF_J
+sp|P50458|LHX2_HUMAN	sp|P04591|GAG_HV1H2	28.6	2JTN_A	1L6N_A	6O9L_6	5FMF_J
+sp|P04591|GAG_HV1H2	sp|P52943|CRIP2_HUMAN	28.6	1L6N_A	1RUT_X	5FMF_J	5FMF_R
+sp|P54105|ICLN_HUMAN	sp|P04591|GAG_HV1H2	28.6	1ZYI_A	1L6N_A	5OIK_Z	5FMF_J
+sp|P04591|GAG_HV1H2	sp|P54289|CA2D1_HUMAN	28.6	1L6N_A	6JPA_F	5FMF_J	5FMF_R
+sp|P54792|DVLP1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3PZ8_B	1L6N_A	6GMH_M	5FMF_J
+sp|P55036|PSMD4_HUMAN	sp|P04591|GAG_HV1H2	28.6	5L4K_W	1L6N_A	6O9L_6	5FMF_J
+sp|P55055|NR1H2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4NQA_I	1L6N_A	4BXZ_X	5FMF_J
+sp|P55201|BRPF1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5ERC_A	1L6N_A	4BXZ_X	5FMF_J
+sp|P04591|GAG_HV1H2	sp|P55265|DSRAD_HUMAN	28.6	1L6N_A	6VFF_B	5FMF_J	5FMF_R
+sp|P56199|ITA1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4NEH_A	1L6N_A	6O9L_6	5FMF_J
+sp|P58335|ANTR2_HUMAN	sp|P04591|GAG_HV1H2	28.6	1SHU_X	1L6N_A	6O9L_6	5FMF_J
+sp|P60228|EIF3E_HUMAN	sp|P04591|GAG_HV1H2	28.6	6FEC_3	1L6N_A	6GYM_W	5FMF_J
+sp|P60323|NANO3_HUMAN	sp|P04591|GAG_HV1H2	28.6	3ALR_C	1L6N_A	5X51_X	5FMF_J
+sp|P61254|RL26_HUMAN	sp|P04591|GAG_HV1H2	28.6	6T4Q_L	1L6N_A	5OIK_Z	5FMF_J
+sp|P62851|RS25_HUMAN	sp|P04591|GAG_HV1H2	28.6	5VYC_Z	1L6N_A	6TUT_P	5FMF_J
+sp|P63272|SPT4H_HUMAN	sp|P04591|GAG_HV1H2	28.6	3H7H_A	1L6N_A	6IR9_V	5FMF_J
+sp|P04591|GAG_HV1H2	sp|P78367|NKX32_HUMAN	28.6	1L6N_A	1AU7_A	4KBL_A	4KBL_A
+sp|P78412|IRX6_HUMAN	sp|P04591|GAG_HV1H2	28.6	2LK2_A	1L6N_A	5OIK_Z	5FMF_J
+sp|P78415|IRX3_HUMAN	sp|P04591|GAG_HV1H2	28.6	2LK2_A	1L6N_A	6IR9_W	5FMF_J
+sp|Q01954|BNC1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5V3J_E	1L6N_A	6O9L_6	5FMF_J
+sp|Q02388|CO7A1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3HQV_C	1L6N_A	6O9L_6	5FMF_J
+sp|Q02817|MUC2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6RBF_A	1L6N_A	6O9L_A	5FMF_J
+sp|Q05707|COEA1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4CN9_B	1L6N_A	5OQJ_6	5FMF_J
+sp|Q06033|ITIH3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6FPY_A	1L6N_A	6O9L_4	5FMF_J
+sp|Q08AE8|SPIR1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3R7G_A	1L6N_A	6O9L_4	5FMF_J
+sp|Q13094|LCP2_HUMAN	sp|P04591|GAG_HV1H2	28.6	2EAP_A	1L6N_A	6GMH_M	5FMF_J
+sp|Q13342|SP140_HUMAN	sp|P04591|GAG_HV1H2	28.6	1H5P_A	1L6N_A	4BXZ_X	5FMF_J
+sp|Q13349|ITAD_HUMAN	sp|P04591|GAG_HV1H2	28.6	4NEH_A	1L6N_A	6O9L_6	5FMF_J
+sp|Q13367|AP3B2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6OWT_A	1L6N_A	6GMH_Z	5FMF_J
+sp|Q13442|HAP28_HUMAN	sp|P04591|GAG_HV1H2	28.6	5SUP_G	1L6N_A	6GMH_Z	5FMF_J
+sp|Q13501|SQSTM_HUMAN	sp|P04591|GAG_HV1H2	28.6	6TH3_B	1L6N_A	6O9L_6	5FMF_J
+sp|Q13615|MTMR3_HUMAN	sp|P04591|GAG_HV1H2	28.6	1LW3_A	1L6N_A	6O9L_6	5FMF_J
+sp|Q13618|CUL3_HUMAN	sp|P04591|GAG_HV1H2	28.6	2HYE_C	1L6N_A	5IYC_T	5FMF_J
+sp|Q13887|KLF5_HUMAN	sp|P04591|GAG_HV1H2	28.6	2EBT_A	1L6N_A	5IYD_Q	5FMF_J
+sp|Q13889|TF2H3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6O9L_4	1L6N_A	6O9L_4	5FMF_J
+sp|Q13950|RUNX2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4L0Y_A	1L6N_A	5IYB_P	5FMF_J
+sp|Q14028|CNGB1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5VA1_A	1L6N_A	5OIK_Z	5FMF_J
+sp|Q14192|FHL2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4JCJ_C	1L6N_A	5IY6_L	5FMF_J
+sp|Q14241|ELOA1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4HFX_B	1L6N_A	1PQV_S	5FMF_J
+sp|Q14320|FA50A_HUMAN	sp|P04591|GAG_HV1H2	28.6	6GMH_Z	1L6N_A	6GMH_Z	5FMF_J
+sp|Q14568|HS902_HUMAN	sp|P04591|GAG_HV1H2	28.6	5FWK_A	1L6N_A	5OIK_Z	5FMF_J
+sp|Q14624|ITIH4_HUMAN	sp|P04591|GAG_HV1H2	28.6	6FPZ_B	1L6N_A	6O9L_4	5FMF_J
+sp|Q14847|LASP1_HUMAN	sp|P04591|GAG_HV1H2	28.6	1RUT_X	1L6N_A	5OQM_W	5FMF_J
+sp|Q14994|NR1I3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5UAN_B	1L6N_A	4BXZ_X	5FMF_J
+sp|Q14CN2|CLCA4_HUMAN	sp|P04591|GAG_HV1H2	28.6	6PYO_A	1L6N_A	6O9L_4	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q15008|PSMD6_HUMAN	28.6	1L6N_A	3JCK_D	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q15011|HERP1_HUMAN	28.6	1L6N_A	2KDB_A	5UDH_B	3LDZ_E
+sp|P04591|GAG_HV1H2	sp|Q15031|SYLM_HUMAN	28.6	1L6N_A	2V0C_A	5FMF_J	5FMF_R
+sp|Q15042|RB3GP_HUMAN	sp|P04591|GAG_HV1H2	28.6	5WQ3_C	1L6N_A	6GMH_E	5FMF_J
+sp|Q15437|SC23B_HUMAN	sp|P04591|GAG_HV1H2	28.6	5KYN_A	1L6N_A	6O9L_4	5FMF_J
+sp|Q15784|NDF2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4AYA_B	1L6N_A	6GMH_M	5FMF_J
+sp|Q17RA5|CMAS1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5FMF_R	1L6N_A	5FYW_W	5FMF_J
+sp|Q1XH10|SKDA1_HUMAN	sp|P04591|GAG_HV1H2	28.6	1L8R_A	1L6N_A	6GMH_Z	5FMF_J
+sp|Q2UY09|COSA1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3HQV_B	1L6N_A	6O9L_6	5FMF_J
+sp|Q3SY89|ELB3B_HUMAN	sp|P04591|GAG_HV1H2	28.6	4HFX_B	1L6N_A	1PQV_S	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q3ZCU0|GVQW3_HUMAN	28.6	1L6N_A	4U7B_A	5FMF_J	5FMF_R
+sp|Q4G0N8|SL9C1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4CZ8_A	1L6N_A	5XOG_L	5FMF_J
+sp|Q4LDE5|SVEP1_HUMAN	sp|P04591|GAG_HV1H2	28.6	2Q7Z_A	1L6N_A	5OQJ_6	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q4VC12|MSS51_HUMAN	28.6	1L6N_A	2DAN_A	6SW9_8	5JB3_Y
+sp|Q4VX76|SYTL3_HUMAN	sp|P04591|GAG_HV1H2	28.6	1ZBD_B	1L6N_A	6O9L_3	5FMF_J
+sp|Q502W6|VWA3B_HUMAN	sp|P04591|GAG_HV1H2	28.6	2X31_B	1L6N_A	6O9L_4	5FMF_J
+sp|Q53H82|LACB2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4AD9_D	1L6N_A	6EU0_P	5FMF_J
+sp|Q56P03|EAPP_HUMAN	sp|P04591|GAG_HV1H2	28.6	6O9L_6	1L6N_A	6O9L_6	5FMF_J
+sp|Q58FF7|H90B3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5FWK_A	1L6N_A	6GMH_Z	5FMF_J
+sp|Q5GFL6|VWA2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4CN9_A	1L6N_A	5OQJ_6	5FMF_J
+sp|Q5H9K5|ZMAT1_HUMAN	sp|P04591|GAG_HV1H2	28.6	1ZU1_A	1L6N_A	6RUI_I	5FMF_J
+sp|Q5JSJ4|INT6L_HUMAN	sp|P04591|GAG_HV1H2	28.6	4JDU_A	1L6N_A	6O9L_6	5FMF_J
+sp|Q5JTH9|RRP12_HUMAN	sp|P04591|GAG_HV1H2	28.6	1QBK_B	1L6N_A	6GMH_Z	5FMF_J
+sp|Q5SQS7|SH24B_HUMAN	sp|P04591|GAG_HV1H2	28.6	2Y3A_B	1L6N_A	6GMH_M	5FMF_J
+sp|Q5T011|SZT2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6O9L_4	1L6N_A	6O9L_4	5FMF_J
+sp|Q5TIE3|VW5B1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6FPZ_B	1L6N_A	6O9L_4	5FMF_J
+sp|Q5VU97|CAHD1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6JPA_F	1L6N_A	6O9L_4	5FMF_J
+sp|Q5VZ18|SHE_HUMAN	sp|P04591|GAG_HV1H2	28.6	1OO4_A	1L6N_A	6GMH_M	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q5W111|SPRY7_HUMAN	28.6	1L6N_A	6E2H_D	6BK8_O	6J6G_T
+sp|Q641Q2|WAC2A_HUMAN	sp|P04591|GAG_HV1H2	28.6	2LC3_A	1L6N_A	6GMH_Z	5FMF_J
+sp|Q68D10|SPT2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5BS7_E	1L6N_A	6GMH_M	5FMF_J
+sp|Q6FIF0|ZFAN6_HUMAN	sp|P04591|GAG_HV1H2	28.6	1WFF_A	1L6N_A	6O9L_4	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q6GPH4|XAF1_HUMAN	28.6	1L6N_A	2LXW_A	5FMF_J	5FMF_R
+sp|Q6NUN0|ACSM5_HUMAN	sp|P04591|GAG_HV1H2	28.6	3B7W_A	1L6N_A	5IY8_P	5FMF_J
+sp|Q6PCB0|VWA1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4OKR_B	1L6N_A	6O9L_6	5FMF_J
+sp|Q6Q6R5|CRIP3_HUMAN	sp|P04591|GAG_HV1H2	28.6	1B8T_A	1L6N_A	5FYW_W	5FMF_J
+sp|Q6Q759|SPG17_HUMAN	sp|P04591|GAG_HV1H2	28.6	3QBT_F	1L6N_A	6GMH_K	5FMF_J
+sp|Q6UXI7|VITRN_HUMAN	sp|P04591|GAG_HV1H2	28.6	4CN9_B	1L6N_A	6O9L_6	5FMF_J
+sp|Q6UXX5|ITIH6_HUMAN	sp|P04591|GAG_HV1H2	28.6	6FPY_A	1L6N_A	6O9L_4	5FMF_J
+sp|Q6ZMT4|KDM7A_HUMAN	sp|P04591|GAG_HV1H2	28.6	3KV5_A	1L6N_A	4BXZ_X	5FMF_J
+sp|Q6ZMV5|P4R3C_HUMAN	sp|P04591|GAG_HV1H2	28.6	4WSF_A	1L6N_A	6GMH_Z	5FMF_J
+sp|Q6ZS10|CL17A_HUMAN	sp|P04591|GAG_HV1H2	28.6	5G6U_A	1L6N_A	5OIK_Z	5FMF_J
+sp|Q6ZVM7|TM1L2_HUMAN	sp|P04591|GAG_HV1H2	28.6	1ELK_A	1L6N_A	5IYB_U	5FMF_J
+sp|Q6ZVN8|RGMC_HUMAN	sp|P04591|GAG_HV1H2	28.6	4BQ6_D	1L6N_A	6EU1_Q	5FMF_J
+sp|Q71SY5|MED25_HUMAN	sp|P04591|GAG_HV1H2	28.6	2KY6_A	1L6N_A	6O9L_4	5FMF_J
+sp|Q7L4S7|ARMX6_HUMAN	sp|P04591|GAG_HV1H2	28.6	6RXU_U	1L6N_A	6GMH_Z	5FMF_J
+sp|Q7L9B9|EEPD1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5A7I_A	1L6N_A	6GMH_M	5FMF_J
+sp|Q7Z3S7|CA2D4_HUMAN	sp|P04591|GAG_HV1H2	28.6	6JPA_F	1L6N_A	6O9L_4	5FMF_J
+sp|Q7Z418|KCNKI_HUMAN	sp|P04591|GAG_HV1H2	28.6	4XDL_A	1L6N_A	5IYB_M	5FMF_J
+sp|Q7Z4V5|HDGR2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6S01_K	1L6N_A	5IY7_U	5FMF_J
+sp|Q7Z7G1|CLNK_HUMAN	sp|P04591|GAG_HV1H2	28.6	3BKB_A	1L6N_A	6GMH_M	5FMF_J
+sp|Q86SE8|NPM2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3T30_C	1L6N_A	6GMH_M	5FMF_J
+sp|Q86UX2|ITIH5_HUMAN	sp|P04591|GAG_HV1H2	28.6	6FPZ_B	1L6N_A	6O9L_4	5FMF_J
+sp|Q86YI8|PHF13_HUMAN	sp|P04591|GAG_HV1H2	28.6	5TDW_A	1L6N_A	4BXZ_X	5FMF_J
+sp|Q86YQ8|CPNE8_HUMAN	sp|P04591|GAG_HV1H2	28.6	6K87_B	1L6N_A	6O9L_6	5FMF_J
+sp|Q86YW9|MD12L_HUMAN	sp|P04591|GAG_HV1H2	28.6	1UNL_E	1L6N_A	5IYB_P	5FMF_J
+sp|Q8IV16|HDBP1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6OAU_D	1L6N_A	6IR9_W	5FMF_J
+sp|Q8IX15|HOMEZ_HUMAN	sp|P04591|GAG_HV1H2	28.6	2YS9_A	1L6N_A	5OQM_W	5FMF_J
+sp|Q8IXQ4|GPAM1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4H62_V	1L6N_A	6GYM_W	5FMF_J
+sp|Q8IY92|SLX4_HUMAN	sp|P04591|GAG_HV1H2	28.6	4ZOU_A	1L6N_A	6O9L_Q	5FMF_J
+sp|Q8IYF1|ELOA2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4HFX_C	1L6N_A	1PQV_S	5FMF_J
+sp|Q8IYJ1|CPNE9_HUMAN	sp|P04591|GAG_HV1H2	28.6	6K87_B	1L6N_A	6O9L_6	5FMF_J
+sp|Q8IZ57|NRSN1_HUMAN	sp|P04591|GAG_HV1H2	28.6	2CLY_A	1L6N_A	6GML_X	5FMF_J
+sp|Q8IZS8|CA2D3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6JPA_F	1L6N_A	6O9L_4	5FMF_J
+sp|Q8IZW8|TENS4_HUMAN	sp|P04591|GAG_HV1H2	28.6	1WVH_A	1L6N_A	6GMH_M	5FMF_J
+sp|Q8N1W1|ARG28_HUMAN	sp|P04591|GAG_HV1H2	28.6	4MT7_A	1L6N_A	5XOG_L	5FMF_J
+sp|Q8N398|VW5B2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6FPZ_B	1L6N_A	5OQJ_6	5FMF_J
+sp|Q8N4S0|CCD82_HUMAN	sp|P04591|GAG_HV1H2	28.6	6GMH_Z	1L6N_A	6GMH_Z	5FMF_J
+sp|Q8N565|MREG_HUMAN	sp|P04591|GAG_HV1H2	28.6	6CMY_A	1L6N_A	6GYL_U	5FMF_J
+sp|Q8N6M9|ZFN2A_HUMAN	sp|P04591|GAG_HV1H2	28.6	1X4V_A	1L6N_A	6O9L_6	5FMF_J
+sp|Q8N7H5|PAF1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6GMH_V	1L6N_A	6GMH_V	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q8N8R7|AL14E_HUMAN	28.6	1L6N_A	1WD2_A	3A43_A	3A43_A
+sp|Q8NCF5|NF2IP_HUMAN	sp|P04591|GAG_HV1H2	28.6	2L76_A	1L6N_A	5FJA_Q	5FMF_J
+sp|Q8NCJ5|SPRY3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5T15_G	1L6N_A	6GMH_Z	5FMF_J
+sp|Q8NFD5|ARI1B_HUMAN	sp|P04591|GAG_HV1H2	28.6	6LTH_L	1L6N_A	5IY8_P	5FMF_J
+sp|Q8NFW9|MYRIP_HUMAN	sp|P04591|GAG_HV1H2	28.6	2ZET_C	1L6N_A	6O9L_3	5FMF_J
+sp|Q8NG57|ELOA3_HUMAN	sp|P04591|GAG_HV1H2	28.6	4HFX_C	1L6N_A	1PQV_S	5FMF_J
+sp|Q8TAP4|LMO3_HUMAN	sp|P04591|GAG_HV1H2	28.6	1RUT_X	1L6N_A	6O9L_6	5FMF_J
+sp|Q8TC90|CCER1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5TAQ_I	1L6N_A	6GMH_M	5FMF_J
+sp|Q8TCF1|ZFAN1_HUMAN	sp|P04591|GAG_HV1H2	28.6	1WFE_A	1L6N_A	6O9L_6	5FMF_J
+sp|Q8TCU4|ALMS1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5WLC_S	1L6N_A	5OIK_Z	5FMF_J
+sp|Q8TDD2|SP7_HUMAN	sp|P04591|GAG_HV1H2	28.6	3ZMS_C	1L6N_A	5OQJ_6	5FMF_J
+sp|Q8WTZ3|YS049_HUMAN	sp|P04591|GAG_HV1H2	28.6	6IRT_A	1L6N_A	6O9L_6	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q8WU79|SMAP2_HUMAN	28.6	1L6N_A	2IQJ_A	5FMF_R	4V1N_M
+sp|Q8WUH1|CHUR_HUMAN	sp|P04591|GAG_HV1H2	28.6	2JOX_A	1L6N_A	6GYM_W	5FMF_J
+sp|Q8WV28|BLNK_HUMAN	sp|P04591|GAG_HV1H2	28.6	2EO6_A	1L6N_A	6GMH_M	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q8WXI9|P66B_HUMAN	28.6	1L6N_A	2L2L_A	5FMF_J	5FMF_R
+sp|Q8WYP5|ELYS_HUMAN	sp|P04591|GAG_HV1H2	28.6	4I0O_A	1L6N_A	6GMH_W	5FMF_J
+sp|Q92529|SHC3_HUMAN	sp|P04591|GAG_HV1H2	28.6	1N3H_A	1L6N_A	6GMH_M	5FMF_J
+sp|Q92530|PSMF1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4OUH_D	1L6N_A	3PO3_S	5FMF_J
+sp|Q92570|NR4A3_HUMAN	sp|P04591|GAG_HV1H2	28.6	3DZY_A	1L6N_A	5IYB_M	5FMF_J
+sp|Q92731|ESR2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3DZY_A	1L6N_A	6O9L_6	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q92733|PRCC_HUMAN	28.6	1L6N_A	5MPS_R	6BK8_O	5MPS_R
+sp|Q92784|DPF3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6LTH_R	1L6N_A	4BXZ_X	5FMF_J
+sp|Q92785|REQU_HUMAN	sp|P04591|GAG_HV1H2	28.6	6LTH_R	1L6N_A	4BXZ_X	5FMF_J
+sp|Q92800|EZH1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5HYN_F	1L6N_A	6J51_M	5FMF_J
+sp|Q92837|FRAT1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5OY4_X	1L6N_A	5OIK_Z	5FMF_J
+sp|Q92917|GPKOW_HUMAN	sp|P04591|GAG_HV1H2	28.6	2CKK_A	1L6N_A	6GMH_Z	5FMF_J
+sp|Q93074|MED12_HUMAN	sp|P04591|GAG_HV1H2	28.6	6UXW_B	1L6N_A	5IYB_P	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q969Q6|P2R3C_HUMAN	28.6	1L6N_A	4I5L_E	2MGU_M	5DOW_A
+sp|Q969T3|SNX21_HUMAN	sp|P04591|GAG_HV1H2	28.6	5ZN9_A	1L6N_A	5OIK_Z	5FMF_J
+sp|Q96A23|CPNE4_HUMAN	sp|P04591|GAG_HV1H2	28.6	6K87_B	1L6N_A	6O9L_6	5FMF_J
+sp|Q96A35|RM24_HUMAN	sp|P04591|GAG_HV1H2	28.6	6GB2_B	1L6N_A	5XON_W	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q96AV8|E2F7_HUMAN	28.6	1L6N_A	4YO2_A	5FMF_J	5FMF_R
+sp|Q96EK4|THA11_HUMAN	sp|P04591|GAG_HV1H2	28.6	5AJS_B	1L6N_A	5IY8_P	5FMF_J
+sp|Q96F63|CCD97_HUMAN	sp|P04591|GAG_HV1H2	28.6	5DGG_B	1L6N_A	5OIK_Z	5FMF_J
+sp|Q96FN4|CPNE2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6K87_B	1L6N_A	6O9L_6	5FMF_J
+sp|Q96GS4|BORC6_HUMAN	sp|P04591|GAG_HV1H2	28.6	5TOH_C	1L6N_A	5SVA_U	5FMF_J
+sp|Q96H20|SNF8_HUMAN	sp|P04591|GAG_HV1H2	28.6	3CUQ_A	1L6N_A	6TUT_P	5FMF_J
+sp|Q96HJ3|CCD34_HUMAN	sp|P04591|GAG_HV1H2	28.6	6V6S_L	1L6N_A	6GMH_Z	5FMF_J
+sp|Q96IQ9|ZN414_HUMAN	sp|P04591|GAG_HV1H2	28.6	1WJP_A	1L6N_A	6O9L_6	5FMF_J
+sp|Q96IW2|SHD_HUMAN	sp|P04591|GAG_HV1H2	28.6	4FL2_A	1L6N_A	6GMH_M	5FMF_J
+sp|Q96JM7|LMBL3_HUMAN	sp|P04591|GAG_HV1H2	28.6	3UT1_A	1L6N_A	6GMH_Z	5FMF_J
+sp|Q96JZ2|HSH2D_HUMAN	sp|P04591|GAG_HV1H2	28.6	2CS0_A	1L6N_A	6GMH_M	5FMF_J
+sp|Q96LK0|CEP19_HUMAN	sp|P04591|GAG_HV1H2	28.6	6SCQ_B	1L6N_A	5IYB_R	5FMF_J
+sp|Q96LL4|CH048_HUMAN	sp|P04591|GAG_HV1H2	28.6	2QEX_Z	1L6N_A	5XOG_M	5FMF_J
+sp|Q96MT3|PRIC1_HUMAN	sp|P04591|GAG_HV1H2	28.6	2XQN_T	1L6N_A	6O9L_3	5FMF_J
+sp|Q96P70|IPO9_HUMAN	sp|P04591|GAG_HV1H2	28.6	6N1Z_A	1L6N_A	6GMH_Z	5FMF_J
+sp|Q96PZ0|PUS7_HUMAN	sp|P04591|GAG_HV1H2	28.6	5KKP_A	1L6N_A	6GMH_Z	5FMF_J
+sp|Q96QT6|PHF12_HUMAN	sp|P04591|GAG_HV1H2	28.6	5XFN_A	1L6N_A	4BXZ_X	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q96S99|PKHF1_HUMAN	28.6	1L6N_A	3MPX_A	6QAJ_A	6QAJ_B
+sp|Q96SQ9|CP2S1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5E0E_A	1L6N_A	5IY8_P	5FMF_J
+sp|Q96ST2|IWS1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3NFQ_A	1L6N_A	1PQV_S	5FMF_J
+sp|Q96SY0|INT14_HUMAN	sp|P04591|GAG_HV1H2	28.6	5Y3R_A	1L6N_A	6O9L_4	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q96T23|RSF1_HUMAN	28.6	1L6N_A	6GYT_B	5FMF_J	5FMF_R
+sp|Q99469|STAC_HUMAN	sp|P04591|GAG_HV1H2	28.6	6UY9_A	1L6N_A	5XOG_M	5FMF_J
+sp|Q99613|EIF3C_HUMAN	sp|P04591|GAG_HV1H2	28.6	6W2S_2	1L6N_A	6IR9_W	5FMF_J
+sp|Q99829|CPNE1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6K87_B	1L6N_A	6O9L_6	5FMF_J
+sp|Q9BQG0|MBB1A_HUMAN	sp|P04591|GAG_HV1H2	28.6	5OIK_Z	1L6N_A	5OIK_Z	5FMF_J
+sp|Q9BQQ7|RTP3_HUMAN	sp|P04591|GAG_HV1H2	28.6	1VD4_A	1L6N_A	5FYW_W	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9BS86|ZPBP1_HUMAN	28.6	1L6N_A	2V5T_A	5FMF_J	5FMF_R
+sp|Q9BT23|LIMD2_HUMAN	sp|P04591|GAG_HV1H2	28.6	2LZU_A	1L6N_A	5OQM_W	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9BUI4|RPC3_HUMAN	28.6	1L6N_A	2XUB_A	5FMF_J	5FMF_R
+sp|Q9BWT1|CDCA7_HUMAN	sp|P04591|GAG_HV1H2	28.6	5LSP_A	1L6N_A	6O9L_3	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9BWT6|MND1_HUMAN	28.6	1L6N_A	4Y66_E	5FMF_J	5FMF_R
+sp|Q9BXK1|KLF16_HUMAN	sp|P04591|GAG_HV1H2	28.6	3ZMS_C	1L6N_A	5IYD_Q	5FMF_J
+sp|Q9BXQ6|T121B_HUMAN	sp|P04591|GAG_HV1H2	28.6	4XIG_N	1L6N_A	5FJA_Q	5FMF_J
+sp|Q9BXT4|TDRD1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4Q5Y_A	1L6N_A	6IR9_M	5FMF_J
+sp|Q9BXY0|MAK16_HUMAN	sp|P04591|GAG_HV1H2	28.6	6EM3_3	1L6N_A	6GMH_Z	5FMF_J
+sp|Q9BZJ8|GPR61_HUMAN	sp|P04591|GAG_HV1H2	28.6	5T04_A	1L6N_A	5OIK_Y	5FMF_J
+sp|Q9H0B3|IQCN_HUMAN	sp|P04591|GAG_HV1H2	28.6	2DFS_M	1L6N_A	6O9L_4	5FMF_J
+sp|Q9H1D9|RPC6_HUMAN	sp|P04591|GAG_HV1H2	28.6	6EU0_P	1L6N_A	6EU0_P	5FMF_J
+sp|Q9H1E3|NUCKS_HUMAN	sp|P04591|GAG_HV1H2	28.6	6GMH_Z	1L6N_A	6GMH_Z	5FMF_J
+sp|Q9H2C1|LHX5_HUMAN	sp|P04591|GAG_HV1H2	28.6	2JTN_A	1L6N_A	6O9L_6	5FMF_J
+sp|Q9H4D0|CSTN2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5KJ4_A	1L6N_A	6GMH_M	5FMF_J
+sp|Q9H4L4|SENP3_HUMAN	sp|P04591|GAG_HV1H2	28.6	2CKH_A	1L6N_A	5OIK_Z	5FMF_J
+sp|Q9H501|ESF1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4FP9_H	1L6N_A	5OIK_Z	5FMF_J
+sp|Q9H5I5|PIEZ2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6KG7_B	1L6N_A	6GMH_Z	5FMF_J
+sp|Q9H5V7|IKZF5_HUMAN	sp|P04591|GAG_HV1H2	28.6	3ZMS_C	1L6N_A	5XOG_L	5FMF_J
+sp|Q9H8M9|EVA1A_HUMAN	sp|P04591|GAG_HV1H2	28.6	6J8H_C	1L6N_A	6GMH_Z	5FMF_J
+sp|Q9H930|SP14L_HUMAN	sp|P04591|GAG_HV1H2	28.6	1H5P_A	1L6N_A	4BXZ_X	5FMF_J
+sp|Q9HAW4|CLSPN_HUMAN	sp|P04591|GAG_HV1H2	28.6	5T15_G	1L6N_A	6GMH_Z	5FMF_J
+sp|Q9HB58|SP110_HUMAN	sp|P04591|GAG_HV1H2	28.6	1H5P_A	1L6N_A	4BXZ_X	5FMF_J
+sp|Q9HBB8|CDHR5_HUMAN	sp|P04591|GAG_HV1H2	28.6	6OAE_A	1L6N_A	6GMH_M	5FMF_J
+sp|Q9HCD5|NCOA5_HUMAN	sp|P04591|GAG_HV1H2	28.6	1V95_A	1L6N_A	6GMH_M	5FMF_J
+sp|Q9HCE9|ANO8_HUMAN	sp|P04591|GAG_HV1H2	28.6	5OC9_A	1L6N_A	6GMH_Z	5FMF_J
+sp|Q9HCH3|CPNE5_HUMAN	sp|P04591|GAG_HV1H2	28.6	6K87_B	1L6N_A	6O9L_6	5FMF_J
+sp|Q9HCU9|BRMS1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4ZQA_A	1L6N_A	6J51_W	5FMF_J
+sp|Q9NNZ6|PRM3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6TM5_I	1L6N_A	6GMH_Z	5FMF_J
+sp|Q9NQ32|CK016_HUMAN	sp|P04591|GAG_HV1H2	28.6	4UC4_A	1L6N_A	5XOG_M	5FMF_J
+sp|Q9NQ69|LHX9_HUMAN	sp|P04591|GAG_HV1H2	28.6	2JTN_A	1L6N_A	6O9L_6	5FMF_J
+sp|Q9NQC7|CYLD_HUMAN	sp|P04591|GAG_HV1H2	28.6	2VHF_B	1L6N_A	6O9L_6	5FMF_J
+sp|Q9NRL2|BAZ1A_HUMAN	sp|P04591|GAG_HV1H2	28.6	5PYP_A	1L6N_A	4BXZ_X	5FMF_J
+sp|Q9NSE2|CISH_HUMAN	sp|P04591|GAG_HV1H2	28.6	2IZV_A	1L6N_A	6GMH_M	5FMF_J
+sp|Q9NVD3|SETD4_HUMAN	sp|P04591|GAG_HV1H2	28.6	1OZV_B	1L6N_A	5XOG_M	5FMF_J
+sp|Q9NWV8|BABA1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6GVW_D	1L6N_A	5OQJ_6	5FMF_J
+sp|Q9NX47|MARH5_HUMAN	sp|P04591|GAG_HV1H2	28.6	2M6M_A	1L6N_A	6O9L_3	5FMF_J
+sp|Q9NXA8|SIR5_HUMAN	sp|P04591|GAG_HV1H2	28.6	6ACL_A	1L6N_A	5IYB_M	5FMF_J
+sp|Q9NY47|CA2D2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6JPA_F	1L6N_A	6O9L_4	5FMF_J
+sp|Q9NY91|SC5A4_HUMAN	sp|P04591|GAG_HV1H2	28.6	2XQ2_A	1L6N_A	5OIK_Z	5FMF_J
+sp|Q9NZ09|UBAP1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4AE4_B	1L6N_A	6O9L_2	5FMF_J
+sp|Q9P0L9|PK2L1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6DU8_B	1L6N_A	6O9L_3	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9P0U4|CXXC1_HUMAN	28.6	1L6N_A	6VEN_R	1NUI_A	1NUI_A
+sp|Q9P218|COKA1_HUMAN	sp|P04591|GAG_HV1H2	28.6	2UUR_A	1L6N_A	5OQJ_6	5FMF_J
+sp|Q9P275|UBP36_HUMAN	sp|P04591|GAG_HV1H2	28.6	6TBM_Q	1L6N_A	6O9L_6	5FMF_J
+sp|Q9P2H5|UBP35_HUMAN	sp|P04591|GAG_HV1H2	28.6	4RXX_A	1L6N_A	5OIK_Z	5FMF_J
+sp|Q9UBL6|CPNE7_HUMAN	sp|P04591|GAG_HV1H2	28.6	6K87_B	1L6N_A	5OQJ_6	5FMF_J
+sp|Q9UEE9|CFDP1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5WLC_S	1L6N_A	5OIK_Z	5FMF_J
+sp|Q9UGK3|STAP2_HUMAN	sp|P04591|GAG_HV1H2	28.6	2EL8_A	1L6N_A	6GMH_M	5FMF_J
+sp|Q9UIS9|MBD1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6D1T_A	1L6N_A	6O9L_6	5FMF_J
+sp|Q9UJ78|ZMYM5_HUMAN	sp|P04591|GAG_HV1H2	28.6	2DAS_A	1L6N_A	6O9L_3	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9UJX6|ANC2_HUMAN	28.6	1L6N_A	6Q6G_N	5FMF_J	5FMF_R
+sp|Q9UKP3|ITBP2_HUMAN	sp|P04591|GAG_HV1H2	28.6	2YRT_A	1L6N_A	6GMH_Z	5FMF_J
+sp|Q9UL03|INT6_HUMAN	sp|P04591|GAG_HV1H2	28.6	6TYW_A	1L6N_A	6O9L_6	5FMF_J
+sp|Q9UL40|ZN346_HUMAN	sp|P04591|GAG_HV1H2	28.6	1ZU1_A	1L6N_A	6O9L_6	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9ULU4|PKCB1_HUMAN	28.6	1L6N_A	4COS_A	5FMF_J	5FMF_R
+sp|Q9ULZ2|STAP1_HUMAN	sp|P04591|GAG_HV1H2	28.6	1X1F_A	1L6N_A	6GMH_M	5FMF_J
+sp|Q9UN42|AT1B4_HUMAN	sp|P04591|GAG_HV1H2	28.6	6JXJ_B	1L6N_A	6GMH_Z	5FMF_J
+sp|Q9UPV7|PHF24_HUMAN	sp|P04591|GAG_HV1H2	28.6	5XHT_A	1L6N_A	4BXZ_X	5FMF_J
+sp|Q9UQC9|CLCA2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6PYO_A	1L6N_A	6O9L_4	5FMF_J
+sp|Q9Y334|VWA7_HUMAN	sp|P04591|GAG_HV1H2	28.6	3FCS_D	1L6N_A	6O9L_4	5FMF_J
+sp|Q9Y4E1|WAC2C_HUMAN	sp|P04591|GAG_HV1H2	28.6	5EPW_A	1L6N_A	6GMH_Z	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9Y4G2|PKHM1_HUMAN	28.6	1L6N_A	6WCW_A	5FMF_J	5FMF_R
+sp|Q9Y4R8|TELO2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3O4Z_D	1L6N_A	6GMH_M	5FMF_J
+sp|Q9Y5N6|ORC6_HUMAN	sp|P04591|GAG_HV1H2	28.6	3M03_B	1L6N_A	5IYB_M	5FMF_J
+sp|Q9Y5R5|DMRT2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4YJ0_A	1L6N_A	5OIK_Z	5FMF_J
+sp|Q9Y6Q9|NCOA3_HUMAN	sp|P04591|GAG_HV1H2	28.6	2PRG_C	1L6N_A	5IY8_P	5FMF_J
+tr|A0A0J9YX57|A0A0J9YX57_HUMAN	sp|P04591|GAG_HV1H2	28.6	6R7T_B	1L6N_A	6GML_D	5FMF_J
+tr|A0A0U1RQG5|A0A0U1RQG5_HUMAN	sp|P04591|GAG_HV1H2	28.6	1V5R_A	1L6N_A	5OIK_Z	5FMF_J
+sp|P04601|NEF_HV1H2	sp|Q6PIY5|ARMD1_HUMAN	28.6	3TB8_A	3L6X_A	6OWT_N	6QH5_B
+sp|P04608|TAT_HV1H2	sp|Q9NVF9|EKI2_HUMAN	28.6	3MI9_C	1NW1_A	4OGR_D	4OR5_F
+sp|P04618|REV_HV1H2	tr|A0A075B6U6|A0A075B6U6_HUMAN	28.6	2X7L_R	5I0Z_A	6CF2_F	5DHY_A
+sp|P05919|VPU_HV1H2	sp|Q5T442|CXG2_HUMAN	28.6	2N28_A	6MHQ_F	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q6PEX7|TEX38_HUMAN	28.6	2N28_A	2KLU_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8N1L4|CP4Z2_HUMAN	28.6	2N28_A	6C93_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96HP8|T176A_HUMAN	28.6	2N28_A	6VJA_C	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q9NP84|TNR12_HUMAN	28.6	2N28_A	2KMZ_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q9NRM6|I17RB_HUMAN	28.6	2N28_A	3JVF_C	6C14_A	6C14_A
+sp|A0A0B4J2F2|SIK1B_HUMAN	sp|P04591|GAG_HV1H2	28.6	3FE3_B	1L6N_A	6O9L_8	5FMF_J
+sp|A1A519|F170A_HUMAN	sp|P04591|GAG_HV1H2	28.6	2RPC_A	1L6N_A	5FZ5_W	5FMF_J
+sp|A2RU49|HYKK_HUMAN	sp|P04591|GAG_HV1H2	28.6	6EF6_A	1L6N_A	6O9L_8	5FMF_J
+sp|A3KMH1|VWA8_HUMAN	sp|P04591|GAG_HV1H2	28.6	6HYP_A	1L6N_A	5OQJ_6	5FMF_J
+sp|A4GXA9|EME2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4P0S_D	1L6N_A	5FJA_Q	5FMF_J
+sp|A4QPH2|PI4P2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6BQ1_A	1L6N_A	6O9L_8	5FMF_J
+sp|A6H8Y1|BDP1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5N9G_H	1L6N_A	6F40_W	5FMF_J
+sp|A6NIE6|RN3P2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6RUI_O	1L6N_A	6RUI_O	5FMF_J
+sp|A8MW92|P20L1_HUMAN	sp|P04591|GAG_HV1H2	28.6	2MAM_A	1L6N_A	4BXZ_X	5FMF_J
+sp|B3EWF7|EP2A2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3ZUQ_A	1L6N_A	6EU1_Q	5FMF_J
+sp|B7Z8K6|TRDC_HUMAN	sp|P04585|POL_HV1H2	28.6	6MF8_A	1L6N_A	6CPL_A	2XXM_A
+sp|B7Z8K6|TRDC_HUMAN	sp|P04591|GAG_HV1H2	28.6	6MF8_A	1L6N_A	6CPL_A	2XXM_A
+sp|C9JE40|PATL2_HUMAN	sp|P04591|GAG_HV1H2	28.6	2XES_A	1L6N_A	6IR9_W	5FMF_J
+sp|D6RIA3|CD054_HUMAN	sp|P04591|GAG_HV1H2	28.6	6V7B_c	1L6N_A	5FJA_Q	5FMF_J
+sp|O00141|SGK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3HDM_A	1L6N_A	6O9L_8	5FMF_J
+sp|O00311|CDC7_HUMAN	sp|P04591|GAG_HV1H2	28.6	6YA6_A	1L6N_A	6O9L_8	5FMF_J
+sp|O00444|PLK4_HUMAN	sp|P04591|GAG_HV1H2	28.6	6N45_A	1L6N_A	6O9L_8	5FMF_J
+sp|O00506|STK25_HUMAN	sp|P04591|GAG_HV1H2	28.6	4W8D_A	1L6N_A	6O9L_8	5FMF_J
+sp|O14512|SOCS7_HUMAN	sp|P04591|GAG_HV1H2	28.6	2IZV_A	1L6N_A	5FJ9_Q	5FMF_J
+sp|O14578|CTRO_HUMAN	sp|P04591|GAG_HV1H2	28.6	6P5M_A	1L6N_A	6O9L_8	5FMF_J
+sp|O14730|RIOK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6G5I_z	1L6N_A	6O9L_8	5FMF_J
+sp|O14733|MP2K7_HUMAN	sp|P04591|GAG_HV1H2	28.6	5Y90_A	1L6N_A	6O9L_8	5FMF_J
+sp|O14757|CHK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4CZU_A	1L6N_A	6O9L_8	5FMF_J
+sp|O14920|IKKB_HUMAN	sp|P04591|GAG_HV1H2	28.6	4KIK_B	1L6N_A	6O9L_8	5FMF_J
+sp|O14936|CSKP_HUMAN	sp|P04591|GAG_HV1H2	28.6	6LNM_A	1L6N_A	6O9L_8	5FMF_J
+sp|O14958|CASQ2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6OWV_A	1L6N_A	6TUT_Q	5FMF_J
+sp|O14965|AURKA_HUMAN	sp|P04591|GAG_HV1H2	28.6	4DEE_A	1L6N_A	6O9L_8	5FMF_J
+sp|O14976|GAK_HUMAN	sp|P04591|GAG_HV1H2	28.6	3N0A_A	1L6N_A	6O9L_8	5FMF_J
+sp|O15021|MAST4_HUMAN	sp|P04591|GAG_HV1H2	28.6	2JDO_A	1L6N_A	6O9L_8	5FMF_J
+sp|O15075|DCLK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4ATU_I	1L6N_A	6O9L_8	5FMF_J
+sp|O15111|IKKA_HUMAN	sp|P04591|GAG_HV1H2	28.6	5EBZ_E	1L6N_A	6O9L_8	5FMF_J
+sp|O15264|MK13_HUMAN	sp|P04591|GAG_HV1H2	28.6	3COI_A	1L6N_A	6O9L_8	5FMF_J
+sp|O15318|RPC7_HUMAN	sp|P04591|GAG_HV1H2	28.6	6EU1_Q	1L6N_A	6EU1_Q	5FMF_J
+sp|O15379|HDAC3_HUMAN	sp|P04591|GAG_HV1H2	28.6	4BKX_B	1L6N_A	4C2M_O	5FMF_J
+sp|O15446|RPA34_HUMAN	sp|P04591|GAG_HV1H2	28.6	6RUI_N	1L6N_A	6RUI_N	5FMF_J
+sp|O15530|PDPK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5LVM_A	1L6N_A	6O9L_8	5FMF_J
+sp|O43187|IRAK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6Z1Q_B	1L6N_A	6O9L_8	5FMF_J
+sp|O43283|M3K13_HUMAN	sp|P04591|GAG_HV1H2	28.6	5CEQ_A	1L6N_A	6O9L_8	5FMF_J
+sp|O43293|DAPK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	4PF4_A	1L6N_A	6O9L_8	5FMF_J
+sp|O43353|RIPK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6RNA_B	1L6N_A	6O9L_8	5FMF_J
+sp|O43513|MED7_HUMAN	sp|P04591|GAG_HV1H2	28.6	5OQM_i	1L6N_A	5OQM_i	5FMF_J
+sp|O43683|BUB1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5KHU_Q	1L6N_A	6O9L_8	5FMF_J
+sp|O43781|DYRK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5Y86_A	1L6N_A	6O9L_8	5FMF_J
+sp|O43930|PRKY_HUMAN	sp|P04591|GAG_HV1H2	28.6	1FOT_A	1L6N_A	6O9L_8	5FMF_J
+sp|O60229|KALRN_HUMAN	sp|P04591|GAG_HV1H2	28.6	3UTO_B	1L6N_A	6O9L_8	5FMF_J
+sp|O60244|MED14_HUMAN	sp|P04591|GAG_HV1H2	28.6	5U0P_N	1L6N_A	5OQM_l	5FMF_J
+sp|O60285|NUAK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	1TKI_A	1L6N_A	6O9L_8	5FMF_J
+sp|O60307|MAST3_HUMAN	sp|P04591|GAG_HV1H2	28.6	2JDO_A	1L6N_A	6O9L_8	5FMF_J
+sp|O60308|CE104_HUMAN	sp|P04591|GAG_HV1H2	28.6	5LPH_B	1L6N_A	5OQJ_6	5FMF_J
+sp|O60566|BUB1B_HUMAN	sp|P04591|GAG_HV1H2	28.6	5KHU_Q	1L6N_A	6O9L_8	5FMF_J
+sp|O60755|GALR3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5ZKQ_A	1L6N_A	6RUI_O	5FMF_J
+sp|O75116|ROCK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4WOT_B	1L6N_A	6O9L_8	5FMF_J
+sp|O75164|KDM4A_HUMAN	sp|P04591|GAG_HV1H2	28.6	5F2S_A	1L6N_A	4BXZ_X	5FMF_J
+sp|O75385|ULK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6QAS_B	1L6N_A	6O9L_8	5FMF_J
+sp|O75460|ERN1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4Z7H_B	1L6N_A	6O9L_8	5FMF_J
+sp|O75582|KS6A5_HUMAN	sp|P04591|GAG_HV1H2	28.6	3KN5_B	1L6N_A	6O9L_8	5FMF_J
+sp|O75676|KS6A4_HUMAN	sp|P04591|GAG_HV1H2	28.6	4OLI_A	1L6N_A	6O9L_8	5FMF_J
+sp|O75716|STK16_HUMAN	sp|P04591|GAG_HV1H2	28.6	2BUJ_A	1L6N_A	6O9L_8	5FMF_J
+sp|O75914|PAK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	4FIE_A	1L6N_A	6O9L_8	5FMF_J
+sp|O75962|TRIO_HUMAN	sp|P04591|GAG_HV1H2	28.6	6D8Z_B	1L6N_A	6O9L_8	5FMF_J
+sp|O76039|CDKL5_HUMAN	sp|P04591|GAG_HV1H2	28.6	4BGQ_A	1L6N_A	6O9L_8	5FMF_J
+sp|O94768|ST17B_HUMAN	sp|P04591|GAG_HV1H2	28.6	6Y6H_A	1L6N_A	6O9L_8	5FMF_J
+sp|O94804|STK10_HUMAN	sp|P04591|GAG_HV1H2	28.6	6EIM_B	1L6N_A	6O9L_8	5FMF_J
+sp|O94806|KPCD3_HUMAN	sp|P04591|GAG_HV1H2	28.6	3PFQ_A	1L6N_A	6O9L_8	5FMF_J
+sp|O94913|PCF11_HUMAN	sp|P04591|GAG_HV1H2	28.6	2NAX_A	1L6N_A	5XOG_M	5FMF_J
+sp|O94921|CDK14_HUMAN	sp|P04591|GAG_HV1H2	28.6	3MTL_A	1L6N_A	6O9L_8	5FMF_J
+sp|O94985|CSTN1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6SIT_D	1L6N_A	6IR9_W	5FMF_J
+sp|O95382|M3K6_HUMAN	sp|P04591|GAG_HV1H2	28.6	5UOX_A	1L6N_A	6O9L_8	5FMF_J
+sp|O95696|BRD1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5ERC_A	1L6N_A	4BXZ_X	5FMF_J
+sp|O95714|HERC2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3KCI_A	1L6N_A	6O9L_6	5FMF_J
+sp|O95747|OXSR1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5DBX_A	1L6N_A	6O9L_8	5FMF_J
+sp|O95819|M4K4_HUMAN	sp|P04591|GAG_HV1H2	28.6	4U3Y_A	1L6N_A	6O9L_8	5FMF_J
+sp|O95835|LATS1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5NCL_A	1L6N_A	6O9L_8	5FMF_J
+sp|O95948|ONEC2_HUMAN	sp|P04591|GAG_HV1H2	28.6	2D5V_A	1L6N_A	6EU1_Q	5FMF_J
+sp|O95983|MBD3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6ACV_A	1L6N_A	6J51_W	5FMF_J
+sp|O96013|PAK4_HUMAN	sp|P04591|GAG_HV1H2	28.6	4FIE_A	1L6N_A	6O9L_8	5FMF_J
+sp|O96017|CHK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3I6U_A	1L6N_A	6O9L_8	5FMF_J
+sp|P00533|EGFR_HUMAN	sp|P04591|GAG_HV1H2	28.6	3QWQ_A	1L6N_A	6O9L_8	5FMF_J
+sp|P00540|MOS_HUMAN	sp|P04591|GAG_HV1H2	28.6	5WNJ_A	1L6N_A	6O9L_8	5FMF_J
+sp|P00751|CFAB_HUMAN	sp|P04591|GAG_HV1H2	28.6	3HRZ_D	1L6N_A	5OQJ_6	5FMF_J
+sp|P04049|RAF1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6NYB_A	1L6N_A	6O9L_8	5FMF_J
+sp|P05129|KPCG_HUMAN	sp|P04591|GAG_HV1H2	28.6	3PFQ_A	1L6N_A	6O9L_8	5FMF_J
+sp|P05771|KPCB_HUMAN	sp|P04591|GAG_HV1H2	28.6	3PFQ_A	1L6N_A	6O9L_8	5FMF_J
+sp|P06493|CDK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6GU2_A	1L6N_A	6O9L_8	5FMF_J
+sp|P07332|FES_HUMAN	sp|P04591|GAG_HV1H2	28.6	6JMF_A	1L6N_A	6O9L_8	5FMF_J
+sp|P07333|CSF1R_HUMAN	sp|P04591|GAG_HV1H2	28.6	6T2W_A	1L6N_A	6O9L_8	5FMF_J
+sp|P09132|SRP19_HUMAN	sp|P04591|GAG_HV1H2	28.6	1JID_A	1L6N_A	6EU0_M	5FMF_J
+sp|P0C1S8|WEE2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5VDK_A	1L6N_A	6O9L_8	5FMF_J
+sp|P0C263|SBK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4B99_A	1L6N_A	6O9L_8	5FMF_J
+sp|P0C264|SBK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	2PSQ_A	1L6N_A	6O9L_8	5FMF_J
+sp|P0CAP2|GRL1A_HUMAN	sp|P04591|GAG_HV1H2	28.6	6DRD_M	1L6N_A	6DRD_M	5FMF_J
+sp|P0DMR3|AT8OS_HUMAN	sp|P04591|GAG_HV1H2	28.6	5OV3_A	1L6N_A	5FZ5_W	5FMF_J
+sp|P10398|ARAF_HUMAN	sp|P04591|GAG_HV1H2	28.6	6NYB_A	1L6N_A	6O9L_8	5FMF_J
+sp|P10721|KIT_HUMAN	sp|P04591|GAG_HV1H2	28.6	1T45_A	1L6N_A	6O9L_8	5FMF_J
+sp|P11309|PIM1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5TUR_A	1L6N_A	6O9L_8	5FMF_J
+sp|P11801|KPSH1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4B99_A	1L6N_A	6O9L_8	5FMF_J
+sp|P11802|CDK4_HUMAN	sp|P04591|GAG_HV1H2	28.6	6P8E_B	1L6N_A	6O9L_8	5FMF_J
+sp|P14621|ACYP2_HUMAN	sp|P04591|GAG_HV1H2	28.6	1APS_A	1L6N_A	6RQL_A	5FMF_J
+sp|P15735|PHKG2_HUMAN	sp|P04591|GAG_HV1H2	28.6	2Y7J_A	1L6N_A	6O9L_8	5FMF_J
+sp|P16066|ANPRA_HUMAN	sp|P04591|GAG_HV1H2	28.6	3NYO_B	1L6N_A	6O9L_8	5FMF_J
+sp|P16591|FER_HUMAN	sp|P04591|GAG_HV1H2	28.6	3BKB_A	1L6N_A	6O9L_8	5FMF_J
+sp|P17252|KPCA_HUMAN	sp|P04591|GAG_HV1H2	28.6	3PFQ_A	1L6N_A	6O9L_8	5FMF_J
+sp|P17612|KAPCA_HUMAN	sp|P04591|GAG_HV1H2	28.6	5N1G_A	1L6N_A	6O9L_8	5FMF_J
+sp|P19525|E2AK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6D3K_C	1L6N_A	6O9L_8	5FMF_J
+sp|P19784|CSK22_HUMAN	sp|P04591|GAG_HV1H2	28.6	6HMQ_A	1L6N_A	6O9L_8	5FMF_J
+sp|P20290|BTF3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6T59_N	1L6N_A	6TUT_Q	5FMF_J
+sp|P20594|ANPRB_HUMAN	sp|P04591|GAG_HV1H2	28.6	3NYO_B	1L6N_A	6O9L_8	5FMF_J
+sp|P20794|MAK_HUMAN	sp|P04591|GAG_HV1H2	28.6	6O9L_8	1L6N_A	6O9L_8	5FMF_J
+sp|P21127|CD11B_HUMAN	sp|P04591|GAG_HV1H2	28.6	6O9L_8	1L6N_A	6O9L_8	5FMF_J
+sp|P21709|EPHA1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4M4P_A	1L6N_A	6O9L_8	5FMF_J
+sp|P22612|KAPCG_HUMAN	sp|P04591|GAG_HV1H2	28.6	4WB7_B	1L6N_A	6O9L_8	5FMF_J
+sp|P22694|KAPCB_HUMAN	sp|P04591|GAG_HV1H2	28.6	5N1F_A	1L6N_A	6O9L_8	5FMF_J
+sp|P23443|KS6B1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4L44_A	1L6N_A	6O9L_8	5FMF_J
+sp|P24723|KPCL_HUMAN	sp|P04591|GAG_HV1H2	28.6	3PFQ_A	1L6N_A	6O9L_8	5FMF_J
+sp|P24941|CDK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	1FVV_C	1L6N_A	6O9L_8	5FMF_J
+sp|P25067|CO8A2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3HQV_B	1L6N_A	5X4Z_G	5FMF_J
+sp|P25092|GUC2C_HUMAN	sp|P04591|GAG_HV1H2	28.6	4IM0_A	1L6N_A	6O9L_8	5FMF_J
+sp|P25098|ARBK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3V5W_A	1L6N_A	6O9L_8	5FMF_J
+sp|P26842|CD27_HUMAN	sp|P04585|POL_HV1H2	28.6	5TL5_A	1L6N_A	6CPL_A	2XXM_A
+sp|P27037|AVR2A_HUMAN	sp|P04591|GAG_HV1H2	28.6	3SOC_B	1L6N_A	6O9L_8	5FMF_J
+sp|P27361|MK03_HUMAN	sp|P04591|GAG_HV1H2	28.6	4QTE_A	1L6N_A	6O9L_8	5FMF_J
+sp|P27448|MARK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6C9D_A	1L6N_A	6O9L_8	5FMF_J
+sp|P27797|CALR_HUMAN	sp|P04591|GAG_HV1H2	28.6	6ENY_G	1L6N_A	5OQM_W	5FMF_J
+sp|P28482|MK01_HUMAN	sp|P04591|GAG_HV1H2	28.6	4QTE_A	1L6N_A	6O9L_8	5FMF_J
+sp|P29317|EPHA2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3FL7_A	1L6N_A	6O9L_8	5FMF_J
+sp|P29320|EPHA3_HUMAN	sp|P04591|GAG_HV1H2	28.6	4M4P_A	1L6N_A	6O9L_8	5FMF_J
+sp|P29322|EPHA8_HUMAN	sp|P04591|GAG_HV1H2	28.6	4M4P_A	1L6N_A	6O9L_8	5FMF_J
+sp|P29323|EPHB2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4M4P_A	1L6N_A	6O9L_8	5FMF_J
+sp|P29375|KDM5A_HUMAN	sp|P04591|GAG_HV1H2	28.6	5V9T_B	1L6N_A	4BXZ_X	5FMF_J
+sp|P30291|WEE1_HUMAN	sp|P04591|GAG_HV1H2	28.6	1X8B_A	1L6N_A	6O9L_8	5FMF_J
+sp|P31152|MK04_HUMAN	sp|P04591|GAG_HV1H2	28.6	2I6L_A	1L6N_A	6O9L_8	5FMF_J
+sp|P31260|HXA10_HUMAN	sp|P04591|GAG_HV1H2	28.6	1AU7_A	1L6N_A	6TUT_Q	5FMF_J
+sp|P31749|AKT1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4EJN_A	1L6N_A	6O9L_8	5FMF_J
+sp|P31751|AKT2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4EJN_A	1L6N_A	6O9L_8	5FMF_J
+sp|P32298|GRK4_HUMAN	sp|P04591|GAG_HV1H2	28.6	4YHJ_A	1L6N_A	6O9L_8	5FMF_J
+sp|P32780|TF2H1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6NMI_C	1L6N_A	6O9L_1	5FMF_J
+sp|P33260|CP2CI_HUMAN	sp|P04591|GAG_HV1H2	28.6	5XXI_A	1L6N_A	5OQM_n	5FMF_J
+sp|P33981|TTK_HUMAN	sp|P04591|GAG_HV1H2	28.6	6GVJ_A	1L6N_A	6O9L_8	5FMF_J
+sp|P33991|MCM4_HUMAN	sp|P04591|GAG_HV1H2	28.6	6XTY_4	1L6N_A	6J51_M	5FMF_J
+sp|P34947|GRK5_HUMAN	sp|P04591|GAG_HV1H2	28.6	4TND_A	1L6N_A	6O9L_8	5FMF_J
+sp|P35590|TIE1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4K0V_A	1L6N_A	6O9L_8	5FMF_J
+sp|P35626|ARBK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3V5W_A	1L6N_A	6O9L_8	5FMF_J
+sp|P36507|MP2K2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3EQI_A	1L6N_A	6O9L_8	5FMF_J
+sp|P36894|BMR1A_HUMAN	sp|P04591|GAG_HV1H2	28.6	3MDY_A	1L6N_A	6O9L_8	5FMF_J
+sp|P36896|ACV1B_HUMAN	sp|P04591|GAG_HV1H2	28.6	3KCF_D	1L6N_A	6O9L_8	5FMF_J
+sp|P36897|TGFR1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3KCF_D	1L6N_A	6O9L_8	5FMF_J
+sp|P37023|ACVL1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5OXG_C	1L6N_A	6O9L_8	5FMF_J
+sp|P37173|TGFR2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5E92_A	1L6N_A	6O9L_8	5FMF_J
+sp|P41279|M3K8_HUMAN	sp|P04591|GAG_HV1H2	28.6	5IU2_B	1L6N_A	6O9L_8	5FMF_J
+sp|P41743|KPCI_HUMAN	sp|P04591|GAG_HV1H2	28.6	5LI9_A	1L6N_A	6O9L_8	5FMF_J
+sp|P42336|PK3CA_HUMAN	sp|P04591|GAG_HV1H2	28.6	5DXH_A	1L6N_A	6O9L_8	5FMF_J
+sp|P42681|TXK_HUMAN	sp|P04591|GAG_HV1H2	28.6	4XI2_A	1L6N_A	6O9L_8	5FMF_J
+sp|P43250|GRK6_HUMAN	sp|P04591|GAG_HV1H2	28.6	3NYO_B	1L6N_A	6O9L_8	5FMF_J
+sp|P45983|MK08_HUMAN	sp|P04591|GAG_HV1H2	28.6	3TTJ_A	1L6N_A	6O9L_8	5FMF_J
+sp|P45984|MK09_HUMAN	sp|P04591|GAG_HV1H2	28.6	3TTJ_A	1L6N_A	6O9L_8	5FMF_J
+sp|P45985|MP2K4_HUMAN	sp|P04591|GAG_HV1H2	28.6	3ALO_A	1L6N_A	6O9L_8	5FMF_J
+sp|P46734|MP2K3_HUMAN	sp|P04591|GAG_HV1H2	28.6	3FME_A	1L6N_A	6O9L_8	5FMF_J
+sp|P48730|KC1D_HUMAN	sp|P04591|GAG_HV1H2	28.6	6PXN_B	1L6N_A	6O9L_8	5FMF_J
+sp|P49116|NR2C2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3DZY_A	1L6N_A	4BXZ_X	5FMF_J
+sp|P49137|MAPK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	1KWP_A	1L6N_A	6O9L_8	5FMF_J
+sp|P49336|CDK8_HUMAN	sp|P04591|GAG_HV1H2	28.6	4F6U_A	1L6N_A	6O9L_8	5FMF_J
+sp|P49674|KC1E_HUMAN	sp|P04591|GAG_HV1H2	28.6	6PXN_B	1L6N_A	6O9L_8	5FMF_J
+sp|P49759|CLK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6KHD_B	1L6N_A	6O9L_8	5FMF_J
+sp|P49760|CLK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6KHE_A	1L6N_A	6O9L_8	5FMF_J
+sp|P49761|CLK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6KHF_A	1L6N_A	6O9L_8	5FMF_J
+sp|P49840|GSK3A_HUMAN	sp|P04591|GAG_HV1H2	28.6	4NM3_A	1L6N_A	6O9L_8	5FMF_J
+sp|P49841|GSK3B_HUMAN	sp|P04591|GAG_HV1H2	28.6	1J1B_B	1L6N_A	6O9L_8	5FMF_J
+sp|P50613|CDK7_HUMAN	sp|P04591|GAG_HV1H2	28.6	6O9L_8	1L6N_A	6O9L_8	5FMF_J
+sp|P50750|CDK9_HUMAN	sp|P04591|GAG_HV1H2	28.6	3MI9_A	1L6N_A	6O9L_8	5FMF_J
+sp|P51451|BLK_HUMAN	sp|P04591|GAG_HV1H2	28.6	1AD5_B	1L6N_A	6O9L_8	5FMF_J
+sp|P51617|IRAK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6BFN_A	1L6N_A	6O9L_8	5FMF_J
+sp|P51812|KS6A3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5O1S_A	1L6N_A	6O9L_8	5FMF_J
+sp|P51813|BMX_HUMAN	sp|P04591|GAG_HV1H2	28.6	4XI2_A	1L6N_A	6O9L_8	5FMF_J
+sp|P51817|PRKX_HUMAN	sp|P04591|GAG_HV1H2	28.6	1FOT_A	1L6N_A	6O9L_8	5FMF_J
+sp|P51841|GUC2F_HUMAN	sp|P04591|GAG_HV1H2	28.6	4IM0_A	1L6N_A	6O9L_8	5FMF_J
+sp|P51843|NR0B1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3F5C_B	1L6N_A	5FJA_I	5FMF_J
+sp|P51955|NEK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6TM5_Q	1L6N_A	6O9L_8	5FMF_J
+sp|P51956|NEK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5FM3_A	1L6N_A	6O9L_8	5FMF_J
+sp|P51957|NEK4_HUMAN	sp|P04591|GAG_HV1H2	28.6	4B9D_A	1L6N_A	6O9L_8	5FMF_J
+sp|P52333|JAK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	4OLI_A	1L6N_A	6O9L_8	5FMF_J
+sp|P52564|MP2K6_HUMAN	sp|P04591|GAG_HV1H2	28.6	3FME_A	1L6N_A	6O9L_8	5FMF_J
+sp|P53350|PLK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3FC2_A	1L6N_A	6O9L_8	5FMF_J
+sp|P53355|DAPK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	1WMK_B	1L6N_A	6O9L_8	5FMF_J
+sp|P53667|LIMK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5HVK_A	1L6N_A	6O9L_8	5FMF_J
+sp|P53778|MK12_HUMAN	sp|P04591|GAG_HV1H2	28.6	1CM8_B	1L6N_A	6O9L_8	5FMF_J
+sp|P53779|MK10_HUMAN	sp|P04591|GAG_HV1H2	28.6	3TTJ_A	1L6N_A	6O9L_8	5FMF_J
+sp|P54646|AAPK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5ISO_A	1L6N_A	6O9L_8	5FMF_J
+sp|P54753|EPHB3_HUMAN	sp|P04591|GAG_HV1H2	28.6	4M4P_A	1L6N_A	6O9L_8	5FMF_J
+sp|P54756|EPHA5_HUMAN	sp|P04591|GAG_HV1H2	28.6	4M4P_A	1L6N_A	6O9L_8	5FMF_J
+sp|P54760|EPHB4_HUMAN	sp|P04591|GAG_HV1H2	28.6	4M4P_A	1L6N_A	6O9L_8	5FMF_J
+sp|P54762|EPHB1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4M4P_A	1L6N_A	6O9L_8	5FMF_J
+sp|P54764|EPHA4_HUMAN	sp|P04591|GAG_HV1H2	28.6	4M4P_A	1L6N_A	6O9L_8	5FMF_J
+sp|P57058|HUNK_HUMAN	sp|P04591|GAG_HV1H2	28.6	4YNZ_B	1L6N_A	6O9L_8	5FMF_J
+sp|P57059|SIK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3FE3_B	1L6N_A	6O9L_8	5FMF_J
+sp|P57678|GEMI4_HUMAN	sp|P04591|GAG_HV1H2	28.6	2AV4_A	1L6N_A	5SVA_X	5FMF_J
+sp|P68400|CSK21_HUMAN	sp|P04591|GAG_HV1H2	28.6	6SPW_A	1L6N_A	6O9L_8	5FMF_J
+sp|P78362|SRPK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5MY8_A	1L6N_A	6O9L_8	5FMF_J
+sp|P78368|KC1G2_HUMAN	sp|P04591|GAG_HV1H2	28.6	2IZR_A	1L6N_A	6O9L_8	5FMF_J
+sp|P86478|PR20E_HUMAN	sp|P04591|GAG_HV1H2	28.6	4V5O_A	1L6N_A	6TUT_N	5FMF_J
+sp|P86479|PR20C_HUMAN	sp|P04591|GAG_HV1H2	28.6	4BTS_A	1L6N_A	6TUT_N	5FMF_J
+sp|P86480|PR20D_HUMAN	sp|P04591|GAG_HV1H2	28.6	4V5O_A	1L6N_A	6TUT_N	5FMF_J
+sp|P86481|PR20B_HUMAN	sp|P04591|GAG_HV1H2	28.6	4V5O_A	1L6N_A	6TUT_N	5FMF_J
+sp|P86496|PR20A_HUMAN	sp|P04591|GAG_HV1H2	28.6	4BTS_A	1L6N_A	6TUT_N	5FMF_J
+sp|Q00526|CDK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6Q4G_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q00532|CDKL1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4AGU_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q00534|CDK6_HUMAN	sp|P04591|GAG_HV1H2	28.6	1BLX_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q00535|CDK5_HUMAN	sp|P04591|GAG_HV1H2	28.6	1UNL_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q00536|CDK16_HUMAN	sp|P04591|GAG_HV1H2	28.6	3MTL_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q00537|CDK17_HUMAN	sp|P04591|GAG_HV1H2	28.6	3MTL_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q00577|PURA_HUMAN	sp|P04591|GAG_HV1H2	28.6	5FGP_A	1L6N_A	5FJA_Q	5FMF_J
+sp|Q02156|KPCE_HUMAN	sp|P04591|GAG_HV1H2	28.6	3PFQ_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q02750|MP2K1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3EQI_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q02763|TIE2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4K0V_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q02846|GUC2D_HUMAN	sp|P04591|GAG_HV1H2	28.6	4IM0_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q04759|KPCT_HUMAN	sp|P04591|GAG_HV1H2	28.6	3PFQ_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q04771|ACVR1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5OXG_C	1L6N_A	6O9L_8	5FMF_J
+sp|Q04912|RON_HUMAN	sp|P04591|GAG_HV1H2	28.6	4QT8_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q05397|FAK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	2J0K_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q05513|KPCZ_HUMAN	sp|P04591|GAG_HV1H2	28.6	5LI9_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q05655|KPCD_HUMAN	sp|P04591|GAG_HV1H2	28.6	3PFQ_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q06187|BTK_HUMAN	sp|P04591|GAG_HV1H2	28.6	4XI2_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q06265|EXOS9_HUMAN	sp|P04591|GAG_HV1H2	28.6	6H25_A	1L6N_A	5OQJ_6	5FMF_J
+sp|Q07002|CDK18_HUMAN	sp|P04591|GAG_HV1H2	28.6	3MTL_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q07666|KHDR1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5EMO_B	1L6N_A	6EU1_Q	5FMF_J
+sp|Q08345|DDR1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6BRJ_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q08881|ITK_HUMAN	sp|P04591|GAG_HV1H2	28.6	4XI2_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q09013|DMPK_HUMAN	sp|P04591|GAG_HV1H2	28.6	2VD5_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q0P6D2|DIK1C_HUMAN	sp|P04591|GAG_HV1H2	28.6	3DAK_D	1L6N_A	6O9L_8	5FMF_J
+sp|Q12791|KCMA1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6ND0_D	1L6N_A	5FJ8_Q	5FMF_J
+sp|Q12851|M4K2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5J5T_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q12852|M3K12_HUMAN	sp|P04591|GAG_HV1H2	28.6	5CEN_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q13043|STK4_HUMAN	sp|P04591|GAG_HV1H2	28.6	6AO5_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q13123|RED_HUMAN	sp|P04591|GAG_HV1H2	28.6	6Q8I_H	1L6N_A	6GML_X	5FMF_J
+sp|Q13131|AAPK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4CFH_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q13153|PAK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4FIE_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q13156|RFA4_HUMAN	sp|P04591|GAG_HV1H2	28.6	2PI2_A	1L6N_A	6TUT_P	5FMF_J
+sp|Q13163|MP2K5_HUMAN	sp|P04591|GAG_HV1H2	28.6	4IC7_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q13164|MK07_HUMAN	sp|P04591|GAG_HV1H2	28.6	4IC7_D	1L6N_A	6O9L_8	5FMF_J
+sp|Q13177|PAK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4FIE_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q13188|STK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	4LGD_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q13233|M3K1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4B99_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q13237|KGP2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4RZ7_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q13308|PTK7_HUMAN	sp|P04591|GAG_HV1H2	28.6	6VG3_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q13330|MTA1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4BKX_A	1L6N_A	6F40_W	5FMF_J
+sp|Q13464|ROCK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3V8S_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q13503|MED21_HUMAN	sp|P04591|GAG_HV1H2	28.6	1YKE_B	1L6N_A	5OQM_n	5FMF_J
+sp|Q13523|PRP4B_HUMAN	sp|P04591|GAG_HV1H2	28.6	6QX9_K	1L6N_A	6O9L_8	5FMF_J
+sp|Q13546|RIPK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4NEU_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q13554|KCC2B_HUMAN	sp|P04591|GAG_HV1H2	28.6	5U6Y_C	1L6N_A	6O9L_8	5FMF_J
+sp|Q13555|KCC2G_HUMAN	sp|P04591|GAG_HV1H2	28.6	5U6Y_C	1L6N_A	6O9L_8	5FMF_J
+sp|Q13557|KCC2D_HUMAN	sp|P04591|GAG_HV1H2	28.6	5U6Y_C	1L6N_A	6O9L_8	5FMF_J
+sp|Q13627|DYR1A_HUMAN	sp|P04591|GAG_HV1H2	28.6	6S1H_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q13705|AVR2B_HUMAN	sp|P04591|GAG_HV1H2	28.6	4ASX_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q13873|BMPR2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3G2F_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q13882|PTK6_HUMAN	sp|P04591|GAG_HV1H2	28.6	1AD5_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q13976|KGP1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4RZ7_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q14004|CDK13_HUMAN	sp|P04591|GAG_HV1H2	28.6	5EFQ_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q14012|KCC1A_HUMAN	sp|P04591|GAG_HV1H2	28.6	6QP5_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q14164|IKKE_HUMAN	sp|P04591|GAG_HV1H2	28.6	6NT9_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q14289|FAK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4EKU_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q14680|MELK_HUMAN	sp|P04591|GAG_HV1H2	28.6	5TVT_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q15131|CDK10_HUMAN	sp|P04591|GAG_HV1H2	28.6	4B99_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q15139|KPCD1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3PFQ_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q15208|STK38_HUMAN	sp|P04591|GAG_HV1H2	28.6	6BXI_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q15349|KS6A2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4OLI_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q15375|EPHA7_HUMAN	sp|P04591|GAG_HV1H2	28.6	4M4P_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q15406|NR6A1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4NQA_I	1L6N_A	4BXZ_X	5FMF_J
+sp|Q15418|KS6A1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4NIF_D	1L6N_A	6O9L_8	5FMF_J
+sp|Q15569|TESK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4G3F_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q15672|TWST1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4AYA_B	1L6N_A	6TUT_Q	5FMF_J
+sp|Q15714|T22D1_HUMAN	sp|P04591|GAG_HV1H2	28.6	1DIP_A	1L6N_A	5OQM_h	5FMF_J
+sp|Q15746|MYLK_HUMAN	sp|P04591|GAG_HV1H2	28.6	3UTO_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q15759|MK11_HUMAN	sp|P04591|GAG_HV1H2	28.6	2YIX_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q15772|SPEG_HUMAN	sp|P04591|GAG_HV1H2	28.6	3B43_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q15797|SMAD1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3GMJ_C	1L6N_A	6GML_X	5FMF_J
+sp|Q15831|STK11_HUMAN	sp|P04591|GAG_HV1H2	28.6	2WTK_C	1L6N_A	6O9L_8	5FMF_J
+sp|Q15835|GRK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3C4Z_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q16512|PKN1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4OTH_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q16513|PKN2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4OTH_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q16539|MK14_HUMAN	sp|P04591|GAG_HV1H2	28.6	4LOP_C	1L6N_A	6O9L_8	5FMF_J
+sp|Q16543|CDC37_HUMAN	sp|P04591|GAG_HV1H2	28.6	5FWK_E	1L6N_A	5OQM_h	5FMF_J
+sp|Q16566|KCC4_HUMAN	sp|P04591|GAG_HV1H2	28.6	2W4O_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q16594|TAF9_HUMAN	sp|P04591|GAG_HV1H2	28.6	6MZL_M	1L6N_A	6GYM_W	5FMF_J
+sp|Q16644|MAPK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	3FHR_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q16659|MK06_HUMAN	sp|P04591|GAG_HV1H2	28.6	2I6L_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q16671|AMHR2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3G2F_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q16816|PHKG1_HUMAN	sp|P04591|GAG_HV1H2	28.6	1PHK_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q16832|DDR2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6BRJ_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q1W6H9|F110C_HUMAN	sp|P04591|GAG_HV1H2	28.6	4M6T_A	1L6N_A	6GMH_U	5FMF_J
+sp|Q2M238|RN3P1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6RUI_O	1L6N_A	6RUI_O	5FMF_J
+sp|Q2M2I8|AAK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5TE0_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q32MK0|MYLK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	2X4F_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q38SD2|LRRK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6HLU_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q496M5|PLK5_HUMAN	sp|P04591|GAG_HV1H2	28.6	4RS6_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q52WX2|SBK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3UC4_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q56UN5|M3K19_HUMAN	sp|P04591|GAG_HV1H2	28.6	6J5T_I	1L6N_A	6O9L_8	5FMF_J
+sp|Q58A45|PAN3_HUMAN	sp|P04591|GAG_HV1H2	28.6	4BWP_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q5BKZ1|ZN326_HUMAN	sp|P04591|GAG_HV1H2	28.6	1ZU1_A	1L6N_A	6IR9_M	5FMF_J
+sp|Q5GLZ8|HERC4_HUMAN	sp|P04591|GAG_HV1H2	28.6	5LP8_A	1L6N_A	6GML_X	5FMF_J
+sp|Q5HYA8|MKS3_HUMAN	sp|P04591|GAG_HV1H2	28.6	3MX0_C	1L6N_A	3QT1_I	5FMF_J
+sp|Q5JRV8|T255A_HUMAN	sp|P04591|GAG_HV1H2	28.6	5TCX_A	1L6N_A	3H0G_A	5FMF_J
+sp|Q5JZY3|EPHAA_HUMAN	sp|P04591|GAG_HV1H2	28.6	4M4P_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q5K130|CLU1O_HUMAN	sp|P04591|GAG_HV1H2	28.6	5Z72_A	1L6N_A	5OQM_1	5FMF_J
+sp|Q5MAI5|CDKL4_HUMAN	sp|P04591|GAG_HV1H2	28.6	4AGU_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q5S007|LRRK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6HLU_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q5T2E6|ARMD3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6K2C_A	1L6N_A	5OQM_i	5FMF_J
+sp|Q5TIA1|MEI1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5ZHX_D	1L6N_A	3H0G_A	5FMF_J
+sp|Q5VST9|OBSCN_HUMAN	sp|P04591|GAG_HV1H2	28.6	3DMK_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q5VT25|MRCKA_HUMAN	sp|P04591|GAG_HV1H2	28.6	4AW2_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q6A1A2|PDPK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5LVM_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q6DT37|MRCKG_HUMAN	sp|P04591|GAG_HV1H2	28.6	4AW2_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q6J9G0|STYK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5FM3_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q6P0Q8|MAST2_HUMAN	sp|P04591|GAG_HV1H2	28.6	2VD5_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q6P1N9|TATD1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3E2V_A	1L6N_A	5OQM_k	5FMF_J
+sp|Q6P2M8|KCC1B_HUMAN	sp|P04591|GAG_HV1H2	28.6	6QP5_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q6P3R8|NEK5_HUMAN	sp|P04591|GAG_HV1H2	28.6	4B9D_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q6P3W7|SCYL2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3VWA_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q6P5Z2|PKN3_HUMAN	sp|P04591|GAG_HV1H2	28.6	4OTH_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q6PHR2|ULK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6FDY_U	1L6N_A	6O9L_8	5FMF_J
+sp|Q6PJG2|MDEAS_HUMAN	sp|P04591|GAG_HV1H2	28.6	6Z2K_F	1L6N_A	6EU0_V	5FMF_J
+sp|Q6SA08|TSSK4_HUMAN	sp|P04591|GAG_HV1H2	28.6	4YNZ_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q6T4P5|PLPR3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5JWY_A	1L6N_A	5OQM_W	5FMF_J
+sp|Q6UB35|C1TM_HUMAN	sp|P04591|GAG_HV1H2	28.6	5A4J_D	1L6N_A	5FJ9_Q	5FMF_J
+sp|Q6UX15|LAYN_HUMAN	sp|P04591|GAG_HV1H2	28.6	6RYG_A	1L6N_A	6GYM_W	5FMF_J
+sp|Q6XUX3|DUSTY_HUMAN	sp|P04591|GAG_HV1H2	28.6	5TE0_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q6ZMQ8|LMTK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5FM3_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q6ZN16|M3K15_HUMAN	sp|P04591|GAG_HV1H2	28.6	5ULM_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q6ZNC4|ZN704_HUMAN	sp|P04591|GAG_HV1H2	28.6	1ZW8_A	1L6N_A	5SVA_U	5FMF_J
+sp|Q6ZRQ5|MMS22_HUMAN	sp|P04591|GAG_HV1H2	28.6	6GML_W	1L6N_A	6GML_W	5FMF_J
+sp|Q6ZS46|YF009_HUMAN	sp|P04591|GAG_HV1H2	28.6	6O5B_G	1L6N_A	5FJA_Q	5FMF_J
+sp|Q6ZS72|PEAK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6BHC_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q6ZT52|FA43B_HUMAN	sp|P04591|GAG_HV1H2	28.6	2EJ8_B	1L6N_A	6IR9_W	5FMF_J
+sp|Q6ZTZ1|MSD1_HUMAN	sp|P04591|GAG_HV1H2	28.6	2JMW_A	1L6N_A	5SVA_U	5FMF_J
+sp|Q6ZWH5|NEK10_HUMAN	sp|P04591|GAG_HV1H2	28.6	4PDP_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q76L83|ASXL2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6CGA_D	1L6N_A	4BXZ_X	5FMF_J
+sp|Q76MJ5|ERN2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6HX1_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q76NI1|KNDC1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6AXF_G	1L6N_A	6O9L_8	5FMF_J
+sp|Q7KZI7|MARK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6C9D_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q7L0L9|YA043_HUMAN	sp|P04578|ENV_HV1H2	28.6	2LOT_A	6PWU_E	6MEO_B	3J70_P
+sp|Q7L4I2|RSRC2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6QX9_K	1L6N_A	6GML_X	5FMF_J
+sp|Q7L7X3|TAOK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	2GCD_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q7RTN6|STRAA_HUMAN	sp|P04591|GAG_HV1H2	28.6	2WTK_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q7Z2Y5|NRK_HUMAN	sp|P04591|GAG_HV1H2	28.6	6RA7_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q7Z3K6|MIER3_HUMAN	sp|P04591|GAG_HV1H2	28.6	4BKX_A	1L6N_A	6F40_W	5FMF_J
+sp|Q7Z695|ADCK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4PED_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q7Z7A4|PXK_HUMAN	sp|P04591|GAG_HV1H2	28.6	6TM5_Q	1L6N_A	6O9L_8	5FMF_J
+sp|Q86SG6|NEK8_HUMAN	sp|P04591|GAG_HV1H2	28.6	5FM3_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q86UE8|TLK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5O0Y_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q86UX6|ST32C_HUMAN	sp|P04591|GAG_HV1H2	28.6	4FR4_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q86V86|PIM3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5TUR_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q86VF7|NRAP_HUMAN	sp|P04591|GAG_HV1H2	28.6	2LXD_A	1L6N_A	5OQM_W	5FMF_J
+sp|Q86YV6|MYLK4_HUMAN	sp|P04591|GAG_HV1H2	28.6	2X4F_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q86Z02|HIPK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6P5S_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8IU85|KCC1D_HUMAN	sp|P04591|GAG_HV1H2	28.6	6T29_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8IV03|LUR1L_HUMAN	sp|P04591|GAG_HV1H2	28.6	6MZM_G	1L6N_A	6EU1_Q	5FMF_J
+sp|Q8IV63|VRK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	2JII_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8IVH8|M4K3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5J5T_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8IVW4|CDKL3_HUMAN	sp|P04591|GAG_HV1H2	28.6	3ZDU_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8IW41|MAPK5_HUMAN	sp|P04591|GAG_HV1H2	28.6	1NXK_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q8IWQ3|BRSK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4YNZ_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q8IWU2|LMTK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5FM3_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8IXH7|NELFD_HUMAN	sp|P04591|GAG_HV1H2	28.6	6GML_W	1L6N_A	6GML_W	5FMF_J
+sp|Q8IY84|NIM1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4YNZ_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q8IYL3|CA174_HUMAN	sp|P04591|GAG_HV1H2	28.6	1SUJ_A	1L6N_A	6GYM_W	5FMF_J
+sp|Q8IYS0|ASTRC_HUMAN	sp|P04591|GAG_HV1H2	28.6	6GN5_A	1L6N_A	6O9L_1	5FMF_J
+sp|Q8IYT8|ULK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6QAU_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8IYX3|CC116_HUMAN	sp|P04591|GAG_HV1H2	28.6	5OV3_A	1L6N_A	6J51_W	5FMF_J
+sp|Q8IZD2|KMT2E_HUMAN	sp|P04591|GAG_HV1H2	28.6	5HT6_A	1L6N_A	4BXZ_X	5FMF_J
+sp|Q8IZE3|PACE1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3VWA_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q8IZL9|CDK20_HUMAN	sp|P04591|GAG_HV1H2	28.6	6O9L_8	1L6N_A	6O9L_8	5FMF_J
+sp|Q8N165|PDK1L_HUMAN	sp|P04591|GAG_HV1H2	28.6	5TE0_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8N2I9|STK40_HUMAN	sp|P04591|GAG_HV1H2	28.6	5L2Q_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8N3I7|BBS5_HUMAN	sp|P04591|GAG_HV1H2	28.6	6VBU_5	1L6N_A	6O9L_1	5FMF_J
+sp|Q8N4C8|MINK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4U3Y_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8N568|DCLK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4ATU_I	1L6N_A	6O9L_8	5FMF_J
+sp|Q8N5S9|KKCC1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6CCF_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8N9T8|KRI1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5U0S_3	1L6N_A	5SVA_X	5FMF_J
+sp|Q8NBL1|PGLT1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5L0S_A	1L6N_A	5LMX_C	5FMF_J
+sp|Q8NC44|RETR2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6V7B_c	1L6N_A	6EU1_Q	5FMF_J
+sp|Q8NCB2|CAMKV_HUMAN	sp|P04591|GAG_HV1H2	28.6	6QP5_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8NE28|STKL1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5VDK_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8NE63|HIPK4_HUMAN	sp|P04591|GAG_HV1H2	28.6	6P5S_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8NEV1|CSK23_HUMAN	sp|P04591|GAG_HV1H2	28.6	5ONI_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q8NEV4|MYO3A_HUMAN	sp|P04591|GAG_HV1H2	28.6	2DFS_M	1L6N_A	6O9L_8	5FMF_J
+sp|Q8NG66|NEK11_HUMAN	sp|P04591|GAG_HV1H2	28.6	4Z7H_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q8TAS1|UHMK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	2VD5_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8TCU5|NMD3A_HUMAN	sp|P04591|GAG_HV1H2	28.6	4TLM_D	1L6N_A	5OQM_n	5FMF_J
+sp|Q8TD08|MK15_HUMAN	sp|P04591|GAG_HV1H2	28.6	3OZ6_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q8TD19|NEK9_HUMAN	sp|P04591|GAG_HV1H2	28.6	4B9D_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8TDC3|BRSK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4YNZ_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q8TDR2|STK35_HUMAN	sp|P04591|GAG_HV1H2	28.6	6J5T_I	1L6N_A	6O9L_8	5FMF_J
+sp|Q8TDX7|NEK7_HUMAN	sp|P04591|GAG_HV1H2	28.6	2WQM_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8TEA7|TBCK_HUMAN	sp|P04591|GAG_HV1H2	28.6	6JL7_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8WTQ7|GRK7_HUMAN	sp|P04591|GAG_HV1H2	28.6	3C4Z_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8WU08|ST32A_HUMAN	sp|P04591|GAG_HV1H2	28.6	4FR4_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q8WVC0|LEO1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6GMH_U	1L6N_A	6GMH_U	5FMF_J
+sp|Q8WWL2|SPIR2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3R7G_A	1L6N_A	5OQJ_4	5FMF_J
+sp|Q8WX92|NELFB_HUMAN	sp|P04591|GAG_HV1H2	28.6	6GML_V	1L6N_A	6GML_V	5FMF_J
+sp|Q8WXR4|MYO3B_HUMAN	sp|P04591|GAG_HV1H2	28.6	1O1A_G	1L6N_A	6O9L_8	5FMF_J
+sp|Q8WYN3|CSRN3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6RXX_U	1L6N_A	6IR9_W	5FMF_J
+sp|Q92519|TRIB2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5CEM_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q92630|DYRK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5LXC_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q92772|CDKL2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4BBM_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q92918|M4K1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6NFY_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q96A49|SYAP1_HUMAN	sp|P04591|GAG_HV1H2	28.6	1X3A_A	1L6N_A	6O9L_1	5FMF_J
+sp|Q96BR1|SGK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	2R5T_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q96C45|ULK4_HUMAN	sp|P04591|GAG_HV1H2	28.6	6U5L_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q96G25|MED8_HUMAN	sp|P04591|GAG_HV1H2	28.6	5N9J_U	1L6N_A	5SVA_N	5FMF_J
+sp|Q96GD4|AURKB_HUMAN	sp|P04591|GAG_HV1H2	28.6	4C2W_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q96GX5|GWL_HUMAN	sp|P04591|GAG_HV1H2	28.6	5LOH_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q96IU2|ZBED3_HUMAN	sp|P04591|GAG_HV1H2	28.6	2DJR_A	1L6N_A	5OQM_n	5FMF_J
+sp|Q96J92|WNK4_HUMAN	sp|P04591|GAG_HV1H2	28.6	5O2C_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q96JE7|SC16B_HUMAN	sp|P04591|GAG_HV1H2	28.6	3MZK_B	1L6N_A	6TUT_Q	5FMF_J
+sp|Q96KB5|TOPK_HUMAN	sp|P04591|GAG_HV1H2	28.6	5J0A_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q96KG9|SCYL1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3VWA_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q96L34|MARK4_HUMAN	sp|P04591|GAG_HV1H2	28.6	6C9D_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q96L73|NSD1_HUMAN	sp|P04591|GAG_HV1H2	28.6	3OOI_A	1L6N_A	4BXZ_X	5FMF_J
+sp|Q96LW2|KS6R_HUMAN	sp|P04591|GAG_HV1H2	28.6	4OTD_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q96MW7|TIGD1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4U7B_A	1L6N_A	6TUT_P	5FMF_J
+sp|Q96NX5|KCC1G_HUMAN	sp|P04591|GAG_HV1H2	28.6	2JAM_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q96PF2|TSSK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4B99_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q96PN8|TSSK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	3UC4_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q96PY6|NEK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4B9D_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q96Q04|LMTK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5FM3_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q96Q40|CDK15_HUMAN	sp|P04591|GAG_HV1H2	28.6	3MTL_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q96QS6|KPSH2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5U6Y_C	1L6N_A	6O9L_8	5FMF_J
+sp|Q96RG2|PASK_HUMAN	sp|P04591|GAG_HV1H2	28.6	3DLS_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q96RR4|KKCC2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5UY6_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q96RU7|TRIB3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5CEM_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q96RU8|TRIB1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5CEM_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q96RY5|CRML_HUMAN	sp|P04591|GAG_HV1H2	28.6	2YQK_A	1L6N_A	6F40_W	5FMF_J
+sp|Q96S38|KS6C1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5LI9_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q96S44|PRPK_HUMAN	sp|P04591|GAG_HV1H2	28.6	4WW7_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q96SB4|SRPK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6FAD_C	1L6N_A	6O9L_8	5FMF_J
+sp|Q99558|M3K14_HUMAN	sp|P04591|GAG_HV1H2	28.6	6Z1Q_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q99570|PI3R4_HUMAN	sp|P04591|GAG_HV1H2	28.6	5KC2_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q99640|PMYT1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5VCZ_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q99683|M3K5_HUMAN	sp|P04591|GAG_HV1H2	28.6	5ULM_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q99717|SMAD5_HUMAN	sp|P04591|GAG_HV1H2	28.6	3GMJ_C	1L6N_A	6GML_X	5FMF_J
+sp|Q99759|M3K3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5WNL_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q99986|VRK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	2RSV_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9BQ52|RNZ2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5MTZ_A	1L6N_A	6O9L_1	5FMF_J
+sp|Q9BQI3|E2AK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5FM3_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9BRQ0|PYGO2_HUMAN	sp|P04591|GAG_HV1H2	28.6	2VPG_C	1L6N_A	4BXZ_X	5FMF_J
+sp|Q9BRS2|RIOK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6G5I_z	1L6N_A	6O9L_8	5FMF_J
+sp|Q9BTC8|MTA3_HUMAN	sp|P04591|GAG_HV1H2	28.6	4BKX_A	1L6N_A	6EU0_V	5FMF_J
+sp|Q9BTT4|MED10_HUMAN	sp|P04591|GAG_HV1H2	28.6	5OQM_k	1L6N_A	5OQM_k	5FMF_J
+sp|Q9BUB5|MKNK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	2AC3_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9BUE0|MED18_HUMAN	sp|P04591|GAG_HV1H2	28.6	3C0T_A	1L6N_A	5SVA_Q	5FMF_J
+sp|Q9BVI0|PHF20_HUMAN	sp|P04591|GAG_HV1H2	28.6	2MAM_A	1L6N_A	4BXZ_X	5FMF_J
+sp|Q9BWU1|CDK19_HUMAN	sp|P04591|GAG_HV1H2	28.6	4F6U_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9BXA6|TSSK6_HUMAN	sp|P04591|GAG_HV1H2	28.6	4B99_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9BXA7|TSSK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4B99_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9BXM7|PINK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5OAT_F	1L6N_A	6O9L_8	5FMF_J
+sp|Q9BXU1|STK31_HUMAN	sp|P04591|GAG_HV1H2	28.6	6O6Q_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9BXU7|UBP26_HUMAN	sp|P04591|GAG_HV1H2	28.6	3U12_A	1L6N_A	3H0G_L	5FMF_J
+sp|Q9BY66|KDM5D_HUMAN	sp|P04591|GAG_HV1H2	28.6	5V9T_B	1L6N_A	4BXZ_X	5FMF_J
+sp|Q9BYP7|WNK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5O2C_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9BYT3|STK33_HUMAN	sp|P04591|GAG_HV1H2	28.6	2WEL_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9BZ72|PITM2_HUMAN	sp|P04591|GAG_HV1H2	28.6	1T27_A	1L6N_A	5FJA_Q	5FMF_J
+sp|Q9BZD3|GCOM2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6DRD_M	1L6N_A	6DRD_M	5FMF_J
+sp|Q9BZL6|KPCD2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3PFQ_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9C086|IN80B_HUMAN	sp|P04591|GAG_HV1H2	28.6	6HTS_R	1L6N_A	6TUT_Q	5FMF_J
+sp|Q9C098|DCLK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5JZN_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9C0A6|SETD5_HUMAN	sp|P04591|GAG_HV1H2	28.6	5HT6_B	1L6N_A	4BXZ_X	5FMF_J
+sp|Q9C0K7|STRAB_HUMAN	sp|P04591|GAG_HV1H2	28.6	2WTK_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q9GZS1|RPA49_HUMAN	sp|P04591|GAG_HV1H2	28.6	6RUI_M	1L6N_A	6RUI_M	5FMF_J
+sp|Q9H063|MAF1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6TUT_R	1L6N_A	6TUT_R	5FMF_J
+sp|Q9H093|NUAK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	1TKI_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9H0K1|SIK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4YNZ_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q9H169|STMN4_HUMAN	sp|P04591|GAG_HV1H2	28.6	6S9E_E	1L6N_A	6O9L_3	5FMF_J
+sp|Q9H1R3|MYLK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	2X4F_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q9H2G2|SLK_HUMAN	sp|P04591|GAG_HV1H2	28.6	6EIM_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q9H2K8|TAOK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6BDN_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9H2X6|HIPK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	6P5S_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9H3R0|KDM4C_HUMAN	sp|P04591|GAG_HV1H2	28.6	5FJK_A	1L6N_A	4BXZ_X	5FMF_J
+sp|Q9H3Y6|SRMS_HUMAN	sp|P04591|GAG_HV1H2	28.6	1AD5_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q9H422|HIPK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6P5S_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9H4A3|WNK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5O2C_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9H4B4|PLK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	4B6L_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9H4S2|GSX1_HUMAN	sp|P04591|GAG_HV1H2	28.6	1MH3_A	1L6N_A	5FJA_Q	5FMF_J
+sp|Q9H5K3|SG196_HUMAN	sp|P04591|GAG_HV1H2	28.6	5GZ9_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9HAZ1|CLK4_HUMAN	sp|P04591|GAG_HV1H2	28.6	6KHE_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9HB96|FANCE_HUMAN	sp|P04591|GAG_HV1H2	28.6	2ILR_A	1L6N_A	6GML_U	5FMF_J
+sp|Q9HBH9|MKNK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	2AC3_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9HBY8|SGK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3HDM_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9HC98|NEK6_HUMAN	sp|P04591|GAG_HV1H2	28.6	6S73_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9HCP0|KC1G1_HUMAN	sp|P04591|GAG_HV1H2	28.6	2IZR_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9NPF5|DMAP1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4IEJ_A	1L6N_A	6EU0_V	5FMF_J
+sp|Q9NQU5|PAK6_HUMAN	sp|P04591|GAG_HV1H2	28.6	4FIE_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9NQW8|CNGB3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5VA1_A	1L6N_A	5OQM_W	5FMF_J
+sp|Q9NR20|DYRK4_HUMAN	sp|P04591|GAG_HV1H2	28.6	5LXC_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9NR48|ASH1L_HUMAN	sp|P04591|GAG_HV1H2	28.6	6AGO_A	1L6N_A	4BXZ_X	5FMF_J
+sp|Q9NRH2|SNRK_HUMAN	sp|P04591|GAG_HV1H2	28.6	5YKS_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9NRM7|LATS2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5NCL_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9NRP7|STK36_HUMAN	sp|P04591|GAG_HV1H2	28.6	4B99_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9NSY0|NRBP2_HUMAN	sp|P04591|GAG_HV1H2	28.6	1X8B_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9NSY1|BMP2K_HUMAN	sp|P04591|GAG_HV1H2	28.6	5TE0_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9NVF9|EKI2_HUMAN	sp|P04591|GAG_HV1H2	28.6	1NW1_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9NW68|BSDC1_HUMAN	sp|P04591|GAG_HV1H2	28.6	1X3A_A	1L6N_A	6O9L_1	5FMF_J
+sp|Q9NWZ3|IRAK4_HUMAN	sp|P04591|GAG_HV1H2	28.6	6MOM_D	1L6N_A	6O9L_8	5FMF_J
+sp|Q9NX45|SOLH2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4H10_B	1L6N_A	6GML_X	5FMF_J
+sp|Q9NY57|ST32B_HUMAN	sp|P04591|GAG_HV1H2	28.6	4FR4_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9NYP3|DONS_HUMAN	sp|P04591|GAG_HV1H2	28.6	6S3L_K	1L6N_A	6EU1_Q	5FMF_J
+sp|Q9NYV4|CDK12_HUMAN	sp|P04591|GAG_HV1H2	28.6	4CXA_C	1L6N_A	6O9L_8	5FMF_J
+sp|Q9NYV6|RRN3_HUMAN	sp|P04591|GAG_HV1H2	28.6	6RUI_O	1L6N_A	6RUI_O	5FMF_J
+sp|Q9NYY3|PLK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4I6B_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9NZJ5|E2AK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	4X7K_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9NZL4|HPBP1_HUMAN	sp|P04591|GAG_HV1H2	28.6	1XQS_B	1L6N_A	6TUT_Q	5FMF_J
+sp|Q9P0L2|MARK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6C9D_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9P1W9|PIM2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4X7Q_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q9P286|PAK5_HUMAN	sp|P04591|GAG_HV1H2	28.6	4FIE_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9P289|STK26_HUMAN	sp|P04591|GAG_HV1H2	28.6	4W8D_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9P2K8|E2AK4_HUMAN	sp|P04591|GAG_HV1H2	28.6	6N3O_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9UBE8|NLK_HUMAN	sp|P04591|GAG_HV1H2	28.6	4B99_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9UBS0|KS6B2_HUMAN	sp|P04591|GAG_HV1H2	28.6	4L44_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9UD57|NKX12_HUMAN	sp|P04591|GAG_HV1H2	28.6	1AU7_A	1L6N_A	6TUT_Q	5FMF_J
+sp|Q9UDY2|ZO2_HUMAN	sp|P04591|GAG_HV1H2	28.6	3SHW_A	1L6N_A	6GML_X	5FMF_J
+sp|Q9UEE5|ST17A_HUMAN	sp|P04591|GAG_HV1H2	28.6	5J5T_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9UER7|DAXX_HUMAN	sp|P04591|GAG_HV1H2	28.6	4H9N_C	1L6N_A	5OQM_W	5FMF_J
+sp|Q9UEW8|STK39_HUMAN	sp|P04591|GAG_HV1H2	28.6	5DBX_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9UF33|EPHA6_HUMAN	sp|P04591|GAG_HV1H2	28.6	4M4P_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9UGL1|KDM5B_HUMAN	sp|P04591|GAG_HV1H2	28.6	5V9T_B	1L6N_A	4BXZ_X	5FMF_J
+sp|Q9UHD2|TBK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6NT9_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q9UHY1|NRBP_HUMAN	sp|P04591|GAG_HV1H2	28.6	2X4F_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9UIF9|BAZ2A_HUMAN	sp|P04591|GAG_HV1H2	28.6	5MR8_A	1L6N_A	4BXZ_X	5FMF_J
+sp|Q9UIK4|DAPK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	1WMK_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q9UJV8|PURG_HUMAN	sp|P04591|GAG_HV1H2	28.6	3K44_C	1L6N_A	5FJ9_Q	5FMF_J
+sp|Q9UK32|KS6A6_HUMAN	sp|P04591|GAG_HV1H2	28.6	4OLI_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9UKE5|TNIK_HUMAN	sp|P04591|GAG_HV1H2	28.6	4U3Y_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9UKI8|TLK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5O0Y_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9UKZ1|CNO11_HUMAN	sp|P04591|GAG_HV1H2	28.6	3ZUQ_A	1L6N_A	5FJA_Q	5FMF_J
+sp|Q9UL54|TAOK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	2GCD_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9ULD4|BRPF3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5ERC_A	1L6N_A	4BXZ_X	5FMF_J
+sp|Q9ULN7|PNM8B_HUMAN	sp|P04591|GAG_HV1H2	28.6	6RXU_U	1L6N_A	5OIK_Z	5FMF_J
+sp|Q9UMX2|OAZ3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5BWA_B	1L6N_A	5FYW_W	5FMF_J
+sp|Q9UPE1|SRPK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	5MY8_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9UPM8|AP4E1_HUMAN	sp|P04591|GAG_HV1H2	28.6	6OWT_A	1L6N_A	6GML_V	5FMF_J
+sp|Q9UPN7|PP6R1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5TAQ_I	1L6N_A	6IR9_W	5FMF_J
+sp|Q9UPP1|PHF8_HUMAN	sp|P04591|GAG_HV1H2	28.6	3KV4_A	1L6N_A	4BXZ_X	5FMF_J
+sp|Q9UPZ9|CILK1_HUMAN	sp|P04591|GAG_HV1H2	28.6	4J1R_D	1L6N_A	6O9L_8	5FMF_J
+sp|Q9UQ07|MOK_HUMAN	sp|P04591|GAG_HV1H2	28.6	4NM3_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9UQ88|CD11A_HUMAN	sp|P04591|GAG_HV1H2	28.6	6O9L_8	1L6N_A	6O9L_8	5FMF_J
+sp|Q9UQB9|AURKC_HUMAN	sp|P04591|GAG_HV1H2	28.6	4C2W_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q9UQM7|KCC2A_HUMAN	sp|P04591|GAG_HV1H2	28.6	5U6Y_C	1L6N_A	6O9L_8	5FMF_J
+sp|Q9Y217|MTMR6_HUMAN	sp|P04591|GAG_HV1H2	28.6	2YF0_A	1L6N_A	5SVA_U	5FMF_J
+sp|Q9Y243|AKT3_HUMAN	sp|P04591|GAG_HV1H2	28.6	4EJN_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9Y259|CHKB_HUMAN	sp|P04591|GAG_HV1H2	28.6	1NW1_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9Y2H1|ST38L_HUMAN	sp|P04591|GAG_HV1H2	28.6	6BXI_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q9Y2H9|MAST1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5U7Q_D	1L6N_A	6O9L_8	5FMF_J
+sp|Q9Y2K2|SIK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	4YNZ_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q9Y2U5|M3K2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5FM3_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9Y3C7|MED31_HUMAN	sp|P04591|GAG_HV1H2	28.6	5N9J_R	1L6N_A	5OQM_o	5FMF_J
+sp|Q9Y3S1|WNK2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5O2C_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9Y3Y4|PYGO1_HUMAN	sp|P04591|GAG_HV1H2	28.6	2VPB_A	1L6N_A	4BXZ_X	5FMF_J
+sp|Q9Y463|DYR1B_HUMAN	sp|P04591|GAG_HV1H2	28.6	6S1H_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9Y4K4|M4K5_HUMAN	sp|P04591|GAG_HV1H2	28.6	5J5T_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9Y572|RIPK3_HUMAN	sp|P04591|GAG_HV1H2	28.6	4M69_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9Y5S2|MRCKB_HUMAN	sp|P04591|GAG_HV1H2	28.6	5OTE_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9Y6E0|STK24_HUMAN	sp|P04591|GAG_HV1H2	28.6	3A7I_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9Y6K1|DNM3A_HUMAN	sp|P04591|GAG_HV1H2	28.6	6PA7_P	1L6N_A	6O9L_3	5FMF_J
+sp|Q9Y6M4|KC1G3_HUMAN	sp|P04591|GAG_HV1H2	28.6	2IZR_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9Y6R4|M3K4_HUMAN	sp|P04591|GAG_HV1H2	28.6	5FM3_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9Y6S9|RPKL1_HUMAN	sp|P04591|GAG_HV1H2	28.6	5LI9_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9Y6X9|MORC2_HUMAN	sp|P04591|GAG_HV1H2	28.6	5OFB_B	1L6N_A	4BXZ_X	5FMF_J
+tr|A0A1B0GUL7|A0A1B0GUL7_HUMAN	sp|P04591|GAG_HV1H2	28.6	3W8Q_A	1L6N_A	6O9L_8	5FMF_J
+sp|O95866|G6B_HUMAN	sp|P04578|ENV_HV1H2	28.5	6R0X_F	6PWU_E	6NNF_U	6B0N_G
+sp|P04585|POL_HV1H2	sp|A8MX76|CAN14_HUMAN	28.5	1L6N_A	1KFU_L	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P18146|EGR1_HUMAN	28.5	1L6N_A	4X9J_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8ND56|LS14A_HUMAN	28.5	1L6N_A	2VXF_A	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|Q8WXT5|FX4L4_HUMAN	28.5	1L6N_A	1JXS_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9NXA8|SIR5_HUMAN	28.5	1L6N_A	6ACL_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|A8MX76|CAN14_HUMAN	28.5	1L6N_A	1KFU_L	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|O60281|ZN292_HUMAN	28.5	1L6N_A	5YEF_A	6KF4_N	6KF4_G
+sp|P04591|GAG_HV1H2	sp|O75064|DEN4B_HUMAN	28.5	1L6N_A	6EKK_B	6KF4_N	6KF4_G
+sp|P11474|ERR1_HUMAN	sp|P04591|GAG_HV1H2	28.5	3DZY_A	1L6N_A	5OIK_Y	5FMF_J
+sp|P04591|GAG_HV1H2	sp|P61952|GBG11_HUMAN	28.5	1L6N_A	5KDO_G	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q3SY56|SP6_HUMAN	28.5	1L6N_A	2EBT_A	6KF4_N	6KF4_G
+sp|P04591|GAG_HV1H2	sp|Q6ZSZ6|TSH1_HUMAN	28.5	1L6N_A	2DMI_A	6KF4_N	6KF4_G
+sp|P04591|GAG_HV1H2	sp|Q8NB12|SMYD1_HUMAN	28.5	1L6N_A	3N71_A	6KF4_N	6KF4_G
+sp|P04591|GAG_HV1H2	sp|Q8NC24|RELL2_HUMAN	28.5	1L6N_A	5OYM_F	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q8ND56|LS14A_HUMAN	28.5	1L6N_A	2VXF_A	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|Q8WXT5|FX4L4_HUMAN	28.5	1L6N_A	1JXS_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9BSH5|HDHD3_HUMAN	28.5	1L6N_A	3K1Z_A	4QIW_N	4QIW_C
+sp|P04591|GAG_HV1H2	sp|Q9BVJ7|DUS23_HUMAN	28.5	1L6N_A	4ERC_A	4QIW_N	4QIW_C
+sp|P04591|GAG_HV1H2	sp|Q9H7Z6|KAT8_HUMAN	28.5	1L6N_A	5J9T_E	6KF4_N	6KF4_G
+sp|P04591|GAG_HV1H2	sp|Q9NRE2|TSH2_HUMAN	28.5	1L6N_A	2DMI_A	6KF4_N	6KF4_G
+sp|P04591|GAG_HV1H2	sp|Q9P0B6|CC167_HUMAN	28.5	1L6N_A	3HD7_B	5IJN_H	5IJO_G
+tr|A0A5F9ZHI8|A0A5F9ZHI8_HUMAN	sp|P04591|GAG_HV1H2	28.5	2ENN_A	1L6N_A	6O9L_3	5FMF_J
+sp|P04601|NEF_HV1H2	sp|Q6ZS11|RINL_HUMAN	28.5	3TB8_A	2EFH_A	4U5W_C	4U5W_B
+tr|A0A0A0MS05|A0A0A0MS05_HUMAN	sp|P04601|NEF_HV1H2	28.5	1YJD_C	3TB8_A	5XOV_H	3TB8_A
+sp|P04608|TAT_HV1H2	sp|O00222|GRM8_HUMAN	28.5	3MI9_C	6N4X_A	4OGR_D	4OGR_D
+sp|P05919|VPU_HV1H2	sp|P35790|CHKA_HUMAN	28.5	2N28_A	4DA5_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P63027|VAMP2_HUMAN	28.5	2N28_A	2KOG_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q86YD5|LRAD3_HUMAN	28.5	2N28_A	1N7D_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8N1N2|DYNAP_HUMAN	28.5	2N28_A	6Q53_D	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NZL4|HPBP1_HUMAN	28.5	2N28_A	1XQS_B	4P6Z_V	4P6Z_G
+sp|P69723|VIF_HV1H2	sp|Q15485|FCN2_HUMAN	28.5	4N9F_b	4R9J_A	6NIL_F	5HX4_A
+sp|Q13956|CNCG_HUMAN	sp|P04591|GAG_HV1H2	28.5	2JU4_A	1L6N_A	5W66_O	5FMF_J
+sp|Q6UX15|LAYN_HUMAN	sp|P04585|POL_HV1H2	28.5	6RYG_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q8WVE0|EFMT1_HUMAN	sp|P04618|REV_HV1H2	28.5	6UCA_B	2X7L_R	6RBD_y	5IW7_A
+sp|Q9BSY9|DESI2_HUMAN	sp|P04591|GAG_HV1H2	28.5	2WP7_A	1L6N_A	5X4Z_O	5FMF_J
+sp|Q8WVN6|SCTM1_HUMAN	sp|P04578|ENV_HV1H2	28.4	6J8H_C	6PWU_E	6UDK_H	4TVP_G
+sp|P04578|ENV_HV1H2	sp|Q99576|T22D3_HUMAN	28.4	6PWU_E	1DIP_A	2X7R_N	1FAV_A
+sp|P04578|ENV_HV1H2	sp|Q9NY43|BARH2_HUMAN	28.4	6PWU_E	1MH3_A	3U2S_C	5N2K_F
+sp|P04578|ENV_HV1H2	sp|Q9Y448|SKAP_HUMAN	28.4	6PWU_E	5IJO_G	6UJU_A	6UJU_A
+sp|P04585|POL_HV1H2	sp|A8MXD5|GRCR1_HUMAN	28.4	1L6N_A	2CT6_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|O43674|NDUB5_HUMAN	28.4	1L6N_A	6G2J_h	6HWW_C	6HWW_C
+sp|P04585|POL_HV1H2	sp|Q0IIM8|TBC8B_HUMAN	28.4	1L6N_A	4P17_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q8IYM9|TRI22_HUMAN	28.4	1L6N_A	4CFG_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9BQG1|SYT3_HUMAN	28.4	1L6N_A	1DQV_A	4RGH_A	4RGH_A
+sp|P04591|GAG_HV1H2	sp|B2RN74|O11HC_HUMAN	28.4	1L6N_A	6KUX_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|O43674|NDUB5_HUMAN	28.4	1L6N_A	6G2J_h	6HWW_C	6HWW_C
+sp|P04591|GAG_HV1H2	sp|Q0IIM8|TBC8B_HUMAN	28.4	1L6N_A	4P17_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q400G9|AMZ1_HUMAN	28.4	1L6N_A	4AXQ_A	6SW9_8	5JBH_P
+sp|Q7RTV0|PHF5A_HUMAN	sp|P04591|GAG_HV1H2	28.4	6FF4_y	1L6N_A	4BXZ_X	5FMF_J
+sp|Q8IXL7|MSRB3_HUMAN	sp|P04591|GAG_HV1H2	28.4	6Q9V_B	1L6N_A	5IYB_M	5FMF_J
+sp|Q96MM3|ZFP42_HUMAN	sp|P04591|GAG_HV1H2	28.4	1UBD_C	1L6N_A	5X51_X	5FMF_J
+sp|P04608|TAT_HV1H2	sp|Q14833|GRM4_HUMAN	28.4	3MI9_C	6N51_B	4OGR_D	4OGR_D
+sp|P04608|TAT_HV1H2	sp|Q8WXT5|FX4L4_HUMAN	28.4	3MI9_C	1JXS_A	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	tr|A0A3B3IT33|A0A3B3IT33_HUMAN	28.4	3MI9_C	4CFG_A	3MI9_C	3MI9_A
+sp|P04618|REV_HV1H2	sp|Q8IXH6|T53I2_HUMAN	28.4	2X7L_R	1NOV_B	4FTS_C	4FTE_B
+sp|P04618|REV_HV1H2	sp|Q9BS86|ZPBP1_HUMAN	28.4	2X7L_R	2V5T_A	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q9NUN5|LMBD1_HUMAN	28.4	2X7L_R	4KMC_A	4FTS_C	4FTE_B
+sp|P04618|REV_HV1H2	sp|Q9UH92|MLX_HUMAN	28.4	2X7L_R	1NLW_A	4FTS_C	4FTE_B
+sp|P04618|REV_HV1H2	sp|Q9ULN7|PNM8B_HUMAN	28.4	2X7L_R	6RXU_U	4FTS_C	4FTE_B
+sp|P05919|VPU_HV1H2	sp|Q96ET8|TV23C_HUMAN	28.4	2N28_A	6IRT_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q9H2A7|CXL16_HUMAN	28.4	2N28_A	6N2U_A	6C13_A	6C13_A
+sp|P69726|VPR_HV1H2	sp|P27169|PON1_HUMAN	28.4	1ESX_A	3SRE_A	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q9H6R7|WDCP_HUMAN	28.4	1ESX_A	5C9Z_B	5JK7_F	5JK7_E
+sp|O15350|P73_HUMAN	sp|P04591|GAG_HV1H2	28.4	5XZC_C	1L6N_A	6IR9_V	5FMF_J
+sp|Q86X10|RLGPB_HUMAN	sp|P04591|GAG_HV1H2	28.4	6SSH_A	1L6N_A	6J51_M	5FMF_J
+sp|Q8WUE5|CT55_HUMAN	sp|P04591|GAG_HV1H2	28.4	2YTV_A	1L6N_A	3HKZ_S	4AYB_N
+sp|Q92956|TNR14_HUMAN	sp|P04585|POL_HV1H2	28.4	1JMA_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q92956|TNR14_HUMAN	sp|P04591|GAG_HV1H2	28.4	1JMA_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q9Y3D6|FIS1_HUMAN	sp|P04585|POL_HV1H2	28.4	1PC2_A	1L6N_A	6URO_F	6DNH_C
+sp|Q9Y3D6|FIS1_HUMAN	sp|P04591|GAG_HV1H2	28.4	1PC2_A	1L6N_A	6URO_F	6DNH_C
+sp|P04578|ENV_HV1H2	sp|P51460|INSL3_HUMAN	28.3	6PWU_E	2K6T_B	3U2S_C	5N2K_F
+sp|P04578|ENV_HV1H2	sp|Q8TF40|FNIP1_HUMAN	28.3	6PWU_E	6NZD_I	6BSY_A	5DHX_C
+sp|P04578|ENV_HV1H2	sp|Q9P055|JKAMP_HUMAN	28.3	6PWU_E	5KZQ_A	3DNO_B	3DNO_B
+sp|P04585|POL_HV1H2	sp|O75678|RFPL2_HUMAN	28.3	1L6N_A	5HM7_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|O75925|PIAS1_HUMAN	28.3	1L6N_A	4FO9_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|O95405|ZFYV9_HUMAN	28.3	1L6N_A	4BKW_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|P60323|NANO3_HUMAN	28.3	1L6N_A	3ALR_C	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q5EBM4|ZN542_HUMAN	28.3	1L6N_A	3W5K_B	5FMF_R	5FMF_2
+sp|P04585|POL_HV1H2	sp|Q6BEB4|SP5_HUMAN	28.3	1L6N_A	3ZMS_C	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q7Z692|CEA19_HUMAN	28.3	1L6N_A	6J8H_C	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q96FA3|PELI1_HUMAN	28.3	1L6N_A	3EGA_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	tr|A0A3B3IT52|A0A3B3IT52_HUMAN	28.3	1L6N_A	2JMW_A	6BK8_O	5MQ0_t
+sp|O43597|SPY2_HUMAN	sp|P04591|GAG_HV1H2	28.3	2ZET_C	1L6N_A	6O9L_6	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q0VDD7|CS057_HUMAN	28.3	1L6N_A	3CG6_A	5IJN_H	5IJO_G
+sp|P04591|GAG_HV1H2	sp|Q13868|EXOS2_HUMAN	28.3	1L6N_A	6D6R_H	6SW9_8	3CW2_G
+sp|Q2I0M5|RSPO4_HUMAN	sp|P04591|GAG_HV1H2	28.3	4C8V_A	1L6N_A	6O9L_6	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q5F1R6|DJC21_HUMAN	28.3	1L6N_A	5DJE_B	5FMF_J	5FMF_R
+sp|P04591|GAG_HV1H2	sp|Q7Z692|CEA19_HUMAN	28.3	1L6N_A	6J8H_C	2XT1_A	6FPV_A
+sp|Q96HE9|PRR11_HUMAN	sp|P04591|GAG_HV1H2	28.3	3TU5_B	1L6N_A	6O9L_3	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9UBR4|LHX3_HUMAN	28.3	1L6N_A	2JTN_A	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	tr|A0A3B3IT52|A0A3B3IT52_HUMAN	28.3	1L6N_A	2JMW_A	6BK8_O	5MQ0_t
+sp|P04608|TAT_HV1H2	sp|Q3SYB3|FX4L6_HUMAN	28.3	3MI9_C	1JXS_A	3MI9_C	2PK2_B
+sp|P04608|TAT_HV1H2	sp|Q5VV16|FX4L5_HUMAN	28.3	3MI9_C	1JXS_A	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|Q17R55|F187B_HUMAN	28.3	2X7L_R	6OOL_A	2X7L_R	5I8O_H
+sp|P04618|REV_HV1H2	sp|Q8TF40|FNIP1_HUMAN	28.3	2X7L_R	6NZD_I	5DHX_C	5DHX_C
+sp|P05919|VPU_HV1H2	sp|Q8IX19|MCEM1_HUMAN	28.3	2N28_A	4RVY_L	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9P126|CLC1B_HUMAN	28.3	2N28_A	3C8J_D	6C13_A	6C13_A
+sp|P69723|VIF_HV1H2	sp|Q99426|TBCB_HUMAN	28.3	4N9F_b	1WHG_A	4N9F_b	2MA9_B
+sp|O95754|SEM4F_HUMAN	sp|P04585|POL_HV1H2	28.3	6QP7_B	1L6N_A	6CPL_A	2XXM_A
+sp|O95754|SEM4F_HUMAN	sp|P04591|GAG_HV1H2	28.3	6QP7_B	1L6N_A	6CPL_A	2XXM_A
+sp|P07315|CRGC_HUMAN	sp|P04591|GAG_HV1H2	28.3	2M3C_A	1L6N_A	5OQJ_2	5FMF_J
+sp|Q8N292|GAPT_HUMAN	sp|P04585|POL_HV1H2	28.3	2M0B_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q8N292|GAPT_HUMAN	sp|P04591|GAG_HV1H2	28.3	2M0B_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q9NS98|SEM3G_HUMAN	sp|P04585|POL_HV1H2	28.3	6QP7_B	1L6N_A	5T70_G	3GV2_A
+sp|Q9NS98|SEM3G_HUMAN	sp|P04591|GAG_HV1H2	28.3	6QP7_B	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q5UCC4|EMC10_HUMAN	28.2	6PWU_E	6WW7_I	6NQD_F	6NQD_F
+sp|P04578|ENV_HV1H2	sp|Q9BQI4|CCDC3_HUMAN	28.2	6PWU_E	4OWI_B	2X7R_N	1FAV_A
+sp|P04585|POL_HV1H2	sp|A0PG75|PLS5_HUMAN	28.2	1L6N_A	1ZXU_A	6ICZ_Z	6ID1_N
+sp|P04585|POL_HV1H2	sp|P26447|S10A4_HUMAN	28.2	1L6N_A	4CFR_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q12841|FSTL1_HUMAN	28.2	1L6N_A	1NUB_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q15743|OGR1_HUMAN	28.2	1L6N_A	5ZKP_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q53FZ2|ACSM3_HUMAN	28.2	1L6N_A	3B7W_A	5FMF_R	5FMF_S
+sp|P04585|POL_HV1H2	sp|Q6NXP0|EFC12_HUMAN	28.2	1L6N_A	6U42_6	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q6ZUT6|CCD9B_HUMAN	28.2	1L6N_A	6GB2_B	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q6ZV70|LANC3_HUMAN	28.2	1L6N_A	3T33_A	6HWI_B	6HWI_B
+sp|P04585|POL_HV1H2	sp|Q8IYU8|MICU2_HUMAN	28.2	1L6N_A	6WDN_A	2MGU_M	5DOW_A
+sp|Q92613|JADE3_HUMAN	sp|P04585|POL_HV1H2	28.2	5DAG_A	1L6N_A	5FMF_I	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q96HE7|ERO1A_HUMAN	28.2	1L6N_A	3AHQ_A	6ICZ_Z	6ID1_O
+sp|Q9BZA0|TTY10_HUMAN	sp|P04585|POL_HV1H2	28.2	1A6B_B	1L6N_A	5W0M_A	5W0N_B
+sp|Q9HCI7|MSL2_HUMAN	sp|P04585|POL_HV1H2	28.2	4RKH_D	1L6N_A	5FMF_I	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q9UJW3|DNM3L_HUMAN	28.2	1L6N_A	2PV0_B	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|A0PG75|PLS5_HUMAN	28.2	1L6N_A	1ZXU_A	6ICZ_Z	6ID1_N
+sp|A1L4L8|PL8L1_HUMAN	sp|P04591|GAG_HV1H2	28.2	6O9L_4	1L6N_A	6O9L_4	5FMF_J
+sp|P0C7V7|SC11B_HUMAN	sp|P04591|GAG_HV1H2	28.2	4ME8_A	1L6N_A	5JB3_E	6SW9_8
+sp|P20333|TNR1B_HUMAN	sp|P04591|GAG_HV1H2	28.2	2UWI_B	1L6N_A	5IYB_M	5FMF_J
+sp|P04591|GAG_HV1H2	sp|P26447|S10A4_HUMAN	28.2	1L6N_A	4CFR_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P46783|RS10_HUMAN	28.2	1L6N_A	6EK0_S	5FMF_J	5FMF_R
+sp|P04591|GAG_HV1H2	sp|Q12841|FSTL1_HUMAN	28.2	1L6N_A	1NUB_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q15743|OGR1_HUMAN	28.2	1L6N_A	5ZKP_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q53FZ2|ACSM3_HUMAN	28.2	1L6N_A	3B7W_A	5FMF_R	5FMF_S
+sp|P04591|GAG_HV1H2	sp|Q6NXP0|EFC12_HUMAN	28.2	1L6N_A	6U42_6	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q6ZUT6|CCD9B_HUMAN	28.2	1L6N_A	6GB2_B	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q6ZV70|LANC3_HUMAN	28.2	1L6N_A	3T33_A	6HWI_B	6HWI_B
+sp|P04591|GAG_HV1H2	sp|Q8IYU8|MICU2_HUMAN	28.2	1L6N_A	6WDN_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q96HE7|ERO1A_HUMAN	28.2	1L6N_A	3AHQ_A	6ICZ_Z	6ID1_O
+sp|Q9BZA0|TTY10_HUMAN	sp|P04591|GAG_HV1H2	28.2	1A6B_B	1L6N_A	5W0M_A	5W0N_B
+sp|P05919|VPU_HV1H2	sp|Q04900|MUC24_HUMAN	28.2	2N28_A	2LX0_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q16790|CAH9_HUMAN	28.2	2N28_A	3IAI_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6PI77|BHLH9_HUMAN	28.2	2N28_A	5MFO_F	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q9UH62|ARMX3_HUMAN	28.2	2N28_A	3TT9_A	4P6Z_V	4P6Z_G
+sp|P69723|VIF_HV1H2	sp|O00244|ATOX1_HUMAN	28.2	4N9F_b	6FU9_C	6NIL_F	5HX4_A
+sp|P69723|VIF_HV1H2	sp|Q06546|GABPA_HUMAN	28.2	4N9F_b	1AWC_A	4N9F_b	2MA9_B
+sp|P69723|VIF_HV1H2	sp|Q9Y3I1|FBX7_HUMAN	28.2	4N9F_b	4L9H_A	4N9F_b	2MA9_B
+sp|P69726|VPR_HV1H2	sp|Q9UKW6|ELF5_HUMAN	28.2	1ESX_A	1WWX_A	5AJA_B	5AJA_C
+sp|Q6UX52|IL40_HUMAN	sp|P04585|POL_HV1H2	28.2	1FNL_A	1L6N_A	5T70_G	3GV2_A
+sp|Q6UX52|IL40_HUMAN	sp|P04591|GAG_HV1H2	28.2	1FNL_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9BXN2|CLC7A_HUMAN	sp|P04585|POL_HV1H2	28.2	2CL8_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q9BXN2|CLC7A_HUMAN	sp|P04591|GAG_HV1H2	28.2	2CL8_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q9NRM6|I17RB_HUMAN	sp|P04585|POL_HV1H2	28.2	3JVF_C	1L6N_A	6CPL_A	2XXM_A
+sp|Q9NRM6|I17RB_HUMAN	sp|P04591|GAG_HV1H2	28.2	3JVF_C	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|O75319|DUS11_HUMAN	28.1	6PWU_E	4NYH_A	3DNO_B	3DNO_B
+sp|P04578|ENV_HV1H2	sp|Q6X784|ZPBP2_HUMAN	28.1	6PWU_E	2E4X_B	6NIJ_B	3U1S_H
+sp|Q96E09|F122A_HUMAN	sp|P04578|ENV_HV1H2	28.1	6H3T_I	6PWU_E	6NM6_D	6MTJ_B
+sp|P04578|ENV_HV1H2	sp|Q9P0K8|FOXJ2_HUMAN	28.1	6PWU_E	1JXS_A	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|P04271|S100B_HUMAN	28.1	1L6N_A	5D7F_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P31270|HXA11_HUMAN	28.1	1L6N_A	3NAR_B	6ICZ_Z	6ID1_T
+sp|P04585|POL_HV1H2	sp|Q6MZZ7|CAN13_HUMAN	28.1	1L6N_A	1KFU_L	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q8NI22|MCFD2_HUMAN	28.1	1L6N_A	2VRG_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q8WVF1|OSCP1_HUMAN	28.1	1L6N_A	1J22_A	6ICZ_Z	6ID1_P
+sp|P04585|POL_HV1H2	sp|Q9NWW7|CB042_HUMAN	28.1	1L6N_A	2EY4_F	5FMF_R	5FMF_2
+sp|Q9UIG0|BAZ1B_HUMAN	sp|P04585|POL_HV1H2	28.1	5PYP_A	1L6N_A	5FMF_L	5FMF_R
+sp|A0A1B0GVX0|LITAD_HUMAN	sp|P04591|GAG_HV1H2	28.1	6PLN_B	1L6N_A	3H0G_L	5FMF_J
+sp|P04591|GAG_HV1H2	sp|P04271|S100B_HUMAN	28.1	1L6N_A	5D7F_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P20823|HNF1A_HUMAN	28.1	1L6N_A	1IC8_B	6KF4_N	6KF4_G
+sp|P04591|GAG_HV1H2	sp|P31270|HXA11_HUMAN	28.1	1L6N_A	3NAR_B	6ICZ_Z	6ID1_T
+sp|P04591|GAG_HV1H2	sp|Q6MZZ7|CAN13_HUMAN	28.1	1L6N_A	1KFU_L	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8NI22|MCFD2_HUMAN	28.1	1L6N_A	2VRG_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8WVF1|OSCP1_HUMAN	28.1	1L6N_A	1J22_A	6ICZ_Z	6ID1_P
+sp|P04591|GAG_HV1H2	sp|Q8WW18|CQ050_HUMAN	28.1	1L6N_A	2MVW_B	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q96A25|T106A_HUMAN	28.1	1L6N_A	2BX9_C	3A43_A	3A43_A
+sp|Q9BY42|RTF2_HUMAN	sp|P04591|GAG_HV1H2	28.1	4WZ3_B	1L6N_A	6O9L_3	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9NP62|GCM1_HUMAN	28.1	1L6N_A	1ODH_A	6KF4_N	6KF4_G
+sp|P04618|REV_HV1H2	sp|A1L1A6|IGS23_HUMAN	28.1	2X7L_R	5A2F_A	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|O75871|CEAM4_HUMAN	28.1	2X7L_R	6JXR_f	6CF2_F	5DHY_A
+sp|P05919|VPU_HV1H2	sp|O00458|IFRD1_HUMAN	28.1	2N28_A	6MTC_v	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|P52951|GBX2_HUMAN	28.1	2N28_A	5WC9_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6UXV1|IZUM2_HUMAN	28.1	2N28_A	5JK9_D	6C13_A	6C13_A
+sp|P61769|B2MG_HUMAN	sp|P04601|NEF_HV1H2	28.1	5J1A_B	3TB8_A	5XOV_H	3TB8_A
+sp|Q99576|T22D3_HUMAN	sp|P04591|GAG_HV1H2	28.1	1DIP_A	1L6N_A	5OQM_h	5FMF_J
+sp|Q9ULR5|PAI2B_HUMAN	sp|P04591|GAG_HV1H2	28.1	6CB1_s	1L6N_A	6EM5_m	5UDH_B
+sp|Q66K64|DCA15_HUMAN	sp|P04578|ENV_HV1H2	28.0	6UD7_A	6PWU_E	6NM6_D	6MTJ_B
+sp|P04578|ENV_HV1H2	sp|Q9Y5Q3|MAFB_HUMAN	28.0	6PWU_E	1K1V_A	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|O75937|DNJC8_HUMAN	28.0	1L6N_A	6U3S_A	3HPG_B	6EMQ_A
+sp|P04585|POL_HV1H2	sp|Q15111|PLCL1_HUMAN	28.0	1L6N_A	2ZKM_X	2MGU_M	5DOW_A
+sp|Q6ZRF8|RN207_HUMAN	sp|P04585|POL_HV1H2	28.0	6H3A_F	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q96DD7|SHSA4_HUMAN	28.0	1L6N_A	5M0W_A	6ICZ_Z	6ID1_O
+sp|Q9BS86|ZPBP1_HUMAN	sp|P04585|POL_HV1H2	28.0	2V5T_A	1L6N_A	5T70_G	3GV2_A
+sp|Q9Y4G2|PKHM1_HUMAN	sp|P04585|POL_HV1H2	28.0	6WCW_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04591|GAG_HV1H2	sp|O95785|WIZ_HUMAN	28.0	1L6N_A	5V3J_F	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q15111|PLCL1_HUMAN	28.0	1L6N_A	2ZKM_X	2MGU_M	5DOW_A
+sp|Q86SQ3|AGRE4_HUMAN	sp|P04591|GAG_HV1H2	28.0	6FJ3_A	1L6N_A	6O9L_4	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q96DD7|SHSA4_HUMAN	28.0	1L6N_A	5M0W_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9H171|ZBP1_HUMAN	28.0	1L6N_A	2L4M_A	6KF4_N	6KF4_G
+sp|P04601|NEF_HV1H2	sp|O15117|FYB1_HUMAN	28.0	3TB8_A	2GTJ_A	4U5W_C	4U5W_B
+sp|P04618|REV_HV1H2	tr|A0A1W2PQM1|A0A1W2PQM1_HUMAN	28.0	2X7L_R	1B6U_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q8IUN9|CLC10_HUMAN	28.0	2N28_A	5G6U_A	6C14_A	6C14_A
+sp|P69726|VPR_HV1H2	sp|Q12929|EPS8_HUMAN	28.0	1ESX_A	1WWU_A	5AJA_B	5AJA_C
+sp|P06127|CD5_HUMAN	sp|P04585|POL_HV1H2	28.0	2JP0_A	1L6N_A	6CPL_A	2XXM_A
+sp|P06127|CD5_HUMAN	sp|P04591|GAG_HV1H2	28.0	2JP0_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q8N111|CEND_HUMAN	sp|P04585|POL_HV1H2	28.0	6A69_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q8N111|CEND_HUMAN	sp|P04591|GAG_HV1H2	28.0	6A69_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q9HBU6|EKI1_HUMAN	sp|P04591|GAG_HV1H2	28.0	1NW1_B	1L6N_A	6O9L_8	5FMF_J
+sp|Q9HC73|CRLF2_HUMAN	sp|P04585|POL_HV1H2	28.0	5J11_C	1L6N_A	6CPL_A	2XXM_A
+sp|Q9HC73|CRLF2_HUMAN	sp|P04591|GAG_HV1H2	28.0	5J11_C	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|Q16534|HLF_HUMAN	27.9	6PWU_E	4U5T_B	2X7R_N	1FAV_A
+sp|P04578|ENV_HV1H2	sp|Q9Y605|MOFA1_HUMAN	27.9	6PWU_E	2JST_A	6DCQ_D	4TVP_G
+sp|P04585|POL_HV1H2	sp|P49716|CEBPD_HUMAN	27.9	1L6N_A	1H89_A	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q13888|TF2H2_HUMAN	27.9	1L6N_A	6O9L_6	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q6P1K8|T2H2L_HUMAN	27.9	1L6N_A	6O9L_6	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8IYB5|SMAP1_HUMAN	27.9	1L6N_A	2CRR_A	1NUI_A	1NUI_A
+sp|Q99469|STAC_HUMAN	sp|P04585|POL_HV1H2	27.9	6UY9_A	1L6N_A	5FMF_I	5FMF_R
+sp|Q9BYM8|HOIL1_HUMAN	sp|P04585|POL_HV1H2	27.9	4ZYN_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04591|GAG_HV1H2	sp|O00204|ST2B1_HUMAN	27.9	1L6N_A	1Q1Q_A	6SW9_8	5JBH_G
+sp|P04591|GAG_HV1H2	sp|O60232|ZNRD2_HUMAN	27.9	1L6N_A	6HCZ_B	6HTJ_A	6HTJ_A
+sp|P04591|GAG_HV1H2	sp|Q14681|KCTD2_HUMAN	27.9	1L6N_A	3DRX_B	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q6NZ63|STEAL_HUMAN	27.9	1L6N_A	6Y9B_B	6SW9_8	6SWC_T
+sp|P04591|GAG_HV1H2	sp|Q8IYB5|SMAP1_HUMAN	27.9	1L6N_A	2CRR_A	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|Q8WVZ1|ZDH19_HUMAN	27.9	1L6N_A	6BML_B	6HTJ_A	6HTJ_A
+sp|P04591|GAG_HV1H2	sp|Q92619|HMHA1_HUMAN	27.9	1L6N_A	1XA6_A	6HTJ_A	6HTJ_A
+sp|P04591|GAG_HV1H2	sp|Q9H0P0|5NT3A_HUMAN	27.9	1L6N_A	2G09_A	4QIW_N	4QIW_N
+sp|P04591|GAG_HV1H2	sp|Q9Y6E7|SIR4_HUMAN	27.9	1L6N_A	5OJ7_A	3A43_A	3A43_A
+sp|P04601|NEF_HV1H2	sp|Q8IYV9|IZUM1_HUMAN	27.9	3TB8_A	5F4E_A	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|O60942|MCE1_HUMAN	27.9	3MI9_C	3RTX_A	3TY9_C	3TY9_C
+sp|P04608|TAT_HV1H2	sp|P18858|DNLI1_HUMAN	27.9	3MI9_C	6P0E_A	3TY9_C	3TY9_C
+sp|P04608|TAT_HV1H2	sp|P49916|DNLI3_HUMAN	27.9	3MI9_C	3L2P_A	3TY9_C	3TY9_C
+sp|P04608|TAT_HV1H2	sp|P49917|DNLI4_HUMAN	27.9	3MI9_C	3W1B_A	3TY9_C	3TY9_C
+sp|P04608|TAT_HV1H2	sp|Q49A92|CH034_HUMAN	27.9	3MI9_C	5HVZ_A	3TY9_C	3TY9_C
+sp|P04618|REV_HV1H2	sp|A8MXK1|VSTM5_HUMAN	27.9	2X7L_R	6J8H_C	2X7L_R	5I8O_L
+sp|P05919|VPU_HV1H2	sp|Q5T7R7|CA185_HUMAN	27.9	2N28_A	1IIJ_A	6C13_A	6C13_A
+sp|P69723|VIF_HV1H2	sp|Q5VVQ6|OTU1_HUMAN	27.9	4N9F_b	3C0R_C	4N9F_b	2MA9_B
+sp|Q7Z5Y7|KCD20_HUMAN	sp|P69723|VIF_HV1H2	27.9	1DSX_E	4N9F_b	6P59_Z	6P59_B
+sp|P28300|LYOX_HUMAN	sp|P04591|GAG_HV1H2	27.9	5ZE3_A	1L6N_A	6IR9_V	5FMF_J
+sp|Q6ZUX7|LHPL2_HUMAN	sp|P69726|VPR_HV1H2	27.9	6C14_D	1ESX_A	4Z8L_B	5AJA_B
+sp|Q8IXF0|NPAS3_HUMAN	sp|P04578|ENV_HV1H2	27.9	5SY7_B	6PWU_E	6NM6_D	6MTJ_B
+sp|P04578|ENV_HV1H2	sp|Q9BQG1|SYT3_HUMAN	27.8	6PWU_E	1DQV_A	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|P49642|PRI1_HUMAN	27.8	1L6N_A	6RB4_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q8IUQ4|SIAH1_HUMAN	27.8	1L6N_A	4CA1_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q9H444|CHM4B_HUMAN	27.8	1L6N_A	3FRT_A	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q9P0U3|SENP1_HUMAN	27.8	1L6N_A	2IYC_A	4RGH_A	4RGH_A
+sp|P04591|GAG_HV1H2	sp|O43900|PRIC3_HUMAN	27.8	1L6N_A	2JTN_A	5FMF_J	5FMF_R
+sp|Q93063|EXT2_HUMAN	sp|P04591|GAG_HV1H2	27.8	1ON8_A	1L6N_A	5XOG_M	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9UNN5|FAF1_HUMAN	27.8	1L6N_A	2EC4_A	5TTE_B	4II2_B
+sp|Q8N2F6|ARM10_HUMAN	sp|P04601|NEF_HV1H2	27.8	3TT9_A	3TB8_A	4NEE_G	3TB8_A
+sp|P04608|TAT_HV1H2	sp|P00739|HPTR_HUMAN	27.8	3MI9_C	4WJG_R	4E6N_C	4E6N_D
+sp|P04608|TAT_HV1H2	sp|P41235|HNF4A_HUMAN	27.8	3MI9_C	4IQR_F	4E6N_C	4E6N_D
+sp|P04608|TAT_HV1H2	sp|Q99538|LGMN_HUMAN	27.8	3MI9_C	4NOM_A	4E6N_C	4E6N_D
+sp|P04608|TAT_HV1H2	tr|A0A5F9ZHU2|A0A5F9ZHU2_HUMAN	27.8	3MI9_C	4E6N_D	4E6N_C	4E6N_D
+sp|P04618|REV_HV1H2	sp|P61769|B2MG_HUMAN	27.8	2X7L_R	5J1A_B	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|P43119|PI2R_HUMAN	27.8	2N28_A	3EML_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6PEY1|TMM88_HUMAN	27.8	2N28_A	3J9W_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q6ZVX7|FBX50_HUMAN	27.8	2N28_A	3WSO_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8WWG9|KCNE4_HUMAN	27.8	2N28_A	2M0Q_A	6C13_A	6C13_A
+sp|O14944|EREG_HUMAN	sp|P04585|POL_HV1H2	27.8	5E8D_A	1L6N_A	6CPL_A	2XXM_A
+sp|O14944|EREG_HUMAN	sp|P04591|GAG_HV1H2	27.8	5E8D_A	1L6N_A	6CPL_A	2XXM_A
+tr|A0A140T8X8|A0A140T8X8_HUMAN	sp|P04585|POL_HV1H2	27.8	6C14_A	1L6N_A	6CPL_A	2XXM_A
+tr|A0A140T8X8|A0A140T8X8_HUMAN	sp|P04591|GAG_HV1H2	27.8	6C14_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|P0C2L3|F163B_HUMAN	27.7	6PWU_E	5XSY_B	6DCQ_D	6DCQ_D
+sp|P04578|ENV_HV1H2	sp|P18669|PGAM1_HUMAN	27.7	6PWU_E	6H26_A	6P6F_A	2OBX_A
+sp|Q5TF21|SOGA3_HUMAN	sp|P04578|ENV_HV1H2	27.7	6U42_7	6PWU_E	6NM6_D	6MTJ_B
+sp|P04585|POL_HV1H2	sp|O75800|ZMY10_HUMAN	27.7	1L6N_A	2DJ8_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|P0CG40|SP9_HUMAN	27.7	1L6N_A	2WBS_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q15043|S39AE_HUMAN	27.7	1L6N_A	5TSA_A	4RGH_A	4RGH_A
+sp|Q17R55|F187B_HUMAN	sp|P04585|POL_HV1H2	27.7	6OOL_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|Q8WV60|PTCD2_HUMAN	27.7	1L6N_A	6GAZ_A	6BK8_O	6J6H_d
+sp|P04585|POL_HV1H2	sp|Q92530|PSMF1_HUMAN	27.7	1L6N_A	4OUH_D	5FMF_R	5FMF_2
+sp|Q96BD5|PF21A_HUMAN	sp|P04585|POL_HV1H2	27.7	2LRI_C	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q9BTU6|P4K2A_HUMAN	27.7	1L6N_A	5I0N_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9NQ32|CK016_HUMAN	27.7	1L6N_A	4UC4_A	5FMF_R	5FMF_2
+sp|P04591|GAG_HV1H2	sp|O43609|SPY1_HUMAN	27.7	1L6N_A	1VD4_A	6KF4_N	6KF4_G
+sp|P04591|GAG_HV1H2	sp|P25490|TYY1_HUMAN	27.7	1L6N_A	4C5H_B	6SW9_8	6SW9_C
+sp|Q17R55|F187B_HUMAN	sp|P04591|GAG_HV1H2	27.7	6OOL_A	1L6N_A	5T70_G	3GV2_A
+sp|Q5HYI7|MTX3_HUMAN	sp|P04591|GAG_HV1H2	27.7	4YAN_C	1L6N_A	3CW2_N	6SW9_8
+sp|P04591|GAG_HV1H2	sp|Q6ZWK4|RHEX_HUMAN	27.7	1L6N_A	3BQZ_A	6SW9_8	6SW9_E
+sp|P04591|GAG_HV1H2	sp|Q8WV60|PTCD2_HUMAN	27.7	1L6N_A	6GAZ_A	6BK8_O	6J6H_d
+sp|P04591|GAG_HV1H2	sp|Q96RD7|PANX1_HUMAN	27.7	1L6N_A	6M02_E	4AYB_N	4AYB_K
+sp|P04591|GAG_HV1H2	sp|Q9BTP6|ZBED2_HUMAN	27.7	1L6N_A	2DJR_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q9BTU6|P4K2A_HUMAN	27.7	1L6N_A	5I0N_A	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|Q9NRC8|SIR7_HUMAN	27.7	1L6N_A	3PKI_A	6SW9_8	5JB3_Y
+sp|P04591|GAG_HV1H2	sp|Q9NXR7|BABA2_HUMAN	27.7	1L6N_A	6GVW_C	5TTE_B	6XXU_A
+sp|P04618|REV_HV1H2	sp|Q6GTX8|LAIR1_HUMAN	27.7	2X7L_R	5OR7_C	2X7L_R	5I8O_L
+sp|Q6PI47|KCD18_HUMAN	sp|P69723|VIF_HV1H2	27.7	1DSX_E	4N9F_b	6P59_Z	6P59_B
+sp|Q96C12|ARMC5_HUMAN	sp|P69723|VIF_HV1H2	27.7	3NMZ_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q6ZVK8|NUD18_HUMAN	27.7	1ESX_A	3GG6_A	4Z8L_B	5AJA_B
+sp|P69726|VPR_HV1H2	sp|Q9H8H0|NOL11_HUMAN	27.7	1ESX_A	6RXV_U	5JK7_F	5JK7_E
+sp|O15155|BET1_HUMAN	sp|P04591|GAG_HV1H2	27.7	1GL2_D	1L6N_A	4C2M_2	5FMF_J
+sp|Q96CX2|KCD12_HUMAN	sp|P04591|GAG_HV1H2	27.7	6QB7_B	1L6N_A	5FJA_Q	5FMF_J
+tr|A0A0G2JQF1|A0A0G2JQF1_HUMAN	sp|P04591|GAG_HV1H2	27.7	6O9L_6	1L6N_A	6O9L_6	5FMF_J
+sp|P04578|ENV_HV1H2	sp|A6NKF7|TM88B_HUMAN	27.6	6PWU_E	6FF0_A	6DCQ_D	6DCQ_D
+sp|P04578|ENV_HV1H2	sp|Q9Y3Q8|T22D4_HUMAN	27.6	6PWU_E	1DIP_A	2X7R_N	1FAV_A
+sp|P04585|POL_HV1H2	sp|O60784|TOM1_HUMAN	27.6	1L6N_A	1ELK_A	5FMF_R	5FMF_2
+sp|P04259|K2C6B_HUMAN	sp|P04585|POL_HV1H2	27.6	3TNU_A	1L6N_A	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|P48668|K2C6C_HUMAN	27.6	1L6N_A	3TNU_A	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|Q08495|DEMA_HUMAN	27.6	1L6N_A	1ZV6_A	6BK8_O	5YLZ_T
+sp|Q6ZMZ0|RN19B_HUMAN	sp|P04585|POL_HV1H2	27.6	5C1Z_B	1L6N_A	5FMF_I	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q9NP84|TNR12_HUMAN	27.6	1L6N_A	2KMZ_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|A0A494C0N9|F246B_HUMAN	27.6	1L6N_A	6ZFF_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|A0A494C0Y3|F246A_HUMAN	27.6	1L6N_A	6ZFF_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q08495|DEMA_HUMAN	27.6	1L6N_A	1ZV6_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9NP84|TNR12_HUMAN	27.6	1L6N_A	2KMZ_A	4ESJ_B	4KYW_A
+sp|Q9Y4X4|KLF12_HUMAN	sp|P04591|GAG_HV1H2	27.6	2EBT_A	1L6N_A	3PO2_L	5FMF_J
+sp|P04601|NEF_HV1H2	sp|Q6GTX8|LAIR1_HUMAN	27.6	3TB8_A	5OR7_C	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|P40198|CEAM3_HUMAN	27.6	2X7L_R	1E07_A	6CF2_F	5DHY_A
+sp|P05919|VPU_HV1H2	sp|P55087|AQP4_HUMAN	27.6	2N28_A	2D57_A	6C14_A	6C14_D
+sp|P69726|VPR_HV1H2	sp|Q15572|TAF1C_HUMAN	27.6	1ESX_A	5O7X_A	5JK7_F	5JK7_E
+sp|P04183|KITH_HUMAN	sp|P04601|NEF_HV1H2	27.6	2ORV_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P50281|MMP14_HUMAN	sp|P04585|POL_HV1H2	27.6	1SU3_B	1L6N_A	6CPL_A	2XXM_A
+sp|P50281|MMP14_HUMAN	sp|P04591|GAG_HV1H2	27.6	1SU3_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q93098|WNT8B_HUMAN	sp|P04591|GAG_HV1H2	27.6	4F0A_B	1L6N_A	3H0G_L	5FMF_J
+sp|Q9BQ83|SLX1_HUMAN	sp|P04591|GAG_HV1H2	27.6	6SEI_A	1L6N_A	6O9L_3	5FMF_J
+sp|Q9UD71|PPR1B_HUMAN	sp|P04591|GAG_HV1H2	27.6	5OV3_A	1L6N_A	6TUT_Q	5FMF_J
+sp|P04585|POL_HV1H2	sp|Q00987|MDM2_HUMAN	27.5	1L6N_A	5SWK_B	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q5VXU3|CHIC1_HUMAN	27.5	1L6N_A	6GMH_Z	6BK8_O	6J6G_S
+sp|Q8IX05|CD302_HUMAN	sp|P04585|POL_HV1H2	27.5	2NAN_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|Q8IXL9|IQCF2_HUMAN	27.5	1L6N_A	2DFS_M	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q8IXZ3|SP8_HUMAN	27.5	1L6N_A	2WBS_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8N0U7|CA087_HUMAN	27.5	1L6N_A	6U42_6	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q8WYK2|JDP2_HUMAN	27.5	1L6N_A	1HJB_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9BRV8|SIKE1_HUMAN	27.5	1L6N_A	6AKM_A	6HWW_C	6HWW_C
+sp|P04585|POL_HV1H2	sp|Q9H0P0|5NT3A_HUMAN	27.5	1L6N_A	2G09_A	5FMF_R	5FMF_J
+sp|P04585|POL_HV1H2	sp|Q9NTG7|SIR3_HUMAN	27.5	1L6N_A	4BN4_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q8IXL9|IQCF2_HUMAN	27.5	1L6N_A	2DFS_M	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q8N0U7|CA087_HUMAN	27.5	1L6N_A	6U42_6	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8WYK2|JDP2_HUMAN	27.5	1L6N_A	1HJB_B	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9BR01|ST4A1_HUMAN	27.5	1L6N_A	1ZD1_A	6SW9_8	5JBH_Q
+sp|P04601|NEF_HV1H2	sp|Q53RT3|APRV1_HUMAN	27.5	3TB8_A	3SQF_B	3IK5_A	3IOZ_B
+sp|P05919|VPU_HV1H2	sp|O00744|WN10B_HUMAN	27.5	2N28_A	6AHY_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q5GH72|XKR7_HUMAN	27.5	2N28_A	6MG8_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9NQ60|EQTN_HUMAN	27.5	2N28_A	3IPD_E	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UF47|DNJ5B_HUMAN	27.5	2N28_A	2N05_A	6C13_A	6C13_A
+sp|P25942|TNR5_HUMAN	sp|P04585|POL_HV1H2	27.5	4MXW_R	1L6N_A	6CPL_A	2XXM_A
+sp|P25942|TNR5_HUMAN	sp|P04591|GAG_HV1H2	27.5	4MXW_R	1L6N_A	6CPL_A	2XXM_A
+sp|Q8IX05|CD302_HUMAN	sp|P04591|GAG_HV1H2	27.5	2NAN_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q8N387|MUC15_HUMAN	sp|P04585|POL_HV1H2	27.5	2KNC_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q8N387|MUC15_HUMAN	sp|P04591|GAG_HV1H2	27.5	2KNC_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|A0A1B0GVX0|LITAD_HUMAN	27.4	1L6N_A	6PLN_B	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|O75192|PX11A_HUMAN	27.4	1L6N_A	6Q6H_D	6T61_E	6T61_E
+sp|P04591|GAG_HV1H2	sp|A0A0U1RQI7|KLF18_HUMAN	27.4	1L6N_A	3W5K_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O75192|PX11A_HUMAN	27.4	1L6N_A	6Q6H_D	6T61_E	6T61_E
+sp|P04591|GAG_HV1H2	sp|P19544|WT1_HUMAN	27.4	1L6N_A	6B0O_A	6SW9_8	6SW9_C
+sp|Q969R8|ITFG2_HUMAN	sp|P04591|GAG_HV1H2	27.4	4YD8_A	1L6N_A	6EM5_p	5UDH_B
+sp|Q99598|TSNAX_HUMAN	sp|P04591|GAG_HV1H2	27.4	3PJA_L	1L6N_A	6IR9_V	5FMF_J
+sp|Q9Y5T5|UBP16_HUMAN	sp|P04591|GAG_HV1H2	27.4	6TBM_Q	1L6N_A	1TWF_L	5FMF_J
+sp|P04601|NEF_HV1H2	sp|O00458|IFRD1_HUMAN	27.4	3TB8_A	6MTC_v	6CRI_Z	6CRI_I
+sp|P04601|NEF_HV1H2	sp|Q16674|MIA_HUMAN	27.4	3TB8_A	5IXB_B	4U5W_C	4U5W_B
+sp|P05919|VPU_HV1H2	sp|A8MZ97|CB074_HUMAN	27.4	2N28_A	6JXR_n	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|O00222|GRM8_HUMAN	27.4	2N28_A	6N4X_A	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|O15303|GRM6_HUMAN	27.4	2N28_A	6N4X_A	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|O15399|NMDE4_HUMAN	27.4	2N28_A	4TLM_D	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|O43424|GRID2_HUMAN	27.4	2N28_A	6LU9_D	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|O60391|NMD3B_HUMAN	27.4	2N28_A	4TLL_D	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|O75899|GABR2_HUMAN	27.4	2N28_A	6W2X_B	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|P17342|ANPRC_HUMAN	27.4	2N28_A	1JDP_A	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|P39086|GRIK1_HUMAN	27.4	2N28_A	6JFY_A	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|P41180|CASR_HUMAN	27.4	2N28_A	5K5T_A	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|P41594|GRM5_HUMAN	27.4	2N28_A	6N52_B	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|P42261|GRIA1_HUMAN	27.4	2N28_A	6PEQ_D	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|P42262|GRIA2_HUMAN	27.4	2N28_A	6PEQ_D	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|P42263|GRIA3_HUMAN	27.4	2N28_A	6PEQ_D	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|P48058|GRIA4_HUMAN	27.4	2N28_A	4U4G_D	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q05586|NMDZ1_HUMAN	27.4	2N28_A	5UOW_C	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q12879|NMDE1_HUMAN	27.4	2N28_A	5IOV_B	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q13002|GRIK2_HUMAN	27.4	2N28_A	5KUH_C	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q13003|GRIK3_HUMAN	27.4	2N28_A	6JFY_A	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q13224|NMDE2_HUMAN	27.4	2N28_A	4TLL_D	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q13255|GRM1_HUMAN	27.4	2N28_A	6N4X_A	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q14416|GRM2_HUMAN	27.4	2N28_A	6N4X_A	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q14831|GRM7_HUMAN	27.4	2N28_A	6N4X_A	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q14832|GRM3_HUMAN	27.4	2N28_A	6N4X_A	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q14833|GRM4_HUMAN	27.4	2N28_A	6N51_B	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q14957|NMDE3_HUMAN	27.4	2N28_A	4TLM_D	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q16478|GRIK5_HUMAN	27.4	2N28_A	6JFY_A	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q16637|SMN_HUMAN	27.4	2N28_A	4V98_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q5T6X5|GPC6A_HUMAN	27.4	2N28_A	6N4X_A	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q7RTX0|TS1R3_HUMAN	27.4	2N28_A	6N52_B	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q7RTX1|TS1R1_HUMAN	27.4	2N28_A	6N4X_A	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q8NC01|CLC1A_HUMAN	27.4	2N28_A	3C8J_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8TCU5|NMD3A_HUMAN	27.4	2N28_A	4TLM_D	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q8TE23|TS1R2_HUMAN	27.4	2N28_A	6N4X_A	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q9UBS5|GABR1_HUMAN	27.4	2N28_A	6W2Y_A	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q9ULK0|GRID1_HUMAN	27.4	2N28_A	6KSP_B	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q9Y3A6|TMED5_HUMAN	27.4	2N28_A	5GU5_A	5KUH_C	5KUH_C
+sp|Q9P203|BTBD7_HUMAN	sp|P69723|VIF_HV1H2	27.4	4U2N_A	4N9F_b	6P59_Z	6P59_B
+sp|P69726|VPR_HV1H2	sp|Q02252|MMSA_HUMAN	27.4	1ESX_A	4ZZ7_F	4CC9_B	4CC9_C
+sp|P69726|VPR_HV1H2	sp|Q9UKN8|TF3C4_HUMAN	27.4	1ESX_A	2J04_A	5JK7_F	5JK7_E
+sp|P69726|VPR_HV1H2	sp|Q9Y468|LMBL1_HUMAN	27.4	1ESX_A	2RHI_A	5AJA_B	5AJA_C
+sp|P09496|CLCA_HUMAN	sp|P04591|GAG_HV1H2	27.4	6SCT_I	1L6N_A	5OQM_n	5FMF_J
+sp|P15529|MCP_HUMAN	sp|P04585|POL_HV1H2	27.4	3O8E_B	1L6N_A	6CPL_A	2XXM_A
+sp|P15529|MCP_HUMAN	sp|P04591|GAG_HV1H2	27.4	3O8E_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q5SSG8|MUC21_HUMAN	sp|P04585|POL_HV1H2	27.4	6C14_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q5SSG8|MUC21_HUMAN	sp|P04591|GAG_HV1H2	27.4	6C14_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q5UCC4|EMC10_HUMAN	sp|P04591|GAG_HV1H2	27.4	6WW7_I	1L6N_A	5FJA_Q	5FMF_J
+sp|Q8IWW8|HOT_HUMAN	sp|P05919|VPU_HV1H2	27.4	3BFJ_R	2N28_A	3H6G_A	5KUH_C
+tr|A0A0G2JKD1|A0A0G2JKD1_HUMAN	sp|P04585|POL_HV1H2	27.4	6C14_A	1L6N_A	6CPL_A	2XXM_A
+tr|A0A0G2JKD1|A0A0G2JKD1_HUMAN	sp|P04591|GAG_HV1H2	27.4	6C14_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|Q9Y2T1|AXIN2_HUMAN	27.3	6PWU_E	2D5G_B	3U2S_C	5N2K_F
+sp|P04585|POL_HV1H2	sp|C9J1S8|TR49D_HUMAN	27.3	1L6N_A	4CFG_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q12802|AKP13_HUMAN	27.3	1L6N_A	4D0N_B	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8IUD6|RN135_HUMAN	27.3	1L6N_A	4CFG_A	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q969R8|ITFG2_HUMAN	27.3	1L6N_A	4YD8_A	6ICZ_Z	5MQF_F
+sp|P04585|POL_HV1H2	sp|Q9UHR6|ZNHI2_HUMAN	27.3	1L6N_A	1X4S_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9UKN8|TF3C4_HUMAN	27.3	1L6N_A	2J04_A	6ICZ_Z	5MQF_F
+sp|O60384|ZN861_HUMAN	sp|P04591|GAG_HV1H2	27.3	2EN3_A	1L6N_A	6O9L_6	5FMF_J
+sp|P04591|GAG_HV1H2	sp|O75347|TBCA_HUMAN	27.3	1L6N_A	3MXZ_A	5IJN_H	5IJN_H
+sp|P04591|GAG_HV1H2	sp|O75886|STAM2_HUMAN	27.3	1L6N_A	2L0T_B	6SW9_8	6SW9_6
+sp|P04591|GAG_HV1H2	sp|Q4U2R6|RM51_HUMAN	27.3	1L6N_A	5OOL_i	6SW9_8	5JBH_Q
+sp|P04591|GAG_HV1H2	sp|Q8N7X4|MAGB6_HUMAN	27.3	1L6N_A	6R7T_B	4AYB_N	4AYB_H
+sp|P04591|GAG_HV1H2	sp|Q9NVH0|EXD2_HUMAN	27.3	1L6N_A	6K17_A	6SW9_8	5JBH_P
+sp|P04591|GAG_HV1H2	sp|Q9UHR5|S30BP_HUMAN	27.3	1L6N_A	4WKR_A	4KBL_A	4KBL_A
+sp|P04591|GAG_HV1H2	sp|Q9UKN8|TF3C4_HUMAN	27.3	1L6N_A	2J04_A	6ICZ_Z	5MQF_F
+sp|P04601|NEF_HV1H2	sp|P10747|CD28_HUMAN	27.3	3TB8_A	1YJD_C	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9H6L4|ARMC7_HUMAN	27.3	3TB8_A	3SL9_E	4NEE_K	2JKT_A
+tr|A0A0A6YYK4|A0A0A6YYK4_HUMAN	sp|P04601|NEF_HV1H2	27.3	5E9D_J	3TB8_A	5XOV_H	3TB8_A
+sp|P05919|VPU_HV1H2	sp|O00217|NDUS8_HUMAN	27.3	2N28_A	5XTI_B	6CFW_I	6CFW_N
+sp|P05919|VPU_HV1H2	sp|O75251|NDUS7_HUMAN	27.3	2N28_A	6G2J_B	6CFW_I	6CFW_J
+sp|P05919|VPU_HV1H2	sp|O75306|NDUS2_HUMAN	27.3	2N28_A	6G2J_D	6CFW_I	6CFW_L
+sp|P05919|VPU_HV1H2	sp|O75489|NDUS3_HUMAN	27.3	2N28_A	5GUP_D	6CFW_I	6CFW_K
+sp|P05919|VPU_HV1H2	sp|O94900|TOX_HUMAN	27.3	2N28_A	2LHJ_A	5UWB_A	5UWB_A
+sp|P05919|VPU_HV1H2	sp|P01135|TGFA_HUMAN	27.3	2N28_A	5E8D_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P01222|TSHB_HUMAN	27.3	2N28_A	6P57_A	6CFW_I	6CFW_J
+sp|P05919|VPU_HV1H2	sp|P03886|NU1M_HUMAN	27.3	2N28_A	6G2J_H	6CFW_I	6CFW_M
+sp|P05919|VPU_HV1H2	sp|P03891|NU2M_HUMAN	27.3	2N28_A	5XTH_i	6CFW_I	6CFW_H
+sp|P05919|VPU_HV1H2	sp|P03901|NU4LM_HUMAN	27.3	2N28_A	5XTC_k	6CFW_I	6CFW_G
+sp|P05919|VPU_HV1H2	sp|P03905|NU4M_HUMAN	27.3	2N28_A	6G2J_M	6CFW_I	6CFW_H
+sp|P05919|VPU_HV1H2	sp|P03915|NU5M_HUMAN	27.3	2N28_A	5XTC_l	6CFW_I	6CFW_H
+sp|P05919|VPU_HV1H2	sp|P03923|NU6M_HUMAN	27.3	2N28_A	5XTC_m	6CFW_I	6CFW_D
+sp|P05919|VPU_HV1H2	sp|P0C672|TSN19_HUMAN	27.3	2N28_A	5TCX_A	6CFW_I	6CFW_C
+sp|P05919|VPU_HV1H2	sp|P21912|SDHB_HUMAN	27.3	2N28_A	4YSX_F	6CFW_I	6CFW_N
+sp|P05919|VPU_HV1H2	sp|P23327|SRCH_HUMAN	27.3	2N28_A	5TTE_B	6CFW_I	6CFW_N
+sp|P05919|VPU_HV1H2	sp|P28331|NDUS1_HUMAN	27.3	2N28_A	6G2J_G	6CFW_I	6CFW_N
+sp|P05919|VPU_HV1H2	sp|P51589|CP2J2_HUMAN	27.3	2N28_A	5UFG_A	6CFW_I	6CFW_A
+sp|P05919|VPU_HV1H2	sp|Q5JRV8|T255A_HUMAN	27.3	2N28_A	5TCX_A	6CFW_I	6CFW_F
+sp|P05919|VPU_HV1H2	sp|Q8N2F6|ARM10_HUMAN	27.3	2N28_A	3TT9_A	6CFW_I	6CFW_B
+sp|P05919|VPU_HV1H2	sp|Q8N370|LAT4_HUMAN	27.3	2N28_A	4TPH_B	6CFW_I	6CFW_C
+sp|P05919|VPU_HV1H2	sp|Q969G3|SMCE1_HUMAN	27.3	2N28_A	6LTJ_Q	5UWB_A	5UWB_A
+sp|P05919|VPU_HV1H2	sp|Q96SZ6|CK5P1_HUMAN	27.3	2N28_A	4JC0_A	6CFW_I	6CFW_J
+sp|P05919|VPU_HV1H2	sp|Q9H461|FZD8_HUMAN	27.3	2N28_A	5V57_A	6CFW_I	6CFW_C
+sp|P05919|VPU_HV1H2	sp|Q9NP66|HM20A_HUMAN	27.3	2N28_A	1HME_A	5UWB_A	5UWB_A
+sp|P05919|VPU_HV1H2	sp|Q9NUM3|S39A9_HUMAN	27.3	2N28_A	5TSA_A	5UWB_A	5UWB_A
+sp|P05919|VPU_HV1H2	sp|Q9UDX3|S14L4_HUMAN	27.3	2N28_A	4UYB_A	6CFW_I	6CFW_C
+sp|P18827|SDC1_HUMAN	sp|P04585|POL_HV1H2	27.3	6ITH_A	1L6N_A	6CPL_A	2XXM_A
+sp|P18827|SDC1_HUMAN	sp|P04591|GAG_HV1H2	27.3	6ITH_A	1L6N_A	6CPL_A	2XXM_A
+sp|O60641|AP180_HUMAN	sp|P04585|POL_HV1H2	27.2	1HX8_A	1L6N_A	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|O95202|LETM1_HUMAN	27.2	1L6N_A	3SKQ_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q13115|DUS4_HUMAN	27.2	1L6N_A	2G6Z_A	5FMF_R	5FMF_J
+sp|P04585|POL_HV1H2	sp|Q13596|SNX1_HUMAN	27.2	1L6N_A	4AKV_B	6GZA_A	6GZA_A
+sp|Q4G0N8|SL9C1_HUMAN	sp|P04585|POL_HV1H2	27.2	4CZ8_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q8N130|NPT2C_HUMAN	27.2	1L6N_A	4ZFO_K	6GZA_A	6GZA_A
+sp|P04585|POL_HV1H2	sp|Q96CA5|BIRC7_HUMAN	27.2	1L6N_A	3T6P_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|P48742|LHX1_HUMAN	27.2	1L6N_A	2JTN_A	3A43_A	3A43_A
+sp|P04591|GAG_HV1H2	sp|Q13115|DUS4_HUMAN	27.2	1L6N_A	2G6Z_A	5FMF_R	5FMF_J
+sp|Q6ZRX8|YL004_HUMAN	sp|P04591|GAG_HV1H2	27.2	5IJI_A	1L6N_A	6GMH_B	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q8N130|NPT2C_HUMAN	27.2	1L6N_A	4ZFO_K	6GZA_A	6GZA_A
+sp|P04591|GAG_HV1H2	sp|Q9BZM1|PG12A_HUMAN	27.2	1L6N_A	4AUP_A	4QIW_N	4QIW_N
+sp|P04601|NEF_HV1H2	sp|P0CL83|ST3L1_HUMAN	27.2	3TB8_A	6QNX_A	4NEE_K	2JKT_A
+sp|P04608|TAT_HV1H2	sp|Q8N7J2|AMER2_HUMAN	27.2	3MI9_C	6H3T_I	3MI9_C	2PK2_B
+sp|P04618|REV_HV1H2	sp|O95971|BY55_HUMAN	27.2	2X7L_R	6NGG_B	2X7L_R	5I8O_L
+sp|P04618|REV_HV1H2	sp|Q6IA17|SIGIR_HUMAN	27.2	2X7L_R	2J67_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|A0A087WTH1|TM265_HUMAN	27.2	2N28_A	2ONK_C	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|A0A2R8YCJ5|SIM41_HUMAN	27.2	2N28_A	2L9U_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|A6NFZ4|FA24A_HUMAN	27.2	2N28_A	5JEQ_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|C9JQL5|DSA2D_HUMAN	27.2	2N28_A	2KNC_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|O15072|ATS3_HUMAN	27.2	2N28_A	6QIG_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|O43908|NKG2F_HUMAN	27.2	2N28_A	2L35_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|O60478|G137B_HUMAN	27.2	2N28_A	6IGK_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|O60882|MMP20_HUMAN	27.2	2N28_A	1SU3_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|O75173|ATS4_HUMAN	27.2	2N28_A	6QIG_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|O94910|AGRL1_HUMAN	27.2	2N28_A	6VHH_B	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|O95450|ATS2_HUMAN	27.2	2N28_A	6QIG_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P02724|GLPA_HUMAN	27.2	2N28_A	1AFO_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P03956|MMP1_HUMAN	27.2	2N28_A	1SU3_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P05107|ITB2_HUMAN	27.2	2N28_A	4UM8_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P05556|ITB1_HUMAN	27.2	2N28_A	4UM8_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P07550|ADRB2_HUMAN	27.2	2N28_A	2R4R_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P08253|MMP2_HUMAN	27.2	2N28_A	1GXD_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P08254|MMP3_HUMAN	27.2	2N28_A	1SU3_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P08514|ITA2B_HUMAN	27.2	2N28_A	3FCS_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P09238|MMP10_HUMAN	27.2	2N28_A	1SU3_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P12821|ACE_HUMAN	27.2	2N28_A	6M18_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P22894|MMP8_HUMAN	27.2	2N28_A	1SU3_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P23975|SC6A2_HUMAN	27.2	2N28_A	6VRH_A	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|P24347|MMP11_HUMAN	27.2	2N28_A	1CK7_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P26010|ITB7_HUMAN	27.2	2N28_A	4UM8_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P30531|SC6A1_HUMAN	27.2	2N28_A	6VRH_A	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|P31641|SC6A6_HUMAN	27.2	2N28_A	6VRH_A	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|P31645|SC6A4_HUMAN	27.2	2N28_A	6VRH_A	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|P39900|MMP12_HUMAN	27.2	2N28_A	1SU3_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P45452|MMP13_HUMAN	27.2	2N28_A	1SU3_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P48029|SC6A8_HUMAN	27.2	2N28_A	6VRH_A	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|P48065|S6A12_HUMAN	27.2	2N28_A	6VRH_A	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|P48066|S6A11_HUMAN	27.2	2N28_A	6VRH_A	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|P48067|SC6A9_HUMAN	27.2	2N28_A	6VRH_A	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|P50281|MMP14_HUMAN	27.2	2N28_A	1SU3_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P51511|MMP15_HUMAN	27.2	2N28_A	1SU3_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P52888|THOP1_HUMAN	27.2	2N28_A	2O36_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P58397|ATS12_HUMAN	27.2	2N28_A	6QIG_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|P59510|ATS20_HUMAN	27.2	2N28_A	6QIG_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q01628|IFM3_HUMAN	27.2	2N28_A	2KNC_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q01629|IFM2_HUMAN	27.2	2N28_A	6M18_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q01959|SC6A3_HUMAN	27.2	2N28_A	6VRH_A	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|Q08AI6|S38AB_HUMAN	27.2	2N28_A	6C08_F	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|Q15053|K0040_HUMAN	27.2	2N28_A	7C79_L	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q16538|GP162_HUMAN	27.2	2N28_A	6IIU_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q1EHB4|SC5AC_HUMAN	27.2	2N28_A	2XQ2_A	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|Q5BVD1|TTMP_HUMAN	27.2	2N28_A	2E7V_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q5T1S8|NCMAP_HUMAN	27.2	2N28_A	2M20_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q695T7|S6A19_HUMAN	27.2	2N28_A	6M17_C	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|Q86W34|AMZ2_HUMAN	27.2	2N28_A	4AXQ_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q86XR5|PRIMA_HUMAN	27.2	2N28_A	6BRJ_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q8N6K0|TEX29_HUMAN	27.2	2N28_A	1PS2_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q8TE56|ATS17_HUMAN	27.2	2N28_A	6QIG_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q8TE58|ATS15_HUMAN	27.2	2N28_A	6QIG_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q8WXS8|ATS14_HUMAN	27.2	2N28_A	6QIG_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q96N87|S6A18_HUMAN	27.2	2N28_A	6M17_C	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|Q99797|MIPEP_HUMAN	27.2	2N28_A	2O36_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q99884|SC6A7_HUMAN	27.2	2N28_A	6VRH_A	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|Q9BYT8|NEUL_HUMAN	27.2	2N28_A	2O3E_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9GZN6|S6A16_HUMAN	27.2	2N28_A	6M17_C	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|Q9H1V8|S6A17_HUMAN	27.2	2N28_A	6VRH_A	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|Q9H239|MMP28_HUMAN	27.2	2N28_A	1SU3_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9H2J7|S6A15_HUMAN	27.2	2N28_A	6VRH_A	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|Q9H306|MMP27_HUMAN	27.2	2N28_A	1SU3_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9H324|ATS10_HUMAN	27.2	2N28_A	6QIG_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9NP91|S6A20_HUMAN	27.2	2N28_A	6VRH_A	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|Q9NPA2|MMP25_HUMAN	27.2	2N28_A	1SU3_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9NPB9|ACKR4_HUMAN	27.2	2N28_A	3OE0_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9NPU4|CN132_HUMAN	27.2	2N28_A	4WW3_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9NSD5|S6A13_HUMAN	27.2	2N28_A	6VRH_A	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|Q9P2N4|ATS9_HUMAN	27.2	2N28_A	6QIG_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9UBN6|TR10D_HUMAN	27.2	2N28_A	4N90_R	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9UHI8|ATS1_HUMAN	27.2	2N28_A	6QIG_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9UKJ8|ADA21_HUMAN	27.2	2N28_A	3G5C_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9UKP5|ATS6_HUMAN	27.2	2N28_A	6QIG_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9UKQ2|ADA28_HUMAN	27.2	2N28_A	5Y31_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9ULY5|CLC4E_HUMAN	27.2	2N28_A	4ZRW_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9ULZ9|MMP17_HUMAN	27.2	2N28_A	1SU3_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9UN76|S6A14_HUMAN	27.2	2N28_A	6VRH_A	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|Q9UNA0|ATS5_HUMAN	27.2	2N28_A	6QIG_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9UP79|ATS8_HUMAN	27.2	2N28_A	6QIG_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9UQC9|CLCA2_HUMAN	27.2	2N28_A	6PYO_A	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9Y345|SC6A5_HUMAN	27.2	2N28_A	6VRH_A	6M18_B	6M18_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5R2|MMP24_HUMAN	27.2	2N28_A	1SU3_B	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|Q9Y6J6|KCNE2_HUMAN	27.2	2N28_A	2M0Q_A	6M18_B	6M18_B
+sp|P69723|VIF_HV1H2	sp|Q9Y676|RT18B_HUMAN	27.2	4N9F_b	6RW4_O	6NIL_F	5HX4_A
+sp|C9JCN9|HSBPL_HUMAN	sp|P05919|VPU_HV1H2	27.2	3CI9_B	2N28_A	6CS2_B	6M18_B
+sp|O43482|MS18B_HUMAN	sp|P04591|GAG_HV1H2	27.2	5HJ0_B	1L6N_A	6O9L_6	5FMF_J
+sp|O75506|HSBP1_HUMAN	sp|P05919|VPU_HV1H2	27.2	3CI9_B	2N28_A	6CS2_B	6M18_B
+sp|P49335|PO3F4_HUMAN	sp|P04591|GAG_HV1H2	27.2	6T90_K	1L6N_A	6J51_M	5FMF_J
+sp|Q53RY4|KCP3_HUMAN	sp|P05919|VPU_HV1H2	27.2	6U7G_C	2N28_A	3KBH_E	6M18_B
+sp|Q5TGY3|AHDC1_HUMAN	sp|P04591|GAG_HV1H2	27.2	5GAM_A	1L6N_A	5FJ9_Q	5FMF_J
+sp|Q6ZN92|DUTL_HUMAN	sp|P05919|VPU_HV1H2	27.2	1DUC_A	2N28_A	6CS2_B	6M18_B
+sp|Q9H479|FN3K_HUMAN	sp|P04591|GAG_HV1H2	27.2	6OID_B	1L6N_A	6O9L_8	5FMF_J
+tr|E9PQ18|E9PQ18_HUMAN	sp|P04591|GAG_HV1H2	27.2	3LQC_A	1L6N_A	6IR9_M	5FMF_J
+sp|P04578|ENV_HV1H2	sp|P35638|DDIT3_HUMAN	27.1	6PWU_E	5SZX_A	2X7R_N	1FAV_A
+sp|P04578|ENV_HV1H2	sp|P53701|CCHL_HUMAN	27.1	6PWU_E	1NN7_A	6NQD_F	6NQD_F
+sp|P04585|POL_HV1H2	sp|O60232|ZNRD2_HUMAN	27.1	1L6N_A	6HCZ_B	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q5VTA0|PRA17_HUMAN	27.1	1L6N_A	5Y3S_C	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q6ZT07|TBCD9_HUMAN	27.1	1L6N_A	4P17_A	2MGU_M	5DOW_A
+sp|Q8N1W1|ARG28_HUMAN	sp|P04585|POL_HV1H2	27.1	4MT7_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04591|GAG_HV1H2	sp|P02790|HEMO_HUMAN	27.1	1L6N_A	1QJS_B	6OET_C	6CIK_B
+sp|P04591|GAG_HV1H2	sp|P24278|ZBT25_HUMAN	27.1	1L6N_A	1WJP_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P30838|AL3A1_HUMAN	27.1	1L6N_A	5MYP_B	6N7I_C	1E0K_A
+sp|P04591|GAG_HV1H2	sp|Q6ZT07|TBCD9_HUMAN	27.1	1L6N_A	4P17_A	2MGU_M	5DOW_A
+sp|P04601|NEF_HV1H2	sp|P42226|STAT6_HUMAN	27.1	3TB8_A	4Y5U_A	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q8N7B6|PACRL_HUMAN	27.1	3TB8_A	6NEP_A	6OWT_N	6QH5_B
+sp|P04608|TAT_HV1H2	sp|Q8N1B3|CCNQ_HUMAN	27.1	3MI9_C	4BCG_B	3MI9_C	2PK2_B
+sp|P05919|VPU_HV1H2	sp|A6NHS7|MANS4_HUMAN	27.1	2N28_A	2MSX_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O43657|TSN6_HUMAN	27.1	2N28_A	5TCX_A	6CFW_I	6CFW_C
+sp|P05919|VPU_HV1H2	sp|P0CL83|ST3L1_HUMAN	27.1	2N28_A	6QNX_A	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q9NX76|CKLF6_HUMAN	27.1	2N28_A	5B2G_E	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q9NY26|S39A1_HUMAN	27.1	2N28_A	5TSA_A	6C13_A	6C13_A
+sp|P69723|VIF_HV1H2	sp|P55789|ALR_HUMAN	27.1	4N9F_b	4E0I_B	6NIL_F	5HX4_A
+sp|P69726|VPR_HV1H2	sp|Q8IWZ6|BBS7_HUMAN	27.1	1ESX_A	6VBU_7	5JK7_F	5JK7_E
+sp|Q6UW88|EPGN_HUMAN	sp|P04585|POL_HV1H2	27.1	1XDT_R	1L6N_A	6CPL_A	2XXM_A
+sp|Q6UW88|EPGN_HUMAN	sp|P04591|GAG_HV1H2	27.1	1XDT_R	1L6N_A	6CPL_A	2XXM_A
+sp|Q8IZT9|FAM9C_HUMAN	sp|P04591|GAG_HV1H2	27.1	4CPC_G	1L6N_A	5OQM_i	5FMF_J
+sp|Q9BS86|ZPBP1_HUMAN	sp|P04601|NEF_HV1H2	27.1	2V5T_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04585|POL_HV1H2	sp|B9A014|F243A_HUMAN	27.0	1L6N_A	3K9K_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|P0DPQ4|F243B_HUMAN	27.0	1L6N_A	3K9J_B	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q8N9N5|BANP_HUMAN	27.0	1L6N_A	4IX7_A	5FMF_R	5FMF_X
+sp|P04585|POL_HV1H2	sp|Q8TC71|MIEAP_HUMAN	27.0	1L6N_A	5IJO_G	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q9BRP8|PYM1_HUMAN	27.0	1L6N_A	1RK8_C	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q9P0I2|EMC3_HUMAN	27.0	1L6N_A	6WW7_C	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q9Y585|OR1A2_HUMAN	27.0	1L6N_A	5OLZ_A	5FMF_R	3PO2_H
+sp|P04585|POL_HV1H2	sp|Q9Y5N6|ORC6_HUMAN	27.0	1L6N_A	3M03_B	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q9BRP8|PYM1_HUMAN	27.0	1L6N_A	1RK8_C	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q9P0I2|EMC3_HUMAN	27.0	1L6N_A	6WW7_C	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q9Y585|OR1A2_HUMAN	27.0	1L6N_A	5OLZ_A	5FMF_R	3PO2_H
+sp|P04601|NEF_HV1H2	sp|P54284|CACB3_HUMAN	27.0	3TB8_A	6JPA_C	4U5W_C	4U5W_B
+sp|P04601|NEF_HV1H2	sp|Q9NRC9|OTOR_HUMAN	27.0	3TB8_A	1HJD_A	4U5W_C	4U5W_B
+sp|P04608|TAT_HV1H2	sp|Q9H479|FN3K_HUMAN	27.0	3MI9_C	6OID_B	4OGR_D	4OR5_F
+sp|P04608|TAT_HV1H2	sp|Q9UJW3|DNM3L_HUMAN	27.0	3MI9_C	2PV0_B	4OGR_D	4OGR_D
+sp|P05919|VPU_HV1H2	sp|Q5FWE3|PRRT3_HUMAN	27.0	2N28_A	6W98_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q5H9J7|BEX5_HUMAN	27.0	2N28_A	2JN6_A	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q5T9G4|ARM12_HUMAN	27.0	2N28_A	4R0Z_A	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q6UXN7|TO20L_HUMAN	27.0	2N28_A	1OM2_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q99442|SEC62_HUMAN	27.0	2N28_A	5EUL_E	6CFW_I	6CFW_C
+sp|O75829|CNMD_HUMAN	sp|P04585|POL_HV1H2	27.0	2YAD_C	1L6N_A	6CPL_A	2XXM_A
+sp|O75829|CNMD_HUMAN	sp|P04591|GAG_HV1H2	27.0	2YAD_C	1L6N_A	6CPL_A	2XXM_A
+sp|O75935|DCTN3_HUMAN	sp|P04591|GAG_HV1H2	27.0	1PUG_A	1L6N_A	5SVA_V	5FMF_J
+sp|Q9NXB0|MKS1_HUMAN	sp|P04591|GAG_HV1H2	27.0	3RCO_A	1L6N_A	5IY8_P	5FMF_J
+sp|P04578|ENV_HV1H2	sp|O95998|I18BP_HUMAN	26.9	6PWU_E	3F62_A	6NIJ_B	5WHZ_L
+sp|P04585|POL_HV1H2	sp|Q05195|MAD1_HUMAN	26.9	1L6N_A	1NKP_B	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q05215|EGR4_HUMAN	26.9	1L6N_A	3ZMS_C	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q6ZVN7|SEML_HUMAN	26.9	1L6N_A	1RJU_V	6BK8_O	6J6G_T
+sp|P04585|POL_HV1H2	sp|Q86VE9|SERC5_HUMAN	26.9	1L6N_A	6SP2_E	5FMF_R	4V1N_M
+sp|Q8NFW9|MYRIP_HUMAN	sp|P04585|POL_HV1H2	26.9	2ZET_C	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q96H72|S39AD_HUMAN	26.9	1L6N_A	5TSA_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9BZM1|PG12A_HUMAN	26.9	1L6N_A	4AUP_A	5FMF_R	5FMF_J
+sp|P04591|GAG_HV1H2	sp|P61968|LMO4_HUMAN	26.9	1L6N_A	1RUT_X	5FMF_J	5FMF_R
+sp|P04591|GAG_HV1H2	sp|Q05195|MAD1_HUMAN	26.9	1L6N_A	1NKP_B	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q0VAA5|PLCX2_HUMAN	26.9	1L6N_A	2OR2_A	6SW9_8	6TMF_C
+sp|P04591|GAG_HV1H2	sp|Q6ZVN7|SEML_HUMAN	26.9	1L6N_A	1RJU_V	6BK8_O	6J6G_T
+sp|P04591|GAG_HV1H2	sp|Q86VE9|SERC5_HUMAN	26.9	1L6N_A	6SP2_E	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|Q96H72|S39AD_HUMAN	26.9	1L6N_A	5TSA_A	1NUI_A	1NUI_A
+sp|P04601|NEF_HV1H2	sp|P0CL84|ST3L2_HUMAN	26.9	3TB8_A	6QNX_A	4NEE_K	2JKT_A
+sp|P04608|TAT_HV1H2	sp|P98177|FOXO4_HUMAN	26.9	3MI9_C	1E17_A	4OGR_D	4OR5_F
+sp|P04618|REV_HV1H2	sp|P0CF51|TRGC1_HUMAN	26.9	2X7L_R	6D7G_E	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|O95415|BRI3_HUMAN	26.9	2N28_A	6KF3_P	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8TAV4|STML3_HUMAN	26.9	2N28_A	3BK6_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q9H6L4|ARMC7_HUMAN	26.9	2N28_A	3SL9_E	4P6Z_V	4P6Z_G
+sp|Q08117|TLE5_HUMAN	sp|P04591|GAG_HV1H2	26.9	4OM3_C	1L6N_A	5YXY_C	5AUN_A
+sp|Q86UE4|LYRIC_HUMAN	sp|P04585|POL_HV1H2	26.9	4QMG_H	1L6N_A	6CPL_A	2XXM_A
+sp|Q86UE4|LYRIC_HUMAN	sp|P04591|GAG_HV1H2	26.9	4QMG_H	1L6N_A	6CPL_A	2XXM_A
+sp|Q8NCR9|CLRN3_HUMAN	sp|P04585|POL_HV1H2	26.9	6JPA_E	1L6N_A	6CPL_A	2XXM_A
+sp|Q8NCR9|CLRN3_HUMAN	sp|P04591|GAG_HV1H2	26.9	6JPA_E	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|Q969V4|TEKT1_HUMAN	26.8	6PWU_E	5IJO_G	2X7R_N	1FAV_A
+sp|P04585|POL_HV1H2	sp|P05423|RPC4_HUMAN	26.8	1L6N_A	6TUT_N	5FMF_R	5FMF_V
+sp|P04585|POL_HV1H2	sp|P06702|S10A9_HUMAN	26.8	1L6N_A	5I8N_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P26583|HMGB2_HUMAN	26.8	1L6N_A	5ZE0_N	6BK8_O	5YLZ_T
+sp|P61371|ISL1_HUMAN	sp|P04585|POL_HV1H2	26.8	4JCJ_B	1L6N_A	5FMF_I	5FMF_R
+sp|P04585|POL_HV1H2	sp|P80511|S10AC_HUMAN	26.8	1L6N_A	2M9G_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9BT23|LIMD2_HUMAN	26.8	1L6N_A	2LZU_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9BYV6|TRI55_HUMAN	26.8	1L6N_A	4CFG_A	5FMF_R	1TWF_I
+sp|Q9BZI7|REN3B_HUMAN	sp|P04585|POL_HV1H2	26.8	2XB2_U	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q9HAT8|PELI2_HUMAN	26.8	1L6N_A	3EGA_A	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|O75128|COBL_HUMAN	26.8	1L6N_A	4JHD_F	5UDH_B	3LDZ_E
+sp|P04591|GAG_HV1H2	sp|P06702|S10A9_HUMAN	26.8	1L6N_A	5I8N_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P49682|CXCR3_HUMAN	26.8	1L6N_A	3OE0_A	4QIW_N	4QIW_H
+sp|P04591|GAG_HV1H2	sp|P80511|S10AC_HUMAN	26.8	1L6N_A	2M9G_B	2MGU_M	5DOW_A
+sp|Q9BZI7|REN3B_HUMAN	sp|P04591|GAG_HV1H2	26.8	2XB2_U	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P04591|GAG_HV1H2	tr|A0A2R8Y7D0|A0A2R8Y7D0_HUMAN	26.8	1L6N_A	5D6J_B	5UDH_B	3LDZ_E
+sp|P04608|TAT_HV1H2	sp|A0A1B0GV03|GG6L7_HUMAN	26.8	3MI9_C	6K06_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|A8MWY0|ELAP2_HUMAN	26.8	3MI9_C	3ME4_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|B1AKI9|ISM1_HUMAN	26.8	3MI9_C	4OKR_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|O00220|TR10A_HUMAN	26.8	3MI9_C	4N90_R	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|O00300|TR11B_HUMAN	26.8	3MI9_C	4E4D_R	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|O14763|TR10B_HUMAN	26.8	3MI9_C	4N90_R	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|O14798|TR10C_HUMAN	26.8	3MI9_C	4I9X_C	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|O15399|NMDE4_HUMAN	26.8	3MI9_C	4TLM_D	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|O43424|GRID2_HUMAN	26.8	3MI9_C	6LU9_D	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|O43915|VEGFD_HUMAN	26.8	3MI9_C	2XV7_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|O60391|NMD3B_HUMAN	26.8	3MI9_C	4TLL_D	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|O75509|TNR21_HUMAN	26.8	3MI9_C	3U3Q_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|O75899|GABR2_HUMAN	26.8	3MI9_C	6W2X_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|O95407|TNF6B_HUMAN	26.8	3MI9_C	4KGQ_D	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P01036|CYTS_HUMAN	26.8	3MI9_C	3GAX_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P01037|CYTN_HUMAN	26.8	3MI9_C	3GAX_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P01266|THYG_HUMAN	26.8	3MI9_C	6SCJ_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P08138|TNR16_HUMAN	26.8	3MI9_C	3ME4_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P09958|FURIN_HUMAN	26.8	3MI9_C	4Z2A_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P14222|PERF_HUMAN	26.8	3MI9_C	3NSJ_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P17342|ANPRC_HUMAN	26.8	3MI9_C	1JDP_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P20333|TNR1B_HUMAN	26.8	3MI9_C	2UWI_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P25445|TNR6_HUMAN	26.8	3MI9_C	3THM_F	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P25942|TNR5_HUMAN	26.8	3MI9_C	4MXW_R	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P26842|CD27_HUMAN	26.8	3MI9_C	5TL5_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P29122|PCSK6_HUMAN	26.8	3MI9_C	5JXG_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P36941|TNR3_HUMAN	26.8	3MI9_C	4MXW_R	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P39086|GRIK1_HUMAN	26.8	3MI9_C	6JFY_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P41180|CASR_HUMAN	26.8	3MI9_C	5K5T_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P42261|GRIA1_HUMAN	26.8	3MI9_C	6PEQ_D	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P42262|GRIA2_HUMAN	26.8	3MI9_C	6PEQ_D	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P42263|GRIA3_HUMAN	26.8	3MI9_C	6PEQ_D	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P43489|TNR4_HUMAN	26.8	3MI9_C	2HEV_R	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P45974|UBP5_HUMAN	26.8	3MI9_C	3IHP_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|P48058|GRIA4_HUMAN	26.8	3MI9_C	4U4G_D	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q05586|NMDZ1_HUMAN	26.8	3MI9_C	5UOW_C	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q07011|TNR9_HUMAN	26.8	3MI9_C	6A3V_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q12879|NMDE1_HUMAN	26.8	3MI9_C	5IOV_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q13002|GRIK2_HUMAN	26.8	3MI9_C	5KUH_C	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q13003|GRIK3_HUMAN	26.8	3MI9_C	6JFY_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q13224|NMDE2_HUMAN	26.8	3MI9_C	4TLL_D	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q13255|GRM1_HUMAN	26.8	3MI9_C	6N4X_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q14162|SREC_HUMAN	26.8	3MI9_C	6UJB_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q14416|GRM2_HUMAN	26.8	3MI9_C	6N4X_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q14831|GRM7_HUMAN	26.8	3MI9_C	6N4X_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q14832|GRM3_HUMAN	26.8	3MI9_C	6N4X_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q14957|NMDE3_HUMAN	26.8	3MI9_C	4TLM_D	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q16099|GRIK4_HUMAN	26.8	3MI9_C	6JFY_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q16478|GRIK5_HUMAN	26.8	3MI9_C	6JFY_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q16526|CRY1_HUMAN	26.8	3MI9_C	4K0R_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q2I0M5|RSPO4_HUMAN	26.8	3MI9_C	4C8V_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q2MKA7|RSPO1_HUMAN	26.8	3MI9_C	4CDK_E	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q49AN0|CRY2_HUMAN	26.8	3MI9_C	4K0R_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q5HYA8|MKS3_HUMAN	26.8	3MI9_C	3MX0_C	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q5T6X5|GPC6A_HUMAN	26.8	3MI9_C	6N4X_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q6H9L7|ISM2_HUMAN	26.8	3MI9_C	4OKR_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q6UXG2|ELAP1_HUMAN	26.8	3MI9_C	4MXW_R	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q6UXX9|RSPO2_HUMAN	26.8	3MI9_C	4C8V_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q6X784|ZPBP2_HUMAN	26.8	3MI9_C	2E4X_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q7RTX0|TS1R3_HUMAN	26.8	3MI9_C	6N52_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q7RTX1|TS1R1_HUMAN	26.8	3MI9_C	6N4X_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q8NFW1|COMA1_HUMAN	26.8	3MI9_C	3HQV_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q8TCU5|NMD3A_HUMAN	26.8	3MI9_C	4TLM_D	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q8TE23|TS1R2_HUMAN	26.8	3MI9_C	6N4X_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q92764|KRT35_HUMAN	26.8	3MI9_C	3TNU_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q92956|TNR14_HUMAN	26.8	3MI9_C	1JMA_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q93038|TNR25_HUMAN	26.8	3MI9_C	2UWI_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q96GP6|SREC2_HUMAN	26.8	3MI9_C	6UJA_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q96HA4|CA159_HUMAN	26.8	3MI9_C	6N9X_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q96P44|COLA1_HUMAN	26.8	3MI9_C	3HQV_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q9BS86|ZPBP1_HUMAN	26.8	3MI9_C	2V5T_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q9BXY4|RSPO3_HUMAN	26.8	3MI9_C	6PXV_C	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q9H1U4|MEGF9_HUMAN	26.8	3MI9_C	4AQS_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q9HAV5|TNR27_HUMAN	26.8	3MI9_C	5T2Q_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q9UBN6|TR10D_HUMAN	26.8	3MI9_C	4N90_R	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q9UBS5|GABR1_HUMAN	26.8	3MI9_C	6W2Y_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q9ULK0|GRID1_HUMAN	26.8	3MI9_C	6KSP_B	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q9UNE0|EDAR_HUMAN	26.8	3MI9_C	5T2Q_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q9Y5U5|TNR18_HUMAN	26.8	3MI9_C	6PE8_U	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q9Y6N6|LAMC3_HUMAN	26.8	3MI9_C	6FKQ_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	sp|Q9Y6Q6|TNR11_HUMAN	26.8	3MI9_C	5BNQ_R	5K5S_B	5K5S_B
+sp|P04618|REV_HV1H2	sp|P03986|TRGC2_HUMAN	26.8	2X7L_R	6D7G_E	2X7L_R	5I8O_H
+sp|P10109|ADX_HUMAN	sp|P04591|GAG_HV1H2	26.8	3N9Z_C	1L6N_A	6J51_M	5FMF_J
+sp|Q9NYV7|T2R16_HUMAN	sp|P04578|ENV_HV1H2	26.8	4PXZ_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|P05997|CO5A2_HUMAN	26.7	6PWU_E	3HQV_C	6PWU_E	4JG1_H
+sp|P04578|ENV_HV1H2	sp|Q9Y6C5|PTC2_HUMAN	26.7	6PWU_E	6N7K_D	3DNO_B	3DNO_D
+sp|P04585|POL_HV1H2	sp|P52943|CRIP2_HUMAN	26.7	1L6N_A	1RUT_X	5FMF_R	5FMF_2
+sp|P04585|POL_HV1H2	sp|Q8IW03|SIAH3_HUMAN	26.7	1L6N_A	4CA1_A	4RGH_A	4RGH_A
+sp|P04585|POL_HV1H2	sp|Q9P275|UBP36_HUMAN	26.7	1L6N_A	6TBM_Q	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|Q9UBF6|RBX2_HUMAN	26.7	1L6N_A	6V9I_R	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q9UH65|SWP70_HUMAN	26.7	1L6N_A	4Y93_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q2TB10|ZN800_HUMAN	26.7	1L6N_A	5V3J_E	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q86TL2|STIMA_HUMAN	26.7	1L6N_A	6V1Q_B	6SW9_8	5JBH_O
+sp|P04591|GAG_HV1H2	sp|Q9HBE4|IL21_HUMAN	26.7	1L6N_A	3TGX_F	6KF4_N	6KF4_G
+sp|P04608|TAT_HV1H2	sp|Q9H492|MLP3A_HUMAN	26.7	3MI9_C	1EO6_B	4OGR_D	4IMY_H
+sp|P69726|VPR_HV1H2	sp|P62341|SELT_HUMAN	26.7	1ESX_A	2OBK_F	5JK7_F	3FCI_A
+sp|P62888|RL30_HUMAN	sp|P04585|POL_HV1H2	26.7	3CPQ_B	1L6N_A	5DMR_B	3P1G_A
+sp|Q8IYD2|KLD8A_HUMAN	sp|P04585|POL_HV1H2	26.7	2VPJ_A	1L6N_A	6BK8_D	6BK8_O
+sp|P04585|POL_HV1H2	sp|O00110|OVOL3_HUMAN	26.6	1L6N_A	3W5K_B	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|O43189|PHF1_HUMAN	26.6	1L6N_A	5XFN_A	5UDZ_B	5UDZ_B
+sp|P04585|POL_HV1H2	sp|O43670|ZN207_HUMAN	26.6	1L6N_A	6J0D_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|P05997|CO5A2_HUMAN	26.6	1L6N_A	3HQV_C	5CZ2_E	5CZ2_E
+sp|P04585|POL_HV1H2	sp|P51460|INSL3_HUMAN	26.6	1L6N_A	2K6T_B	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q66K14|TBC9B_HUMAN	26.6	1L6N_A	4P17_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q86W34|AMZ2_HUMAN	26.6	1L6N_A	4AXQ_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q8TBB0|THAP6_HUMAN	26.6	1L6N_A	2D8R_A	5FMF_R	1NH2_D
+sp|P04585|POL_HV1H2	sp|Q9UL40|ZN346_HUMAN	26.6	1L6N_A	1ZU1_A	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|P13726|TF_HUMAN	26.6	1L6N_A	3BES_R	6SW9_8	4CVN_E
+sp|P04591|GAG_HV1H2	sp|P51460|INSL3_HUMAN	26.6	1L6N_A	2K6T_B	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q66K14|TBC9B_HUMAN	26.6	1L6N_A	4P17_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q86W34|AMZ2_HUMAN	26.6	1L6N_A	4AXQ_A	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|Q8TBB0|THAP6_HUMAN	26.6	1L6N_A	2D8R_A	5FMF_R	1NH2_D
+sp|Q96IV6|FXDC2_HUMAN	sp|P04591|GAG_HV1H2	26.6	4ZR0_B	1L6N_A	6GMH_H	5FMF_J
+sp|P04618|REV_HV1H2	sp|P28067|DMA_HUMAN	26.6	2X7L_R	2BC4_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q9UBK5|HCST_HUMAN	26.6	2N28_A	2L35_A	1SCF_A	1SCF_A
+sp|P05919|VPU_HV1H2	sp|Q9UBU6|FA8A1_HUMAN	26.6	2N28_A	6A70_G	6CFW_I	6CFW_E
+sp|O75310|UDB11_HUMAN	sp|P04585|POL_HV1H2	26.6	6INF_A	1L6N_A	6CPL_A	2XXM_A
+sp|O75310|UDB11_HUMAN	sp|P04591|GAG_HV1H2	26.6	6INF_A	1L6N_A	6CPL_A	2XXM_A
+sp|P13726|TF_HUMAN	sp|P04585|POL_HV1H2	26.6	3BES_R	1L6N_A	6CPL_A	2XXM_A
+sp|Q6ZSV7|YF010_HUMAN	sp|P04591|GAG_HV1H2	26.6	2JX5_A	1L6N_A	5YY0_A	5AUN_A
+sp|Q8N9B8|RGF1A_HUMAN	sp|P04591|GAG_HV1H2	26.6	5CM8_A	1L6N_A	5FJA_Q	5FMF_J
+sp|Q96L08|SUSD3_HUMAN	sp|P04585|POL_HV1H2	26.6	6J8H_C	1L6N_A	6CPL_A	2XXM_A
+sp|Q96L08|SUSD3_HUMAN	sp|P04591|GAG_HV1H2	26.6	6J8H_C	1L6N_A	6CPL_A	2XXM_A
+sp|Q96RJ3|TR13C_HUMAN	sp|P04585|POL_HV1H2	26.6	4V46_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q96RJ3|TR13C_HUMAN	sp|P04591|GAG_HV1H2	26.6	4V46_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|Q6UB35|C1TM_HUMAN	26.5	6PWU_E	5A4J_D	6MUF_G	6NNJ_D
+sp|P04585|POL_HV1H2	sp|Q6ZN04|MEX3B_HUMAN	26.5	1L6N_A	2ANN_A	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|P58294|PROK1_HUMAN	26.5	1L6N_A	1IMT_A	6N7I_C	6N9X_B
+sp|P04591|GAG_HV1H2	sp|Q14642|I5P1_HUMAN	26.5	1L6N_A	6XY7_A	5TTE_B	6XXU_A
+sp|P04591|GAG_HV1H2	sp|Q96JY6|PDLI2_HUMAN	26.5	1L6N_A	1RGW_A	4QIW_N	4QIW_P
+sp|Q96LU5|IMP1L_HUMAN	sp|P04591|GAG_HV1H2	26.5	4ME8_A	1L6N_A	5IY9_E	5FMF_J
+sp|P04601|NEF_HV1H2	sp|P0CL85|ST3L3_HUMAN	26.5	3TB8_A	6QNX_A	6OWT_N	6QH5_B
+sp|P04601|NEF_HV1H2	sp|Q9Y2W6|TDRKH_HUMAN	26.5	3TB8_A	6PI7_D	4U5W_C	4U5W_B
+sp|P05919|VPU_HV1H2	sp|A0A1B0GV90|CTXD2_HUMAN	26.5	2N28_A	6JXR_n	6M18_B	6M18_B
+sp|P05919|VPU_HV1H2	sp|C9JXX5|CK094_HUMAN	26.5	2N28_A	6CFW_M	6CFW_I	6CFW_M
+sp|P05919|VPU_HV1H2	sp|P0DSO1|F246C_HUMAN	26.5	2N28_A	5W0R_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8N7B6|PACRL_HUMAN	26.5	2N28_A	6NEP_A	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q9UJ90|KCNE5_HUMAN	26.5	2N28_A	2K21_A	6C13_A	6C13_A
+sp|P69723|VIF_HV1H2	sp|Q9BV90|SNR25_HUMAN	26.5	4N9F_b	1V2Y_A	4N9F_b	2MA9_B
+sp|P69726|VPR_HV1H2	sp|Q9NZC4|EHF_HUMAN	26.5	1ESX_A	3JTG_A	5AJA_B	5AJA_C
+sp|Q02577|HEN2_HUMAN	sp|P04578|ENV_HV1H2	26.4	6MGN_A	6PWU_E	2X7L_R	6BSY_A
+sp|P04578|ENV_HV1H2	sp|Q15043|S39AE_HUMAN	26.4	6PWU_E	5TSA_A	3U2S_C	5N2K_F
+sp|P04578|ENV_HV1H2	sp|Q9NPB1|NT5M_HUMAN	26.4	6PWU_E	4MUM_A	6P6F_A	2OBX_A
+sp|P04585|POL_HV1H2	sp|A8MUI8|YA034_HUMAN	26.4	1L6N_A	5TEY_A	6BK8_O	6J6G_P
+sp|P04585|POL_HV1H2	sp|Q8N328|PGBD3_HUMAN	26.4	1L6N_A	1V5N_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8NFH8|REPS2_HUMAN	26.4	1L6N_A	2QPT_A	2MGU_M	5DOW_A
+sp|Q96T23|RSF1_HUMAN	sp|P04585|POL_HV1H2	26.4	6GYT_B	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q9BYV2|TRI54_HUMAN	26.4	1L6N_A	4CFG_A	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|A8MUI8|YA034_HUMAN	26.4	1L6N_A	5TEY_A	6BK8_O	6J6G_P
+sp|P04591|GAG_HV1H2	sp|P05981|HEPS_HUMAN	26.4	1L6N_A	1Z8G_A	6HTJ_A	6HTJ_A
+sp|P0CW19|LIMS3_HUMAN	sp|P04591|GAG_HV1H2	26.4	2JTN_A	1L6N_A	3PO3_S	5FMF_J
+sp|P0CW20|LIMS4_HUMAN	sp|P04591|GAG_HV1H2	26.4	2JTN_A	1L6N_A	3PO3_S	5FMF_J
+sp|P04591|GAG_HV1H2	sp|P62699|YPEL5_HUMAN	26.4	1L6N_A	5HJ0_B	6KF4_N	6KF4_G
+sp|P04591|GAG_HV1H2	sp|Q8NFH8|REPS2_HUMAN	26.4	1L6N_A	2QPT_A	2MGU_M	5DOW_A
+sp|P04608|TAT_HV1H2	sp|A6NFZ4|FA24A_HUMAN	26.4	3MI9_C	5JEQ_A	5K5S_B	5K5S_B
+sp|Q02577|HEN2_HUMAN	sp|P04618|REV_HV1H2	26.4	6MGN_A	2X7L_R	2X7L_R	6BSY_A
+sp|P05919|VPU_HV1H2	sp|O43914|TYOBP_HUMAN	26.4	2N28_A	6JXR_d	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O60320|F1891_HUMAN	26.4	2N28_A	6VJA_C	6CFW_I	6CFW_G
+sp|P05919|VPU_HV1H2	sp|O94777|DPM2_HUMAN	26.4	2N28_A	6C14_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9H313|TTYH1_HUMAN	26.4	2N28_A	1O5H_A	6C14_A	6C14_D
+sp|Q13427|PPIG_HUMAN	sp|P04601|NEF_HV1H2	26.4	5YZG_3	3TB8_A	6CRI_L	6CRI_Z
+sp|Q6UWW9|TM207_HUMAN	sp|P04578|ENV_HV1H2	26.4	6C13_A	6PWU_E	6MEO_B	3J70_P
+sp|Q9HCE5|MET14_HUMAN	sp|P04591|GAG_HV1H2	26.4	6Y4G_B	1L6N_A	5FJA_Q	5FMF_J
+sp|Q9UKT5|FBX4_HUMAN	sp|P04601|NEF_HV1H2	26.4	3L2O_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|O60902|SHOX2_HUMAN	26.3	6PWU_E	1MH3_A	6UM5_E	6CBP_A
+sp|P04578|ENV_HV1H2	sp|Q5VYV0|FOXB2_HUMAN	26.3	6PWU_E	6FEC_w	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|A6NFK2|GRCR2_HUMAN	26.3	1L6N_A	6EKC_R	2BX9_C	2ZP8_F
+sp|P04585|POL_HV1H2	sp|A6NFU0|F187A_HUMAN	26.3	1L6N_A	3J8F_7	5O2U_C	5O2U_B
+sp|P04585|POL_HV1H2	sp|O60884|DNJA2_HUMAN	26.3	1L6N_A	1NLT_A	2BX9_C	2ZP8_F
+sp|O95171|SCEL_HUMAN	sp|P04585|POL_HV1H2	26.3	1NYP_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|P09429|HMGB1_HUMAN	26.3	1L6N_A	5ZE0_N	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|P31689|DNJA1_HUMAN	26.3	1L6N_A	3LZ8_B	2BX9_C	2ZP8_F
+sp|P04585|POL_HV1H2	sp|Q5VU65|P210L_HUMAN	26.3	1L6N_A	3NCX_B	2ZP8_F	1UTD_B
+sp|P04585|POL_HV1H2	sp|Q70YC5|ZN365_HUMAN	26.3	1L6N_A	6CVQ_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q8N123|CPXCR_HUMAN	26.3	1L6N_A	5AAZ_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q8WW22|DNJA4_HUMAN	26.3	1L6N_A	3LZ8_B	2BX9_C	2ZP8_F
+sp|P04585|POL_HV1H2	sp|Q96A25|T106A_HUMAN	26.3	1L6N_A	2BX9_C	2BX9_C	2ZP8_F
+sp|P04585|POL_HV1H2	sp|Q96HA4|CA159_HUMAN	26.3	1L6N_A	6N9X_B	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9H091|ZMY15_HUMAN	26.3	1L6N_A	3N71_A	2BX9_C	2ZP8_F
+sp|P04585|POL_HV1H2	sp|Q9P015|RM15_HUMAN	26.3	1L6N_A	6NU2_M	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|Q9UNL4|ING4_HUMAN	26.3	1L6N_A	5J9T_H	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9Y2M2|SSUH2_HUMAN	26.3	1L6N_A	6EKB_A	2BX9_C	2ZP8_F
+sp|Q9Y4C1|KDM3A_HUMAN	sp|P04585|POL_HV1H2	26.3	2YPD_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04591|GAG_HV1H2	sp|A6NFU0|F187A_HUMAN	26.3	1L6N_A	3J8F_7	5O2U_C	5O2U_B
+sp|Q5TFG8|ZC21B_HUMAN	sp|P04591|GAG_HV1H2	26.3	5AAZ_A	1L6N_A	5XOG_L	5FMF_J
+sp|Q7Z5A4|PRS42_HUMAN	sp|P04591|GAG_HV1H2	26.3	3NXP_A	1L6N_A	3CW2_N	6SW9_8
+sp|P04591|GAG_HV1H2	sp|Q86UQ5|GTSC1_HUMAN	26.3	1L6N_A	5WI4_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q9P015|RM15_HUMAN	26.3	1L6N_A	6NU2_M	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|Q9UHE5|NAT8_HUMAN	26.3	1L6N_A	3JVN_A	3A43_A	3A43_A
+sp|P04618|REV_HV1H2	tr|Q9HB66|Q9HB66_HUMAN	26.3	2X7L_R	6TCL_I	5IW7_A	5IW7_A
+sp|P05919|VPU_HV1H2	sp|A0A1B0GU29|SIM28_HUMAN	26.3	2N28_A	2MIC_B	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|O00168|PLM_HUMAN	26.3	2N28_A	2JO1_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|O00220|TR10A_HUMAN	26.3	2N28_A	4N90_R	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|O75056|SDC3_HUMAN	26.3	2N28_A	6ITH_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|O75074|LRP3_HUMAN	26.3	2N28_A	1N7D_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|O75379|VAMP4_HUMAN	26.3	2N28_A	3HD7_A	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|O75578|ITA10_HUMAN	26.3	2N28_A	4NEH_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|O75954|TSN9_HUMAN	26.3	2N28_A	5TCX_A	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|O95183|VAMP5_HUMAN	26.3	2N28_A	3HD7_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|O95452|CXB6_HUMAN	26.3	2N28_A	2ZW3_D	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|P05106|ITB3_HUMAN	26.3	2N28_A	4UM8_B	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|P06127|CD5_HUMAN	26.3	2N28_A	2JP0_A	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|P0C091|FREM3_HUMAN	26.3	2N28_A	3RB7_A	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|P11215|ITAM_HUMAN	26.3	2N28_A	4NEH_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|P13473|LAMP2_HUMAN	26.3	2N28_A	4AKM_B	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|P14679|TYRO_HUMAN	26.3	2N28_A	5M8T_B	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|P17927|CR1_HUMAN	26.3	2N28_A	2Q7Z_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|P18084|ITB5_HUMAN	26.3	2N28_A	4UM8_B	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|P18564|ITB6_HUMAN	26.3	2N28_A	4UM8_B	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|P20702|ITAX_HUMAN	26.3	2N28_A	4NEH_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|P23763|VAMP1_HUMAN	26.3	2N28_A	2KOG_A	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|P26842|CD27_HUMAN	26.3	2N28_A	5TL5_A	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|P32249|GP183_HUMAN	26.3	2N28_A	6OS1_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|P38570|ITAE_HUMAN	26.3	2N28_A	4NEH_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|P56817|BACE1_HUMAN	26.3	2N28_A	6EJ2_A	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|Q02223|TNR17_HUMAN	26.3	2N28_A	4ZFO_K	5KUH_C	5KUH_C
+sp|P05919|VPU_HV1H2	sp|Q06413|MEF2C_HUMAN	26.3	2N28_A	6BZ1_D	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|Q08357|S20A2_HUMAN	26.3	2N28_A	4TPG_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q13349|ITAD_HUMAN	26.3	2N28_A	4NEH_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q13477|MADCA_HUMAN	26.3	2N28_A	1BQS_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q16586|SGCA_HUMAN	26.3	2N28_A	1U2C_A	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|Q3MIW9|MUCL3_HUMAN	26.3	2N28_A	2KNC_B	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q4G0T1|SRCRM_HUMAN	26.3	2N28_A	5A2E_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q6PRD1|GP179_HUMAN	26.3	2N28_A	6W2X_B	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|Q6UXD1|HRCT1_HUMAN	26.3	2N28_A	6V3H_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6XYQ8|SYT10_HUMAN	26.3	2N28_A	1DQV_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q71H61|ILDR2_HUMAN	26.3	2N28_A	5OR7_C	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q8N271|PROM2_HUMAN	26.3	2N28_A	5IJO_G	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|Q8N350|CBARP_HUMAN	26.3	2N28_A	2JO1_A	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|Q8N5W8|FA24B_HUMAN	26.3	2N28_A	2L8S_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q8NEA5|CS018_HUMAN	26.3	2N28_A	1ZZA_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8NFN8|GP156_HUMAN	26.3	2N28_A	6UO8_A	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|Q8TCQ1|MARH1_HUMAN	26.3	2N28_A	2M6M_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q96CP6|ASTRA_HUMAN	26.3	2N28_A	6GQF_B	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|Q96GL9|F163A_HUMAN	26.3	2N28_A	5XSY_B	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q96PQ0|SORC2_HUMAN	26.3	2N28_A	6FFY_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q9BZD7|TMG3_HUMAN	26.3	2N28_A	1IOD_G	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q9H0Q3|FXYD6_HUMAN	26.3	2N28_A	2JO1_A	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|Q9H195|MUC3B_HUMAN	26.3	2N28_A	6UJB_B	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|Q9H8J5|MANS1_HUMAN	26.3	2N28_A	2MSX_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q9H8M9|EVA1A_HUMAN	26.3	2N28_A	6J8H_C	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|Q9NQ34|TMM9B_HUMAN	26.3	2N28_A	5FMW_V	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|Q9NV92|NFIP2_HUMAN	26.3	2N28_A	5Y5S_H	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q9P0K1|ADA22_HUMAN	26.3	2N28_A	3G5C_B	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q9P0T7|TMEM9_HUMAN	26.3	2N28_A	2KNC_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q9UGT4|SUSD2_HUMAN	26.3	2N28_A	2CQW_A	1Q5B_C	1Q5B_C
+sp|P05919|VPU_HV1H2	sp|Q9UKX5|ITA11_HUMAN	26.3	2N28_A	4NEH_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q9Y561|LRP12_HUMAN	26.3	2N28_A	1N7D_A	2KNC_B	2KNC_A
+sp|P69723|VIF_HV1H2	sp|Q13107|UBP4_HUMAN	26.3	4N9F_b	2GFO_A	4N9F_b	2MA9_B
+sp|O15033|AREL1_HUMAN	sp|P05919|VPU_HV1H2	26.3	6JX5_A	2N28_A	2MTP_A	2KNC_B
+sp|O75369|FLNB_HUMAN	sp|P05919|VPU_HV1H2	26.3	4B7L_B	2N28_A	2MTP_A	2KNC_B
+sp|O75382|TRIM3_HUMAN	sp|P05919|VPU_HV1H2	26.3	6QU1_A	2N28_A	2MTP_A	2KNC_B
+sp|O75592|MYCB2_HUMAN	sp|P05919|VPU_HV1H2	26.3	5O6C_A	2N28_A	2MTP_A	2KNC_B
+sp|P10163|PRB4_HUMAN	sp|P04578|ENV_HV1H2	26.3	4WEB_H	6PWU_E	4YDV_A	6PWU_E
+sp|P21333|FLNA_HUMAN	sp|P05919|VPU_HV1H2	26.3	4B7L_B	2N28_A	2MTP_A	2KNC_B
+sp|Q14315|FLNC_HUMAN	sp|P05919|VPU_HV1H2	26.3	4B7L_B	2N28_A	2MTP_A	2KNC_B
+sp|Q2Q1W2|LIN41_HUMAN	sp|P05919|VPU_HV1H2	26.3	6H3A_F	2N28_A	2MTP_A	2KNC_B
+sp|Q5H9K5|ZMAT1_HUMAN	sp|P04585|POL_HV1H2	26.3	1ZU1_A	1L6N_A	5FMF_I	5FMF_R
+sp|Q6UW63|PLGT2_HUMAN	sp|P05919|VPU_HV1H2	26.3	5F87_D	2N28_A	2MTP_A	2KNC_B
+sp|Q7Z4H8|PLGT3_HUMAN	sp|P05919|VPU_HV1H2	26.3	5F87_D	2N28_A	2MTP_A	2KNC_B
+sp|Q93045|STMN2_HUMAN	sp|P04591|GAG_HV1H2	26.3	6S9E_E	1L6N_A	6O9L_3	5FMF_J
+sp|Q9BQ13|KCD14_HUMAN	sp|P69723|VIF_HV1H2	26.3	1QDV_B	4N9F_b	6P59_Z	6P59_B
+sp|Q9BSF0|SMAKA_HUMAN	sp|P04591|GAG_HV1H2	26.3	6TB4_I	1L6N_A	5OQM_h	5FMF_J
+sp|Q9H8W5|TRI45_HUMAN	sp|P05919|VPU_HV1H2	26.3	6H3A_F	2N28_A	2MTP_A	2KNC_B
+sp|P04578|ENV_HV1H2	sp|A0A1B0GWG4|SRTM2_HUMAN	26.2	6PWU_E	2NDJ_A	6UM5_E	6MAR_D
+sp|P04578|ENV_HV1H2	sp|P16035|TIMP2_HUMAN	26.2	6PWU_E	2E2D_C	3G9R_F	3G9R_A
+sp|P04578|ENV_HV1H2	sp|Q9UF47|DNJ5B_HUMAN	26.2	6PWU_E	2N05_A	6UM5_E	6MAR_D
+sp|P04585|POL_HV1H2	sp|O15304|SIVA_HUMAN	26.2	1L6N_A	6H3A_F	5FMF_R	4V1N_M
+sp|P10747|CD28_HUMAN	sp|P04585|POL_HV1H2	26.2	1YJD_C	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|Q6FIF0|ZFAN6_HUMAN	26.2	1L6N_A	1WFF_A	5FMF_R	5FMF_J
+sp|P04585|POL_HV1H2	sp|Q6ZWC4|YS043_HUMAN	26.2	1L6N_A	2QLC_F	6BK8_O	6J6G_P
+sp|P04585|POL_HV1H2	sp|Q8IXQ4|GPAM1_HUMAN	26.2	1L6N_A	4H62_V	6ICZ_Z	6ID0_W
+sp|P04585|POL_HV1H2	tr|G5E9R7|G5E9R7_HUMAN	26.2	1L6N_A	6RMH_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|O15391|TYY2_HUMAN	26.2	1L6N_A	4C5H_B	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O95164|UBL3_HUMAN	26.2	1L6N_A	1WGH_A	5UDH_B	3LDZ_E
+sp|P10747|CD28_HUMAN	sp|P04591|GAG_HV1H2	26.2	1YJD_C	1L6N_A	6CPL_A	2XXM_A
+sp|P04591|GAG_HV1H2	sp|Q16663|CCL15_HUMAN	26.2	1L6N_A	2HCC_A	4QIW_N	4QIW_C
+sp|P04591|GAG_HV1H2	sp|Q2TBC4|PRIC4_HUMAN	26.2	1L6N_A	2JTN_A	6KF4_N	6KF4_G
+sp|P04591|GAG_HV1H2	sp|Q6ZWC4|YS043_HUMAN	26.2	1L6N_A	2QLC_F	6BK8_O	6J6G_P
+sp|Q96T75|DSCR8_HUMAN	sp|P04591|GAG_HV1H2	26.2	6IRT_A	1L6N_A	5JB3_1	6SW9_8
+sp|P04591|GAG_HV1H2	sp|Q9H305|CDIP1_HUMAN	26.2	1L6N_A	2Y0S_X	4AYB_N	4AYB_P
+sp|P04591|GAG_HV1H2	tr|G5E9R7|G5E9R7_HUMAN	26.2	1L6N_A	6RMH_A	6ICZ_Z	6ID1_O
+sp|P05919|VPU_HV1H2	sp|Q99946|PRRT1_HUMAN	26.2	2N28_A	6SGZ_I	6C14_A	6C14_A
+sp|P69723|VIF_HV1H2	sp|Q8NCF5|NF2IP_HUMAN	26.2	4N9F_b	2L76_A	4N9F_b	2MA9_B
+sp|P69726|VPR_HV1H2	sp|Q8NCR3|MFI_HUMAN	26.2	1ESX_A	2L53_B	5AJA_B	5AJA_C
+sp|O75056|SDC3_HUMAN	sp|P04585|POL_HV1H2	26.2	6ITH_A	1L6N_A	6CPL_A	2XXM_A
+sp|O75056|SDC3_HUMAN	sp|P04591|GAG_HV1H2	26.2	6ITH_A	1L6N_A	6CPL_A	2XXM_A
+sp|O75324|SNN_HUMAN	sp|P04585|POL_HV1H2	26.2	1ZZA_A	1L6N_A	6CPL_A	2XXM_A
+sp|O75324|SNN_HUMAN	sp|P04591|GAG_HV1H2	26.2	1ZZA_A	1L6N_A	6CPL_A	2XXM_A
+sp|P54652|HSP72_HUMAN	sp|P04578|ENV_HV1H2	26.2	5FPN_A	6PWU_E	6NM6_D	6MTJ_B
+sp|Q6ZVC0|NYAP1_HUMAN	sp|P04591|GAG_HV1H2	26.2	3WGU_G	1L6N_A	6TUT_Q	5FMF_J
+sp|Q01167|FOXK2_HUMAN	sp|P04578|ENV_HV1H2	26.1	1JXS_A	6PWU_E	6NM6_D	6MTJ_B
+sp|P04585|POL_HV1H2	sp|C9JBD0|KRBX1_HUMAN	26.1	1L6N_A	1V65_A	4ESJ_B	4KYW_A
+sp|P04585|POL_HV1H2	sp|Q96AK3|ABC3D_HUMAN	26.1	1L6N_A	6P3X_B	2BX9_C	2ZP8_F
+sp|P04585|POL_HV1H2	sp|Q96FQ6|S10AG_HUMAN	26.1	1L6N_A	3NXA_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|C9JBD0|KRBX1_HUMAN	26.1	1L6N_A	1V65_A	4ESJ_B	4KYW_A
+sp|P04591|GAG_HV1H2	sp|O96006|ZBED1_HUMAN	26.1	1L6N_A	2BW3_A	6SW9_8	5JBH_P
+sp|P04591|GAG_HV1H2	sp|P17812|PYRG1_HUMAN	26.1	1L6N_A	4ZDJ_A	5AUN_A	5AUN_B
+sp|P04591|GAG_HV1H2	sp|P35680|HNF1B_HUMAN	26.1	1L6N_A	2H8R_B	5FMF_J	5FMF_R
+sp|P04591|GAG_HV1H2	sp|Q32NC0|CR021_HUMAN	26.1	1L6N_A	1X0T_A	6KF4_N	6KF4_G
+sp|P04591|GAG_HV1H2	sp|Q96FQ6|S10AG_HUMAN	26.1	1L6N_A	3NXA_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9UNM6|PSD13_HUMAN	26.1	1L6N_A	6FVW_O	6KF4_N	6KF4_G
+sp|P04608|TAT_HV1H2	sp|P01034|CYTC_HUMAN	26.1	3MI9_C	3GAX_A	5K5S_B	5K5S_B
+sp|P04608|TAT_HV1H2	tr|A0A1W2PRN1|A0A1W2PRN1_HUMAN	26.1	3MI9_C	5IJO_G	4OGR_D	4IMY_H
+sp|P69723|VIF_HV1H2	sp|Q4G0X4|KCD21_HUMAN	26.1	4N9F_b	4BGC_A	4N9F_b	4AJY_C
+sp|P0C7V0|CF217_HUMAN	sp|P04591|GAG_HV1H2	26.1	2A05_A	1L6N_A	6RUI_D	5FMF_J
+sp|Q7L266|ASGL1_HUMAN	sp|P04591|GAG_HV1H2	26.1	4PVR_A	1L6N_A	6IR9_V	5FMF_J
+sp|P04578|ENV_HV1H2	sp|Q15744|CEBPE_HUMAN	26.0	6PWU_E	1HJB_B	2X7R_N	1FAV_A
+sp|P04578|ENV_HV1H2	sp|Q8NFZ5|TNIP2_HUMAN	26.0	6PWU_E	5H07_D	1JEK_B	1JEK_A
+sp|P04585|POL_HV1H2	sp|O14810|CPLX1_HUMAN	26.0	1L6N_A	5W5D_E	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|O75264|SIM24_HUMAN	26.0	1L6N_A	3MK7_F	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|P23297|S10A1_HUMAN	26.0	1L6N_A	5K89_H	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P29372|3MG_HUMAN	26.0	1L6N_A	1EWN_A	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|P62273|RS29_HUMAN	26.0	1L6N_A	5T2A_8	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q5W188|CST9P_HUMAN	26.0	1L6N_A	1KWI_A	6ICZ_Z	6ID1_N
+sp|P04585|POL_HV1H2	sp|Q8IUX4|ABC3F_HUMAN	26.0	1L6N_A	6P3X_B	2BX9_C	2ZP8_F
+sp|P04585|POL_HV1H2	sp|Q969V5|MUL1_HUMAN	26.0	1L6N_A	3T6P_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q96A37|RN166_HUMAN	26.0	1L6N_A	5DKA_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|O14810|CPLX1_HUMAN	26.0	1L6N_A	5W5D_E	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|O75264|SIM24_HUMAN	26.0	1L6N_A	3MK7_F	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|P21781|FGF7_HUMAN	26.0	1L6N_A	1QQK_A	6SW9_8	5JBH_O
+sp|P04591|GAG_HV1H2	sp|P23297|S10A1_HUMAN	26.0	1L6N_A	5K89_H	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P29372|3MG_HUMAN	26.0	1L6N_A	1EWN_A	6ICZ_Z	4F7U_A
+sp|Q3LI63|KR201_HUMAN	sp|P04591|GAG_HV1H2	26.0	2Z84_A	1L6N_A	5FYW_W	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q5W188|CST9P_HUMAN	26.0	1L6N_A	1KWI_A	6ICZ_Z	6ID1_N
+sp|P04591|GAG_HV1H2	sp|Q9Y2P8|RCL1_HUMAN	26.0	1L6N_A	4CLQ_A	4QIW_N	4QJV_B
+sp|P04608|TAT_HV1H2	sp|Q8N9I0|SYT2_HUMAN	26.0	3MI9_C	5W5C_F	4OGR_D	4OGR_D
+sp|P05919|VPU_HV1H2	sp|Q2MKA7|RSPO1_HUMAN	26.0	2N28_A	4CDK_E	6CFW_I	6CFW_N
+sp|P05919|VPU_HV1H2	sp|Q6ZMB5|T184A_HUMAN	26.0	2N28_A	5ZHY_D	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9BSK0|MALD1_HUMAN	26.0	2N28_A	6B8H_b	6C14_A	6C14_A
+sp|O43768|ENSA_HUMAN	sp|P04591|GAG_HV1H2	26.0	2IJQ_B	1L6N_A	6EM5_m	5UDH_B
+sp|Q12907|LMAN2_HUMAN	sp|P04585|POL_HV1H2	26.0	2DUR_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q12907|LMAN2_HUMAN	sp|P04591|GAG_HV1H2	26.0	2DUR_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q5J8M3|EMC4_HUMAN	sp|P04591|GAG_HV1H2	26.0	6WB9_4	1L6N_A	6TUT_Q	5FMF_J
+sp|Q96LP6|CL042_HUMAN	sp|P04591|GAG_HV1H2	26.0	5FJA_Q	1L6N_A	5FJA_Q	5FMF_J
+sp|P04578|ENV_HV1H2	sp|Q6UX46|ALKL2_HUMAN	25.9	6PWU_E	4NE9_P	6MTJ_G	6MTJ_B
+sp|P04585|POL_HV1H2	sp|A6NNY8|UBP27_HUMAN	25.9	1L6N_A	6TBM_Q	2BX9_C	2ZP8_F
+sp|P04585|POL_HV1H2	sp|A8MXE2|YI036_HUMAN	25.9	1L6N_A	2J0A_A	6ICZ_Z	6ID1_K
+sp|P04585|POL_HV1H2	sp|P0CW19|LIMS3_HUMAN	25.9	1L6N_A	2JTN_A	5FMF_R	5FMF_2
+sp|P04585|POL_HV1H2	sp|P0CW20|LIMS4_HUMAN	25.9	1L6N_A	2JTN_A	5FMF_R	5FMF_2
+sp|P04585|POL_HV1H2	sp|Q5M7Z0|RNFT1_HUMAN	25.9	1L6N_A	6VK0_B	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q7Z3T8|ZFY16_HUMAN	25.9	1L6N_A	4BKW_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8N163|CCAR2_HUMAN	25.9	1L6N_A	1X65_A	2MGU_M	5DOW_A
+sp|Q8N4S0|CCD82_HUMAN	sp|P04585|POL_HV1H2	25.9	6GMH_Z	1L6N_A	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|Q9HBE4|IL21_HUMAN	25.9	1L6N_A	3TGX_F	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q9Y508|RN114_HUMAN	25.9	1L6N_A	5DKA_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|A8MXE2|YI036_HUMAN	25.9	1L6N_A	2J0A_A	6ICZ_Z	6ID1_K
+sp|Q8N446|ZN843_HUMAN	sp|P04591|GAG_HV1H2	25.9	5AAZ_A	1L6N_A	5XOG_M	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9UHF3|NAT8B_HUMAN	25.9	1L6N_A	5F47_A	3A43_A	3A43_A
+sp|P04618|REV_HV1H2	tr|A0A087X1L8|A0A087X1L8_HUMAN	25.9	2X7L_R	1S7X_G	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|P0CL84|ST3L2_HUMAN	25.9	2N28_A	6QNX_A	4P6Z_V	4P6Z_G
+sp|P05919|VPU_HV1H2	sp|P0DKX4|SIM18_HUMAN	25.9	2N28_A	4P6V_C	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|P42857|NSG1_HUMAN	25.9	2N28_A	3SSB_I	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q5T0T0|MARH8_HUMAN	25.9	2N28_A	2M6M_A	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q9NUN5|LMBD1_HUMAN	25.9	2N28_A	4KMC_A	2KNC_B	2KNC_A
+sp|Q8WZ19|BACD1_HUMAN	sp|P69723|VIF_HV1H2	25.9	2R9R_H	4N9F_b	6P59_Z	6P59_B
+sp|P56278|MTCP1_HUMAN	sp|P04591|GAG_HV1H2	25.9	1A1X_A	1L6N_A	5OQJ_6	5FMF_J
+sp|Q4VC12|MSS51_HUMAN	sp|P04585|POL_HV1H2	25.9	2DAN_A	1L6N_A	5FMF_I	5FMF_R
+sp|Q8WWU5|TCP11_HUMAN	sp|P04591|GAG_HV1H2	25.9	2LND_A	1L6N_A	5OQM_n	5FMF_J
+sp|Q969W3|F104A_HUMAN	sp|P04591|GAG_HV1H2	25.9	5FJA_Q	1L6N_A	6EU1_Q	5FMF_J
+sp|Q96N68|CR015_HUMAN	sp|P04591|GAG_HV1H2	25.9	6AZ3_G	1L6N_A	5W65_P	5FMF_J
+sp|P04578|ENV_HV1H2	sp|P50453|SPB9_HUMAN	25.8	6PWU_E	3KCG_I	6BSY_A	5DHX_C
+sp|P04578|ENV_HV1H2	sp|Q6UWF3|SCIMP_HUMAN	25.8	6PWU_E	6C14_A	6UM5_E	6MAR_D
+sp|O75064|DEN4B_HUMAN	sp|P04585|POL_HV1H2	25.8	6EKK_B	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|O76080|ZFAN5_HUMAN	25.8	1L6N_A	2KZY_A	5FMF_R	5FMF_J
+sp|P04585|POL_HV1H2	sp|P23025|XPA_HUMAN	25.8	1L6N_A	6RO4_G	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9BQ90|KLDC3_HUMAN	25.8	1L6N_A	6DO4_A	6D6V_A	6D6V_F
+sp|P04585|POL_HV1H2	sp|Q9C037|TRIM4_HUMAN	25.8	1L6N_A	4CFG_A	5FMF_R	5IP7_L
+sp|Q9HBJ7|UBP29_HUMAN	sp|P04585|POL_HV1H2	25.8	3U12_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q9NRW3|ABC3C_HUMAN	25.8	1L6N_A	5CQH_A	2BX9_C	2ZP8_F
+sp|P04591|GAG_HV1H2	sp|A0A0U1RR11|CENL1_HUMAN	25.8	1L6N_A	3FAC_D	2QEX_Z	1VQ8_1
+sp|P04591|GAG_HV1H2	sp|A0A0U1RRI6|CENL3_HUMAN	25.8	1L6N_A	3FAC_D	2QEX_Z	1VQ8_1
+sp|A6NG13|MGT4D_HUMAN	sp|P04591|GAG_HV1H2	25.8	6T59_s	1L6N_A	2QA4_G	2QEX_Z
+sp|P04591|GAG_HV1H2	sp|O00422|SAP18_HUMAN	25.8	1L6N_A	4A6Q_A	2QEX_Z	3G6E_Q
+sp|P04591|GAG_HV1H2	sp|O75204|TM127_HUMAN	25.8	1L6N_A	6JPA_E	2QEX_Z	1VQO_C
+sp|P04591|GAG_HV1H2	sp|P09001|RM03_HUMAN	25.8	1L6N_A	4V19_E	2QEX_Z	1VQ8_B
+sp|P04591|GAG_HV1H2	sp|P0DPI3|CENL2_HUMAN	25.8	1L6N_A	3FAC_D	2QEX_Z	1VQ8_1
+sp|P04591|GAG_HV1H2	sp|P10644|KAP0_HUMAN	25.8	1L6N_A	6NO7_D	2QEX_Z	1VQ8_D
+sp|P04591|GAG_HV1H2	sp|P18621|RL17_HUMAN	25.8	1L6N_A	6EK0_L	2QEX_Z	3G4S_R
+sp|P04591|GAG_HV1H2	sp|P27635|RL10_HUMAN	25.8	1L6N_A	6R87_s	2QEX_Z	2QA4_H
+sp|P04591|GAG_HV1H2	sp|P30050|RL12_HUMAN	25.8	1L6N_A	5DGE_m	2QEX_Z	3G6E_I
+sp|P04591|GAG_HV1H2	sp|P32969|RL9_HUMAN	25.8	1L6N_A	3JBN_A	2QEX_Z	3G6E_E
+sp|P04591|GAG_HV1H2	sp|P36578|RL4_HUMAN	25.8	1L6N_A	6EK0_L	2QEX_Z	1VQO_C
+sp|P04591|GAG_HV1H2	sp|P39023|RL3_HUMAN	25.8	1L6N_A	5XY3_B	2QEX_Z	1VQ8_B
+sp|P04591|GAG_HV1H2	sp|P40429|RL13A_HUMAN	25.8	1L6N_A	4V8P_G	2QEX_Z	3OW2_I
+sp|P04591|GAG_HV1H2	sp|P42766|RL35_HUMAN	25.8	1L6N_A	5XY3_h	2QEX_Z	3G71_V
+sp|P04591|GAG_HV1H2	sp|P46776|RL27A_HUMAN	25.8	1L6N_A	5XY3_a	2QEX_Z	1VQO_O
+sp|P04591|GAG_HV1H2	sp|P46777|RL5_HUMAN	25.8	1L6N_A	6GQB_D	2QEX_Z	1W2B_M
+sp|P04591|GAG_HV1H2	sp|P46778|RL21_HUMAN	25.8	1L6N_A	4V3P_L	2QEX_Z	3G6E_Q
+sp|P04591|GAG_HV1H2	sp|P61313|RL15_HUMAN	25.8	1L6N_A	6RM3_L	2QEX_Z	1VQ8_M
+sp|P04591|GAG_HV1H2	sp|P62495|ERF1_HUMAN	25.8	1L6N_A	1DT9_A	2QEX_Z	1VQ8_F
+sp|P04591|GAG_HV1H2	sp|P62750|RL23A_HUMAN	25.8	1L6N_A	6EK0_L	2QEX_Z	1VQO_S
+sp|P04591|GAG_HV1H2	sp|P62829|RL23_HUMAN	25.8	1L6N_A	4V6U_B	2QEX_Z	1VQO_K
+sp|P04591|GAG_HV1H2	sp|P62891|RL39_HUMAN	25.8	1L6N_A	5XY3_l	2QEX_Z	1VQ8_2
+sp|P04591|GAG_HV1H2	sp|P62899|RL31_HUMAN	25.8	1L6N_A	5XY3_d	2QEX_Z	3G71_X
+sp|P04591|GAG_HV1H2	sp|P62910|RL32_HUMAN	25.8	1L6N_A	5XXB_d	2QEX_Z	3G6E_Y
+sp|P04591|GAG_HV1H2	sp|P62913|RL11_HUMAN	25.8	1L6N_A	5T2A_K	2QEX_Z	1VQ8_D
+sp|P04591|GAG_HV1H2	sp|P62917|RL8_HUMAN	25.8	1L6N_A	6AZ3_A	2QEX_Z	3G4S_A
+sp|P04591|GAG_HV1H2	sp|P83731|RL24_HUMAN	25.8	1L6N_A	4V6W_C	2QEX_Z	3OW2_T
+sp|P04591|GAG_HV1H2	sp|P83881|RL36A_HUMAN	25.8	1L6N_A	5UMD_i	2QEX_Z	1VQ8_3
+sp|P04591|GAG_HV1H2	sp|P84098|RL19_HUMAN	25.8	1L6N_A	4V7E_C	2QEX_Z	3G6E_P
+sp|P04591|GAG_HV1H2	sp|Q07020|RL18_HUMAN	25.8	1L6N_A	5XY3_Q	2QEX_Z	1VQO_O
+sp|P04591|GAG_HV1H2	sp|Q13107|UBP4_HUMAN	25.8	1L6N_A	2GFO_A	2QEX_Z	1VQ8_3
+sp|P04591|GAG_HV1H2	sp|Q16540|RM23_HUMAN	25.8	1L6N_A	6GAW_B	2QEX_Z	1VQO_S
+sp|P04591|GAG_HV1H2	sp|Q59GN2|R39L5_HUMAN	25.8	1L6N_A	6RM3_L	2QEX_Z	1VQ8_2
+sp|P04591|GAG_HV1H2	sp|Q5JXC2|MIIP_HUMAN	25.8	1L6N_A	1VQ8_M	2QEX_Z	1VQ8_M
+sp|P04591|GAG_HV1H2	sp|Q5T653|RM02_HUMAN	25.8	1L6N_A	6GAW_B	2QEX_Z	3G4S_A
+sp|P04591|GAG_HV1H2	sp|Q6NVV1|R13P3_HUMAN	25.8	1L6N_A	5XXB_N	2QEX_Z	3OW2_I
+sp|P04591|GAG_HV1H2	sp|Q6P179|ERAP2_HUMAN	25.8	1L6N_A	5AB0_A	2QEX_Z	1VQ8_M
+sp|P04591|GAG_HV1H2	sp|Q6P1L8|RM14_HUMAN	25.8	1L6N_A	6GAW_B	2QEX_Z	1VQO_K
+sp|P04591|GAG_HV1H2	sp|Q92901|RL3L_HUMAN	25.8	1L6N_A	5XY3_B	2QEX_Z	1VQ8_B
+sp|P04591|GAG_HV1H2	sp|Q969Q0|RL36L_HUMAN	25.8	1L6N_A	5UMD_i	2QEX_Z	1VQ8_3
+sp|P04591|GAG_HV1H2	sp|Q96EH5|RL39L_HUMAN	25.8	1L6N_A	5XY3_l	2QEX_Z	1VQ8_2
+sp|P04591|GAG_HV1H2	sp|Q96GE9|DMAC1_HUMAN	25.8	1L6N_A	2LBZ_A	2QEX_Z	1VQ8_M
+sp|P04591|GAG_HV1H2	sp|Q96L21|RL10L_HUMAN	25.8	1L6N_A	6R87_s	2QEX_Z	2QA4_H
+sp|P04591|GAG_HV1H2	sp|Q99611|SPS2_HUMAN	25.8	1L6N_A	5L16_A	2QEX_Z	3G6E_P
+sp|Q9BQ16|TICN3_HUMAN	sp|P04591|GAG_HV1H2	25.8	1NUB_B	1L6N_A	1VQ8_G	2QEX_Z
+sp|P04591|GAG_HV1H2	sp|Q9BYD1|RM13_HUMAN	25.8	1L6N_A	6GB2_B	2QEX_Z	3OW2_I
+sp|P04591|GAG_HV1H2	sp|Q9BYD3|RM04_HUMAN	25.8	1L6N_A	6GAW_B	2QEX_Z	1VQO_C
+sp|P04591|GAG_HV1H2	sp|Q9BZK3|NACP4_HUMAN	25.8	1L6N_A	6T59_N	2QEX_Z	1W2B_M
+sp|P04591|GAG_HV1H2	sp|Q9H0U6|RM18_HUMAN	25.8	1L6N_A	6GB2_B	2QEX_Z	1W2B_M
+sp|Q9HBJ7|UBP29_HUMAN	sp|P04591|GAG_HV1H2	25.8	3U12_A	1L6N_A	5FMF_L	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9NQR1|KMT5A_HUMAN	25.8	1L6N_A	5HQ2_M	2QEX_Z	3OW2_I
+sp|P04591|GAG_HV1H2	sp|Q9NS28|RGS18_HUMAN	25.8	1L6N_A	1AGR_E	2QEX_Z	1VQ8_D
+sp|P04591|GAG_HV1H2	sp|Q9NWU5|RM22_HUMAN	25.8	1L6N_A	6NU3_T	2QEX_Z	3G4S_R
+sp|P04591|GAG_HV1H2	sp|Q9NX20|RM16_HUMAN	25.8	1L6N_A	4V19_Q	2QEX_Z	2QA4_H
+sp|P04591|GAG_HV1H2	sp|Q9NZ08|ERAP1_HUMAN	25.8	1L6N_A	6Q4R_A	2QEX_Z	1VQ8_M
+sp|P04591|GAG_HV1H2	sp|Q9UBW7|ZMYM2_HUMAN	25.8	1L6N_A	2DAS_A	2QEX_Z	3OW2_T
+sp|P04591|GAG_HV1H2	sp|Q9UHA3|RLP24_HUMAN	25.8	1L6N_A	3JCT_u	2QEX_Z	3OW2_T
+sp|P04591|GAG_HV1H2	sp|Q9UNX3|RL26L_HUMAN	25.8	1L6N_A	6T4Q_L	2QEX_Z	3G6E_T
+sp|P04591|GAG_HV1H2	sp|Q9Y3B7|RM11_HUMAN	25.8	1L6N_A	6GB2_B	2QEX_Z	3G6E_I
+sp|P04618|REV_HV1H2	sp|P50453|SPB9_HUMAN	25.8	2X7L_R	3KCG_I	5DHX_C	5DHX_C
+sp|P05919|VPU_HV1H2	sp|Q8IV01|SYT12_HUMAN	25.8	2N28_A	1DQV_A	2KNC_B	2KNC_A
+sp|A7XYQ1|SOBP_HUMAN	sp|P04591|GAG_HV1H2	25.8	2L8E_A	1L6N_A	1VQO_U	2QEX_Z
+sp|P78549|NTH_HUMAN	sp|P04591|GAG_HV1H2	25.8	1ORN_A	1L6N_A	1VQO_Y	2QEX_Z
+sp|Q5SVZ6|ZMYM1_HUMAN	sp|P04591|GAG_HV1H2	25.8	2BW3_A	1L6N_A	1VQO_U	2QEX_Z
+sp|Q92889|XPF_HUMAN	sp|P04591|GAG_HV1H2	25.8	6SXA_F	1L6N_A	1VQO_Y	2QEX_Z
+sp|Q96A47|ISL2_HUMAN	sp|P04585|POL_HV1H2	25.8	4EGC_A	1L6N_A	5FMF_I	5FMF_R
+sp|Q96DA6|TIM14_HUMAN	sp|P04591|GAG_HV1H2	25.8	2GUZ_L	1L6N_A	6RUI_F	5FMF_J
+sp|Q9HAP6|LIN7B_HUMAN	sp|P04591|GAG_HV1H2	25.8	1Y74_C	1L6N_A	1VQ8_L	2QEX_Z
+sp|Q9NUP9|LIN7C_HUMAN	sp|P04591|GAG_HV1H2	25.8	1Y74_C	1L6N_A	1VQ8_L	2QEX_Z
+sp|P04585|POL_HV1H2	sp|P12004|PCNA_HUMAN	25.7	1L6N_A	4RJF_A	6T8H_B	1IZ5_A
+sp|P04585|POL_HV1H2	sp|P28562|DUS1_HUMAN	25.7	1L6N_A	2G6Z_A	5FMF_R	5FMF_J
+sp|P04585|POL_HV1H2	sp|P49023|PAXI_HUMAN	25.7	1L6N_A	1RUT_X	5FMF_R	5IP7_L
+sp|Q9BZR9|TRIM8_HUMAN	sp|P04585|POL_HV1H2	25.7	4CFG_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q9UGY1|NOL12_HUMAN	25.7	1L6N_A	4IQJ_P	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q9Y2J0|RP3A_HUMAN	25.7	1L6N_A	5W5C_F	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|P12004|PCNA_HUMAN	25.7	1L6N_A	4RJF_A	6T8H_B	1IZ5_A
+sp|P04591|GAG_HV1H2	sp|P28562|DUS1_HUMAN	25.7	1L6N_A	2G6Z_A	5FMF_R	5FMF_J
+sp|Q12999|TSN31_HUMAN	sp|P04591|GAG_HV1H2	25.7	5TCX_A	1L6N_A	6O9L_4	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q8N9L1|ZIC4_HUMAN	25.7	1L6N_A	2GLI_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BVT8|TMUB1_HUMAN	25.7	1L6N_A	3VDZ_A	5UDH_B	3LDZ_E
+sp|P04591|GAG_HV1H2	sp|Q9UGY1|NOL12_HUMAN	25.7	1L6N_A	4IQJ_P	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q9UHQ9|NB5R1_HUMAN	25.7	1L6N_A	3W5H_A	4AYB_N	4AYB_H
+sp|P04608|TAT_HV1H2	sp|Q68CP4|HGNAT_HUMAN	25.7	3MI9_C	16VP_A	4OGR_D	4OGR_D
+sp|P05919|VPU_HV1H2	sp|P0CL85|ST3L3_HUMAN	25.7	2N28_A	6QNX_A	4P6Z_V	4P6Z_G
+sp|P05919|VPU_HV1H2	sp|Q8N4C9|CQ078_HUMAN	25.7	2N28_A	3FYM_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q99965|ADAM2_HUMAN	25.7	2N28_A	5Y31_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q9H6X4|TM134_HUMAN	25.7	2N28_A	6C14_D	6C14_A	6C14_D
+sp|P69726|VPR_HV1H2	sp|Q6XYB7|LBX2_HUMAN	25.7	1ESX_A	1AU7_A	4Z8L_B	5AJA_B
+sp|P69726|VPR_HV1H2	sp|Q96AA3|RFT1_HUMAN	25.7	1ESX_A	5C6N_A	1X9V_A	1X9V_A
+sp|P09758|TACD2_HUMAN	sp|P04585|POL_HV1H2	25.7	4MZV_A	1L6N_A	6CPL_A	2XXM_A
+sp|P09758|TACD2_HUMAN	sp|P04591|GAG_HV1H2	25.7	4MZV_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q9H7Z7|PGES2_HUMAN	sp|P04591|GAG_HV1H2	25.7	2PBJ_B	1L6N_A	5XOG_M	5FMF_J
+sp|Q9NTK1|DEPP1_HUMAN	sp|P04591|GAG_HV1H2	25.7	6B2Q_B	1L6N_A	6GML_U	5FMF_J
+sp|P04585|POL_HV1H2	sp|P0CAP2|GRL1A_HUMAN	25.6	1L6N_A	6DRD_M	4FCY_A	4FCY_B
+sp|P04585|POL_HV1H2	sp|Q5T681|CJ062_HUMAN	25.6	1L6N_A	4PFB_A	6AR1_A	6AR1_A
+sp|P04585|POL_HV1H2	sp|Q86UV6|TRI74_HUMAN	25.6	1L6N_A	6QU1_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q86UV7|TRI73_HUMAN	25.6	1L6N_A	6QU1_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q86XD8|ZFAN4_HUMAN	25.6	1L6N_A	1WFF_A	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|Q96RU3|FNBP1_HUMAN	25.6	1L6N_A	2EFL_A	6TAS_D	6TAS_F
+sp|Q9UGK3|STAP2_HUMAN	sp|P04585|POL_HV1H2	25.6	2EL8_A	1L6N_A	5FMF_I	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q9Y4E5|ZN451_HUMAN	25.6	1L6N_A	5V3J_E	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|O95563|MPC2_HUMAN	25.6	1L6N_A	5UHQ_A	5JB3_W	6SW9_8
+sp|P0DKL9|A14EL_HUMAN	sp|P04591|GAG_HV1H2	25.6	1ZLG_A	1L6N_A	6O9L_6	5FMF_J
+sp|P62854|RS26_HUMAN	sp|P04591|GAG_HV1H2	25.6	5VYC_a	1L6N_A	3J7A_3	5JB3_W
+sp|Q5BKU9|OXLD1_HUMAN	sp|P04591|GAG_HV1H2	25.6	6NCL_c	1L6N_A	5OIK_Y	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9H1Q7|PED1A_HUMAN	25.6	1L6N_A	4H08_A	5JB3_W	6SW9_8
+sp|Q9NQ39|RS10L_HUMAN	sp|P04591|GAG_HV1H2	25.6	6EK0_S	1L6N_A	3J7A_O	5JB3_W
+sp|P04591|GAG_HV1H2	sp|Q9NWD8|TM248_HUMAN	25.6	1L6N_A	6KBB_C	2QEX_Z	3G6E_Q
+sp|Q9NXV2|KCTD5_HUMAN	sp|P04591|GAG_HV1H2	25.6	3DRX_B	1L6N_A	5OIK_Y	5FMF_J
+sp|Q9UI09|NDUAC_HUMAN	sp|P04591|GAG_HV1H2	25.6	5XTH_N	1L6N_A	3J7A_J	5JB3_W
+sp|P04591|GAG_HV1H2	sp|Q9UK80|UBP21_HUMAN	25.6	1L6N_A	2Y5B_E	5JB3_W	6SW9_8
+sp|O00217|NDUS8_HUMAN	sp|P04591|GAG_HV1H2	25.6	5XTI_B	1L6N_A	5LL6_h	5JB3_W
+sp|O00232|PSD12_HUMAN	sp|P04591|GAG_HV1H2	25.6	6EPF_P	1L6N_A	4UER_c	5JB3_W
+sp|O15438|MRP3_HUMAN	sp|P04591|GAG_HV1H2	25.6	6BHU_A	1L6N_A	5LL6_h	5JB3_W
+sp|O15439|MRP4_HUMAN	sp|P04591|GAG_HV1H2	25.6	5UJA_A	1L6N_A	5LL6_h	5JB3_W
+sp|O15440|MRP5_HUMAN	sp|P04591|GAG_HV1H2	25.6	5UJA_A	1L6N_A	5LL6_h	5JB3_W
+sp|O60423|AT8B3_HUMAN	sp|P04591|GAG_HV1H2	25.6	6LCP_A	1L6N_A	3J7A_R	5JB3_W
+sp|O60706|ABCC9_HUMAN	sp|P04591|GAG_HV1H2	25.6	6PZA_C	1L6N_A	5LL6_h	5JB3_W
+sp|O94911|ABCA8_HUMAN	sp|P04591|GAG_HV1H2	25.6	5XJY_A	1L6N_A	5LL6_h	5JB3_W
+sp|O95255|MRP6_HUMAN	sp|P04591|GAG_HV1H2	25.6	6BHU_A	1L6N_A	5LL6_h	5JB3_W
+sp|O95342|ABCBB_HUMAN	sp|P04591|GAG_HV1H2	25.6	6LR0_U	1L6N_A	5LL6_h	5JB3_W
+sp|O95347|SMC2_HUMAN	sp|P04591|GAG_HV1H2	25.6	6WG3_A	1L6N_A	5LL6_h	5JB3_W
+sp|O95477|ABCA1_HUMAN	sp|P04591|GAG_HV1H2	25.6	5XJY_A	1L6N_A	5LL6_h	5JB3_W
+sp|P08183|MDR1_HUMAN	sp|P04591|GAG_HV1H2	25.6	6UJP_A	1L6N_A	5LL6_h	5JB3_W
+sp|P13569|CFTR_HUMAN	sp|P04591|GAG_HV1H2	25.6	6O1V_A	1L6N_A	5LL6_h	5JB3_W
+sp|P21439|MDR3_HUMAN	sp|P04591|GAG_HV1H2	25.6	6S7P_A	1L6N_A	5LL6_h	5JB3_W
+sp|P21912|SDHB_HUMAN	sp|P04591|GAG_HV1H2	25.6	4YSX_F	1L6N_A	5LL6_h	5JB3_W
+sp|P28331|NDUS1_HUMAN	sp|P04591|GAG_HV1H2	25.6	6G2J_G	1L6N_A	5LL6_h	5JB3_W
+sp|P31323|KAP3_HUMAN	sp|P04591|GAG_HV1H2	25.6	3TNQ_A	1L6N_A	4UER_c	5JB3_W
+sp|P33527|MRP1_HUMAN	sp|P04591|GAG_HV1H2	25.6	6BHU_A	1L6N_A	5LL6_h	5JB3_W
+sp|P49721|PSB2_HUMAN	sp|P04591|GAG_HV1H2	25.6	5LE5_J	1L6N_A	3J7A_Y	5JB3_W
+sp|P55771|PAX9_HUMAN	sp|P04591|GAG_HV1H2	25.6	6PAX_A	1L6N_A	3J7A_U	5JB3_W
+sp|P61221|ABCE1_HUMAN	sp|P04591|GAG_HV1H2	25.6	6YAM_k	1L6N_A	5LL6_h	5JB3_W
+sp|P62081|RS7_HUMAN	sp|P04591|GAG_HV1H2	25.6	5T2A_4	1L6N_A	3J7A_J	5JB3_W
+sp|P63220|RS21_HUMAN	sp|P04591|GAG_HV1H2	25.6	6P4H_W	1L6N_A	3J7A_Z	5JB3_W
+sp|P78363|ABCA4_HUMAN	sp|P04591|GAG_HV1H2	25.6	5XJY_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q05925|HME1_HUMAN	sp|P04591|GAG_HV1H2	25.6	1MH3_A	1L6N_A	3J7A_2	5JB3_W
+sp|Q09428|ABCC8_HUMAN	sp|P04591|GAG_HV1H2	25.6	6PZA_C	1L6N_A	5LL6_h	5JB3_W
+sp|Q12882|DPYD_HUMAN	sp|P04591|GAG_HV1H2	25.6	1H7X_C	1L6N_A	5LL6_h	5JB3_W
+sp|Q2M3G0|ABCB5_HUMAN	sp|P04591|GAG_HV1H2	25.6	6S7P_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q2MKA7|RSPO1_HUMAN	sp|P04591|GAG_HV1H2	25.6	4CDK_E	1L6N_A	4UER_9	5JB3_W
+sp|Q4W5N1|ABCAB_HUMAN	sp|P04591|GAG_HV1H2	25.6	2ANB_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q53F19|NCBP3_HUMAN	sp|P04591|GAG_HV1H2	25.6	1WHV_A	1L6N_A	4UER_c	5JB3_W
+sp|Q5JNZ5|RS26L_HUMAN	sp|P04591|GAG_HV1H2	25.6	5VYC_a	1L6N_A	3J7A_3	5JB3_W
+sp|Q5T3U5|MRP7_HUMAN	sp|P04591|GAG_HV1H2	25.6	6PZA_C	1L6N_A	5LL6_h	5JB3_W
+sp|Q6UXX9|RSPO2_HUMAN	sp|P04591|GAG_HV1H2	25.6	4C8V_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q86UK0|ABCAC_HUMAN	sp|P04591|GAG_HV1H2	25.6	5XJY_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q86UQ4|ABCAD_HUMAN	sp|P04591|GAG_HV1H2	25.6	5XJY_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q8IUA7|ABCA9_HUMAN	sp|P04591|GAG_HV1H2	25.6	5XJY_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q8IUX4|ABC3F_HUMAN	sp|P04591|GAG_HV1H2	25.6	6P3X_B	1L6N_A	4UER_9	5JB3_W
+sp|Q8IZY2|ABCA7_HUMAN	sp|P04591|GAG_HV1H2	25.6	5XJY_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q8N139|ABCA6_HUMAN	sp|P04591|GAG_HV1H2	25.6	5XJY_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q8NEF9|SRFB1_HUMAN	sp|P04591|GAG_HV1H2	25.6	1JAT_B	1L6N_A	4UER_c	5JB3_W
+sp|Q8TE23|TS1R2_HUMAN	sp|P04591|GAG_HV1H2	25.6	6N4X_A	1L6N_A	4UER_9	5JB3_W
+sp|Q8WWZ4|ABCAA_HUMAN	sp|P04591|GAG_HV1H2	25.6	5XJY_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q8WWZ7|ABCA5_HUMAN	sp|P04591|GAG_HV1H2	25.6	5XJY_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q92878|RAD50_HUMAN	sp|P04591|GAG_HV1H2	25.6	6WG3_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q92887|MRP2_HUMAN	sp|P04591|GAG_HV1H2	25.6	6BHU_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q96A44|SPSB4_HUMAN	sp|P04591|GAG_HV1H2	25.6	2FNJ_A	1L6N_A	3J7A_F	5JB3_W
+sp|Q96AK3|ABC3D_HUMAN	sp|P04591|GAG_HV1H2	25.6	6P3X_B	1L6N_A	4UER_9	5JB3_W
+sp|Q96G03|PGM2_HUMAN	sp|P04591|GAG_HV1H2	25.6	3NA5_A	1L6N_A	3J7A_S	5JB3_W
+sp|Q96J65|MRP9_HUMAN	sp|P04591|GAG_HV1H2	25.6	5UJA_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q96J66|ABCCB_HUMAN	sp|P04591|GAG_HV1H2	25.6	5UJA_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q99758|ABCA3_HUMAN	sp|P04591|GAG_HV1H2	25.6	5XJY_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q9BQ75|CMS1_HUMAN	sp|P04591|GAG_HV1H2	25.6	4V4B_A	1L6N_A	3J7A_U	5JB3_W
+sp|Q9BT04|FUZZY_HUMAN	sp|P04601|NEF_HV1H2	25.6	5L4G_B	3TB8_A	6OWT_M	6OWT_N
+sp|Q9BT78|CSN4_HUMAN	sp|P04591|GAG_HV1H2	25.6	4D10_L	1L6N_A	4UER_c	5JB3_W
+sp|Q9BW27|NUP85_HUMAN	sp|P04591|GAG_HV1H2	25.6	5A9Q_H	1L6N_A	3J7A_Y	5JB3_W
+sp|Q9BXY4|RSPO3_HUMAN	sp|P04591|GAG_HV1H2	25.6	6PXV_C	1L6N_A	5LL6_h	5JB3_W
+sp|Q9BZC7|ABCA2_HUMAN	sp|P04591|GAG_HV1H2	25.6	5XJY_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q9H0H9|C4F30_HUMAN	sp|P04591|GAG_HV1H2	25.6	4V7E_B	1L6N_A	3J7A_L	5JB3_W
+sp|Q9H1P6|CT085_HUMAN	sp|P04585|POL_HV1H2	25.6	3BVH_A	1L6N_A	5O2U_C	5TEO_B
+sp|Q9H1P6|CT085_HUMAN	sp|P04591|GAG_HV1H2	25.6	3BVH_A	1L6N_A	5O2U_C	5TEO_B
+sp|Q9H553|ALG2_HUMAN	sp|P04591|GAG_HV1H2	25.6	1XV5_A	1L6N_A	3J7A_C	5JB3_W
+sp|Q9H9L4|KANL2_HUMAN	sp|P04591|GAG_HV1H2	25.6	6Q8Y_H	1L6N_A	3J7A_S	5JB3_W
+sp|Q9HBV1|POPD3_HUMAN	sp|P04591|GAG_HV1H2	25.6	3OCP_A	1L6N_A	3J7A_M	5JB3_W
+sp|Q9NTJ3|SMC4_HUMAN	sp|P04591|GAG_HV1H2	25.6	6WG3_A	1L6N_A	5LL6_h	5JB3_W
+sp|Q9NY12|GAR1_HUMAN	sp|P04591|GAG_HV1H2	25.6	3UAI_C	1L6N_A	5FJA_Q	5FMF_J
+sp|Q9UJ72|ANX10_HUMAN	sp|P04591|GAG_HV1H2	25.6	1AEI_D	1L6N_A	3J7A_M	5JB3_W
+sp|Q9UQE7|SMC3_HUMAN	sp|P04591|GAG_HV1H2	25.6	6WG3_B	1L6N_A	5LL6_h	5JB3_W
+sp|P04578|ENV_HV1H2	sp|Q9UBG7|RBPJL_HUMAN	25.5	6PWU_E	3IAG_C	6NIJ_B	5WHZ_L
+sp|P04585|POL_HV1H2	sp|P20962|PTMS_HUMAN	25.5	1L6N_A	6RXZ_C	6BK8_O	5YLZ_T
+sp|Q5T6X5|GPC6A_HUMAN	sp|P04585|POL_HV1H2	25.5	6N4X_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q8N565|MREG_HUMAN	25.5	1L6N_A	6CMY_A	5FMF_R	5FMF_M
+sp|P04585|POL_HV1H2	sp|Q8WXD5|GEMI6_HUMAN	25.5	1L6N_A	1Y96_C	6ICZ_Z	6ID1_h
+sp|P04585|POL_HV1H2	sp|Q9H4E7|DEFI6_HUMAN	25.5	1L6N_A	4Y93_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9UPM9|B9D1_HUMAN	25.5	1L6N_A	2D8V_A	6SSL_I	6SSL_I
+sp|P04585|POL_HV1H2	sp|Q9Y676|RT18B_HUMAN	25.5	1L6N_A	6RW4_O	2BX9_C	2ZP8_F
+sp|P47224|MSS4_HUMAN	sp|P04591|GAG_HV1H2	25.5	1HXR_A	1L6N_A	3H0G_L	5FMF_J
+sp|Q5T6X5|GPC6A_HUMAN	sp|P04591|GAG_HV1H2	25.5	6N4X_A	1L6N_A	5FMF_L	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q8WXD5|GEMI6_HUMAN	25.5	1L6N_A	1Y96_C	6ICZ_Z	6ID1_h
+sp|Q9H9R9|DBND1_HUMAN	sp|P04591|GAG_HV1H2	25.5	6TMF_U	1L6N_A	3J7A_X	5JB3_W
+sp|P04591|GAG_HV1H2	sp|Q9UPM9|B9D1_HUMAN	25.5	1L6N_A	2D8V_A	6SSK_B	6SSL_I
+sp|P04608|TAT_HV1H2	sp|P0CAP1|MYZAP_HUMAN	25.5	3MI9_C	1I84_V	4OR5_C	4OR5_E
+sp|Q9BQ24|ZFY21_HUMAN	sp|P04608|TAT_HV1H2	25.5	2RRF_A	3MI9_C	4OR5_C	4OGR_D
+sp|P69723|VIF_HV1H2	sp|Q9UNN5|FAF1_HUMAN	25.5	4N9F_b	2EC4_A	4N9F_b	2MA9_B
+sp|Q6UWW9|TM207_HUMAN	sp|P04585|POL_HV1H2	25.5	6C13_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q6UWW9|TM207_HUMAN	sp|P04591|GAG_HV1H2	25.5	6C13_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q96S59|RANB9_HUMAN	sp|P04578|ENV_HV1H2	25.5	6SWY_1	6PWU_E	6NM6_D	6MTJ_B
+sp|P19256|LFA3_HUMAN	sp|P04585|POL_HV1H2	25.4	3ALW_A	1L6N_A	5T70_G	3GV2_A
+sp|P04585|POL_HV1H2	sp|P38398|BRCA1_HUMAN	25.4	1L6N_A	4U4A_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q86T96|RN180_HUMAN	25.4	1L6N_A	6RZZ_s	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9UPV7|PHF24_HUMAN	25.4	1L6N_A	5XHT_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9Y680|FKBP7_HUMAN	25.4	1L6N_A	4MSP_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|O00744|WN10B_HUMAN	25.4	1L6N_A	6AHY_B	5JB3_W	6SW9_8
+sp|P04591|GAG_HV1H2	sp|Q70EL3|UBP50_HUMAN	25.4	1L6N_A	3N3K_A	4QIW_N	4QIW_N
+sp|P04591|GAG_HV1H2	sp|Q86V20|SHLD2_HUMAN	25.4	1L6N_A	6KTO_D	6SW9_8	5JB3_Y
+sp|Q8NA96|YE027_HUMAN	sp|P04591|GAG_HV1H2	25.4	5YT6_F	1L6N_A	3CW2_N	6SW9_8
+sp|P04591|GAG_HV1H2	sp|Q9Y680|FKBP7_HUMAN	25.4	1L6N_A	4MSP_A	2MGU_M	5DOW_A
+sp|P05919|VPU_HV1H2	sp|Q00994|BEX3_HUMAN	25.4	2N28_A	5LTX_B	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q9BV40|VAMP8_HUMAN	25.4	2N28_A	3HD7_A	6C13_A	6C13_A
+sp|O43291|SPIT2_HUMAN	sp|P04585|POL_HV1H2	25.4	5H7V_A	1L6N_A	6CPL_A	2XXM_A
+sp|O43291|SPIT2_HUMAN	sp|P04591|GAG_HV1H2	25.4	5H7V_A	1L6N_A	6CPL_A	2XXM_A
+sp|P19256|LFA3_HUMAN	sp|P04591|GAG_HV1H2	25.4	3ALW_A	1L6N_A	5T70_G	3GV2_A
+sp|P60985|KTDAP_HUMAN	sp|P04585|POL_HV1H2	25.4	6URO_F	1L6N_A	6URO_F	6DNH_C
+sp|P60985|KTDAP_HUMAN	sp|P04591|GAG_HV1H2	25.4	6URO_F	1L6N_A	6URO_F	6DNH_C
+sp|Q7Z3Z2|RD3_HUMAN	sp|P69726|VPR_HV1H2	25.4	6DRF_A	1ESX_A	4Z8L_B	5AJA_B
+sp|Q9Y3A2|UTP11_HUMAN	sp|P04591|GAG_HV1H2	25.4	5WLC_S	1L6N_A	4V7F_n	5UDH_B
+sp|P04578|ENV_HV1H2	sp|Q8NCQ7|PRCA1_HUMAN	25.3	6PWU_E	1POC_A	6UJU_A	6UJU_A
+sp|P04585|POL_HV1H2	sp|A4FU69|EFCB5_HUMAN	25.3	1L6N_A	4RT4_D	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|O14545|TRAD1_HUMAN	25.3	1L6N_A	5LPI_C	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|O15225|INE1_HUMAN	25.3	1L6N_A	3MXQ_B	5O2U_C	5TEO_B
+sp|P04585|POL_HV1H2	sp|P20265|PO3F2_HUMAN	25.3	1L6N_A	6T90_K	4RGH_A	4RGH_A
+sp|P04585|POL_HV1H2	sp|P46695|IEX1_HUMAN	25.3	1L6N_A	2R0L_B	6BK8_O	5MQ0_t
+sp|P04585|POL_HV1H2	sp|Q13421|MSLN_HUMAN	25.3	1L6N_A	4F3F_C	5NA2_A	5NA2_A
+sp|P04585|POL_HV1H2	sp|Q3C1V1|CK091_HUMAN	25.3	1L6N_A	6DNQ_C	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q6ZRZ4|CI047_HUMAN	25.3	1L6N_A	2MN7_A	2WLV_A	2WLV_A
+sp|P04585|POL_HV1H2	sp|Q9BVX2|T106C_HUMAN	25.3	1L6N_A	1XO8_A	2BX9_C	2ZP8_F
+sp|P04591|GAG_HV1H2	sp|A4FU69|EFCB5_HUMAN	25.3	1L6N_A	4RT4_D	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|O15225|INE1_HUMAN	25.3	1L6N_A	3MXQ_B	5O2U_C	5TEO_B
+sp|P04591|GAG_HV1H2	sp|P46695|IEX1_HUMAN	25.3	1L6N_A	2R0L_B	6BK8_O	5MQ0_t
+sp|P04591|GAG_HV1H2	sp|Q13421|MSLN_HUMAN	25.3	1L6N_A	4F3F_C	5NA2_A	5NA2_A
+sp|P04591|GAG_HV1H2	sp|Q3C1V1|CK091_HUMAN	25.3	1L6N_A	6DNQ_C	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q6ZRZ4|CI047_HUMAN	25.3	1L6N_A	2MN7_A	2WLV_A	2WLV_A
+sp|P04591|GAG_HV1H2	sp|Q8N6M8|IQCF1_HUMAN	25.3	1L6N_A	2DFS_M	3A43_A	3A43_A
+tr|A0A1B0GTH9|A0A1B0GTH9_HUMAN	sp|P04591|GAG_HV1H2	25.3	5AAZ_A	1L6N_A	6J51_M	5FMF_J
+sp|P04601|NEF_HV1H2	sp|P0DTE2|HV511_HUMAN	25.3	3TB8_A	5WB1_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q8NET5|NFAM1_HUMAN	25.3	3TB8_A	5XSY_B	4ORZ_B	5MZV_D
+sp|P05919|VPU_HV1H2	sp|P41587|VIPR2_HUMAN	25.3	2N28_A	6FJ3_A	2KNC_B	2KNC_A
+sp|A0A1B0GVN3|CB092_HUMAN	sp|P04585|POL_HV1H2	25.3	1OGO_X	1L6N_A	6CPL_A	2XXM_A
+sp|A0A1B0GVN3|CB092_HUMAN	sp|P04591|GAG_HV1H2	25.3	1OGO_X	1L6N_A	6CPL_A	2XXM_A
+sp|P02765|FETUA_HUMAN	sp|P04578|ENV_HV1H2	25.3	6SAZ_B	6PWU_E	4YDV_A	6PWU_E
+sp|P54253|ATX1_HUMAN	sp|P04601|NEF_HV1H2	25.3	3QVE_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q6ZMT1|STAC2_HUMAN	sp|P04591|GAG_HV1H2	25.3	6B26_A	1L6N_A	5IY6_L	5FMF_J
+sp|Q8IWR1|TRI59_HUMAN	sp|P04585|POL_HV1H2	25.3	6H3A_F	1L6N_A	5FMF_I	5FMF_R
+sp|B1AL88|F155A_HUMAN	sp|P04578|ENV_HV1H2	25.2	6UXW_B	6PWU_E	6NM6_D	6MTJ_B
+sp|P04585|POL_HV1H2	sp|A0A0J9YWL9|TX13C_HUMAN	25.2	1L6N_A	2K1P_A	2BX9_C	2ZP8_F
+sp|P04585|POL_HV1H2	sp|A6NFE3|EFC10_HUMAN	25.2	1L6N_A	4F9K_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P23409|MYF6_HUMAN	25.2	1L6N_A	4AYA_B	5FMF_R	5FMF_S
+sp|P04585|POL_HV1H2	sp|Q7Z6J4|FGD2_HUMAN	25.2	1L6N_A	3MPX_A	5FMF_R	5IP7_L
+sp|Q96DX4|RSPRY_HUMAN	sp|P04585|POL_HV1H2	25.2	5T15_G	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q9UKU9|ANGL2_HUMAN	25.2	1L6N_A	1EI3_F	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|A6NFE3|EFC10_HUMAN	25.2	1L6N_A	4F9K_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P23409|MYF6_HUMAN	25.2	1L6N_A	4AYA_B	5FMF_R	5FMF_S
+sp|P58062|ISK7_HUMAN	sp|P04591|GAG_HV1H2	25.2	2LEO_A	1L6N_A	6O9L_6	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9H5F2|CK001_HUMAN	25.2	1L6N_A	6U42_7	6HTJ_A	6HTJ_A
+sp|P04591|GAG_HV1H2	sp|Q9NQT5|EXOS3_HUMAN	25.2	1L6N_A	6D6R_G	4AYB_N	4AYB_E
+sp|P04591|GAG_HV1H2	sp|Q9UKU9|ANGL2_HUMAN	25.2	1L6N_A	1EI3_F	6TAS_D	6TAS_F
+sp|P05919|VPU_HV1H2	sp|Q6ZQV5|ZN788_HUMAN	25.2	2N28_A	1V65_A	5UWB_A	5UWB_A
+sp|P05919|VPU_HV1H2	sp|Q86UY6|NAA40_HUMAN	25.2	2N28_A	4U9V_B	4P6Z_V	4P6Z_B
+sp|P05919|VPU_HV1H2	sp|Q9BT67|NFIP1_HUMAN	25.2	2N28_A	5WSK_G	6C14_A	6C14_D
+sp|Q99075|HBEGF_HUMAN	sp|P04585|POL_HV1H2	25.2	1XDT_R	1L6N_A	6CPL_A	2XXM_A
+sp|Q99075|HBEGF_HUMAN	sp|P04591|GAG_HV1H2	25.2	1XDT_R	1L6N_A	6CPL_A	2XXM_A
+sp|Q9H1J5|WNT8A_HUMAN	sp|P04591|GAG_HV1H2	25.2	4F0A_B	1L6N_A	3HOU_X	5FMF_J
+sp|O75426|FBX24_HUMAN	sp|P04585|POL_HV1H2	25.1	6M90_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|P80303|NUCB2_HUMAN	25.1	1L6N_A	1SNL_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q12837|PO4F2_HUMAN	25.1	1L6N_A	6YOV_K	4RGH_A	4RGH_A
+sp|P04585|POL_HV1H2	sp|Q8N412|STPG2_HUMAN	25.1	1L6N_A	4AYB_P	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q8WUH1|CHUR_HUMAN	25.1	1L6N_A	2JOX_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q93052|LPP_HUMAN	25.1	1L6N_A	1RUT_X	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9UID3|VPS51_HUMAN	25.1	1L6N_A	5YFP_B	6S7X_A	6S7X_B
+sp|P04591|GAG_HV1H2	sp|P80303|NUCB2_HUMAN	25.1	1L6N_A	1SNL_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8N412|STPG2_HUMAN	25.1	1L6N_A	4AYB_P	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|Q96HF1|SFRP2_HUMAN	25.1	1L6N_A	5XGP_A	5JB3_W	5JB3_1
+sp|P04591|GAG_HV1H2	sp|Q9H1K1|ISCU_HUMAN	25.1	1L6N_A	6UXE_D	2QEX_Z	3G4S_R
+sp|P04591|GAG_HV1H2	sp|Q9UID3|VPS51_HUMAN	25.1	1L6N_A	5YFP_B	6S7X_A	6S7X_B
+sp|P04591|GAG_HV1H2	sp|Q9Y676|RT18B_HUMAN	25.1	1L6N_A	6RW4_O	1NUI_A	1NUI_A
+sp|P04608|TAT_HV1H2	sp|A0A075B6N2|TVBT1_HUMAN	25.1	3MI9_C	2WBJ_D	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A075B6N3|TVBX1_HUMAN	25.1	3MI9_C	5E9D_J	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A075B6Q5|HV364_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A075B6R0|TRGV2_HUMAN	25.1	3MI9_C	6QNO_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A075B6T6|TVAL2_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A075B6T8|TVA91_HUMAN	25.1	3MI9_C	2J8U_L	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A075B6V5|TVA36_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A075B6W5|TVA23_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A075B6X5|TVA18_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A087WSZ0|KVD08_HUMAN	25.1	3MI9_C	6BPA_F	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A087WT01|TVA27_HUMAN	25.1	3MI9_C	3QDM_D	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A087WT02|TVA92_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A087WV62|TVB16_HUMAN	25.1	3MI9_C	5E9D_J	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A087X0M5|TVB18_HUMAN	25.1	3MI9_C	5WB2_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0A0MS14|HV145_HUMAN	25.1	3MI9_C	3U1S_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0A0MS15|HV349_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0A6YYC5|TVA14_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0A6YYD4|TVB13_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0A6YYG2|TVB66_HUMAN	25.1	3MI9_C	5E9D_E	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0A6YYG3|TVB68_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0A6YYJ7|TVA83_HUMAN	25.1	3MI9_C	1G6R_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0A6YYK1|TVA81_HUMAN	25.1	3MI9_C	6FRC_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0A6YYK7|TVA19_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J1U4|TRGV5_HUMAN	25.1	3MI9_C	5GIS_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J1V0|HV315_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J1V1|HV321_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J1V7|HV781_HUMAN	25.1	3MI9_C	3U1S_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J1X5|HV374_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J1X8|HV343_HUMAN	25.1	3MI9_C	6QNO_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J1Y9|HV372_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J235|TVAM2_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J237|TVA82_HUMAN	25.1	3MI9_C	6FUN_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J238|TVA12_HUMAN	25.1	3MI9_C	4G8E_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J240|TVA10_HUMAN	25.1	3MI9_C	2CDE_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J241|TVAM1_HUMAN	25.1	3MI9_C	5TEZ_I	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J244|TVA3_HUMAN	25.1	3MI9_C	1MWA_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J248|TVA11_HUMAN	25.1	3MI9_C	2NW2_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J249|TVA5_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J262|TVA86_HUMAN	25.1	3MI9_C	2J8U_L	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J263|TVA39_HUMAN	25.1	3MI9_C	2CDE_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J264|TV381_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J266|TVA41_HUMAN	25.1	3MI9_C	4MNQ_D	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J271|TVAL3_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J272|TVA24_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J273|TVA34_HUMAN	25.1	3MI9_C	5WKH_I	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J275|TVA17_HUMAN	25.1	3MI9_C	2J8U_L	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J276|TVA25_HUMAN	25.1	3MI9_C	5WKF_I	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J277|TVA22_HUMAN	25.1	3MI9_C	4MNQ_D	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J279|TVA21_HUMAN	25.1	3MI9_C	2BNU_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0B4J280|TVA40_HUMAN	25.1	3MI9_C	6RNN_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0C4DH27|TRGV8_HUMAN	25.1	3MI9_C	5I0Z_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0C4DH28|TRGV4_HUMAN	25.1	3MI9_C	5I0Z_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0C4DH29|HV103_HUMAN	25.1	3MI9_C	3U1S_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0C4DH30|HV316_HUMAN	25.1	3MI9_C	6QNO_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0C4DH31|HV118_HUMAN	25.1	3MI9_C	3U1S_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0C4DH32|HV320_HUMAN	25.1	3MI9_C	6QNO_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0C4DH33|HV124_HUMAN	25.1	3MI9_C	3U1S_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0C4DH35|HV335_HUMAN	25.1	3MI9_C	6QNO_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0C4DH36|HV338_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0C4DH38|HV551_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0C4DH39|HV158_HUMAN	25.1	3MI9_C	3U1S_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0C4DH42|HV366_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0C4DH72|KV106_HUMAN	25.1	3MI9_C	6BPA_F	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0J9YVY3|HV741_HUMAN	25.1	3MI9_C	3U1S_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0J9YX35|HV64D_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0J9YX75|TVB69_HUMAN	25.1	3MI9_C	5E9D_E	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0J9YXX1|HV5X1_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0J9YXY3|TVB62_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0K0K1A3|TVBJ1_HUMAN	25.1	3MI9_C	5E9D_E	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0K0K1A5|TVB65_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0K0K1D8|TVB61_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0K0K1E9|TVB77_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A0K2S4Q6|CD3CH_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A1B0GX31|TVB76_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A1B0GX49|TVB64_HUMAN	25.1	3MI9_C	5E9D_E	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A1B0GX56|TRDV1_HUMAN	25.1	3MI9_C	5YXU_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A576|TVB31_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A578|TVB51_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A597|TVB55_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A599|TVB56_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0A5B7|TVB29_HUMAN	25.1	3MI9_C	4R0L_D	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A0JD37|TRDV3_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A2NJV5|KV229_HUMAN	25.1	3MI9_C	6BPB_B	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A6NFU0|F187A_HUMAN	25.1	3MI9_C	3J8F_7	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A6NJW9|CD8B2_HUMAN	25.1	3MI9_C	6J8J_B	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|A8K4G0|CLM7_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|B7U540|KCJ18_HUMAN	25.1	3MI9_C	2XKY_L	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|G3V0H7|SO1B7_HUMAN	25.1	3MI9_C	4LDS_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|O00421|CCRL2_HUMAN	25.1	3MI9_C	5T1A_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|O00590|ACKR2_HUMAN	25.1	3MI9_C	6OS2_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|O14514|AGRB1_HUMAN	25.1	3MI9_C	4DLO_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|O60241|AGRB2_HUMAN	25.1	3MI9_C	4DLO_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|O60242|AGRB3_HUMAN	25.1	3MI9_C	4DLO_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|O60487|MPZL2_HUMAN	25.1	3MI9_C	6J8H_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|O60667|FAIM3_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|O60883|G37L1_HUMAN	25.1	3MI9_C	6LW5_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|O75871|CEAM4_HUMAN	25.1	3MI9_C	6JXR_f	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|O94910|AGRL1_HUMAN	25.1	3MI9_C	6VHH_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|O95297|MPZL1_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|O95490|AGRL2_HUMAN	25.1	3MI9_C	6VHH_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|O95944|NCTR2_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|O95976|IGSF6_HUMAN	25.1	3MI9_C	4R0L_D	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P01732|CD8A_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P01737|TVA84_HUMAN	25.1	3MI9_C	6FUN_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P01743|HV146_HUMAN	25.1	3MI9_C	3U1S_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P01762|HV311_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P01763|HV348_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P01764|HV323_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P01766|HV313_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P01767|HV353_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P01768|HV330_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P01772|HV333_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P01780|HV307_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P01782|HV309_HUMAN	25.1	3MI9_C	6QNO_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P03979|TRGV3_HUMAN	25.1	3MI9_C	5GIS_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P04435|TVB79_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P04437|TVA29_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P09564|CD7_HUMAN	25.1	3MI9_C	6J8H_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P0DMS9|TMIG3_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P0DP01|HV108_HUMAN	25.1	3MI9_C	3U1S_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P0DP02|HVC33_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P0DP03|HVC05_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P0DP04|HV43D_HUMAN	25.1	3MI9_C	6QNO_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P0DPF4|TVA35_HUMAN	25.1	3MI9_C	5W1W_D	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P0DPF7|TVB63_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P0DTE1|HV383_HUMAN	25.1	3MI9_C	6QNO_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P0DTU3|TRAR2_HUMAN	25.1	3MI9_C	5YXU_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P0DTW3|HV384_HUMAN	25.1	3MI9_C	3U1S_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P10747|CD28_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P10966|CD8B_HUMAN	25.1	3MI9_C	6J8J_B	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P16410|CTLA4_HUMAN	25.1	3MI9_C	5GGV_Y	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P19438|TNR1A_HUMAN	25.1	3MI9_C	1EXT_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|P23083|HV102_HUMAN	25.1	3MI9_C	3U1S_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P25189|MYP0_HUMAN	25.1	3MI9_C	6AGF_B	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P25929|NPY1R_HUMAN	25.1	3MI9_C	5ZBH_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|P30872|SSR1_HUMAN	25.1	3MI9_C	6OS2_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|P30874|SSR2_HUMAN	25.1	3MI9_C	4PXZ_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|P32745|SSR3_HUMAN	25.1	3MI9_C	5NJ6_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|P35070|BTC_HUMAN	25.1	3MI9_C	5E8D_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|P35348|ADA1A_HUMAN	25.1	3MI9_C	3VW7_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|P35414|APJ_HUMAN	25.1	3MI9_C	5VBL_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|P40198|CEAM3_HUMAN	25.1	3MI9_C	1E07_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|P47211|GALR1_HUMAN	25.1	3MI9_C	5ZKP_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|P47900|P2RY1_HUMAN	25.1	3MI9_C	4XNV_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|P49019|HCAR3_HUMAN	25.1	3MI9_C	5ZKP_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|P49768|PSN1_HUMAN	25.1	3MI9_C	5A63_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|P51684|CCR6_HUMAN	25.1	3MI9_C	6WWZ_R	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|P51685|CCR8_HUMAN	25.1	3MI9_C	6GPX_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q01650|LAT1_HUMAN	25.1	3MI9_C	6IRS_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q07699|SCN1B_HUMAN	25.1	3MI9_C	6J8J_B	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q13275|SEM3F_HUMAN	25.1	3MI9_C	6QP7_B	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q13585|MTR1L_HUMAN	25.1	3MI9_C	4U15_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q14500|KCJ12_HUMAN	25.1	3MI9_C	2XKY_L	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q15116|PDCD1_HUMAN	25.1	3MI9_C	5WT9_G	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q16363|LAMA4_HUMAN	25.1	3MI9_C	5XAU_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q16653|MOG_HUMAN	25.1	3MI9_C	4PFE_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q16820|MEP1B_HUMAN	25.1	3MI9_C	4GWM_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q3KNT9|TMM95_HUMAN	25.1	3MI9_C	5B5K_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q3MIW9|MUCL3_HUMAN	25.1	3MI9_C	2KNC_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q495A1|TIGIT_HUMAN	25.1	3MI9_C	3UCR_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q496F6|CLM2_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q49SQ1|GPR33_HUMAN	25.1	3MI9_C	6D27_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q5SQ64|LY66F_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q5T1S8|NCMAP_HUMAN	25.1	3MI9_C	2M20_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q5T2D2|TRML2_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q5T601|AGRF1_HUMAN	25.1	3MI9_C	4DLO_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q5T848|GP158_HUMAN	25.1	3MI9_C	6W2X_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q5VZ72|IZUM3_HUMAN	25.1	3MI9_C	5JK9_D	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q685J3|MUC17_HUMAN	25.1	3MI9_C	6UJA_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q6PRD1|GP179_HUMAN	25.1	3MI9_C	6W2X_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q6QNK2|AGRD1_HUMAN	25.1	3MI9_C	6FJ3_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q6TCH7|PAQR3_HUMAN	25.1	3MI9_C	5LX9_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q6UWV2|MPZL3_HUMAN	25.1	3MI9_C	5XSY_B	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q6UXG3|CLM9_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q6UXN2|TRML4_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q6UXZ3|CLM5_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q71H61|ILDR2_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q7Z602|GP141_HUMAN	25.1	3MI9_C	4PXZ_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q7Z6A9|BTLA_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q86SQ3|AGRE4_HUMAN	25.1	3MI9_C	6FJ3_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q86SQ4|AGRG6_HUMAN	25.1	3MI9_C	6V55_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q86SU0|ILDR1_HUMAN	25.1	3MI9_C	5XSY_B	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q86X29|LSR_HUMAN	25.1	3MI9_C	5XSY_B	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q86XR5|PRIMA_HUMAN	25.1	3MI9_C	6BRJ_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q86Y34|AGRG3_HUMAN	25.1	3MI9_C	5KVM_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q8IW00|VSTM4_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q8IWT1|SCN4B_HUMAN	25.1	3MI9_C	5XSY_B	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q8IXE1|OR4N5_HUMAN	25.1	3MI9_C	6KUX_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q8IYV9|IZUM1_HUMAN	25.1	3MI9_C	5F4E_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q8IZ08|GP135_HUMAN	25.1	3MI9_C	4U14_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q8IZF3|AGRF4_HUMAN	25.1	3MI9_C	6FJ3_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q8IZF4|AGRG5_HUMAN	25.1	3MI9_C	5KVM_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q8IZF5|AGRF3_HUMAN	25.1	3MI9_C	4DLO_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q8IZP9|AGRG2_HUMAN	25.1	3MI9_C	6LML_R	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q8NEC5|CTSR1_HUMAN	25.1	3MI9_C	6KZP_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q8NFJ5|RAI3_HUMAN	25.1	3MI9_C	6N51_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q8NFN8|GP156_HUMAN	25.1	3MI9_C	6UO8_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q8NGN2|O10S1_HUMAN	25.1	3MI9_C	3VW7_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q8NHV5|MOSMO_HUMAN	25.1	3MI9_C	4P79_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q8TDQ0|HAVR2_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q8TDQ1|CLM1_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q8TDS4|HCAR2_HUMAN	25.1	3MI9_C	5ZKP_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q8TDV0|GP151_HUMAN	25.1	3MI9_C	6GPS_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q8WWV6|FCAMR_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q969X1|LFG3_HUMAN	25.1	3MI9_C	6NQ7_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q96A25|T106A_HUMAN	25.1	3MI9_C	2BX9_C	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q96H15|TIMD4_HUMAN	25.1	3MI9_C	5F7H_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q96MV8|ZDH15_HUMAN	25.1	3MI9_C	6BMS_D	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q96N03|VTM2L_HUMAN	25.1	3MI9_C	6VEP_O	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q96P65|QRFPR_HUMAN	25.1	3MI9_C	5WQC_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q96P66|GP101_HUMAN	25.1	3MI9_C	4U14_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q99463|NPY6R_HUMAN	25.1	3MI9_C	5ZBH_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q99603|TRGV9_HUMAN	25.1	3MI9_C	6QD6_G	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q99985|SEM3C_HUMAN	25.1	3MI9_C	6QP7_B	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q9BXQ6|T121B_HUMAN	25.1	3MI9_C	4XIG_N	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q9H106|SIRPD_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q9H2U9|ADAM7_HUMAN	25.1	3MI9_C	2E3X_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q9H3R2|MUC13_HUMAN	25.1	3MI9_C	4UM8_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q9HAR2|AGRL3_HUMAN	25.1	3MI9_C	6VHH_B	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q9NP99|TREM1_HUMAN	25.1	3MI9_C	1Q8M_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q9NPG1|FZD3_HUMAN	25.1	3MI9_C	5V56_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q9NQ84|GPC5C_HUMAN	25.1	3MI9_C	6UO8_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q9NRM6|I17RB_HUMAN	25.1	3MI9_C	3JVF_C	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q9NS68|TNR19_HUMAN	25.1	3MI9_C	5T2Q_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q9NTN9|SEM4G_HUMAN	25.1	3MI9_C	6QP7_B	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q9NY72|SCN3B_HUMAN	25.1	3MI9_C	6AGF_B	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q9NZ53|PDXL2_HUMAN	25.1	3MI9_C	6JXR_n	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q9NZC2|TREM2_HUMAN	25.1	3MI9_C	5UD7_B	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q9NZD1|GPC5D_HUMAN	25.1	3MI9_C	6UO8_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q9NZH0|GPC5B_HUMAN	25.1	3MI9_C	6UO8_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q9P2E8|MARH4_HUMAN	25.1	3MI9_C	2M6M_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q9UGN4|CLM8_HUMAN	25.1	3MI9_C	5OR7_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	sp|Q9UK23|NAGPA_HUMAN	25.1	3MI9_C	6U11_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q9ULI3|HEG1_HUMAN	25.1	3MI9_C	4UM8_D	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q9UPC5|GPR34_HUMAN	25.1	3MI9_C	5ZKP_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	sp|Q9Y653|AGRG1_HUMAN	25.1	3MI9_C	5KVM_A	6N4Y_C	6N51_B
+sp|P04608|TAT_HV1H2	tr|A0A075B6H5|A0A075B6H5_HUMAN	25.1	3MI9_C	2WBJ_D	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|A0A075B6L2|A0A075B6L2_HUMAN	25.1	3MI9_C	6QD6_G	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|A0A075B6L6|A0A075B6L6_HUMAN	25.1	3MI9_C	5E9D_J	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|A0A075B7B8|A0A075B7B8_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|A0A075B7E8|A0A075B7E8_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|A0A075B7F0|A0A075B7F0_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|A0A075B7F1|A0A075B7F1_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|A0A087WYE8|A0A087WYE8_HUMAN	25.1	3MI9_C	3U1S_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|A0A087WZ39|A0A087WZ39_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|A0A0A0MS01|A0A0A0MS01_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|A0A0A0MS02|A0A0A0MS02_HUMAN	25.1	3MI9_C	6ULC_L	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|A0A0A0MS03|A0A0A0MS03_HUMAN	25.1	3MI9_C	1YJD_C	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|A0A0A0MS04|A0A0A0MS04_HUMAN	25.1	3MI9_C	5E9D_E	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|A0A0A6YYK4|A0A0A6YYK4_HUMAN	25.1	3MI9_C	5E9D_J	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|A0A0B4J2B8|A0A0B4J2B8_HUMAN	25.1	3MI9_C	3U1S_H	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|A0A0J9YW62|A0A0J9YW62_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|A0A0J9YY99|A0A0J9YY99_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|S4R3C0|S4R3C0_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04608|TAT_HV1H2	tr|S4R460|S4R460_HUMAN	25.1	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P05919|VPU_HV1H2	sp|Q6ZMH5|S39A5_HUMAN	25.1	2N28_A	5TSA_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q6ZRH7|CTSRG_HUMAN	25.1	2N28_A	2KNC_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q96KK3|KCNS1_HUMAN	25.1	2N28_A	2R9R_H	2KNC_B	2KNC_A
+sp|O14795|UN13B_HUMAN	sp|P04585|POL_HV1H2	25.1	5UE8_A	1L6N_A	5FMF_L	5FMF_R
+sp|Q14242|SELPL_HUMAN	sp|P04585|POL_HV1H2	25.1	4NKQ_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q14242|SELPL_HUMAN	sp|P04591|GAG_HV1H2	25.1	4NKQ_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q8NCI6|GLBL3_HUMAN	sp|P04578|ENV_HV1H2	25.1	3THC_A	6PWU_E	5DRZ_P	6NIJ_B
+sp|Q9NRW3|ABC3C_HUMAN	sp|P04591|GAG_HV1H2	25.1	5CQH_A	1L6N_A	4UER_9	5JB3_W
+sp|Q9Y6W8|ICOS_HUMAN	sp|P04585|POL_HV1H2	25.1	5OR7_C	1L6N_A	6CPL_A	2XXM_A
+sp|Q9Y6W8|ICOS_HUMAN	sp|P04591|GAG_HV1H2	25.1	5OR7_C	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|Q6GV28|TM225_HUMAN	25.0	6PWU_E	3X29_A	6UJU_A	6UJU_A
+sp|P04578|ENV_HV1H2	sp|Q9BYD2|RM09_HUMAN	25.0	6PWU_E	4V19_I	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|A0A1W2PPF3|DUXB_HUMAN	25.0	1L6N_A	6U81_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|A8MQ27|NEU1B_HUMAN	25.0	1L6N_A	4KG0_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q5TFE4|NT5D1_HUMAN	25.0	1L6N_A	5OPM_A	6R24_C	6R24_C
+sp|P04585|POL_HV1H2	sp|Q6ZSR3|YO027_HUMAN	25.0	1L6N_A	1WJB_A	1WJB_A	1WJB_A
+sp|P04585|POL_HV1H2	sp|Q96D59|RN183_HUMAN	25.0	1L6N_A	6QU1_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q99496|RING2_HUMAN	25.0	1L6N_A	3IXS_C	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9P0L9|PK2L1_HUMAN	25.0	1L6N_A	6DU8_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|O95158|NXPH4_HUMAN	25.0	1L6N_A	6PNP_B	4QIW_N	4QJV_B
+sp|P04591|GAG_HV1H2	sp|Q5TFE4|NT5D1_HUMAN	25.0	1L6N_A	5OPM_A	6R23_B	6R23_B
+sp|P04618|REV_HV1H2	sp|Q8N7X8|SIGL1_HUMAN	25.0	2X7L_R	5A2F_A	2X7L_R	5I8O_L
+sp|P05919|VPU_HV1H2	sp|O14683|P5I11_HUMAN	25.0	2N28_A	2LCX_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9BXY4|RSPO3_HUMAN	25.0	2N28_A	6PXV_C	6CFW_I	6CFW_N
+sp|P05919|VPU_HV1H2	sp|Q9H7T9|AUNIP_HUMAN	25.0	2N28_A	2LPB_B	6CFW_I	6CFW_M
+sp|P05919|VPU_HV1H2	sp|Q9Y6A9|SPCS1_HUMAN	25.0	2N28_A	5C65_A	6C14_A	6C14_D
+sp|P52848|NDST1_HUMAN	sp|P04601|NEF_HV1H2	25.0	6NWZ_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q8IW70|T151B_HUMAN	sp|P04578|ENV_HV1H2	25.0	6MZM_G	6PWU_E	6NM6_D	6MTJ_B
+sp|Q9NPH9|IL26_HUMAN	sp|P04591|GAG_HV1H2	25.0	2ILK_A	1L6N_A	3J7A_3	5JB3_W
+sp|Q9ULC0|MUCEN_HUMAN	sp|P04585|POL_HV1H2	25.0	2LZL_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q9ULC0|MUCEN_HUMAN	sp|P04591|GAG_HV1H2	25.0	2LZL_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|Q14774|HLX_HUMAN	24.9	6PWU_E	1MH3_A	6MUF_G	6NNJ_D
+sp|P04578|ENV_HV1H2	sp|Q9BT09|CNPY3_HUMAN	24.9	6PWU_E	4W65_A	3U2S_C	5N2K_F
+sp|P04585|POL_HV1H2	sp|B7Z368|CJ142_HUMAN	24.9	1L6N_A	1PFT_A	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|O95825|QORL1_HUMAN	24.9	1L6N_A	3GQV_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q06587|RING1_HUMAN	24.9	1L6N_A	2CKL_B	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q86Y78|LYPD6_HUMAN	24.9	1L6N_A	6GBI_A	5FMF_R	5FMF_J
+sp|P04585|POL_HV1H2	sp|Q9NPC3|CIP1_HUMAN	24.9	1L6N_A	6NMI_H	5FMF_R	5FMF_J
+sp|P04591|GAG_HV1H2	sp|B7Z368|CJ142_HUMAN	24.9	1L6N_A	1PFT_A	5FMF_R	4V1N_M
+sp|P04591|GAG_HV1H2	sp|O00161|SNP23_HUMAN	24.9	1L6N_A	3J96_M	4AYB_N	4AYB_K
+sp|P04591|GAG_HV1H2	sp|Q86Y78|LYPD6_HUMAN	24.9	1L6N_A	6GBI_A	5FMF_R	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9P126|CLC1B_HUMAN	24.9	1L6N_A	3C8J_D	6HTJ_A	6HTJ_A
+sp|P04618|REV_HV1H2	sp|P0DMS9|TMIG3_HUMAN	24.9	2X7L_R	5OR7_C	6CF2_F	5DHY_A
+sp|P05919|VPU_HV1H2	sp|B4DS77|SHSA9_HUMAN	24.9	2N28_A	5M0W_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q01362|FCERB_HUMAN	24.9	2N28_A	6VJA_C	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q07011|TNR9_HUMAN	24.9	2N28_A	6A3V_B	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q6Y1H2|HACD2_HUMAN	24.9	2N28_A	6LTJ_P	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q8NBR0|P5I13_HUMAN	24.9	2N28_A	5OR7_C	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UHJ9|PGAP2_HUMAN	24.9	2N28_A	2LAQ_A	6C14_A	6C14_A
+sp|Q8N7X8|SIGL1_HUMAN	sp|P04601|NEF_HV1H2	24.9	5A2F_A	3TB8_A	5XOV_H	3TB8_A
+sp|P04578|ENV_HV1H2	sp|P02760|AMBP_HUMAN	24.8	6PWU_E	1BIK_A	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|P14091|CATE_HUMAN	24.8	1L6N_A	5UX4_B	1BAI_B	1BAI_B
+sp|P04585|POL_HV1H2	sp|Q15942|ZYX_HUMAN	24.8	1L6N_A	2JTN_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q7Z591|AKNA_HUMAN	24.8	1L6N_A	1H7V_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8WYH8|ING5_HUMAN	24.8	1L6N_A	5J9Q_K	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9H9V4|RN122_HUMAN	24.8	1L6N_A	6VK0_B	5FMF_R	5FMF_J
+sp|Q9NS28|RGS18_HUMAN	sp|P04585|POL_HV1H2	24.8	1AGR_E	1L6N_A	2B4J_C	1BI4_C
+sp|P04591|GAG_HV1H2	sp|A6NDN8|UBIML_HUMAN	24.8	1L6N_A	4KZY_e	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|O43676|NDUB3_HUMAN	24.8	1L6N_A	6G2J_k	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|O60832|DKC1_HUMAN	24.8	1L6N_A	3U28_A	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|O95900|TRUB2_HUMAN	24.8	1L6N_A	2AB4_A	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|P01215|GLHA_HUMAN	24.8	1L6N_A	1HD4_A	5JB3_W	6SW9_8
+sp|P04591|GAG_HV1H2	sp|P32242|OTX1_HUMAN	24.8	1L6N_A	1MH3_A	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|P49908|SEPP1_HUMAN	24.8	1L6N_A	6MZL_B	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|Q3MIT2|PUS10_HUMAN	24.8	1L6N_A	2V9K_A	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|Q5T681|CJ062_HUMAN	24.8	1L6N_A	4PFB_A	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|Q6IQ49|SDE2_HUMAN	24.8	1L6N_A	4V6W_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q7Z417|NUFP2_HUMAN	24.8	1L6N_A	4O8M_G	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|Q8IW03|SIAH3_HUMAN	24.8	1L6N_A	4CA1_A	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|Q8IZ73|RUSD2_HUMAN	24.8	1L6N_A	2IST_A	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|Q8TAD4|ZNT5_HUMAN	24.8	1L6N_A	3J1Z_Q	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|Q8WWH5|TRUB1_HUMAN	24.8	1L6N_A	1R3E_A	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|Q96CM3|RUSD4_HUMAN	24.8	1L6N_A	5UBA_A	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|Q99626|CDX2_HUMAN	24.8	1L6N_A	6T90_K	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|Q9BQG1|SYT3_HUMAN	24.8	1L6N_A	1DQV_A	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|Q9H329|E41LB_HUMAN	24.8	1L6N_A	6D21_A	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|Q9H6F2|TM38A_HUMAN	24.8	1L6N_A	6IYX_A	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|Q9NX05|F120C_HUMAN	24.8	1L6N_A	5ZOD_A	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|Q9UBP5|HEY2_HUMAN	24.8	1L6N_A	2DB7_B	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|Q9ULC4|MCTS1_HUMAN	24.8	1L6N_A	5VYC_k	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	sp|Q9Y221|NIP7_HUMAN	24.8	1L6N_A	1SQW_A	2APO_B	2APO_A
+sp|P04591|GAG_HV1H2	tr|A0A3B3IRV3|A0A3B3IRV3_HUMAN	24.8	1L6N_A	5VYC_k	2APO_B	2APO_A
+sp|P04601|NEF_HV1H2	sp|A0A096LP01|SIM26_HUMAN	24.8	3TB8_A	5NUI_B	3IK5_A	6K6N_A
+sp|P04618|REV_HV1H2	sp|Q86X29|LSR_HUMAN	24.8	2X7L_R	5XSY_B	6CF2_F	5DHY_A
+sp|P05919|VPU_HV1H2	sp|P06028|GLPB_HUMAN	24.8	2N28_A	1AFO_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q6ZWK4|RHEX_HUMAN	24.8	2N28_A	3BQZ_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96Q80|DERL3_HUMAN	24.8	2N28_A	6VK0_C	6C14_A	6C14_A
+sp|P69723|VIF_HV1H2	sp|Q96RK1|CITE4_HUMAN	24.8	4N9F_b	1R8U_A	6NIL_F	6NIL_F
+sp|Q3B7T3|BEAN1_HUMAN	sp|P04585|POL_HV1H2	24.8	2N2A_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q3B7T3|BEAN1_HUMAN	sp|P04591|GAG_HV1H2	24.8	2N2A_B	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|O75949|F155B_HUMAN	24.7	6PWU_E	6NE4_A	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|P05109|S10A8_HUMAN	24.7	1L6N_A	4GGF_U	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q15650|TRIP4_HUMAN	24.7	1L6N_A	2E5O_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q86T82|UBP37_HUMAN	24.7	1L6N_A	3U12_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8IWZ4|TRI48_HUMAN	24.7	1L6N_A	4CFG_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9NW38|FANCL_HUMAN	24.7	1L6N_A	6SRI_q	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9UHR5|S30BP_HUMAN	24.7	1L6N_A	4WKR_A	6GZA_A	6GZA_A
+sp|P04591|GAG_HV1H2	sp|P05109|S10A8_HUMAN	24.7	1L6N_A	4GGF_U	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q5TA78|LCE4A_HUMAN	24.7	1L6N_A	2PIH_B	6QAJ_A	6QAJ_B
+sp|P04591|GAG_HV1H2	sp|Q96AH0|SOSB2_HUMAN	24.7	1L6N_A	4OWT_B	4QIW_N	4QIW_H
+sp|P04608|TAT_HV1H2	sp|O76014|KRT37_HUMAN	24.7	3MI9_C	3TNU_B	2E4X_B	2E4X_B
+sp|P04608|TAT_HV1H2	sp|P54108|CRIS3_HUMAN	24.7	3MI9_C	6IMF_A	2E4X_B	2E4X_B
+sp|P04608|TAT_HV1H2	sp|Q13643|FHL3_HUMAN	24.7	3MI9_C	4JCJ_B	2E4X_B	2E4X_B
+sp|P04608|TAT_HV1H2	sp|Q13753|LAMC2_HUMAN	24.7	3MI9_C	4AQS_A	2E4X_B	2E4X_B
+sp|P04608|TAT_HV1H2	sp|Q14532|K1H2_HUMAN	24.7	3MI9_C	3TNU_B	2E4X_B	2E4X_B
+sp|P04608|TAT_HV1H2	sp|Q16527|CSRP2_HUMAN	24.7	3MI9_C	1B8T_A	2E4X_B	2E4X_B
+sp|P04608|TAT_HV1H2	sp|Q92824|PCSK5_HUMAN	24.7	3MI9_C	5JXG_A	2E4X_B	2E4X_B
+sp|P04608|TAT_HV1H2	sp|Q9P055|JKAMP_HUMAN	24.7	3MI9_C	5KZQ_A	2E4X_B	2E4X_B
+sp|P04618|REV_HV1H2	tr|A0A075B6L2|A0A075B6L2_HUMAN	24.7	2X7L_R	6QD6_G	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|A2A2V5|SRTM1_HUMAN	24.7	2N28_A	2NDJ_A	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q96JQ5|M4A4A_HUMAN	24.7	2N28_A	6VJA_C	6C14_A	6C14_D
+sp|P69726|VPR_HV1H2	sp|A6NI79|CCD69_HUMAN	24.7	1ESX_A	2K0L_A	1X9V_A	1X9V_A
+sp|Q495N2|S36A3_HUMAN	sp|P04608|TAT_HV1H2	24.7	6C08_F	3MI9_C	5L1Z_C	4OGR_D
+sp|Q8NDY8|TMM52_HUMAN	sp|P04585|POL_HV1H2	24.7	1Q5B_C	1L6N_A	6CPL_A	2XXM_A
+sp|Q8NDY8|TMM52_HUMAN	sp|P04591|GAG_HV1H2	24.7	1Q5B_C	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|O60941|DTNB_HUMAN	24.6	1L6N_A	1EG4_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|O75151|PHF2_HUMAN	24.6	1L6N_A	3KV4_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q7LFX5|CHSTF_HUMAN	24.6	1L6N_A	3BD9_A	2BX9_C	2ZP8_F
+sp|Q969Q1|TRI63_HUMAN	sp|P04585|POL_HV1H2	24.6	4CFG_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q96DM1|PGBD4_HUMAN	24.6	1L6N_A	6KF4_G	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9NP62|GCM1_HUMAN	24.6	1L6N_A	1ODH_A	2BX9_C	2ZP8_F
+sp|P04591|GAG_HV1H2	sp|Q8NGY7|O10J6_HUMAN	24.6	1L6N_A	6IGK_A	4QIW_N	4QJV_B
+sp|P04591|GAG_HV1H2	sp|Q9Y5V0|ZN706_HUMAN	24.6	1L6N_A	1WVK_A	2QEX_Z	1VQ8_3
+sp|P05919|VPU_HV1H2	sp|O15105|SMAD7_HUMAN	24.6	2N28_A	1KHX_A	6GKI_A	5UWA_A
+sp|P05919|VPU_HV1H2	sp|O94788|AL1A2_HUMAN	24.6	2N28_A	5ABM_B	6GKI_A	5UWA_A
+sp|P05919|VPU_HV1H2	sp|P05091|ALDH2_HUMAN	24.6	2N28_A	1O04_E	6GKI_A	5UWA_A
+sp|P05919|VPU_HV1H2	sp|P30837|AL1B1_HUMAN	24.6	2N28_A	5ABM_B	6GKI_A	5UWA_A
+sp|P05919|VPU_HV1H2	sp|P36402|TCF7_HUMAN	24.6	2N28_A	3OUW_B	6GKI_A	5UWA_A
+sp|P05919|VPU_HV1H2	sp|Q9H6I2|SOX17_HUMAN	24.6	2N28_A	6T7A_K	6GKI_A	5UWA_A
+sp|P05919|VPU_HV1H2	sp|Q9HCS4|TF7L1_HUMAN	24.6	2N28_A	3OUW_B	6GKI_A	5UWA_A
+sp|P05919|VPU_HV1H2	sp|Q9NQB0|TF7L2_HUMAN	24.6	2N28_A	2GL7_E	6GKI_A	5UWA_A
+sp|P05919|VPU_HV1H2	sp|Q9NXJ0|M4A12_HUMAN	24.6	2N28_A	6VJA_C	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|Q9P0W2|HM20B_HUMAN	24.6	2N28_A	6LTJ_Q	6GKI_A	5UWA_A
+sp|P05919|VPU_HV1H2	sp|Q9UJU2|LEF1_HUMAN	24.6	2N28_A	3OUW_B	6GKI_A	5UWA_A
+sp|P69726|VPR_HV1H2	sp|Q4LEZ3|AARD_HUMAN	24.6	1ESX_A	3RMH_A	4Z8L_B	5AJA_B
+sp|P0C7A2|F153B_HUMAN	sp|P04578|ENV_HV1H2	24.6	6DL4_A	6PWU_E	6UDK_H	4TVP_G
+sp|P0DP75|M14OS_HUMAN	sp|P04591|GAG_HV1H2	24.6	5FJA_Q	1L6N_A	6EU1_Q	5FMF_J
+sp|P04585|POL_HV1H2	sp|O95971|BY55_HUMAN	24.5	1L6N_A	6NGG_B	2XXM_A	6C5W_E
+sp|P04585|POL_HV1H2	sp|P56817|BACE1_HUMAN	24.5	1L6N_A	6EJ2_A	5C9F_A	5C9F_A
+sp|P04585|POL_HV1H2	sp|Q13501|SQSTM_HUMAN	24.5	1L6N_A	6TH3_B	2BX9_C	2ZP8_F
+sp|P04585|POL_HV1H2	sp|Q5T440|CAF17_HUMAN	24.5	1L6N_A	6GEU_A	5FMF_R	5FMF_X
+sp|P04585|POL_HV1H2	sp|Q8IZJ4|RGDSR_HUMAN	24.5	1L6N_A	5CM8_A	6R24_C	6R24_C
+sp|P04585|POL_HV1H2	sp|Q8NEX5|WFDC9_HUMAN	24.5	1L6N_A	2VR0_F	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q99674|CGRE1_HUMAN	24.5	1L6N_A	1BMO_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9H0H5|RGAP1_HUMAN	24.5	1L6N_A	3CXL_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9H790|EXO5_HUMAN	24.5	1L6N_A	4IC1_H	1BAI_B	1BAI_B
+sp|P04585|POL_HV1H2	sp|Q9NQT5|EXOS3_HUMAN	24.5	1L6N_A	6D6R_G	5FMF_R	3PO2_G
+sp|P04591|GAG_HV1H2	sp|O95971|BY55_HUMAN	24.5	1L6N_A	6NGG_B	2XXM_A	6C5W_E
+sp|P04591|GAG_HV1H2	sp|Q5T440|CAF17_HUMAN	24.5	1L6N_A	6GEU_A	5FMF_R	5FMF_X
+sp|P04591|GAG_HV1H2	sp|Q6ZRC1|CD050_HUMAN	24.5	1L6N_A	3VKH_A	4QIW_N	4QJV_B
+sp|P04591|GAG_HV1H2	sp|Q8IZJ4|RGDSR_HUMAN	24.5	1L6N_A	5CM8_A	6R23_B	6R23_B
+sp|P04591|GAG_HV1H2	sp|Q8NEX5|WFDC9_HUMAN	24.5	1L6N_A	2VR0_F	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q96A04|TSACC_HUMAN	24.5	1L6N_A	6A5E_D	5IJN_H	5IJO_L
+sp|P04591|GAG_HV1H2	sp|Q99674|CGRE1_HUMAN	24.5	1L6N_A	1BMO_A	2MGU_M	5DOW_A
+sp|Q8NEX6|WFD11_HUMAN	sp|P04608|TAT_HV1H2	24.5	2Z7F_I	3MI9_C	6N50_A	6N51_B
+sp|P05919|VPU_HV1H2	sp|A0A5B9|TRBC2_HUMAN	24.5	2N28_A	6U07_B	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|A0M8Q6|IGLC7_HUMAN	24.5	2N28_A	6U07_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|A1KZ92|PXDNL_HUMAN	24.5	2N28_A	5MFA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|A6NGN9|IGLO5_HUMAN	24.5	2N28_A	6DLD_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|B9A064|IGLL5_HUMAN	24.5	2N28_A	6FIB_C	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|O00526|UPK2_HUMAN	24.5	2N28_A	4NKQ_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O00533|NCHL1_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|O14511|NRG2_HUMAN	24.5	2N28_A	5A2F_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|O15083|ERC2_HUMAN	24.5	2N28_A	6WG3_B	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|O15169|AXIN1_HUMAN	24.5	2N28_A	2D5G_B	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|O15394|NCAM2_HUMAN	24.5	2N28_A	2JLL_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|O43676|NDUB3_HUMAN	24.5	2N28_A	6G2J_k	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|O60469|DSCAM_HUMAN	24.5	2N28_A	3DMK_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|O60500|NPHN_HUMAN	24.5	2N28_A	3DMK_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|O75147|OBSL1_HUMAN	24.5	2N28_A	3DMK_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|O75900|MMP23_HUMAN	24.5	2N28_A	1L6J_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|O94779|CNTN5_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|O94856|NFASC_HUMAN	24.5	2N28_A	3P3Y_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|O95428|PPN_HUMAN	24.5	2N28_A	3VN4_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|O95998|I18BP_HUMAN	24.5	2N28_A	3F62_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P01834|IGKC_HUMAN	24.5	2N28_A	6FIB_C	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P01850|TRBC1_HUMAN	24.5	2N28_A	6U07_B	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P01854|IGHE_HUMAN	24.5	2N28_A	2WQR_B	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P01857|IGHG1_HUMAN	24.5	2N28_A	1MCO_H	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P01859|IGHG2_HUMAN	24.5	2N28_A	1MCO_H	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P01860|IGHG3_HUMAN	24.5	2N28_A	1MCO_H	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P01861|IGHG4_HUMAN	24.5	2N28_A	1MCO_H	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P01871|IGHM_HUMAN	24.5	2N28_A	6KXS_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P01876|IGHA1_HUMAN	24.5	2N28_A	2QTJ_C	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P01877|IGHA2_HUMAN	24.5	2N28_A	1R70_B	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P01889|HLAB_HUMAN	24.5	2N28_A	6AT5_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P01893|HLAH_HUMAN	24.5	2N28_A	6AT5_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P01903|DRA_HUMAN	24.5	2N28_A	6CPL_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P01906|DQA2_HUMAN	24.5	2N28_A	2P24_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P01909|DQA1_HUMAN	24.5	2N28_A	2P24_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P01911|DRB_HUMAN	24.5	2N28_A	6PY2_B	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P01920|DQB1_HUMAN	24.5	2N28_A	6PY2_B	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P03986|TRGC2_HUMAN	24.5	2N28_A	6D7G_E	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P04439|HLAA_HUMAN	24.5	2N28_A	6AT5_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P04440|DPB1_HUMAN	24.5	2N28_A	6PY2_B	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P05538|DQB2_HUMAN	24.5	2N28_A	6PY2_B	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P06126|CD1A_HUMAN	24.5	2N28_A	5J1A_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P06340|DOA_HUMAN	24.5	2N28_A	2P24_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P09693|CD3G_HUMAN	24.5	2N28_A	6JXR_g	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P0CF51|TRGC1_HUMAN	24.5	2N28_A	6D7G_E	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P0CF74|IGLC6_HUMAN	24.5	2N28_A	6U07_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P0CG04|IGLC1_HUMAN	24.5	2N28_A	6U07_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P0DOY2|IGLC2_HUMAN	24.5	2N28_A	6U07_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P0DOY3|IGLC3_HUMAN	24.5	2N28_A	6U07_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P0DP72|VSXL2_HUMAN	24.5	2N28_A	2RCJ_H	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P10321|HLAC_HUMAN	24.5	2N28_A	6AT5_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P13591|NCAM1_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P13688|CEAM1_HUMAN	24.5	2N28_A	1E07_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P13747|HLAE_HUMAN	24.5	2N28_A	6AT5_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P13762|DRB4_HUMAN	24.5	2N28_A	6PY2_B	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P13765|DOB_HUMAN	24.5	2N28_A	4I0P_D	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P15812|CD1E_HUMAN	24.5	2N28_A	1CD1_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P15813|CD1D_HUMAN	24.5	2N28_A	4MNG_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P15814|IGLL1_HUMAN	24.5	2N28_A	6FIB_C	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P16284|PECA1_HUMAN	24.5	2N28_A	6GRQ_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P17693|HLAG_HUMAN	24.5	2N28_A	6AT5_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P18827|SDC1_HUMAN	24.5	2N28_A	6ITH_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|P19320|VCAM1_HUMAN	24.5	2N28_A	1E07_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P20036|DPA1_HUMAN	24.5	2N28_A	2P24_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P20273|CD22_HUMAN	24.5	2N28_A	6GRQ_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P20916|MAG_HUMAN	24.5	2N28_A	5LF5_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P25311|ZA2G_HUMAN	24.5	2N28_A	1ZAG_B	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P28068|DMB_HUMAN	24.5	2N28_A	2BC4_D	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P29016|CD1B_HUMAN	24.5	2N28_A	1CD1_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P29017|CD1C_HUMAN	24.5	2N28_A	1CD1_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P30511|HLAF_HUMAN	24.5	2N28_A	6AT5_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P32004|L1CAM_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P32242|OTX1_HUMAN	24.5	2N28_A	1MH3_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P35613|BASI_HUMAN	24.5	2N28_A	4U0Q_B	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P43146|DCC_HUMAN	24.5	2N28_A	4YH7_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P49908|SEPP1_HUMAN	24.5	2N28_A	6MZL_B	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P50895|BCAM_HUMAN	24.5	2N28_A	5A2F_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|P55899|FCGRN_HUMAN	24.5	2N28_A	6FGB_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P61769|B2MG_HUMAN	24.5	2N28_A	5J1A_B	1S7X_G	5M02_B
+sp|P78380|OLR1_HUMAN	sp|P05919|VPU_HV1H2	24.5	3C8J_A	2N28_A	5J6G_G	1S7X_G
+sp|P05919|VPU_HV1H2	sp|P79483|DRB3_HUMAN	24.5	2N28_A	6PY2_B	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|P98160|PGBM_HUMAN	24.5	2N28_A	3DMK_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q00889|PSG6_HUMAN	24.5	2N28_A	1E07_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q02246|CNTN2_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q02297|NRG1_HUMAN	24.5	2N28_A	5E8D_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q0ZGT2|NEXN_HUMAN	24.5	2N28_A	6SDB_C	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q12860|CNTN1_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q13046|PSG7_HUMAN	24.5	2N28_A	1E07_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q13449|LSAMP_HUMAN	24.5	2N28_A	5UV6_B	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q14626|I11RA_HUMAN	24.5	2N28_A	6O4P_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q14982|OPCM_HUMAN	24.5	2N28_A	5UV6_B	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q15109|RAGE_HUMAN	24.5	2N28_A	4P2Y_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q15198|PGFRL_HUMAN	24.5	2N28_A	4HJJ_L	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q15714|T22D1_HUMAN	24.5	2N28_A	1DIP_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q29980|MICB_HUMAN	24.5	2N28_A	2WY3_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|Q29983|MICA_HUMAN	24.5	2N28_A	2WY3_A	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|Q2VWP7|PRTG_HUMAN	24.5	2N28_A	4YH7_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q30154|DRB5_HUMAN	24.5	2N28_A	6PY2_B	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|Q30201|HFE_HUMAN	24.5	2N28_A	1A6Z_C	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	sp|Q4KMG0|CDON_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q58EX2|SDK2_HUMAN	24.5	2N28_A	5K6W_B	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q5VY80|ULBP6_HUMAN	24.5	2N28_A	6A97_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q5ZPR3|CD276_HUMAN	24.5	2N28_A	1MCO_H	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q6IA17|SIGIR_HUMAN	24.5	2N28_A	2J67_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q6UWL6|KIRR2_HUMAN	24.5	2N28_A	5A2F_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q7RTU3|OLIG3_HUMAN	24.5	2N28_A	4AYA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q7Z3B1|NEGR1_HUMAN	24.5	2N28_A	6DLD_D	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q7Z553|MDGA2_HUMAN	24.5	2N28_A	5OJ2_B	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q86TB3|ALPK2_HUMAN	24.5	2N28_A	4ZMF_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q86TC9|MYPN_HUMAN	24.5	2N28_A	3B43_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q86YD3|TMM25_HUMAN	24.5	2N28_A	6A69_B	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q8IUL8|CILP2_HUMAN	24.5	2N28_A	6TM6_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q8IVU1|IGDC3_HUMAN	24.5	2N28_A	4PBX_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q8IWV2|CNTN4_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|Q8IX05|CD302_HUMAN	sp|P05919|VPU_HV1H2	24.5	2NAN_A	2N28_A	5J6G_G	1S7X_G
+sp|P05919|VPU_HV1H2	sp|Q8IZU9|KIRR3_HUMAN	24.5	2N28_A	5LF5_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q8N0Z9|VSI10_HUMAN	24.5	2N28_A	3QS7_E	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q8N3J6|CADM2_HUMAN	24.5	2N28_A	5ZO2_C	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q8N6G6|ATL1_HUMAN	24.5	2N28_A	3VN4_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q8N9C0|IGS22_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q8NDA2|HMCN2_HUMAN	24.5	2N28_A	3DMK_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q8NFZ8|CADM4_HUMAN	24.5	2N28_A	5ZO2_C	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q8TD07|RAE1E_HUMAN	24.5	2N28_A	1DE4_G	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q8TD84|DSCL1_HUMAN	24.5	2N28_A	3DMK_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q8TDY8|IGDC4_HUMAN	24.5	2N28_A	4YH7_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q8WX93|PALLD_HUMAN	24.5	2N28_A	3B43_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q8WZ42|TITIN_HUMAN	24.5	2N28_A	3B43_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q92626|PXDN_HUMAN	24.5	2N28_A	5MFA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q92823|NRCAM_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q95460|HMR1_HUMAN	24.5	2N28_A	6PUJ_C	1S7X_G	5M02_B
+sp|Q96E93|KLRG1_HUMAN	sp|P05919|VPU_HV1H2	24.5	3FF7_D	2N28_A	5J6G_G	1S7X_G
+sp|P05919|VPU_HV1H2	sp|Q96EU7|C1GLC_HUMAN	24.5	2N28_A	2J0A_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q96EX2|RNFT2_HUMAN	24.5	2N28_A	6ID1_r	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q96J84|KIRR1_HUMAN	24.5	2N28_A	5A2F_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q96L96|ALPK3_HUMAN	24.5	2N28_A	1IA9_B	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q96MS0|ROBO3_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q96PJ5|FCRL4_HUMAN	24.5	2N28_A	6AED_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q96RD9|FCRL5_HUMAN	24.5	2N28_A	3DMK_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q96RW7|HMCN1_HUMAN	24.5	2N28_A	3DMK_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q99626|CDX2_HUMAN	24.5	2N28_A	6T90_K	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q99958|FOXC2_HUMAN	24.5	2N28_A	6AKP_C	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9BWV1|BOC_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9BXQ6|T121B_HUMAN	24.5	2N28_A	4XIG_N	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9BY67|CADM1_HUMAN	24.5	2N28_A	5ZO1_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9BZM4|ULBP3_HUMAN	24.5	2N28_A	1KCG_C	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9BZM5|ULBP2_HUMAN	24.5	2N28_A	6A97_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9BZM6|ULBP1_HUMAN	24.5	2N28_A	6A97_C	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9BZZ2|SN_HUMAN	24.5	2N28_A	1E07_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9H3J6|CL065_HUMAN	24.5	2N28_A	2RSM_A	6CFW_I	6CFW_C
+sp|P05919|VPU_HV1H2	sp|Q9HCK4|ROBO2_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9NR99|MXRA5_HUMAN	24.5	2N28_A	3DMK_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9P121|NTRI_HUMAN	24.5	2N28_A	5UV6_B	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9P232|CNTN3_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9P2J2|TUTLA_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9P2V4|LRIT1_HUMAN	24.5	2N28_A	3ZYJ_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9UMF0|ICAM5_HUMAN	24.5	2N28_A	3B43_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9UPX0|TUTLB_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9UQ52|CNTN6_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9UQ74|PSG8_HUMAN	24.5	2N28_A	1E07_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9Y2T1|AXIN2_HUMAN	24.5	2N28_A	2D5G_B	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9Y4B5|MTCL1_HUMAN	24.5	2N28_A	1I84_V	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5Q3|MAFB_HUMAN	24.5	2N28_A	1K1V_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9Y639|NPTN_HUMAN	24.5	2N28_A	6A69_B	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q9Y6N7|ROBO1_HUMAN	24.5	2N28_A	6IAA_A	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	tr|A0A087X1L8|A0A087X1L8_HUMAN	24.5	2N28_A	1S7X_G	1S7X_G	5M02_B
+sp|P05919|VPU_HV1H2	tr|A0A0G2JMH6|A0A0G2JMH6_HUMAN	24.5	2N28_A	6CPL_A	1S7X_G	5M02_B
+sp|P69723|VIF_HV1H2	sp|A8MQ27|NEU1B_HUMAN	24.5	4N9F_b	4KG0_A	4DOO_B	4DOO_B
+sp|P69723|VIF_HV1H2	sp|Q9NR63|CP26B_HUMAN	24.5	4N9F_b	2VE3_A	4DOO_B	4DOO_B
+sp|A0A075B6H7|KV37_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_I	1S7X_G
+sp|A0A075B6H8|KVD42_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPA_F	2N28_A	5WLG_D	1S7X_G
+sp|A0A075B6I4|LVX54_HUMAN	sp|P05919|VPU_HV1H2	24.5	6ULC_L	2N28_A	5WLG_D	1S7X_G
+sp|A0A075B6J2|LV233_HUMAN	sp|P05919|VPU_HV1H2	24.5	6ULC_L	2N28_A	5WLG_D	1S7X_G
+sp|A0A075B6N3|TVBX1_HUMAN	sp|P05919|VPU_HV1H2	24.5	5E9D_J	2N28_A	5WLG_I	1S7X_G
+sp|A0A075B6P5|KV228_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPB_B	2N28_A	5WLG_I	1S7X_G
+sp|A0A075B6R9|KVD24_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPC_F	2N28_A	5WLG_D	1S7X_G
+sp|A0A075B6S2|KVD29_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPC_F	2N28_A	5WLG_D	1S7X_G
+sp|A0A075B6S5|KV127_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPA_F	2N28_A	5WLG_D	1S7X_G
+sp|A0A075B6S6|KVD30_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPC_F	2N28_A	5WLG_I	1S7X_G
+sp|A0A075B6S9|KV137_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPA_F	2N28_A	5WLG_D	1S7X_G
+sp|A0A075B6T7|TVA6_HUMAN	sp|P05919|VPU_HV1H2	24.5	1LP9_E	2N28_A	5WLG_D	1S7X_G
+sp|A0A075B6T8|TVA91_HUMAN	sp|P05919|VPU_HV1H2	24.5	2J8U_L	2N28_A	5WLG_D	1S7X_G
+sp|A0A075B6U4|TVA7_HUMAN	sp|P05919|VPU_HV1H2	24.5	5WB1_A	2N28_A	5WLG_I	1S7X_G
+sp|A0A075B6V5|TVA36_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A075B6W5|TVA23_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A087WSY6|KVD15_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPB_B	2N28_A	5WLG_I	1S7X_G
+sp|A0A087WSZ9|TVA30_HUMAN	sp|P05919|VPU_HV1H2	24.5	5WKF_I	2N28_A	5WLG_I	1S7X_G
+sp|A0A087WT01|TVA27_HUMAN	sp|P05919|VPU_HV1H2	24.5	3QDM_D	2N28_A	5WLG_D	1S7X_G
+sp|A0A087WT02|TVA92_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A087WW87|KV240_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPC_F	2N28_A	5WLG_D	1S7X_G
+sp|A0A087X0M5|TVB18_HUMAN	sp|P05919|VPU_HV1H2	24.5	5WB2_A	2N28_A	5WLG_I	1S7X_G
+sp|A0A0A0MRZ7|KVD26_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPB_B	2N28_A	5WLG_I	1S7X_G
+sp|A0A0A0MRZ8|KVD11_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPC_C	2N28_A	5WLG_I	1S7X_G
+sp|A0A0A0MT36|KVD21_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPC_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A0A6YYC5|TVA14_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A0B4J235|TVAM2_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_I	1S7X_G
+sp|A0A0B4J240|TVA10_HUMAN	sp|P05919|VPU_HV1H2	24.5	2CDE_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A0B4J241|TVAM1_HUMAN	sp|P05919|VPU_HV1H2	24.5	5TEZ_I	2N28_A	5WLG_I	1S7X_G
+sp|A0A0B4J245|TVAL1_HUMAN	sp|P05919|VPU_HV1H2	24.5	2CDE_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A0B4J249|TVA5_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A0B4J263|TVA39_HUMAN	sp|P05919|VPU_HV1H2	24.5	2CDE_C	2N28_A	5WLG_I	1S7X_G
+sp|A0A0B4J266|TVA41_HUMAN	sp|P05919|VPU_HV1H2	24.5	4MNQ_D	2N28_A	5WLG_I	1S7X_G
+sp|A0A0B4J272|TVA24_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A0B4J273|TVA34_HUMAN	sp|P05919|VPU_HV1H2	24.5	5WKH_I	2N28_A	5WLG_I	1S7X_G
+sp|A0A0B4J275|TVA17_HUMAN	sp|P05919|VPU_HV1H2	24.5	2J8U_L	2N28_A	5WLG_I	1S7X_G
+sp|A0A0B4J276|TVA25_HUMAN	sp|P05919|VPU_HV1H2	24.5	5WKF_I	2N28_A	5WLG_I	1S7X_G
+sp|A0A0B4J277|TVA22_HUMAN	sp|P05919|VPU_HV1H2	24.5	4MNQ_D	2N28_A	5WLG_I	1S7X_G
+sp|A0A0B4J279|TVA21_HUMAN	sp|P05919|VPU_HV1H2	24.5	2BNU_A	2N28_A	5WLG_D	1S7X_G
+sp|A0A0B4J2D9|KVD13_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPA_F	2N28_A	5WLG_D	1S7X_G
+sp|A0A0B4J2E0|TVBL4_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A0C4DH24|KV621_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A0C4DH25|KVD20_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A0C4DH26|KVD41_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A0C4DH55|KVD07_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_I	1S7X_G
+sp|A0A0C4DH67|KV108_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPC_C	2N28_A	5WLG_I	1S7X_G
+sp|A0A0C4DH68|KV224_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPC_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A0K0K1C0|TVBK1_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A0K0K1C4|TVB27_HUMAN	sp|P05919|VPU_HV1H2	24.5	5E9D_E	2N28_A	5WLG_I	1S7X_G
+sp|A0A0K0K1E9|TVB77_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A0K2S4Q6|CD3CH_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_I	1S7X_G
+sp|A0A1B0GX31|TVB76_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_I	1S7X_G
+sp|A0A1B0GX49|TVB64_HUMAN	sp|P05919|VPU_HV1H2	24.5	5E9D_E	2N28_A	5WLG_D	1S7X_G
+sp|A0A1B0GX51|TVB78_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_I	1S7X_G
+sp|A0A1B0GX56|TRDV1_HUMAN	sp|P05919|VPU_HV1H2	24.5	5YXU_A	2N28_A	5WLG_I	1S7X_G
+sp|A0A1B0GX78|TVBL5_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A1B0GX95|TVB74_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_I	1S7X_G
+sp|A0A1B0GXF2|TVB72_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A539|TVB42_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A576|TVB31_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A5A2|TVB58_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A0A5A6|TVBK3_HUMAN	sp|P05919|VPU_HV1H2	24.5	6GJS_B	2N28_A	5WLG_D	1S7X_G
+sp|A0A5B0|TVB14_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_I	1S7X_G
+sp|A0A5B7|TVB29_HUMAN	sp|P05919|VPU_HV1H2	24.5	4R0L_D	2N28_A	5WLG_I	1S7X_G
+sp|A0JD36|TRDV2_HUMAN	sp|P05919|VPU_HV1H2	24.5	5WB1_A	2N28_A	5WLG_I	1S7X_G
+sp|A0JD37|TRDV3_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|A1L1A6|IGS23_HUMAN	sp|P05919|VPU_HV1H2	24.5	5A2F_A	2N28_A	5WLG_D	1S7X_G
+sp|A2NJV5|KV229_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPB_B	2N28_A	5WLG_D	1S7X_G
+sp|A4D1S0|KLRG2_HUMAN	sp|P05919|VPU_HV1H2	24.5	3ZHG_D	2N28_A	5J6G_G	1S7X_G
+sp|A5D8T8|CL18A_HUMAN	sp|P05919|VPU_HV1H2	24.5	2DDB_B	2N28_A	5J6G_G	1S7X_G
+sp|A6NLU5|VTM2B_HUMAN	sp|P05919|VPU_HV1H2	24.5	4Q6I_J	2N28_A	5WLG_I	1S7X_G
+sp|A8K4G0|CLM7_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_D	1S7X_G
+sp|A8MTB9|CEA18_HUMAN	sp|P05919|VPU_HV1H2	24.5	5LFV_B	2N28_A	5WLG_D	1S7X_G
+sp|A8MVW5|HECA2_HUMAN	sp|P05919|VPU_HV1H2	24.5	5LFR_A	2N28_A	5WLG_D	1S7X_G
+sp|A8MXK1|VSTM5_HUMAN	sp|P05919|VPU_HV1H2	24.5	6J8H_C	2N28_A	5WLG_I	1S7X_G
+sp|D3W0D1|KLRF2_HUMAN	sp|P05919|VPU_HV1H2	24.5	4IOP_B	2N28_A	5J6G_G	1S7X_G
+sp|O00478|BT3A3_HUMAN	sp|P05919|VPU_HV1H2	24.5	5HM7_A	2N28_A	5WLG_I	1S7X_G
+sp|O00481|BT3A1_HUMAN	sp|P05919|VPU_HV1H2	24.5	5HM7_A	2N28_A	5WLG_I	1S7X_G
+sp|O14594|NCAN_HUMAN	sp|P05919|VPU_HV1H2	24.5	2N40_A	2N28_A	5J6G_G	1S7X_G
+sp|O14931|NCTR3_HUMAN	sp|P05919|VPU_HV1H2	24.5	5XSY_B	2N28_A	5WLG_I	1S7X_G
+sp|O15041|SEM3E_HUMAN	sp|P05919|VPU_HV1H2	24.5	6QP7_B	2N28_A	5WLG_D	1S7X_G
+sp|O15169|AXIN1_HUMAN	sp|P04608|TAT_HV1H2	24.5	2D5G_B	3MI9_C	6N50_A	6N51_B
+sp|O15533|TPSN_HUMAN	sp|P05919|VPU_HV1H2	24.5	6ENY_C	2N28_A	5WLG_I	1S7X_G
+sp|O60449|LY75_HUMAN	sp|P05919|VPU_HV1H2	24.5	5XTS_A	2N28_A	5J6G_G	1S7X_G
+sp|O60667|FAIM3_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_I	1S7X_G
+sp|O75015|FCG3B_HUMAN	sp|P05919|VPU_HV1H2	24.5	1FNL_A	2N28_A	5WLG_D	1S7X_G
+sp|O75144|ICOSL_HUMAN	sp|P05919|VPU_HV1H2	24.5	6JXR_n	2N28_A	5WLG_D	1S7X_G
+sp|O75326|SEM7A_HUMAN	sp|P05919|VPU_HV1H2	24.5	3NVQ_A	2N28_A	5WLG_D	1S7X_G
+sp|O75596|CLC3A_HUMAN	sp|P05919|VPU_HV1H2	24.5	1HTN_A	2N28_A	5J6G_G	1S7X_G
+sp|O75882|ATRN_HUMAN	sp|P05919|VPU_HV1H2	24.5	5A10_A	2N28_A	5J6G_G	1S7X_G
+sp|O95025|SEM3D_HUMAN	sp|P05919|VPU_HV1H2	24.5	6QP7_B	2N28_A	5WLG_D	1S7X_G
+sp|O95185|UNC5C_HUMAN	sp|P05919|VPU_HV1H2	24.5	3G5B_A	2N28_A	5WLG_D	1S7X_G
+sp|O95727|CRTAM_HUMAN	sp|P05919|VPU_HV1H2	24.5	3D9A_L	2N28_A	5WLG_I	1S7X_G
+sp|O95944|NCTR2_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_D	1S7X_G
+sp|P01593|KVD33_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPA_F	2N28_A	5WLG_D	1S7X_G
+sp|P01594|KV133_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPA_F	2N28_A	5WLG_I	1S7X_G
+sp|P01599|KV117_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPA_F	2N28_A	5WLG_D	1S7X_G
+sp|P01601|KVD16_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPA_F	2N28_A	5WLG_I	1S7X_G
+sp|P01602|KV105_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPA_F	2N28_A	5WLG_D	1S7X_G
+sp|P01614|KVD40_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPC_F	2N28_A	5WLG_I	1S7X_G
+sp|P01615|KVD28_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPC_F	2N28_A	5WLG_D	1S7X_G
+sp|P01619|KV320_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|P01624|KV315_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPC_C	2N28_A	5WLG_D	1S7X_G
+sp|P01721|LV657_HUMAN	sp|P05919|VPU_HV1H2	24.5	5WB1_A	2N28_A	5WLG_D	1S7X_G
+sp|P01733|TVBL3_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|P04216|THY1_HUMAN	sp|P05919|VPU_HV1H2	24.5	5XSY_B	2N28_A	5WLG_I	1S7X_G
+sp|P04433|KV311_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPC_C	2N28_A	5WLG_D	1S7X_G
+sp|P04435|TVB79_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_I	1S7X_G
+sp|P04437|TVA29_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|P05451|REG1A_HUMAN	sp|P05919|VPU_HV1H2	24.5	1QDD_A	2N28_A	5J6G_G	1S7X_G
+sp|P05452|TETN_HUMAN	sp|P05919|VPU_HV1H2	24.5	1HTN_A	2N28_A	5J6G_G	1S7X_G
+sp|P06310|KV230_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPC_C	2N28_A	5WLG_D	1S7X_G
+sp|P06312|KV401_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+sp|P06315|KV502_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPC_F	2N28_A	5WLG_D	1S7X_G
+sp|P06734|FCER2_HUMAN	sp|P05919|VPU_HV1H2	24.5	5G6U_A	2N28_A	5J6G_G	1S7X_G
+sp|P07204|TRBM_HUMAN	sp|P05919|VPU_HV1H2	24.5	1DX5_K	2N28_A	5J6G_G	1S7X_G
+sp|P07306|ASGR1_HUMAN	sp|P05919|VPU_HV1H2	24.5	5G6U_A	2N28_A	5J6G_G	1S7X_G
+sp|P07307|ASGR2_HUMAN	sp|P05919|VPU_HV1H2	24.5	5G6U_A	2N28_A	5J6G_G	1S7X_G
+sp|P08637|FCG3A_HUMAN	sp|P05919|VPU_HV1H2	24.5	1FNL_A	2N28_A	5WLG_D	1S7X_G
+sp|P09326|CD48_HUMAN	sp|P05919|VPU_HV1H2	24.5	2DRU_A	2N28_A	5WLG_D	1S7X_G
+sp|P09564|CD7_HUMAN	sp|P05919|VPU_HV1H2	24.5	6J8H_C	2N28_A	5WLG_I	1S7X_G
+sp|P0C7M8|CLC2L_HUMAN	sp|P05919|VPU_HV1H2	24.5	1UMR_A	2N28_A	5J6G_G	1S7X_G
+sp|P0DP09|KV113_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPA_F	2N28_A	5WLG_D	1S7X_G
+sp|P0DPF4|TVA35_HUMAN	sp|P05919|VPU_HV1H2	24.5	5W1W_D	2N28_A	5WLG_D	1S7X_G
+sp|P0DSN7|KVD37_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPA_F	2N28_A	5WLG_I	1S7X_G
+sp|P0DTU3|TRAR2_HUMAN	sp|P05919|VPU_HV1H2	24.5	5YXU_A	2N28_A	5WLG_D	1S7X_G
+sp|P11226|MBL2_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OXS_B	2N28_A	5J6G_G	1S7X_G
+sp|P11465|PSG2_HUMAN	sp|P05919|VPU_HV1H2	24.5	1E07_A	2N28_A	5WLG_I	1S7X_G
+sp|P11912|CD79A_HUMAN	sp|P05919|VPU_HV1H2	24.5	6J8H_C	2N28_A	5WLG_D	1S7X_G
+sp|P12319|FCERA_HUMAN	sp|P05919|VPU_HV1H2	24.5	1J86_A	2N28_A	5WLG_I	1S7X_G
+sp|P13611|CSPG2_HUMAN	sp|P05919|VPU_HV1H2	24.5	2N40_A	2N28_A	5J6G_G	1S7X_G
+sp|P13727|PRG2_HUMAN	sp|P05919|VPU_HV1H2	24.5	1H8U_B	2N28_A	5J6G_G	1S7X_G
+sp|P14151|LYAM1_HUMAN	sp|P05919|VPU_HV1H2	24.5	4C16_A	2N28_A	5J6G_G	1S7X_G
+sp|P14778|IL1R1_HUMAN	sp|P05919|VPU_HV1H2	24.5	4GAF_B	2N28_A	5WLG_D	1S7X_G
+sp|P15151|PVR_HUMAN	sp|P05919|VPU_HV1H2	24.5	3J8F_7	2N28_A	5WLG_D	1S7X_G
+sp|P15391|CD19_HUMAN	sp|P05919|VPU_HV1H2	24.5	6AL5_A	2N28_A	5WLG_I	1S7X_G
+sp|P16109|LYAM3_HUMAN	sp|P05919|VPU_HV1H2	24.5	3GAU_A	2N28_A	5J6G_G	1S7X_G
+sp|P16112|PGCA_HUMAN	sp|P05919|VPU_HV1H2	24.5	2PF5_B	2N28_A	5J6G_G	1S7X_G
+sp|P18627|LAG3_HUMAN	sp|P05919|VPU_HV1H2	24.5	3T0E_E	2N28_A	5WLG_I	1S7X_G
+sp|P19256|LFA3_HUMAN	sp|P05919|VPU_HV1H2	24.5	3ALW_A	2N28_A	5WLG_D	1S7X_G
+sp|P20138|CD33_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_I	1S7X_G
+sp|P21854|CD72_HUMAN	sp|P05919|VPU_HV1H2	24.5	5G6U_A	2N28_A	5J6G_G	1S7X_G
+sp|P22897|MRC1_HUMAN	sp|P05919|VPU_HV1H2	24.5	5XTS_A	2N28_A	5J6G_G	1S7X_G
+sp|P26715|NKG2A_HUMAN	sp|P05919|VPU_HV1H2	24.5	3CDG_F	2N28_A	5J6G_G	1S7X_G
+sp|P26717|NKG2C_HUMAN	sp|P05919|VPU_HV1H2	24.5	3BDW_B	2N28_A	5J6G_G	1S7X_G
+sp|P26718|NKG2D_HUMAN	sp|P05919|VPU_HV1H2	24.5	4PDC_D	2N28_A	5J6G_G	1S7X_G
+sp|P26992|CNTFR_HUMAN	sp|P05919|VPU_HV1H2	24.5	1N26_A	2N28_A	5WLG_D	1S7X_G
+sp|P27930|IL1R2_HUMAN	sp|P05919|VPU_HV1H2	24.5	3O4O_C	2N28_A	5WLG_D	1S7X_G
+sp|P29460|IL12B_HUMAN	sp|P05919|VPU_HV1H2	24.5	5MJ3_A	2N28_A	5WLG_D	1S7X_G
+sp|P31994|FCG2B_HUMAN	sp|P05919|VPU_HV1H2	24.5	3RY4_A	2N28_A	5WLG_D	1S7X_G
+sp|P31995|FCG2C_HUMAN	sp|P05919|VPU_HV1H2	24.5	3RY4_A	2N28_A	5WLG_D	1S7X_G
+sp|P31997|CEAM8_HUMAN	sp|P05919|VPU_HV1H2	24.5	1E07_A	2N28_A	5WLG_I	1S7X_G
+sp|P32942|ICAM3_HUMAN	sp|P05919|VPU_HV1H2	24.5	1Z7Z_I	2N28_A	5WLG_D	1S7X_G
+sp|P33681|CD80_HUMAN	sp|P05919|VPU_HV1H2	24.5	1I8L_A	2N28_A	5WLG_D	1S7X_G
+sp|P35247|SFTPD_HUMAN	sp|P05919|VPU_HV1H2	24.5	1PWB_B	2N28_A	5J6G_G	1S7X_G
+sp|P40199|CEAM6_HUMAN	sp|P05919|VPU_HV1H2	24.5	1E07_A	2N28_A	5WLG_D	1S7X_G
+sp|P40200|TACT_HUMAN	sp|P05919|VPU_HV1H2	24.5	6TYB_C	2N28_A	5WLG_I	1S7X_G
+sp|P40259|CD79B_HUMAN	sp|P05919|VPU_HV1H2	24.5	3KG5_A	2N28_A	5WLG_I	1S7X_G
+sp|P41217|OX2G_HUMAN	sp|P05919|VPU_HV1H2	24.5	4BFI_B	2N28_A	5WLG_I	1S7X_G
+sp|P42081|CD86_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_I	1S7X_G
+sp|P48304|REG1B_HUMAN	sp|P05919|VPU_HV1H2	24.5	1QDD_A	2N28_A	5J6G_G	1S7X_G
+sp|P49639|HXA1_HUMAN	sp|P04608|TAT_HV1H2	24.5	1B72_A	3MI9_C	6N50_A	6N51_B
+sp|P49908|SEPP1_HUMAN	sp|P04608|TAT_HV1H2	24.5	6MZL_B	3MI9_C	6N4Y_C	6N51_B
+sp|P52824|DGKQ_HUMAN	sp|P04608|TAT_HV1H2	24.5	3S40_D	3MI9_C	6N4Y_C	6N51_B
+sp|P54107|CRIS1_HUMAN	sp|P04608|TAT_HV1H2	24.5	1WVR_A	3MI9_C	6N50_A	6N51_B
+sp|P57087|JAM2_HUMAN	sp|P05919|VPU_HV1H2	24.5	6GSI_F	2N28_A	5WLG_D	1S7X_G
+sp|P78310|CXAR_HUMAN	sp|P05919|VPU_HV1H2	24.5	3JZ7_A	2N28_A	5WLG_I	1S7X_G
+sp|P78410|BT3A2_HUMAN	sp|P05919|VPU_HV1H2	24.5	4F9L_A	2N28_A	5WLG_D	1S7X_G
+sp|P82987|ATL3_HUMAN	sp|P05919|VPU_HV1H2	24.5	3GHM_A	2N28_A	5WLG_D	1S7X_G
+sp|P98066|TSG6_HUMAN	sp|P05919|VPU_HV1H2	24.5	2WNO_A	2N28_A	5J6G_G	1S7X_G
+sp|P98161|PKD1_HUMAN	sp|P05919|VPU_HV1H2	24.5	6A70_B	2N28_A	5J6G_G	1S7X_G
+sp|Q06141|REG3A_HUMAN	sp|P05919|VPU_HV1H2	24.5	2GO0_A	2N28_A	5J6G_G	1S7X_G
+sp|Q07108|CD69_HUMAN	sp|P05919|VPU_HV1H2	24.5	3HUP_B	2N28_A	5J6G_G	1S7X_G
+sp|Q07444|NKG2E_HUMAN	sp|P05919|VPU_HV1H2	24.5	3CDG_F	2N28_A	5J6G_G	1S7X_G
+sp|Q08708|CLM6_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_D	1S7X_G
+sp|Q08722|CD47_HUMAN	sp|P05919|VPU_HV1H2	24.5	2JJS_D	2N28_A	5WLG_D	1S7X_G
+sp|Q12918|KLRB1_HUMAN	sp|P05919|VPU_HV1H2	24.5	5MGT_D	2N28_A	5J6G_G	1S7X_G
+sp|Q13018|PLA2R_HUMAN	sp|P05919|VPU_HV1H2	24.5	5EW6_A	2N28_A	5J6G_G	1S7X_G
+sp|Q13214|SEM3B_HUMAN	sp|P05919|VPU_HV1H2	24.5	6QP7_B	2N28_A	5WLG_I	1S7X_G
+sp|Q13241|KLRD1_HUMAN	sp|P05919|VPU_HV1H2	24.5	3BDW_C	2N28_A	5J6G_G	1S7X_G
+sp|Q13275|SEM3F_HUMAN	sp|P05919|VPU_HV1H2	24.5	6QP7_B	2N28_A	5WLG_D	1S7X_G
+sp|Q13410|BT1A1_HUMAN	sp|P05919|VPU_HV1H2	24.5	5HM7_A	2N28_A	5WLG_I	1S7X_G
+sp|Q14002|CEAM7_HUMAN	sp|P05919|VPU_HV1H2	24.5	1E07_A	2N28_A	5WLG_D	1S7X_G
+sp|Q14563|SEM3A_HUMAN	sp|P05919|VPU_HV1H2	24.5	4GZ8_A	2N28_A	5WLG_I	1S7X_G
+sp|Q14CZ8|HECAM_HUMAN	sp|P05919|VPU_HV1H2	24.5	6JXR_n	2N28_A	5WLG_I	1S7X_G
+sp|Q15116|PDCD1_HUMAN	sp|P05919|VPU_HV1H2	24.5	5WT9_G	2N28_A	5WLG_I	1S7X_G
+sp|Q15238|PSG5_HUMAN	sp|P05919|VPU_HV1H2	24.5	1E07_A	2N28_A	5WLG_I	1S7X_G
+sp|Q15714|T22D1_HUMAN	sp|P04608|TAT_HV1H2	24.5	1DIP_A	3MI9_C	6N50_A	6N51_B
+sp|Q15762|CD226_HUMAN	sp|P05919|VPU_HV1H2	24.5	6ISB_A	2N28_A	5WLG_I	1S7X_G
+sp|Q2HXU8|CL12B_HUMAN	sp|P05919|VPU_HV1H2	24.5	3C8J_D	2N28_A	5J6G_G	1S7X_G
+sp|Q2WEN9|CEA16_HUMAN	sp|P05919|VPU_HV1H2	24.5	1E07_A	2N28_A	5WLG_D	1S7X_G
+sp|Q3KPI0|CEA21_HUMAN	sp|P05919|VPU_HV1H2	24.5	1E07_A	2N28_A	5WLG_I	1S7X_G
+sp|Q496F6|CLM2_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_I	1S7X_G
+sp|Q5DX21|IGS11_HUMAN	sp|P05919|VPU_HV1H2	24.5	6A69_B	2N28_A	5WLG_D	1S7X_G
+sp|Q5JXA9|SIRB2_HUMAN	sp|P05919|VPU_HV1H2	24.5	4MNG_E	2N28_A	5WLG_I	1S7X_G
+sp|Q5KU26|COL12_HUMAN	sp|P05919|VPU_HV1H2	24.5	1PWB_B	2N28_A	5J6G_G	1S7X_G
+sp|Q5QGZ9|CL12A_HUMAN	sp|P05919|VPU_HV1H2	24.5	3C8J_A	2N28_A	5J6G_G	1S7X_G
+sp|Q5SQ64|LY66F_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_D	1S7X_G
+sp|Q5VV63|ATRN1_HUMAN	sp|P05919|VPU_HV1H2	24.5	5A10_A	2N28_A	5J6G_G	1S7X_G
+sp|Q5VYV0|FOXB2_HUMAN	sp|P04608|TAT_HV1H2	24.5	6FEC_w	3MI9_C	6N50_A	6N51_B
+sp|Q6BAA4|FCRLB_HUMAN	sp|P05919|VPU_HV1H2	24.5	3RJD_A	2N28_A	5WLG_D	1S7X_G
+sp|Q6DN72|FCRL6_HUMAN	sp|P05919|VPU_HV1H2	24.5	5T70_G	2N28_A	5WLG_D	1S7X_G
+sp|Q6EIG7|CLC6A_HUMAN	sp|P05919|VPU_HV1H2	24.5	5VYB_A	2N28_A	5J6G_G	1S7X_G
+sp|Q6ISS4|LAIR2_HUMAN	sp|P05919|VPU_HV1H2	24.5	3KGR_B	2N28_A	5WLG_I	1S7X_G
+sp|Q6MZW2|FSTL4_HUMAN	sp|P05919|VPU_HV1H2	24.5	1NUB_B	2N28_A	5WLG_D	1S7X_G
+sp|Q6P7N7|TMM81_HUMAN	sp|P05919|VPU_HV1H2	24.5	5JK9_D	2N28_A	5WLG_I	1S7X_G
+sp|Q6PCB8|EMB_HUMAN	sp|P05919|VPU_HV1H2	24.5	6A69_B	2N28_A	5WLG_D	1S7X_G
+sp|Q6Q8B3|MO2R2_HUMAN	sp|P05919|VPU_HV1H2	24.5	4BFG_A	2N28_A	5WLG_I	1S7X_G
+sp|Q6UVW9|CLC2A_HUMAN	sp|P05919|VPU_HV1H2	24.5	4IOP_A	2N28_A	5J6G_G	1S7X_G
+sp|Q6UW15|REG3G_HUMAN	sp|P05919|VPU_HV1H2	24.5	4MTH_A	2N28_A	5J6G_G	1S7X_G
+sp|Q6UW60|PCSK4_HUMAN	sp|P04608|TAT_HV1H2	24.5	5JXG_A	3MI9_C	6N50_A	6N51_B
+sp|Q6UX27|VSTM1_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_I	1S7X_G
+sp|Q6UX41|BTNL8_HUMAN	sp|P05919|VPU_HV1H2	24.5	5HM7_A	2N28_A	5WLG_I	1S7X_G
+sp|Q6UXB4|CLC4G_HUMAN	sp|P05919|VPU_HV1H2	24.5	5G6U_A	2N28_A	5J6G_G	1S7X_G
+sp|Q6UXE8|BTNL3_HUMAN	sp|P05919|VPU_HV1H2	24.5	5HM7_A	2N28_A	5WLG_I	1S7X_G
+sp|Q6UXF7|CL18B_HUMAN	sp|P05919|VPU_HV1H2	24.5	2DDB_B	2N28_A	5J6G_G	1S7X_G
+sp|Q6UXG3|CLM9_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_I	1S7X_G
+sp|Q6UXG8|BTNL9_HUMAN	sp|P05919|VPU_HV1H2	24.5	5HM7_A	2N28_A	5WLG_I	1S7X_G
+sp|Q6UXN2|TRML4_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_D	1S7X_G
+sp|Q6UXN8|CLC9A_HUMAN	sp|P05919|VPU_HV1H2	24.5	3VPP_B	2N28_A	5J6G_G	1S7X_G
+sp|Q6UXS0|CL19A_HUMAN	sp|P05919|VPU_HV1H2	24.5	2VUV_A	2N28_A	5J6G_G	1S7X_G
+sp|Q6UXZ0|TMIG1_HUMAN	sp|P05919|VPU_HV1H2	24.5	6A69_B	2N28_A	5WLG_I	1S7X_G
+sp|Q6UXZ4|UNC5D_HUMAN	sp|P05919|VPU_HV1H2	24.5	3G5B_A	2N28_A	5WLG_D	1S7X_G
+sp|Q6ZMC9|SIG15_HUMAN	sp|P05919|VPU_HV1H2	24.5	2CDE_C	2N28_A	5WLG_I	1S7X_G
+sp|Q6ZN44|UNC5A_HUMAN	sp|P05919|VPU_HV1H2	24.5	3G5B_A	2N28_A	5WLG_I	1S7X_G
+sp|Q6ZS10|CL17A_HUMAN	sp|P05919|VPU_HV1H2	24.5	5G6U_A	2N28_A	5J6G_G	1S7X_G
+sp|Q6ZU45|CL20A_HUMAN	sp|P05919|VPU_HV1H2	24.5	6INU_A	2N28_A	5J6G_G	1S7X_G
+sp|Q7RTU3|OLIG3_HUMAN	sp|P04608|TAT_HV1H2	24.5	4AYA_A	3MI9_C	6N50_A	6N51_B
+sp|Q7Z442|PK1L2_HUMAN	sp|P05919|VPU_HV1H2	24.5	6A70_B	2N28_A	5J6G_G	1S7X_G
+sp|Q7Z443|PK1L3_HUMAN	sp|P05919|VPU_HV1H2	24.5	6A70_B	2N28_A	5J6G_G	1S7X_G
+sp|Q7Z6A9|BTLA_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_I	1S7X_G
+sp|Q7Z6M3|MILR1_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_D	1S7X_G
+sp|Q7Z7D3|VTCN1_HUMAN	sp|P05919|VPU_HV1H2	24.5	4F8T_A	2N28_A	5WLG_D	1S7X_G
+sp|Q86T13|CLC14_HUMAN	sp|P05919|VPU_HV1H2	24.5	3P7G_B	2N28_A	5J6G_G	1S7X_G
+sp|Q86UW8|HPLN4_HUMAN	sp|P05919|VPU_HV1H2	24.5	2N40_A	2N28_A	5WLG_I	1S7X_G
+sp|Q86XK7|VSIG1_HUMAN	sp|P05919|VPU_HV1H2	24.5	6JXR_n	2N28_A	5WLG_D	1S7X_G
+sp|Q86YT9|JAML_HUMAN	sp|P05919|VPU_HV1H2	24.5	3MJ6_A	2N28_A	5WLG_D	1S7X_G
+sp|Q86YW5|TRML1_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_I	1S7X_G
+sp|Q8IWL1|SFPA2_HUMAN	sp|P05919|VPU_HV1H2	24.5	1PWB_B	2N28_A	5J6G_G	1S7X_G
+sp|Q8IWL2|SFTA1_HUMAN	sp|P05919|VPU_HV1H2	24.5	1PWB_B	2N28_A	5J6G_G	1S7X_G
+sp|Q8IWT1|SCN4B_HUMAN	sp|P05919|VPU_HV1H2	24.5	5XSY_B	2N28_A	5WLG_I	1S7X_G
+sp|Q8IZJ1|UNC5B_HUMAN	sp|P05919|VPU_HV1H2	24.5	3G5B_A	2N28_A	5WLG_D	1S7X_G
+sp|Q8IZS7|CLCL1_HUMAN	sp|P05919|VPU_HV1H2	24.5	3WBR_B	2N28_A	5J6G_G	1S7X_G
+sp|Q8N1N0|CLC4F_HUMAN	sp|P05919|VPU_HV1H2	24.5	5G6U_A	2N28_A	5J6G_G	1S7X_G
+sp|Q8N2G6|ZCH24_HUMAN	sp|P04608|TAT_HV1H2	24.5	6OET_C	3MI9_C	6N4Y_C	6N51_B
+sp|Q8N475|FSTL5_HUMAN	sp|P05919|VPU_HV1H2	24.5	1NUB_B	2N28_A	5WLG_I	1S7X_G
+sp|Q8NCF0|CL18C_HUMAN	sp|P05919|VPU_HV1H2	24.5	2DDB_B	2N28_A	5J6G_G	1S7X_G
+sp|Q8NHJ6|LIRB4_HUMAN	sp|P05919|VPU_HV1H2	24.5	3P2T_A	2N28_A	5WLG_D	1S7X_G
+sp|Q8TAG5|VTM2A_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPC_C	2N28_A	5WLG_I	1S7X_G
+sp|Q8TD46|MO2R1_HUMAN	sp|P05919|VPU_HV1H2	24.5	4BFG_A	2N28_A	5WLG_D	1S7X_G
+sp|Q8TDQ0|HAVR2_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_D	1S7X_G
+sp|Q8WTT0|CLC4C_HUMAN	sp|P05919|VPU_HV1H2	24.5	4ZES_B	2N28_A	5J6G_G	1S7X_G
+sp|Q8WXI8|CLC4D_HUMAN	sp|P05919|VPU_HV1H2	24.5	3WHD_C	2N28_A	5J6G_G	1S7X_G
+sp|Q8WZ75|ROBO4_HUMAN	sp|P05919|VPU_HV1H2	24.5	4YFD_A	2N28_A	5WLG_I	1S7X_G
+sp|Q92478|CLC2B_HUMAN	sp|P05919|VPU_HV1H2	24.5	4WCO_A	2N28_A	5J6G_G	1S7X_G
+sp|Q92637|FCGRB_HUMAN	sp|P05919|VPU_HV1H2	24.5	4W4O_C	2N28_A	5WLG_D	1S7X_G
+sp|Q92854|SEM4D_HUMAN	sp|P05919|VPU_HV1H2	24.5	1OLZ_A	2N28_A	5WLG_D	1S7X_G
+sp|Q96A28|SLAF9_HUMAN	sp|P05919|VPU_HV1H2	24.5	3ALW_A	2N28_A	5WLG_I	1S7X_G
+sp|Q96AP7|ESAM_HUMAN	sp|P05919|VPU_HV1H2	24.5	6JXR_n	2N28_A	5WLG_D	1S7X_G
+sp|Q96BF3|TMIG2_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_D	1S7X_G
+sp|Q96D42|HAVR1_HUMAN	sp|P05919|VPU_HV1H2	24.5	5DZO_A	2N28_A	5WLG_D	1S7X_G
+sp|Q96DU3|SLAF6_HUMAN	sp|P05919|VPU_HV1H2	24.5	2IF7_D	2N28_A	5WLG_I	1S7X_G
+sp|Q96GW7|PGCB_HUMAN	sp|P05919|VPU_HV1H2	24.5	2N40_A	2N28_A	5J6G_G	1S7X_G
+sp|Q96H15|TIMD4_HUMAN	sp|P05919|VPU_HV1H2	24.5	5F7H_A	2N28_A	5WLG_D	1S7X_G
+sp|Q96ID5|IGS21_HUMAN	sp|P05919|VPU_HV1H2	24.5	3J8D_A	2N28_A	5WLG_I	1S7X_G
+sp|Q96IQ7|VSIG2_HUMAN	sp|P05919|VPU_HV1H2	24.5	6A69_B	2N28_A	5WLG_I	1S7X_G
+sp|Q96KV6|BT2A3_HUMAN	sp|P05919|VPU_HV1H2	24.5	5HM7_A	2N28_A	5WLG_D	1S7X_G
+sp|Q96MT3|PRIC1_HUMAN	sp|P04608|TAT_HV1H2	24.5	2XQN_T	3MI9_C	6N50_A	6N51_B
+sp|Q96N03|VTM2L_HUMAN	sp|P05919|VPU_HV1H2	24.5	6VEP_O	2N28_A	5WLG_D	1S7X_G
+sp|Q96PL5|ERMAP_HUMAN	sp|P05919|VPU_HV1H2	24.5	5HM7_A	2N28_A	5WLG_I	1S7X_G
+sp|Q99626|CDX2_HUMAN	sp|P04608|TAT_HV1H2	24.5	6T90_K	3MI9_C	6N50_A	6N51_B
+sp|Q99795|GPA33_HUMAN	sp|P05919|VPU_HV1H2	24.5	6A69_B	2N28_A	5WLG_D	1S7X_G
+sp|Q99985|SEM3C_HUMAN	sp|P05919|VPU_HV1H2	24.5	6QP7_B	2N28_A	5WLG_D	1S7X_G
+sp|Q9BQ51|PD1L2_HUMAN	sp|P05919|VPU_HV1H2	24.5	3BP5_B	2N28_A	5WLG_D	1S7X_G
+sp|Q9BS86|ZPBP1_HUMAN	sp|P05919|VPU_HV1H2	24.5	2V5T_A	2N28_A	5WLG_D	1S7X_G
+sp|Q9BUF7|CRUM3_HUMAN	sp|P04585|POL_HV1H2	24.5	4YL8_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q9BUF7|CRUM3_HUMAN	sp|P04591|GAG_HV1H2	24.5	4YL8_B	1L6N_A	6CPL_A	2XXM_A
+sp|Q9BWP8|COL11_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OXS_B	2N28_A	5J6G_G	1S7X_G
+sp|Q9BX67|JAM3_HUMAN	sp|P05919|VPU_HV1H2	24.5	1NBQ_A	2N28_A	5WLG_D	1S7X_G
+sp|Q9BYZ8|REG4_HUMAN	sp|P05919|VPU_HV1H2	24.5	2KV3_A	2N28_A	5J6G_G	1S7X_G
+sp|Q9BZW8|CD244_HUMAN	sp|P05919|VPU_HV1H2	24.5	6A69_B	2N28_A	5WLG_D	1S7X_G
+sp|Q9H2X3|CLC4M_HUMAN	sp|P05919|VPU_HV1H2	24.5	3JQH_A	2N28_A	5J6G_G	1S7X_G
+sp|Q9H6B4|CLMP_HUMAN	sp|P05919|VPU_HV1H2	24.5	3JZ7_A	2N28_A	5WLG_D	1S7X_G
+sp|Q9H6F2|TM38A_HUMAN	sp|P04608|TAT_HV1H2	24.5	6IYX_A	3MI9_C	6N50_A	6N51_B
+sp|Q9H6I2|SOX17_HUMAN	sp|P04608|TAT_HV1H2	24.5	6T7A_K	3MI9_C	6N50_A	6N51_B
+sp|Q9H9P2|CHODL_HUMAN	sp|P05919|VPU_HV1H2	24.5	2VUV_A	2N28_A	5J6G_G	1S7X_G
+sp|Q9HB29|ILRL2_HUMAN	sp|P05919|VPU_HV1H2	24.5	6U6U_R	2N28_A	5WLG_I	1S7X_G
+sp|Q9HBG7|LY9_HUMAN	sp|P05919|VPU_HV1H2	24.5	5A2F_A	2N28_A	5WLG_D	1S7X_G
+sp|Q9NNX6|CD209_HUMAN	sp|P05919|VPU_HV1H2	24.5	3JQH_A	2N28_A	5J6G_G	1S7X_G
+sp|Q9NP99|TREM1_HUMAN	sp|P05919|VPU_HV1H2	24.5	1Q8M_C	2N28_A	5WLG_D	1S7X_G
+sp|Q9NPH3|IL1AP_HUMAN	sp|P05919|VPU_HV1H2	24.5	3O4O_B	2N28_A	5WLG_I	1S7X_G
+sp|Q9NPY3|C1QR1_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YO8_A	2N28_A	5J6G_G	1S7X_G
+sp|Q9NQ25|SLAF7_HUMAN	sp|P05919|VPU_HV1H2	24.5	3ALW_A	2N28_A	5WLG_D	1S7X_G
+sp|Q9NS98|SEM3G_HUMAN	sp|P05919|VPU_HV1H2	24.5	6QP7_B	2N28_A	5WLG_D	1S7X_G
+sp|Q9NSI5|IGSF5_HUMAN	sp|P05919|VPU_HV1H2	24.5	4F9L_A	2N28_A	5WLG_D	1S7X_G
+sp|Q9NY25|CLC5A_HUMAN	sp|P05919|VPU_HV1H2	24.5	2YHF_A	2N28_A	5J6G_G	1S7X_G
+sp|Q9NY43|BARH2_HUMAN	sp|P04608|TAT_HV1H2	24.5	1MH3_A	3MI9_C	6N50_A	6N51_B
+sp|Q9NZQ7|PD1L1_HUMAN	sp|P05919|VPU_HV1H2	24.5	6PV9_A	2N28_A	5WLG_D	1S7X_G
+sp|Q9NZS2|KLRF1_HUMAN	sp|P05919|VPU_HV1H2	24.5	3G8L_C	2N28_A	5J6G_G	1S7X_G
+sp|Q9P0V8|SLAF8_HUMAN	sp|P05919|VPU_HV1H2	24.5	6JXR_n	2N28_A	5WLG_I	1S7X_G
+sp|Q9UBG0|MRC2_HUMAN	sp|P05919|VPU_HV1H2	24.5	5EW6_A	2N28_A	5J6G_G	1S7X_G
+sp|Q9UDY8|MALT1_HUMAN	sp|P05919|VPU_HV1H2	24.5	6F7I_A	2N28_A	5WLG_D	1S7X_G
+sp|Q9UGN4|CLM8_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_D	1S7X_G
+sp|Q9UHP7|CLC2D_HUMAN	sp|P05919|VPU_HV1H2	24.5	4WCO_A	2N28_A	5J6G_G	1S7X_G
+sp|Q9UIB8|SLAF5_HUMAN	sp|P05919|VPU_HV1H2	24.5	3ALX_D	2N28_A	5WLG_I	1S7X_G
+sp|Q9UJ71|CLC4K_HUMAN	sp|P05919|VPU_HV1H2	24.5	5G6U_A	2N28_A	5J6G_G	1S7X_G
+sp|Q9UKJ0|PILRB_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_D	1S7X_G
+sp|Q9UKJ1|PILRA_HUMAN	sp|P05919|VPU_HV1H2	24.5	5OR7_C	2N28_A	5WLG_I	1S7X_G
+sp|Q9UM44|HHLA2_HUMAN	sp|P05919|VPU_HV1H2	24.5	3J8F_7	2N28_A	5WLG_D	1S7X_G
+sp|Q9Y240|CLC11_HUMAN	sp|P05919|VPU_HV1H2	24.5	5G6U_A	2N28_A	5J6G_G	1S7X_G
+sp|Q9Y261|FOXA2_HUMAN	sp|P04608|TAT_HV1H2	24.5	6FEC_w	3MI9_C	6N50_A	6N51_B
+sp|Q9Y2Y8|PRG3_HUMAN	sp|P05919|VPU_HV1H2	24.5	1H8U_B	2N28_A	5J6G_G	1S7X_G
+sp|Q9Y4B5|MTCL1_HUMAN	sp|P04608|TAT_HV1H2	24.5	1I84_V	3MI9_C	6N50_A	6N51_B
+sp|Q9Y5Q3|MAFB_HUMAN	sp|P04608|TAT_HV1H2	24.5	1K1V_A	3MI9_C	6N50_A	6N51_B
+sp|Q9Y624|JAM1_HUMAN	sp|P05919|VPU_HV1H2	24.5	1NBQ_A	2N28_A	5WLG_I	1S7X_G
+sp|Q9Y6Z7|COL10_HUMAN	sp|P05919|VPU_HV1H2	24.5	1PWB_B	2N28_A	5J6G_G	1S7X_G
+sp|W5XKT8|SACA6_HUMAN	sp|P05919|VPU_HV1H2	24.5	5JK9_D	2N28_A	5WLG_I	1S7X_G
+tr|A0A087X0K7|A0A087X0K7_HUMAN	sp|P05919|VPU_HV1H2	24.5	5WB1_A	2N28_A	5WLG_D	1S7X_G
+tr|A0A0C4DH90|A0A0C4DH90_HUMAN	sp|P05919|VPU_HV1H2	24.5	1YJD_C	2N28_A	5WLG_D	1S7X_G
+tr|A0A0G2JRQ6|A0A0G2JRQ6_HUMAN	sp|P05919|VPU_HV1H2	24.5	6BPA_F	2N28_A	5WLG_D	1S7X_G
+tr|A0A1W2PRS3|A0A1W2PRS3_HUMAN	sp|P05919|VPU_HV1H2	24.5	3VH8_H	2N28_A	5WLG_D	1S7X_G
+sp|P04578|ENV_HV1H2	sp|P41225|SOX3_HUMAN	24.4	6PWU_E	6JRP_A	6MUF_G	6NNJ_D
+sp|Q9H4S2|GSX1_HUMAN	sp|P04578|ENV_HV1H2	24.4	1MH3_A	6PWU_E	6NM6_D	6MTJ_B
+sp|O43294|TGFI1_HUMAN	sp|P04585|POL_HV1H2	24.4	1RUT_X	1L6N_A	5FMF_L	5FMF_R
+sp|O43490|PROM1_HUMAN	sp|P04585|POL_HV1H2	24.4	5IJO_G	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|O96019|ACL6A_HUMAN	24.4	1L6N_A	6LTJ_J	3SLZ_A	3SLZ_A
+sp|P04585|POL_HV1H2	sp|P11182|ODB2_HUMAN	24.4	1L6N_A	3DV0_I	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|P25815|S100P_HUMAN	24.4	1L6N_A	2M9G_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q5SQQ9|VAX1_HUMAN	24.4	1L6N_A	1AU7_A	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q643R3|LPCT4_HUMAN	24.4	1L6N_A	5KYM_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q6ZRF7|ZN818_HUMAN	24.4	1L6N_A	2DMD_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9GZW5|SCND2_HUMAN	24.4	1L6N_A	1Y7Q_B	6R24_C	6R24_C
+sp|P04585|POL_HV1H2	sp|Q9Y4J8|DTNA_HUMAN	24.4	1L6N_A	1EG4_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	tr|A0A494C193|A0A494C193_HUMAN	24.4	1L6N_A	6MK1_C	6ICZ_Z	6ID1_C
+sp|P04591|GAG_HV1H2	sp|O15169|AXIN1_HUMAN	24.4	1L6N_A	2D5G_B	5IY6_L	2JNJ_A
+sp|P04591|GAG_HV1H2	sp|P11182|ODB2_HUMAN	24.4	1L6N_A	3DV0_I	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|P25815|S100P_HUMAN	24.4	1L6N_A	2M9G_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q53SZ7|PRR30_HUMAN	24.4	1L6N_A	2E9H_A	5JB3_W	6SW9_8
+sp|P04591|GAG_HV1H2	sp|Q5JT82|KLF17_HUMAN	24.4	1L6N_A	2WBS_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q643R3|LPCT4_HUMAN	24.4	1L6N_A	5KYM_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q99715|COCA1_HUMAN	24.4	1L6N_A	4CN9_B	5IY6_L	6NMI_E
+sp|P04591|GAG_HV1H2	sp|Q9GZW5|SCND2_HUMAN	24.4	1L6N_A	1Y7Q_B	6R23_B	6R23_B
+sp|P04591|GAG_HV1H2	sp|Q9NU22|MDN1_HUMAN	24.4	1L6N_A	6ORB_A	5IY6_L	6NMI_E
+sp|P04591|GAG_HV1H2	tr|A0A494C193|A0A494C193_HUMAN	24.4	1L6N_A	6MK1_C	6ICZ_Z	6ID1_C
+sp|P05919|VPU_HV1H2	sp|P06865|HEXA_HUMAN	24.4	2N28_A	2GJX_D	4AZC_B	4AZC_C
+sp|P05919|VPU_HV1H2	sp|P07686|HEXB_HUMAN	24.4	2N28_A	1NOW_B	4AZC_B	4AZC_C
+sp|P05919|VPU_HV1H2	sp|Q5T6V5|QSPP_HUMAN	24.4	2N28_A	6QU6_A	4P6Z_V	4P6Z_S
+sp|P05919|VPU_HV1H2	sp|Q8WVB3|HEXD_HUMAN	24.4	2N28_A	2EPO_A	4AZC_B	4AZC_C
+sp|Q9BXY8|BEX2_HUMAN	sp|P05919|VPU_HV1H2	24.4	4TSK_A	2N28_A	6GKI_A	5UWA_A
+sp|Q9HBH7|BEX1_HUMAN	sp|P05919|VPU_HV1H2	24.4	4TSK_A	2N28_A	6GKI_A	5UWA_A
+sp|P05919|VPU_HV1H2	sp|Q9UBI9|HDC_HUMAN	24.4	2N28_A	6KF3_P	4AZC_B	4AZC_C
+sp|P69723|VIF_HV1H2	sp|O95164|UBL3_HUMAN	24.4	4N9F_b	1WGH_A	4N9F_b	2MA9_B
+sp|P41225|SOX3_HUMAN	sp|P05919|VPU_HV1H2	24.4	6JRP_A	2N28_A	6GKI_A	5UWA_A
+sp|P04585|POL_HV1H2	sp|F5H4A9|CC080_HUMAN	24.3	1L6N_A	6EU1_Q	6ICZ_Z	4F7U_A
+sp|P04585|POL_HV1H2	sp|Q5JST6|EFHC2_HUMAN	24.3	1L6N_A	6U42_7	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q96PM9|Z385A_HUMAN	24.3	1L6N_A	1ZU1_A	1WJC_A	1WJC_A
+sp|P04585|POL_HV1H2	sp|Q9H098|F107B_HUMAN	24.3	1L6N_A	6F3A_h	6DNH_C	6URO_B
+sp|P04585|POL_HV1H2	sp|Q9NZU5|LMCD1_HUMAN	24.3	1L6N_A	2JTN_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9Y2Y9|KLF13_HUMAN	24.3	1L6N_A	2WBS_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q5JST6|EFHC2_HUMAN	24.3	1L6N_A	6U42_7	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9H098|F107B_HUMAN	24.3	1L6N_A	6F3A_h	6DNH_C	6URO_B
+sp|P04591|GAG_HV1H2	sp|Q9H5V9|CX056_HUMAN	24.3	1L6N_A	6RO4_G	2QEX_Z	1VQ8_1
+sp|P04601|NEF_HV1H2	tr|A0A075B6L2|A0A075B6L2_HUMAN	24.3	3TB8_A	6QD6_G	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q7Z692|CEA19_HUMAN	24.3	3MI9_C	6J8H_C	6N4Y_C	4NBX_B
+sp|P69726|VPR_HV1H2	sp|P78545|ELF3_HUMAN	24.3	1ESX_A	3JTG_A	5AJA_B	5AJA_C
+sp|Q7Z2V1|TNT_HUMAN	sp|P05919|VPU_HV1H2	24.3	3KBH_E	2N28_A	3KBH_E	6M18_B
+sp|Q8WY50|PLAC4_HUMAN	sp|P04591|GAG_HV1H2	24.3	4YGM_D	1L6N_A	5OQM_j	5FMF_J
+sp|P04578|ENV_HV1H2	sp|P05813|CRBA1_HUMAN	24.2	6PWU_E	3LWK_A	6DCQ_D	6VPX_P
+sp|P04585|POL_HV1H2	sp|C9JDV5|CL097_HUMAN	24.2	1L6N_A	6DYF_A	2WLV_A	2WLV_A
+sp|P04585|POL_HV1H2	sp|P61968|LMO4_HUMAN	24.2	1L6N_A	1RUT_X	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q6NUI1|C144L_HUMAN	24.2	1L6N_A	4RGH_A	4RGH_A	4RGH_A
+sp|Q8WXI9|P66B_HUMAN	sp|P04585|POL_HV1H2	24.2	2L2L_A	1L6N_A	5FMF_L	5FMF_R
+sp|Q9H1J1|REN3A_HUMAN	sp|P04585|POL_HV1H2	24.2	1UW4_C	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P04585|POL_HV1H2	sp|Q9HD64|XAGE1_HUMAN	24.2	1L6N_A	2M8V_A	6ICZ_Z	6ID1_O
+sp|P04585|POL_HV1H2	sp|Q9Y5N1|HRH3_HUMAN	24.2	1L6N_A	5ZHP_A	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|C9JDV5|CL097_HUMAN	24.2	1L6N_A	6DYF_A	2WLV_A	2WLV_A
+sp|P04591|GAG_HV1H2	sp|Q3LHN1|KR213_HUMAN	24.2	1L6N_A	6URP_A	2QEX_Z	1VQ8_1
+sp|Q9H1J1|REN3A_HUMAN	sp|P04591|GAG_HV1H2	24.2	1UW4_C	1L6N_A	6ICZ_w	6ICZ_Z
+sp|P04591|GAG_HV1H2	sp|Q9HD64|XAGE1_HUMAN	24.2	1L6N_A	2M8V_A	6ICZ_Z	6ID1_O
+sp|P04591|GAG_HV1H2	sp|Q9NRR3|C42S2_HUMAN	24.2	1L6N_A	1CEE_B	4QIW_N	4QIW_C
+sp|P04591|GAG_HV1H2	sp|Q9Y5N1|HRH3_HUMAN	24.2	1L6N_A	5ZHP_A	6TAS_D	6TAS_F
+sp|P05919|VPU_HV1H2	sp|O76095|JTB_HUMAN	24.2	2N28_A	2KJX_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P58511|SI11A_HUMAN	24.2	2N28_A	6KAC_v	6C13_A	6C13_A
+sp|P05919|VPU_HV1H2	sp|Q6UXL0|I20RB_HUMAN	24.2	2N28_A	3BES_R	2KNC_B	2KNC_A
+sp|Q6UWV7|SHL2A_HUMAN	sp|P04585|POL_HV1H2	24.2	5M0W_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q6UWV7|SHL2A_HUMAN	sp|P04591|GAG_HV1H2	24.2	5M0W_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q8TCJ0|FBX25_HUMAN	sp|P04601|NEF_HV1H2	24.2	5VZT_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|O15525|MAFG_HUMAN	24.1	6PWU_E	1K1V_A	2X7R_N	1FAV_A
+sp|P04585|POL_HV1H2	sp|A8MZG2|CP090_HUMAN	24.1	1L6N_A	4PAW_B	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|O14901|KLF11_HUMAN	24.1	1L6N_A	2WBS_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|O94880|PHF14_HUMAN	24.1	1L6N_A	5DAG_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q5TA31|RN187_HUMAN	24.1	1L6N_A	4CFG_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q86T03|PP4P1_HUMAN	24.1	1L6N_A	3ZMS_C	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q92782|DPF1_HUMAN	24.1	1L6N_A	6LTH_R	5UDZ_B	5UDZ_B
+sp|P04585|POL_HV1H2	sp|Q9UIL8|PHF11_HUMAN	24.1	1L6N_A	4NN2_A	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|Q9UIW0|VAX2_HUMAN	24.1	1L6N_A	6T90_K	4U7B_A	4U7B_A
+sp|P04591|GAG_HV1H2	sp|A0A1B0GUT2|CJ143_HUMAN	24.1	1L6N_A	4KQD_D	6N7I_C	6N9X_B
+sp|P04591|GAG_HV1H2	sp|A8MZG2|CP090_HUMAN	24.1	1L6N_A	4PAW_B	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|Q8IZM8|ZN654_HUMAN	24.1	1L6N_A	5YEF_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9UIL8|PHF11_HUMAN	24.1	1L6N_A	4NN2_A	6TAS_D	6TAS_F
+sp|P69726|VPR_HV1H2	sp|Q6F5E7|TR3N_HUMAN	24.1	1ESX_A	1XI7_A	5JK7_F	3FCI_A
+sp|Q8NCS7|CTL5_HUMAN	sp|P04578|ENV_HV1H2	24.1	3ALU_B	6PWU_E	1QO3_C	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q14773|ICAM4_HUMAN	24.0	6PWU_E	1T0P_B	6NIJ_B	5WHZ_L
+sp|O43918|AIRE_HUMAN	sp|P04585|POL_HV1H2	24.0	2KWK_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|O95868|LY66D_HUMAN	24.0	1L6N_A	6GBI_A	6R24_C	6R24_C
+sp|P04585|POL_HV1H2	sp|P58166|INHBE_HUMAN	24.0	1L6N_A	5NTU_A	2BX9_C	2ZP8_F
+sp|P04585|POL_HV1H2	sp|Q96G75|RMD5B_HUMAN	24.0	1L6N_A	6SWY_9	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9H871|RMD5A_HUMAN	24.0	1L6N_A	6SWY_9	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9NYA4|MTMR4_HUMAN	24.0	1L6N_A	1LW3_A	5FMF_R	5IP7_L
+sp|Q9UHB6|LIMA1_HUMAN	sp|P04585|POL_HV1H2	24.0	2D8Y_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04591|GAG_HV1H2	sp|O95868|LY66D_HUMAN	24.0	1L6N_A	6GBI_A	6R23_B	6R23_B
+sp|P04591|GAG_HV1H2	sp|P50479|PDLI4_HUMAN	24.0	1L6N_A	2LXD_A	4AYB_N	4AYB_P
+sp|P04601|NEF_HV1H2	sp|Q9NUS5|AP5S1_HUMAN	24.0	3TB8_A	2IXS_B	4EN2_B	6CRI_M
+sp|P05919|VPU_HV1H2	sp|Q6ZUB1|S31E1_HUMAN	24.0	2N28_A	2M33_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q9NUS5|AP5S1_HUMAN	24.0	2N28_A	2IXS_B	4P6Z_V	6CRI_M
+sp|Q14761|PTCA_HUMAN	sp|P04585|POL_HV1H2	24.0	6C14_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q14761|PTCA_HUMAN	sp|P04591|GAG_HV1H2	24.0	6C14_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q96CX2|KCD12_HUMAN	sp|P04601|NEF_HV1H2	24.0	6QB7_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|O14828|SCAM3_HUMAN	23.9	6PWU_E	1F34_B	5CMZ_A	5CMZ_D
+sp|A6NIX2|WTIP_HUMAN	sp|P04585|POL_HV1H2	23.9	4JCJ_C	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q7L0X2|ERIP6_HUMAN	23.9	1L6N_A	5T15_G	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8N6D2|RN182_HUMAN	23.9	1L6N_A	6H3A_F	5FMF_R	5IP7_L
+sp|Q9Y3S2|ZN330_HUMAN	sp|P04585|POL_HV1H2	23.9	6T9K_Q	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	tr|A0A2R8YCE0|A0A2R8YCE0_HUMAN	23.9	1L6N_A	3JB9_i	6ICZ_Z	6ID1_K
+sp|P04591|GAG_HV1H2	sp|L0R819|ASURF_HUMAN	23.9	1L6N_A	6NRC_4	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	sp|Q5VWM6|PRA13_HUMAN	23.9	1L6N_A	5AJ2_C	4AYB_N	4AYB_P
+sp|P04591|GAG_HV1H2	sp|Q86VZ6|JAZF1_HUMAN	23.9	1L6N_A	3ZMS_C	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q9BSE4|HERP2_HUMAN	23.9	1L6N_A	1WGH_A	5UDH_B	3LDZ_E
+sp|P04591|GAG_HV1H2	tr|A0A2R8YCE0|A0A2R8YCE0_HUMAN	23.9	1L6N_A	3JB9_i	6ICZ_Z	6ID1_K
+sp|P04585|POL_HV1H2	sp|P28070|PSB4_HUMAN	23.8	1L6N_A	5L4G_X	1WJB_A	1WJB_A
+sp|P04585|POL_HV1H2	sp|P29034|S10A2_HUMAN	23.8	1L6N_A	4DUQ_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q5GH77|XKR3_HUMAN	23.8	1L6N_A	6BQI_A	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|Q9UBP5|HEY2_HUMAN	23.8	1L6N_A	2DB7_B	4RGH_A	4RGH_A
+sp|P04585|POL_HV1H2	sp|Q9UPY8|MARE3_HUMAN	23.8	1L6N_A	2R8U_B	1E0E_B	1E0E_B
+sp|P04585|POL_HV1H2	sp|Q9Y5P0|O51B4_HUMAN	23.8	1L6N_A	6KUX_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O60503|ADCY9_HUMAN	23.8	1L6N_A	6R4P_A	4QIW_N	4QIW_P
+sp|P04591|GAG_HV1H2	sp|P29034|S10A2_HUMAN	23.8	1L6N_A	4DUQ_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q5GH77|XKR3_HUMAN	23.8	1L6N_A	6BQI_A	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|Q9Y5P0|O51B4_HUMAN	23.8	1L6N_A	6KUX_A	2XT1_A	6FPV_A
+sp|P04608|TAT_HV1H2	sp|O95998|I18BP_HUMAN	23.8	3MI9_C	3F62_A	4OGR_D	4OR5_F
+sp|P05919|VPU_HV1H2	sp|B4DJY2|TM233_HUMAN	23.8	2N28_A	2K9J_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q13113|PDZ1I_HUMAN	23.8	2N28_A	4FMC_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q15038|DAZP2_HUMAN	23.8	2N28_A	2QTV_D	6CFW_I	6CFW_J
+sp|P05919|VPU_HV1H2	sp|Q6UWD8|CP054_HUMAN	23.8	2N28_A	4NKQ_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96NL1|TMM74_HUMAN	23.8	2N28_A	6BTM_A	2KNC_B	2KNC_A
+sp|P69726|VPR_HV1H2	sp|Q7Z7K6|CENPV_HUMAN	23.8	1ESX_A	3FAC_D	4Z8L_B	4Z8L_F
+sp|P04585|POL_HV1H2	sp|O94805|ACL6B_HUMAN	23.7	1L6N_A	6LTJ_J	3SLZ_A	3SLZ_A
+sp|P04585|POL_HV1H2	sp|P12272|PTHR_HUMAN	23.7	1L6N_A	3FFD_P	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q08629|TICN1_HUMAN	23.7	1L6N_A	1NUB_B	2MGU_M	5DOW_A
+sp|Q495X7|TRI60_HUMAN	sp|P04585|POL_HV1H2	23.7	4CFG_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q8WVP5|TP8L1_HUMAN	23.7	1L6N_A	4Q9V_B	3G29_B	3G29_B
+sp|P04585|POL_HV1H2	sp|Q96GS4|BORC6_HUMAN	23.7	1L6N_A	5TOH_C	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|Q96LL4|CH048_HUMAN	23.7	1L6N_A	2QEX_Z	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|P12272|PTHR_HUMAN	23.7	1L6N_A	3FFD_P	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|P57682|KLF3_HUMAN	23.7	1L6N_A	2EBT_A	4AYB_N	4AYB_P
+sp|P04591|GAG_HV1H2	sp|Q08629|TICN1_HUMAN	23.7	1L6N_A	1NUB_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q56VL3|OCAD2_HUMAN	23.7	1L6N_A	6DK4_B	2QEX_Z	1VQ8_3
+sp|P04591|GAG_HV1H2	sp|Q8WVP5|TP8L1_HUMAN	23.7	1L6N_A	4Q9V_B	3G29_B	3G29_B
+sp|Q9P0U1|TOM7_HUMAN	sp|P04591|GAG_HV1H2	23.7	6UCV_e	1L6N_A	3H0G_E	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9UI30|TR112_HUMAN	23.7	1L6N_A	6H2U_B	3A43_A	3A43_A
+sp|P04608|TAT_HV1H2	sp|Q7Z7B8|DB128_HUMAN	23.7	3MI9_C	6MJV_A	2E4X_B	2E4X_B
+sp|P02812|PRB2_HUMAN	sp|P04578|ENV_HV1H2	23.7	4WEB_H	6PWU_E	4YDV_A	6PWU_E
+sp|Q5T7N8|F27D1_HUMAN	sp|P04578|ENV_HV1H2	23.7	5XTC_f	6PWU_E	6R2G_A	5KA6_B
+sp|Q6NS38|ALKB2_HUMAN	sp|P04591|GAG_HV1H2	23.7	3BTX_A	1L6N_A	3H0G_L	5FMF_J
+sp|P04578|ENV_HV1H2	tr|A0A0U1RRA0|A0A0U1RRA0_HUMAN	23.6	6PWU_E	6T0B_g	6MUF_G	6E5P_D
+sp|P04585|POL_HV1H2	sp|P33763|S10A5_HUMAN	23.6	1L6N_A	2KAX_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P33763|S10A5_HUMAN	23.6	1L6N_A	2KAX_A	2MGU_M	5DOW_A
+sp|Q9NUM4|T106B_HUMAN	sp|P04591|GAG_HV1H2	23.6	2CTT_A	1L6N_A	1TWF_L	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9Y5A7|NUB1_HUMAN	23.6	1L6N_A	5Y3T_B	5UDH_B	3LDZ_E
+sp|P04601|NEF_HV1H2	sp|Q13477|MADCA_HUMAN	23.6	3TB8_A	1BQS_A	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q8WVN6|SCTM1_HUMAN	23.6	3TB8_A	6J8H_C	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|A2A3L6|TTC24_HUMAN	23.6	3MI9_C	5A7D_B	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|A2RTY3|HEAT9_HUMAN	23.6	3MI9_C	1OYZ_A	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|A6NKF1|SAC31_HUMAN	23.6	3MI9_C	5UBP_A	5MPD_W	3JCK_H
+sp|P04608|TAT_HV1H2	sp|A6NKT7|RGPD3_HUMAN	23.6	3MI9_C	3M1I_B	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|B5ME19|EIFCL_HUMAN	23.6	3MI9_C	6W2S_2	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|O00203|AP3B1_HUMAN	23.6	3MI9_C	6OWT_A	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|O00231|PSD11_HUMAN	23.6	3MI9_C	5VFP_X	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|O00232|PSD12_HUMAN	23.6	3MI9_C	6EPF_P	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|O00303|EIF3F_HUMAN	23.6	3MI9_C	6W2S_4	5MPD_W	3JCK_G
+sp|P04608|TAT_HV1H2	sp|O00458|IFRD1_HUMAN	23.6	3MI9_C	6MTC_v	5MPD_W	5L4K_Z
+sp|P04608|TAT_HV1H2	sp|O00487|PSDE_HUMAN	23.6	3MI9_C	5L4K_V	5MPD_W	3JCK_G
+sp|P04608|TAT_HV1H2	sp|O14617|AP3D1_HUMAN	23.6	3MI9_C	6OWT_A	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|O14879|IFIT3_HUMAN	23.6	3MI9_C	6C6K_D	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|O15131|IMA6_HUMAN	23.6	3MI9_C	1WA5_B	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|O15287|FANCG_HUMAN	23.6	3MI9_C	5AEM_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|O15372|EIF3H_HUMAN	23.6	3MI9_C	6YAM_r	5MPD_W	3JCK_G
+sp|P04608|TAT_HV1H2	sp|O15460|P4HA2_HUMAN	23.6	3MI9_C	2JIG_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|O43181|NDUS4_HUMAN	23.6	3MI9_C	6G2J_Q	5MPD_W	3JCK_H
+sp|P04608|TAT_HV1H2	sp|O43242|PSMD3_HUMAN	23.6	3MI9_C	5L4K_S	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|O60318|GANP_HUMAN	23.6	3MI9_C	5G5P_A	5MPD_W	3JCK_H
+sp|P04608|TAT_HV1H2	sp|O60684|IMA7_HUMAN	23.6	3MI9_C	4UAD_A	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|O60716|CTND1_HUMAN	23.6	3MI9_C	3L6X_A	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|O75153|CLU_HUMAN	23.6	3MI9_C	1SGO_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|O75843|AP1G2_HUMAN	23.6	3MI9_C	6OWT_A	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|O95630|STABP_HUMAN	23.6	3MI9_C	3RZV_A	5MPD_W	3JCK_G
+sp|P04608|TAT_HV1H2	sp|O95801|TTC4_HUMAN	23.6	3MI9_C	6HFO_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|P09914|IFIT1_HUMAN	23.6	3MI9_C	6C6K_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|P0CW19|LIMS3_HUMAN	23.6	3MI9_C	2JTN_A	4OGR_D	4OGR_D
+sp|P04608|TAT_HV1H2	sp|P0CW20|LIMS4_HUMAN	23.6	3MI9_C	2JTN_A	4OGR_D	4OGR_D
+sp|P04608|TAT_HV1H2	sp|P17405|ASM_HUMAN	23.6	3MI9_C	5I81_A	5MPD_W	5U4P_A
+sp|P04608|TAT_HV1H2	sp|P19878|NCF2_HUMAN	23.6	3MI9_C	1WM5_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|P31948|STIP1_HUMAN	23.6	3MI9_C	5AIO_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|P46736|BRCC3_HUMAN	23.6	3MI9_C	6R8F_A	5MPD_W	3JCK_G
+sp|P04608|TAT_HV1H2	sp|P48556|PSMD8_HUMAN	23.6	3MI9_C	5L4K_T	5MPD_W	3JCK_H
+sp|P04608|TAT_HV1H2	sp|P49321|NASP_HUMAN	23.6	3MI9_C	4NQ0_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|P50542|PEX5_HUMAN	23.6	3MI9_C	1FCH_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|P51665|PSMD7_HUMAN	23.6	3MI9_C	6MSB_Z	5MPD_W	3JCK_G
+sp|P04608|TAT_HV1H2	sp|P54920|SNAA_HUMAN	23.6	3MI9_C	3J96_H	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|P60228|EIF3E_HUMAN	23.6	3MI9_C	6FEC_3	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|P61201|CSN2_HUMAN	23.6	3MI9_C	6R7N_B	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|P81274|GPSM2_HUMAN	23.6	3MI9_C	4WND_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q02318|CP27A_HUMAN	23.6	3MI9_C	6M7X_B	5MPD_W	3JCK_F
+sp|P04608|TAT_HV1H2	sp|Q07866|KLC1_HUMAN	23.6	3MI9_C	6EJN_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q12797|ASPH_HUMAN	23.6	3MI9_C	6RK9_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q12894|IFRD2_HUMAN	23.6	3MI9_C	6MTC_v	5MPD_W	5L4K_Z
+sp|P04608|TAT_HV1H2	sp|Q13098|CSN1_HUMAN	23.6	3MI9_C	4D10_I	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q13099|IFT88_HUMAN	23.6	3MI9_C	6ID1_J	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q13200|PSMD2_HUMAN	23.6	3MI9_C	5L4K_Z	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|Q13367|AP3B2_HUMAN	23.6	3MI9_C	6OWT_A	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|Q13702|RAPSN_HUMAN	23.6	3MI9_C	3RO2_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q14152|EIF3A_HUMAN	23.6	3MI9_C	6YAM_y	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q14154|DELE1_HUMAN	23.6	3MI9_C	6ONW_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q15008|PSMD6_HUMAN	23.6	3MI9_C	3JCK_D	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q15018|ABRX2_HUMAN	23.6	3MI9_C	6H3C_A	5MPD_W	5U4P_A
+sp|P04608|TAT_HV1H2	sp|Q15785|TOM34_HUMAN	23.6	3MI9_C	6FO1_G	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q16186|ADRM1_HUMAN	23.6	3MI9_C	2KR0_A	5MPD_W	5MPD_X
+sp|P04608|TAT_HV1H2	sp|Q1L5Z9|LONF2_HUMAN	23.6	3MI9_C	1ZBO_B	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q3ZCU0|GVQW3_HUMAN	23.6	3MI9_C	4U7B_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q5I0X7|TTC32_HUMAN	23.6	3MI9_C	5L0Y_B	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q5JVF3|PCID2_HUMAN	23.6	3MI9_C	5UBP_B	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q5R3I4|TTC38_HUMAN	23.6	3MI9_C	2VQ2_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q5SRH9|TT39A_HUMAN	23.6	3MI9_C	5OJ8_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q5T0N1|CFA70_HUMAN	23.6	3MI9_C	3IEG_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q5T764|IFT1B_HUMAN	23.6	3MI9_C	5UDI_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q5TAA0|TTC22_HUMAN	23.6	3MI9_C	4G1T_B	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q5TEA6|SE1L2_HUMAN	23.6	3MI9_C	6VK3_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q5VVJ2|MYSM1_HUMAN	23.6	3MI9_C	2DCE_A	5MPD_W	3JCK_G
+sp|P04608|TAT_HV1H2	sp|Q5W5X9|TTC23_HUMAN	23.6	3MI9_C	4Y6W_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q68CR1|SE1L3_HUMAN	23.6	3MI9_C	6ONW_B	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q6DKK2|TTC19_HUMAN	23.6	3MI9_C	5O09_4	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q6P2Q9|PRP8_HUMAN	23.6	3MI9_C	6ID1_A	5MPD_W	3JCK_G
+sp|P04608|TAT_HV1H2	sp|Q6P597|KLC3_HUMAN	23.6	3MI9_C	4Y6W_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q6PF05|TT23L_HUMAN	23.6	3MI9_C	3CEQ_B	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q6PL24|TMED8_HUMAN	23.6	3MI9_C	6HM8_A	5MPD_W	5MPD_X
+sp|P04608|TAT_HV1H2	sp|Q6UWZ7|ABRX1_HUMAN	23.6	3MI9_C	6GVW_F	5MPD_W	3JCK_G
+sp|P04608|TAT_HV1H2	sp|Q6ZS17|RIPR1_HUMAN	23.6	3MI9_C	3H0G_A	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|Q7L2H7|EIF3M_HUMAN	23.6	3MI9_C	6W2S_8	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q7L5D6|GET4_HUMAN	23.6	3MI9_C	6AU8_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q7L5N1|CSN6_HUMAN	23.6	3MI9_C	4D10_N	5MPD_W	3JCK_G
+sp|P04608|TAT_HV1H2	sp|Q7Z3J3|RGPD4_HUMAN	23.6	3MI9_C	3M1I_B	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q7Z494|NPHP3_HUMAN	23.6	3MI9_C	6EJN_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q7Z4N8|P4HA3_HUMAN	23.6	3MI9_C	2V4A_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q86WZ0|HEAT4_HUMAN	23.6	3MI9_C	1OYZ_A	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|Q86YR5|GPSM1_HUMAN	23.6	3MI9_C	6HC2_C	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q8IYB4|PEX5R_HUMAN	23.6	3MI9_C	4EQF_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q8IYF3|TEX11_HUMAN	23.6	3MI9_C	4GYO_B	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q8IYR2|SMYD4_HUMAN	23.6	3MI9_C	4WUY_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q8N584|TT39C_HUMAN	23.6	3MI9_C	5O09_4	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q8N594|MPND_HUMAN	23.6	3MI9_C	5CW6_A	5MPD_W	3JCK_G
+sp|P04608|TAT_HV1H2	sp|Q8N5M4|TTC9C_HUMAN	23.6	3MI9_C	1P5Q_B	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q8N6N2|TTC9B_HUMAN	23.6	3MI9_C	2IF4_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q8NA56|TTC29_HUMAN	23.6	3MI9_C	4G2V_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q8NHS2|AATC2_HUMAN	23.6	3MI9_C	3K7Y_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q8TAM2|TTC8_HUMAN	23.6	3MI9_C	6VBV_8	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q8TDW4|ST7L_HUMAN	23.6	3MI9_C	2VQ2_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q8TE82|S3TC1_HUMAN	23.6	3MI9_C	4WND_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q8TF17|S3TC2_HUMAN	23.6	3MI9_C	5A7D_C	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q8WVT3|TPC12_HUMAN	23.6	3MI9_C	4A1S_B	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q92624|APBP2_HUMAN	23.6	3MI9_C	6EJN_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q92905|CSN5_HUMAN	23.6	3MI9_C	4D10_E	5MPD_W	3JCK_G
+sp|P04608|TAT_HV1H2	sp|Q969T3|SNX21_HUMAN	23.6	3MI9_C	5ZN9_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q96AY4|TTC28_HUMAN	23.6	3MI9_C	5MC6_i	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q96EQ0|SGTB_HUMAN	23.6	3MI9_C	5L0Y_B	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q96FJ0|STALP_HUMAN	23.6	3MI9_C	5GM6_A	5MPD_W	3JCK_G
+sp|P04608|TAT_HV1H2	sp|Q96HW7|INT4_HUMAN	23.6	3MI9_C	4P6Z_B	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|Q96HY6|DDRGK_HUMAN	23.6	3MI9_C	1WI9_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q96NG3|TTC25_HUMAN	23.6	3MI9_C	4A1S_B	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q96PV6|LENG8_HUMAN	23.6	3MI9_C	5L4K_T	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q99460|PSMD1_HUMAN	23.6	3MI9_C	4ADY_A	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|Q99613|EIF3C_HUMAN	23.6	3MI9_C	6W2S_2	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q99614|TTC1_HUMAN	23.6	3MI9_C	4APO_B	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q99627|CSN8_HUMAN	23.6	3MI9_C	6R7H_H	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q99747|SNAG_HUMAN	23.6	3MI9_C	2IFU_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q9BPX3|CND3_HUMAN	23.6	3MI9_C	6IGX_D	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|Q9BT78|CSN4_HUMAN	23.6	3MI9_C	4D10_L	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q9BTW9|TBCD_HUMAN	23.6	3MI9_C	4FDD_A	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|Q9BU89|DOHH_HUMAN	23.6	3MI9_C	4D50_A	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|Q9BVA6|FICD_HUMAN	23.6	3MI9_C	6I7H_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q9H0B6|KLC2_HUMAN	23.6	3MI9_C	6EJN_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q9H0C1|ZMY12_HUMAN	23.6	3MI9_C	5OJ8_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q9H115|SNAB_HUMAN	23.6	3MI9_C	3J99_G	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q9H1A4|APC1_HUMAN	23.6	3MI9_C	6Q6G_A	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|Q9H6T3|RPAP3_HUMAN	23.6	3MI9_C	6FO1_G	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q9H9A5|CNO10_HUMAN	23.6	3MI9_C	3HYM_B	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q9H9Q2|CSN7B_HUMAN	23.6	3MI9_C	6R7I_G	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q9NRG4|SMYD2_HUMAN	23.6	3MI9_C	4WUY_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q9NSK0|KLC4_HUMAN	23.6	3MI9_C	6EJN_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q9NTI5|PDS5B_HUMAN	23.6	3MI9_C	5F0O_A	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|Q9NVH2|INT7_HUMAN	23.6	3MI9_C	6QH5_B	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|Q9NZN9|AIPL1_HUMAN	23.6	3MI9_C	2IF4_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q9P2D3|HTR5B_HUMAN	23.6	3MI9_C	5VCH_A	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|Q9P2M1|LR2BP_HUMAN	23.6	3MI9_C	6ONW_B	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q9UBF2|COPG2_HUMAN	23.6	3MI9_C	5NZR_G	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|Q9UBQ5|EIF3K_HUMAN	23.6	3MI9_C	5A5T_K	5MPD_W	3JCK_H
+sp|P04608|TAT_HV1H2	sp|Q9UBW8|CSN7A_HUMAN	23.6	3MI9_C	4D10_G	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q9UGR2|Z3H7B_HUMAN	23.6	3MI9_C	2D9M_A	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q9UJX4|APC5_HUMAN	23.6	3MI9_C	6Q6H_O	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q9UMS5|PHTF1_HUMAN	23.6	3MI9_C	2Z59_A	5MPD_W	5MPD_X
+sp|P04608|TAT_HV1H2	sp|Q9UNE7|CHIP_HUMAN	23.6	3MI9_C	2C2L_B	5MPD_W	3JCK_C
+sp|P04608|TAT_HV1H2	sp|Q9UNM6|PSD13_HUMAN	23.6	3MI9_C	6FVW_O	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q9UNS2|CSN3_HUMAN	23.6	3MI9_C	4D10_K	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q9Y262|EIF3L_HUMAN	23.6	3MI9_C	6FEC_7	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q9Y2S6|TMA7_HUMAN	23.6	3MI9_C	5SUP_G	5MPD_W	5L4K_Z
+sp|P04608|TAT_HV1H2	sp|Q9Y3B6|EMC9_HUMAN	23.6	3MI9_C	6WW7_H	5MPD_W	3JCK_G
+sp|P04608|TAT_HV1H2	sp|Q9Y3D6|FIS1_HUMAN	23.6	3MI9_C	1PC2_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q9Y678|COPG1_HUMAN	23.6	3MI9_C	5A1V_E	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|Q9Y6B7|AP4B1_HUMAN	23.6	3MI9_C	4UQI_B	5MPD_W	4ADY_A
+sp|P04608|TAT_HV1H2	sp|Q9Y6W3|CAN7_HUMAN	23.6	3MI9_C	1QXP_A	5MPD_W	3JCK_B
+sp|P04608|TAT_HV1H2	sp|Q9Y6X3|SCC4_HUMAN	23.6	3MI9_C	5W94_A	5MPD_W	3JCK_B
+sp|P05919|VPU_HV1H2	sp|A0FGR8|ESYT2_HUMAN	23.6	2N28_A	4P42_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|A0FGR9|ESYT3_HUMAN	23.6	2N28_A	4P42_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|A8MWY0|ELAP2_HUMAN	23.6	2N28_A	3ME4_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|O14613|BORG1_HUMAN	23.6	2N28_A	5UPK_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|O15031|PLXB2_HUMAN	23.6	2N28_A	6VXK_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|O43291|SPIT2_HUMAN	23.6	2N28_A	5H7V_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|O75051|PLXA2_HUMAN	23.6	2N28_A	6VXK_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|P05067|A4_HUMAN	23.6	2N28_A	5BUO_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|P11117|PPAL_HUMAN	23.6	2N28_A	1ND6_C	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|P15509|CSF2R_HUMAN	23.6	2N28_A	4NKQ_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|P16671|CD36_HUMAN	23.6	2N28_A	5LGD_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|P20023|CR2_HUMAN	23.6	2N28_A	2GSX_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|P31431|SDC4_HUMAN	23.6	2N28_A	6ITH_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|P34741|SDC2_HUMAN	23.6	2N28_A	6ITH_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|P40967|PMEL_HUMAN	23.6	2N28_A	2MOF_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q02505|MUC3A_HUMAN	23.6	2N28_A	6UJA_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q13291|SLAF1_HUMAN	23.6	2N28_A	3ALZ_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q16819|MEP1A_HUMAN	23.6	2N28_A	4GWN_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q3KNW5|SOAT_HUMAN	23.6	2N28_A	4N7W_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q5T8D3|ACBD5_HUMAN	23.6	2N28_A	3FLV_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q5VU97|CAHD1_HUMAN	23.6	2N28_A	6JPA_F	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q6P995|F171B_HUMAN	23.6	2N28_A	6UXW_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q6UWI2|PARM1_HUMAN	23.6	2N28_A	2KNC_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q6ZV29|PLPL7_HUMAN	23.6	2N28_A	5FYA_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q86T20|SIM29_HUMAN	23.6	2N28_A	2MFR_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q86Y82|STX12_HUMAN	23.6	2N28_A	4JEH_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q8IUK5|PLDX1_HUMAN	23.6	2N28_A	5LSP_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q8N131|PORIM_HUMAN	23.6	2N28_A	2KNC_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q8N7X8|SIGL1_HUMAN	23.6	2N28_A	5A2F_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q8NC67|NETO2_HUMAN	23.6	2N28_A	2QQL_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q8NFM7|I17RD_HUMAN	23.6	2N28_A	4NUX_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q8WYK1|CNTP5_HUMAN	23.6	2N28_A	3POY_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q96DD7|SHSA4_HUMAN	23.6	2N28_A	5M0W_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q96NU0|CNT3B_HUMAN	23.6	2N28_A	3POY_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q9BSJ8|ESYT1_HUMAN	23.6	2N28_A	4P42_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q9BZ76|CNTP3_HUMAN	23.6	2N28_A	3POY_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q9C0A0|CNTP4_HUMAN	23.6	2N28_A	3POY_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q9HCM2|PLXA4_HUMAN	23.6	2N28_A	6VXK_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q9NPL8|TIDC1_HUMAN	23.6	2N28_A	6G2J_Y	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q9UHC6|CNTP2_HUMAN	23.6	2N28_A	3POY_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q9UIW2|PLXA1_HUMAN	23.6	2N28_A	6VXK_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q9ULB1|NRX1A_HUMAN	23.6	2N28_A	3QCW_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q9ULK6|RN150_HUMAN	23.6	2N28_A	3ICU_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q9UPI3|FLVC2_HUMAN	23.6	2N28_A	6E9N_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q9UPZ6|THS7A_HUMAN	23.6	2N28_A	1W0R_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q9Y225|RNF24_HUMAN	23.6	2N28_A	6VK0_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q9Y231|FUT9_HUMAN	23.6	2N28_A	2NZY_C	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q9Y4C0|NRX3A_HUMAN	23.6	2N28_A	3QCW_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q9Y6A1|POMT1_HUMAN	23.6	2N28_A	6P25_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q9Y6X5|ENPP4_HUMAN	23.6	2N28_A	4LQY_A	2N2A_B	2N2A_B
+sp|A6NCW0|U17L3_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|A6NCW7|U17L4_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|A6NNY8|UBP27_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|A8MUK1|U17L5_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|C9J2P7|U17LF_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|C9JJH3|U17LA_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|C9JLJ4|U17LD_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|C9JPN9|UL17C_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|C9JVI0|U17LB_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|D6R901|U17LL_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|D6R9N7|U17LI_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|D6RA61|U17LM_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|D6RBM5|U17LN_HUMAN	sp|P04608|TAT_HV1H2	23.6	2VHF_A	3MI9_C	5A5B_8	5MPD_W
+sp|D6RBQ6|U17LH_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|D6RCP7|U17LJ_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|D6RJB6|U17LK_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|O00507|USP9Y_HUMAN	sp|P04608|TAT_HV1H2	23.6	5WCH_C	3MI9_C	5A5B_8	5MPD_W
+sp|O75317|UBP12_HUMAN	sp|P04608|TAT_HV1H2	23.6	5K16_B	3MI9_C	5A5B_8	5MPD_W
+sp|O75604|UBP2_HUMAN	sp|P04608|TAT_HV1H2	23.6	2GFO_A	3MI9_C	5A5B_8	5MPD_W
+sp|O94782|UBP1_HUMAN	sp|P04608|TAT_HV1H2	23.6	3N3K_A	3MI9_C	5A5B_8	5MPD_W
+sp|O94966|UBP19_HUMAN	sp|P04608|TAT_HV1H2	23.6	2GFO_A	3MI9_C	5A5B_8	5MPD_W
+sp|P0C7H9|U17L7_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|P0C7I0|U17L8_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|P35125|UBP6_HUMAN	sp|P04608|TAT_HV1H2	23.6	2GFO_A	3MI9_C	5A5B_8	5MPD_W
+sp|P40818|UBP8_HUMAN	sp|P04608|TAT_HV1H2	23.6	2GFO_A	3MI9_C	5A5B_8	5MPD_W
+sp|P51784|UBP11_HUMAN	sp|P04608|TAT_HV1H2	23.6	2GFO_A	3MI9_C	5A5B_8	5MPD_W
+sp|P54578|UBP14_HUMAN	sp|P04608|TAT_HV1H2	23.6	5GJQ_x	3MI9_C	5A5B_8	5MPD_W
+sp|P62068|UBP46_HUMAN	sp|P04608|TAT_HV1H2	23.6	5L8H_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q0WX57|U17LO_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|Q13107|UBP4_HUMAN	sp|P04608|TAT_HV1H2	23.6	2GFO_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q14694|UBP10_HUMAN	sp|P04608|TAT_HV1H2	23.6	3N3K_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q3LFD5|UBP41_HUMAN	sp|P04608|TAT_HV1H2	23.6	5CHT_B	3MI9_C	5A5B_8	5MPD_W
+sp|Q496A3|SPAS1_HUMAN	sp|P04608|TAT_HV1H2	23.6	5A5B_8	3MI9_C	5A5B_8	5MPD_W
+sp|Q4W4Y0|CN028_HUMAN	sp|P04608|TAT_HV1H2	23.6	6IIK_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q504Q3|PAN2_HUMAN	sp|P04608|TAT_HV1H2	23.6	6R5K_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q53GS9|SNUT2_HUMAN	sp|P04608|TAT_HV1H2	23.6	6QW6_U	3MI9_C	5A5B_8	5MPD_W
+sp|Q5W0Q7|USPL1_HUMAN	sp|P04608|TAT_HV1H2	23.6	5L8H_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q6QN14|U17L6_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|Q6R6M4|U17L2_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|Q70CQ1|UBP49_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|Q70CQ2|UBP34_HUMAN	sp|P04608|TAT_HV1H2	23.6	5JTV_G	3MI9_C	5A5B_8	5MPD_W
+sp|Q70CQ3|UBP30_HUMAN	sp|P04608|TAT_HV1H2	23.6	5OHK_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q70CQ4|UBP31_HUMAN	sp|P04608|TAT_HV1H2	23.6	2GFO_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q70EK8|UBP53_HUMAN	sp|P04608|TAT_HV1H2	23.6	5XVE_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q70EK9|UBP51_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|Q70EL1|UBP54_HUMAN	sp|P04608|TAT_HV1H2	23.6	6ML1_B	3MI9_C	5A5B_8	5MPD_W
+sp|Q70EL2|UBP45_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|Q70EL3|UBP50_HUMAN	sp|P04608|TAT_HV1H2	23.6	3N3K_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q70EL4|UBP43_HUMAN	sp|P04608|TAT_HV1H2	23.6	3N3K_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q7RTZ2|U17L1_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|Q86T82|UBP37_HUMAN	sp|P04608|TAT_HV1H2	23.6	3U12_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q86UV5|UBP48_HUMAN	sp|P04608|TAT_HV1H2	23.6	6HEI_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q8NB14|UBP38_HUMAN	sp|P04608|TAT_HV1H2	23.6	4RXX_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q8NFA0|UBP32_HUMAN	sp|P04608|TAT_HV1H2	23.6	2GFO_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q8TDN7|ACER1_HUMAN	sp|P04585|POL_HV1H2	23.6	6G7O_A	1L6N_A	2GOL_A	3GV2_A
+sp|Q8TDN7|ACER1_HUMAN	sp|P04591|GAG_HV1H2	23.6	6G7O_A	1L6N_A	2GOL_A	3GV2_A
+sp|Q8TEY7|UBP33_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|Q92995|UBP13_HUMAN	sp|P04608|TAT_HV1H2	23.6	3IHP_B	3MI9_C	5A5B_8	5MPD_W
+sp|Q93008|USP9X_HUMAN	sp|P04608|TAT_HV1H2	23.6	5WCH_C	3MI9_C	5A5B_8	5MPD_W
+sp|Q93009|UBP7_HUMAN	sp|P04608|TAT_HV1H2	23.6	5FWI_C	3MI9_C	5A5B_8	5MPD_W
+sp|Q96K76|UBP47_HUMAN	sp|P04608|TAT_HV1H2	23.6	5FWI_C	3MI9_C	5A5B_8	5MPD_W
+sp|Q96RU2|UBP28_HUMAN	sp|P04608|TAT_HV1H2	23.6	6HEM_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q9BXU7|UBP26_HUMAN	sp|P04608|TAT_HV1H2	23.6	3U12_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q9H0E7|UBP44_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|Q9H9J4|UBP42_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|Q9HBJ7|UBP29_HUMAN	sp|P04608|TAT_HV1H2	23.6	3U12_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q9NQC7|CYLD_HUMAN	sp|P04608|TAT_HV1H2	23.6	2VHF_B	3MI9_C	5A5B_8	5MPD_W
+sp|Q9NVE5|UBP40_HUMAN	sp|P04608|TAT_HV1H2	23.6	5J7T_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q9NXI6|RN186_HUMAN	sp|P04585|POL_HV1H2	23.6	6H3A_F	1L6N_A	5FMF_I	5FMF_R
+sp|Q9NZL4|HPBP1_HUMAN	sp|P04578|ENV_HV1H2	23.6	1XQS_B	6PWU_E	6NM6_D	6MTJ_B
+sp|Q9P275|UBP36_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|Q9P2H5|UBP35_HUMAN	sp|P04608|TAT_HV1H2	23.6	4RXX_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q9UHP3|UBP25_HUMAN	sp|P04608|TAT_HV1H2	23.6	5O71_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q9UK80|UBP21_HUMAN	sp|P04608|TAT_HV1H2	23.6	2Y5B_E	3MI9_C	5A5B_8	5MPD_W
+sp|Q9UMW8|UBP18_HUMAN	sp|P04608|TAT_HV1H2	23.6	5CHT_B	3MI9_C	5A5B_8	5MPD_W
+sp|Q9UPT9|UBP22_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|Q9UPU5|UBP24_HUMAN	sp|P04608|TAT_HV1H2	23.6	5JTV_E	3MI9_C	5A5B_8	5MPD_W
+sp|Q9Y2K6|UBP20_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|Q9Y4E8|UBP15_HUMAN	sp|P04608|TAT_HV1H2	23.6	2GFO_A	3MI9_C	5A5B_8	5MPD_W
+sp|Q9Y5T5|UBP16_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|Q9Y6I4|UBP3_HUMAN	sp|P04608|TAT_HV1H2	23.6	6TBM_Q	3MI9_C	5A5B_8	5MPD_W
+sp|P04578|ENV_HV1H2	sp|P32243|OTX2_HUMAN	23.5	6PWU_E	1MH3_A	1JEK_B	1JEK_A
+sp|P04585|POL_HV1H2	sp|O75063|XYLK_HUMAN	23.5	1L6N_A	5XOM_B	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|Q8WTZ3|YS049_HUMAN	23.5	1L6N_A	6IRT_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9BYN8|RT26_HUMAN	23.5	1L6N_A	6RW4_U	6GZA_A	6GZA_A
+sp|P04585|POL_HV1H2	sp|Q9H4F8|SMOC1_HUMAN	23.5	1L6N_A	6SCJ_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9HA90|EFCC1_HUMAN	23.5	1L6N_A	1CTA_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|O75063|XYLK_HUMAN	23.5	1L6N_A	5XOM_B	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|Q96DE9|EOLA2_HUMAN	23.5	1L6N_A	5Y7D_A	6SW9_8	2V94_B
+sp|P04591|GAG_HV1H2	sp|Q9BYN8|RT26_HUMAN	23.5	1L6N_A	6RW4_U	6GZA_A	6GZA_A
+sp|P04591|GAG_HV1H2	sp|Q9H4F8|SMOC1_HUMAN	23.5	1L6N_A	6SCJ_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9HA90|EFCC1_HUMAN	23.5	1L6N_A	1CTA_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9Y6B2|EID1_HUMAN	23.5	1L6N_A	6N1Z_A	5IY6_L	1QKL_A
+sp|P05919|VPU_HV1H2	sp|A0A1B0GVT2|SIM36_HUMAN	23.5	2N28_A	4NKQ_B	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q96B42|TMM18_HUMAN	23.5	2N28_A	2M0B_B	2N2A_B	2N2A_B
+sp|A6NDN8|UBIML_HUMAN	sp|P04578|ENV_HV1H2	23.5	4KZY_e	6PWU_E	2X7L_R	6BSY_A
+sp|A6NDN8|UBIML_HUMAN	sp|P04618|REV_HV1H2	23.5	4KZY_e	2X7L_R	2X7L_R	6BSY_A
+sp|P04280|PRP1_HUMAN	sp|P04578|ENV_HV1H2	23.5	4WEB_H	6PWU_E	4YDV_A	6PWU_E
+sp|P04578|ENV_HV1H2	sp|A0AUZ9|KAL1L_HUMAN	23.4	6PWU_E	2Y0M_B	5JYN_C	5JYN_C
+sp|P04585|POL_HV1H2	sp|A6NGJ6|TRI64_HUMAN	23.4	1L6N_A	4CFG_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|H0UI37|TSTD3_HUMAN	23.4	1L6N_A	6K6R_A	4ARG_C	4ARG_C
+sp|P04585|POL_HV1H2	sp|P07339|CATD_HUMAN	23.4	1L6N_A	5UX4_B	5YQ8_D	5YQ8_C
+sp|P04585|POL_HV1H2	sp|Q6X784|ZPBP2_HUMAN	23.4	1L6N_A	2E4X_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q6ZVN8|RGMC_HUMAN	23.4	1L6N_A	4BQ6_D	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|H0UI37|TSTD3_HUMAN	23.4	1L6N_A	6K6R_A	4ARG_C	4ARG_C
+sp|P04591|GAG_HV1H2	sp|Q6X784|ZPBP2_HUMAN	23.4	1L6N_A	2E4X_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A494C030|A0A494C030_HUMAN	23.4	1L6N_A	6GAP_A	6GAP_C	6GAP_A
+sp|P04601|NEF_HV1H2	sp|Q6X784|ZPBP2_HUMAN	23.4	3TB8_A	2E4X_B	4ORZ_B	5MZV_D
+sp|P04601|NEF_HV1H2	sp|Q9UBS3|DNJB9_HUMAN	23.4	3TB8_A	3LZ8_B	3IK5_A	3IOZ_B
+sp|P05919|VPU_HV1H2	sp|A0A1B0GTU2|CTXD1_HUMAN	23.4	2N28_A	2N90_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|A0A1B0GUS0|CS085_HUMAN	23.4	2N28_A	2OW3_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96P09|BIRC8_HUMAN	23.4	2N28_A	3T6P_A	6CFW_I	6CFW_N
+sp|O75908|SOAT2_HUMAN	sp|P04585|POL_HV1H2	23.4	6VUM_D	1L6N_A	6TAS_D	6TAS_F
+sp|O75908|SOAT2_HUMAN	sp|P04591|GAG_HV1H2	23.4	6VUM_D	1L6N_A	6TAS_D	6TAS_F
+sp|Q9NQV5|PRD11_HUMAN	sp|P04591|GAG_HV1H2	23.4	3RAY_A	1L6N_A	6GMH_L	5FMF_J
+sp|P04578|ENV_HV1H2	sp|A6NEV1|PR23A_HUMAN	23.3	6PWU_E	3R36_A	6P6F_A	2OBX_A
+sp|P04578|ENV_HV1H2	sp|Q15546|PAQRB_HUMAN	23.3	6PWU_E	6G7O_A	3DNO_B	3DNL_C
+sp|P04585|POL_HV1H2	sp|P10606|COX5B_HUMAN	23.3	1L6N_A	2Y69_F	5FMF_R	5FMF_2
+sp|P04585|POL_HV1H2	sp|Q30KQ6|DB114_HUMAN	23.3	1L6N_A	6MJV_A	5W0M_A	5W0N_B
+sp|P04585|POL_HV1H2	sp|Q9Y242|TCF19_HUMAN	23.3	1L6N_A	1LGQ_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|A0A5F9ZHS7|NFILZ_HUMAN	23.3	1L6N_A	1NWQ_A	5HL7_Z	5HL7_I
+sp|O00175|CCL24_HUMAN	sp|P04591|GAG_HV1H2	23.3	1EIH_A	1L6N_A	6IR9_V	5FMF_J
+sp|P04908|H2A1B_HUMAN	sp|P04591|GAG_HV1H2	23.3	5Z23_C	1L6N_A	3J3V_L	5HL7_Z
+sp|P04591|GAG_HV1H2	sp|P07320|CRGD_HUMAN	23.3	1L6N_A	6ETC_X	5HL7_Z	5HL7_O
+sp|P0C0S8|H2A1_HUMAN	sp|P04591|GAG_HV1H2	23.3	5Z23_C	1L6N_A	3J3V_L	5HL7_Z
+sp|P20671|H2A1D_HUMAN	sp|P04591|GAG_HV1H2	23.3	5Z23_C	1L6N_A	3J3V_L	5HL7_Z
+sp|P04591|GAG_HV1H2	sp|P49406|RM19_HUMAN	23.3	1L6N_A	6GAZ_B	5HL7_Z	5HL7_M
+sp|P04591|GAG_HV1H2	sp|P53816|PLAT3_HUMAN	23.3	1L6N_A	2KYT_A	5HL7_Z	5HL7_M
+sp|P04591|GAG_HV1H2	sp|P86397|HTD2_HUMAN	23.3	1L6N_A	3IR3_A	5HL7_Z	4FFU_G
+sp|P04591|GAG_HV1H2	sp|Q13084|RM28_HUMAN	23.3	1L6N_A	6GB2_B	5HL7_Z	6HMA_V
+sp|P04591|GAG_HV1H2	sp|Q13643|FHL3_HUMAN	23.3	1L6N_A	4JCJ_B	6SW9_8	5JB3_Y
+sp|Q16777|H2A2C_HUMAN	sp|P04591|GAG_HV1H2	23.3	5Z23_C	1L6N_A	3J3V_L	5HL7_Z
+sp|P04591|GAG_HV1H2	sp|Q30KQ6|DB114_HUMAN	23.3	1L6N_A	6MJV_A	5W0M_A	5W0N_B
+sp|P04591|GAG_HV1H2	sp|Q53S99|CB083_HUMAN	23.3	1L6N_A	4V61_B	5HL7_Z	6SJ5_C
+sp|P04591|GAG_HV1H2	sp|Q5T1C6|THEM4_HUMAN	23.3	1L6N_A	4AE8_B	5HL7_Z	4FFU_G
+sp|Q6FI13|H2A2A_HUMAN	sp|P04591|GAG_HV1H2	23.3	5Z23_C	1L6N_A	3J3V_L	5HL7_Z
+sp|P04591|GAG_HV1H2	sp|Q6UWN8|ISK6_HUMAN	23.3	1L6N_A	1UUC_A	5LKM_B	5LKM_A
+sp|P04591|GAG_HV1H2	sp|Q6ZNA5|FRRS1_HUMAN	23.3	1L6N_A	2ZOU_B	5HL7_Z	5HL7_M
+sp|Q7L7L0|H2A3_HUMAN	sp|P04591|GAG_HV1H2	23.3	5Z23_C	1L6N_A	3J3V_L	5HL7_Z
+sp|P04591|GAG_HV1H2	sp|Q7Z2W9|RM21_HUMAN	23.3	1L6N_A	6GB2_B	5HL7_Z	5HL7_O
+sp|Q8IUE6|H2A2B_HUMAN	sp|P04591|GAG_HV1H2	23.3	5Z23_C	1L6N_A	3J3V_L	5HL7_Z
+sp|P04591|GAG_HV1H2	sp|Q8N1Q8|THEM5_HUMAN	23.3	1L6N_A	4AE7_A	5HL7_Z	4FFU_G
+sp|P04591|GAG_HV1H2	sp|Q8WYK0|ACO12_HUMAN	23.3	1L6N_A	3FO5_A	5HL7_Z	4FFU_G
+sp|Q93077|H2A1C_HUMAN	sp|P04591|GAG_HV1H2	23.3	5Z23_C	1L6N_A	3J3V_L	5HL7_Z
+sp|P04591|GAG_HV1H2	sp|Q93099|HGD_HUMAN	23.3	1L6N_A	1EYB_A	5HL7_Z	6WQQ_I
+sp|P04591|GAG_HV1H2	sp|Q96BD6|SPSB1_HUMAN	23.3	1L6N_A	2FNJ_A	5HL7_Z	4FFU_G
+sp|Q96KK5|H2A1H_HUMAN	sp|P04591|GAG_HV1H2	23.3	5Z23_C	1L6N_A	3J3V_L	5HL7_Z
+sp|P04591|GAG_HV1H2	sp|Q96QV6|H2A1A_HUMAN	23.3	1L6N_A	5Z23_C	5HL7_Z	5HL7_I
+sp|Q99878|H2A1J_HUMAN	sp|P04591|GAG_HV1H2	23.3	5Z23_C	1L6N_A	3J3V_L	5HL7_Z
+sp|P04591|GAG_HV1H2	sp|Q9BQ15|SOSB1_HUMAN	23.3	1L6N_A	4OWW_B	5HL7_Z	5HL7_M
+sp|P04591|GAG_HV1H2	sp|Q9BQ48|RM34_HUMAN	23.3	1L6N_A	6GAW_B	5HL7_Z	5HL7_2
+sp|P04591|GAG_HV1H2	sp|Q9BYC9|RM20_HUMAN	23.3	1L6N_A	6GAW_B	5HL7_Z	5HL7_N
+sp|P04591|GAG_HV1H2	sp|Q9HC44|GPBL1_HUMAN	23.3	1L6N_A	5ODD_A	5HL7_Z	5HL7_I
+sp|P04591|GAG_HV1H2	sp|Q9HCQ7|NPVF_HUMAN	23.3	1L6N_A	5XRW_B	5HL7_Z	5HL7_G
+sp|P04591|GAG_HV1H2	sp|Q9NPJ3|ACO13_HUMAN	23.3	1L6N_A	3F5O_C	5HL7_Z	4FFU_G
+sp|P04591|GAG_HV1H2	sp|Q9NRX2|RM17_HUMAN	23.3	1L6N_A	6GAW_B	5HL7_Z	5HL7_K
+sp|P04591|GAG_HV1H2	sp|Q9NZE8|RM35_HUMAN	23.3	1L6N_A	6GB2_B	5HL7_Z	5HL7_3
+sp|P04591|GAG_HV1H2	sp|Q9P0M9|RM27_HUMAN	23.3	1L6N_A	4V19_0	5HL7_Z	6WQQ_I
+sp|P04591|GAG_HV1H2	sp|Q9UQ84|EXO1_HUMAN	23.3	1L6N_A	5V07_Z	5HL7_Z	5HL7_W
+sp|P04591|GAG_HV1H2	sp|Q9Y5M1|F215A_HUMAN	23.3	1L6N_A	5C2N_C	6N7I_C	6N9X_B
+sp|P04591|GAG_HV1H2	sp|Q9Y6R1|S4A4_HUMAN	23.3	1L6N_A	6CAA_B	5HL7_Z	5HL7_O
+sp|Q6ZNG2|DBX2_HUMAN	sp|P04601|NEF_HV1H2	23.3	1MH3_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04618|REV_HV1H2	sp|P13598|ICAM2_HUMAN	23.3	2X7L_R	3TCX_S	2X7L_R	5I8O_L
+sp|P05919|VPU_HV1H2	sp|Q15388|TOM20_HUMAN	23.3	2N28_A	1OM2_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q9NRR2|TRYG1_HUMAN	23.3	2N28_A	2B9L_A	2KNC_B	2KNC_A
+sp|P69723|VIF_HV1H2	sp|Q08380|LG3BP_HUMAN	23.3	4N9F_b	5ZE3_B	4N9F_b	4AJY_C
+sp|P13598|ICAM2_HUMAN	sp|P04601|NEF_HV1H2	23.3	3TCX_S	3TB8_A	5XOV_H	3TB8_A
+sp|P31321|KAP1_HUMAN	sp|P04591|GAG_HV1H2	23.3	4DIN_B	1L6N_A	6HMA_F	5HL7_Z
+sp|Q12894|IFRD2_HUMAN	sp|P04591|GAG_HV1H2	23.3	6MTC_v	1L6N_A	3J3W_E	5HL7_Z
+sp|Q14201|BTG3_HUMAN	sp|P04591|GAG_HV1H2	23.3	3E9V_A	1L6N_A	4WFB_H	5HL7_Z
+sp|Q16828|DUS6_HUMAN	sp|P04591|GAG_HV1H2	23.3	2G6Z_B	1L6N_A	3J3V_6	5HL7_Z
+sp|Q53GS9|SNUT2_HUMAN	sp|P04591|GAG_HV1H2	23.3	6QW6_U	1L6N_A	5HL7_U	5HL7_Z
+sp|Q8NFL0|B3GN7_HUMAN	sp|P04591|GAG_HV1H2	23.3	2J0A_A	1L6N_A	6WRS_H	5HL7_Z
+sp|Q9H777|RNZ1_HUMAN	sp|P04591|GAG_HV1H2	23.3	3ZWF_B	1L6N_A	6WRS_H	5HL7_Z
+sp|Q9NQG7|HPS4_HUMAN	sp|P04591|GAG_HV1H2	23.3	5LDD_B	1L6N_A	6HMA_F	5HL7_Z
+sp|Q9UFV1|TBC29_HUMAN	sp|P04591|GAG_HV1H2	23.3	3QYE_B	1L6N_A	3J3W_E	5HL7_Z
+sp|P04585|POL_HV1H2	sp|A6NI03|TR64B_HUMAN	23.2	1L6N_A	4CFG_A	5FMF_R	5IP7_L
+sp|P18859|ATP5J_HUMAN	sp|P04585|POL_HV1H2	23.2	2CLY_F	1L6N_A	2B4J_C	1BI4_C
+sp|Q6Q6R5|CRIP3_HUMAN	sp|P04585|POL_HV1H2	23.2	1B8T_A	1L6N_A	5FMF_I	5FMF_R
+sp|Q8WY64|MYLIP_HUMAN	sp|P04585|POL_HV1H2	23.2	6QLY_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q9NZV5|SELN_HUMAN	23.2	1L6N_A	1NUB_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q5EBL8|PDZ11_HUMAN	23.2	1L6N_A	2XKX_A	6SW9_8	5JBH_R
+sp|P04591|GAG_HV1H2	sp|Q63HK5|TSH3_HUMAN	23.2	1L6N_A	2DMI_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|Q8NBF1|GLIS1_HUMAN	23.2	1L6N_A	2GLI_A	6SW9_8	6SW9_C
+sp|Q9H8U3|ZFAN3_HUMAN	sp|P04591|GAG_HV1H2	23.2	1WFH_A	1L6N_A	3H0G_L	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q9NZV5|SELN_HUMAN	23.2	1L6N_A	1NUB_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9Y294|ASF1A_HUMAN	23.2	1L6N_A	6A6Y_A	6N7I_C	1E0K_A
+sp|P05919|VPU_HV1H2	sp|Q86UW2|OSTB_HUMAN	23.2	2N28_A	5C8J_J	6C14_A	6C14_A
+sp|P98066|TSG6_HUMAN	sp|P04578|ENV_HV1H2	23.2	2WNO_A	6PWU_E	1QO3_C	3J70_P
+sp|Q8WW18|CQ050_HUMAN	sp|P04585|POL_HV1H2	23.2	2MVW_B	1L6N_A	5FMF_I	5FMF_R
+sp|P04578|ENV_HV1H2	sp|Q9UII2|ATIF1_HUMAN	23.1	6PWU_E	1GMJ_B	5YB2_B	4KHX_A
+sp|Q6GPH4|XAF1_HUMAN	sp|P04585|POL_HV1H2	23.1	2LXW_A	1L6N_A	5FMF_L	5FMF_R
+sp|Q6H8Q1|ABLM2_HUMAN	sp|P04585|POL_HV1H2	23.1	1RUT_X	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q86UD0|SAPC2_HUMAN	23.1	1L6N_A	1KK8_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q86WV5|TEN1L_HUMAN	23.1	1L6N_A	4JOI_C	6D6V_A	6D6V_F
+sp|P04591|GAG_HV1H2	sp|A6NCI5|SIM16_HUMAN	23.1	1L6N_A	5JB3_Y	4QIW_N	4QJV_B
+sp|P04591|GAG_HV1H2	sp|O94888|UBXN7_HUMAN	23.1	1L6N_A	1WJ4_A	5UDH_B	3LDZ_E
+sp|P04591|GAG_HV1H2	sp|P12273|PIP_HUMAN	23.1	1L6N_A	3ES6_B	5HL7_Z	4FFU_G
+sp|P04591|GAG_HV1H2	sp|Q14D33|RTP5_HUMAN	23.1	1L6N_A	1APJ_A	6HTJ_A	6HTJ_A
+sp|P04591|GAG_HV1H2	sp|Q86UD0|SAPC2_HUMAN	23.1	1L6N_A	1KK8_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9Y3E1|HDGR3_HUMAN	23.1	1L6N_A	6S01_K	4QIW_N	4QJV_B
+sp|P05919|VPU_HV1H2	sp|A8MYU2|KCNU1_HUMAN	23.1	2N28_A	6V35_D	5UN1_F	5UN1_G
+sp|P05919|VPU_HV1H2	sp|O43525|KCNQ3_HUMAN	23.1	2N28_A	6V00_D	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|O43526|KCNQ2_HUMAN	23.1	2N28_A	6V00_D	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|P16389|KCNA2_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|P17658|KCNA6_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5UN1_G
+sp|P05919|VPU_HV1H2	sp|P22001|KCNA3_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|P22459|KCNA4_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|P30273|FCERG_HUMAN	23.1	2N28_A	6JXR_a	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|P48547|KCNC1_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5UN1_G
+sp|P05919|VPU_HV1H2	sp|P51787|KCNQ1_HUMAN	23.1	2N28_A	6V00_D	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|P56696|KCNQ4_HUMAN	23.1	2N28_A	6V00_D	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q03721|KCNC4_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q09470|KCNA1_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q12791|KCMA1_HUMAN	23.1	2N28_A	6ND0_D	5UN1_F	5UN1_G
+sp|P05919|VPU_HV1H2	sp|Q14721|KCNB1_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q16322|KCA10_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q5JUK3|KCNT1_HUMAN	23.1	2N28_A	5U70_A	5UN1_F	5UN1_G
+sp|P05919|VPU_HV1H2	sp|Q5W0B7|TM236_HUMAN	23.1	2N28_A	6OQS_X	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q6P988|NOTUM_HUMAN	23.1	2N28_A	4WBH_A	5UN1_F	5UN1_G
+sp|P05919|VPU_HV1H2	sp|Q6PIU1|KCNV1_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5UN1_G
+sp|P05919|VPU_HV1H2	sp|Q6UVM3|KCNT2_HUMAN	23.1	2N28_A	5U70_A	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q6UXV0|GFRAL_HUMAN	23.1	2N28_A	6Q2J_D	5UN1_F	5UN1_G
+sp|P05919|VPU_HV1H2	sp|Q8NEC5|CTSR1_HUMAN	23.1	2N28_A	6KZP_A	5UN1_F	5UN1_G
+sp|P05919|VPU_HV1H2	sp|Q8TAE7|KCNG3_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q8TDN1|KCNG4_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5UN1_G
+sp|P05919|VPU_HV1H2	sp|Q8TDN2|KCNV2_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q8WV48|CC107_HUMAN	23.1	2N28_A	2ZDI_C	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q92953|KCNB2_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q96PR1|KCNC2_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5UN1_G
+sp|P05919|VPU_HV1H2	sp|Q96RP8|KCNA7_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q96T54|KCNKH_HUMAN	23.1	2N28_A	3UKM_B	5UN1_F	5UN1_G
+sp|P05919|VPU_HV1H2	sp|Q9BQ31|KCNS3_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q9H3M0|KCNF1_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q9NR82|KCNQ5_HUMAN	23.1	2N28_A	6V00_D	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q9NSA2|KCND1_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q9NZV8|KCND2_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q9UIX4|KCNG1_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q9UJ96|KCNG2_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q9UK17|KCND3_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5IOV_B
+sp|P05919|VPU_HV1H2	sp|Q9ULS6|KCNS2_HUMAN	23.1	2N28_A	2R9R_H	5UN1_F	5UN1_G
+sp|P69723|VIF_HV1H2	sp|Q8IZY5|BLID_HUMAN	23.1	4N9F_b	4MP0_B	4N9F_b	6P59_A
+sp|Q9C0E8|LNP_HUMAN	sp|P04591|GAG_HV1H2	23.1	2Z73_A	1L6N_A	5IY6_L	5FMF_J
+sp|P04578|ENV_HV1H2	sp|Q8N8G2|VGLL2_HUMAN	23.0	6PWU_E	5Z2Q_D	6PWU_E	6ULC_L
+sp|P04585|POL_HV1H2	sp|Q6P4F2|FDX2_HUMAN	23.0	1L6N_A	5UJ5_A	1E0E_B	1E0E_B
+sp|P04585|POL_HV1H2	sp|Q6UXV1|IZUM2_HUMAN	23.0	1L6N_A	5JK9_D	1K6Y_B	1K6Y_D
+sp|Q86XT4|TRI50_HUMAN	sp|P04585|POL_HV1H2	23.0	4CFG_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q9H920|RN121_HUMAN	23.0	1L6N_A	4ZDT_A	5FMF_R	5IP7_L
+sp|K7EIQ3|CS082_HUMAN	sp|P04591|GAG_HV1H2	23.0	6V6S_G	1L6N_A	1VQO_Q	2QEX_Z
+sp|O60809|PRA10_HUMAN	sp|P04591|GAG_HV1H2	23.0	1PGV_A	1L6N_A	5FMF_L	5FMF_J
+sp|P04591|GAG_HV1H2	sp|P0C7M6|IQCF3_HUMAN	23.0	1L6N_A	4M1L_B	6SW9_8	5JBH_P
+sp|P04591|GAG_HV1H2	sp|P0DJG4|THEGL_HUMAN	23.0	1L6N_A	6KAC_S	6SW9_8	3HAX_D
+sp|P04601|NEF_HV1H2	sp|Q7Z7H5|TMED4_HUMAN	23.0	3TB8_A	5AZX_D	6OWT_N	6QH7_S
+sp|P04608|TAT_HV1H2	sp|A6NCE7|MP3B2_HUMAN	23.0	3MI9_C	1EO6_B	4OGR_D	4IMY_H
+sp|P04608|TAT_HV1H2	sp|Q9GZQ8|MLP3B_HUMAN	23.0	3MI9_C	1EO6_B	4OGR_D	4IMY_H
+sp|P05919|VPU_HV1H2	sp|O95249|GOSR1_HUMAN	23.0	2N28_A	2NPS_C	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q9UNN8|EPCR_HUMAN	23.0	2N28_A	1LQV_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	tr|A0A494C1I1|A0A494C1I1_HUMAN	23.0	2N28_A	5D0O_E	6C14_A	6C14_D
+sp|P69726|VPR_HV1H2	sp|Q8N7X2|STPG3_HUMAN	23.0	1ESX_A	1X9V_A	1X9V_A	1X9V_A
+sp|O60809|PRA10_HUMAN	sp|P04585|POL_HV1H2	23.0	1PGV_A	1L6N_A	5FMF_L	5FMF_R
+sp|Q5TEZ4|CF164_HUMAN	sp|P04591|GAG_HV1H2	23.0	4BWS_E	1L6N_A	6TUT_N	5FMF_J
+sp|Q6Y1H2|HACD2_HUMAN	sp|P04591|GAG_HV1H2	23.0	6LTJ_P	1L6N_A	5FJA_Q	5FMF_J
+sp|Q96CT7|CC124_HUMAN	sp|P04591|GAG_HV1H2	23.0	6OEM_H	1L6N_A	6CG0_N	6OET_C
+sp|Q9UK00|CC018_HUMAN	sp|P04578|ENV_HV1H2	23.0	2N5S_A	6PWU_E	6MEO_B	3J70_P
+sp|P04578|ENV_HV1H2	sp|Q1W6H9|F110C_HUMAN	22.9	6PWU_E	4M6T_A	6BSY_A	5DHX_C
+sp|P04585|POL_HV1H2	sp|O94811|TPPP_HUMAN	22.9	1L6N_A	2JRF_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q02818|NUCB1_HUMAN	22.9	1L6N_A	1SNL_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9H321|VCX3B_HUMAN	22.9	1L6N_A	3UWP_A	6BK8_O	5YLZ_T
+sp|Q9NQZ6|ZC4H2_HUMAN	sp|P04585|POL_HV1H2	22.9	2APO_B	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q9NRR1|CYTL1_HUMAN	22.9	1L6N_A	5WF2_A	3F9K_Y	3F9K_i
+sp|P04591|GAG_HV1H2	sp|O94811|TPPP_HUMAN	22.9	1L6N_A	2JRF_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q02818|NUCB1_HUMAN	22.9	1L6N_A	1SNL_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9H321|VCX3B_HUMAN	22.9	1L6N_A	3UWP_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9HD33|RM47_HUMAN	22.9	1L6N_A	6I9R_Y	2QEX_Z	3G71_V
+sp|P04618|REV_HV1H2	sp|Q1W6H9|F110C_HUMAN	22.9	2X7L_R	4M6T_A	5DHX_C	5DHX_C
+sp|P05919|VPU_HV1H2	sp|A0A1B0GVY4|SIM31_HUMAN	22.9	2N28_A	2M7G_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|O43617|TPPC3_HUMAN	22.9	2N28_A	1WC8_A	2CFH_D	2C0J_A
+sp|P05919|VPU_HV1H2	sp|O75865|TPC6A_HUMAN	22.9	2N28_A	2J3T_B	2CFH_D	2C0J_A
+sp|P05919|VPU_HV1H2	sp|P49755|TMEDA_HUMAN	22.9	2N28_A	5AZX_D	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q5SVS4|KMCP1_HUMAN	22.9	2N28_A	1OKC_A	2CFH_D	2CFH_D
+sp|P05919|VPU_HV1H2	sp|Q5T215|TPC3L_HUMAN	22.9	2N28_A	6AQ3_E	2CFH_D	2C0J_A
+sp|P05919|VPU_HV1H2	sp|Q5T292|TM273_HUMAN	22.9	2N28_A	5VOU_F	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q86SZ2|TPC6B_HUMAN	22.9	2N28_A	2BJN_A	2CFH_D	2C0J_A
+sp|P05919|VPU_HV1H2	sp|Q8IUR0|TPPC5_HUMAN	22.9	2N28_A	2J3W_B	2CFH_D	2C0J_A
+sp|P05919|VPU_HV1H2	sp|Q9UEY8|ADDG_HUMAN	22.9	2N28_A	3OCR_A	2CFH_D	2CFH_D
+sp|P05919|VPU_HV1H2	tr|A0A1W2PQ27|A0A1W2PQ27_HUMAN	22.9	2N28_A	6NPW_D	2CFH_D	2C0J_A
+sp|P05919|VPU_HV1H2	tr|A0A1W2PQ64|A0A1W2PQ64_HUMAN	22.9	2N28_A	6NPW_D	2CFH_D	2C0J_A
+sp|P05919|VPU_HV1H2	tr|A0A1W2PQC6|A0A1W2PQC6_HUMAN	22.9	2N28_A	6NPW_D	2CFH_D	2C0J_A
+sp|P05919|VPU_HV1H2	tr|A0A1W2PQD8|A0A1W2PQD8_HUMAN	22.9	2N28_A	6NPW_D	2CFH_D	2C0J_A
+sp|P05919|VPU_HV1H2	tr|A0A1W2PQJ5|A0A1W2PQJ5_HUMAN	22.9	2N28_A	6NPW_D	2CFH_D	2C0J_A
+sp|P05919|VPU_HV1H2	tr|A0A1W2PR75|A0A1W2PR75_HUMAN	22.9	2N28_A	6NPW_D	2CFH_D	2C0J_A
+sp|P69723|VIF_HV1H2	sp|Q9NZ01|TECR_HUMAN	22.9	4N9F_b	5V7P_A	4N9F_b	2MA9_B
+sp|P02656|APOC3_HUMAN	sp|P04591|GAG_HV1H2	22.9	2JQ3_A	1L6N_A	6O9L_8	5FMF_J
+sp|Q9NY43|BARH2_HUMAN	sp|P05919|VPU_HV1H2	22.9	1MH3_A	2N28_A	3KXC_A	2CFH_D
+sp|Q9UHC3|ASIC3_HUMAN	sp|P05919|VPU_HV1H2	22.9	6VTK_B	2N28_A	3KXC_A	2CFH_D
+sp|P04578|ENV_HV1H2	sp|A8MQ11|PM2P5_HUMAN	22.8	6PWU_E	1H7S_A	6BSY_A	5DHX_C
+sp|P04578|ENV_HV1H2	sp|Q5H9B9|BM2KL_HUMAN	22.8	6PWU_E	5NWW_A	6SNE_P	6SNE_N
+sp|P04578|ENV_HV1H2	sp|Q8IYS8|BD1L2_HUMAN	22.8	6PWU_E	6Q0J_B	6MUF_G	6NNJ_D
+sp|P04585|POL_HV1H2	sp|P57730|CAR18_HUMAN	22.8	1L6N_A	1DGN_A	5FMF_R	1NH2_D
+sp|Q9P0K9|FRS1L_HUMAN	sp|P04585|POL_HV1H2	22.8	4ZEL_A	1L6N_A	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|P02686|MBP_HUMAN	22.8	1L6N_A	2LUG_A	2QEX_Z	1W2B_M
+sp|P0C5Y9|H2AB1_HUMAN	sp|P04591|GAG_HV1H2	22.8	6A7U_A	1L6N_A	3J3V_L	5HL7_Z
+sp|P0C5Z0|H2AB2_HUMAN	sp|P04591|GAG_HV1H2	22.8	6A7U_A	1L6N_A	3J3V_L	5HL7_Z
+sp|P04591|GAG_HV1H2	sp|P57730|CAR18_HUMAN	22.8	1L6N_A	1DGN_A	5FMF_R	1NH2_D
+sp|Q5T700|LRAD1_HUMAN	sp|P04591|GAG_HV1H2	22.8	1N7D_A	1L6N_A	5X51_X	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q70CQ4|UBP31_HUMAN	22.8	1L6N_A	2GFO_A	4QIW_N	4QIW_P
+sp|Q8WXA2|PATE1_HUMAN	sp|P04591|GAG_HV1H2	22.8	2L03_A	1L6N_A	5XOG_M	5FMF_J
+sp|Q9P0K9|FRS1L_HUMAN	sp|P04591|GAG_HV1H2	22.8	4ZEL_A	1L6N_A	6TAS_D	6TAS_F
+sp|P04608|TAT_HV1H2	sp|P0DTE2|HV511_HUMAN	22.8	3MI9_C	5WB1_A	6N4Y_C	4NBX_B
+sp|P04618|REV_HV1H2	sp|A8MQ11|PM2P5_HUMAN	22.8	2X7L_R	1H7S_A	5DHX_C	5DHX_C
+sp|P05919|VPU_HV1H2	sp|O00264|PGRC1_HUMAN	22.8	2N28_A	4X8Y_A	2KNC_B	2KNC_A
+sp|P04578|ENV_HV1H2	sp|Q30KQ5|DB115_HUMAN	22.7	6PWU_E	5KI9_A	3DNO_B	3DNO_B
+sp|P04585|POL_HV1H2	sp|P60903|S10AA_HUMAN	22.7	1L6N_A	4FTG_B	2MGU_M	5DOW_A
+sp|Q8WUP2|FBLI1_HUMAN	sp|P04585|POL_HV1H2	22.7	1RUT_X	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q8WXG8|S100Z_HUMAN	22.7	1L6N_A	5HYD_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q92564|DCNL4_HUMAN	22.7	1L6N_A	5V89_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q96CV9|OPTN_HUMAN	22.7	1L6N_A	3CL3_E	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9UNI6|DUS12_HUMAN	22.7	1L6N_A	6RZZ_s	5FMF_R	5IP7_L
+tr|A0A5F9ZHI8|A0A5F9ZHI8_HUMAN	sp|P04585|POL_HV1H2	22.7	2ENN_A	1L6N_A	5FMF_L	5FMF_R
+sp|O15544|GR6_HUMAN	sp|P04591|GAG_HV1H2	22.7	1S72_Z	1L6N_A	5XOG_L	5FMF_J
+sp|P04591|GAG_HV1H2	sp|P60903|S10AA_HUMAN	22.7	1L6N_A	4FTG_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P82970|HMGN5_HUMAN	22.7	1L6N_A	6PEJ_B	2QEX_Z	1VQ8_B
+sp|P04591|GAG_HV1H2	sp|Q4G0X4|KCD21_HUMAN	22.7	1L6N_A	4BGC_A	2QEX_Z	3OW2_T
+sp|P04591|GAG_HV1H2	sp|Q8WXG8|S100Z_HUMAN	22.7	1L6N_A	5HYD_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q92564|DCNL4_HUMAN	22.7	1L6N_A	5V89_A	2MGU_M	5DOW_A
+sp|P04618|REV_HV1H2	sp|Q07699|SCN1B_HUMAN	22.7	2X7L_R	6J8J_B	6CF2_F	5DHY_A
+sp|P05919|VPU_HV1H2	sp|O00442|RTCA_HUMAN	22.7	2N28_A	4O8J_A	3ZE3_D	2KDC_C
+sp|P05919|VPU_HV1H2	sp|Q5GH76|XKR4_HUMAN	22.7	2N28_A	6MZM_G	3ZE3_D	3ZE3_D
+sp|P05919|VPU_HV1H2	sp|Q5T035|CI129_HUMAN	22.7	2N28_A	2PQR_D	1S7X_G	6MP0_A
+sp|P05919|VPU_HV1H2	sp|Q5T6L9|EMARD_HUMAN	22.7	2N28_A	3USW_A	3ZE3_D	3ZE3_D
+sp|P05919|VPU_HV1H2	sp|Q92843|B2CL2_HUMAN	22.7	2N28_A	1O0L_A	3ZE3_D	3ZE3_D
+sp|P05919|VPU_HV1H2	sp|Q9HAI6|CX021_HUMAN	22.7	2N28_A	4E2I_6	3ZE3_D	2KDC_C
+sp|P04578|ENV_HV1H2	sp|A8MVS5|HIDE1_HUMAN	22.6	6PWU_E	6CPL_A	3J70_P	4Q6I_J
+sp|Q5TD97|FHL5_HUMAN	sp|P04585|POL_HV1H2	22.6	4JCJ_B	1L6N_A	5FMF_L	5FMF_R
+sp|Q6P1Q0|LTMD1_HUMAN	sp|P04585|POL_HV1H2	22.6	3SKQ_A	1L6N_A	6TAQ_A	6TAU_A
+sp|P04585|POL_HV1H2	sp|Q8WU17|RN139_HUMAN	22.6	1L6N_A	6VK0_B	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q96MC4|C295L_HUMAN	22.6	1L6N_A	2L7X_A	6TAS_D	6TAS_F
+sp|Q9UKJ5|CHIC2_HUMAN	sp|P04585|POL_HV1H2	22.6	1GHH_A	1L6N_A	3JCA_D	3JCA_A
+sp|P04585|POL_HV1H2	tr|A0A1B0GTH9|A0A1B0GTH9_HUMAN	22.6	1L6N_A	5AAZ_A	1NUI_A	1NUI_A
+sp|Q17RY6|LY6K_HUMAN	sp|P04591|GAG_HV1H2	22.6	5HBT_A	1L6N_A	1VQO_U	2QEX_Z
+sp|P04591|GAG_HV1H2	sp|Q5SZJ8|BEND6_HUMAN	22.6	1L6N_A	4IX7_A	5HL7_Z	6HMA_W
+sp|Q6P1Q0|LTMD1_HUMAN	sp|P04591|GAG_HV1H2	22.6	3SKQ_A	1L6N_A	6TAQ_A	6TAU_A
+sp|P04591|GAG_HV1H2	sp|Q6PJP8|DCR1A_HUMAN	22.6	1L6N_A	5Q1O_A	4QIW_N	4QIW_P
+sp|Q96B54|ZN428_HUMAN	sp|P04591|GAG_HV1H2	22.6	6LTH_R	1L6N_A	5XOG_M	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q96CW6|S7A6O_HUMAN	22.6	1L6N_A	1T27_A	4QIW_N	4QJV_B
+sp|P04591|GAG_HV1H2	sp|Q96MC4|C295L_HUMAN	22.6	1L6N_A	2L7X_A	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|Q9Y3I1|FBX7_HUMAN	22.6	1L6N_A	4L9H_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	tr|A0A075B6L2|A0A075B6L2_HUMAN	22.6	1L6N_A	6QD6_G	2XXM_A	6C5W_E
+sp|P04601|NEF_HV1H2	sp|P80723|BASP1_HUMAN	22.6	3TB8_A	2MR6_A	4NEE_K	3TB8_A
+sp|P04618|REV_HV1H2	tr|A0A0A0MS05|A0A0A0MS05_HUMAN	22.6	2X7L_R	1YJD_C	6CF2_F	5DHY_A
+sp|P05919|VPU_HV1H2	sp|O95279|KCNK5_HUMAN	22.6	2N28_A	4XDL_A	5UN1_G	5UN1_F
+sp|P05919|VPU_HV1H2	sp|P58549|FXYD7_HUMAN	22.6	2N28_A	3WGU_G	6CFW_I	6CFW_G
+sp|P05919|VPU_HV1H2	sp|Q3KNT9|TMM95_HUMAN	22.6	2N28_A	5B5K_A	2KNC_B	2KNC_A
+sp|A0A1B0GTZ2|CC196_HUMAN	sp|P05919|VPU_HV1H2	22.6	6GPZ_A	2N28_A	1T6O_A	5UN1_G
+sp|Q6ZMU5|TRI72_HUMAN	sp|P04585|POL_HV1H2	22.6	4CFG_A	1L6N_A	5FMF_L	5FMF_R
+sp|Q9H0Q3|FXYD6_HUMAN	sp|P04585|POL_HV1H2	22.6	2JO1_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q9H0Q3|FXYD6_HUMAN	sp|P04591|GAG_HV1H2	22.6	2JO1_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q9Y375|CIA30_HUMAN	sp|P04591|GAG_HV1H2	22.6	6R3M_A	1L6N_A	4UER_F	5JB3_W
+sp|P04585|POL_HV1H2	sp|P0C5Y9|H2AB1_HUMAN	22.5	1L6N_A	6A7U_A	5FMF_R	5FMF_S
+sp|P04585|POL_HV1H2	sp|Q8N8K9|K1958_HUMAN	22.5	1L6N_A	2K9H_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q969F2|NKD2_HUMAN	22.5	1L6N_A	1EG4_A	2MGU_M	5DOW_A
+sp|Q9HCM9|TRI39_HUMAN	sp|P04585|POL_HV1H2	22.5	4CFG_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04591|GAG_HV1H2	sp|Q6IPW1|CK071_HUMAN	22.5	1L6N_A	5URT_B	5HL7_Z	5HL7_C
+sp|P04591|GAG_HV1H2	sp|Q8N8K9|K1958_HUMAN	22.5	1L6N_A	2K9H_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q969F2|NKD2_HUMAN	22.5	1L6N_A	1EG4_A	2MGU_M	5DOW_A
+sp|Q99445|GML_HUMAN	sp|P04591|GAG_HV1H2	22.5	2L03_A	1L6N_A	3PO2_L	5FMF_J
+sp|P05919|VPU_HV1H2	sp|O14798|TR10C_HUMAN	22.5	2N28_A	4I9X_C	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|O95473|SNG4_HUMAN	22.5	2N28_A	6FKF_b	6C14_A	6C14_D
+sp|Q13401|PM2P3_HUMAN	sp|P04591|GAG_HV1H2	22.5	1NHI_A	1L6N_A	6CIL_N	6OET_C
+sp|P04578|ENV_HV1H2	sp|P20800|EDN2_HUMAN	22.4	6PWU_E	5NCO_j	6BSY_A	5DHX_C
+sp|P04585|POL_HV1H2	sp|P01270|PTHY_HUMAN	22.4	1L6N_A	1HTH_A	5EJK_A	5EJK_A
+sp|P04585|POL_HV1H2	sp|P0DH78|RN224_HUMAN	22.4	1L6N_A	6H3A_F	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|P0DTE2|HV511_HUMAN	22.4	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q17RA5|CMAS1_HUMAN	22.4	1L6N_A	5FMF_R	5FMF_R	4V1N_M
+sp|P04585|POL_HV1H2	sp|Q9BQ16|TICN3_HUMAN	22.4	1L6N_A	1NUB_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9Y5V0|ZN706_HUMAN	22.4	1L6N_A	1WVK_A	5FMF_R	1TWF_I
+sp|P04591|GAG_HV1H2	sp|P0DTE2|HV511_HUMAN	22.4	1L6N_A	5WB1_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q16342|PDCD2_HUMAN	22.4	1L6N_A	2DAN_A	6SW9_8	5JB3_Y
+sp|P04591|GAG_HV1H2	sp|Q96R48|OR2A5_HUMAN	22.4	1L6N_A	3VW7_A	5HL7_Z	5HL7_W
+sp|P04591|GAG_HV1H2	sp|Q9BSJ5|CQ080_HUMAN	22.4	1L6N_A	6J5I_f	4QIW_N	4QIW_P
+sp|P04618|REV_HV1H2	sp|P20800|EDN2_HUMAN	22.4	2X7L_R	5NCO_j	5DHX_C	5DHX_C
+sp|P05919|VPU_HV1H2	sp|O00258|GET1_HUMAN	22.4	2N28_A	3SJB_D	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q8N111|CEND_HUMAN	22.4	2N28_A	6A69_B	2N2A_B	2N2A_B
+sp|P0CJ74|HMN7_HUMAN	sp|P04591|GAG_HV1H2	22.4	5CD4_A	1L6N_A	6GML_V	5FMF_J
+sp|P13598|ICAM2_HUMAN	sp|P04585|POL_HV1H2	22.4	3TCX_S	1L6N_A	5T70_G	3GV2_A
+sp|P13598|ICAM2_HUMAN	sp|P04591|GAG_HV1H2	22.4	3TCX_S	1L6N_A	5T70_G	3GV2_A
+sp|P04578|ENV_HV1H2	sp|Q6ZRT6|PR23B_HUMAN	22.3	6PWU_E	4JMR_B	6P6F_A	2OBX_A
+sp|P04578|ENV_HV1H2	sp|Q9BZS9|YG041_HUMAN	22.3	6PWU_E	2K5C_A	6FY1_G	6FY1_G
+sp|P04585|POL_HV1H2	sp|A6NCI5|SIM16_HUMAN	22.3	1L6N_A	5JB3_Y	5FMF_R	5FMF_K
+sp|P04585|POL_HV1H2	sp|I3L1E1|CS084_HUMAN	22.3	1L6N_A	1ZFN_A	1E0E_B	1E0E_B
+sp|P04585|POL_HV1H2	sp|P0CL84|ST3L2_HUMAN	22.3	1L6N_A	6QNX_A	5HHL_A	5HHL_A
+sp|Q96BH1|RNF25_HUMAN	sp|P04585|POL_HV1H2	22.3	5D1M_B	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q9H320|VCX1_HUMAN	22.3	1L6N_A	3IYM_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|O75840|KLF7_HUMAN	22.3	1L6N_A	2WBS_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P63173|RL38_HUMAN	22.3	1L6N_A	4U52_o	6SW9_8	3CW2_G
+sp|P04591|GAG_HV1H2	sp|Q9BZE9|ASPC1_HUMAN	22.3	1L6N_A	5IFS_A	5UDH_B	3LDZ_E
+sp|P04591|GAG_HV1H2	sp|Q9H320|VCX1_HUMAN	22.3	1L6N_A	3IYM_B	6BK8_O	5YLZ_T
+sp|P04608|TAT_HV1H2	sp|Q96FF7|MISP3_HUMAN	22.3	3MI9_C	6QDV_D	3MI9_C	2PK2_B
+sp|P05919|VPU_HV1H2	sp|O95968|SG1D1_HUMAN	22.3	2N28_A	1UTR_B	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q96KJ9|COX42_HUMAN	22.3	2N28_A	2Y69_Q	2N2A_B	2N2A_B
+sp|P28067|DMA_HUMAN	sp|P04601|NEF_HV1H2	22.3	2BC4_A	3TB8_A	5XOV_H	3TB8_A
+sp|P59025|RTP1_HUMAN	sp|P04601|NEF_HV1H2	22.3	6EHP_E	3TB8_A	6CRI_L	6CRI_Z
+sp|Q8WTP9|XAGE3_HUMAN	sp|P04591|GAG_HV1H2	22.3	5HL7_T	1L6N_A	5HL7_T	5HL7_Z
+sp|P04585|POL_HV1H2	sp|A0A075B706|TRDJ1_HUMAN	22.2	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O60858|TRI13_HUMAN	22.2	1L6N_A	4CFG_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|P0CL85|ST3L3_HUMAN	22.2	1L6N_A	6QNX_A	5HHL_A	5HHL_A
+sp|P04585|POL_HV1H2	sp|P49279|NRAM1_HUMAN	22.2	1L6N_A	5M8J_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|P55103|INHBC_HUMAN	22.2	1L6N_A	5HLY_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8WVD5|RN141_HUMAN	22.2	1L6N_A	2C2L_B	6R24_C	6R24_C
+sp|P04585|POL_HV1H2	sp|Q96DA6|TIM14_HUMAN	22.2	1L6N_A	2GUZ_L	4U7B_A	4U7B_A
+sp|P04585|POL_HV1H2	sp|Q96F44|TRI11_HUMAN	22.2	1L6N_A	4CFG_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9UK41|VPS28_HUMAN	22.2	1L6N_A	6VME_W	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|A0A075B706|TRDJ1_HUMAN	22.2	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|B1ANY3|F220P_HUMAN	22.2	1L6N_A	5A4R_A	6SW9_8	6TMF_Y
+sp|P04591|GAG_HV1H2	sp|P49279|NRAM1_HUMAN	22.2	1L6N_A	5M8J_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|Q9UK41|VPS28_HUMAN	22.2	1L6N_A	6VME_W	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	tr|A0A075B6W6|A0A075B6W6_HUMAN	22.2	1L6N_A	6GKD_B	6SW9_8	4RJL_A
+sp|P04601|NEF_HV1H2	sp|Q9UI25|YP002_HUMAN	22.2	3TB8_A	4H08_A	6CRI_Z	6DFF_C
+sp|P04608|TAT_HV1H2	sp|Q8NET5|NFAM1_HUMAN	22.2	3MI9_C	5XSY_B	6N4Y_C	4NBX_B
+sp|P05919|VPU_HV1H2	sp|P62952|BLCAP_HUMAN	22.2	2N28_A	2PF4_E	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q8NEX5|WFDC9_HUMAN	22.2	2N28_A	2VR0_F	6CFW_I	6CFW_C
+sp|P05919|VPU_HV1H2	sp|Q9UIG4|PS1C2_HUMAN	22.2	2N28_A	2MC7_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9UM00|TMCO1_HUMAN	22.2	2N28_A	5C8J_L	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	tr|A0A2R8Y7Y5|A0A2R8Y7Y5_HUMAN	22.2	2N28_A	6A69_B	2N9Y_B	2K9J_A
+sp|O14556|G3PT_HUMAN	sp|P04591|GAG_HV1H2	22.2	6OK4_A	1L6N_A	5EIO_A	3WWL_A
+sp|P04406|G3P_HUMAN	sp|P04591|GAG_HV1H2	22.2	6OK4_A	1L6N_A	5EIO_A	3WWL_A
+sp|P53004|BIEA_HUMAN	sp|P04591|GAG_HV1H2	22.2	1LC3_A	1L6N_A	5EIO_A	3WWL_A
+sp|P54886|P5CS_HUMAN	sp|P04591|GAG_HV1H2	22.2	2H5G_B	1L6N_A	3WWN_A	3WWL_A
+sp|Q3B7J2|GFOD2_HUMAN	sp|P04591|GAG_HV1H2	22.2	4N54_C	1L6N_A	5EIN_A	3WWL_A
+sp|Q8N159|NAGS_HUMAN	sp|P04591|GAG_HV1H2	22.2	3S6G_Y	1L6N_A	3WWN_A	3WWL_A
+sp|Q9H400|LIME1_HUMAN	sp|P04591|GAG_HV1H2	22.2	6C13_A	1L6N_A	3CW2_N	6SW9_8
+sp|Q9NXC2|GFOD1_HUMAN	sp|P04591|GAG_HV1H2	22.2	4MKX_A	1L6N_A	5EIN_A	3WWL_A
+sp|Q9UDR5|AASS_HUMAN	sp|P04591|GAG_HV1H2	22.2	5O1N_A	1L6N_A	5EIN_A	3WWL_A
+sp|Q9UQ10|DHDH_HUMAN	sp|P04591|GAG_HV1H2	22.2	2O4U_X	1L6N_A	5EIN_A	3WWL_A
+sp|Q9Y6E7|SIR4_HUMAN	sp|P04585|POL_HV1H2	22.2	5OJ7_A	1L6N_A	6TAS_D	6TAS_F
+sp|Q6ZSR9|YJ005_HUMAN	sp|P04578|ENV_HV1H2	22.1	5ZCX_C	6PWU_E	5YB2_B	4KHX_A
+sp|P04585|POL_HV1H2	sp|P63173|RL38_HUMAN	22.1	1L6N_A	4U52_o	5FMF_R	5FMF_S
+sp|P04585|POL_HV1H2	sp|Q5H9R7|PP6R3_HUMAN	22.1	1L6N_A	4U2X_E	6S7X_A	6S7X_B
+sp|Q86X60|FA72B_HUMAN	sp|P04585|POL_HV1H2	22.1	5HJ0_B	1L6N_A	5FMF_I	5FMF_R
+sp|Q8N8N0|RN152_HUMAN	sp|P04585|POL_HV1H2	22.1	6H3A_F	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q969G9|NKD1_HUMAN	22.1	1L6N_A	1EG4_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|O75531|BAF_HUMAN	22.1	1L6N_A	1CI4_A	5HL7_Z	5HL7_L
+sp|P04591|GAG_HV1H2	sp|P63302|SELW_HUMAN	22.1	1L6N_A	2NPB_A	5JB3_W	6SW9_8
+sp|P04591|GAG_HV1H2	sp|Q5H9R7|PP6R3_HUMAN	22.1	1L6N_A	4U2X_E	6S7X_A	6S7X_B
+sp|P04591|GAG_HV1H2	sp|Q6YFQ2|CX6B2_HUMAN	22.1	1L6N_A	5Z62_H	6GMH_L	5OIK_Y
+sp|Q86X60|FA72B_HUMAN	sp|P04591|GAG_HV1H2	22.1	5HJ0_B	1L6N_A	5FMF_I	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q8N9X5|TMM75_HUMAN	22.1	1L6N_A	1K8B_A	5JB3_W	6SW9_8
+sp|P04591|GAG_HV1H2	sp|Q969G9|NKD1_HUMAN	22.1	1L6N_A	1EG4_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q9H492|MLP3A_HUMAN	22.1	1L6N_A	1EO6_B	5JB3_W	5JB3_1
+sp|P04601|NEF_HV1H2	sp|Q6NUS6|TECT3_HUMAN	22.1	3TB8_A	5VR3_A	3IK5_A	3IOZ_B
+sp|P05919|VPU_HV1H2	sp|A6NJY4|YQ041_HUMAN	22.1	2N28_A	6DLZ_B	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P62854|RS26_HUMAN	22.1	2N28_A	5VYC_a	6CFW_I	6CFW_N
+sp|P69723|VIF_HV1H2	sp|Q8N5Z5|KCD17_HUMAN	22.1	4N9F_b	3DRX_B	4N9F_b	4AJY_C
+sp|O60829|PAGE4_HUMAN	sp|P04591|GAG_HV1H2	22.1	6EU1_Q	1L6N_A	6EU1_Q	5FMF_J
+tr|A0A0J9YW14|A0A0J9YW14_HUMAN	sp|P04578|ENV_HV1H2	22.0	4I0C_D	6PWU_E	6NIJ_H	3J70_P
+sp|P04585|POL_HV1H2	sp|Q6UWN8|ISK6_HUMAN	22.0	1L6N_A	1UUC_A	1NUI_A	1NUI_A
+sp|Q96MD7|CI085_HUMAN	sp|P04585|POL_HV1H2	22.0	6IRT_A	1L6N_A	5FMF_L	5FMF_R
+sp|Q9BWX1|PHF7_HUMAN	sp|P04585|POL_HV1H2	22.0	1WEQ_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q9NNX9|VCX3_HUMAN	22.0	1L6N_A	3IYM_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q9NNX9|VCX3_HUMAN	22.0	1L6N_A	3IYM_B	6BK8_O	5YLZ_T
+sp|P04601|NEF_HV1H2	sp|P62945|RL41_HUMAN	22.0	3TB8_A	6AZ3_n	4EN2_B	6CRI_Z
+sp|P05919|VPU_HV1H2	sp|A0A087WTH5|KCE1B_HUMAN	22.0	2N28_A	2K21_A	6GV9_A	6GV9_A
+sp|P05919|VPU_HV1H2	sp|O75841|UPK1B_HUMAN	22.0	2N28_A	5TCX_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|P15382|KCNE1_HUMAN	22.0	2N28_A	2K21_A	6GV9_A	6GV9_A
+sp|P05919|VPU_HV1H2	sp|Q32M92|CO032_HUMAN	22.0	2N28_A	5WDA_N	6GV9_A	6GV9_A
+sp|P05919|VPU_HV1H2	sp|Q9BUF7|CRUM3_HUMAN	22.0	2N28_A	4YL8_B	2KNC_B	2KNC_A
+sp|Q8NC69|KCTD6_HUMAN	sp|P69723|VIF_HV1H2	22.0	4BGC_A	4N9F_b	6P59_Z	6P59_B
+sp|Q9BTL3|RAMAC_HUMAN	sp|P04591|GAG_HV1H2	22.0	5E8J_D	1L6N_A	3J7A_S	5JB3_W
+sp|P04578|ENV_HV1H2	sp|A6NGC4|TLCD2_HUMAN	21.9	6PWU_E	2Q33_A	4PMI_C	4PMI_C
+sp|P04585|POL_HV1H2	sp|Q32NC0|CR021_HUMAN	21.9	1L6N_A	1X0T_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8WWX9|SELM_HUMAN	21.9	1L6N_A	2A2P_A	1K6Y_B	1K6Y_D
+sp|P04591|GAG_HV1H2	sp|A0A1B0GVH6|CM042_HUMAN	21.9	1L6N_A	6BNC_B	2QEX_Z	3G71_X
+sp|P05013|IFNA6_HUMAN	sp|P04591|GAG_HV1H2	21.9	3SE4_B	1L6N_A	1VQO_V	2QEX_Z
+sp|P04591|GAG_HV1H2	sp|P61960|UFM1_HUMAN	21.9	1L6N_A	5XDA_L	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q8NEA6|GLIS3_HUMAN	21.9	1L6N_A	2GLI_A	6SW9_8	6SW9_C
+sp|P04618|REV_HV1H2	sp|A6NGC4|TLCD2_HUMAN	21.9	2X7L_R	2Q33_A	4PMI_C	4PMI_C
+sp|P05919|VPU_HV1H2	sp|P14209|CD99_HUMAN	21.9	2N28_A	2LCX_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q3ZAQ7|VMA21_HUMAN	21.9	2N28_A	2KNC_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	tr|A0A1B0GVL6|A0A1B0GVL6_HUMAN	21.9	2N28_A	6AKE_A	6C14_A	6C14_D
+sp|Q5U5X8|F222A_HUMAN	sp|P05919|VPU_HV1H2	21.9	5Y0W_A	2N28_A	1T6O_A	5UN1_G
+sp|Q6L9T8|FA72D_HUMAN	sp|P04585|POL_HV1H2	21.9	5HJ0_B	1L6N_A	5FMF_I	5FMF_R
+sp|Q6L9T8|FA72D_HUMAN	sp|P04591|GAG_HV1H2	21.9	5HJ0_B	1L6N_A	5FMF_I	5FMF_J
+tr|A0A3B3IU46|A0A3B3IU46_HUMAN	sp|P04591|GAG_HV1H2	21.9	5E8J_D	1L6N_A	3J7A_S	5JB3_W
+sp|P04578|ENV_HV1H2	sp|Q6UWK7|GP15L_HUMAN	21.8	6PWU_E	4YNY_A	6PWU_E	6ULC_L
+sp|Q8N8R7|AL14E_HUMAN	sp|P04585|POL_HV1H2	21.8	1WD2_A	1L6N_A	5FMF_L	5FMF_R
+sp|Q8N954|GPT11_HUMAN	sp|P04585|POL_HV1H2	21.8	6F7S_C	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q8WVZ1|ZDH19_HUMAN	21.8	1L6N_A	6BML_B	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|P0DMC3|ELA_HUMAN	21.8	1L6N_A	2JP3_A	5HL7_Z	5HL7_D
+sp|P04591|GAG_HV1H2	sp|Q6ZPB5|SDIM1_HUMAN	21.8	1L6N_A	4KGK_D	5IY6_L	2JNJ_A
+sp|Q8N954|GPT11_HUMAN	sp|P04591|GAG_HV1H2	21.8	6F7S_C	1L6N_A	5FMF_L	5FMF_J
+sp|O14944|EREG_HUMAN	sp|P04578|ENV_HV1H2	21.8	5E8D_A	6PWU_E	6MEO_B	3J70_P
+sp|Q5TYM5|FA72A_HUMAN	sp|P04585|POL_HV1H2	21.8	5HJ0_B	1L6N_A	5FMF_I	5FMF_R
+sp|Q5TYM5|FA72A_HUMAN	sp|P04591|GAG_HV1H2	21.8	5HJ0_B	1L6N_A	5FMF_I	5FMF_J
+sp|Q5U649|CL060_HUMAN	sp|P04601|NEF_HV1H2	21.8	2QG6_A	3TB8_A	6CRI_L	6CRI_Z
+sp|Q8NAJ2|CI106_HUMAN	sp|P04601|NEF_HV1H2	21.8	3G7N_B	3TB8_A	6CRI_L	6CRI_Z
+sp|Q969E4|TCAL3_HUMAN	sp|P04591|GAG_HV1H2	21.8	6MIS_A	1L6N_A	5FJ9_Q	5FMF_J
+sp|Q9NRY2|SOSSC_HUMAN	sp|P04591|GAG_HV1H2	21.8	4OWW_C	1L6N_A	3QT1_I	5FMF_J
+sp|P04578|ENV_HV1H2	tr|A0A0J9YVP2|A0A0J9YVP2_HUMAN	21.7	6PWU_E	5OVW_L	6DCQ_D	6VPX_P
+sp|M0QZC1|RN225_HUMAN	sp|P04585|POL_HV1H2	21.7	6QU1_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|P62854|RS26_HUMAN	21.7	1L6N_A	5VYC_a	5FMF_R	5FMF_J
+sp|P04585|POL_HV1H2	sp|Q5SY68|S1A7B_HUMAN	21.7	1L6N_A	1PSR_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q8TAB7|CCD26_HUMAN	21.7	1L6N_A	4H43_A	1HEK_A	1HEK_A
+sp|P04585|POL_HV1H2	sp|Q9UHA3|RLP24_HUMAN	21.7	1L6N_A	3JCT_u	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|Q06546|GABPA_HUMAN	21.7	1L6N_A	1AWC_A	5TTE_B	4II2_B
+sp|Q3LI60|KR203_HUMAN	sp|P04591|GAG_HV1H2	21.7	1YWS_A	1L6N_A	3H0G_I	5FMF_J
+sp|P04591|GAG_HV1H2	sp|Q5SY68|S1A7B_HUMAN	21.7	1L6N_A	1PSR_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q8TAB7|CCD26_HUMAN	21.7	1L6N_A	4H43_A	1HEK_A	1HEK_A
+sp|H0Y354|FA72C_HUMAN	sp|P04591|GAG_HV1H2	21.7	5HJ0_B	1L6N_A	4C2M_I	5FMF_J
+sp|Q6P5X5|CV039_HUMAN	sp|P04608|TAT_HV1H2	21.7	6SGA_F	3MI9_C	4OGR_G	4OGR_D
+sp|Q9NS91|RAD18_HUMAN	sp|P04585|POL_HV1H2	21.7	2Y43_B	1L6N_A	5FMF_L	5FMF_R
+sp|Q9Y5Y7|LYVE1_HUMAN	sp|P05919|VPU_HV1H2	21.7	2JCQ_A	2N28_A	5J6G_G	1S7X_G
+sp|P04578|ENV_HV1H2	sp|P26998|CRBB3_HUMAN	21.6	6PWU_E	1BLB_C	6DCQ_D	6VPX_P
+sp|P04578|ENV_HV1H2	tr|A0A1W2PR80|A0A1W2PR80_HUMAN	21.6	6PWU_E	5N2K_F	3U2S_C	5N2K_F
+sp|P04585|POL_HV1H2	sp|P0C2L3|F163B_HUMAN	21.6	1L6N_A	5XSY_B	1E0E_B	1E0E_B
+sp|P04585|POL_HV1H2	sp|P11844|CRGA_HUMAN	21.6	1L6N_A	2M3C_A	6R24_C	6R24_C
+sp|P04585|POL_HV1H2	sp|Q6NZ36|FAP20_HUMAN	21.6	1L6N_A	2MUQ_A	1WJB_A	1WJB_A
+sp|Q8WZ73|RFFL_HUMAN	sp|P04585|POL_HV1H2	21.6	1Y02_A	1L6N_A	5FMF_L	5FMF_R
+sp|Q96AN5|TM143_HUMAN	sp|P04585|POL_HV1H2	21.6	1W2Y_B	1L6N_A	6TAQ_A	6TAU_A
+sp|P04591|GAG_HV1H2	sp|P11844|CRGA_HUMAN	21.6	1L6N_A	2M3C_A	6R23_B	6R23_B
+sp|Q96AN5|TM143_HUMAN	sp|P04591|GAG_HV1H2	21.6	1W2Y_B	1L6N_A	6TAQ_A	6TAU_A
+sp|P05919|VPU_HV1H2	sp|B2RUZ4|SMIM1_HUMAN	21.6	2N28_A	4M6T_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q9Y3E0|GOT1B_HUMAN	21.6	2N28_A	5MM0_A	6C14_A	6C14_A
+sp|P69726|VPR_HV1H2	sp|O75817|POP7_HUMAN	21.6	1ESX_A	6AHU_G	1Y9X_B	1Y9X_B
+sp|P69726|VPR_HV1H2	sp|P29401|TKT_HUMAN	21.6	1ESX_A	4KXW_A	1Y9X_B	1Y9X_B
+sp|P69726|VPR_HV1H2	sp|Q8N5L8|RP25L_HUMAN	21.6	1ESX_A	6AHU_F	1Y9X_B	1Y9X_B
+sp|P69726|VPR_HV1H2	sp|Q96L15|NAR5_HUMAN	21.6	1ESX_A	1GXY_A	1Y9X_B	1Y9X_B
+sp|P69726|VPR_HV1H2	sp|Q9BUL9|RPP25_HUMAN	21.6	1ESX_A	6CWX_B	1Y9X_B	1Y9X_B
+sp|Q6IPX3|TCAL6_HUMAN	sp|P04591|GAG_HV1H2	21.6	6MIS_A	1L6N_A	5FJ9_Q	5FMF_J
+sp|Q6X784|ZPBP2_HUMAN	sp|P05919|VPU_HV1H2	21.6	2E4X_B	2N28_A	5WLG_D	1S7X_G
+sp|Q9UHA4|LTOR3_HUMAN	sp|P04601|NEF_HV1H2	21.6	2ZL1_A	3TB8_A	6OWT_M	6OWT_N
+sp|P04578|ENV_HV1H2	sp|Q16610|ECM1_HUMAN	21.5	6PWU_E	6FAK_A	3F4Y_E	3F4Y_E
+sp|P04578|ENV_HV1H2	tr|A0A494C1N4|A0A494C1N4_HUMAN	21.5	6PWU_E	5J6Z_A	6NQD_F	6NQD_F
+sp|P04585|POL_HV1H2	sp|Q9H305|CDIP1_HUMAN	21.5	1L6N_A	2Y0S_X	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9H5J8|TAF1D_HUMAN	21.5	1L6N_A	6HIX_A	6ICZ_Z	4F7U_A
+sp|Q9NWA0|MED9_HUMAN	sp|P04585|POL_HV1H2	21.5	1YKE_B	1L6N_A	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|Q9BRP1|PDD2L_HUMAN	21.5	1L6N_A	1PV5_A	6SW9_8	5JB3_Y
+sp|P04591|GAG_HV1H2	sp|Q9H5J8|TAF1D_HUMAN	21.5	1L6N_A	6HIX_A	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|Q9NRM2|ZN277_HUMAN	21.5	1L6N_A	1WIR_A	4QIW_N	4QIW_P
+sp|P04591|GAG_HV1H2	sp|Q9NZ01|TECR_HUMAN	21.5	1L6N_A	5V7P_A	5TTE_B	4II2_B
+sp|P05919|VPU_HV1H2	sp|Q96KR6|F210B_HUMAN	21.5	2N28_A	2CQ4_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q9Y548|YIPF1_HUMAN	21.5	2N28_A	6T0B_J	2N2A_B	2N2A_B
+sp|P09382|LEG1_HUMAN	sp|P04591|GAG_HV1H2	21.5	3AK0_B	1L6N_A	4UER_F	5JB3_W
+sp|Q5H943|KKLC1_HUMAN	sp|P04585|POL_HV1H2	21.5	6C13_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q5H943|KKLC1_HUMAN	sp|P04591|GAG_HV1H2	21.5	6C13_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|O43805|SSNA1_HUMAN	21.4	6PWU_E	5HHE_A	5CMZ_A	5CMZ_D
+sp|P04585|POL_HV1H2	sp|Q17RY6|LY6K_HUMAN	21.4	1L6N_A	5HBT_A	6TAS_D	6TAS_F
+sp|Q86SE9|PCGF5_HUMAN	sp|P04585|POL_HV1H2	21.4	5FR6_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q92563|TICN2_HUMAN	21.4	1L6N_A	1NUB_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q92563|TICN2_HUMAN	21.4	1L6N_A	1NUB_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|Q99612|KLF6_HUMAN	21.4	1L6N_A	2WBS_A	6SW9_8	6SW9_C
+sp|P04608|TAT_HV1H2	sp|Q8TAP9|MPLKI_HUMAN	21.4	3MI9_C	6MZM_G	3MI9_C	2PK2_B
+sp|P05919|VPU_HV1H2	sp|P0DI81|TPC2A_HUMAN	21.4	2N28_A	1H3Q_A	2J3T_B	2J3T_C
+sp|P05919|VPU_HV1H2	sp|P0DI82|TPC2B_HUMAN	21.4	2N28_A	1H3Q_A	2J3T_B	2J3T_C
+sp|P05919|VPU_HV1H2	sp|P22695|QCR2_HUMAN	21.4	2N28_A	5OKD_B	2J3T_B	2J3T_C
+sp|P05919|VPU_HV1H2	sp|Q63HM2|PCX4_HUMAN	21.4	2N28_A	5T96_B	2J3T_B	2J3T_C
+sp|P05919|VPU_HV1H2	sp|Q8NGA0|OR7G1_HUMAN	21.4	2N28_A	6KUX_A	2J3T_B	2J3T_D
+sp|P05919|VPU_HV1H2	sp|Q8NGW6|OR6K6_HUMAN	21.4	2N28_A	3EML_A	2J3T_B	2J3T_C
+sp|P05919|VPU_HV1H2	sp|Q9UL33|TPC2L_HUMAN	21.4	2N28_A	3PR6_A	2J3T_B	2J3T_C
+sp|P05919|VPU_HV1H2	sp|Q9Y296|TPPC4_HUMAN	21.4	2N28_A	2J3T_D	2J3T_B	2J3T_C
+sp|P05919|VPU_HV1H2	sp|Q9Y5R8|TPPC1_HUMAN	21.4	2N28_A	2J3T_C	2J3T_B	2J3T_C
+sp|Q6PK04|CC137_HUMAN	sp|P04585|POL_HV1H2	21.4	5FRP_C	1L6N_A	6BK8_D	6BK8_O
+sp|Q6PK04|CC137_HUMAN	sp|P04591|GAG_HV1H2	21.4	5FRP_C	1L6N_A	6BK8_D	6BK8_O
+sp|Q8NC38|CA213_HUMAN	sp|P04591|GAG_HV1H2	21.4	3EAB_G	1L6N_A	5SVA_X	5FMF_J
+sp|P04578|ENV_HV1H2	tr|A0A1B0GWH6|A0A1B0GWH6_HUMAN	21.3	6PWU_E	6HWH_i	6UM5_E	6MAR_D
+sp|Q5W0B7|TM236_HUMAN	sp|P04585|POL_HV1H2	21.3	6OQS_X	1L6N_A	6TAS_D	6TAS_F
+sp|P04585|POL_HV1H2	sp|Q8IXL7|MSRB3_HUMAN	21.3	1L6N_A	6Q9V_B	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|P54107|CRIS1_HUMAN	21.3	1L6N_A	1WVR_A	4QIW_N	4QIW_P
+sp|Q5W0B7|TM236_HUMAN	sp|P04591|GAG_HV1H2	21.3	6OQS_X	1L6N_A	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	tr|A0A0B4J1T7|A0A0B4J1T7_HUMAN	21.3	1L6N_A	2UX2_A	6SW9_8	5JBH_P
+sp|P04601|NEF_HV1H2	sp|O95866|G6B_HUMAN	21.3	3TB8_A	6R0X_F	4ORZ_B	5MZV_D
+sp|P04618|REV_HV1H2	sp|P0DTE2|HV511_HUMAN	21.3	2X7L_R	5WB1_A	2X7L_R	5I8O_H
+sp|P05919|VPU_HV1H2	sp|Q8N6M3|FITM2_HUMAN	21.3	2N28_A	2MET_A	2MET_A	2MET_A
+sp|P05919|VPU_HV1H2	sp|Q96G30|MRAP2_HUMAN	21.3	2N28_A	2L9U_B	2N2A_B	2N2A_B
+sp|P69723|VIF_HV1H2	sp|P60520|GBRL2_HUMAN	21.3	4N9F_b	6HYO_A	4N9F_b	2MA9_B
+sp|P04585|POL_HV1H2	sp|I3L3R5|CCER2_HUMAN	21.2	1L6N_A	4D2H_F	5MD4_I	5MDD_E
+sp|P04585|POL_HV1H2	sp|Q1T7F1|CCB42_HUMAN	21.2	1L6N_A	4B2V_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q3KNT9|TMM95_HUMAN	21.2	1L6N_A	5B5K_A	2BX9_C	2ZP8_F
+sp|P04585|POL_HV1H2	sp|Q5T753|LCE1E_HUMAN	21.2	1L6N_A	6ELW_A	4CF8_A	4CK1_A
+sp|P04585|POL_HV1H2	sp|Q8ND25|ZNRF1_HUMAN	21.2	1L6N_A	5YWR_B	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|I3L3R5|CCER2_HUMAN	21.2	1L6N_A	4D2H_F	5MD4_I	5MDD_E
+sp|P04591|GAG_HV1H2	sp|O43566|RGS14_HUMAN	21.2	1L6N_A	1WFY_A	5UDH_B	3LDZ_E
+sp|P04591|GAG_HV1H2	sp|P99999|CYC_HUMAN	21.2	1L6N_A	1VYD_A	6HTJ_A	6HTJ_A
+sp|P04591|GAG_HV1H2	sp|Q1T7F1|CCB42_HUMAN	21.2	1L6N_A	4B2V_A	1NUI_A	1NUI_A
+sp|P05919|VPU_HV1H2	sp|A4D0T7|SIM30_HUMAN	21.2	2N28_A	2LCX_B	6C14_A	6C14_D
+sp|P05919|VPU_HV1H2	sp|P13164|IFM1_HUMAN	21.2	2N28_A	3MK7_F	2KNC_B	2KNC_A
+sp|Q9Y6H6|KCNE3_HUMAN	sp|P04585|POL_HV1H2	21.2	2NDJ_A	1L6N_A	6CPL_A	2XXM_A
+sp|Q9Y6H6|KCNE3_HUMAN	sp|P04591|GAG_HV1H2	21.2	2NDJ_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04578|ENV_HV1H2	sp|P26885|FKBP2_HUMAN	21.1	6PWU_E	4NNR_B	4JZZ_A	6D8T_A
+sp|P04578|ENV_HV1H2	sp|Q6NVU6|UFSP1_HUMAN	21.1	6PWU_E	2Z84_A	4JZZ_A	6D8T_A
+sp|P04578|ENV_HV1H2	sp|Q8IZN7|D107A_HUMAN	21.1	6PWU_E	5KI9_A	6UJU_A	6UJU_A
+sp|E7ERA6|RN223_HUMAN	sp|P04585|POL_HV1H2	21.1	4KBL_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|O43676|NDUB3_HUMAN	21.1	1L6N_A	6G2J_k	4RGH_A	4RGH_A
+sp|P04585|POL_HV1H2	sp|Q13477|MADCA_HUMAN	21.1	1L6N_A	1BQS_A	2XXM_A	6C5W_E
+sp|Q8N6M9|ZFN2A_HUMAN	sp|P04585|POL_HV1H2	21.1	1X4V_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	tr|A0A075B711|A0A075B711_HUMAN	21.1	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A6NKB5|PCX2_HUMAN	21.1	1L6N_A	2QEX_Z	4QIW_N	4QIW_P
+sp|P04591|GAG_HV1H2	sp|A8K0R7|ZN839_HUMAN	21.1	1L6N_A	1U85_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|O95969|SG1D2_HUMAN	21.1	1L6N_A	1UTR_B	4QIW_N	4QIW_N
+sp|P04591|GAG_HV1H2	sp|Q13477|MADCA_HUMAN	21.1	1L6N_A	1BQS_A	2XXM_A	6C5W_E
+sp|P04591|GAG_HV1H2	tr|A0A075B711|A0A075B711_HUMAN	21.1	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P05919|VPU_HV1H2	sp|O15260|SURF4_HUMAN	21.1	2N28_A	6CFZ_A	6W8X_f	6W8X_f
+sp|P05919|VPU_HV1H2	sp|P09131|P3_HUMAN	21.1	2N28_A	4N7W_A	6W8X_f	6W8X_f
+sp|P05919|VPU_HV1H2	sp|P0DI80|SMIM6_HUMAN	21.1	2N28_A	6W8X_f	6W8X_f	6W8X_f
+sp|P05919|VPU_HV1H2	sp|P0DMQ5|INAM2_HUMAN	21.1	2N28_A	6MZM_G	6W8X_f	6W8X_f
+sp|P05919|VPU_HV1H2	sp|P57105|SYJ2B_HUMAN	21.1	2N28_A	2XKX_A	6W8X_f	6W8X_f
+sp|P05919|VPU_HV1H2	sp|Q3SXP7|SHSL1_HUMAN	21.1	2N28_A	5M0W_A	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q5T700|LRAD1_HUMAN	21.1	2N28_A	1N7D_A	6W8X_f	6W8X_f
+sp|P05919|VPU_HV1H2	sp|Q629K1|TRIQK_HUMAN	21.1	2N28_A	6HWH_S	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q8WUJ1|NEUFC_HUMAN	21.1	2N28_A	4X8Y_A	6W8X_f	6W8X_f
+sp|P05919|VPU_HV1H2	sp|Q9BZL3|SMIM3_HUMAN	21.1	2N28_A	6ITH_A	6C14_A	6C14_A
+sp|P05919|VPU_HV1H2	sp|Q9GZP1|NRSN2_HUMAN	21.1	2N28_A	2N24_A	6W8X_f	6W8X_f
+sp|P59665|DEF1_HUMAN	sp|P04608|TAT_HV1H2	21.1	4LB7_A	3MI9_C	4OR5_C	4OGR_D
+sp|Q13356|PPIL2_HUMAN	sp|P04578|ENV_HV1H2	21.1	1ZKC_B	6PWU_E	6VO0_G	4TVP_G
+sp|Q86YQ2|LATH_HUMAN	sp|P04591|GAG_HV1H2	21.1	3ZPM_A	1L6N_A	6WRU_H	5HL7_Z
+sp|Q8N9P0|YF006_HUMAN	sp|P04591|GAG_HV1H2	21.1	5YT6_F	1L6N_A	5HL7_U	5HL7_Z
+sp|Q9BRT3|MIEN1_HUMAN	sp|P04591|GAG_HV1H2	21.1	2LJK_A	1L6N_A	3PO2_L	5FMF_J
+sp|Q9C0E8|LNP_HUMAN	sp|P04585|POL_HV1H2	21.1	2Z73_A	1L6N_A	5FMF_L	5FMF_R
+tr|A0A1B0GTB2|A0A1B0GTB2_HUMAN	sp|P04578|ENV_HV1H2	21.1	5C1M_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|P62699|YPEL5_HUMAN	21.0	1L6N_A	5HJ0_B	5FMF_R	1TWF_I
+sp|P04585|POL_HV1H2	sp|Q5TFG8|ZC21B_HUMAN	21.0	1L6N_A	5AAZ_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q86YI8|PHF13_HUMAN	21.0	1L6N_A	5TDW_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9H322|VCX2_HUMAN	21.0	1L6N_A	3IYM_B	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	sp|Q9Y3C5|RNF11_HUMAN	21.0	1L6N_A	5AIE_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	tr|A0A075B6X4|A0A075B6X4_HUMAN	21.0	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A0B4J1T7|A0A0B4J1T7_HUMAN	21.0	1L6N_A	2UX2_A	6R24_C	6R24_C
+sp|P04591|GAG_HV1H2	sp|P54578|UBP14_HUMAN	21.0	1L6N_A	5GJQ_x	5UDH_B	3LDZ_E
+sp|P04591|GAG_HV1H2	sp|Q6NTE8|MRNIP_HUMAN	21.0	1L6N_A	1GH9_A	4AYB_N	4AYB_P
+sp|P04591|GAG_HV1H2	sp|Q9BZS9|YG041_HUMAN	21.0	1L6N_A	2K5C_A	5IY6_L	6O9L_4
+sp|P04591|GAG_HV1H2	sp|Q9H322|VCX2_HUMAN	21.0	1L6N_A	3IYM_B	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	tr|A0A075B6X4|A0A075B6X4_HUMAN	21.0	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|P19256|LFA3_HUMAN	21.0	3TB8_A	3ALW_A	4ORZ_B	5MZV_D
+sp|P04608|TAT_HV1H2	sp|Q9NXJ5|PGPI_HUMAN	21.0	3MI9_C	1IU8_A	6N4Y_C	4NBX_B
+sp|P05919|VPU_HV1H2	sp|P54710|ATNG_HUMAN	21.0	2N28_A	2MKV_A	6CFW_I	6CFW_G
+sp|P04585|POL_HV1H2	sp|P20042|IF2B_HUMAN	20.9	1L6N_A	6K71_M	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q6ZMK1|CYHR1_HUMAN	20.9	1L6N_A	2YRE_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q8IWE4|DCNL3_HUMAN	20.9	1L6N_A	4GBA_B	2MGU_M	5DOW_A
+sp|Q9NZH8|IL36G_HUMAN	sp|P04585|POL_HV1H2	20.9	6P9E_A	1L6N_A	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|Q8IWE4|DCNL3_HUMAN	20.9	1L6N_A	4GBA_B	2MGU_M	5DOW_A
+sp|Q9NZH8|IL36G_HUMAN	sp|P04591|GAG_HV1H2	20.9	6P9E_A	1L6N_A	6TAS_D	6TAS_F
+sp|P04578|ENV_HV1H2	sp|Q9HD87|CF050_HUMAN	20.8	6PWU_E	1H0A_A	3DNO_B	3DNO_D
+sp|P04585|POL_HV1H2	sp|Q3MIV0|KR221_HUMAN	20.8	1L6N_A	3V64_D	1NUI_A	1NUI_A
+sp|Q96S99|PKHF1_HUMAN	sp|P04585|POL_HV1H2	20.8	3MPX_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q9UFV3|YO007_HUMAN	20.8	1L6N_A	2XF5_D	1E0E_B	1E0E_B
+sp|P04585|POL_HV1H2	tr|A0A0G2JNJ9|A0A0G2JNJ9_HUMAN	20.8	1L6N_A	3VRD_A	1E0E_B	1E0E_B
+sp|P04591|GAG_HV1H2	sp|A8MSI8|LYRM9_HUMAN	20.8	1L6N_A	6UXE_B	4QIW_N	4QJV_B
+sp|P04591|GAG_HV1H2	sp|Q3MIV0|KR221_HUMAN	20.8	1L6N_A	3V64_D	1NUI_A	1NUI_A
+sp|Q9P1D8|YP008_HUMAN	sp|P04591|GAG_HV1H2	20.8	6KTO_C	1L6N_A	6TUT_Q	5FMF_J
+sp|P04601|NEF_HV1H2	sp|Q02535|ID3_HUMAN	20.8	3TB8_A	4AYA_B	6OWT_N	6QH7_S
+sp|P05919|VPU_HV1H2	sp|Q9Y328|NSG2_HUMAN	20.8	2N28_A	3ZHG_D	2MET_A	2MET_A
+sp|P69726|VPR_HV1H2	sp|O00175|CCL24_HUMAN	20.8	1ESX_A	1EIH_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|O00585|CCL21_HUMAN	20.8	1ESX_A	2L4N_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|O00626|CCL22_HUMAN	20.8	1ESX_A	6N2U_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|O14625|CXL11_HUMAN	20.8	1ESX_A	6N2U_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|O15444|CCL25_HUMAN	20.8	1ESX_A	5UR7_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|O15467|CCL16_HUMAN	20.8	1ESX_A	5LTL_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|O43927|CXL13_HUMAN	20.8	1ESX_A	5CBA_F	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|O95081|AGFG2_HUMAN	20.8	1ESX_A	2OLM_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|O95715|CXL14_HUMAN	20.8	1ESX_A	2HDL_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P02775|CXCL7_HUMAN	20.8	1ESX_A	1F9P_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P02776|PLF4_HUMAN	20.8	1ESX_A	4R9W_B	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P02778|CXL10_HUMAN	20.8	1ESX_A	1O80_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P09341|GROA_HUMAN	20.8	1ESX_A	1MGS_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P10145|IL8_HUMAN	20.8	1ESX_A	6N2U_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P10147|CCL3_HUMAN	20.8	1ESX_A	6N2U_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P10720|PF4V_HUMAN	20.8	1ESX_A	4R9W_B	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P13236|CCL4_HUMAN	20.8	1ESX_A	6N2U_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P13500|CCL2_HUMAN	20.8	1ESX_A	1DON_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P13501|CCL5_HUMAN	20.8	1ESX_A	6N2U_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P16619|CL3L1_HUMAN	20.8	1ESX_A	6N2U_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P19875|CXCL2_HUMAN	20.8	1ESX_A	1F9Q_B	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P19876|CXCL3_HUMAN	20.8	1ESX_A	1MI2_B	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P22362|CCL1_HUMAN	20.8	1ESX_A	4OIJ_B	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P42830|CXCL5_HUMAN	20.8	1ESX_A	2MGS_B	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P47992|XCL1_HUMAN	20.8	1ESX_A	1J9O_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P48061|SDF1_HUMAN	20.8	1ESX_A	4UAI_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P49908|SEPP1_HUMAN	20.8	1ESX_A	6MZL_B	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P51671|CCL11_HUMAN	20.8	1ESX_A	6N2U_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P55773|CCL23_HUMAN	20.8	1ESX_A	1G91_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P55774|CCL18_HUMAN	20.8	1ESX_A	6N2U_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P78423|X3CL1_HUMAN	20.8	1ESX_A	1F2L_D	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P78556|CCL20_HUMAN	20.8	1ESX_A	5UR7_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P80075|CCL8_HUMAN	20.8	1ESX_A	6N2U_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P80098|CCL7_HUMAN	20.8	1ESX_A	6N2U_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P80162|CXCL6_HUMAN	20.8	1ESX_A	2MGS_B	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|Q07325|CXCL9_HUMAN	20.8	1ESX_A	2MGS_B	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|Q15004|PAF15_HUMAN	20.8	1ESX_A	6GWS_F	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|Q16627|CCL14_HUMAN	20.8	1ESX_A	2Q8T_C	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|Q16663|CCL15_HUMAN	20.8	1ESX_A	2HCC_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|Q5W111|SPRY7_HUMAN	20.8	1ESX_A	6E2H_D	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|Q8NHW4|CC4L_HUMAN	20.8	1ESX_A	2FIN_B	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|Q8WUJ0|STYX_HUMAN	20.8	1ESX_A	2R0B_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|Q92583|CCL17_HUMAN	20.8	1ESX_A	5WK3_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|Q96MK2|RIPR3_HUMAN	20.8	1ESX_A	5COY_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|Q99616|CCL13_HUMAN	20.8	1ESX_A	1DOK_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|Q99731|CCL19_HUMAN	20.8	1ESX_A	2MP1_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|Q9H2A7|CXL16_HUMAN	20.8	1ESX_A	6N2U_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|Q9NRJ3|CCL28_HUMAN	20.8	1ESX_A	6CWS_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|Q9UBD3|XCL2_HUMAN	20.8	1ESX_A	1J9O_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|Q9Y258|CCL26_HUMAN	20.8	1ESX_A	6N2U_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|Q9Y4X3|CCL27_HUMAN	20.8	1ESX_A	2KUM_A	1ZXT_B	1ZXT_B
+sp|P04585|POL_HV1H2	sp|Q7RTV0|PHF5A_HUMAN	20.7	1L6N_A	6FF4_y	2BX9_C	2ZP8_F
+sp|P04591|GAG_HV1H2	sp|A0A1B0GUU1|CQ113_HUMAN	20.7	1L6N_A	2BW3_A	6SW9_8	5JB3_Y
+sp|P04591|GAG_HV1H2	sp|Q8N9H8|MUT7_HUMAN	20.7	1L6N_A	4NLC_A	6SW9_8	6SW9_C
+sp|Q9HD34|LYRM4_HUMAN	sp|P04591|GAG_HV1H2	20.7	6UXE_B	1L6N_A	1VQO_V	2QEX_Z
+sp|P04591|GAG_HV1H2	sp|Q9UIL1|SCOC_HUMAN	20.7	1L6N_A	4BWD_C	6SW9_8	5JB3_Y
+sp|P04601|NEF_HV1H2	tr|A0A075B6V7|A0A075B6V7_HUMAN	20.7	3TB8_A	6GKD_B	3IK5_A	6K6N_A
+sp|P69723|VIF_HV1H2	sp|Q12947|FOXF2_HUMAN	20.7	4N9F_b	1JXS_A	2Q73_D	2Q73_C
+sp|P69723|VIF_HV1H2	sp|Q16543|CDC37_HUMAN	20.7	4N9F_b	5FWK_E	2Q73_D	2Q73_C
+sp|P69723|VIF_HV1H2	sp|Q9H773|DCTP1_HUMAN	20.7	4N9F_b	6SQY_A	2Q73_D	2Q73_C
+sp|P69726|VPR_HV1H2	sp|O00244|ATOX1_HUMAN	20.7	1ESX_A	6FU9_C	2F8B_A	2F8B_A
+sp|P69726|VPR_HV1H2	sp|O43482|MS18B_HUMAN	20.7	1ESX_A	5HJ0_B	2F8B_A	2F8B_A
+sp|P69726|VPR_HV1H2	sp|P59797|SELV_HUMAN	20.7	1ESX_A	2NPB_A	2F8B_A	2F8B_A
+sp|P69726|VPR_HV1H2	sp|Q5EBN2|TRI61_HUMAN	20.7	1ESX_A	4CFG_A	2F8B_A	2F8B_A
+sp|P69726|VPR_HV1H2	sp|Q9BRP1|PDD2L_HUMAN	20.7	1ESX_A	1PV5_A	2F8B_A	2F8B_A
+sp|P69726|VPR_HV1H2	sp|Q9H606|PRORY_HUMAN	20.7	1ESX_A	1U0L_B	2F8B_A	2F8B_A
+sp|P69726|VPR_HV1H2	sp|Q9UNI6|DUS12_HUMAN	20.7	1ESX_A	6RZZ_s	2F8B_A	2F8B_A
+sp|P06028|GLPB_HUMAN	sp|P04578|ENV_HV1H2	20.7	1AFO_A	6PWU_E	6MEO_B	3J70_P
+sp|P83881|RL36A_HUMAN	sp|P04585|POL_HV1H2	20.7	5UMD_i	1L6N_A	5FMF_I	5FMF_R
+sp|Q969Q0|RL36L_HUMAN	sp|P04585|POL_HV1H2	20.7	5UMD_i	1L6N_A	5FMF_I	5FMF_R
+tr|A0A075B6W6|A0A075B6W6_HUMAN	sp|P04601|NEF_HV1H2	20.7	6GKD_B	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|Q0P641|CB080_HUMAN	20.6	6PWU_E	2GUZ_K	3VTQ_B	3VTQ_D
+sp|P04578|ENV_HV1H2	sp|Q6IE38|ISK14_HUMAN	20.6	6PWU_E	1UVF_A	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|P0DMR2|SG1C2_HUMAN	20.6	1L6N_A	1UTR_B	4PH1_C	4PH1_B
+sp|P04585|POL_HV1H2	sp|Q86SG5|S1A7A_HUMAN	20.6	1L6N_A	1PSR_B	2MGU_M	5DOW_A
+sp|Q9HBF5|ST20_HUMAN	sp|P04585|POL_HV1H2	20.6	2N2Y_A	1L6N_A	5FMF_I	5FMF_R
+sp|P04585|POL_HV1H2	tr|A0A075B6X7|A0A075B6X7_HUMAN	20.6	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A075B704|A0A075B704_HUMAN	20.6	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P0DMR2|SG1C2_HUMAN	20.6	1L6N_A	1UTR_B	4PH1_C	4PH1_B
+sp|P04591|GAG_HV1H2	sp|Q86SG5|S1A7A_HUMAN	20.6	1L6N_A	1PSR_B	2MGU_M	5DOW_A
+sp|Q9HBF5|ST20_HUMAN	sp|P04591|GAG_HV1H2	20.6	2N2Y_A	1L6N_A	5FMF_I	5FMF_J
+sp|P04591|GAG_HV1H2	tr|A0A075B6X7|A0A075B6X7_HUMAN	20.6	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B704|A0A075B704_HUMAN	20.6	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04608|TAT_HV1H2	sp|Q6PK04|CC137_HUMAN	20.6	3MI9_C	5FRP_C	4OR5_C	4OR5_E
+sp|Q9NPU4|CN132_HUMAN	sp|P04578|ENV_HV1H2	20.6	4WW3_A	6PWU_E	6MEO_B	3J70_P
+sp|P04585|POL_HV1H2	sp|P23490|LORI_HUMAN	20.5	1L6N_A	4Z7H_B	6ICZ_Z	5MQF_F
+sp|P04585|POL_HV1H2	sp|P59282|TPPP2_HUMAN	20.5	1L6N_A	2JRF_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q14192|FHL2_HUMAN	20.5	1L6N_A	4JCJ_C	5FMF_R	5IP7_L
+sp|Q15195|PLGA_HUMAN	sp|P04585|POL_HV1H2	20.5	2QJ2_A	1L6N_A	3G1G_B	3G1G_A
+sp|P04585|POL_HV1H2	sp|Q15649|ZNHI3_HUMAN	20.5	1L6N_A	5L85_A	5FMF_R	5IP7_L
+sp|Q3LI60|KR203_HUMAN	sp|P04585|POL_HV1H2	20.5	1YWS_A	1L6N_A	5FMF_I	5FMF_R
+sp|P04585|POL_HV1H2	sp|Q8IZQ5|SELH_HUMAN	20.5	1L6N_A	2FA8_B	1WJB_A	1WJB_A
+sp|P04585|POL_HV1H2	sp|Q9BW30|TPPP3_HUMAN	20.5	1L6N_A	2JRF_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|Q9NX47|MARH5_HUMAN	20.5	1L6N_A	2M6M_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|P23490|LORI_HUMAN	20.5	1L6N_A	4Z7H_B	6ICZ_Z	5MQF_F
+sp|P04591|GAG_HV1H2	sp|P59282|TPPP2_HUMAN	20.5	1L6N_A	2JRF_A	2MGU_M	5DOW_A
+sp|Q15195|PLGA_HUMAN	sp|P04591|GAG_HV1H2	20.5	2QJ2_A	1L6N_A	3G1G_B	3G1G_A
+sp|P04591|GAG_HV1H2	sp|Q96DX8|RTP4_HUMAN	20.5	1L6N_A	1QYP_A	4QIW_N	4QIW_P
+sp|P04591|GAG_HV1H2	sp|Q9BW30|TPPP3_HUMAN	20.5	1L6N_A	2JRF_A	2MGU_M	5DOW_A
+sp|P05919|VPU_HV1H2	sp|P0CH98|F106C_HUMAN	20.5	2N28_A	3QW9_A	6CFW_I	6CFW_E
+sp|P05919|VPU_HV1H2	sp|P49768|PSN1_HUMAN	20.5	2N28_A	5A63_B	2L6W_A	2L6W_A
+sp|P05919|VPU_HV1H2	sp|Q01650|LAT1_HUMAN	20.5	2N28_A	6IRS_B	2L6W_A	2L6W_A
+sp|P05919|VPU_HV1H2	sp|Q86XS8|GOLI_HUMAN	20.5	2N28_A	3ICU_A	2L6W_A	2L6W_A
+sp|P05919|VPU_HV1H2	sp|Q8NB59|SYT14_HUMAN	20.5	2N28_A	6ANK_A	2L6W_A	2L6W_A
+sp|P05919|VPU_HV1H2	sp|Q8NC42|RN149_HUMAN	20.5	2N28_A	3ICU_A	2L6W_A	2L6W_A
+sp|P05919|VPU_HV1H2	sp|Q8TCY5|MRAP_HUMAN	20.5	2N28_A	5GUX_C	2L6W_A	2L6W_A
+sp|P05919|VPU_HV1H2	sp|Q92537|SUSD6_HUMAN	20.5	2N28_A	2ATY_A	2L6W_A	2L6W_A
+sp|P05919|VPU_HV1H2	sp|Q96IX5|ATPMD_HUMAN	20.5	2N28_A	6J5I_i	2L6W_A	2L6W_A
+sp|P05919|VPU_HV1H2	sp|Q9BU79|TM243_HUMAN	20.5	2N28_A	6HK0_E	2L6W_A	2L6W_A
+sp|P05919|VPU_HV1H2	sp|Q9H665|IGFR1_HUMAN	20.5	2N28_A	2DBF_A	2L6W_A	2L6W_A
+sp|P05919|VPU_HV1H2	sp|Q9NS82|AAA1_HUMAN	20.5	2N28_A	6IRS_B	2L6W_A	2L6W_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5Y0|FLVC1_HUMAN	20.5	2N28_A	6FMR_A	2L6W_A	2L6W_A
+sp|P69723|VIF_HV1H2	sp|Q9H410|DSN1_HUMAN	20.5	4N9F_b	5LSK_D	2Q73_D	2Q73_C
+sp|P04578|ENV_HV1H2	sp|P28325|CYTD_HUMAN	20.4	6PWU_E	1ROA_A	5ZCX_A	5ZCX_A
+sp|P04578|ENV_HV1H2	sp|Q8NG41|NPB_HUMAN	20.4	6PWU_E	3RY6_C	3NGB_D	5IBU_B
+sp|P04585|POL_HV1H2	sp|Q5T700|LRAD1_HUMAN	20.4	1L6N_A	1N7D_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q96IQ9|ZN414_HUMAN	20.4	1L6N_A	1WJP_A	5FMF_R	5IP7_L
+sp|P04591|GAG_HV1H2	sp|P20155|ISK2_HUMAN	20.4	1L6N_A	6KBR_C	6HTJ_A	6HTJ_A
+sp|P04591|GAG_HV1H2	sp|Q9NS25|SPNXB_HUMAN	20.4	1L6N_A	2KJW_A	5IY6_L	5IY7_O
+sp|P04591|GAG_HV1H2	sp|Q9UGM5|FETUB_HUMAN	20.4	1L6N_A	6SAZ_B	4QIW_N	4QIW_P
+sp|P05919|VPU_HV1H2	sp|A0A286YFK9|SIM38_HUMAN	20.4	2N28_A	2N28_A	6GV9_A	6GV9_A
+sp|P05919|VPU_HV1H2	sp|Q8IVJ8|APRG1_HUMAN	20.4	2N28_A	4JPK_A	6W8X_f	6W8X_f
+sp|P69726|VPR_HV1H2	sp|Q8N8P6|YX004_HUMAN	20.4	1ESX_A	2GO3_B	1X9V_A	1X9V_A
+sp|Q13643|FHL3_HUMAN	sp|P04585|POL_HV1H2	20.4	4JCJ_B	1L6N_A	5FMF_L	5FMF_R
+sp|P04578|ENV_HV1H2	sp|Q9BX73|TM2D2_HUMAN	20.3	6PWU_E	3DNO_D	3DNO_B	3DNO_D
+sp|P04585|POL_HV1H2	sp|P09565|IG2R_HUMAN	20.3	1L6N_A	5K2M_F	6TAS_D	6TAS_F
+sp|Q02325|PLGB_HUMAN	sp|P04585|POL_HV1H2	20.3	2QJ2_A	1L6N_A	3G1G_B	3G1G_A
+sp|P04591|GAG_HV1H2	sp|P09565|IG2R_HUMAN	20.3	1L6N_A	5K2M_F	6TAS_D	6TAS_F
+sp|Q02325|PLGB_HUMAN	sp|P04591|GAG_HV1H2	20.3	2QJ2_A	1L6N_A	3G1G_B	3G1G_A
+sp|P05919|VPU_HV1H2	sp|P15421|GLPE_HUMAN	20.3	2N28_A	5EH4_C	1AFO_A	1AFO_A
+sp|P05919|VPU_HV1H2	sp|Q16517|NNAT_HUMAN	20.3	2N28_A	2K58_B	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q6ZMD2|SPNS3_HUMAN	20.3	2N28_A	6E9C_A	1AFO_A	1AFO_A
+sp|P05919|VPU_HV1H2	sp|Q8NH89|O5AK3_HUMAN	20.3	2N28_A	4ZUD_A	1AFO_A	1AFO_A
+sp|P05919|VPU_HV1H2	sp|Q8NHE4|VA0E2_HUMAN	20.3	2N28_A	6VQC_e	1AFO_A	1AFO_A
+sp|P05919|VPU_HV1H2	sp|Q96HH6|TMM19_HUMAN	20.3	2N28_A	2JLN_A	1AFO_A	1AFO_A
+sp|P05919|VPU_HV1H2	sp|Q9BZV3|IMPG2_HUMAN	20.3	2N28_A	2E7V_A	1AFO_A	1AFO_A
+sp|P05919|VPU_HV1H2	tr|A0A1B0GTB2|A0A1B0GTB2_HUMAN	20.3	2N28_A	5C1M_A	1AFO_A	1AFO_A
+sp|A8MWK0|FS2P1_HUMAN	sp|P05919|VPU_HV1H2	20.3	1CXY_A	2N28_A	5EH4_C	1AFO_A
+sp|P27701|CD82_HUMAN	sp|P05919|VPU_HV1H2	20.3	5TCX_A	2N28_A	5EH4_C	1AFO_A
+sp|P04585|POL_HV1H2	sp|Q9Y291|RT33_HUMAN	20.2	1L6N_A	6NU2_A	6R24_C	6R24_C
+sp|P04591|GAG_HV1H2	sp|P60520|GBRL2_HUMAN	20.2	1L6N_A	6HYO_A	5TTE_B	4II2_B
+sp|P04591|GAG_HV1H2	sp|Q9Y291|RT33_HUMAN	20.2	1L6N_A	6NU2_A	6R23_B	6R23_B
+sp|P69726|VPR_HV1H2	sp|A2A3K4|PTPC1_HUMAN	20.2	1ESX_A	6G84_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|A4D256|CC14C_HUMAN	20.2	1ESX_A	1OHE_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|O14522|PTPRT_HUMAN	20.2	1ESX_A	1YGU_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|O60729|CC14B_HUMAN	20.2	1ESX_A	1OHE_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|O60942|MCE1_HUMAN	20.2	1ESX_A	3RTX_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|O75061|AUXI_HUMAN	20.2	1ESX_A	3N0A_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|O75319|DUS11_HUMAN	20.2	1ESX_A	4NYH_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|O75365|TP4A3_HUMAN	20.2	1ESX_A	1R6H_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|O95147|DUS14_HUMAN	20.2	1ESX_A	2WGP_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P02458|CO2A1_HUMAN	20.2	1ESX_A	3HQV_C	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P08575|PTPRC_HUMAN	20.2	1ESX_A	1YGU_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P10586|PTPRF_HUMAN	20.2	1ESX_A	6KR4_C	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P17706|PTN2_HUMAN	20.2	1ESX_A	1L8K_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P18031|PTN1_HUMAN	20.2	1ESX_A	2CM2_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P18433|PTPRA_HUMAN	20.2	1ESX_A	6UZT_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P23467|PTPRB_HUMAN	20.2	1ESX_A	2HC1_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P23468|PTPRD_HUMAN	20.2	1ESX_A	6KR4_C	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P23469|PTPRE_HUMAN	20.2	1ESX_A	6UZT_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P23470|PTPRG_HUMAN	20.2	1ESX_A	2NLK_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P23471|PTPRZ_HUMAN	20.2	1ESX_A	6J6U_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P26045|PTN3_HUMAN	20.2	1ESX_A	4RI5_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P28562|DUS1_HUMAN	20.2	1ESX_A	2G6Z_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P28827|PTPRM_HUMAN	20.2	1ESX_A	1YGU_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P29074|PTN4_HUMAN	20.2	1ESX_A	2I75_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P29350|PTN6_HUMAN	20.2	1ESX_A	3PS5_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P35236|PTN7_HUMAN	20.2	1ESX_A	1ZC0_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P43378|PTN9_HUMAN	20.2	1ESX_A	2PA5_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P51452|DUS3_HUMAN	20.2	1ESX_A	3F81_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P54829|PTN5_HUMAN	20.2	1ESX_A	6H8R_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P56180|TPTE_HUMAN	20.2	1ESX_A	3V0D_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|P60484|PTEN_HUMAN	20.2	1ESX_A	1D5R_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q05923|DUS2_HUMAN	20.2	1ESX_A	2G6Z_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q06124|PTN11_HUMAN	20.2	1ESX_A	5EHP_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q12913|PTPRJ_HUMAN	20.2	1ESX_A	3I36_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q12923|PTN13_HUMAN	20.2	1ESX_A	1WCH_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q12974|TP4A2_HUMAN	20.2	1ESX_A	1RXD_C	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q13115|DUS4_HUMAN	20.2	1ESX_A	2G6Z_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q13202|DUS8_HUMAN	20.2	1ESX_A	2G6Z_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q13332|PTPRS_HUMAN	20.2	1ESX_A	2FH7_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q13496|MTM1_HUMAN	20.2	1ESX_A	1M7R_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q13613|MTMR1_HUMAN	20.2	1ESX_A	1M7R_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q13614|MTMR2_HUMAN	20.2	1ESX_A	1M7R_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q13615|MTMR3_HUMAN	20.2	1ESX_A	1LW3_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q15256|PTPRR_HUMAN	20.2	1ESX_A	1JLN_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q15262|PTPRK_HUMAN	20.2	1ESX_A	1YGU_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q15678|PTN14_HUMAN	20.2	1ESX_A	6IWD_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q16667|CDKN3_HUMAN	20.2	1ESX_A	1FQ1_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q16690|DUS5_HUMAN	20.2	1ESX_A	2G6Z_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q16825|PTN21_HUMAN	20.2	1ESX_A	6IWD_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q16827|PTPRO_HUMAN	20.2	1ESX_A	2GJT_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q16828|DUS6_HUMAN	20.2	1ESX_A	2G6Z_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q16829|DUS7_HUMAN	20.2	1ESX_A	2G6Z_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q16849|PTPRN_HUMAN	20.2	1ESX_A	2I1Y_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q4G0W2|DUS28_HUMAN	20.2	1ESX_A	5Y15_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q4JDL3|PTN20_HUMAN	20.2	1ESX_A	1WCH_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q5VZP5|DUS27_HUMAN	20.2	1ESX_A	2Y96_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q68CZ2|TENS3_HUMAN	20.2	1ESX_A	3N0A_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q68J44|DUPD1_HUMAN	20.2	1ESX_A	2Y96_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q6XPS3|TPTE2_HUMAN	20.2	1ESX_A	3V0D_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q76I76|SSH2_HUMAN	20.2	1ESX_A	2G6Z_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q8N6F7|GCSAM_HUMAN	20.2	1ESX_A	2M2R_A	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|Q8NCE2|MTMRE_HUMAN	20.2	1ESX_A	1M7R_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q8NEJ0|DUS18_HUMAN	20.2	1ESX_A	2ESB_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q8TE77|SSH3_HUMAN	20.2	1ESX_A	2G6Z_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q8WTR2|DUS19_HUMAN	20.2	1ESX_A	6S05_s	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q8WUK0|PTPM1_HUMAN	20.2	1ESX_A	3RGQ_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q8WYL5|SSH1_HUMAN	20.2	1ESX_A	2G6Z_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q92729|PTPRU_HUMAN	20.2	1ESX_A	1YGU_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q92932|PTPR2_HUMAN	20.2	1ESX_A	2I1Y_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q93096|TP4A1_HUMAN	20.2	1ESX_A	3RZ2_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q96EF0|MTMR8_HUMAN	20.2	1ESX_A	1M7R_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q99952|PTN18_HUMAN	20.2	1ESX_A	2OC3_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q99956|DUS9_HUMAN	20.2	1ESX_A	2G6Z_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q9BV47|DUS26_HUMAN	20.2	1ESX_A	2Y96_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q9BVJ7|DUS23_HUMAN	20.2	1ESX_A	4ERC_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q9BY84|DUS16_HUMAN	20.2	1ESX_A	2G6Z_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q9H1R2|DUS15_HUMAN	20.2	1ESX_A	6S05_s	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q9H3S7|PTN23_HUMAN	20.2	1ESX_A	2R03_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q9H596|DUS21_HUMAN	20.2	1ESX_A	2ESB_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q9HBL0|TENS1_HUMAN	20.2	1ESX_A	3N0A_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q9HD43|PTPRH_HUMAN	20.2	1ESX_A	2NZ6_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q9NRW4|DUS22_HUMAN	20.2	1ESX_A	4WOH_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q9NYA4|MTMR4_HUMAN	20.2	1ESX_A	1LW3_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q9UII6|DS13B_HUMAN	20.2	1ESX_A	2PQ5_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q9UMZ3|PTPRQ_HUMAN	20.2	1ESX_A	4IKC_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q9UNH5|CC14A_HUMAN	20.2	1ESX_A	1OHE_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q9Y216|MTMR7_HUMAN	20.2	1ESX_A	1M7R_B	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q9Y217|MTMR6_HUMAN	20.2	1ESX_A	2YF0_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q9Y2R2|PTN22_HUMAN	20.2	1ESX_A	3H2X_A	6IWD_B	6IWD_A
+sp|P69726|VPR_HV1H2	sp|Q9Y6W6|DUS10_HUMAN	20.2	1ESX_A	2OUD_A	6IWD_B	6IWD_A
+sp|P04578|ENV_HV1H2	sp|P81534|D103A_HUMAN	20.1	6PWU_E	1KJ6_A	6NIJ_B	3U1S_H
+sp|P04585|POL_HV1H2	sp|Q15038|DAZP2_HUMAN	20.1	1L6N_A	2QTV_D	6ICZ_Z	5MQF_F
+sp|Q5EBN2|TRI61_HUMAN	sp|P04585|POL_HV1H2	20.1	4CFG_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04591|GAG_HV1H2	sp|Q15038|DAZP2_HUMAN	20.1	1L6N_A	2QTV_D	6ICZ_Z	5MQF_F
+sp|P04591|GAG_HV1H2	sp|Q96PM9|Z385A_HUMAN	20.1	1L6N_A	1ZU1_A	6SW9_8	6SW9_C
+sp|P05919|VPU_HV1H2	sp|Q13021|MALL_HUMAN	20.1	2N28_A	2QI9_A	2KNC_B	2KNC_A
+sp|A0A1B0GTR0|EDD13_HUMAN	sp|P04591|GAG_HV1H2	20.1	3M0D_D	1L6N_A	6GMH_L	5FMF_J
+sp|P04279|SEMG1_HUMAN	sp|P04578|ENV_HV1H2	20.1	5CEA_C	6PWU_E	4YDV_A	6PWU_E
+sp|P04585|POL_HV1H2	sp|A8MUU9|YV023_HUMAN	20.0	1L6N_A	2B8I_A	6BK8_O	6J6G_Z
+sp|P04585|POL_HV1H2	sp|P31151|S10A7_HUMAN	20.0	1L6N_A	1PSR_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|P55000|SLUR1_HUMAN	20.0	1L6N_A	2H7Z_A	6TAS_D	6TAS_F
+sp|Q8NHG8|ZNRF2_HUMAN	sp|P04585|POL_HV1H2	20.0	5YWR_B	1L6N_A	5FMF_L	5FMF_R
+sp|P04591|GAG_HV1H2	sp|A8MUU9|YV023_HUMAN	20.0	1L6N_A	2B8I_A	6BK8_O	6J6G_Z
+sp|P04591|GAG_HV1H2	sp|P31151|S10A7_HUMAN	20.0	1L6N_A	1PSR_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P55000|SLUR1_HUMAN	20.0	1L6N_A	2H7Z_A	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	sp|Q92575|UBXN4_HUMAN	20.0	1L6N_A	2DZK_A	5UDH_B	3LDZ_E
+sp|P69726|VPR_HV1H2	tr|A0A494C162|A0A494C162_HUMAN	20.0	1ESX_A	2YLN_A	5AJA_B	5AJA_C
+sp|Q9BSM1|PCGF1_HUMAN	sp|P04585|POL_HV1H2	20.0	5FR6_A	1L6N_A	5FMF_L	5FMF_R
+sp|Q504U0|CD046_HUMAN	sp|P04578|ENV_HV1H2	19.9	4N2S_A	6PWU_E	6NM6_D	6MTJ_B
+tr|A0A075B704|A0A075B704_HUMAN	sp|P04578|ENV_HV1H2	19.9	6GKD_B	6PWU_E	6VPX_K	3J70_P
+sp|P04585|POL_HV1H2	sp|A0A0J9YWX3|TJB16_HUMAN	19.9	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O00198|HRK_HUMAN	19.9	1L6N_A	2L5B_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9P1D8|YP008_HUMAN	19.9	1L6N_A	6KTO_C	6ICZ_Z	4F7U_A
+sp|P04591|GAG_HV1H2	sp|A0A0J9YWX3|TJB16_HUMAN	19.9	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O00198|HRK_HUMAN	19.9	1L6N_A	2L5B_A	1NUI_A	1NUI_A
+sp|P04591|GAG_HV1H2	sp|Q7Z4U5|CF201_HUMAN	19.9	1L6N_A	5I1N_B	5AUN_A	5AUN_B
+sp|P04601|NEF_HV1H2	sp|O43914|TYOBP_HUMAN	19.9	3TB8_A	6JXR_d	3IK5_A	3IOZ_B
+sp|P69726|VPR_HV1H2	sp|O94907|DKK1_HUMAN	19.9	1ESX_A	3S2K_C	3FPU_B	3FPU_A
+sp|P69726|VPR_HV1H2	sp|P20155|ISK2_HUMAN	19.9	1ESX_A	6KBR_C	1ZXT_B	1ZXT_B
+sp|P69726|VPR_HV1H2	sp|P78536|ADA17_HUMAN	19.9	1ESX_A	6BE6_A	3FPU_B	3FPU_A
+sp|P69726|VPR_HV1H2	sp|Q9UBU2|DKK2_HUMAN	19.9	1ESX_A	5O57_A	3FPU_B	3FPU_A
+tr|A3KN74|A3KN74_HUMAN	sp|P04585|POL_HV1H2	19.9	2R37_A	1L6N_A	6CPL_A	2XXM_A
+tr|A3KN74|A3KN74_HUMAN	sp|P04591|GAG_HV1H2	19.9	2R37_A	1L6N_A	6CPL_A	2XXM_A
+sp|P04585|POL_HV1H2	sp|A0A075B6Y9|TJA42_HUMAN	19.8	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|Q5TA78|LCE4A_HUMAN	19.8	1L6N_A	2PIH_B	4CF8_A	4CK1_A
+sp|P04585|POL_HV1H2	sp|Q99445|GML_HUMAN	19.8	1L6N_A	2L03_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9P0W8|SPAT7_HUMAN	19.8	1L6N_A	2YZT_A	6S7X_A	6S7X_B
+sp|P04591|GAG_HV1H2	sp|A0A075B6Y9|TJA42_HUMAN	19.8	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P05919|VPU_HV1H2	sp|A0A1B0GVV1|SIM35_HUMAN	19.8	2N28_A	4Z9I_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|A6PVL3|KNCN_HUMAN	19.8	2N28_A	2KNC_B	2N2A_B	2N2A_B
+sp|P04578|ENV_HV1H2	sp|Q8WUD4|CCD12_HUMAN	19.7	6PWU_E	6F3A_h	5CMZ_A	5CMZ_D
+sp|P04585|POL_HV1H2	sp|A0A0A0MT78|TJB27_HUMAN	19.7	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|P10145|IL8_HUMAN	19.7	1L6N_A	6N2U_A	6ICZ_Z	1D3B_L
+sp|P04591|GAG_HV1H2	sp|A0A0A0MT78|TJB27_HUMAN	19.7	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A286YEY9|SCGR1_HUMAN	19.7	1L6N_A	2X1W_B	2QEX_Z	1VQ8_1
+sp|P04591|GAG_HV1H2	sp|P10145|IL8_HUMAN	19.7	1L6N_A	6N2U_A	6ICZ_Z	1D3B_L
+sp|P69726|VPR_HV1H2	sp|Q9BTM9|URM1_HUMAN	19.7	1ESX_A	4IDI_A	4Z8L_B	4Z8L_F
+sp|P04585|POL_HV1H2	sp|P24592|IBP6_HUMAN	19.6	1L6N_A	2JM2_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9BZS9|YG041_HUMAN	19.6	1L6N_A	2K5C_A	1NUI_A	1NUI_A
+sp|P04585|POL_HV1H2	sp|Q9UI09|NDUAC_HUMAN	19.6	1L6N_A	5XTH_N	6BK8_O	6N7R_Q
+sp|P04591|GAG_HV1H2	sp|O95833|CLIC3_HUMAN	19.6	1L6N_A	3KJY_A	4AYB_N	4AYB_P
+sp|P04591|GAG_HV1H2	sp|P24592|IBP6_HUMAN	19.6	1L6N_A	2JM2_A	5FMF_R	5IP7_L
+sp|P04618|REV_HV1H2	sp|Q8NET5|NFAM1_HUMAN	19.6	2X7L_R	5XSY_B	6CF2_F	5DHY_A
+sp|P05919|VPU_HV1H2	sp|P61578|REC16_HUMAN	19.6	2N28_A	4MKQ_B	2N2A_B	2N2A_B
+sp|P05919|VPU_HV1H2	sp|Q7Z3Z3|PIWL3_HUMAN	19.6	2N28_A	5GUH_A	3LUK_A	3LUK_A
+sp|P05919|VPU_HV1H2	sp|Q7Z3Z4|PIWL4_HUMAN	19.6	2N28_A	5GUH_A	3LUK_A	3LUK_A
+sp|P05919|VPU_HV1H2	sp|Q8TC59|PIWL2_HUMAN	19.6	2N28_A	5GUH_A	3LUK_A	3LUK_A
+sp|P05919|VPU_HV1H2	sp|Q96J94|PIWL1_HUMAN	19.6	2N28_A	5GUH_A	3LUK_A	3LUK_A
+sp|P05919|VPU_HV1H2	sp|Q9BT73|PSMG3_HUMAN	19.6	2N28_A	6JPT_A	3LUK_A	3LUK_A
+sp|P05919|VPU_HV1H2	sp|Q9H9G7|AGO3_HUMAN	19.6	2N28_A	4Z4D_A	3LUK_A	3LUK_A
+sp|P05919|VPU_HV1H2	sp|Q9HCK5|AGO4_HUMAN	19.6	2N28_A	4Z4E_A	3LUK_A	3LUK_A
+sp|P05919|VPU_HV1H2	sp|Q9UKV8|AGO2_HUMAN	19.6	2N28_A	4Z4D_A	3LUK_A	3LUK_A
+sp|P05919|VPU_HV1H2	sp|Q9UL18|AGO1_HUMAN	19.6	2N28_A	4KRF_A	3LUK_A	3LUK_A
+sp|P09430|STP1_HUMAN	sp|P04585|POL_HV1H2	19.6	5FMK_B	1L6N_A	2GOL_A	3GV2_A
+sp|P09430|STP1_HUMAN	sp|P04591|GAG_HV1H2	19.6	5FMK_B	1L6N_A	2GOL_A	3GV2_A
+sp|P04585|POL_HV1H2	sp|A0A0B4J200|TJB23_HUMAN	19.5	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|O95561|CA105_HUMAN	19.5	1L6N_A	3SLC_A	5CZ2_E	5CZ2_K
+sp|P04585|POL_HV1H2	tr|A0A075B6W9|A0A075B6W9_HUMAN	19.5	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0B4J200|TJB23_HUMAN	19.5	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q9Y691|KCMB2_HUMAN	19.5	1L6N_A	6V22_H	6SW9_8	5JB3_Y
+sp|P04591|GAG_HV1H2	tr|A0A075B6W9|A0A075B6W9_HUMAN	19.5	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04601|NEF_HV1H2	sp|Q9NXJ5|PGPI_HUMAN	19.5	3TB8_A	1IU8_A	4ORZ_B	5MZV_D
+sp|P05919|VPU_HV1H2	sp|P40305|IFI27_HUMAN	19.5	2N28_A	2LOQ_A	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|Q9Y6C7|L3R2A_HUMAN	19.5	2N28_A	2N2A_B	2N2A_B	2N2A_B
+sp|P04585|POL_HV1H2	sp|O60384|ZN861_HUMAN	19.4	1L6N_A	2EN3_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|P17096|HMGA1_HUMAN	19.4	1L6N_A	1UB1_A	6BK8_O	5YLZ_T
+sp|P04585|POL_HV1H2	tr|A0A0J9YVP2|A0A0J9YVP2_HUMAN	19.4	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P17096|HMGA1_HUMAN	19.4	1L6N_A	1UB1_A	6BK8_O	5YLZ_T
+sp|P04591|GAG_HV1H2	sp|Q8WZA8|GC224_HUMAN	19.4	1L6N_A	3Q8J_A	6GAP_C	6GAP_A
+sp|P04591|GAG_HV1H2	tr|A0A0J9YVP2|A0A0J9YVP2_HUMAN	19.4	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P58513|CU042_HUMAN	sp|P04608|TAT_HV1H2	19.4	1HTR_P	3MI9_C	6CYT_C	4OGR_D
+sp|P04608|TAT_HV1H2	sp|Q08E93|F27E3_HUMAN	19.4	3MI9_C	6MK1_C	4OGR_D	4IMY_H
+sp|P04608|TAT_HV1H2	tr|A0A494C193|A0A494C193_HUMAN	19.4	3MI9_C	6MK1_C	4OGR_D	4IMY_H
+sp|P05919|VPU_HV1H2	sp|Q9UBR5|CKLF_HUMAN	19.4	2N28_A	6N2Z_b	2N2A_B	2N2A_B
+sp|Q9BYS1|KRA15_HUMAN	sp|P04608|TAT_HV1H2	19.4	4EDJ_A	3MI9_C	4OR5_C	4OGR_D
+sp|P04585|POL_HV1H2	sp|Q9NYG5|APC11_HUMAN	19.3	1L6N_A	6Q6H_C	1WJC_A	1WJC_A
+sp|P04591|GAG_HV1H2	sp|P30542|AA1R_HUMAN	19.3	1L6N_A	5UEN_B	4AYB_N	4AYB_P
+sp|P04591|GAG_HV1H2	sp|Q156A1|ATX8_HUMAN	19.3	1L6N_A	6T9I_I	5IY6_L	5IYB_P
+sp|P04591|GAG_HV1H2	sp|Q7L5A3|F214B_HUMAN	19.3	1L6N_A	1UVQ_C	2QEX_Z	3OW2_G
+sp|Q9NZF1|PLAC8_HUMAN	sp|P04591|GAG_HV1H2	19.3	3JB9_U	1L6N_A	6GMH_L	5FMF_J
+sp|P04585|POL_HV1H2	sp|P23763|VAMP1_HUMAN	19.2	1L6N_A	2KOG_A	3F9K_Y	3F9K_Y
+sp|P04585|POL_HV1H2	sp|Q9UJC5|SH3L2_HUMAN	19.2	1L6N_A	2CT6_A	6TAQ_A	6TAU_A
+sp|P04591|GAG_HV1H2	sp|Q9UHP7|CLC2D_HUMAN	19.2	1L6N_A	4WCO_A	6SW9_8	5JB3_Y
+sp|P04591|GAG_HV1H2	sp|Q9UJC5|SH3L2_HUMAN	19.2	1L6N_A	2CT6_A	6TAQ_A	6TAU_A
+sp|P04601|NEF_HV1H2	sp|Q69YU5|BWNIN_HUMAN	19.2	3TB8_A	5MC7_A	6OWT_N	6QH7_S
+sp|P05919|VPU_HV1H2	sp|A0A1B0GW54|SIM39_HUMAN	19.2	2N28_A	6KAC_v	2KNC_B	2KNC_A
+sp|P05919|VPU_HV1H2	sp|P0C2S0|CTXN2_HUMAN	19.2	2N28_A	6UIW_H	2L6W_A	2L6W_A
+sp|P04585|POL_HV1H2	tr|A0A075B6U8|A0A075B6U8_HUMAN	19.1	1L6N_A	6GJS_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A096LPG2|A0A096LPG2_HUMAN	19.1	1L6N_A	2KK2_A	6BK8_O	6J6G_T
+sp|P04591|GAG_HV1H2	sp|A6NKX1|F223B_HUMAN	19.1	1L6N_A	5HL7_W	5HL7_Z	5HL7_W
+sp|P04591|GAG_HV1H2	sp|Q8NCL8|TM116_HUMAN	19.1	1L6N_A	5TZR_A	4AYB_N	4AYB_P
+sp|P04591|GAG_HV1H2	tr|A0A075B6U8|A0A075B6U8_HUMAN	19.1	1L6N_A	6GJS_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A096LPG2|A0A096LPG2_HUMAN	19.1	1L6N_A	2KK2_A	6BK8_O	6J6G_T
+sp|P04578|ENV_HV1H2	sp|Q9Y258|CCL26_HUMAN	19.0	6PWU_E	6N2U_A	3J70_P	4Q6I_J
+sp|P04585|POL_HV1H2	sp|P81534|D103A_HUMAN	19.0	1L6N_A	1KJ6_A	2XT1_A	6FPV_A
+sp|A1L3X4|MT1DP_HUMAN	sp|P04591|GAG_HV1H2	19.0	4MT2_A	1L6N_A	3H0G_L	5FMF_J
+sp|P04591|GAG_HV1H2	sp|P81534|D103A_HUMAN	19.0	1L6N_A	1KJ6_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q5HYJ1|TECRL_HUMAN	19.0	1L6N_A	5V7P_A	5UDH_B	3LDZ_E
+sp|P04591|GAG_HV1H2	sp|Q8IWN6|F223A_HUMAN	19.0	1L6N_A	5HL7_W	5HL7_Z	5HL7_W
+sp|P04591|GAG_HV1H2	sp|Q8NCL9|APCDL_HUMAN	19.0	1L6N_A	2M6P_A	2Y0S_X	2Y0S_X
+sp|P04618|REV_HV1H2	sp|A0A1B0GVH4|PRS51_HUMAN	19.0	2X7L_R	3NXP_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|A1L453|PRS38_HUMAN	19.0	2X7L_R	3NXP_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|A4D1T9|PRS37_HUMAN	19.0	2X7L_R	5MNH_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|A6NIE9|PRS29_HUMAN	19.0	2X7L_R	2B9L_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|A8MTI9|PRS47_HUMAN	19.0	2X7L_R	2B9L_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|E5RG02|PRS46_HUMAN	19.0	2X7L_R	2B9L_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|O00187|MASP2_HUMAN	19.0	2X7L_R	1ZJK_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|O15393|TMPS2_HUMAN	19.0	2X7L_R	1Z8G_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|O43240|KLK10_HUMAN	19.0	2X7L_R	5LPE_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|O43464|HTRA2_HUMAN	19.0	2X7L_R	5M3N_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|O60235|TM11D_HUMAN	19.0	2X7L_R	4BXW_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|O60259|KLK8_HUMAN	19.0	2X7L_R	6SKB_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|O95084|PRS23_HUMAN	19.0	2X7L_R	6PYM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P00734|THRB_HUMAN	19.0	2X7L_R	6BJR_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P00736|C1R_HUMAN	19.0	2X7L_R	1MD8_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P00738|HPT_HUMAN	19.0	2X7L_R	4WJG_R	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P00739|HPTR_HUMAN	19.0	2X7L_R	4WJG_R	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P00740|FA9_HUMAN	19.0	2X7L_R	4BXW_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P00742|FA10_HUMAN	19.0	2X7L_R	4BXW_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P00746|CFAD_HUMAN	19.0	2X7L_R	2XW9_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P00747|PLMN_HUMAN	19.0	2X7L_R	4A5T_S	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P00748|FA12_HUMAN	19.0	2X7L_R	3NXP_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P00749|UROK_HUMAN	19.0	2X7L_R	5EDM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P00750|TPA_HUMAN	19.0	2X7L_R	5EDM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P00751|CFAB_HUMAN	19.0	2X7L_R	3HRZ_D	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P03951|FA11_HUMAN	19.0	2X7L_R	6I58_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P03952|KLKB1_HUMAN	19.0	2X7L_R	6I44_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P04070|PROC_HUMAN	19.0	2X7L_R	4BXW_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P05156|CFAI_HUMAN	19.0	2X7L_R	2XRC_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P05981|HEPS_HUMAN	19.0	2X7L_R	1Z8G_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P06681|CO2_HUMAN	19.0	2X7L_R	2XWB_F	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P06870|KLK1_HUMAN	19.0	2X7L_R	1SPJ_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P07288|KLK3_HUMAN	19.0	2X7L_R	2ZCK_P	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P07477|TRY1_HUMAN	19.0	2X7L_R	5EDM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P07478|TRY2_HUMAN	19.0	2X7L_R	5EDM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P08217|CEL2A_HUMAN	19.0	2X7L_R	2B9L_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P08218|CEL2B_HUMAN	19.0	2X7L_R	2B9L_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P08246|ELNE_HUMAN	19.0	2X7L_R	4WVP_E	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P08311|CATG_HUMAN	19.0	2X7L_R	1AU8_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P08519|APOA_HUMAN	19.0	2X7L_R	4DUR_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P08709|FA7_HUMAN	19.0	2X7L_R	4BXW_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P08861|CEL3B_HUMAN	19.0	2X7L_R	1PYT_C	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P09093|CEL3A_HUMAN	19.0	2X7L_R	1PYT_C	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P09871|C1S_HUMAN	19.0	2X7L_R	4J1Y_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P0CW18|PRS56_HUMAN	19.0	2X7L_R	2B9L_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P10144|GRAB_HUMAN	19.0	2X7L_R	1IAU_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P10323|ACRO_HUMAN	19.0	2X7L_R	5EDM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P12544|GRAA_HUMAN	19.0	2X7L_R	1OP8_C	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P14210|HGF_HUMAN	19.0	2X7L_R	4DUR_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P17538|CTRB1_HUMAN	19.0	2X7L_R	4BXW_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P20151|KLK2_HUMAN	19.0	2X7L_R	2ZCK_P	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P20160|CAP7_HUMAN	19.0	2X7L_R	1FY1_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P20231|TRYB2_HUMAN	19.0	2X7L_R	6P0P_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P20718|GRAH_HUMAN	19.0	2X7L_R	3TJV_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P22891|PROZ_HUMAN	19.0	2X7L_R	3H5C_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P23946|CMA1_HUMAN	19.0	2X7L_R	2RDL_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P24158|PRTN3_HUMAN	19.0	2X7L_R	1FUJ_C	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P26927|HGFL_HUMAN	19.0	2X7L_R	4DUR_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P35030|TRY3_HUMAN	19.0	2X7L_R	5EDM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P40313|CTRL_HUMAN	19.0	2X7L_R	4BXW_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P48740|MASP1_HUMAN	19.0	2X7L_R	4IGD_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P49862|KLK7_HUMAN	19.0	2X7L_R	6SJU_E	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P49863|GRAK_HUMAN	19.0	2X7L_R	1MZA_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P51124|GRAM_HUMAN	19.0	2X7L_R	2ZGH_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P56730|NETR_HUMAN	19.0	2X7L_R	2XRC_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P57727|TMPS3_HUMAN	19.0	2X7L_R	1Z8G_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P83105|HTRA4_HUMAN	19.0	2X7L_R	3NUM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P83110|HTRA3_HUMAN	19.0	2X7L_R	4RI0_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|P98073|ENTK_HUMAN	19.0	2X7L_R	2XRC_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q04756|HGFA_HUMAN	19.0	2X7L_R	5EDM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q14520|HABP2_HUMAN	19.0	2X7L_R	5EDM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q15661|TRYB1_HUMAN	19.0	2X7L_R	6P0P_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q16651|PRSS8_HUMAN	19.0	2X7L_R	5EDM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q16850|CP51A_HUMAN	19.0	2X7L_R	4UHL_F	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q2L4Q9|PRS53_HUMAN	19.0	2X7L_R	2B9L_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q2T9J0|TYSD1_HUMAN	19.0	2X7L_R	3FAO_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q2TV78|MST1L_HUMAN	19.0	2X7L_R	4DUR_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q5K4E3|POLS2_HUMAN	19.0	2X7L_R	2B9L_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q6GPI1|CTRB2_HUMAN	19.0	2X7L_R	4BXW_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q6PEW0|PRS54_HUMAN	19.0	2X7L_R	1ELT_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q6SJ93|F111B_HUMAN	19.0	2X7L_R	1LVM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q6UWB4|PRS55_HUMAN	19.0	2X7L_R	5EDM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q6UWY2|PRS57_HUMAN	19.0	2X7L_R	4Q7Z_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q6UXH9|PAMR1_HUMAN	19.0	2X7L_R	1ZJK_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q6ZMR5|TM11A_HUMAN	19.0	2X7L_R	5EDM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q6ZWK6|TM11F_HUMAN	19.0	2X7L_R	4BXW_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q7RTY3|PRS45_HUMAN	19.0	2X7L_R	3F1S_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q7RTY5|PRS48_HUMAN	19.0	2X7L_R	1MD8_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q7RTY7|OVCH1_HUMAN	19.0	2X7L_R	5EDM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q7RTY8|TMPS7_HUMAN	19.0	2X7L_R	2XRC_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q7RTY9|PRS41_HUMAN	19.0	2X7L_R	2B9L_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q7RTZ1|OVCH2_HUMAN	19.0	2X7L_R	5EDM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q7Z410|TMPS9_HUMAN	19.0	2X7L_R	2XRC_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q7Z5A4|PRS42_HUMAN	19.0	2X7L_R	3NXP_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q86T26|TM11B_HUMAN	19.0	2X7L_R	5EDM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q86WS5|TMPSC_HUMAN	19.0	2X7L_R	2B9L_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q8IU80|TMPS6_HUMAN	19.0	2X7L_R	2XRC_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q8IYP2|PRS58_HUMAN	19.0	2X7L_R	6BJR_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q8N3Z0|PRS35_HUMAN	19.0	2X7L_R	1WCZ_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q8NF86|PRS33_HUMAN	19.0	2X7L_R	5EDM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q8NHM4|TRY6_HUMAN	19.0	2X7L_R	5EDM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q92743|HTRA1_HUMAN	19.0	2X7L_R	3NUM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q92876|KLK6_HUMAN	19.0	2X7L_R	6SKB_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q96PZ2|F111A_HUMAN	19.0	2X7L_R	1LVM_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q99895|CTRC_HUMAN	19.0	2X7L_R	1MD8_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9BQR3|PRS27_HUMAN	19.0	2X7L_R	1MD8_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9BYE2|TMPSD_HUMAN	19.0	2X7L_R	1Z8G_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9BZJ3|TRYD_HUMAN	19.0	2X7L_R	6P0P_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9GZN4|BSSP4_HUMAN	19.0	2X7L_R	1MD8_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9H2R5|KLK15_HUMAN	19.0	2X7L_R	6SKB_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9H3S3|TMPS5_HUMAN	19.0	2X7L_R	1Z8G_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9NRR2|TRYG1_HUMAN	19.0	2X7L_R	2B9L_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9NRS4|TMPS4_HUMAN	19.0	2X7L_R	1Z8G_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9NZP8|C1RL_HUMAN	19.0	2X7L_R	1MD8_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9P0G3|KLK14_HUMAN	19.0	2X7L_R	6SKB_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9UBX7|KLK11_HUMAN	19.0	2X7L_R	6SKB_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9UI38|TSP50_HUMAN	19.0	2X7L_R	3F1S_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9UKQ9|KLK9_HUMAN	19.0	2X7L_R	6SKB_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9UKR0|KLK12_HUMAN	19.0	2X7L_R	6SKB_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9UKR3|KLK13_HUMAN	19.0	2X7L_R	6SKB_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9UL52|TM11E_HUMAN	19.0	2X7L_R	1MD8_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9UNI1|CELA1_HUMAN	19.0	2X7L_R	3MU4_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9Y337|KLK5_HUMAN	19.0	2X7L_R	6SKB_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9Y5K2|KLK4_HUMAN	19.0	2X7L_R	6KBR_A	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9Y5Q5|CORIN_HUMAN	19.0	2X7L_R	2XRC_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9Y5Y6|ST14_HUMAN	19.0	2X7L_R	2XRC_B	1P57_A	1O5F_H
+sp|P04618|REV_HV1H2	sp|Q9Y6M0|TEST_HUMAN	19.0	2X7L_R	1MD8_A	1P57_A	1O5F_H
+sp|P69726|VPR_HV1H2	sp|Q9Y676|RT18B_HUMAN	19.0	1ESX_A	6RW4_O	1PFN_A	1PFN_A
+sp|P04585|POL_HV1H2	sp|P09234|RU1C_HUMAN	18.9	1L6N_A	6QX9_1	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q96B54|ZN428_HUMAN	18.9	1L6N_A	6LTH_R	5FMF_R	5IP7_L
+sp|P05919|VPU_HV1H2	tr|A0A1W2PQU2|A0A1W2PQU2_HUMAN	18.9	2N28_A	5OEK_A	6CFW_I	6CFW_D
+sp|P04585|POL_HV1H2	sp|A6NMZ2|SNTAN_HUMAN	18.8	1L6N_A	3NXA_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	sp|O15544|GR6_HUMAN	18.8	1L6N_A	1S72_Z	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9BR46|SCAS1_HUMAN	18.8	1L6N_A	2ZWI_A	1WJC_A	1WJC_A
+sp|P04591|GAG_HV1H2	sp|A6NMZ2|SNTAN_HUMAN	18.8	1L6N_A	3NXA_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|P0CG20|PRR35_HUMAN	18.8	1L6N_A	5AAZ_A	6SW9_8	6SW9_C
+sp|A0A1B0GUT2|CJ143_HUMAN	sp|P04585|POL_HV1H2	18.8	4KQD_D	1L6N_A	6TAS_D	6TAS_F
+sp|Q9H9H5|MA6D1_HUMAN	sp|P05919|VPU_HV1H2	18.8	3NSW_D	2N28_A	5EH4_C	1AFO_A
+sp|P04585|POL_HV1H2	tr|A0A075B6U7|A0A075B6U7_HUMAN	18.7	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A5F9ZHS0|A0A5F9ZHS0_HUMAN	18.7	1L6N_A	1JW9_B	6TAS_D	6TAS_F
+sp|P04591|GAG_HV1H2	tr|A0A075B6U7|A0A075B6U7_HUMAN	18.7	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A5F9ZHS0|A0A5F9ZHS0_HUMAN	18.7	1L6N_A	1JW9_B	6TAS_D	6TAS_F
+sp|P05919|VPU_HV1H2	sp|P0DN84|DWORF_HUMAN	18.7	2N28_A	2KV5_A	5UN1_F	5UN1_G
+sp|P05919|VPU_HV1H2	sp|Q4LDR2|CTXN3_HUMAN	18.7	2N28_A	4Z7A_A	2L6W_A	2L6W_A
+sp|P69726|VPR_HV1H2	tr|A0A075B6X0|A0A075B6X0_HUMAN	18.7	1ESX_A	3ZHK_A	5JK7_F	3FCI_A
+sp|Q7RTS9|DYM_HUMAN	sp|P04578|ENV_HV1H2	18.7	2LBF_A	6PWU_E	6NM6_V	6MTJ_B
+tr|A0A075B7E0|A0A075B7E0_HUMAN	sp|P04591|GAG_HV1H2	18.7	6B9O_B	1L6N_A	6O9L_1	5FMF_J
+sp|P04585|POL_HV1H2	sp|P47224|MSS4_HUMAN	18.6	1L6N_A	1HXR_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q96KR6|F210B_HUMAN	18.6	1L6N_A	2CQ4_A	6ICZ_Z	2CQB_A
+sp|P04585|POL_HV1H2	tr|A0A075B6X9|A0A075B6X9_HUMAN	18.6	1L6N_A	5FOJ_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A075B6Y1|A0A075B6Y1_HUMAN	18.6	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q96KR6|F210B_HUMAN	18.6	1L6N_A	2CQ4_A	6ICZ_Z	2CQB_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6X9|A0A075B6X9_HUMAN	18.6	1L6N_A	5FOJ_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6Y1|A0A075B6Y1_HUMAN	18.6	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+tr|A0A0A0MT93|A0A0A0MT93_HUMAN	sp|P04578|ENV_HV1H2	18.5	6APO_A	6PWU_E	6NNF_U	6B0N_G
+sp|P04585|POL_HV1H2	sp|Q15836|VAMP3_HUMAN	18.5	1L6N_A	3HD7_A	3F9K_Y	3F9K_Y
+sp|P04585|POL_HV1H2	tr|A0A075B6Z8|A0A075B6Z8_HUMAN	18.5	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|O14618|CCS_HUMAN	18.5	1L6N_A	6FP6_F	4QIW_N	4QIW_P
+sp|P04591|GAG_HV1H2	tr|A0A075B6Z8|A0A075B6Z8_HUMAN	18.5	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P05919|VPU_HV1H2	tr|A0A669KAW2|A0A669KAW2_HUMAN	18.5	2N28_A	2MJ2_A	6C14_A	6C14_A
+sp|Q6YI46|TMM64_HUMAN	sp|P04578|ENV_HV1H2	18.5	5N9Y_C	6PWU_E	6NM6_V	6MTJ_B
+tr|A0A075B6Z1|A0A075B6Z1_HUMAN	sp|P04578|ENV_HV1H2	18.4	5OVW_L	6PWU_E	6VLR_E	4TVP_G
+tr|A0A0J9YVS3|A0A0J9YVS3_HUMAN	sp|P04578|ENV_HV1H2	18.4	5FOJ_A	6PWU_E	6NIJ_H	3J70_P
+sp|P04585|POL_HV1H2	sp|P0DKL9|A14EL_HUMAN	18.4	1L6N_A	1ZLG_A	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q5DT21|ISK9_HUMAN	18.4	1L6N_A	1Z7K_B	2BX9_C	2ZP8_F
+sp|P04585|POL_HV1H2	sp|Q99584|S10AD_HUMAN	18.4	1L6N_A	2EGD_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	sp|A6NC86|PINLY_HUMAN	18.4	1L6N_A	4K24_U	4AYB_N	4AYB_P
+sp|P04591|GAG_HV1H2	sp|Q52M75|CE027_HUMAN	18.4	1L6N_A	2LIC_A	2QEX_Z	1VQ8_2
+sp|P04591|GAG_HV1H2	sp|Q99584|S10AD_HUMAN	18.4	1L6N_A	2EGD_A	2MGU_M	5DOW_A
+sp|A3KFT3|OR2M5_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|A4D2G3|O2A25_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NCV1|O6C74_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6ND48|O14I1_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NDH6|O5H15_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NDL8|O6C68_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NET4|OR5K3_HUMAN	sp|P05919|VPU_HV1H2	18.4	4YAY_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NF89|OR6C6_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NFC9|OR2W5_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NGY5|O51F1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6IGK_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NH00|OR2T8_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NHA9|O4C46_HUMAN	sp|P05919|VPU_HV1H2	18.4	6LW5_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NHG9|O5H14_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NIJ9|O6C70_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NJZ3|O6C65_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NKK0|OR5H1_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NL08|O6C75_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NL26|OR5BL_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NM03|O2AG2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NM76|O6C76_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NMS3|OR5K4_HUMAN	sp|P05919|VPU_HV1H2	18.4	6RZ5_B	2N28_A	6B3J_R	1JRJ_A
+sp|A6NMU1|O52A4_HUMAN	sp|P05919|VPU_HV1H2	18.4	6D27_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NMZ5|O4C45_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKQ_A	2N28_A	6B3J_R	1JRJ_A
+sp|A6NND4|O2AT4_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|B2RN74|O11HC_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|O00144|FZD9_HUMAN	sp|P05919|VPU_HV1H2	18.4	5V56_A	2N28_A	6B3J_R	1JRJ_A
+sp|O00155|GPR25_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|O00254|PAR3_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|O00270|GPR31_HUMAN	sp|P05919|VPU_HV1H2	18.4	5NJ6_A	2N28_A	6B3J_R	1JRJ_A
+sp|O00398|P2Y10_HUMAN	sp|P05919|VPU_HV1H2	18.4	5XSZ_A	2N28_A	6B3J_R	1JRJ_A
+sp|O00421|CCRL2_HUMAN	sp|P05919|VPU_HV1H2	18.4	5T1A_A	2N28_A	6B3J_R	1JRJ_A
+sp|O00574|CXCR6_HUMAN	sp|P05919|VPU_HV1H2	18.4	5NJ6_A	2N28_A	6B3J_R	1JRJ_A
+sp|O00590|ACKR2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6OS2_A	2N28_A	6B3J_R	1JRJ_A
+sp|O14581|OR7AH_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|O14626|GP171_HUMAN	sp|P05919|VPU_HV1H2	18.4	4PXZ_A	2N28_A	6B3J_R	1JRJ_A
+sp|O14718|OPSX_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZHP_A	2N28_A	6B3J_R	1JRJ_A
+sp|O14804|TAAR5_HUMAN	sp|P05919|VPU_HV1H2	18.4	5DSG_B	2N28_A	6B3J_R	1JRJ_A
+sp|O14842|FFAR1_HUMAN	sp|P05919|VPU_HV1H2	18.4	5TZR_A	2N28_A	6B3J_R	1JRJ_A
+sp|O14843|FFAR3_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKP_A	2N28_A	6B3J_R	1JRJ_A
+sp|O15218|GP182_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|O15354|GPR37_HUMAN	sp|P05919|VPU_HV1H2	18.4	6LW5_A	2N28_A	6B3J_R	1JRJ_A
+sp|O15529|GPR42_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKP_A	2N28_A	6B3J_R	1JRJ_A
+sp|O15552|FFAR2_HUMAN	sp|P05919|VPU_HV1H2	18.4	5NJ6_A	2N28_A	6B3J_R	1JRJ_A
+sp|O43194|GPR39_HUMAN	sp|P05919|VPU_HV1H2	18.4	5T04_A	2N28_A	6B3J_R	1JRJ_A
+sp|O43603|GALR2_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|O43613|OX1R_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZJC_A	2N28_A	6B3J_R	1JRJ_A
+sp|O43614|OX2R_HUMAN	sp|P05919|VPU_HV1H2	18.4	5WQC_A	2N28_A	6B3J_R	1JRJ_A
+sp|O43749|OR1F1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|O43869|OR2T1_HUMAN	sp|P05919|VPU_HV1H2	18.4	5YC8_A	2N28_A	6B3J_R	1JRJ_A
+sp|O60241|AGRB2_HUMAN	sp|P05919|VPU_HV1H2	18.4	4DLO_B	2N28_A	6B3J_R	1JRJ_A
+sp|O60242|AGRB3_HUMAN	sp|P05919|VPU_HV1H2	18.4	4DLO_B	2N28_A	6B3J_R	1JRJ_A
+sp|O60353|FZD6_HUMAN	sp|P05919|VPU_HV1H2	18.4	5V56_A	2N28_A	6B3J_R	1JRJ_A
+sp|O60403|O10H2_HUMAN	sp|P05919|VPU_HV1H2	18.4	5VBL_B	2N28_A	6B3J_R	1JRJ_A
+sp|O60404|O10H3_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|O60412|OR7C2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|O60431|OR1I1_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|O60755|GALR3_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKQ_A	2N28_A	6B3J_R	1JRJ_A
+sp|O60883|G37L1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6LW5_A	2N28_A	6B3J_R	1JRJ_A
+sp|O75084|FZD7_HUMAN	sp|P05919|VPU_HV1H2	18.4	5V56_A	2N28_A	6B3J_R	1JRJ_A
+sp|O75388|GPR32_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKP_A	2N28_A	6B3J_R	1JRJ_A
+sp|O76000|OR2B3_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|O76001|OR2J3_HUMAN	sp|P05919|VPU_HV1H2	18.4	6OS2_A	2N28_A	6B3J_R	1JRJ_A
+sp|O76002|OR2J2_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|O76099|OR7C1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4YAY_A	2N28_A	6B3J_R	1JRJ_A
+sp|O76100|OR7AA_HUMAN	sp|P05919|VPU_HV1H2	18.4	4YAY_A	2N28_A	6B3J_R	1JRJ_A
+sp|O95006|OR2F2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|O95007|OR6B1_HUMAN	sp|P05919|VPU_HV1H2	18.4	5OLZ_A	2N28_A	6B3J_R	1JRJ_A
+sp|O95013|O4F21_HUMAN	sp|P05919|VPU_HV1H2	18.4	5OLZ_A	2N28_A	6B3J_R	1JRJ_A
+sp|O95047|OR2A4_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|O95136|S1PR2_HUMAN	sp|P05919|VPU_HV1H2	18.4	3V2Y_A	2N28_A	6B3J_R	1JRJ_A
+sp|O95221|OR5F1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|O95222|OR6A2_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|O95371|OR2C1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|O95665|NTR2_HUMAN	sp|P05919|VPU_HV1H2	18.4	5T04_A	2N28_A	6B3J_R	1JRJ_A
+sp|O95800|GPR75_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKQ_A	2N28_A	6B3J_R	1JRJ_A
+sp|O95838|GLP2R_HUMAN	sp|P05919|VPU_HV1H2	18.4	6WHC_R	2N28_A	6B3J_R	1JRJ_A
+sp|O95918|OR2H2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|O95977|S1PR4_HUMAN	sp|P05919|VPU_HV1H2	18.4	4Z35_A	2N28_A	6B3J_R	1JRJ_A
+sp|P03999|OPSB_HUMAN	sp|P05919|VPU_HV1H2	18.4	2G87_A	2N28_A	6B3J_R	1JRJ_A
+sp|P04000|OPSR_HUMAN	sp|P05919|VPU_HV1H2	18.4	1U19_A	2N28_A	6B3J_R	1JRJ_A
+sp|P04001|OPSG_HUMAN	sp|P05919|VPU_HV1H2	18.4	2G87_A	2N28_A	6B3J_R	1JRJ_A
+sp|P04201|MAS_HUMAN	sp|P05919|VPU_HV1H2	18.4	6D26_A	2N28_A	6B3J_R	1JRJ_A
+sp|P08100|OPSD_HUMAN	sp|P05919|VPU_HV1H2	18.4	1U19_A	2N28_A	6B3J_R	1JRJ_A
+sp|P08172|ACM2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6U1N_R	2N28_A	6B3J_R	1JRJ_A
+sp|P08908|5HT1A_HUMAN	sp|P05919|VPU_HV1H2	18.4	5V54_B	2N28_A	6B3J_R	1JRJ_A
+sp|P08912|ACM5_HUMAN	sp|P05919|VPU_HV1H2	18.4	6OL9_A	2N28_A	6B3J_R	1JRJ_A
+sp|P08913|ADA2A_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0C604|OR4A8_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0C617|O5AL1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4YAY_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0C623|OR4Q2_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0C626|OR5G3_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0C628|O5AC1_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0C629|O10J4_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0C645|OR4E1_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKQ_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0C646|O52Z1_HUMAN	sp|P05919|VPU_HV1H2	18.4	5WIV_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0C7N1|OR8U8_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0C7N5|OR8U9_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0C7N8|OR9G9_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0C7T2|OR2T7_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0C7T3|O56A5_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0DMS8|AA3R_HUMAN	sp|P05919|VPU_HV1H2	18.4	5UEN_B	2N28_A	6B3J_R	1JRJ_A
+sp|P0DMU2|OR83P_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0DN77|OPSG2_HUMAN	sp|P05919|VPU_HV1H2	18.4	1U19_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0DN78|OPSG3_HUMAN	sp|P05919|VPU_HV1H2	18.4	2G87_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0DN80|OR5H8_HUMAN	sp|P05919|VPU_HV1H2	18.4	4YAY_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0DN81|O13C7_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0DN82|O12D1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0DQD5|NPY42_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZBH_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0DSN6|T2R33_HUMAN	sp|P05919|VPU_HV1H2	18.4	4GRV_A	2N28_A	6B3J_R	1JRJ_A
+sp|P0DTE0|T2R36_HUMAN	sp|P05919|VPU_HV1H2	18.4	6OSA_R	2N28_A	6B3J_R	1JRJ_A
+sp|P11229|ACM1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4U14_A	2N28_A	6B3J_R	1JRJ_A
+sp|P13945|ADRB3_HUMAN	sp|P05919|VPU_HV1H2	18.4	6A93_A	2N28_A	6B3J_R	1JRJ_A
+sp|P14416|DRD2_HUMAN	sp|P05919|VPU_HV1H2	18.4	3PBL_A	2N28_A	6B3J_R	1JRJ_A
+sp|P16473|TSHR_HUMAN	sp|P05919|VPU_HV1H2	18.4	4MQW_X	2N28_A	6B3J_R	1JRJ_A
+sp|P18089|ADA2B_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|P18825|ADA2C_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUW_A	2N28_A	6B3J_R	1JRJ_A
+sp|P20309|ACM3_HUMAN	sp|P05919|VPU_HV1H2	18.4	4U14_A	2N28_A	6B3J_R	1JRJ_A
+sp|P21452|NK2R_HUMAN	sp|P05919|VPU_HV1H2	18.4	6J21_A	2N28_A	6B3J_R	1JRJ_A
+sp|P21453|S1PR1_HUMAN	sp|P05919|VPU_HV1H2	18.4	3V2Y_A	2N28_A	6B3J_R	1JRJ_A
+sp|P21462|FPR1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6OMM_R	2N28_A	6B3J_R	1JRJ_A
+sp|P21554|CNR1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6N4B_R	2N28_A	6B3J_R	1JRJ_A
+sp|P21728|DRD1_HUMAN	sp|P05919|VPU_HV1H2	18.4	5YC8_A	2N28_A	6B3J_R	1JRJ_A
+sp|P21730|C5AR1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6C1R_B	2N28_A	6B3J_R	1JRJ_A
+sp|P21731|TA2R_HUMAN	sp|P05919|VPU_HV1H2	18.4	6IIU_A	2N28_A	6B3J_R	1JRJ_A
+sp|P21918|DRD5_HUMAN	sp|P05919|VPU_HV1H2	18.4	4U14_A	2N28_A	6B3J_R	1JRJ_A
+sp|P22888|LSHR_HUMAN	sp|P05919|VPU_HV1H2	18.4	4MQW_X	2N28_A	6B3J_R	1JRJ_A
+sp|P23945|FSHR_HUMAN	sp|P05919|VPU_HV1H2	18.4	4AY9_Y	2N28_A	6B3J_R	1JRJ_A
+sp|P24530|EDNRB_HUMAN	sp|P05919|VPU_HV1H2	18.4	6IGK_A	2N28_A	6B3J_R	1JRJ_A
+sp|P25021|HRH2_HUMAN	sp|P05919|VPU_HV1H2	18.4	5X33_A	2N28_A	6B3J_R	1JRJ_A
+sp|P25024|CXCR1_HUMAN	sp|P05919|VPU_HV1H2	18.4	2LNL_A	2N28_A	6B3J_R	1JRJ_A
+sp|P25025|CXCR2_HUMAN	sp|P05919|VPU_HV1H2	18.4	3ODU_B	2N28_A	6B3J_R	1JRJ_A
+sp|P25089|FPR3_HUMAN	sp|P05919|VPU_HV1H2	18.4	6OMM_R	2N28_A	6B3J_R	1JRJ_A
+sp|P25090|FPR2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6OMM_R	2N28_A	6B3J_R	1JRJ_A
+sp|P25101|EDNRA_HUMAN	sp|P05919|VPU_HV1H2	18.4	6IGK_A	2N28_A	6B3J_R	1JRJ_A
+sp|P25103|NK1R_HUMAN	sp|P05919|VPU_HV1H2	18.4	6HLP_A	2N28_A	6B3J_R	1JRJ_A
+sp|P25105|PTAFR_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKP_A	2N28_A	6B3J_R	1JRJ_A
+sp|P25106|ACKR3_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|P25116|PAR1_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|P25929|NPY1R_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZBH_A	2N28_A	6B3J_R	1JRJ_A
+sp|P28221|5HT1D_HUMAN	sp|P05919|VPU_HV1H2	18.4	4IAQ_A	2N28_A	6B3J_R	1JRJ_A
+sp|P28222|5HT1B_HUMAN	sp|P05919|VPU_HV1H2	18.4	4IAR_A	2N28_A	6B3J_R	1JRJ_A
+sp|P28223|5HT2A_HUMAN	sp|P05919|VPU_HV1H2	18.4	6A94_A	2N28_A	6B3J_R	1JRJ_A
+sp|P28335|5HT2C_HUMAN	sp|P05919|VPU_HV1H2	18.4	6A93_A	2N28_A	6B3J_R	1JRJ_A
+sp|P28336|NMBR_HUMAN	sp|P05919|VPU_HV1H2	18.4	6IGK_A	2N28_A	6B3J_R	1JRJ_A
+sp|P28566|5HT1E_HUMAN	sp|P05919|VPU_HV1H2	18.4	4IAR_A	2N28_A	6B3J_R	1JRJ_A
+sp|P29274|AA2AR_HUMAN	sp|P05919|VPU_HV1H2	18.4	5OLZ_A	2N28_A	6B3J_R	1JRJ_A
+sp|P29275|AA2BR_HUMAN	sp|P05919|VPU_HV1H2	18.4	5NM4_A	2N28_A	6B3J_R	1JRJ_A
+sp|P29371|NK3R_HUMAN	sp|P05919|VPU_HV1H2	18.4	6J21_A	2N28_A	6B3J_R	1JRJ_A
+sp|P30411|BKRB2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6OS1_A	2N28_A	6B3J_R	1JRJ_A
+sp|P30518|V2R_HUMAN	sp|P05919|VPU_HV1H2	18.4	6U1N_R	2N28_A	6B3J_R	1JRJ_A
+sp|P30542|AA1R_HUMAN	sp|P05919|VPU_HV1H2	18.4	5UEN_B	2N28_A	6B3J_R	1JRJ_A
+sp|P30550|GRPR_HUMAN	sp|P05919|VPU_HV1H2	18.4	6D26_A	2N28_A	6B3J_R	1JRJ_A
+sp|P30556|AGTR1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6OS2_A	2N28_A	6B3J_R	1JRJ_A
+sp|P30559|OXYR_HUMAN	sp|P05919|VPU_HV1H2	18.4	6IGK_A	2N28_A	6B3J_R	1JRJ_A
+sp|P30872|SSR1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6OS2_A	2N28_A	6B3J_R	1JRJ_A
+sp|P30874|SSR2_HUMAN	sp|P05919|VPU_HV1H2	18.4	4PXZ_A	2N28_A	6B3J_R	1JRJ_A
+sp|P30939|5HT1F_HUMAN	sp|P05919|VPU_HV1H2	18.4	5WIU_A	2N28_A	6B3J_R	1JRJ_A
+sp|P30953|OR1E1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|P30954|O10J1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|P30968|GNRHR_HUMAN	sp|P05919|VPU_HV1H2	18.4	5UEN_B	2N28_A	6B3J_R	1JRJ_A
+sp|P30988|CALCR_HUMAN	sp|P05919|VPU_HV1H2	18.4	6NIY_R	2N28_A	6B3J_R	1JRJ_A
+sp|P31391|SSR4_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|P32238|CCKAR_HUMAN	sp|P05919|VPU_HV1H2	18.4	4GRV_A	2N28_A	6B3J_R	1JRJ_A
+sp|P32239|GASR_HUMAN	sp|P05919|VPU_HV1H2	18.4	4GRV_A	2N28_A	6B3J_R	1JRJ_A
+sp|P32241|VIPR1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6FJ3_A	2N28_A	6B3J_R	1JRJ_A
+sp|P32245|MC4R_HUMAN	sp|P05919|VPU_HV1H2	18.4	6W25_A	2N28_A	6B3J_R	1JRJ_A
+sp|P32246|CCR1_HUMAN	sp|P05919|VPU_HV1H2	18.4	5T1A_A	2N28_A	6B3J_R	1JRJ_A
+sp|P32247|BRS3_HUMAN	sp|P05919|VPU_HV1H2	18.4	4GRV_A	2N28_A	6B3J_R	1JRJ_A
+sp|P32248|CCR7_HUMAN	sp|P05919|VPU_HV1H2	18.4	3OE0_A	2N28_A	6B3J_R	1JRJ_A
+sp|P32302|CXCR5_HUMAN	sp|P05919|VPU_HV1H2	18.4	3OE0_A	2N28_A	6B3J_R	1JRJ_A
+sp|P32745|SSR3_HUMAN	sp|P05919|VPU_HV1H2	18.4	5NJ6_A	2N28_A	6B3J_R	1JRJ_A
+sp|P33032|MC5R_HUMAN	sp|P05919|VPU_HV1H2	18.4	6W25_A	2N28_A	6B3J_R	1JRJ_A
+sp|P34969|5HT7R_HUMAN	sp|P05919|VPU_HV1H2	18.4	5NJ6_A	2N28_A	6B3J_R	1JRJ_A
+sp|P34972|CNR2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6PT0_R	2N28_A	6B3J_R	1JRJ_A
+sp|P34981|TRFR_HUMAN	sp|P05919|VPU_HV1H2	18.4	5WQC_A	2N28_A	6B3J_R	1JRJ_A
+sp|P34982|OR1D2_HUMAN	sp|P05919|VPU_HV1H2	18.4	4YAY_A	2N28_A	6B3J_R	1JRJ_A
+sp|P34995|PE2R1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6M9T_A	2N28_A	6B3J_R	1JRJ_A
+sp|P34998|CRFR1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4Z9G_A	2N28_A	6B3J_R	1JRJ_A
+sp|P35346|SSR5_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|P35348|ADA1A_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|P35367|HRH1_HUMAN	sp|P05919|VPU_HV1H2	18.4	3RZE_A	2N28_A	6B3J_R	1JRJ_A
+sp|P35368|ADA1B_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZHP_A	2N28_A	6B3J_R	1JRJ_A
+sp|P35372|OPRM_HUMAN	sp|P05919|VPU_HV1H2	18.4	6DDE_R	2N28_A	6B3J_R	1JRJ_A
+sp|P35408|PE2R4_HUMAN	sp|P05919|VPU_HV1H2	18.4	5YWY_A	2N28_A	6B3J_R	1JRJ_A
+sp|P35410|MAS1L_HUMAN	sp|P05919|VPU_HV1H2	18.4	6LI0_A	2N28_A	6B3J_R	1JRJ_A
+sp|P35414|APJ_HUMAN	sp|P05919|VPU_HV1H2	18.4	5VBL_B	2N28_A	6B3J_R	1JRJ_A
+sp|P35462|DRD3_HUMAN	sp|P05919|VPU_HV1H2	18.4	3PBL_A	2N28_A	6B3J_R	1JRJ_A
+sp|P37288|V1AR_HUMAN	sp|P05919|VPU_HV1H2	18.4	5NJ6_A	2N28_A	6B3J_R	1JRJ_A
+sp|P41143|OPRD_HUMAN	sp|P05919|VPU_HV1H2	18.4	4EJ4_A	2N28_A	6B3J_R	1JRJ_A
+sp|P41145|OPRK_HUMAN	sp|P05919|VPU_HV1H2	18.4	4DJH_B	2N28_A	6B3J_R	1JRJ_A
+sp|P41146|OPRX_HUMAN	sp|P05919|VPU_HV1H2	18.4	5DHG_B	2N28_A	6B3J_R	1JRJ_A
+sp|P41231|P2RY2_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKQ_A	2N28_A	6B3J_R	1JRJ_A
+sp|P41586|PACR_HUMAN	sp|P05919|VPU_HV1H2	18.4	6P9Y_R	2N28_A	6B3J_R	1JRJ_A
+sp|P41595|5HT2B_HUMAN	sp|P05919|VPU_HV1H2	18.4	5TVN_A	2N28_A	6B3J_R	1JRJ_A
+sp|P41597|CCR2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6GPS_A	2N28_A	6B3J_R	1JRJ_A
+sp|P41968|MC3R_HUMAN	sp|P05919|VPU_HV1H2	18.4	6W25_A	2N28_A	6B3J_R	1JRJ_A
+sp|P43088|PF2R_HUMAN	sp|P05919|VPU_HV1H2	18.4	6M9T_A	2N28_A	6B3J_R	1JRJ_A
+sp|P43115|PE2R3_HUMAN	sp|P05919|VPU_HV1H2	18.4	6M9T_A	2N28_A	6B3J_R	1JRJ_A
+sp|P43116|PE2R2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6IIV_A	2N28_A	6B3J_R	1JRJ_A
+sp|P43220|GLP1R_HUMAN	sp|P05919|VPU_HV1H2	18.4	6LN2_A	2N28_A	6B3J_R	1JRJ_A
+sp|P43657|LPAR6_HUMAN	sp|P05919|VPU_HV1H2	18.4	5XSZ_A	2N28_A	6B3J_R	1JRJ_A
+sp|P46089|GPR3_HUMAN	sp|P05919|VPU_HV1H2	18.4	6LI0_A	2N28_A	6B3J_R	1JRJ_A
+sp|P46091|GPR1_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|P46092|CCR10_HUMAN	sp|P05919|VPU_HV1H2	18.4	3ODU_B	2N28_A	6B3J_R	1JRJ_A
+sp|P46093|GPR4_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKP_A	2N28_A	6B3J_R	1JRJ_A
+sp|P46094|XCR1_HUMAN	sp|P05919|VPU_HV1H2	18.4	5T1A_A	2N28_A	6B3J_R	1JRJ_A
+sp|P46095|GPR6_HUMAN	sp|P05919|VPU_HV1H2	18.4	6LI0_A	2N28_A	6B3J_R	1JRJ_A
+sp|P46663|BKRB1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6OS0_A	2N28_A	6B3J_R	1JRJ_A
+sp|P47211|GALR1_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKP_A	2N28_A	6B3J_R	1JRJ_A
+sp|P47775|GPR12_HUMAN	sp|P05919|VPU_HV1H2	18.4	6LI0_A	2N28_A	6B3J_R	1JRJ_A
+sp|P47804|RGR_HUMAN	sp|P05919|VPU_HV1H2	18.4	4WW3_A	2N28_A	6B3J_R	1JRJ_A
+sp|P47871|GLR_HUMAN	sp|P05919|VPU_HV1H2	18.4	5YQZ_R	2N28_A	6B3J_R	1JRJ_A
+sp|P47872|SCTR_HUMAN	sp|P05919|VPU_HV1H2	18.4	6FJ3_A	2N28_A	6B3J_R	1JRJ_A
+sp|P47881|OR3A1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|P47883|OR3A4_HUMAN	sp|P05919|VPU_HV1H2	18.4	5XSZ_A	2N28_A	6B3J_R	1JRJ_A
+sp|P47884|OR1D4_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|P47887|OR1E2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|P47888|OR3A3_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|P47890|OR1G1_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|P47893|OR3A2_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|P47898|5HT5A_HUMAN	sp|P05919|VPU_HV1H2	18.4	5WIV_A	2N28_A	6B3J_R	1JRJ_A
+sp|P47900|P2RY1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4XNV_A	2N28_A	6B3J_R	1JRJ_A
+sp|P47901|V1BR_HUMAN	sp|P05919|VPU_HV1H2	18.4	5NJ6_A	2N28_A	6B3J_R	1JRJ_A
+sp|P48039|MTR1A_HUMAN	sp|P05919|VPU_HV1H2	18.4	6ME2_A	2N28_A	6B3J_R	1JRJ_A
+sp|P48145|NPBW1_HUMAN	sp|P05919|VPU_HV1H2	18.4	5NJ6_A	2N28_A	6B3J_R	1JRJ_A
+sp|P48146|NPBW2_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|P48546|GIPR_HUMAN	sp|P05919|VPU_HV1H2	18.4	6WHC_R	2N28_A	6B3J_R	1JRJ_A
+sp|P48960|AGRE5_HUMAN	sp|P05919|VPU_HV1H2	18.4	6FJ3_A	2N28_A	6B3J_R	1JRJ_A
+sp|P49019|HCAR3_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKP_A	2N28_A	6B3J_R	1JRJ_A
+sp|P49146|NPY2R_HUMAN	sp|P05919|VPU_HV1H2	18.4	6J21_A	2N28_A	6B3J_R	1JRJ_A
+sp|P49190|PTH2R_HUMAN	sp|P05919|VPU_HV1H2	18.4	6NBH_R	2N28_A	6B3J_R	1JRJ_A
+sp|P49238|CX3C1_HUMAN	sp|P05919|VPU_HV1H2	18.4	5T1A_A	2N28_A	6B3J_R	1JRJ_A
+sp|P49286|MTR1B_HUMAN	sp|P05919|VPU_HV1H2	18.4	6ME6_A	2N28_A	6B3J_R	1JRJ_A
+sp|P49682|CXCR3_HUMAN	sp|P05919|VPU_HV1H2	18.4	3OE0_A	2N28_A	6B3J_R	1JRJ_A
+sp|P49683|PRLHR_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZJC_A	2N28_A	6B3J_R	1JRJ_A
+sp|P50052|AGTR2_HUMAN	sp|P05919|VPU_HV1H2	18.4	5XJM_A	2N28_A	6B3J_R	1JRJ_A
+sp|P50391|NPY4R_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZBH_A	2N28_A	6B3J_R	1JRJ_A
+sp|P50406|5HT6R_HUMAN	sp|P05919|VPU_HV1H2	18.4	6OL9_A	2N28_A	6B3J_R	1JRJ_A
+sp|P51582|P2RY4_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKP_A	2N28_A	6B3J_R	1JRJ_A
+sp|P51677|CCR3_HUMAN	sp|P05919|VPU_HV1H2	18.4	5T1A_A	2N28_A	6B3J_R	1JRJ_A
+sp|P51679|CCR4_HUMAN	sp|P05919|VPU_HV1H2	18.4	3OE0_A	2N28_A	6B3J_R	1JRJ_A
+sp|P51681|CCR5_HUMAN	sp|P05919|VPU_HV1H2	18.4	5UIW_A	2N28_A	6B3J_R	1JRJ_A
+sp|P51684|CCR6_HUMAN	sp|P05919|VPU_HV1H2	18.4	6WWZ_R	2N28_A	6B3J_R	1JRJ_A
+sp|P51685|CCR8_HUMAN	sp|P05919|VPU_HV1H2	18.4	6GPX_A	2N28_A	6B3J_R	1JRJ_A
+sp|P51686|CCR9_HUMAN	sp|P05919|VPU_HV1H2	18.4	5LWE_B	2N28_A	6B3J_R	1JRJ_A
+sp|P51810|GP143_HUMAN	sp|P05919|VPU_HV1H2	18.4	6BD4_A	2N28_A	6B3J_R	1JRJ_A
+sp|P55085|PAR2_HUMAN	sp|P05919|VPU_HV1H2	18.4	5NJ6_A	2N28_A	6B3J_R	1JRJ_A
+sp|P58170|OR1D5_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|P58173|OR2B6_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|P58180|OR4D2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|P58181|O10A3_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|P58182|O12D2_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|P59534|T2R39_HUMAN	sp|P05919|VPU_HV1H2	18.4	4BUO_B	2N28_A	6B3J_R	1JRJ_A
+sp|P59537|T2R43_HUMAN	sp|P05919|VPU_HV1H2	18.4	5IU7_A	2N28_A	6B3J_R	1JRJ_A
+sp|P59538|T2R31_HUMAN	sp|P05919|VPU_HV1H2	18.4	5X33_A	2N28_A	6B3J_R	1JRJ_A
+sp|P59543|T2R20_HUMAN	sp|P05919|VPU_HV1H2	18.4	4BUO_B	2N28_A	6B3J_R	1JRJ_A
+sp|P59551|T2R60_HUMAN	sp|P05919|VPU_HV1H2	18.4	4U15_B	2N28_A	6B3J_R	1JRJ_A
+sp|P59922|OR2B8_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|P60893|GPR85_HUMAN	sp|P05919|VPU_HV1H2	18.4	6A94_A	2N28_A	6B3J_R	1JRJ_A
+sp|P61073|CXCR4_HUMAN	sp|P05919|VPU_HV1H2	18.4	3ODU_B	2N28_A	6B3J_R	1JRJ_A
+sp|Q01718|ACTHR_HUMAN	sp|P05919|VPU_HV1H2	18.4	6W25_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q01726|MSHR_HUMAN	sp|P05919|VPU_HV1H2	18.4	6W25_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q02643|GHRHR_HUMAN	sp|P05919|VPU_HV1H2	18.4	6FJ3_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q03431|PTH1R_HUMAN	sp|P05919|VPU_HV1H2	18.4	6NBH_R	2N28_A	6B3J_R	1JRJ_A
+sp|Q13258|PD2R_HUMAN	sp|P05919|VPU_HV1H2	18.4	5XJM_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q13304|GPR17_HUMAN	sp|P05919|VPU_HV1H2	18.4	5NJ6_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q13324|CRFR2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6PB1_P	2N28_A	6B3J_R	1JRJ_A
+sp|Q13467|FZD5_HUMAN	sp|P05919|VPU_HV1H2	18.4	5V56_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q13606|OR5I1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q13607|OR2F1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q13639|5HT4R_HUMAN	sp|P05919|VPU_HV1H2	18.4	5DSG_B	2N28_A	6B3J_R	1JRJ_A
+sp|Q14246|AGRE1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6FJ3_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q14330|GPR18_HUMAN	sp|P05919|VPU_HV1H2	18.4	5NJ6_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q14332|FZD2_HUMAN	sp|P05919|VPU_HV1H2	18.4	5V56_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q14439|GP176_HUMAN	sp|P05919|VPU_HV1H2	18.4	4XNW_C	2N28_A	6B3J_R	1JRJ_A
+sp|Q15077|P2RY6_HUMAN	sp|P05919|VPU_HV1H2	18.4	6RZ4_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q15391|P2Y14_HUMAN	sp|P05919|VPU_HV1H2	18.4	4PXZ_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q15612|OR1Q1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q15615|OR4D1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q15617|OR8G1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4YAY_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q15619|OR1C1_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q15620|OR8B8_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q15622|OR7A5_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q15722|LT4R1_HUMAN	sp|P05919|VPU_HV1H2	18.4	5X33_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q15743|OGR1_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKP_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q15760|GPR19_HUMAN	sp|P05919|VPU_HV1H2	18.4	5WIV_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q15761|NPY5R_HUMAN	sp|P05919|VPU_HV1H2	18.4	6J20_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q16581|C3AR_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q16602|CALRL_HUMAN	sp|P05919|VPU_HV1H2	18.4	6FJ3_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q49SQ1|GPR33_HUMAN	sp|P05919|VPU_HV1H2	18.4	6D27_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q5JQS5|OR2BB_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q5JRS4|O10J3_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKQ_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q5NUL3|FFAR4_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKP_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q5T601|AGRF1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4DLO_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q5TZ20|OR2G6_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q5UAW9|GP157_HUMAN	sp|P05919|VPU_HV1H2	18.4	4L6R_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q6DWJ6|GP139_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKQ_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q6IEU7|OR5MA_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q6IEV9|OR4CB_HUMAN	sp|P05919|VPU_HV1H2	18.4	6LW5_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q6IEY1|OR4F3_HUMAN	sp|P05919|VPU_HV1H2	18.4	5XSZ_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q6IEZ7|OR2T5_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q6IF00|OR2T2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6OS2_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q6IF36|O8G2P_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q6IF42|OR2A2_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q6IF63|O52W1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6IGK_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q6IF82|O4A47_HUMAN	sp|P05919|VPU_HV1H2	18.4	6LW5_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q6IF99|O10K2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q6IFG1|O52E8_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q6IFH4|OR6B2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q6IFN5|O7E24_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q6NV75|GP153_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KR8_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q6QNK2|AGRD1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6FJ3_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q6W5P4|NPSR1_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q7RTR8|T2R42_HUMAN	sp|P05919|VPU_HV1H2	18.4	6D27_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q7Z3F1|GP155_HUMAN	sp|P05919|VPU_HV1H2	18.4	6OT0_R	2N28_A	6B3J_R	1JRJ_A
+sp|Q7Z3T1|OR2W3_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q7Z5H5|VN1R4_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKQ_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q7Z601|GP142_HUMAN	sp|P05919|VPU_HV1H2	18.4	6OSA_R	2N28_A	6B3J_R	1JRJ_A
+sp|Q7Z602|GP141_HUMAN	sp|P05919|VPU_HV1H2	18.4	4PXZ_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q7Z7M1|AGRD2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6FJ3_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q86SM5|MRGRG_HUMAN	sp|P05919|VPU_HV1H2	18.4	6IIV_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q86SM8|MRGRE_HUMAN	sp|P05919|VPU_HV1H2	18.4	5T04_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q86SP6|GP149_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZTY_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q86SQ3|AGRE4_HUMAN	sp|P05919|VPU_HV1H2	18.4	6FJ3_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q86SQ4|AGRG6_HUMAN	sp|P05919|VPU_HV1H2	18.4	6V55_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q86SQ6|AGRA1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4K5Y_C	2N28_A	6B3J_R	1JRJ_A
+sp|Q86VZ1|P2RY8_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q86Y34|AGRG3_HUMAN	sp|P05919|VPU_HV1H2	18.4	5KVM_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8IWK6|AGRA3_HUMAN	sp|P05919|VPU_HV1H2	18.4	4DLO_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8IXE1|OR4N5_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8IYL9|PSYR_HUMAN	sp|P05919|VPU_HV1H2	18.4	5ZKP_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8IZ08|GP135_HUMAN	sp|P05919|VPU_HV1H2	18.4	4U14_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8IZF2|AGRF5_HUMAN	sp|P05919|VPU_HV1H2	18.4	4DLO_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8IZF3|AGRF4_HUMAN	sp|P05919|VPU_HV1H2	18.4	6FJ3_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8IZF4|AGRG5_HUMAN	sp|P05919|VPU_HV1H2	18.4	5KVM_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8IZF5|AGRF3_HUMAN	sp|P05919|VPU_HV1H2	18.4	4DLO_B	2N28_A	6B3J_R	1JRJ_A
+sp|Q8IZF6|AGRG4_HUMAN	sp|P05919|VPU_HV1H2	18.4	4DLO_B	2N28_A	6B3J_R	1JRJ_A
+sp|Q8IZF7|AGRF2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6FJ3_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8N0Y3|OR4N4_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8N0Y5|OR8I2_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8N127|O5AS1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4YAY_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8N146|OR8H3_HUMAN	sp|P05919|VPU_HV1H2	18.4	5NM4_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8N148|OR6V1_HUMAN	sp|P05919|VPU_HV1H2	18.4	5UEN_B	2N28_A	6B3J_R	1JRJ_A
+sp|Q8N162|OR8H2_HUMAN	sp|P05919|VPU_HV1H2	18.4	5IU7_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8N349|OR2LD_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8N628|OR2C3_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8N6U8|GP161_HUMAN	sp|P05919|VPU_HV1H2	18.4	5DSG_B	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NCL8|TM116_HUMAN	sp|P05919|VPU_HV1H2	18.4	5TZR_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NDV2|GPR26_HUMAN	sp|P05919|VPU_HV1H2	18.4	4U15_B	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NFJ6|PKR2_HUMAN	sp|P05919|VPU_HV1H2	18.4	5NM4_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NFZ6|VN1R2_HUMAN	sp|P05919|VPU_HV1H2	18.4	4GRV_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NG75|OR5T1_HUMAN	sp|P05919|VPU_HV1H2	18.4	5OLZ_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NG76|O2T33_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NG77|O2T12_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NG78|OR8G5_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NG80|OR2L5_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NG81|OR2M7_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NG83|OR2M3_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NG84|O2AK2_HUMAN	sp|P05919|VPU_HV1H2	18.4	3EML_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NG85|OR2L3_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NG92|O13H1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4IAQ_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NG94|O11H1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NG95|OR7G3_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NG97|OR2Z1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NG98|OR7D4_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NG99|OR7G2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGA1|OR1M1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGA2|OR7A2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGA4|G32P1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6OMM_R	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGA5|O10H4_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGA6|O10H5_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGA8|O4F17_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGB2|OR4C5_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGB4|OR4S1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6LW5_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGB6|OR4M2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGB8|O4F15_HUMAN	sp|P05919|VPU_HV1H2	18.4	5XSZ_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGB9|OR4F6_HUMAN	sp|P05919|VPU_HV1H2	18.4	5XSZ_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGC0|O5AU1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGC1|O11G2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGC2|OR4E2_HUMAN	sp|P05919|VPU_HV1H2	18.4	5XSZ_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGC3|O10G2_HUMAN	sp|P05919|VPU_HV1H2	18.4	5VBL_B	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGC4|O10G3_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGC5|OR6J1_HUMAN	sp|P05919|VPU_HV1H2	18.4	5OLZ_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGC6|OR4KH_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGC7|O11H6_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGC8|O11H7_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGC9|O11H4_HUMAN	sp|P05919|VPU_HV1H2	18.4	4YAY_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGD0|OR4M1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGD1|OR4N2_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGD2|OR4K2_HUMAN	sp|P05919|VPU_HV1H2	18.4	5XSZ_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGD3|OR4K5_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGD4|OR4K1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGD5|OR4KE_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGE0|O10AD_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
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+sp|Q8NGE3|O10P1_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGE5|O10A7_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
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+sp|Q8NGG3|OR5T3_HUMAN	sp|P05919|VPU_HV1H2	18.4	6LW5_A	2N28_A	6B3J_R	1JRJ_A
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+sp|Q8NGG7|OR8A1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
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+sp|Q8NGH7|O52L1_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
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+sp|Q8NGV5|O13D1_HUMAN	sp|P05919|VPU_HV1H2	18.4	4ZUD_A	2N28_A	6B3J_R	1JRJ_A
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+sp|Q8NGW1|OR6B3_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q8NGX0|O11L1_HUMAN	sp|P05919|VPU_HV1H2	18.4	5IU7_A	2N28_A	6B3J_R	1JRJ_A
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+sp|Q8NH05|OR4Q3_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
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+sp|Q8TDV2|GP148_HUMAN	sp|P05919|VPU_HV1H2	18.4	5OLZ_A	2N28_A	6B3J_R	1JRJ_A
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+sp|Q96P66|GP101_HUMAN	sp|P05919|VPU_HV1H2	18.4	4U14_A	2N28_A	6B3J_R	1JRJ_A
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+sp|Q99680|GPR22_HUMAN	sp|P05919|VPU_HV1H2	18.4	6IGK_A	2N28_A	6B3J_R	1JRJ_A
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+tr|A0A2R8YED5|A0A2R8YED5_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+tr|A0A2R8YEG4|A0A2R8YEG4_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+tr|A0A2R8YEH3|A0A2R8YEH3_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+tr|A0A2R8YEV3|A0A2R8YEV3_HUMAN	sp|P05919|VPU_HV1H2	18.4	6KUX_A	2N28_A	6B3J_R	1JRJ_A
+tr|A0A3B3IT45|A0A3B3IT45_HUMAN	sp|P05919|VPU_HV1H2	18.4	5OLZ_A	2N28_A	6B3J_R	1JRJ_A
+tr|A0A4W9AIG4|A0A4W9AIG4_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+tr|Q9BZC5|Q9BZC5_HUMAN	sp|P05919|VPU_HV1H2	18.4	6ME6_A	2N28_A	6B3J_R	1JRJ_A
+sp|P59536|T2R41_HUMAN	sp|P05919|VPU_HV1H2	18.4	3VW7_A	2N28_A	6B3J_R	1JRJ_A
+sp|P59540|T2R46_HUMAN	sp|P05919|VPU_HV1H2	18.4	5IU7_A	2N28_A	6B3J_R	1JRJ_A
+sp|P59541|T2R30_HUMAN	sp|P05919|VPU_HV1H2	18.4	4BUO_B	2N28_A	6B3J_R	1JRJ_A
+sp|Q2T9K0|TMM44_HUMAN	sp|P05919|VPU_HV1H2	18.4	6NBF_R	2N28_A	6B3J_R	1JRJ_A
+sp|Q2VPA4|CR1L_HUMAN	sp|P05919|VPU_HV1H2	18.4	2Q7Z_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q7L0L9|YA043_HUMAN	sp|P05919|VPU_HV1H2	18.4	2LOT_A	2N28_A	6B3J_R	1JRJ_A
+sp|Q7Z412|PEX26_HUMAN	sp|P05919|VPU_HV1H2	18.4	3GW4_B	2N28_A	6B3J_R	1JRJ_A
+sp|Q8N616|TM148_HUMAN	sp|P04578|ENV_HV1H2	18.4	5LZ3_B	6PWU_E	5DRZ_P	6NIJ_B
+sp|Q9P2C4|TM181_HUMAN	sp|P05919|VPU_HV1H2	18.4	6LTJ_P	2N28_A	6B3J_R	1JRJ_A
+sp|P04585|POL_HV1H2	tr|A0A2R8Y422|A0A2R8Y422_HUMAN	18.3	1L6N_A	5XXU_f	5FMF_R	5IP7_L
+sp|P04601|NEF_HV1H2	sp|P81534|D103A_HUMAN	18.3	3TB8_A	1KJ6_A	4ORZ_B	5MZV_D
+sp|A8MUL3|ADAS1_HUMAN	sp|P04585|POL_HV1H2	18.3	1ZLE_B	1L6N_A	6TAS_D	6TAS_F
+sp|A8MUL3|ADAS1_HUMAN	sp|P04591|GAG_HV1H2	18.3	1ZLE_B	1L6N_A	6TAS_D	6TAS_F
+sp|H0Y354|FA72C_HUMAN	sp|P04585|POL_HV1H2	18.3	5HJ0_B	1L6N_A	5FMF_L	5FMF_R
+tr|A0A075B6Z5|A0A075B6Z5_HUMAN	sp|P04578|ENV_HV1H2	18.3	6GKD_B	6PWU_E	6VPX_K	3J70_P
+tr|A0N4Z7|A0N4Z7_HUMAN	sp|P04578|ENV_HV1H2	18.3	3ZHK_A	6PWU_E	6VPX_K	3J70_P
+sp|P04585|POL_HV1H2	sp|Q9Y225|RNF24_HUMAN	18.2	1L6N_A	6VK0_B	5FMF_R	5IP7_L
+sp|P05919|VPU_HV1H2	sp|Q8N5G0|SIM20_HUMAN	18.2	2N28_A	5B1A_M	2N2A_B	2N2A_B
+sp|Q6MZN7|HCP5_HUMAN	sp|P04608|TAT_HV1H2	18.2	5US1_A	3MI9_C	6CYT_C	4OGR_D
+sp|P04585|POL_HV1H2	sp|P33764|S10A3_HUMAN	18.1	1L6N_A	3NSI_B	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	tr|A0A075B6V6|A0A075B6V6_HUMAN	18.1	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P33764|S10A3_HUMAN	18.1	1L6N_A	3NSI_B	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6V6|A0A075B6V6_HUMAN	18.1	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+sp|P69726|VPR_HV1H2	sp|P0C879|YJ018_HUMAN	18.1	1ESX_A	3K6Y_A	1X9V_A	1X9V_A
+sp|P04585|POL_HV1H2	sp|A0A075B700|TJA31_HUMAN	18.0	1L6N_A	5LHX_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A075B700|TJA31_HUMAN	18.0	1L6N_A	5LHX_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q6NZ36|FAP20_HUMAN	18.0	1L6N_A	2MUQ_A	4AYB_N	4AYB_P
+sp|P04585|POL_HV1H2	sp|O75380|NDUS6_HUMAN	17.9	1L6N_A	6G2J_R	5FMF_R	5IP7_L
+sp|P04585|POL_HV1H2	sp|Q9HCY8|S10AE_HUMAN	17.9	1L6N_A	2M0R_A	2MGU_M	5DOW_A
+sp|P04585|POL_HV1H2	tr|A0A075B6Z0|A0A075B6Z0_HUMAN	17.9	1L6N_A	6APO_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q9HCY8|S10AE_HUMAN	17.9	1L6N_A	2M0R_A	2MGU_M	5DOW_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6Z0|A0A075B6Z0_HUMAN	17.9	1L6N_A	6APO_A	2XT1_A	6FPV_A
+sp|Q9Y2B9|IPKG_HUMAN	sp|P69723|VIF_HV1H2	17.9	3WYG_D	4N9F_b	3DCG_E	4N9F_q
+sp|P04585|POL_HV1H2	tr|A0A075B6V7|A0A075B6V7_HUMAN	17.8	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A0A0MT93|A0A0A0MT93_HUMAN	17.8	1L6N_A	6APO_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A0J9YW14|A0A0J9YW14_HUMAN	17.8	1L6N_A	4I0C_D	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6V7|A0A075B6V7_HUMAN	17.8	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0A0MT93|A0A0A0MT93_HUMAN	17.8	1L6N_A	6APO_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0J9YW14|A0A0J9YW14_HUMAN	17.8	1L6N_A	4I0C_D	2XT1_A	6FPV_A
+sp|P04618|REV_HV1H2	sp|O95866|G6B_HUMAN	17.8	2X7L_R	6R0X_F	6CF2_F	5DHV_B
+sp|Q8NES8|DB124_HUMAN	sp|P04601|NEF_HV1H2	17.8	6MJV_A	3TB8_A	6CRI_L	6CRI_Z
+sp|P04578|ENV_HV1H2	sp|O15263|DFB4A_HUMAN	17.7	6PWU_E	1FD3_A	6PWU_E	6ULC_L
+tr|A0A075B6V1|A0A075B6V1_HUMAN	sp|P04578|ENV_HV1H2	17.7	6GKD_B	6PWU_E	6VPX_K	3J70_P
+tr|A0N4Z8|A0N4Z8_HUMAN	sp|P04578|ENV_HV1H2	17.7	4HGM_A	6PWU_E	6VN0_G	6MTJ_B
+sp|P04585|POL_HV1H2	sp|Q6ZRG5|YQ015_HUMAN	17.7	1L6N_A	6IFC_E	5C9F_A	5C9F_A
+sp|P04585|POL_HV1H2	tr|A0A075B6Y8|A0A075B6Y8_HUMAN	17.7	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A075B702|A0A075B702_HUMAN	17.7	1L6N_A	1ZMY_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6Y8|A0A075B6Y8_HUMAN	17.7	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B702|A0A075B702_HUMAN	17.7	1L6N_A	1ZMY_A	2XT1_A	6FPV_A
+sp|Q9NXJ5|PGPI_HUMAN	sp|P04578|ENV_HV1H2	17.7	1IU8_A	6PWU_E	6TYS_F	5EVM_F
+sp|P04578|ENV_HV1H2	tr|A0A0A0MT84|A0A0A0MT84_HUMAN	17.6	6PWU_E	3ZHK_A	6DCQ_D	6VPX_P
+tr|A0A0J9YVP9|A0A0J9YVP9_HUMAN	sp|P04578|ENV_HV1H2	17.6	6RUL_A	6PWU_E	6NIJ_H	3J70_P
+sp|O43555|GON2_HUMAN	sp|P04578|ENV_HV1H2	17.6	6IUD_A	6PWU_E	6VPX_K	3J70_P
+sp|A0A075B6Y9|TJA42_HUMAN	sp|P04578|ENV_HV1H2	17.5	6GKD_B	6PWU_E	6VN0_G	6MTJ_B
+sp|P04578|ENV_HV1H2	sp|A0A0J9YWX3|TJB16_HUMAN	17.5	6PWU_E	6GKD_B	6DCQ_D	6VPX_P
+sp|P04578|ENV_HV1H2	sp|P15516|HIS3_HUMAN	17.5	6PWU_E	5XWE_A	6PWU_E	6ULC_L
+tr|A0A075B711|A0A075B711_HUMAN	sp|P04578|ENV_HV1H2	17.5	6GKD_B	6PWU_E	6NIJ_H	3J70_P
+sp|P04585|POL_HV1H2	tr|A0A075B6Z4|A0A075B6Z4_HUMAN	17.5	1L6N_A	5NGV_H	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A075B712|A0A075B712_HUMAN	17.5	1L6N_A	5U64_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6Z4|A0A075B6Z4_HUMAN	17.5	1L6N_A	5NGV_H	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B712|A0A075B712_HUMAN	17.5	1L6N_A	5U64_B	2XT1_A	6FPV_A
+tr|A0A1W2PNU3|A0A1W2PNU3_HUMAN	sp|P04585|POL_HV1H2	17.5	6XTY_4	1L6N_A	6TAS_D	6TAS_F
+tr|A0A1W2PNU3|A0A1W2PNU3_HUMAN	sp|P04591|GAG_HV1H2	17.5	6XTY_4	1L6N_A	6TAS_D	6TAS_F
+sp|A0A0A0MT78|TJB27_HUMAN	sp|P04578|ENV_HV1H2	17.4	5OVW_L	6PWU_E	6VPX_K	3J70_P
+sp|A0A0A0MTA7|TJB21_HUMAN	sp|P04578|ENV_HV1H2	17.4	2KH2_B	6PWU_E	6VPX_K	3J70_P
+sp|A0A0C4DH62|HJ01_HUMAN	sp|P04578|ENV_HV1H2	17.4	2KH2_B	6PWU_E	6NIJ_H	3J70_P
+sp|P04585|POL_HV1H2	sp|A0A0A0MTA7|TJB21_HUMAN	17.4	1L6N_A	2KH2_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A075B6W2|A0A075B6W2_HUMAN	17.4	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A075B710|A0A075B710_HUMAN	17.4	1L6N_A	6GJS_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0A0MTA7|TJB21_HUMAN	17.4	1L6N_A	2KH2_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6W2|A0A075B6W2_HUMAN	17.4	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B710|A0A075B710_HUMAN	17.4	1L6N_A	6GJS_B	2XT1_A	6FPV_A
+tr|A0A0A0MT96|A0A0A0MT96_HUMAN	sp|P04591|GAG_HV1H2	17.4	2I24_N	1L6N_A	1VQO_Q	2QEX_Z
+sp|Q9BZP3|CR002_HUMAN	sp|P04591|GAG_HV1H2	17.4	6BL9_A	1L6N_A	6CG0_N	6OET_C
+tr|A0A075B6W9|A0A075B6W9_HUMAN	sp|P04578|ENV_HV1H2	17.3	5OVW_L	6PWU_E	6VPX_K	3J70_P
+sp|P04585|POL_HV1H2	tr|A0A0J9YVS3|A0A0J9YVS3_HUMAN	17.3	1L6N_A	5FOJ_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0J9YVS3|A0A0J9YVS3_HUMAN	17.3	1L6N_A	5FOJ_A	2XT1_A	6FPV_A
+sp|P05919|VPU_HV1H2	sp|Q9P0N5|TM216_HUMAN	17.3	2N28_A	6NBY_P	2MET_A	2MET_A
+tr|A0A0J9YWN2|A0A0J9YWN2_HUMAN	sp|P04578|ENV_HV1H2	17.2	4I0C_D	6PWU_E	6NIJ_H	3J70_P
+sp|P04585|POL_HV1H2	tr|A0A075B6W4|A0A075B6W4_HUMAN	17.2	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A0A0MT82|A0A0A0MT82_HUMAN	17.2	1L6N_A	5VM4_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6W4|A0A075B6W4_HUMAN	17.2	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0A0MT82|A0A0A0MT82_HUMAN	17.2	1L6N_A	5VM4_B	2XT1_A	6FPV_A
+tr|A0A075B6X0|A0A075B6X0_HUMAN	sp|P04578|ENV_HV1H2	17.2	3ZHK_A	6PWU_E	6VN0_G	6MTJ_B
+sp|A0A075B706|TRDJ1_HUMAN	sp|P04578|ENV_HV1H2	17.1	5OVW_L	6PWU_E	6NIJ_H	3J70_P
+sp|P04585|POL_HV1H2	sp|A0A0A0MTA4|TJB25_HUMAN	17.1	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A075B6W8|A0A075B6W8_HUMAN	17.1	1L6N_A	6GJS_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0A0MTA4|TJB25_HUMAN	17.1	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6W8|A0A075B6W8_HUMAN	17.1	1L6N_A	6GJS_B	2XT1_A	6FPV_A
+sp|P04578|ENV_HV1H2	sp|Q8IXL7|MSRB3_HUMAN	17.0	6PWU_E	6Q9V_B	6MUF_G	6W03_E
+tr|A0A087X096|A0A087X096_HUMAN	sp|P04578|ENV_HV1H2	17.0	6GJS_B	6PWU_E	6NIJ_H	3J70_P
+tr|A0N4X2|A0N4X2_HUMAN	sp|P04578|ENV_HV1H2	17.0	1ZMY_A	6PWU_E	6VPX_K	3J70_P
+sp|P60413|KR10C_HUMAN	sp|P04591|GAG_HV1H2	17.0	2HM4_A	1L6N_A	5JB3_W	6SW9_8
+tr|A0A075B6X4|A0A075B6X4_HUMAN	sp|P04578|ENV_HV1H2	16.9	5OVW_L	6PWU_E	6VPX_K	3J70_P
+sp|P04585|POL_HV1H2	tr|A0A0A0MT86|A0A0A0MT86_HUMAN	16.9	1L6N_A	5VM6_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0A0MT86|A0A0A0MT86_HUMAN	16.9	1L6N_A	5VM6_A	2XT1_A	6FPV_A
+sp|P05919|VPU_HV1H2	sp|P61574|RE113_HUMAN	16.9	2N28_A	3NKH_A	2N2A_B	2N2A_B
+sp|Q5T4F7|SFRP5_HUMAN	sp|P05919|VPU_HV1H2	16.9	5XGP_A	2N28_A	5VAI_R	4APD_A
+sp|Q6FHJ7|SFRP4_HUMAN	sp|P05919|VPU_HV1H2	16.9	5XGP_A	2N28_A	5VAI_R	4APD_A
+sp|Q8N474|SFRP1_HUMAN	sp|P05919|VPU_HV1H2	16.9	5XGP_A	2N28_A	5VAI_R	4APD_A
+sp|Q96HF1|SFRP2_HUMAN	sp|P05919|VPU_HV1H2	16.9	5XGP_A	2N28_A	5VAI_R	4APD_A
+sp|Q9NYW5|TA2R4_HUMAN	sp|P05919|VPU_HV1H2	16.9	3ODU_A	2N28_A	6WHC_R	4APD_A
+sp|P05919|VPU_HV1H2	tr|A0A0A0MT92|A0A0A0MT92_HUMAN	16.9	2N28_A	5VM4_B	6CFW_I	6CFW_J
+sp|O95772|STR3N_HUMAN	sp|P05919|VPU_HV1H2	16.9	2LZL_A	2N28_A	6WHC_R	4APD_A
+sp|P19526|FUT1_HUMAN	sp|P05919|VPU_HV1H2	16.9	2HHC_A	2N28_A	6WHC_R	4APD_A
+sp|P20155|ISK2_HUMAN	sp|P05919|VPU_HV1H2	16.9	6KBR_C	2N28_A	5VAI_R	4APD_A
+sp|P39060|COIA1_HUMAN	sp|P05919|VPU_HV1H2	16.9	3HQV_B	2N28_A	5VAI_R	4APD_A
+sp|P59539|T2R45_HUMAN	sp|P05919|VPU_HV1H2	16.9	5ZKQ_A	2N28_A	6WHC_R	4APD_A
+sp|P59544|T2R50_HUMAN	sp|P05919|VPU_HV1H2	16.9	4BUO_B	2N28_A	6WHC_R	4APD_A
+sp|Q5BLP8|CD048_HUMAN	sp|P05919|VPU_HV1H2	16.9	5N1T_B	2N28_A	6WHC_R	4APD_A
+sp|Q5T1C6|THEM4_HUMAN	sp|P05919|VPU_HV1H2	16.9	4AE8_B	2N28_A	4ZGM_A	4APD_A
+sp|Q66K79|CBPZ_HUMAN	sp|P05919|VPU_HV1H2	16.9	2NSM_A	2N28_A	5VAI_R	4APD_A
+sp|Q8NHU3|SMS2_HUMAN	sp|P05919|VPU_HV1H2	16.9	5V57_A	2N28_A	5VAI_R	4APD_A
+sp|Q92765|SFRP3_HUMAN	sp|P05919|VPU_HV1H2	16.9	5XGP_A	2N28_A	5VAI_R	4APD_A
+sp|Q9BY79|MFRP_HUMAN	sp|P05919|VPU_HV1H2	16.9	6FZV_D	2N28_A	5VAI_R	4APD_A
+sp|Q9NYV8|T2R14_HUMAN	sp|P05919|VPU_HV1H2	16.9	5ZKQ_A	2N28_A	6WHC_R	4APD_A
+sp|Q9Y5Q5|CORIN_HUMAN	sp|P05919|VPU_HV1H2	16.9	2XRC_B	2N28_A	5VAI_R	4APD_A
+sp|P04585|POL_HV1H2	tr|A0A075B6U9|A0A075B6U9_HUMAN	16.8	1L6N_A	5FOJ_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6U9|A0A075B6U9_HUMAN	16.8	1L6N_A	5FOJ_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A075B713|A0A075B713_HUMAN	16.7	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A0A0MT99|A0A0A0MT99_HUMAN	16.7	1L6N_A	5VM4_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B713|A0A075B713_HUMAN	16.7	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0A0MT99|A0A0A0MT99_HUMAN	16.7	1L6N_A	5VM4_B	2XT1_A	6FPV_A
+sp|P05919|VPU_HV1H2	sp|F5GYI3|UBA1L_HUMAN	16.7	2N28_A	4AE4_B	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|O76027|ANXA9_HUMAN	16.7	2N28_A	1DM5_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|O94888|UBXN7_HUMAN	16.7	2N28_A	1WJ4_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|O95714|HERC2_HUMAN	16.7	2N28_A	3KCI_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|P22681|CBL_HUMAN	16.7	2N28_A	5HKX_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|P43897|EFTS_HUMAN	16.7	2N28_A	1XB2_B	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|P45974|UBP5_HUMAN	16.7	2N28_A	3IHP_B	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|P54725|RD23A_HUMAN	16.7	2N28_A	1OQY_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|P54727|RD23B_HUMAN	16.7	2N28_A	1OQY_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|P57075|UBS3A_HUMAN	16.7	2N28_A	3D4I_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|P61086|UBE2K_HUMAN	16.7	2N28_A	3K9O_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q04323|UBXN1_HUMAN	16.7	2N28_A	2KXJ_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q12768|WASC5_HUMAN	16.7	2N28_A	3P8C_B	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q13191|CBLB_HUMAN	16.7	2N28_A	5HKX_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q13489|BIRC3_HUMAN	16.7	2N28_A	3T6P_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q13501|SQSTM_HUMAN	16.7	2N28_A	6TH3_B	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q14157|UBP2L_HUMAN	16.7	2N28_A	1WJ7_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q14596|NBR1_HUMAN	16.7	2N28_A	4OLE_D	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q5T6F2|UBAP2_HUMAN	16.7	2N28_A	1WJ7_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q5THJ4|VP13D_HUMAN	16.7	2N28_A	6CBC_B	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q7Z6M4|MTEF4_HUMAN	16.7	2N28_A	4FP9_H	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q7Z6Z7|HUWE1_HUMAN	16.7	2N28_A	5LP8_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q8NBM4|UBAC2_HUMAN	16.7	2N28_A	6VK0_C	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q8TF42|UBS3B_HUMAN	16.7	2N28_A	3MBK_B	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q8WVK2|SNR27_HUMAN	16.7	2N28_A	6QX9_X	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q8WW35|TC1D2_HUMAN	16.7	2N28_A	5WI4_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q92681|RSCA1_HUMAN	16.7	2N28_A	2JNH_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q92995|UBP13_HUMAN	16.7	2N28_A	3IHP_B	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q96CP2|FWCH2_HUMAN	16.7	2N28_A	4X86_B	2OO9_B	2OO9_B
+sp|P05919|VPU_HV1H2	sp|Q96EP0|RNF31_HUMAN	16.7	2N28_A	6SC6_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q96S82|UBL7_HUMAN	16.7	2N28_A	1X1M_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q9BSL1|UBAC1_HUMAN	16.7	2N28_A	2LBC_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q9H0E2|TOLIP_HUMAN	16.7	2N28_A	6FLJ_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q9H347|UBQL3_HUMAN	16.7	2N28_A	1OQY_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q9H467|CUED2_HUMAN	16.7	2N28_A	1OTR_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q9H6K1|ILRUN_HUMAN	16.7	2N28_A	6VHI_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q9H7E2|TDRD3_HUMAN	16.7	2N28_A	3NBI_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q9HCJ0|TNR6C_HUMAN	16.7	2N28_A	2DKL_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q9NRR5|UBQL4_HUMAN	16.7	2N28_A	1OQY_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q9NX55|HYPK_HUMAN	16.7	2N28_A	6C95_D	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q9NZ09|UBAP1_HUMAN	16.7	2N28_A	4AE4_B	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q9UHD9|UBQL2_HUMAN	16.7	2N28_A	1J8C_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q9UMX0|UBQL1_HUMAN	16.7	2N28_A	1OQY_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q9UPU5|UBP24_HUMAN	16.7	2N28_A	5JTV_E	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q9Y3P4|RHBD3_HUMAN	16.7	2N28_A	2XOV_A	2OO9_B	2OO9_A
+sp|P05919|VPU_HV1H2	sp|Q9Y5A7|NUB1_HUMAN	16.7	2N28_A	5Y3T_B	2OO9_B	2OO9_A
+tr|A0A075B6Z0|A0A075B6Z0_HUMAN	sp|P04578|ENV_HV1H2	16.6	6APO_A	6PWU_E	6VPX_K	3J70_P
+sp|P04591|GAG_HV1H2	sp|P55789|ALR_HUMAN	16.6	1L6N_A	4E0I_B	6SW9_8	6SW9_C
+tr|A0A075B6Z3|A0A075B6Z3_HUMAN	sp|P04578|ENV_HV1H2	16.5	3ZHK_A	6PWU_E	6VN0_I	6MTJ_B
+tr|A0A075B712|A0A075B712_HUMAN	sp|P04578|ENV_HV1H2	16.5	5U64_B	6PWU_E	6NIJ_H	3J70_P
+sp|P04585|POL_HV1H2	tr|A0A075B6Z1|A0A075B6Z1_HUMAN	16.5	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A087X096|A0A087X096_HUMAN	16.5	1L6N_A	6GJS_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|P0CJ75|HMN8_HUMAN	16.5	1L6N_A	6ADQ_Q	6SW9_8	1I6U_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6Z1|A0A075B6Z1_HUMAN	16.5	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A087X096|A0A087X096_HUMAN	16.5	1L6N_A	6GJS_B	2XT1_A	6FPV_A
+tr|A0A087WU04|A0A087WU04_HUMAN	sp|P04578|ENV_HV1H2	16.5	6GJS_B	6PWU_E	6VPX_K	3J70_P
+tr|A0A0A0MT86|A0A0A0MT86_HUMAN	sp|P04578|ENV_HV1H2	16.4	5VM6_A	6PWU_E	6VN0_G	6MTJ_B
+sp|P04591|GAG_HV1H2	sp|O00488|ZN593_HUMAN	16.4	1L6N_A	1ZR9_A	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	sp|P0CJ68|HMN1_HUMAN	16.4	1L6N_A	6HWH_P	6SW9_8	1I6U_A
+sp|P04608|TAT_HV1H2	sp|A0A1B0GVH4|PRS51_HUMAN	16.4	3MI9_C	3NXP_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|A1L453|PRS38_HUMAN	16.4	3MI9_C	3NXP_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|A4D1T9|PRS37_HUMAN	16.4	3MI9_C	5MNH_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|A6NIE9|PRS29_HUMAN	16.4	3MI9_C	2B9L_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|A8MTI9|PRS47_HUMAN	16.4	3MI9_C	2B9L_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|E5RG02|PRS46_HUMAN	16.4	3MI9_C	2B9L_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|O00187|MASP2_HUMAN	16.4	3MI9_C	1ZJK_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|O15393|TMPS2_HUMAN	16.4	3MI9_C	1Z8G_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|O43240|KLK10_HUMAN	16.4	3MI9_C	5LPE_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|O43464|HTRA2_HUMAN	16.4	3MI9_C	5M3N_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|O60235|TM11D_HUMAN	16.4	3MI9_C	4BXW_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|O60259|KLK8_HUMAN	16.4	3MI9_C	6SKB_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|O95084|PRS23_HUMAN	16.4	3MI9_C	6PYM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P00734|THRB_HUMAN	16.4	3MI9_C	6BJR_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P00736|C1R_HUMAN	16.4	3MI9_C	1MD8_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P00738|HPT_HUMAN	16.4	3MI9_C	4WJG_R	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P00740|FA9_HUMAN	16.4	3MI9_C	4BXW_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P00742|FA10_HUMAN	16.4	3MI9_C	4BXW_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P00746|CFAD_HUMAN	16.4	3MI9_C	2XW9_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P00747|PLMN_HUMAN	16.4	3MI9_C	4A5T_S	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P00748|FA12_HUMAN	16.4	3MI9_C	3NXP_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P00749|UROK_HUMAN	16.4	3MI9_C	5EDM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P00750|TPA_HUMAN	16.4	3MI9_C	5EDM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P00751|CFAB_HUMAN	16.4	3MI9_C	3HRZ_D	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P03951|FA11_HUMAN	16.4	3MI9_C	6I58_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P03952|KLKB1_HUMAN	16.4	3MI9_C	6I44_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P04070|PROC_HUMAN	16.4	3MI9_C	4BXW_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P05156|CFAI_HUMAN	16.4	3MI9_C	2XRC_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P05981|HEPS_HUMAN	16.4	3MI9_C	1Z8G_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P06681|CO2_HUMAN	16.4	3MI9_C	2XWB_F	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P06870|KLK1_HUMAN	16.4	3MI9_C	1SPJ_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P07288|KLK3_HUMAN	16.4	3MI9_C	2ZCK_P	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P07477|TRY1_HUMAN	16.4	3MI9_C	5EDM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P07478|TRY2_HUMAN	16.4	3MI9_C	5EDM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P08217|CEL2A_HUMAN	16.4	3MI9_C	2B9L_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P08218|CEL2B_HUMAN	16.4	3MI9_C	2B9L_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P08246|ELNE_HUMAN	16.4	3MI9_C	4WVP_E	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P08311|CATG_HUMAN	16.4	3MI9_C	1AU8_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P08519|APOA_HUMAN	16.4	3MI9_C	4DUR_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P08709|FA7_HUMAN	16.4	3MI9_C	4BXW_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P08861|CEL3B_HUMAN	16.4	3MI9_C	1PYT_C	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P09093|CEL3A_HUMAN	16.4	3MI9_C	1PYT_C	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P09871|C1S_HUMAN	16.4	3MI9_C	4J1Y_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P0CW18|PRS56_HUMAN	16.4	3MI9_C	2B9L_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P10144|GRAB_HUMAN	16.4	3MI9_C	1IAU_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P10323|ACRO_HUMAN	16.4	3MI9_C	5EDM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P12544|GRAA_HUMAN	16.4	3MI9_C	1OP8_C	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P14210|HGF_HUMAN	16.4	3MI9_C	4DUR_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P17538|CTRB1_HUMAN	16.4	3MI9_C	4BXW_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P20151|KLK2_HUMAN	16.4	3MI9_C	2ZCK_P	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P20160|CAP7_HUMAN	16.4	3MI9_C	1FY1_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P20231|TRYB2_HUMAN	16.4	3MI9_C	6P0P_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P20718|GRAH_HUMAN	16.4	3MI9_C	3TJV_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P22891|PROZ_HUMAN	16.4	3MI9_C	3H5C_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P23946|CMA1_HUMAN	16.4	3MI9_C	2RDL_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P24158|PRTN3_HUMAN	16.4	3MI9_C	1FUJ_C	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P26927|HGFL_HUMAN	16.4	3MI9_C	4DUR_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P35030|TRY3_HUMAN	16.4	3MI9_C	5EDM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P40313|CTRL_HUMAN	16.4	3MI9_C	4BXW_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P48740|MASP1_HUMAN	16.4	3MI9_C	4IGD_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P49862|KLK7_HUMAN	16.4	3MI9_C	6SJU_E	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P49863|GRAK_HUMAN	16.4	3MI9_C	1MZA_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P51124|GRAM_HUMAN	16.4	3MI9_C	2ZGH_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P56730|NETR_HUMAN	16.4	3MI9_C	2XRC_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P57727|TMPS3_HUMAN	16.4	3MI9_C	1Z8G_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P83105|HTRA4_HUMAN	16.4	3MI9_C	3NUM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P83110|HTRA3_HUMAN	16.4	3MI9_C	4RI0_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|P98073|ENTK_HUMAN	16.4	3MI9_C	2XRC_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q04756|HGFA_HUMAN	16.4	3MI9_C	5EDM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q14520|HABP2_HUMAN	16.4	3MI9_C	5EDM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q15661|TRYB1_HUMAN	16.4	3MI9_C	6P0P_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q16651|PRSS8_HUMAN	16.4	3MI9_C	5EDM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q16850|CP51A_HUMAN	16.4	3MI9_C	4UHL_F	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q2L4Q9|PRS53_HUMAN	16.4	3MI9_C	2B9L_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q2T9J0|TYSD1_HUMAN	16.4	3MI9_C	3FAO_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q2TV78|MST1L_HUMAN	16.4	3MI9_C	4DUR_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q5K4E3|POLS2_HUMAN	16.4	3MI9_C	2B9L_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q6GPI1|CTRB2_HUMAN	16.4	3MI9_C	4BXW_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q6PEW0|PRS54_HUMAN	16.4	3MI9_C	1ELT_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q6SJ93|F111B_HUMAN	16.4	3MI9_C	1LVM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q6UWB4|PRS55_HUMAN	16.4	3MI9_C	5EDM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q6UWY2|PRS57_HUMAN	16.4	3MI9_C	4Q7Z_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q6UXH9|PAMR1_HUMAN	16.4	3MI9_C	1ZJK_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q6ZMR5|TM11A_HUMAN	16.4	3MI9_C	5EDM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q6ZWK6|TM11F_HUMAN	16.4	3MI9_C	4BXW_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q7RTY3|PRS45_HUMAN	16.4	3MI9_C	3F1S_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q7RTY5|PRS48_HUMAN	16.4	3MI9_C	1MD8_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q7RTY7|OVCH1_HUMAN	16.4	3MI9_C	5EDM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q7RTY8|TMPS7_HUMAN	16.4	3MI9_C	2XRC_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q7RTY9|PRS41_HUMAN	16.4	3MI9_C	2B9L_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q7RTZ1|OVCH2_HUMAN	16.4	3MI9_C	5EDM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q7Z410|TMPS9_HUMAN	16.4	3MI9_C	2XRC_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q7Z5A4|PRS42_HUMAN	16.4	3MI9_C	3NXP_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q86T26|TM11B_HUMAN	16.4	3MI9_C	5EDM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q86WS5|TMPSC_HUMAN	16.4	3MI9_C	2B9L_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q8IU80|TMPS6_HUMAN	16.4	3MI9_C	2XRC_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q8IYP2|PRS58_HUMAN	16.4	3MI9_C	6BJR_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q8N3Z0|PRS35_HUMAN	16.4	3MI9_C	1WCZ_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q8NF86|PRS33_HUMAN	16.4	3MI9_C	5EDM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q8NHM4|TRY6_HUMAN	16.4	3MI9_C	5EDM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q92743|HTRA1_HUMAN	16.4	3MI9_C	3NUM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q92876|KLK6_HUMAN	16.4	3MI9_C	6SKB_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q96PZ2|F111A_HUMAN	16.4	3MI9_C	1LVM_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q99895|CTRC_HUMAN	16.4	3MI9_C	1MD8_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9BQR3|PRS27_HUMAN	16.4	3MI9_C	1MD8_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9BYE2|TMPSD_HUMAN	16.4	3MI9_C	1Z8G_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9BZJ3|TRYD_HUMAN	16.4	3MI9_C	6P0P_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9GZN4|BSSP4_HUMAN	16.4	3MI9_C	1MD8_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9H2R5|KLK15_HUMAN	16.4	3MI9_C	6SKB_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9H3S3|TMPS5_HUMAN	16.4	3MI9_C	1Z8G_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9NRR2|TRYG1_HUMAN	16.4	3MI9_C	2B9L_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9NRS4|TMPS4_HUMAN	16.4	3MI9_C	1Z8G_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9NZP8|C1RL_HUMAN	16.4	3MI9_C	1MD8_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9P0G3|KLK14_HUMAN	16.4	3MI9_C	6SKB_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9UBX7|KLK11_HUMAN	16.4	3MI9_C	6SKB_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9UI38|TSP50_HUMAN	16.4	3MI9_C	3F1S_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9UKQ9|KLK9_HUMAN	16.4	3MI9_C	6SKB_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9UKR0|KLK12_HUMAN	16.4	3MI9_C	6SKB_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9UKR3|KLK13_HUMAN	16.4	3MI9_C	6SKB_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9UL52|TM11E_HUMAN	16.4	3MI9_C	1MD8_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9UNI1|CELA1_HUMAN	16.4	3MI9_C	3MU4_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9Y337|KLK5_HUMAN	16.4	3MI9_C	6SKB_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9Y5K2|KLK4_HUMAN	16.4	3MI9_C	6KBR_A	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9Y5Q5|CORIN_HUMAN	16.4	3MI9_C	2XRC_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9Y5Y6|ST14_HUMAN	16.4	3MI9_C	2XRC_B	2XTT_A	6DWH_E
+sp|P04608|TAT_HV1H2	sp|Q9Y6M0|TEST_HUMAN	16.4	3MI9_C	1MD8_A	2XTT_A	6DWH_E
+sp|A0A0J9YX06|TJB12_HUMAN	sp|P04578|ENV_HV1H2	16.3	3ZHK_A	6PWU_E	6VPX_K	3J70_P
+sp|P04585|POL_HV1H2	sp|A0A0J9YX06|TJB12_HUMAN	16.3	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A0J9YXA8|TJB11_HUMAN	16.3	1L6N_A	2KH2_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A0J9YXG5|TJB14_HUMAN	16.3	1L6N_A	6VI4_D	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A075B6V1|A0A075B6V1_HUMAN	16.3	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0J9YX06|TJB12_HUMAN	16.3	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0J9YXA8|TJB11_HUMAN	16.3	1L6N_A	2KH2_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0J9YXG5|TJB14_HUMAN	16.3	1L6N_A	6VI4_D	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6V1|A0A075B6V1_HUMAN	16.3	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|Q3LI63|KR201_HUMAN	sp|P04585|POL_HV1H2	16.2	2Z84_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	tr|A0A075B6W3|A0A075B6W3_HUMAN	16.2	1L6N_A	5VM6_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A075B6Z5|A0A075B6Z5_HUMAN	16.2	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A0A0MT92|A0A0A0MT92_HUMAN	16.2	1L6N_A	5VM4_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6W3|A0A075B6W3_HUMAN	16.2	1L6N_A	5VM6_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6Z5|A0A075B6Z5_HUMAN	16.2	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0A0MT92|A0A0A0MT92_HUMAN	16.2	1L6N_A	5VM4_B	2XT1_A	6FPV_A
+sp|A1L3X4|MT1DP_HUMAN	sp|P04585|POL_HV1H2	16.1	4MT2_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	tr|A0N4Z3|A0N4Z3_HUMAN	16.1	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0N4Z3|A0N4Z3_HUMAN	16.1	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|Q969W0|SPTSA_HUMAN	sp|P04591|GAG_HV1H2	16.1	3FGH_A	1L6N_A	6CG0_N	6OET_C
+tr|A0A075B6Z8|A0A075B6Z8_HUMAN	sp|P04578|ENV_HV1H2	16.0	6GKD_B	6PWU_E	6VPX_K	3J70_P
+sp|P04585|POL_HV1H2	tr|A0A0J9YVP9|A0A0J9YVP9_HUMAN	16.0	1L6N_A	6RUL_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A0J9YWN2|A0A0J9YWN2_HUMAN	16.0	1L6N_A	4I0C_D	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0J9YVP9|A0A0J9YVP9_HUMAN	16.0	1L6N_A	6RUL_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0J9YWN2|A0A0J9YWN2_HUMAN	16.0	1L6N_A	4I0C_D	2XT1_A	6FPV_A
+sp|P04578|ENV_HV1H2	tr|A0A075B6V2|A0A075B6V2_HUMAN	15.9	6PWU_E	6GKD_B	6DCQ_D	6VPX_P
+tr|A0A0A0MT97|A0A0A0MT97_HUMAN	sp|P04578|ENV_HV1H2	15.9	4W6X_B	6PWU_E	6NIJ_H	3J70_P
+sp|P04585|POL_HV1H2	sp|A0A0C4DH62|HJ01_HUMAN	15.9	1L6N_A	2KH2_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A075B6V9|A0A075B6V9_HUMAN	15.9	1L6N_A	1ZMY_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A075B6X0|A0A075B6X0_HUMAN	15.9	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0C4DH62|HJ01_HUMAN	15.9	1L6N_A	2KH2_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6V9|A0A075B6V9_HUMAN	15.9	1L6N_A	1ZMY_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6X0|A0A075B6X0_HUMAN	15.9	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+sp|P04578|ENV_HV1H2	sp|A0A0A0MT76|LJ01_HUMAN	15.8	6PWU_E	5VM4_B	6DCQ_D	6VPX_P
+sp|P04585|POL_HV1H2	tr|A0A075B6Y0|A0A075B6Y0_HUMAN	15.8	1L6N_A	6GKD_B	1BAI_B	1BAI_B
+sp|A0A0B4J200|TJB23_HUMAN	sp|P04578|ENV_HV1H2	15.7	5OVW_L	6PWU_E	6VPX_K	3J70_P
+tr|A0A075B6W3|A0A075B6W3_HUMAN	sp|P04578|ENV_HV1H2	15.7	5VM6_A	6PWU_E	6NIJ_H	3J70_P
+sp|P04591|GAG_HV1H2	sp|P58549|FXYD7_HUMAN	15.7	1L6N_A	3WGU_G	4AYB_N	4AYB_P
+sp|P05919|VPU_HV1H2	tr|A0A1B0GWH6|A0A1B0GWH6_HUMAN	15.7	2N28_A	6HWH_i	2KNC_B	2KNC_A
+sp|P04585|POL_HV1H2	sp|A0A0A0MT87|TJB24_HUMAN	15.6	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A075B6V3|A0A075B6V3_HUMAN	15.6	1L6N_A	6GJS_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A075B6Z3|A0A075B6Z3_HUMAN	15.6	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0A0MT87|TJB24_HUMAN	15.6	1L6N_A	5OVW_L	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|Q3LHN2|KR192_HUMAN	15.6	1L6N_A	1XJH_A	4AYB_N	4AYB_P
+sp|P04591|GAG_HV1H2	sp|Q9HCU8|DPOD4_HUMAN	15.6	1L6N_A	6TNY_D	6SW9_8	6SW9_C
+sp|P04591|GAG_HV1H2	tr|A0A075B6V3|A0A075B6V3_HUMAN	15.6	1L6N_A	6GJS_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6Z3|A0A075B6Z3_HUMAN	15.6	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+tr|A0A5H1ZRR4|A0A5H1ZRR4_HUMAN	sp|P04578|ENV_HV1H2	15.5	6GKD_B	6PWU_E	6VLR_E	4TVP_G
+sp|Q3LHN2|KR192_HUMAN	sp|P04585|POL_HV1H2	15.5	1XJH_A	1L6N_A	5FMF_L	5FMF_R
+sp|P04585|POL_HV1H2	tr|A0A0A0MTA3|A0A0A0MTA3_HUMAN	15.5	1L6N_A	4KV5_E	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A0C4DH63|A0A0C4DH63_HUMAN	15.5	1L6N_A	6IW2_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0A0MTA3|A0A0A0MTA3_HUMAN	15.5	1L6N_A	4KV5_E	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0C4DH63|A0A0C4DH63_HUMAN	15.5	1L6N_A	6IW2_B	2XT1_A	6FPV_A
+tr|A0A0A0MT99|A0A0A0MT99_HUMAN	sp|P04578|ENV_HV1H2	15.5	5VM4_B	6PWU_E	6VN0_G	6MTJ_B
+sp|A0A075B6S0|TRGJ1_HUMAN	sp|P04578|ENV_HV1H2	15.4	6GKD_B	6PWU_E	6VLR_E	4TVP_G
+tr|A0A075B6V3|A0A075B6V3_HUMAN	sp|P04578|ENV_HV1H2	15.4	6GJS_B	6PWU_E	6VPX_K	3J70_P
+sp|P04585|POL_HV1H2	tr|A0N4X5|A0N4X5_HUMAN	15.3	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0N4X5|A0N4X5_HUMAN	15.3	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04578|ENV_HV1H2	sp|A0A075B700|TJA31_HUMAN	15.2	6PWU_E	5LHX_B	6DCQ_D	6VPX_P
+tr|A0A075B6U8|A0A075B6U8_HUMAN	sp|P04578|ENV_HV1H2	15.2	6GJS_B	6PWU_E	6VLR_E	4TVP_G
+tr|A0N4X5|A0N4X5_HUMAN	sp|P04578|ENV_HV1H2	15.2	6GKD_B	6PWU_E	6NIJ_H	3J70_P
+sp|P04585|POL_HV1H2	tr|A0A075B6Z2|A0A075B6Z2_HUMAN	15.2	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A0A0MT96|A0A0A0MT96_HUMAN	15.2	1L6N_A	2I24_N	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6Z2|A0A075B6Z2_HUMAN	15.2	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+tr|A0A075B6V7|A0A075B6V7_HUMAN	sp|P04578|ENV_HV1H2	15.2	6GKD_B	6PWU_E	6NIJ_H	3J70_P
+tr|A0A075B6X7|A0A075B6X7_HUMAN	sp|P04578|ENV_HV1H2	15.2	5OVW_L	6PWU_E	6VN0_G	6MTJ_B
+sp|P04578|ENV_HV1H2	tr|A0A075B6Y5|A0A075B6Y5_HUMAN	15.1	6PWU_E	5NGV_H	6DCQ_D	6VPX_P
+tr|A0N4Z3|A0N4Z3_HUMAN	sp|P04578|ENV_HV1H2	15.1	6GKD_B	6PWU_E	6NIJ_H	3J70_P
+sp|P04585|POL_HV1H2	tr|A0A0A0MT69|A0A0A0MT69_HUMAN	15.1	1L6N_A	4HGM_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0A0MT69|A0A0A0MT69_HUMAN	15.1	1L6N_A	4HGM_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	sp|A0A075B6Y3|TJA3_HUMAN	15.0	1L6N_A	6GJS_B	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0N4Z7|A0N4Z7_HUMAN	15.0	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A075B6Y3|TJA3_HUMAN	15.0	1L6N_A	6GJS_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0N4Z7|A0N4Z7_HUMAN	15.0	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+tr|A0A075B6W4|A0A075B6W4_HUMAN	sp|P04578|ENV_HV1H2	15.0	3ZHK_A	6PWU_E	6VPX_K	3J70_P
+sp|A0A0J9YXA8|TJB11_HUMAN	sp|P04578|ENV_HV1H2	14.9	2KH2_B	6PWU_E	6NIJ_H	3J70_P
+sp|P04585|POL_HV1H2	tr|A0A075B6V2|A0A075B6V2_HUMAN	14.9	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|A0A0J9YWP8|TJB13_HUMAN	sp|P04591|GAG_HV1H2	14.9	4R29_B	1L6N_A	1VQO_U	2QEX_Z
+sp|P04591|GAG_HV1H2	tr|A0A075B6V2|A0A075B6V2_HUMAN	14.9	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6Y0|A0A075B6Y0_HUMAN	14.9	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04618|REV_HV1H2	tr|A0A0C4DH63|A0A0C4DH63_HUMAN	14.9	2X7L_R	6IW2_B	5DHX_C	6CVK_A
+tr|A0A075B6X8|A0A075B6X8_HUMAN	sp|P04578|ENV_HV1H2	14.9	6GKD_B	6PWU_E	6VPX_K	3J70_P
+sp|P04585|POL_HV1H2	tr|A0A075B6X8|A0A075B6X8_HUMAN	14.8	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6X8|A0A075B6X8_HUMAN	14.8	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04618|REV_HV1H2	tr|A0A0A0MT93|A0A0A0MT93_HUMAN	14.8	2X7L_R	6APO_A	5DHX_C	6CVK_A
+tr|A0A075B6Y1|A0A075B6Y1_HUMAN	sp|P04578|ENV_HV1H2	14.8	6GKD_B	6PWU_E	6VN0_G	6MTJ_B
+tr|A0A0C4DH63|A0A0C4DH63_HUMAN	sp|P04578|ENV_HV1H2	14.8	6IW2_B	6PWU_E	6NIJ_H	3J70_P
+tr|A0A075B6Z9|A0A075B6Z9_HUMAN	sp|P04578|ENV_HV1H2	14.7	5U64_B	6PWU_E	6NNF_U	6B0N_G
+sp|P04585|POL_HV1H2	tr|A0A075B714|A0A075B714_HUMAN	14.7	1L6N_A	5VM6_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B714|A0A075B714_HUMAN	14.7	1L6N_A	5VM6_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0J9YW22|A0A0J9YW22_HUMAN	14.7	1L6N_A	6GYH_A	5UDH_B	5UDH_A
+tr|A0A075B6V8|A0A075B6V8_HUMAN	sp|P04578|ENV_HV1H2	14.7	6GKD_B	6PWU_E	6VPX_K	3J70_P
+sp|P04585|POL_HV1H2	tr|A0A075B6V8|A0A075B6V8_HUMAN	14.6	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6V8|A0A075B6V8_HUMAN	14.6	1L6N_A	6GKD_B	2XT1_A	6FPV_A
+sp|P69726|VPR_HV1H2	tr|A0A0J9YW22|A0A0J9YW22_HUMAN	14.6	1ESX_A	6GYH_A	5JK7_F	5JK7_F
+sp|A0A075B6Y3|TJA3_HUMAN	sp|P04578|ENV_HV1H2	14.6	6GJS_B	6PWU_E	6VPX_K	3J70_P
+tr|A0A075B709|A0A075B709_HUMAN	sp|P04578|ENV_HV1H2	14.6	6GKD_B	6PWU_E	6VPX_K	3J70_P
+tr|A0A075B710|A0A075B710_HUMAN	sp|P04578|ENV_HV1H2	14.5	6GJS_B	6PWU_E	6VPX_K	3J70_P
+sp|P04585|POL_HV1H2	tr|A0A075B6Z9|A0A075B6Z9_HUMAN	14.4	1L6N_A	5U64_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A075B6Z9|A0A075B6Z9_HUMAN	14.4	1L6N_A	5U64_B	2XT1_A	6FPV_A
+tr|A0A0J9YWJ2|A0A0J9YWJ2_HUMAN	sp|P04585|POL_HV1H2	14.4	2DL1_A	1L6N_A	6BK8_D	6BK8_O
+tr|A0A0J9YWJ2|A0A0J9YWJ2_HUMAN	sp|P04591|GAG_HV1H2	14.4	2DL1_A	1L6N_A	6BK8_D	6BK8_O
+tr|A0A075B6U7|A0A075B6U7_HUMAN	sp|P04578|ENV_HV1H2	14.3	5OVW_L	6PWU_E	6VN0_G	6MTJ_B
+tr|A0A075B6Y0|A0A075B6Y0_HUMAN	sp|P04578|ENV_HV1H2	14.3	6GKD_B	6PWU_E	6NIJ_H	3J70_P
+tr|A0A075B6W2|A0A075B6W2_HUMAN	sp|P04578|ENV_HV1H2	14.2	6GKD_B	6PWU_E	6VN0_I	6MTJ_B
+tr|A0A0A0MT92|A0A0A0MT92_HUMAN	sp|P04578|ENV_HV1H2	14.1	5VM4_B	6PWU_E	6VPX_K	3J70_P
+tr|A0A075B6X3|A0A075B6X3_HUMAN	sp|P04578|ENV_HV1H2	14.1	6GJS_B	6PWU_E	6VPX_K	3J70_P
+tr|A0A075B6Z2|A0A075B6Z2_HUMAN	sp|P04578|ENV_HV1H2	14.1	6GKD_B	6PWU_E	6NIJ_H	3J70_P
+sp|P04585|POL_HV1H2	tr|A0N4Z8|A0N4Z8_HUMAN	14.0	1L6N_A	4HGM_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0N4Z8|A0N4Z8_HUMAN	14.0	1L6N_A	4HGM_A	2XT1_A	6FPV_A
+tr|A0A075B6V6|A0A075B6V6_HUMAN	sp|P04578|ENV_HV1H2	14.0	3ZHK_A	6PWU_E	6VPX_K	3J70_P
+tr|A0A075B6Y8|A0A075B6Y8_HUMAN	sp|P04578|ENV_HV1H2	14.0	3ZHK_A	6PWU_E	6NIJ_H	3J70_P
+sp|P04585|POL_HV1H2	tr|A0A087WU04|A0A087WU04_HUMAN	13.9	1L6N_A	6GJS_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A087WU04|A0A087WU04_HUMAN	13.9	1L6N_A	6GJS_B	2XT1_A	6FPV_A
+sp|A0A0A0MTA4|TJB25_HUMAN	sp|P04578|ENV_HV1H2	13.9	3ZHK_A	6PWU_E	6VN0_I	6MTJ_B
+tr|A0A075B6V9|A0A075B6V9_HUMAN	sp|P04578|ENV_HV1H2	13.9	1ZMY_A	6PWU_E	6VPX_K	3J70_P
+tr|A0A075B6X9|A0A075B6X9_HUMAN	sp|P04578|ENV_HV1H2	13.9	5FOJ_A	6PWU_E	6NIJ_H	3J70_P
+sp|P04585|POL_HV1H2	sp|A0A0A0MT94|TJB22_HUMAN	13.8	1L6N_A	6TYL_J	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0A0MT94|TJB22_HUMAN	13.8	1L6N_A	6TYL_J	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0C5B5G6|MOTSC_HUMAN	13.8	1L6N_A	5AOQ_M	6SW9_8	5JB3_Y
+tr|A0A075B6U9|A0A075B6U9_HUMAN	sp|P04578|ENV_HV1H2	13.8	5FOJ_A	6PWU_E	6VN0_I	6MTJ_B
+sp|P04585|POL_HV1H2	sp|A0A0A0MT89|KJ01_HUMAN	13.7	1L6N_A	4HGM_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0A0MT89|KJ01_HUMAN	13.7	1L6N_A	4HGM_A	2XT1_A	6FPV_A
+sp|A0A0J9YXG5|TJB14_HUMAN	sp|P04578|ENV_HV1H2	13.6	6VI4_D	6PWU_E	6VPX_K	3J70_P
+tr|A0A075B702|A0A075B702_HUMAN	sp|P04578|ENV_HV1H2	13.6	1ZMY_A	6PWU_E	6NIJ_H	3J70_P
+sp|P04585|POL_HV1H2	sp|A0A0A0MT70|TJB26_HUMAN	13.5	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+sp|P04585|POL_HV1H2	tr|A0A0A0MTA1|A0A0A0MTA1_HUMAN	13.5	1L6N_A	5VM4_B	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	sp|A0A0A0MT70|TJB26_HUMAN	13.5	1L6N_A	3ZHK_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0A0MTA1|A0A0A0MTA1_HUMAN	13.5	1L6N_A	5VM4_B	2XT1_A	6FPV_A
+sp|A0A0A0MT87|TJB24_HUMAN	sp|P04578|ENV_HV1H2	13.5	5OVW_L	6PWU_E	6VPX_K	3J70_P
+tr|A0A075B6Z4|A0A075B6Z4_HUMAN	sp|P04578|ENV_HV1H2	13.5	5NGV_H	6PWU_E	6NIJ_H	3J70_P
+sp|P04585|POL_HV1H2	tr|A0A0A0MT85|A0A0A0MT85_HUMAN	13.4	1L6N_A	3GKZ_A	2XT1_A	6FPV_A
+sp|P04591|GAG_HV1H2	tr|A0A0A0MT85|A0A0A0MT85_HUMAN	13.4	1L6N_A	3GKZ_A	2XT1_A	6FPV_A
+sp|A0A0A0MT70|TJB26_HUMAN	sp|P04578|ENV_HV1H2	13.4	3ZHK_A	6PWU_E	6VPX_K	3J70_P
+sp|P04601|NEF_HV1H2	tr|A0A0A0MT93|A0A0A0MT93_HUMAN	13.3	3TB8_A	6APO_A	4ORZ_B	5MZV_D
+tr|A0A075B6V0|A0A075B6V0_HUMAN	sp|P04578|ENV_HV1H2	13.3	5UJR_A	6PWU_E	6VPX_K	3J70_P
+tr|A0A0A0MTA3|A0A0A0MTA3_HUMAN	sp|P04578|ENV_HV1H2	13.2	4KV5_E	6PWU_E	6NIJ_H	3J70_P
+sp|A0A0A0MT94|TJB22_HUMAN	sp|P04578|ENV_HV1H2	13.1	6TYL_J	6PWU_E	6NIJ_H	3J70_P
+tr|A0A075B6W8|A0A075B6W8_HUMAN	sp|P04578|ENV_HV1H2	13.1	6GJS_B	6PWU_E	6VN0_I	6MTJ_B
+sp|P04578|ENV_HV1H2	sp|A0A0A0MT89|KJ01_HUMAN	13.0	6PWU_E	4HGM_A	6DCQ_D	6VPX_P
+tr|A0A0A0MT85|A0A0A0MT85_HUMAN	sp|P04578|ENV_HV1H2	12.5	3GKZ_A	6PWU_E	6NIJ_H	3J70_P
+sp|P04608|TAT_HV1H2	tr|A0A0J9YWD0|A0A0J9YWD0_HUMAN	12.3	3MI9_C	3C5T_B	6N4Y_C	4NBX_B
+sp|A0A0J9YXM7|TJB15_HUMAN	sp|P04578|ENV_HV1H2	12.1	6GKD_B	6PWU_E	6VO0_I	4TVP_G
+tr|A0A0A0MT96|A0A0A0MT96_HUMAN	sp|P04578|ENV_HV1H2	11.7	2I24_N	6PWU_E	6VO0_I	4TVP_G
+tr|A0A0A0MTA1|A0A0A0MTA1_HUMAN	sp|P04578|ENV_HV1H2	11.7	5VM4_B	6PWU_E	6VO0_G	4TVP_G
+tr|A0A0A0MT69|A0A0A0MT69_HUMAN	sp|P04578|ENV_HV1H2	11.3	4HGM_A	6PWU_E	6VO0_I	4TVP_G