changeset 10:4100ee965124 draft

planemo upload commit 94b0cd1fff0826c6db3e7dc0c91c0c5a8be8bb0c

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/cpt-macros.xml	Mon Jun 05 02:40:41 2023 +0000
@@ -0,0 +1,115 @@
+<macros>
+    <xml name="gff_requirements">
+        <requirements>
+            <requirement type="package" version="2.7">python</requirement>
+            <requirement type="package" version="1.65">biopython</requirement>
+            <requirement type="package" version="2.12.1">requests</requirement>
+			<requirement type="package" version="1.2.2">cpt_gffparser</requirement>
+            <yield/>
+        </requirements>
+        <version_command>
+		<![CDATA[
+			cd '$__tool_directory__' && git rev-parse HEAD
+		]]>
+		</version_command>
+    </xml>
+    <xml name="citation/mijalisrasche">
+        <citation type="doi">10.1371/journal.pcbi.1008214</citation>
+        <citation type="bibtex">@unpublished{galaxyTools,
+		author = {E. Mijalis, H. Rasche},
+		title = {CPT Galaxy Tools},
+		year = {2013-2017},
+		note = {https://github.com/tamu-cpt/galaxy-tools/}
+		}
+		</citation>
+    </xml>
+    <xml name="citations">
+        <citations>
+            <citation type="doi">10.1371/journal.pcbi.1008214</citation>
+            <citation type="bibtex">
+			@unpublished{galaxyTools,
+				author = {E. Mijalis, H. Rasche},
+				title = {CPT Galaxy Tools},
+				year = {2013-2017},
+				note = {https://github.com/tamu-cpt/galaxy-tools/}
+			}
+			</citation>
+            <yield/>
+        </citations>
+    </xml>
+    <xml name="citations-crr">
+        <citations>
+            <citation type="doi">10.1371/journal.pcbi.1008214</citation>
+            <citation type="bibtex">
+			@unpublished{galaxyTools,
+				author = {C. Ross},
+				title = {CPT Galaxy Tools},
+				year = {2020-},
+				note = {https://github.com/tamu-cpt/galaxy-tools/}
+			}
+			</citation>
+            <yield/>
+        </citations>
+    </xml>
+    <xml name="citations-2020">
+        <citations>
+            <citation type="doi">10.1371/journal.pcbi.1008214</citation>
+            <citation type="bibtex">
+			@unpublished{galaxyTools,
+				author = {E. Mijalis, H. Rasche},
+				title = {CPT Galaxy Tools},
+				year = {2013-2017},
+				note = {https://github.com/tamu-cpt/galaxy-tools/}
+			}
+			</citation>
+            <citation type="bibtex">
+			@unpublished{galaxyTools,
+				author = {A. Criscione},
+				title = {CPT Galaxy Tools},
+				year = {2019-2021},
+				note = {https://github.com/tamu-cpt/galaxy-tools/}
+			}
+                        </citation>
+            <yield/>
+        </citations>
+    </xml>
+    <xml name="citations-2020-AJC-solo">
+        <citations>
+            <citation type="doi">10.1371/journal.pcbi.1008214</citation>
+            <citation type="bibtex">
+			@unpublished{galaxyTools,
+				author = {A. Criscione},
+				title = {CPT Galaxy Tools},
+				year = {2019-2021},
+				note = {https://github.com/tamu-cpt/galaxy-tools/}
+			}
+                        </citation>
+            <yield/>
+        </citations>
+    </xml>
+    <xml name="citations-clm">
+        <citations>
+            <citation type="doi">10.1371/journal.pcbi.1008214</citation>
+            <citation type="bibtex">
+			@unpublished{galaxyTools,
+				author = {C. Maughmer},
+				title = {CPT Galaxy Tools},
+				year = {2017-2020},
+				note = {https://github.com/tamu-cpt/galaxy-tools/}
+			}
+			</citation>
+            <yield/>
+        </citations>
+    </xml>
+    <xml name="sl-citations-clm">
+        <citation type="bibtex">
+			@unpublished{galaxyTools,
+				author = {C. Maughmer},
+				title = {CPT Galaxy Tools},
+				year = {2017-2020},
+				note = {https://github.com/tamu-cpt/galaxy-tools/}
+			}
+			</citation>
+        <yield/>
+    </xml>
+</macros>

--- a/cpt_convert_mga/cpt-macros.xml	Fri May 20 08:42:49 2022 +0000
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,115 +0,0 @@
-<?xml version="1.0"?>
-<macros>
-	<xml name="gff_requirements">
-		<requirements>
-			<requirement type="package" version="2.7">python</requirement>
-			<requirement type="package" version="1.65">biopython</requirement>
-			<requirement type="package" version="2.12.1">requests</requirement>
-			<yield/>
-		</requirements>
-		<version_command>
-		<![CDATA[
-			cd $__tool_directory__ && git rev-parse HEAD
-		]]>
-		</version_command>
-	</xml>
-	<xml name="citation/mijalisrasche">
-		<citation type="doi">10.1371/journal.pcbi.1008214</citation>
-		<citation type="bibtex">@unpublished{galaxyTools,
-		author = {E. Mijalis, H. Rasche},
-		title = {CPT Galaxy Tools},
-		year = {2013-2017},
-		note = {https://github.com/tamu-cpt/galaxy-tools/}
-		}
-		</citation>
-	</xml>
-	<xml name="citations">
-		<citations>
-			<citation type="doi">10.1371/journal.pcbi.1008214</citation>
-			<citation type="bibtex">
-			@unpublished{galaxyTools,
-				author = {E. Mijalis, H. Rasche},
-				title = {CPT Galaxy Tools},
-				year = {2013-2017},
-				note = {https://github.com/tamu-cpt/galaxy-tools/}
-			}
-			</citation> 
-		<yield/>
-		</citations>
-	</xml>
-    	<xml name="citations-crr">
-		<citations>
-			<citation type="doi">10.1371/journal.pcbi.1008214</citation>
-			<citation type="bibtex">
-			@unpublished{galaxyTools,
-				author = {C. Ross},
-				title = {CPT Galaxy Tools},
-				year = {2020-},
-				note = {https://github.com/tamu-cpt/galaxy-tools/}
-			}
-			</citation>
-		<yield/>
-		</citations>
-	</xml>
-        <xml name="citations-2020">
-		<citations>
-			<citation type="doi">10.1371/journal.pcbi.1008214</citation>
-			<citation type="bibtex">
-			@unpublished{galaxyTools,
-				author = {E. Mijalis, H. Rasche},
-				title = {CPT Galaxy Tools},
-				year = {2013-2017},
-				note = {https://github.com/tamu-cpt/galaxy-tools/}
-			}
-			</citation>
-                        <citation type="bibtex">
-			@unpublished{galaxyTools,
-				author = {A. Criscione},
-				title = {CPT Galaxy Tools},
-				year = {2019-2021},
-				note = {https://github.com/tamu-cpt/galaxy-tools/}
-			}
-                        </citation>
-                        <yield/>
-		</citations>
-	</xml>
-        <xml name="citations-2020-AJC-solo">
-		<citations>
-			<citation type="doi">10.1371/journal.pcbi.1008214</citation>
-                        <citation type="bibtex">
-			@unpublished{galaxyTools,
-				author = {A. Criscione},
-				title = {CPT Galaxy Tools},
-				year = {2019-2021},
-				note = {https://github.com/tamu-cpt/galaxy-tools/}
-			}
-                        </citation>
-                        <yield/>
-		</citations>
-	</xml>
-        <xml name="citations-clm">
-		<citations>
-			<citation type="doi">10.1371/journal.pcbi.1008214</citation>
-			<citation type="bibtex">
-			@unpublished{galaxyTools,
-				author = {C. Maughmer},
-				title = {CPT Galaxy Tools},
-				year = {2017-2020},
-				note = {https://github.com/tamu-cpt/galaxy-tools/}
-			}
-			</citation>
-                        <yield/>
-		</citations>
-	</xml>
-        <xml name="sl-citations-clm">
-			<citation type="bibtex">
-			@unpublished{galaxyTools,
-				author = {C. Maughmer},
-				title = {CPT Galaxy Tools},
-				year = {2017-2020},
-				note = {https://github.com/tamu-cpt/galaxy-tools/}
-			}
-			</citation>
-                        <yield/>
-	</xml>
-</macros>

--- a/cpt_convert_mga/cpt_convert_mga_to_gff3.py	Fri May 20 08:42:49 2022 +0000
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,125 +0,0 @@
-#!/usr/bin/env python
-import sys
-import argparse
-from Bio import SeqIO
-from Bio.SeqFeature import SeqFeature
-from Bio.SeqFeature import FeatureLocation
-from CPT_GFFParser import gffParse, gffWrite, gffSeqFeature
-import logging
-
-logging.basicConfig(level=logging.INFO)
-
-
-def mga_to_gff3(mga_output, genome):
-    seq_dict = SeqIO.to_dict(SeqIO.parse(genome, "fasta"))
-
-    current_record = None
-    for line in mga_output:
-        if line.startswith("#"):
-            if line.startswith("# gc = ") or line.startswith("# self:"):
-                continue
-            chromId = line.strip().replace("# ", "")
-
-            if " " in chromId:
-                chromId = chromId[0 : chromId.index(" ")]
-
-            if chromId in seq_dict:
-                if current_record is not None:
-                    yield current_record
-                current_record = seq_dict[chromId]
-            else:
-                raise Exception(
-                    "Found results for sequence %s which was not in fasta file sequences (%s)"
-                    % (chromId, ", ".join(seq_dict.keys()))
-                )
-
-        else:
-            (
-                gene_id,
-                start,
-                end,
-                strand,
-                phase,
-                complete,
-                score,
-                model,
-                rbs_start,
-                rbs_end,
-                rbs_score,
-            ) = line.strip().split("\t")
-            start = int(start)
-            end = int(end)
-            strand = +1 if strand == "+" else -1
-
-            # Correct for gff3
-            start -= 1
-
-            rbs_feat = None
-            if rbs_start != "-":
-                rbs_start = int(rbs_start)
-                rbs_end = int(rbs_end)
-                rbs_feat = gffSeqFeature(
-                    FeatureLocation(rbs_start, rbs_end),
-                    type="Shine_Dalgarno_sequence",
-                    strand=strand,
-                    qualifiers={
-                        "ID": "%s.rbs_%s" % (current_record.id, gene_id),
-                        "Source": "MGA",
-                    },
-                    phase=phase,
-                    source="MGA"
-                )
-
-            cds_feat = gffSeqFeature(
-                FeatureLocation(start, end),
-                type="CDS",
-                strand=strand,
-                qualifiers={
-                    "Source": "MGA",
-                    "ID": "%s.cds_%s" % (current_record.id, gene_id),
-                }, 
-                phase=phase,
-                source="MGA"
-            )
-
-            if rbs_feat is not None:
-                if strand > 0:
-                    gene_start = rbs_start
-                    gene_end = end
-                else:
-                    gene_start = start
-                    gene_end = rbs_end
-            else:
-                gene_start = start
-                gene_end = end
-
-            gene = gffSeqFeature(
-                FeatureLocation(gene_start, gene_end),
-                type="gene",
-                strand=strand,
-                id="%s.%s" % (current_record.id, gene_id),
-                qualifiers={
-                    "Source": "MGA",
-                    "ID": "%s.%s" % (current_record.id, gene_id),
-                },
-                phase=phase,
-                source="MGA"
-            )
-
-            gene.sub_features = [cds_feat]
-            if rbs_feat is not None:
-                gene.sub_features.append(rbs_feat)
-            current_record.features.append(gene)
-    yield current_record
-
-
-if __name__ == "__main__":
-    parser = argparse.ArgumentParser(description="Convert MGA to GFF3", epilog="")
-    parser.add_argument(
-        "mga_output", type=argparse.FileType("r"), help="MetaGeneAnnotator Output"
-    )
-    parser.add_argument("genome", type=argparse.FileType("r"), help="Fasta Genome")
-    args = parser.parse_args()
-
-    for result in mga_to_gff3(**vars(args)):
-        gffWrite([result], sys.stdout)

--- a/cpt_convert_mga/cpt_convert_mga_to_gff3.xml	Fri May 20 08:42:49 2022 +0000
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,40 +0,0 @@
-<?xml version="1.0"?>
-<tool id="edu.tamu.cpt2.util.mga_to_gff3" name="MGA to GFF3" version="19.1.0.0">
-	<description></description>
-	<macros>
-		<import>cpt-macros.xml</import>
-		<import>macros.xml</import>
-	</macros>
-	<expand macro="requirements"/>
-	<command detect_errors="aggressive">
-@GENOME_SELECTOR_PRE@
-
-python $__tool_directory__/cpt_convert_mga_to_gff3.py
-$mga
-@GENOME_SELECTOR@
-> $data
-
-</command>
-	<inputs>
-		<param label="MGA Output" name="mga" type="data" format="txt"/>
-		<expand macro="genome_selector" />
-	</inputs>
-	<outputs>
-		<data format="gff3" name="data">
-		</data>
-	</outputs>
-	<tests>
-		<test>
-			<param name="reference_genome_source" value="history" />
-			<param name="genome_fasta" value="ConvMga_In.fa" />
-			<param name="mga" value="ConvMga_In.out" />
-			<output name="data" file="ConvMga_Out.gff3" />
-		</test>
-	</tests>
-	<help>
-**What it does**
-
-Converts an input MetaGeneAnnotator table to the GFF3 format.
-	</help>
-		<expand macro="citations" />
-</tool>

--- a/cpt_convert_mga/macros.xml	Fri May 20 08:42:49 2022 +0000
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,43 +0,0 @@
-<?xml version="1.0"?>
-<macros>
-	<xml name="requirements">
-		<requirements>
-			<requirement type="package" version="3.8.13">python</requirement>
-			<requirement type="package" version="1.79">biopython</requirement>
-			<requirement type="package" version="1.2.2">cpt_gffparser</requirement>  
-			<yield/>
-		</requirements>
-	</xml>
-	<xml name="genome_selector">
-		<param name="genome_fasta" type="data" format="fasta" label="Source FASTA Sequence"/>
-	</xml>
-	<xml name="gff3_input">
-		<param label="GFF3 Annotations" name="gff3_data" type="data" format="gff3"/>
-	</xml>
-	<xml name="input/gff3+fasta">
-		<expand macro="gff3_input" />
-		<expand macro="genome_selector" />
-	</xml>
-	<token name="@INPUT_GFF@">
-	"$gff3_data"
-	</token>
-	<token name="@INPUT_FASTA@">
-		genomeref.fa
-	</token>
-	<token name="@GENOME_SELECTOR_PRE@">
-		ln -s $genome_fasta genomeref.fa;
-	</token>
-	<token name="@GENOME_SELECTOR@">
-		genomeref.fa
-	</token>
-        <xml name="input/fasta">
-		<param label="Fasta file" name="sequences" type="data" format="fasta"/>
-	</xml>
-
-	<token name="@SEQUENCE@">
-		"$sequences"
-	</token>
-	<xml name="input/fasta/protein">
-		<param label="Protein fasta file" name="sequences" type="data" format="fasta"/>
-	</xml>
-</macros>

--- a/cpt_convert_mga/test-data/ConvMga_In.fa	Fri May 20 08:42:49 2022 +0000
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,2300 +0,0 @@
->01
-TACTACTATTACTACTACTAAGTACCTTTGTTATGTACTACTATTACTACTACTATTACT
-ACTACTATTACTATTACTACTACTATTACTACTACTATTACTACTACTATTACTACTACT
-ATTACTACTACTACTAAGTACCTGGGAATTCTTTTACCTCTCTCACTCAGCCTATTACTT
-ATTACCGACTTCCCTAACTACTTATTCTATAGTTATAATATTCATTTATTATACAATACT
-TAAACTATAGTATTCTACTGTTAATCTATGCTGAAGCGGTCTTAATCTATGGTTATTATA
-TAATAATCTTATATAATGGTACATTAATCTAGTATATTACATTAGAATCATTCTAATCTA
-GGATTTTAATCTTTAGACCCTAGGAAAAGTGGTACTAAAATATAAAACCCTATAGGTATG
-GGATTCTTATTTTTAAAATTACTAAAAAGTATTAGGTTTTCCCTAGGGCAAAGTTTTAAT
-GTACTTAAAATAGTAAGTAGCTACTTATCATTTAGGGTTCTATAATTGAGAATATTGAGA
-GATAATCCGCTTCAATTGTAATTAATTGTTGACAACTATGAAGCGGGTATGCTATAATTA
-GGTATAGTCAAATTTAGGAGATGAAATAGATGATTGATATATACTTAGGAGAAGGTTATA
-ATAAAGAATACTTGTCTAAAGCACTCAGATTAATCAATGACCATGCTCCTAGGGAGTTAA
-GTTATGATTTTAATAATGTAGAAGCGGATGTTAATATTCACACAATGTTATATGTTAAAC
-CTGAAGATAGATTTATATATAAGGATATATCCTATTACTTCCCGGGTGATTTAATTATTT
-GTATAGTTGATGATGATGCTATTGTATACCACCAAGGTGAGCAGATTTCAGGTATTAGTA
-TTTTAAGAATACTAGAAGAGATATTTTAAGGAGGATAAGTAATCATGATAGGAATAACAA
-TATTAATTACGATAATGAGTATATCAACTATCTCTATGTATATTTATTTTTTAGTAGACT
-TGATTCAGTCAATCAGATATAATAGTTTTGATAAGGTAATTAACGTCATAACATTTGTAC
-TTATGACAGTTATAATAGCATCAGGTATTTTAGCTATACTTGGAATATAGAGCTCATTTA
-AGAAGCGGTTAAGTAGTTAGAGGGGATTTGTCCTAAAATAGTATACCGCTTCTATATGGA
-AGGCTGAGAGGTCTTAGAATTGAAAGGAGAGATATAATGATTCATATATTTGTAAAAGAG
-GATTATAATAAAGAAACATTAAGGAGTTTACTTGAGTATATTAATGATACTGTAGGTAGG
-GAATTAACTTATGGTATTAATACAGACTATGATAAGGATGTCGTGATTGAAACCGATGAC
-CCTATAGATGAGGAGGATACAATTGAGTTATCAGGTACAAACATGTTCAAGGATGACTTA
-TGTATTCTTATAGAAGAGCTATACTGTAAGGCATTTGTTAATGGTGAACCTGTTATTATA
-CGTAAGTATGTAGAGGAGATGTTATAATGATTATAATATTTTTAACTGAAAAATATGATG
-CCAAGGCTTTAAAGAAAGTATTAGAACATATTGATAATTGTAGTAGTAGAGGTCTTAGCT
-ATTTAATGGGAAAAGGAGAAGCGGATGTATGTATAGAGAAAAATGTATTTAGAGAAAGAG
-ATGATGTAAGGATTAACTCAAACATTATTGATGAAGGTAAACTTTGTATACTAATAAATA
-GACATGGTTTAGAATGTAGCTACTATAGAGGTATATCATGTAATATTGGTTCCTTCGTAA
-AGGAGAGATTATAATGATAGAGATATACCTTAGTGAAAATTATGATAAGAATTTACTAAA
-AGCAGAATTAAAATGGATTAAAGAGACCGCTTCAAGAGAACTAACTTATGATGTTAATAG
-AAGTCCAGGATTGGATGTTTATGTTAATCCCTATAGGTGTACTAAAGACGAAGTTGAAGA
-ATGGAGTACACTTCCTCCATTTGAAGATGATATACTTGTATTTATAGCGGAGACGTGGAT
-ACATGAATATCTTAAGGGTGAATCAATAGGTGTAGATAGTATGGAAGAGTATGTAAAGGA
-GATGTAACTAATGTTTAAGGTATATTATACAGTCTACCATAGAGGTAGTATGAAAACTAT
-TAAGGATAAGCTAGATAGAAGTAGTTTAATATACTTCTTGTATGATACTTGGTATAAAGA
-TATTAGTAACGTATTCCCTAATCACTATAATAAAGAGTTTGGGAGTAAGAGTGATGATAT
-AGATATAGATAAACTTATTGAAGCGGTTAATGAGGAAGGTATATTACTTATCAATAGAGG
-TAATTATGTTACAATAAGAGAATGGTAGGATAGGATAAACTTAGGATAGAAAATAATTTA
-GGATGAGTTACAATAGGATAGGATAGGATAGGGGGTTAAGTTAGGATGGATACTTTAACA
-TACACTATTATTCATAAAGAATCTGATAGGGTAATAGCTAGCGGTTTAAATGAGACAGAA
-ACTATGAACTTAGTTCAAAGGATGATAAATACTAATCTAGTTACTGATATATCATTAGAT
-GATTATAAACGCAGACCACATGGAAAGATAGATGTAGTCAATTTACTAGTAGATATTAGA
-AGACAAGGCGTATTTGATTTCAATCACATTTGGCACGTAGGATAGGAGGGATAGGATGAT
-AGTTATATATACAGATGTTTCTAAGGATTATTTAAAAGACGAGTTCTTACCTTGGCTTAA
-TGAAAGGGATAGATACTTAGAATACTATAAAGATGAATTACCTGAGGATATAGATTCCTC
-TTATATTGTATCAGTTGTATACTGTAAGGATATGGAAGGTCTATTAGAAAGAAAAGACAT
-TGTTCTTGATAATAGTTATAATGAACCTGTAGCTTTATTAGGTGTTCCTGAGTTTTTTGG
-TAATTATAGTAATTATTTCTATTATAGAGGAGAAAGTATTAGTAAACATGACCTAGGAGA
-AATTGTTAGGTTAAAAGCTTGGCAACGTATGGGTGGGGATTGACTAAGTAGCTCTCCCTA
-ATTTCACTAAGTAGCTCCCTAGGAATTGCCTAAGTAGCTCGGTATGATTTTACCCTAAGT
-AGCTCCCTCTGTTTTCTACTAGTTTATTTTAACCGCTTCAGGTGTCTATATATATATAGA
-CGGTTGGAATAATATCAGACCGCAAAAATAAATACACTAGGATATTATTCCTAGTGTATT
-ATATAATTTTTTTATAGAATATTTATAACATTGTATTCAAATTCATTTACTTCATGTTGT
-GATTTAATTAAATTTTTAATTAATCCGTTTTGTGTTTTATACTCTTTTATTAGTTTTTCA
-TTTTCTATAATTAAATTATTAAATTCTTCTTTTGTTGTTTCCTCATCTACATAAAATTTA
-CTTTCATATATTTCATAATATTTTTTATCTGTTCCGCCATCTAAATCATCTGATATTTGA
-TAATTTTTGAATATAATTTCTTTTGTTTCTAATTCATTTACTAATAATTGTGATTTTGCA
-TATTGTAATACATCTTCATTGTCCCACATTGGAATATAGTTTATTTTCATTTAAATCAAA
-TCCTTTTCTTATAATTTTTTTATATAATATTTGTAGAAGCGGTTGGGGTTTGTCCCTTGC
-CTTACTACACTTTATATATTACAGTATAGTTATTCAGAAGTCAATACTTTTGAGTAACTT
-TTTTTAAATTCTTTTTTCTTCTATATAATAGTAGTTTTTAGCCCTAAAAATGTTTTTAAA
-AGAATTTGCATTTTCTTATTGACTTTATTATCATATGGTAGTAATATAAAGGTACAGCAA
-GGGAACAGCAACAAGATATTAGAATTATATAAAAAAATTATTTAATTGGAGATGATTTAA
-ATGGATGTAAAAGAAATTGCAAATACTATAATGGAGTTGTGGCAAATGGACGGCTACAGA
-TGTGCAGAACCTCCATTATATGAAAGCACACTAAACCATACACGCACATATACGGCGTTA
-ATTGTTTCTATTAATGGAAACTATGACACAGTGCAGATGTTCCGCAAAACGCCTATAATG
-AGCATGAGAGGGCAAAGCCAACCGGCTAGCATGTTAGTTAATGTGATTGACGATGTAATT
-ATAATCGTATATGAAAATGTAGTGTACGGAGTTCAAAACAAAGAAATAAAATTTATTGAA
-GAAATTTAAAAATAGGGGTTGCAATCCTCAAGCATCTATAGTAATATAATAGGTGTAGGG
-GATAGCAACACACCTCAAAAAACTTTTTAAAAAAGTTAAAGAAAAGTGTTGACACCTTAC
-AAGATACATGTTATTATTAAGATAACAAATAAGACAAGCCACCTAGCAAATAACGAAATT
-AAATAAAAAAATTATAGAATAGGATTTGATTATTATGACAAACAAAAATTACTTATACGA
-AGAAACTCACACAGTACAAGGGCAAGACATTACGGCTTTCAGAATTCCAAATGACGCAAA
-CGGCAACCCACGTTATGTAGTGCATTTCATGGATTTAGATATTAAACTAGCAGACTATGA
-CAACATCAATAAACTATACGGCTTTAAAAAATATACTGCTAAATGGTTTGGCGGTGGTGT
-AGTATTCCAAAGTTATAATATAGAAGATACATTAAATTTTGCACTAGATAATGTTAAAGA
-AATAGAAGCGGTTAAGAATTAAAACCGCTTCTGAATTAAATAAAAAAATTATATAAAAAG
-GATATGATAATATGAAATTTAAAATAGAAAAAAATAATAGTGATATAAAAACTTTATGGA
-ATTTAGCAAAAAATGGATATATGAGCTATCAAACTGTACACAATATATTTAAAAATGAAT
-CAGATGAATTTATTATATTTAACAGTAAACAAACTTATAATAAATTTATGAAATTAAGAT
-ATAATAGAAGTGCAATACAATAATATAAAAAAAATTATACAATTCCCTAGGATTAGATTT
-CTAGGGATTTTTATTTATTTTAATTTATATAAAAAAATTATTTAATAAATAAATTAGTGT
-AAAATTGACTGTTGACAAGGTTGTATTTTTTATGGTATAATGAAGTGAAGACCTTTTTTA
-GTATAAAAAAATTATTATATAAAAAATTTATATTAAATGGTTTTAAAACCACTCTTTCCC
-GGAACCTCTTCTCTTATATAGCGGACACGTAGGCTCCTTACCGCTTTCTTACTATACTTA
-TAGTATACTATAGAAAAAAGAAAAGGTCAACCCTTTTCTTTAATCTTTTTTATATTTTTT
-TATAATTCTTCTAACGGTTATTTCACTTATATTATATTCCTTTGCTAACATAGGTTGAGT
-GTACTTTCTAGGCTTGTATTTGCTTGCTATGGCTTTTCTTTCATCTTCTGTTAATGCATA
-ACCCCTATTATACCTATTGAAAGTATTGTCTTTATGGTGCCTTTTATTGTGTTCTGACGG
-GCTAATACATTCTAGGTTATCAATACAATTATTTTGTTTGTTACCGTCTATATGGTGTAC
-ATGGTTTGATTTAATAAAATCATTGCCAAAATATTCATATACAAGTCTATGCACCATGTG
-TTTTTTATTATTGACCCTTACGGTTAAATATCCGTCACGGTCTTGATGTACTTTACTCAA
-CCTATCATTTATTTTTACCCTACCTAAATTAGAAACATAAAAATTATATTTATTAAAGTA
-TTCTTTTTTTATAGGTTTCCAAATTTCATTAATTTTATTTTCAACCATTTTTTTACTCCT
-CCTTTTTTGGTATCACTTCCATTATATAATAATTCGGTCTTAATGTCAATAGATAAATGT
-AAAAAAGTTTTTTAAATTAATTTCATTAAATCTATTGACTTTAATATCATTATAGTTTAA
-TATAAAGGTATACCAAATGAAAGGGATTGAACAAAATGATAAAATTTAAATGGAAAAACA
-AAACAATCAAATCAACACAAAAAACAGATAACATTCTCTTACTTATTATAGGGGGTTTAG
-TTGCAACAGTCACACCTAAACTTGTAAACTGGTTTTTACTACTACAAGATAATATAAATA
-TTTTTTTAAGATAACTATTGACAACCTAGAAACAACATGTTAATATTAAGATAACAAATA
-AATCAATAAAGGAAATGATAAAAATGAAAAAAATCACAACAACTTTAAACTTAATCGGCA
-TGAAAAATAATGAAAGGTTTACAGAAGAGTTAAAAAACTACCGTCAAGATGTTACTTTCT
-TGAAAGCAAATAAAATTGTAAAATATTCAAAATAAGGCTTGACAACTTAAACAATAGATG
-TTAATATTAAGATACAAGGTAAGGGAAGCGGTCAACCGCTTCCAACCTAAATAAAAAAAG
-TTTAAAAAAAACTATTGACAGTCACTTGAAACCATGATATTATTAAGATAACAAAAAACA
-AACAGAAAAGGAATTGATTATAATGAAATTTATCAAAACTATCGAAAACTTATTAGAAAA
-AGCAGAAAACAAAGGGCAAGCAATTTTAAATGGTCGTTACTTTGACGGATATAGTAAAGG
-TGAGCTTGAAGAAAAATATGCAATTGAAATTGATGGCAACAAATTAGTTATGCGTCATTG
-GGGTACACAAACAATTGAGATTGACTTAAGCATAAATGAGATTGTTTCATATTACGGTGA
-AAGCAACTCAGACCGTGACAGTTTAAACACACTTGTATATTGCTTAGGAATTGAACCAAA
-CTTTAGATACTTACCAAGCAAAGACTTGTTCATTTACGAAAATTAATTAAATAAAGGGCT
-TGACTTTCAAGCCCTACAATGTTATTATTAAATTGTAAGGTAATCAAGCACAACGACAAA
-ATAAACTGAAAAGGAATTGATACAAATGAAATTAATCAATAGAGATAATGAAATCGTAAT
-TAGCATAGCAACACTTGAGAGTGTAAAACAAGCCCTAATTTGGGAGTACATCGACCACTT
-AGATAATAACATCCTAGACAAAGAAATACATGACCAGGAAGCGGTTGTTATTACTTCAGA
-CACTTTGCAATCACTCAAATTTGCGGACACTATGGAAGAACTAGAAGAATATGTAAACGA
-CATCGGTTGGAAATTAGTTTAGAAAAGGTATTGACATCCTAACATATAGATGGTAATATA
-AGAGTATAGAAAAAATAAAAAAAGAAAAGGATTTGATTATTATGACAAATACAATACAAG
-CATTTTTACAAGGACAAGAAGCAAGCACAGTTAAGGACGTAGCAACTCATGGAGTACAAA
-GCGGAGCAATTGGCAAATTAATCTACACATCAGACGTAGTAAACTTCTTTGATAGTTACG
-AGCAGGACATTGAAGCGGTCATCACTGAATACATTGAAGAGGTTACAGGACAACAATATT
-ATGACTTATTGAACTATGAGCTTATGAGAGACCTCGAGAATTATGCAAATGTAGAATTTG
-AAGACGAAGACGAATATAATAACATTCAATTTGACCTAGCAGAAAACATTGCTTCTGATG
-AGGTTGAAGGATTTGAAGACATGGACGAAGCAGACCGGGCGGAAGCAATCTATGAGGCTA
-TGGATGATGTTGAATTAGAACTACAAGAAACTGACAAGGTTCAATATGTTAATCTAGCGG
-TTGAGATTGTAGCTCAAAGAATGGCACTATAGAAAGCACACAGAGAAGCGGAACAATACA
-GATGAACAATAATACTACTTCATATAGTAATAGCCCATATGGTAGCTTAGAAGAGCTTAG
-AGAAGCTTATGACCTATCGTCATTATCTACTGGTGAGATTAAAGAACTAATACAAACATT
-TGTTTAAATTATTTTATCAAAACGCTTTACAATCTTTTAGTTTGTATGGTATAATGAACT
-TAACAAATTAAAAGAAAAGGAAATGATGAACATGAGAAACTTATTAGAGCAGGAACAATT
-AGAAAAAGATGTAAAAGACATTATTTGGGTATTAGATAGAATGATTGCTAAAGGAGAACA
-ATACACTGAAGCTTACGATATTTTAGTTAACAAATTAGAAAGACAAGAAAAAAGAATCGT
-AGAAATAAAAAAACAAAATGGAATATTTTAAATAACAAATAGAGGGAATAAAATCCCTCT
-TTTATTTTTATCCTATTATATAATTTTTTTATATTATACGGGGGCAGGGGTAAAATGCCA
-CTCAATGGGGGTGGGTCTATATACCCCTATGGTCTACCCAGGTACTTATTTTTTGGGAAA
-AATTATGAAAATAAATATTTAAAAGTCAACACCTAAAATATAGAAAGTAAGTCAACACCC
-TATATTAAAAGTCAACATTATAACCCCTCCCTGTAAGTCAATAATTTATAGTACAAATAG
-ACAACCTCTAAATATAAAGTCAACATACCTAAAATAAAAAAAGAGGGAAATTAAATCCCT
-CCTCTTAGGTATTATTAACAAACTCTAATTCATGTATAGTAATCATATCCATTCCATAGA
-AATCTCTTGGGTCTCCTTTAATGAACTCTTGCTCACCTCTATGGTTTGTTTCCTCTTTAT
-AACCTTCTTCTTTAATACGTTTAATTAAGTTCTCCTTATCTGTATATATCTTATCTTCTC
-TAAAATGGAAGTTATCTTCATAAGGTTCACAATTATCATGTTCTACTTGGTATAGTTTCA
-TATTACTTATTCTCCTTGATTTTTTTTAGATAGTTTTCATAATAAGCTCTTGATTCTTGT
-GTTAACTTTTCTCTTTCTTCTCTAGACCATTGTAATGCTCCCCAAAATTTCTCATAATTT
-TCTTTTGATAAGTCACCTAGTGGACTGCCCTTAGGTAAGTCTTTAGTAGCTTCTTTTTGT
-ATTTTTTCTCTTTCTTTTTTAATTTCATCTAGTTTTTCTTGATTACCTTTAAATGTGACT
-CTTGGTTTGGATAGTAAGAATTCTAGTATTTCTTCATCTGTAAATACCTTTGCATAACTA
-TCTTTCCATGTAGTATCTTCATAAGAGTGTTTACCTGTATCTTCTAATTCTTTTAACGCC
-AATTTTGAGTAACCTTTTGCATCTATAAGCCCTCTAGTATACATACTTGCAGGGTCTAAG
-AATTTTATTTGGTTCTCATAATTAATAATACTTGTTTCGAGTTTAAGTTTGGCTTGTTCT
-TTGTTCATACTTAATCCTCCTTATACATTTACACTCATGATTAAGTAAAAGTCATAGAAT
-TTACCTTCATATTGTTCTACATTGTATATATGAGACATTAATCTATAATAATATTCTGCA
-TCATGTGTACCTTTAAACGTTTTTTCATTAAACTCATTTTTCATTAGATTAACTAACTTG
-TCTTTAGTTAGTACGAATACACCTTCACACCATTCTTCAAACTCATCATAATATGTCTCT
-GCATCTCTTAAAAGTAAGTCCATAAAATATCCTGGTTTTCTAAAGTCATCTTCAAAGTTA
-AATCCTTTATAATAATTCTTTTCTAATATATGTCTATACCTAGCGTTATTAATAAAGTGC
-TGTAAGCCTTTCTGTTCCACTTTTCTATTACTTAATGTCACACCGATTACTTCAAAGTCT
-AGTCCCATTATTTTTCCTCCTCTTCATAAGACCACGTACCATATTCTGCATTATAGTGTG
-CTGTATCTGCACCTTCATCTTCATATTCTACACTATACCATGCATCCTCCTCTGTTTCTG
-CATCTATATATCTTACCTCTTCTGTAGTAATAGTACGTTTTACTTTGTATCTTTTCAACT
-GTTTTTCCTCCTTTATGTTTTCCTCTAGTATTTGTTTTAATGTCTGACAGTCTTTTTGGT
-CTAGAGTATCCCAACTCTCTAGATTTTGTAATTGATAAAGTAACTCATTTACAATTTCAT
-CGAAGGCTTCTGCTTTTTTATATACTTCTTCTAGTTCTGTTTCTGCTAATTTTCTATTCC
-TTTTAATTTGTTCTGCTTTAGTTACTAAGATATGGGCTTTATTCATTTCCTCTATAATAA
-AGTTTTTATAGTTTTCCATTATTATTTATCCCTCCTATTTTCTATCCGTTGTTTTATCTC
-TTCTCTATTGCGGTGGTGCTCCTTACTCATTTCTTTACGTTCCTTATTTGTTAACCTTAT
-TCTATAAACAAGGTAGTTAATGTATAAGATACCGGCTGACCATAGTAGCAAGAATGATAT
-TAAATAAGTCCATGAGATACTAATTTCTATCATTGTGAGTCCTCCTTATATTCTTTATAG
-CTCTTAATGGCTATTTTACAAATACCTCTATTTACAGCAACAAATACTATAAATGATAAT
-AGTGTTATAACTGCTCTTACATCCCCTGTAAAAGGTAATGATTGAAAGAGCAAATAGTTT
-TCTAAAACACTAATAGCTGTAATAGTAGTTAGATATAATATAGATAATAAGTAATCCTTT
-AATTTTAGTTTAACAAATGGTTTTTTGTGCTCACCTGTTCTTACAATACCATAAAGTATT
-ATGAACCACATAACAGGTACTAACTGTATAATAAAATCATTGTCTACATTTAATGCATGT
-AGAGCGTAAATAATAACTGCAGGAATACCTATAATGAATGCTAGGAATACAGAAAATATA
-ATTAACATTATAGGGAGGGCTACAAGAAAACCTAGCCCCTGTTTTGAATACTCTAATGTG
-TTTTTACCTAGGAACTTAAAAAATGTTTTATTCATCTTCTTCCTCCTTGGAATTACTTTC
-TGTAATTGTAATTTCTAACATATTATTGTAATAATCATTCTTTTGATTGATATTATAGTT
-ATCATTGTATTCATTAAAGTCTACATAAATATATTCATTTGCGTCATTTTCATAAATAAT
-ATCTATAGCTGTAATATCTGAATATGCTGTAATCATTTCATAAGCGTTCGTATTATCAGG
-ATAAGCAAAACCAACTTGAGGTATTTCCATAGGCTTATCAATAAGAATACCGAAATAAGT
-ACAGTGACGTGTTCGACTTATACTTGAAGTCCCTTTATATGTACCATAGTAATCTATACC
-TTCTGTAATACCTGATATATGGAACCTGCTTACGTCTTTAGGCTCTAATCTTACAACATC
-GCAATTTTCTAATACTAAATCAATATATTTGATATTCATTTTAACTCTCCTTTTATATTA
-ATAATTCTTTCCATTCTTTATCAACCTTTTTAAGTTCTTTTTTATTATAGTCCCCGTCTT
-TAGTTACTACAGTGTTCCATTGGAACTTTTGTAATAAGCTAAAATTATTTATAATCCATA
-TATTACTTTTACTATAATACATATTGTCTTCAAATCTTATATCTTTTTCTATAAAATATT
-TATATATTTTATATCTTCTTTCATCTGCACCTGATATTTTAATAATTTCATTAGTATTTA
-ATTGAGTGGATAACTGGAAGATAACATCTTTTACTTTCAATAGGTCTTTAACATTACCTC
-TGCCTACATGGTCATTATAGCAATCATATTTAACTTTTTTCTTTTGTTTTCTATCATTAA
-CTACAATGAATATATTATATACGATATAAGCTTTAAAATGGGTATAGGTAGTAGGTGCTT
-CTGAATCATCACATTCTTTTCTTAGGTCTGTACATTGTATTTTTAATGTAATATTATTTG
-ATATGTTAACTACAGTAGAGCCCTCATGTTTTTTATTAAGATTTATCTTATCCATTTTAT
-AATTACCTACTTATTGTAGATACAATGTACTCGAACATCTTCCATTACTTTGCCTAATAG
-ATTCTGACCTTTCCAGTTACTTTGCTCTAATATTTTAGGGTCATTTGCTTTAAGACCTAC
-TCCCCATATTTTATCATAAGGTGAAGCTTCTACAAAATCTTTACGTACATCTGTGTCTAA
-TATTCTTTGCTTTAGGTGTGTAGTCATAAATTTATCTTTAACTACTTCTACCATAATATT
-ATATCTTACTTTATTCCACTGTTCTTCATTAAAATTACGAACTTTACGACCTAAACTTTT
-AGCATGGTTTGGGTTCTTAGCATTTAGTATTTCACCTGCTATTTGAAAGTCATTAAAGTA
-TCTTGCTTTGCGCCACATAAAGGCTTGCTCTGAGTTATTAAATGTTCTTCCTTGGTGTTT
-AAACTTTATAGGGTAGAAATTAGAATAAATATCCTCTTTACCCCAAAACATAATATATTC
-CCTTGTTTCTCTCATAATATTTCTCCTTTAATTCCATAGTGATGGTAATACAATTTTAAA
-ATTATCTAATATTTTACTTTGTACCTGTTCAAGCTCATCATATTTATCCATATCAAAATC
-ATCCATTTCTTTATGATAATATTTTATTAAGCTTAAAATATGTTTTATCATATCTATTTG
-TGTTCTTTCTTTGCCGTCTACATCTACAAAAGTATGGTATTCCATATCCACATGATTACT
-ACTCTCTATAAATGCATTTAGGTCAGCGTATAGCTGAATAAAAAAGGACATGTCATAATT
-CCAATACTTAGGTTCATTTCTACCTAGTTTTTTCTTCATTTTCTTATATTTTTTATTCTT
-TTTTATCCCAAAAACTTCTTTTTCAAAGTCATTCAATTTAAGACCTTTAAAATATTTTTT
-CTTCATTTCTTAACCTCCAATTTAATAAATGGAAAATCAATGTTTCTAAATACTGCGCCA
-ACATCACACATTAACATGTCTCCATTAATTTCTACTTCTCCACTGTCTGTAGGGGTGTGA
-CCACATACATAGGTAAAACCATCTTTTCTAGGTTGAAAGTCTCTTGACCATATTAATTGG
-TCAATTGTTTGTTCTTCTACAGGTTTCCAACTAACCCCACCTGAATGAGAGAATATATAC
-TTGTCTTCTTTATAGTACTTTCTACAATTAACCATAAGTATTTTAAATTTTCTATAGTCG
-TCTGATTCTTTAAGTTTCTTTAGTTCACTTTTAATAAAATCATAATTATTTCTTAGATTT
-TCCTCTACACTACTATATTTTAAAGTTACTGTACTCACACCGTAAGAGTTAAGTGTTTCT
-ATACAATATCTTGAGAGCCATTCAATATCATAGATACTTAATCGGTCTACGTTTTCCATA
-ATATTATAAAACTCATCATCATGGTTCCCTAACAGAGTTACTACATTATCATCATTAGAC
-ATTAAATCAAATATATAGTTAACAACATCTTTTGACCTTTTACCTCTATCTACATAATCT
-CCTAAAAATACTATTGTTTCTTCAGGTTTTCTTTCATTATTTATTTTATCCATAATTGTT
-AATAATTTTTGGTATTCTCCGTAAATATCGGGAACAACGTATATAGCCATCTAATCTCCT
-CCTTATTGTATATAACTATCTTACCATACTTAGTAAAAAAAGTCAATAAAAAAACACCTA
-TTAAATTAATAGGTGTTTATCATTTAATGTTATTTTAAAGTATCATTACCATGTGCTAAT
-TTTTTATCATCTATTGCATGGTCATTATAAATATATTTAACCTCTATATACTGGTCTTCA
-CTTTTCAGTGCATCTACTATAGAAGCATTATTAGTTATTGAGCTTGTTCTAGGGTAAGTA
-AATTTTTGACCGTCAGATAAAATAATAGTAACATCAACTTCAAAGTTAACAGGTAGTCTG
-TATCCATAATCTTCCAAATAATTAATAAAGTTATTAAGAGAAAATGGTTTATACTTGCCA
-TCTAAGGTATAGTCAATATATTCATTTAATGCATTAGTAAGTTCTGATTCTGTTAACTCC
-ATTGTATCATAATCTTTTTCGTTATAGAATACTACAACATTAGGTTGTTCTATACTAGAA
-TCTCCGTCTTTATACTTAGATATAAAAAATCCAATATTTCCTTTATGCTCTAAATAATCT
-GCTTTCATAATTTTAAGTACTTCTTCTGCTATAGGTTTTGCTAATAGTGTTACCCATTCA
-CCTTTTTCTGCGTCATAAACACTAGGTAGTACGTTTACCATCATTTAAATCTCCTCTTCT
-TAATTTATTGGTTTAAACCACAATTTACTCTTATCACTTGGTTCTGTTTCACTAACTACG
-AAAGAGTTAGAATCAATGTTTAAAGTATTAAAAACAATTTCTTGTTTGTCTTCATTACTT
-TTTGTTGTAAATTCGGGAACATCTGTTAATATAGACTCTTTACCATTAATAGTCCATGAT
-ATTTTAAAAGACCCTTGGCTATACACTGTATTCGGTGTCAGTTTTTCAATTATAATTTTA
-GCGGATGCACCTGTAATTTTTTCTGAAGATTTTAATAATTTACCTTTGGAATCATATAAG
-TTTAATGTTCTCTCCACAAATTTTATCTCCTTTACTATATTTTGTACAATTAATATAACA
-AAAAAACACCTATTAGTTTAAATAGGTGTCCGACAGAGCTCCCGTACTTAGATTACGGTT
-AATAATATTTTACGACAACTATATGAGACCCTCTGTCGTTGAAACTCTTGTCACTGCGTT
-ATTCCACAAGATATTTTAGAAGGTAGCTTGTGGAAGAAGATTGTTTTTAAAGGTACAATT
-AGCGTTTTTAAGCCTATTCGATACCCAGGACACTATGTCCGTACTAACTATTACGTCAAT
-AAAGGTTCTACGGTCTCAATTACCTACTCTTTATTGTTAAAACTAAAATTAAGCTTGAGT
-GCTCTAGAAGCCAAAATCAATTAATTAACTATAGATACGGAATGGAGGGGCACTACCATC
-CGGAGTCTACGGTCAGATACAAAGCCTCTGCCGGGCAACATACGGTATCTCTCGTACATC
-AGGTTGACTAGACCTTTAGAGTTTTTCACTCCTTCTCTTATAACCAGTAACTTAAGAGAA
-ATAGGTTTTACTTAGTAGATATGAAACAATAAATCCACATACAATATTAAATCATAGTCA
-AGTGATTGCACATATGTCTAACACCTATAAGTTTTTTGCTAGCCTGGTATATGGACTCTG
-CAGGATTCGAACCTACAGTCAAACCGTTATGAGCGGTTGGCTTTACCTTTAAGCTAAGAG
-TCCTAGAAATATCCTGAGAGAGGACTCGAACCTCAACGACTAGGTAGCTACATCTAGCCA
-ATGCCATTACTCAGGATTGCTAGTAACGCTAAATAGAATTATAACGTTACCGTAGACCTT
-TTCTACGCTTGGTAGATAGGTAAAATATAATGATTTCAAAGTACCCATATAGTTAGGCTC
-TTATTCTCATTATAAGGTTAAAAAGGCTAACTGTGTTTAGCATTATATAAGAGGCTTTAG
-TTAACTACTATACTAATAATATACCATAAATTATACTTAATGTCAAGTTAATTTATCAAT
-TGAATCTATAATTTTTGATGTGCTACGTATATCTGCTTCTTTACTATGTTTAAGGAGATA
-TTTTAATTTCATTAAAAAAGAATTTTTTTCTTTTTCTATAATATCTTCTTTATCATCATA
-TTCTGAAAACATAATGAATTCTATACCTATACTATTTCTATTATGTGAAAACATATTTAT
-AGAAAAAGGTGAATCAAAATTTTTATCATCTTTATTAATACTAAAGTCTTCAGTAACCTG
-TAAGTCATTTATTTCAGATATTTCAAAGTAACCATTAACTCTTTTAAGTTCAATATAACT
-ATTGTATCTAAAGTAACGTTGTTCTTCTATTAACTTCTCTTTTGTTATATAAGGATATTC
-ATTTATGAATATAGGATTACTTGTTCCATAGTTATCTCTAATATATTCTGCATCCTCTAG
-GGAATCAGTATAACCTAAAATTTCATAACTTGTTGTATACACTGTATCTTCTTCCCACAA
-GTCATAGTCCATTTCCTCTATTTCTTCTTCTAATATATAAATTTTTTTCATATATTACTC
-CCAAACCCCGATAAGATTTTTAAGCTTAGCTATAACCTCTTCTTCTGTTTGATAAGAAAA
-TACCCCTGTAATATGTTCATAGTTACCTACAATTTCATAATCTTGTGTACCATGTTTATC
-TACTAAGTATGAGTTATTCATAACATTTAAACTATCTTCTGAGTAACTAAAATTTATGTT
-ATAGTCTACTAAAAAATTAATAATATTTTTCATTTACATAACCTCTCCTATCGGATATTG
-TCCTAGCATTCTTGTTCCATTTTCATTATAAAAAGTATATTCTACTACAATAATATTCAT
-CATATCTACATATATAGCTTCTATATACGGTGTAATATTTTCCTCTTCTTGTATGTGTTT
-ACCTATGATATCATATAATAATTCTGAGTGTATTCGTTTATCTCTCATTATAGACCTCCG
-TAAGGAATTCTACAGTTTTGTCTTTCAAAGATTTTTCTACTAATTCCATAGCATCTTTAT
-AGTGTTTGATATTAGATTCATTAGACTTAAGTTTATCTTTTACTTCTTGAATTAGGGGCT
-CTACTTTATTAACCAAATCTTTTTTCTTTTCAATACTTACATTGCTTCTCTTATTGTCTA
-ATACTTCTTTTGGCATATATTTAACTTTTGCAAAGTCTTTATAGCTAACATTTAAGTTAT
-CTAAATCATCTAATAAATCATTATAGTATTCTAAATGATTATAGAATGTATAAAACTTAA
-CAAGGTCTTTACCAGTTAATTCTCCTTTTTTTAGTATATTATTAATATTACCGATAACAG
-AATATGCTATAGGCTTAAAATTAGCTCTAACATAAGTTAAAAATATAAAATCATCATAAA
-ATAAATCTAAAACAGTTTTATTGAATCTAGTATTTTTAGCTTGCTCTAATTGAGCACATA
-AATTAAGAACATTATCAAACCCACTTTTTAGAACTAAAGAGATAAATCTTTCTACTGCAT
-AGTATCTTGATACTTCTGTATGCTTACTTGCTTTTTCATTATTCCTAAATATAGTATCTG
-ATAAAGGTTGAACAACTAAACTCATGTAATCTTTATCTGAATGCTCATCTGATGTTCCTT
-GATAAGTACTTCCAAATTCTATTGTTGATAATAAGAAACTTTTTTCTAAGTTCATTATAA
-CATCCTCCTTTTATTTGTTATTTAAATAATAACATATATTGATAATAATGTCAATACTTA
-TATATCTTCTTCTGTATCAACTTCATCTTGTTTATACTTAAAGTGTTCATAGACTTTAAA
-TAGTATAATCCCTAGTGTTATTAATCCTAAAATATATTTCATAGCAATCCTCCTTAATAA
-CCATGTTTAGTTACCCACCCTGCTAAAGCATCCATAGCTATATCATATTCTTCTTCATTT
-TTAATTCTTATAATTTTCTCTATTTCTTCCTTTGCTTGCTTAGAACTAATAAAATCAATA
-TCAGTATCCTCTAGGTTAGTTAATTCTAAGTTTTCTCTAATAAAATTCTTTTGACTTGGT
-GTTATAGAATTAACTCTTACATTTTCGTGATTTAGAAATTGGTAGAAGTCCATATTACTC
-ATCCTTTTTAACGTATTCTGCCATATCTTTTAAAATACTTAGTACATACTCTAAATCTCT
-ATATTGGTCATCTAACGAACCTATAATAGCATATGGTGTCATATCCCAGGCATGTGCACA
-GTCAAACCCTAATACTCTCTTACCCTCATAGTCATAATCATCGTAAGTGATACCTCTATG
-GGCACGTCTTTCTAAGGAGTCATATTCTTTTTCATTGATATCTGAAGGTAAAGTTATATA
-TCCATTTAGATGACCAGTTTCAGGGTGTCTCTTAACAGTTAGTTTAACTCCTTTATAATA
-AATATCAAGACTTAAATCTTCTCCTAGAATATTGTTTTCTTTTTCTACTTTTTCCATAAT
-GTATTGAGGTGCTTTTTTAAACATAATTAGTCATCTCCTTTTTATTTATATCTTTACTAT
-ACACTATTTTTTATATTTTGTCAACAAAAAAAGGCTACTAATTAAAGTAGCCTAAATATT
-AATTATTTAGCGTTATAAGACCAACGCCAATAACCATTTTTCTGTGAGAACTCAAAGTGA
-AAACCATCATAGTCAAATTCAATATTATAGTCTCCATCTTGAAGTGGTTTTGAATTTAGT
-ACAGGACTATTACTCTTTGCCAATTCTGCTAGAAACTCATGATTTACTTTTTCCATAGGG
-TTTATTCCTCCTAATTATTCTTACAGTACTAATATATCATAGGTCTTTTTCTAAGTCATT
-TTTAAAAGTTTCCTCGTAAGAACTAGCGTAAGTAACCTCATAACCCACTACGTTAGTATA
-TCCTACATATAATGACTTATAATTAGATTTTATCTTAATATCTTCTGATTGTTCTAGCTT
-ATTTAAGACTTCACCTAAATCATCTGAAGAATAGTGTTCATTATCTATTGTTATTGTTTT
-ACCTTGGGTATAGATATCAATTTCTTGTATCATCATTTCATCCTTTTGATTATTCATTAT
-TTGATTATAAGTTTCTAAATCATCAATGTTATCTGTATCTGAACCTTTTACTAACCATTC
-TCCTCTCTTCTTAAGGAGGTCATCAAACTTCTCATGCTCTTTAATTATCTTTTCTACCTC
-ACTTGGTATTAACACAGCCCTAGCATAGTTTATATGCCACATAGACATATTATCAATAAG
-ATAATTAACCATTCTTATAATCTCTTTTTCATTTGCCATATACCAACCTCCTTATATCTA
-TTACTAATATAAGAGAAAAGCAGACTTATTAAAAGTCTGCTTCTGTACCTAATTCTAATC
-TTCTATTTTTCATATGAGGAATCATTTTTTTATCTCCTGTTAATAGAGATAATTCTCTAG
-CTTTTTCTTTAGATAATGTTAGTAGTCCATTATAATTATCTACTTTACTATTATATTGTC
-TGACTAAGTACTCTAGTTCATCTTCTATACCTGCTAGTTCTCCTGATTTAACTCCAAGTA
-ACTTTCTATACATGTCATAATCTTCAGAAAGACTTTCTACTTTGTTTTTAGATACAGAAT
-CATAAACTGCTTGTAAATTACCTTCTTCAATAAGTTTAAAATTATATTCACCAATGATTA
-ATTCTTTTTCAGAAGAGTCAAGGGTAACTAAACCACTTGTATTACCTGTAAAGTCACCTT
-TATAATCTACAACAATTCCTTCAGTTATTTTATCTCCTAATTCAATAGTTCCATCTTCAT
-TTTCTTTAAATTTATGAGCATCATAAACTTCTACTTTATCACCTAATCTCAAATCTTGAG
-TTAAGTTATGTTTACCAATAATTCTATCCATTACTTAACCTCTCCTTTATTAATAGGGTC
-TTGTGTTAAGAACATTTCTAAGTTCTCTTTTGTAATAGGTAACCAAAAATATTTACTTTC
-CGGAATTGTAACTGTATAGAAGTCTTCATCATTATTAACTTTGATGTTAACATCTGTAAA
-CTCATCTTGCATTAACCAATGGGTTACAGTTAAGTTATATGACCCATCACTAACATATCC
-TAAATCAATATCATGTCTAAAAGCCAAATCTTCTAAATGTTCTAATAAATCGTTCTTTTC
-ATTATGTTTTTCTTCTTCTGTATTATTTTTAATTGGGTTAATTAATTCTGTACAAACAAT
-ATCATACAATTCACCATCTGTAACCTCATAGTTCTTTTCAATTAATACATCTTGTATTTT
-ATTGATTGAATTTGTAACTACTTTCCCATATTCTTCTTCTGTAAACTTACATTTATCTAA
-ATCAACATCTGTAATTAATTCTGCAATCCATTTATTTAAAATTGATACTGCCATTGTTCG
-AGAAATAATACTATCGTATACCATATTTATTTAATCTCCTTATTTAGGTGAATGTGGTCT
-TCTAATGAAAAATCAAAAGGCGCTACACCATTTCTTTTATTATTTGTTTCTTTTTTAAGT
-ATAACATAAGTTAGTGAAAAAGTCAAGATAGTTACTACAACCATTGATAAAAGTTTAATC
-AGGTTTTTCATAGTTACTCTAACTCCTTAAGTTTATTTTTTACTTTCTCTTTATCGTACT
-TATAATCTTTACTAGAGTTTTCATTTTTTTCTTTCTCTTCTTCATTAAGTTCTCTATACT
-GAGCTTCTTCTACCTCTTGTTCTTTATTATCGTTATCTTCTTCTGCTTTTTGAATTTCTA
-CATTCTTACTACTACCATTTACCTTTTTTCTAAAAAGAAACCAAAGTATTAATAAAATGA
-TGAGTAAAATAACAATGCTCAATACAACAGCCCAAATATTATTAGCCATTACAACCTACC
-TCCGAATAGTTTTTTTACAGCTCTTAAGTTTTCAGATGAATCGTTATTTATATCAATTCC
-TACGCTAGAATCAAAAATTACAGCATTATCAAGTATATGCTCTGTTAATTTATTACCATA
-ACTACTTTTACTTACCACACTACCATAACCATGATTAGTTAGGTCAACCATATCAGGTTC
-AACTTCTAGTACTCTAAAAGATATTCTACGTAAGAATGAAGGATTTACTAAGTAAAAGGA
-AGATTTAAAAACATTTAATCTTTGATAAGAATGTTTTATATTAACAACAAACCCTGTTAA
-CTTATCTTCATATCCTGAATTTGATAACTTACCTAAGTAAAGGTTTATACTATATCCTTT
-TGTTTCTAATGTTTGAATAGCACTTAACATTATAGCCCCTCTGTAAGCAAGATTTTCAGG
-GTCTTCCATCCAACTAATACTAGAATTATAAAATACATCAATAACTTTCTTCTCTGCTTT
-AACTCTTTGCTGAGACATCATAGAATTAGGTAACCCTTTTATAGCATTAGGTACGTGAGG
-TTGATACCCTTCCGGAGCTACGACAGGTTTTCTTTTTACTGACTTATCCATTCTAAATAA
-TGCATCTGTCATTTTTTTAAGTTTAACTACCATATCATATGACTCTCTATCACCCTTAAC
-CATTAAGTTATAGGCTTCTTGAAAACTATGAGTCCCTGTAAAATCATAGCTACCTGTATC
-TGATGAATTATCTCTACCTGAAACTCTATTCTTTTTTAAAGCAGAAAAGAAATCAGGTAG
-ACCATCATATTTAATTACATTTAATTCTGAGTTATCTATTAATCGTCTACCCATTGATTT
-TCCTCCTATTCTAATCCTAATTTATCCATAATTGTATCAAAGTCCATTGAATCTTTTGAT
-GTACTATCAGATTTTCTAGGTTCCTGCTTAGGCTCTTGTTGCATACCTAAAAGCTTTCTT
-GTTGCTTCTGTGTATCTGTTACCCTCAGGTAAAGAGCTAATAAATTGATTAATCTCATCT
-TTCGGTACAGATTTAAAGATAATACTTTCTACAACAAACTCATCTTCCATTACTCCATCT
-AATTTACTACCATTAATAATTGCACGCATTGAGAATACATAAGGTAATCCTTTTTCATCA
-TTCTCATGTCTTAATTGTTGTACAAAGTTAACTAGGTCTTCATTGCTTGATAACTGATGT
-TCCACCTTAGTATCATAGTCAAATTCAACTTGAGCAAAGCGGTCTAATGTAGCTCCGTCT
-AATTGTTGTCTACCTACATAAATATGGTCTGCTCCTGTTCCCATAGTATTACCTGCTGAC
-ACAACTCTGAAATCTTCATGAGCTGTTACACGTCCAATAGGGAAGTCAAAGTATTTATTT
-GCAATAGCTGAATTAAGAATTAATAGTACTTCAGGAATAGATGCATCCATTTCATCTAAG
-AAGAATAACCCACCTTTTGTAAATGCTTTATAGAATTGGGTTTCATGAAACTTACCATTT
-GCATCAATAAATCCTGTTAATTTAAATTCTTGAGTAATTGCATTACTGAAATAAAAATCT
-AAATCTAGAGCTTCTGCTACTTGTTCTAATACATGGTTCTTACCTGAACCTGCTCCACCT
-TTTAAAAATACTGGAATATTTTGGTTAACTAACTTTAGTATATCTTGGTATCTATAATGG
-AAGATTCCTGAGATATCTTTAATTGTTTTTCCTTCTTGTTGTAATTCAATTTTAACTGGT
-AAATTACTAAGTTGTTCTTCTACATATTCTTCAATTTGTTTTTTAACGTCAGTAATAATA
-ATTTCTCTACTCTCAGTTCCTGCTTTCTCAACAATTGCATCTACAATTGCTTGTTCATAC
-GGATTAGAGTTTTTCTCTCCTAGTTTGTCTGCCAAGTCTTTTGTTGTTTCCATTTGTTGT
-TCTACCAATCTCTCTAATCTTTCAATAGTATCTTGCTTTGCCATATTTATCATTCTCCTT
-TGATTTGTTATACATTTATTATATTACAAGTATTTGTATTTGTCAACAACTTTCTAAAAC
-TTTTTTTAGTTGTTAATAAAAAAAAATACCTTACACCTATAACTTAACATAGGGTAAGGT
-AATTGTCAACACTTTTATTAAAAATACATTAATTTAAAAAAATCATCAATATCTTTAGTT
-TCATGTGTATCCATATCATACATAAACATACAATTATATGTATGATTATTCATTATTTCT
-AACATGTTATGCATAGAAGTTGCATTATTGAATTCCTCTAAATCAATAGTTACCGTAAGT
-TCTTGACCTTCATAAAGTATGTTTGCTATATAATATTTCCTAACACCTTCCATTGTTCCA
-TGAGAAGTTTCATTATGATTAAGTACTTCTACACCTAGTGAAGGTAAATATTCTGAAAAG
-TAATATTTACAGAAATATATAAAATTGTCTGTTCTTTTAGACACGAGTACTATCTCCGTA
-CTTTATATTTCTTTCTAATCGTACATAATATGTTTTAATTTTTTGTACTTCTTTATCTAC
-TGCATCCTTTCTTCCTAACCTTGTAGTATATTTTACAATATTAAATATCATAGAATCAAC
-AAAGCCATCATAAGAAAAATGTTCTTCTAGAAAAGAAATAACATCCTTACTACCTTTATA
-GTGTTCAGGTAAATGTGCATCTACTTGTATATTATAATAATCTTCTAAAAGACCTATACT
-TTCACCAAGACTAGATAAAGCGTAACCTAAATCATTTGAATCATTAGACCATTCTTTAGA
-TACTGATAGTGCATCTTCTATAATTGTTACTTTTAATTTATCTAAATAATCTTCTACTTG
-AGCTTGTGTTTTCATAAATTCTTTTGCGTTCATGTAATACCCTCCTAAATTATATAAAAA
-AAAACACCCTGCTTGGCTACAAGCAAGGTGAAAAAGGAAAGATATTATGGAAGTGTACTA
-TCTAAGTACACCTCATAATATAACAGTTTTCCTTGCTAGTTATTACTTATTTTTTAAGGT
-CTTCTTCTTTGACAAACACTCCATTAATAAGCTTACCTTTTCTGTCTTTTATCTCATCAT
-AAGCCATATCAATACACTCTTCAATATCTATATCTAACTGTAAACATAGTACTGTTAATA
-CTACAAAAATATCCCCAACACTATCTCTTGTTACATGGTCATTACTTTTAGCAATACCTG
-AAGCTAATTCTCCTGCTTCTTCTAATAACTTTAACATTTGACCTTCAGGTTTACCTGTTT
-GTAAATTTCTATCTTTTGCCCATTGTTTAATAAGTTCTACTTTTTCCATTATTCTATATC
-TCCTTTAATTTCTGTATCTTTGATAATTAGGTTATCAGAGTCACTTGTTACATTTAAATT
-ATCTTCAACTAATTCATGTAGATTATTAGTAATATCTTCTTCATACCTATAACCTACACG
-AACATAAGCTTTAACTCTGATATCTATATTAACATAATCTTCTTGGAATTTTTCCATTTC
-TAACTTCCTTTATTATATCATATTATGATACTATTGTCAATTAATCTGAGTAGTTTCCTT
-TAGCAAGTTGATACTTTTTGTGTAATTCTTCATATAATTCTCTCATACCTTCATAGTTTC
-TCATATCATCTTCCAAGAAACTAAGGTAATCTAATAATACTTTTACATCCTCAGGTTCTA
-AAGTTATAACTGGTTTTACCATTAGGCAACCTCCTTAAATTCTTCTTTATTTATTTTCTT
-GATATCTTTTTCTAATGCTTCTTTTAATTCATTAGGTAATTTATAGGCATCAATTGATTG
-TTGTTGACCTAATACATAACCATTATCTGTAATACGTATTTCCACTGTAAACCATGAATT
-ATCTAAATCTTCTTCTAATCTTGCTAATAATATTAAACAACTATTTTTTAGAATTCTGTT
-AGCATACCCACCAACACAATGAGATAACATTTTACCTTCATCTTTAAGTTTACTTACAGT
-ATCTGCAGGAAGGAATTTTACTTTTCTACCATCTTTTAATTTATAAGTTTTATCAATTAT
-TTTTTCTAATTTATTATCATATTTAGCTTTAAGTTCTGCATCATCTAATTGTTGTTGTAT
-AGATTGTTTCTCATCTGTAACTATATCATGTTCTAGTTTTAGTGAAAATGGTGTTAAACT
-AACACTCTCTAATGTTCTATAACCTTCTCTTATTAATATTGATAAATCATGTAAGTAATC
-TAAGTAATAGTTATCTAGTGCATATCCTGTTATACGTTGTCTGTCTTGAGCATCTACATC
-TAAATAGTGCGTCATCTTTTTGTAATTAGCAAAAGATATAGATAATATTTGATTCACAAT
-AGGTTTAACTTTTAAAGCATCTGTAACATCTCTTGAATCTCTAACCATTAAAAAGGTATC
-GTCAAACAATTGGTGTAAATTAACTTCATTGTGTAAATGATTATAGTGCTTATAGAGAAT
-ATTAGCAAATCTTAAGTAATTACCTTGCTCAAATTTATTTAAAGTTAGTAACTTTTTATA
-AGTCTGTTTTGTAAGATTGAAGGCTTCATGAACTTTCCATTTAGGTTTTTTAGGTATATG
-GAATAGTAATGCATTTCTTTCAAATAACCCAAATTCTTCTAAGTTATTTATTTTATCAAT
-ATTTTTAACAATATCTGTTAAAGTTATTAAGTAATTAGAAGTTGAATTTTCTCCTATAAA
-AATCCTATATTTATCTCCTCTATAATTTATATGACCATAAACATCTGTATTATCAGGACA
-CCAACTAGAAAAATCAAAATTATGGTGCTCTAATGTTTGTTCTATTATCTTTATTATAAT
-TCCTCTAGTTAAGTTAGGTTGTGCATAGTTTTTTAAAATAACATTTAATAAAACAGATAA
-AGTTAATTCATTCTTATATTCACTTTTACTAATATCATCTTTATATAGGTTTAAAGTTAT
-TTCTTTATTAACAAGACTATCTGTTAAGAAAACCTTAACTTCTCCTGTTTTAACGTCAAA
-TGAACTTTTATTTTCTAAAACCCATTTGTTACCCATATTATGTTTATCTCTAATATGTTT
-AACTTTAAGACCAAAAGATGAATAGTTTTCAGTACTTGGATGCATGTACCAAACACGGCT
-ATATAATTCATCTGTCATAGCACTATAGTACTCACTAGAACCTTTTTCTATATCTTCATT
-CATAACAATAATAGATGACTTTATAAGACCATATTTACCTTGGTCTAGTACATCCATAAT
-ATCATTATTTAAACTATCTACTACTTTTTTATATTCTTCTAATTGTCTAGATTCATTCCT
-CCATAAATGGTCATTACCTTCTAGTTCTTTAATTTTTTCTTCAACATAACCTTTTGATTG
-TATACGTCTTCTACTCTTATCACCATATACAGGAAAATCTTTTCTTTCTTCTCTATTAGA
-TTCAATATACTCTTTGTAACTTCTTCCTTTATTATCATCAACTACACCTTCAACTAATTT
-TTCAACTGTTTCATAAGGGTTACCTTCAAAGTTTGTTACTTCTTTATTACCACATAGGGC
-TAAAAATAAATGTATTTCTGTGGCTGTATCAAAACTAAATATATTATGAATATCTCTAAA
-TAATTCTTTAGAACCTAAGTTAATTATATTATTTTTCTTTTTCTTAAGAAATACATCTTC
-TTCTCCTATATAGATACATCCTTTATTAACCTTAGGTAAATTAATAATTTCTTGTTCTGT
-TAATCCTTTTTGTTTATAAGTTATTGCCATTTAAAATCACTCCTTATTTGTTATGTACTA
-ATCATACCATAGTAAATAATATTTGTCAACAAAAAAAGAAGAACTTTTTAAAGTCCTTCT
-AAATGAGTTTCGTATATAACTTTTTGAATTTTATTTAATGGTTCTAAGTCTAAATTCATA
-ATAAGTTTTTTATACTTTCTTGAATTTTTAAAATTGATAGTATTTGGCATAGCAAGAGCT
-TCATCAACATCTTTAGTATAGCTTACAACATCTGAATAGATATCTACTTCTTTTACATAT
-AGACCTTGAGTTAAACTCCTAAATACTACCTCATTATGTGCTATAACTTCTTCTTTCTTT
-TCTATGCTCATTTATAAACCTCCTGGTCTACTCTACACAAACAAGTACGTATTCTAAATT
-AGTTAAAGAAACTGATTTAATATTGTTTAATTCTTGTAATTTCTTAATTTCCACATCATA
-GTTCTTACTTATAGTCCATAATGTCTCTCCTGCTCTTACTTTGTGATAATATTTATTTCC
-CTCTTTGATAAGGTCATTCAATATTACCTACCCTCTTGAGTAATAATTAGCTTGTAGATA
-ACATATAAGTATAAGAACAAAGTTTACAAATTCAGTAGCTATAATATGAACATAGGTATG
-TGTTAAAACCATACTTACAATTAATGAAGCTAATCCTAATCCAATAATAAGAAATAGAAA
-TCTATTTGTTCCTTCTGCACTTTTAGTTTTATAAAAGGTTGTTATCTGAGTTACATACGC
-AAGGATAATAGTAATAGTTGCTACAGTTTGTGTTAAGGCTGTAAAGTCACTTAATAAAAA
-TAGTAACAGTGAGAACACAATAATAAAAGGTATAGAGAAATAGTCCTTTTTTCTATATGA
-AGCTACTAATAAGCAAACAATACCTAAGGTTAAATTAAGACCTACAGATACTATTTGAAA
-TACTGAAGCATCAGTTAATAATAAGTTGTAAAAACTTATACCTACTGTAGCTACAATTAA
-ATACCAAAAATAGTTACTAACTCCCTTGACACTTTCTGCTTTAACTAATGCTACTAAACC
-TGGTATATATCCTACTGTAATTAATATAGCATATAATATACTTAAGTAATGTGATAAATT
-ATCCATCTTGTTCCCCTAATTTCTCTAATCTATTAATAACTTCTTCCCATGAAATAAATC
-CTTCTCCGTCTGTTAGTTCTAAAACCATACCATACACAAATTGGTTCGTACTAAATTCAG
-CTCTGTCAGGGTCATTGTATGGTTTACCATGTCCTTGTCTAATATCCGAGCAGTAGATTA
-ATACGGGTTTATTTACAATGTTTTCAAGTTTATCTACTATTAATTCTTCTTCAGTATTTA
-ATGACGTTTCAAACTTATTTGTAAAATAATTAAAATACTCTTCTCCATTATCATATATAT
-GGTTAATTGTTTCTTCTGCTTGATGTTTCATACCTAATAAAATACCGAGTTCTGCAATTG
-TTCCTAATCCTTCATTAAGGATATCAAATACAAAAATATCTGATTCTTGCATAGCCTTAA
-AGTCATTAGTTAAAATACGTTCTGCTAGCTTAGTTTGTTCTGCATTAGCTTTATCATTTA
-TTGACTTATCTTTGTGAGGGCTATAAGGAGTTACTCCTACAATGCCATCTACTTCTTTAT
-GTTGTTTATCTCTGTAATCTACCATAGCTTCATTTAGGATATGTCCACCCATATAAATTA
-CTTTGTCTTTAATTTTATTACCCATCTATAGTATCTCCTTTTTCTTCTAAAATTTCTCTT
-AAAATATGTGGCATTTTTTTCTTAATTTGTTTATCTACTATTTTCAGTATATTTTCTTTT
-TCTTCTTCCATAATATCATCAACAAAGTTTTGACCTACTTGTTTCATAATTAGACCGAAG
-TTTTCTAATTCTAAATCATCTTCAGATAATCTATCTTCTTCTATAGCCCTAAAAATCATT
-TTTTCCATTCTTGCTCTTGTAATGGCATAATCTGCCACTGACTCGTTCTTTTTTACTTCT
-GTTTTCATTTTTTGACGACTAAATTCTTTAAACTCATTAGATACTAATTTAAAGTAGTCA
-TCATATTCTGATTTACCATCTAAGTATTTAATTACTATACCTTCACCCTTATCAGGTTTA
-ACTGTCATGTCAGATTTTCCTACTAATTCTTGAATTTCTTCAGGTTTTAAATCATTTAAG
-TAGTGAGATGGTTTAGATACTAGCAAAGTTTTAACTGTTTTTAACCCTAAATGATGTGCA
-ATTACATTCATGTCTTCTACTGATAAATAAACTTCATTTTCTTTATCATAAACATCAAAT
-ACATAAAAATTGTTGTAAAATTCTTCTTTGTACTGAATCTTATGTTTGACTAACCATTCA
-CCAAAAATAATGTATTTTTCTAAGGCTGATACGTACGTATTTCTTACATTTATATTTTCA
-TGTACCCAATCATAAAAACCATTTAAAGTTTCATTCTCATTTAATTTTTTTCTACGTGAA
-AAACATACTAATTCACCATTTTCTACTGTGAAGCTTGCATTACTTCCATCTAATTTTTCT
-TGTACAACTAGACCTCTTTCTTTAAATTTATCTAGTACAATACCTTTATTTTTTACTTTA
-GTATACGATTTCATTAATTATCCTCCTTTGAATTATGTACTATAGAAAACAAAATAAGAC
-TTACGCTTGCTAAAAATGCTAATACTACTAAACCAGGTAAATTTAAAACTGTTGATAAGA
-ATAATGATATTGCACTTATAACATAAACTAGACCGCTTAGAAATAAAGTTAATAATACAA
-TTGTTATAAGTTTCACCAACCAATTGTTATTAATAAATACCTTAGCTAAATAATTCATAA
-AAAAATCCTCCTTAGTTATTATAGAATAATTATACCATAACTAAGGGGATTTGTCAACAT
-ATTATTTTACCATTTAAAATTATCTGCATATTGTGCAAGCTTAGAGCGGAAATTAACTGT
-AAAATTATGAAATACTGCTCCTTCATAATTTTTAAAGTATTCCATATAATCTCCAAAACC
-TGATTTACTTTCGTTCTTTAAATCTATTTGTTTAAAATTACCTTCTACTATTACAGTAGA
-ATTTTTTGTATGAACCCTTGTAAGAACTTTTTTAAGTTCACTACGTTTAAAGTTCTGTGC
-TTCATTTATAATTATAGTAGCATCTCTTAGATTTCCACCTCTTAGGAATAGATGGGATAT
-TTGAGATACCCAACAATCTCCTAGTTTATCTTCTTTAACATTATCTTCCATCATTAACAT
-TTCAGTTATTTGTTGTTCAGGATTCATATTAAGTTCAATAAGGGCATCATGTAATCCCAT
-GAAATAAGCCATTTCTTTTTCTGTCTGATTACCTGGTCTGCTTCCTAAATCTTCTGATAC
-TGGTGAAATTATAAATACTAGCTTTCTATTTTTATTAAGATAGTCTGCGTAAGCACAGGC
-TACTGAGCACATTGTTTTACCTGTACCGGCTTGACTCTCATTCCAAAGTATTTCAACATT
-ATCATTAAAGAAATCCTCACAGAAATCTAACTGCTCGGTTGTAGCTTTTTCAAGGAATTC
-ATTAAAGACTAGATGTTCTCCCATGTTGTATCTTACATTAGGATAATCTTTTAACTTAAA
-GTCTAACTCTTTTAGTTGTATTGCCATATTTTAAAGTTCCCCTATCTATAAATAGTTTTA
-CTCTCTTTTAATATAGTACTAATTTCCGATATATTCTCCTGTTGAAGAGCAATAATTACT
-ACATTCACATTCAGGGTAGTTATCACAAACATCTTCATCTTCTACATCATCATAACCAAT
-ATCATAATTATTATAATTAAAATCTACAATACAATTTTCACTATTACCTTTAGATAATCC
-TGTATAAATAATATCATCCACAGAATCCCAATCGTTATCTGCCAAGTAATTTACACTATC
-TAGTACTGATTCATTATCAGGTAAATAAATACTACCGTCTGAAAATTTAATTAAAATATC
-ACCTTGAGGTAAGGTATCATTAATTAAATCAATCTCTGTTTCTTCTTCAATAGTGAATAC
-AGTTCCTTCTAATCTTTCCGGTGTAGTATGTGTTAAATGTTTTACAGTATCCCCTGATTC
-TTCATAGAATCCTACTGCATTCATATCTTTATTATATTTTGCAATAAATTTACCATTGTC
-ACTTACCAAATATTGACTAGTTGCATTATAGTCGTTTGCGTCATCTACTGTCATGCAAGG
-GTTATAATCTTTAACATAATAACTAATTTTCCTAACATCTGCTGTTTGTACTTTCTTACC
-TTCACCTTTAATTACTGAATTAATTTTCTTCATAATATTTTCTCCTTTTTATATATCAAT
-TGATTTTTTTGCAAGATTATCGGCATAGTCATTCCATTTGTCATTTGAATGGCTCTTTAC
-TTTTACAAAGTTTATATCTATTACTTTTTGGTATTCTCGTATCATATTAATATATGTTTT
-ACTTAGAATATTTCTTGCAGACCAAGTACCTTCATACCAATGTATTAAACCAATATAATC
-TATATAAACTATTGCCTGATTGTATCCTAGTTTTATAGCCTCTTCAATACCATAACAACA
-AGCCAATATTTCACCTGCAACATTATTATACTTTATTAATCCTGGTTTGTCAACACTTTT
-ACTAATTTCCGATATTATATTTCCTTCTTTACTTACCAAGACAGCACCTGAGCCTACTTT
-ACCTTTATTATATGAGGAGCTACCGTCTGTGTATATATTTACACTATCCTGCATACTTAT
-AATCCTCCATAAATTGAGGGAATTCACAATCTGAATAGACTTCTCTGCAAAAAGATACTG
-AGATATAGTTAAAATCAAAACATTTGAAACAGTGTTCTTGAACTTCTTTTTTATCTTTAG
-CAATCACATTAAATTTAAAACCATCAGCTATTACTGTAAATACTCCTTTTTTCATAAAAC
-AAATACCTCCACTAATTTTATTTTAAATTAATAACTAACTCAATAAATGATTTAATAGTT
-TTATTTTTACCTTCATCAATATCTGAAAAGAAATTAATTAAACTGTCATCCTCATCAAAT
-AAATCTTCAACATCATCAAATTTATTTAATATGTCTGTAACACTGTAACCCTCTTCTGAT
-ATATACTCATGTAAGTCTTCTCCATCTTCTGACAGTGTTGCTTCTATTTTACCATTTTTA
-CTTTCAATTAAATATAAAGTATTTAACACTTTAACAGAATCTACAACTACACTGTAGTTA
-CTAATAGTAGGATACTCTGTATAAAGTATTTCTACATTAGTATTCATATAACTATCAATT
-ACAGAGTTAACTGTATCTCTTTTTAGCTCAGATACATTATGTTTTCGTATAGTAGGAAAT
-TCTTCATCATATTCTACTAATTCTTTTCTATCTGTATTCAATAACTTGTCTAAAGAGGAC
-AACAATACTATTTTATATTGGTTATCAGGAAGACTGTCTGTAATTTCCATTATTGTTAAA
-AACGTATCTTCACCTAGAACTTTGTTTATATCTTGTAATTCAAATGAATCTACCATTTCA
-ATAGTATCATCTATATCATCTGTAGTCATTAAAAAATTAACTAAATTATTATTCTCCATC
-GTCTTCCTCCAATTCTTTAAATAACTCTTTTCCTGGAGTATTTAACGCTTTCTCTAACCG
-CATTAAATTAGCACTTCTTGGTTTCTTTTTTCCATACTCCCAATAAGATATAAGAGAGTA
-ATGAACACCTATCTCAGAAGCTAGACTTCTTAACGTATGTCCTTTTTCTACTCTAATTTT
-TTGAAGGTTTAGAGGTTTACTTTCCTTTTTTTCATCCATAATTATTTCTCCTCTACTTTT
-AAAAATTTAAAATCCTCAGATGCTTTTGCATTTTTTAGTATATACTCTTGTGATTTATTT
-CTTGCCTCTGCCTTACTTTTAGCATATAACTCTATATGAAATACATGAGGTTTTTTTAAA
-GACGGTGACTCGTATCTCCAATAAACTTTAAAAAGTAGTGTTTCTTTTTTTAAAACATTA
-ATTCGAAACCATCTTTTAAATTTATTCATTCATTATCCTCCTCTATTTATTTGTTAAACT
-AATTATAGCATAGTTAACTTATGAAGTCAACTATAATATACAAAAAAAGACTAAGAAATT
-AATCTTAGTCTTAATATATTAATAACTATTATGTGCGTTGTGGTATGCAAGAGCTCCTGA
-TGTTGAACCGTAACGGTCAATCATATATTGTTTTGCACCTTTAGTTTGTTCTGCTATAGA
-ACCACCACTCCATGATTTACCTAATCCTTGGAATAATCCTTGAGCTCCTGATGATGCATT
-AACAGCATTAGGGTTCATTGTAGATTCACGCATAGCAATTTCAATCATTGCCTCGTCTCC
-ACCTGCTTGTCTAATCTGTTCTGCTACAGAGCCTCCTGTAGAACTAGTTGATTGTGTAGG
-TTGTTTAGTTTCCTTTTGAACTGGTGCTGATGTTGTTTGTACTTCTTTTTTAGTATCTTG
-TTTATTTTGAGTATCAAATTGTGCTTGTTGTTGGTCTACTTTTTGTTCAGGTGTTTGTTC
-TTCTCCTGCTAATCTAGATACTGTATTATCTACTTGAGTTGAGCCTGAATGGTATTCATA
-ACCAAAGTTACCATTATAATTATAGAAATGATAAGTAAATTCACCATCACTAAAAGAGAA
-ATCATAATTACCTGCTTGAATTGGTTTTGTATTTACTTCTGCTGAATTTGATTTAGCTTG
-TTCTGCTAACTTATTATAATCAATTTCGTCTGCACTAGCTTCATTTGTAGCAATACCTCC
-AAAAGTAATAGCTGTACCTAATGCTAATGTTGCAAAAATTGTTTTCTTCATAAATTTAAA
-ACTCCTTAAATAATTTTTTAGAATTGTTTATTTGTAAACCGACATAAGTAATCATAACAT
-ATATCTTTAAATAACGCAAGTATAATATAGCACTAATTAGTGTAATATTATTAAGGTTTT
-ATTACAAACATTACAGTTATCAGATAATTAAATACAAAAAAAGAGAGGTAATTATATTTA
-CCACTCTCCAGTTTCATTATATTTATTTATTACATTATCTCTTAATTCTATAGCCTCTTC
-TAAAGATTTTGCACTAAAATATTTAACTTTATTTTTTCTTACAATTTGTATATTATATAC
-ATTATTTGATTTTTTGTATATATTATGTGTACTTTTCTTTCTTATATTAGTTGAGTTTTC
-AGACCTAGTAGACCACTTAACATTACCAGGTTCATAATTACCATCATTATTTATTCTATC
-TATTTGATAATTTTCATTCGGAGGGTCTCCCATATAGTCGTAGAATTTTTTAAAATCATT
-CTTCCATTCTTCACATATTTCTATACCCCTTCCTCCATAGTTTTTATAATTTATAGCGTT
-AACATCGTAACAACGCTGTTTCATACCTAACCATCTTTGGTACATTGGGTTACTGGATAA
-TCCATGGGTAGTATTCCTTTCTCTCATTAACTCACTATGAATTTTATTACTCTCACACCC
-ACAAGATTTTATTTTACCTTGCCTTAAAGTGGAGCTTCTAACTATTATTACTTCTCCGCA
-TTCACATAAACATTCATACATTTTACATCTTGATTTATCCCTCTTACTAGACTCTTTTAT
-AACTTTTAGTTTATTAATAGTTTCTCCAATCATAATATCTCCTCCTATAATAAAACTATA
-GCATAAAAAACCACCTATGTCAATAGGTGGTTAAACATATTATTTATTTAAGTTTGTAAT
-AACACTATCTGAACCTATACTAATAGGTTGTTTTCCATTCCATTTTTCAATTAATTGTTG
-TTGTAAAACTTCCTCTGTTAAGGATTCACTTCTAATGTCATTGGCTTTCTTTTCACCTTT
-TGCTTCAATTTCTTTCTTTTTAGCGTTTTCTTCTGCTATTTGCTTATCAACTTTAGTGCG
-CTCTAGTTCTTGGTTTGCTTTTACTCTCTCATCAATTGCTTTTTGAGTATTTTTATCTGC
-AGTTGGGCTTGATAATGCAATATCATCAATAATAAAACCTTGCTTTTCTAAATTATCATT
-AAGTTTATTTAAAGTATCTTGTTTAATTTCTCCTGTTTTTACACCAAAAGCATCAATTAC
-AGAGTACTTAGAAATTGCTTGTCTAACATTATCTTGTACTCTAGAACGAAGATACCCTTT
-TTCAAGTTCTTCTATGTCAGCACTTCCGAATCTATTAAAAAGGTTTACTGCCTTAGTTGC
-ATCTACTTTATAAGATACATCAATGTCTAATTTAATATTTTTACCATCTGAAGTTGCTAC
-ATTTAAATCTTTATATTTATGTGTTTGTGTTTTAGTTGGGTATTTATTTACCTTATCAAA
-AGGTGCTGTTAAATGCCAACCCGGTGATTTAGTATCTTCCTTAACACCATTTACTGAGTA
-TACAACTCCAACATGACCTTGTGGAATCTTAGTAATACACATTAATAAAATAATAAACCC
-TATAATTGCTAAAAACCCTAATACTCCTGAAATAACTACTGACTTTCTCATTACATTTCT
-CCTTTTTCTATTTCTTTTATTAAGCTATTTAAAGCTTTTTCCTCTTGGTCTATTTCTTGT
-TTATCGGCTCTAGTTACAATTGATTGTCTACGGTCATTTAAGAATTGTTTTTTATACTTT
-ACATATTGTTCTAAACCGTATTCATCTAATGTACCTTGCCTAACTAATTCCCTGTATTGT
-TTTCTTATGTTACTCTTCTTCTCTTTCATTGAAAGAAAATCAAATAAATAACTTATACCA
-AAACCTACAAGGACTAGAAAAACAATAAAAATAGCAAAATATGTTAAAAGTAGTGCCATG
-TAATTCCTCCTTTATTTGATTACATATATAACTATACACTATGTATTTAATTTTGTCAAC
-ACTTTTTTGCAAAAAAAATAGACGGATTTAAAATCCGTCTAAATTTATATTCTATTTGAA
-TACTCCCCAGGCAACGCCAGGTATTTGATTAGGTGGAACACCTTGACAAGTTCTAACAGG
-GCAATATACTCTGTTACCGTTGTAAGCATTATAACCTATCCAAATGTGACCTGCTTGGAT
-ACAAACTTCGTCATATACAATTGTAGCCCCTGCCGGTAAGTTACCGCCTACTGGAGCATT
-TAAGAATGGAGAACCTATTCTAGTTACTATAGGTTGGTTACCATTGACAAATGTTGCATT
-TTCCGGTTTATACCAAGTTCCGTACTGGTTCTTTTTCCAAGAACCTGTAACTGGTCTAGT
-TGCCGGTGTACTTGCGCTACTTGTTTTACCATCTTTAACTACTGTAGAACTTGAAGTTCC
-TTTATCCATGTAGTTTTTAATTTGTTTAATGAAATAATCTTTTAATTTATTCATTATTGC
-TTGTGATGGTCTTCCTTGTGTTACTGGATTAAATCCTGTATGAAGAACCATAGAACGGTG
-AGGACAGGCAGTTGGTACAAATTCCATATGCAATCTTACAGTTTTACGGTTAGGAGTAAG
-ACCCCATTCTTTAAATTTCTCTGCTGTAAATTGGAATACTGCTTGTTCATTTTTAAGGAA
-TTGAGCATCACTAGCACTCATTGATTGACAGACTTCAATACCTGCAAATCTAAAGTTACC
-TGAGTTTGCTCCTGTTCCATCCGATTATTCAATAAAAGACGTAACTCCTTTACCGGTTCT
-CTTATGAACTCCTTATAGTTTCCTATAAGACTAGACTATATCTTCACCCTAATTTTGTTA
-GGGGTTCTCCATTTCGATTTAAGGGATTCTCACCCACTCCATTAACTTGAGCCCTACTCC
-TATTGACGATTTATTTTTATTGGCACTCGTCCGAGGGATAGTCGTTGAACCTTAATATTG
-TTTCCAAATGTATCCGTAGGCTGTTTTTCTCTCTCCTTTGATACATCTTCCTATATTACC
-ACTTCTTTTATTAGAAATACCTAAGAACTCTAAAGCCTCTTGAGCTGTGTAAAAGACATT
-CAATAAATTACCTTCTAAGTCATACTGAGCTATATTATAATTTATTTCATTTTTTAATCC
-TGTCTTTATTGCATGTTCTCTGTTCTCGGAATTAGAAACCCATTCTAAATTTCCTACACT
-ATTATCATTTTTACCATTTAAATGGTTAACTTGTTCTTTATTATCAGGATTAGGTATAAA
-AGCCATAGCAACTAAACGATGTATTTTAGGTGAATGGTATCGTAACCTTACAAACAAGTA
-ACCCTTGTTATTTTTTTGAAGTTTTAACTTTTTAGGCTCTTTACCTTTATAAGATATTAC
-TTCTCCTTTATCAGTAATAGTGTAATTTTCATATATTTCTAATCCAGGTATTTCATTTAA
-TTTCTTTTCCATAATAACATCTCCTTTACTTAAGTATATAGGAAAGTTATTATGTTGTCA
-AGTAGTTTTTTAAAACAATATTCTTGGATGCTGATTAGCATAGCTTGATAGCCTTAGCCT
-CCCAGTCAATTAAAAGAACTTTCATTATACATTACTGTATAACAGGGCAATTTATTTACC
-CGTGTGCCAAGCAATTTGATTCTTAGCATCTATTGCTTCCCATACATAACCTTCAGAGCC
-GTAGTAATGAGCAATACCATTAGCGTATCTAGCATAACCTGCATTAGCTAATGAATTCTC
-GTATTGTTGTCCTGAAGAACGACCTGCATCGTTGTGTATTACCATTCCTTCAGGTTTTTT
-ACCACGTTTATCCATTGTATAGTTAATGTGATTCTTAGAAACTTTTAGTGTTGCTTTCTT
-TTTAGGTGCAGGCGTTTTACTTGCGCTTTTCTTAGCTGTTTCTTTTTTAACAGTAGTTCC
-TGCTTTTACAGGTATTTCAATGAAGTGAGTTAATCCGTAATAATTATCTACACGTTTTGT
-AGGTTTTTTATTAGCATAACCATTCCAGTTTTGCTCTAAAATAGTAAATGTAGAAGTATT
-ACCTCCATCATATACAATACCTATGTGACCCCACTGTTCATAACTACCGGATGTAAATAC
-CGCAATCCAACCTTTTTTAGGTACAGTAGAAGGTTTATTTTCATGTATTTTAAATCCAGT
-ACCATAACTCTGTTTAATTTGGTCTTTAGCATTACCCCAAGTTCTAACTTTATTATCTGT
-TAACCATAAAACATAGTCTGTAATAAGGTCTTGACACTGAGCGTGATAGTAACCATCTGC
-ATCAATGGCTCCTGCTTCCATTACACCAAATGATGGGTCATAACTTGTAGCTTTTTTAAC
-TCTGTAAGGGCTATCTACTGTTCCTTTTGCATAAGCATCTAAACGTTTATTTATTTCTGC
-TTGAGTCTTAGCCATTACTTAACTTCCTCCTCTGCAAATACTTTACCATGTTCCTCGGTA
-TCTTCTTCATCTTGAGAAGGTGCTGAACCACCATCAATTTCATCTTCAATAGCAGGTACT
-TCATCACTATCATCTGTGTCAGGTTCTGCATTGTTTTCGTAGCTGTCTATCTCAAAAGTA
-CTAGTGTTATTTGCATTTGCTTGCCATTGAACGAATTCATTAGGGTCTTTACTATCACGA
-GGTTTAAGATAGTCTGTTTGAACAATATCACTATCTTTAAGACCTTTAGTATTATTATCA
-ACAATAATACCTAAACCTGCTAATAGTGTTAGTATAGAACCTACAATATTTACACCTTGC
-TCAATTTGAGCTGAGTAGTCTAAACCGAAAGCACCTATAATTTGGTTAGCAAATAATGCT
-ACTGCTGATATAATTGCTACCCAAAATGTTTTGCTCTTAGTTCTTGTGCTAAGGTTTATT
-CCTCCAACAACTTTAGGTTGTTTAGTTTCATTAGCCATTAAAAAACCGACCTTTCTATTA
-TATTTATTTCTAACAATAATATAACAGTAGGTCGGTCATGTTTATCTATATTAATTTAAC
-ACTTACTCATTAATTTGGTTTAGTTTTTTGATAACTTCAGACATTTGTTTGTTATCTAAA
-TCTTCTAATTTAGTTTCAGGAAGTAGCTCTAACTTATCCCAAACTTCTTCTTTATTAGAT
-ACTTTATTATTAATAATTGCCTTACCAACTAAACTTTCCGTATAATATAATTGTTTTGCT
-GATGCCATTTGTATCTCTCCTTTTAAATATGTAAAGTATATAGCTAGTATCGTATCCTAG
-GAACAAACACTTGCGCTATATACTCAATGAAATCCTACCCTCATTCGAGGACACAGCAAA
-CCGGTTCGTCAACCGCACATATGAATTCTCAGATTTCATTTATGTAAAACACACCCTCTT
-TGATTTGCACAAAGACTAAGGGTTTTGGAGACCCTTGTACTACTAATTATACTAAGGGTG
-TTTATTATGGTTTCTATTGGATTTGAACCAATGACACCTAGAGCTTCAATCTAGTGCTCT
-ACCATCTGAGCTAAGAAACCTTAAAACGACCCATACGAGACTCGAACTCGTACTCTCTGC
-CGTGACAGGGCAGTGTGTTAACCAGTTACACCAATGAGCCAAAATTATAATGCTATACCC
-TAACCTTACCTTAATGTATAGCAGGTTTTTATATAAGCTCGAAGCAACGATTATTACCAC
-TCATAACAACTATATATTAAGTGAAAGGAGGTGAAATGAACAAAACGTGGTAATTGGTAC
-TTATATAGGAAATATGTATAATCTACAAGGAGTAAGTTATTGGTTCATAAAGGAGTGTGA
-ACAATAAATACATGAAAGAGTGAAAGTTTACTCCCTGTAGATTCTTTTTTTAATTATCAA
-TCAAAGGAGGAAACTGATAATTGTTAATAATAAACTATAAAGAGGAAAATATTTATAGTC
-ACATTCTGATATAATGCAACTAAATATCCAAGCATAACCCGTCTCACGAGGAACCTACCT
-ATAAGACCTGTTATTAAGTGAATCACTACGATTGACTCTATTAAGGAGCTACCTTAAGTC
-CATCTCACGCAATTTAAAAGGGACTTACAAACCGTAAAACGGTAATAAGTTTATTAAATA
-ATGTGATATTAACATATTAGTTAATAACTTTCACATGGTCGAAGAAAAGTAAATTTATTT
-GATTACCAAATTATTTTTATCAAATATAGCTCTTTTGAACCTGTAGATTTATGCTACTTA
-TACTGATAACCTCTATTATCTAACACATTTCTGTGCTCCAACTACAGTTAGTCGTTACAG
-CGTATCTTTCTAGGATTCCGCTAAGACCCTAAAAAGAAATTAAACCCTAGCCGTTATCAT
-ACTCTACAGACCTTATAAGTAAGTACCAAGTATACCAATCGTATTTAACAATACTAATGA
-CGACCCATCCTACCGATATATCTCCGATAGGTTTTGATTCGTTTGATTATCTTGTACCTT
-ATGACTACCAAATCATTATTCAGTCACTATGCTCAGATATTTAGTTGTATTATTTATATA
-TTAATTATAACATAATTTTTATTACTTGTCAAGTTAATTTCAAAAAAATTATAGAAGTAG
-GGACGTTTACCTACTTCTATTTAATTTACACAAGGATGATAACATTGTTATTGTTTTATA
-CTGGAAAACAATGTAATAAAAACAGTGATGTGTAAGGTATTTGTTTTATTGTTAATTATA
-TTATAGCATATACTGATACCTTTGTCAAGTTAATTTAATACTTTTTTTAAAACATTAGTT
-ATCTTTTGTTAGTTCCTCCTGAATAGCATCCCATCTTCTTTCTGCTTCACTACGATTATC
-TTCTATATGTTTTGTAGTTTTACAACATTTGATACAATATATATCTTTGATATGACCTTC
-TTCTCTTTTATTTGCTCTTTTTCTTGGTACTTTGAATACATTTCCACATTCTTTACATAT
-TAAACTTGAGTAAAACATTTTTTGTCTTTTCATAATTAATCAATTCCTTTTCTCTTTTAT
-TTGATAATTTAACTATATACTATATTGATAAATAAGTCAACAGTTTTCTAAAAATAATTT
-AAATTATTTTGAAGAATACTTTAATATCAAGGGTTACAAGAGAAAAAGTACGTATTTAGA
-AAATAAGGAGTACTCCTATTATATATAATTATATTCTGATATAGAGTAATAAATAATATT
-AAATATATAATTATAATTAATAAGGTTGGGAAAATTGATATAAACATAACTGATACTGCT
-TATAGATACTCAGTATAAAAGTAAAATCCCTTAGTATCAGTACTTACAGGCAAAAAAGTA
-CGTATTTAGAAAATAAGGAGTACTCCTATTATAGTTATATATATTTATTACTATTATTAA
-TTACTATTTAAATATATAATTATAATTAACAATGTTAGAAAGTCAACAATAGTATAAATA
-AAAAAGTGACTACTTAAAGTCACTCAATAATTAGAATACTATTTTAAAAGATTCTATTCT
-GTTTGGATTAATATATACTTGAGGTGAAGTTATAGCACTTTCAGTATATACTTTTATAGA
-GGTTTCATCCATTCCTCTTAACATATAATCTATATCTTGCCTATTGTAACTCTTTTCATC
-AGTAGATACTAAAAAGTATTTAGCTCCACTTGACATTGTTATTTCAATATGTTTTGACAT
-CTACAATCTCTCCTATGCAAATTTGTTAAAGACAAAGGATAATATAGCTCCTAGAACAAG
-TAAAAGAACCTTCTCAGTTGTATCCTTTTTCTCAGTATCCTTAGTTTTTGTACTTTCAGC
-AAGTTCTGAAATCTTTTCATCAAGTCTTTCTAATTGGACGTAAATTGCTGATTGTTTTTC
-ACTATTGACAGCTACATCTTTATCTATACTAACTATCATTTTTCTTAGTTCAGCTACCTC
-AACTTCTAAATCTTTGAAAGTTCCTCTATCTATATAATTACCTTCTTGTATCTTAGACTT
-AATAGTTTCTACTTGAGAAACAAGGTTGTTTATCTCCTTATCCAACTAGAATCACCTCTA
-AGGTCTAACCGTTTCAGATTCAGAATGGATATCATAATTTTCTAAGAAATCATTGATAAT
-CTCCATATAATTATCCGTAACGACTTTTCCGTAAGATGTTTTTGTATCAATTTCAAACCT
-AAGCTTACCAAAACTTTGGAGGTCTAATTCTTTTATTACAATATTAGGGTCATCAGAAGG
-AAGGTAATAATAGTCGAAGTATATAATTGAGCCATTTATTAATACTCTGTCTATTCTATA
-GACGTGGAAATAGCGTCTGTCTCTTTTAAAATGGGCTAGTGCATCTTTAAACTCTAACTT
-AAGGATATCCTTATATTTAGTCAAAGTGGTAACCTCCTTACTATTAATTTTTAAATTTAC
-TTATTTTGTGGTATAATAGTTATGATAAAGGCAGTTATTATAATTATATTAAGAATAATG
-ATAATAATTATTTTTTCTGAGAAAATAAGCCAAATACTAAAAACAGATAAAGCATAGATA
-GCTGATAGATATACTATATTAAGAGTTACCTTACTTTTATCTTTTCTATAGATAGAATAA
-CCTAAAGACGTTGTAACACCACTAAGTATAAAATAATAGAAACAAAAAAGAGGTATAGAC
-AGAAAAAAAGATACGATAATCATTGTTAAACACCTATTTCTTTTTGACCTATTATTTCTA
-GAACTTTTAGATTACACCACTAATATAACATTAAAAGCCAGTCATAAAAGTCAATTGTTA
-GATTAATAATATAATAAAAAAAGACAATAGGAGGTTAAAGTGGTTGAATAATAACATAGC
-TATATTCATATTCAAAACACTGGTTATCATTATATTCTTACTACTAATTTTGTCTGTTAT
-TAATTCCTTGTCCCTTATTTACTCAATAAGACCGAGTGTAGTTATGACATACTTTATCTT
-TGGTGGTATTGTTTCTAATGTCGCACTTACTGTAACAGATAAGTTCTTACTGAAGAAAGA
-AGACCCCCTACCTGAATATGTTCTTAAAAAAGTAGAGATAAATGATAAAGAAATAAGAAT
-AATCAAGAAAATAATAGAAAGTAATTATGGTATAACAGCAGAAGAGATAAAAGTTAGGGC
-TAAAGCACAAAGAAGAGTAGAGGAAGATAGTAAAAAGGAAGATTACAATGAAAACAAAGA
-AAGAAATTAAAGAACAAAGGAAAGAACTTAAGGATGGTGCTACATCTGTTTCTTTAGTAA
-AAAAGGGAGATAAGAGAATAGCTAGCCCTAGTAGAATCTGTAGTCTATGTGGTCAGCAGT
-TATCAGGTATGAATTACACTAAAGGAAAAGCATTATCAAAAGTTAATCATTTTCATTTAC
-AGTATTCTAAGTATATTTATTTTGATATTTGCGCAGATATCAACAATTGTTATAAAAATT
-TAAGAAAACGAGGTGAAATGGATTGAGTGCAGAAAATATTAGAGATATAATTAACAAGAA
-AAAGTTAGAAGAAGAGGATACAAGAAAATATATAGCTGATGGGTTTATGAATGGTATCGG
-TAAATTAATGTACGAATTCAATAAGAAAGTAGATAACAAAGAAATAGAAGTTAAAGACCC
-GAATGATTTATACAAATTATTTGTGATATTCTCTCAAATGCAAAATATGGTCAATGAAAC
-TTCTGAAGGAGGAGCAATACCTCAACTATCTAGACCTCAACAGGAATTATTTGATGAGAT
-TACAACAGAAGATAGTAATGGAGAATCTACAGTTGATTTACAGAAGATATCAGAAATGTC
-AGCGGAAGATATTACAGCAATGATTTCTGAAAAGGAAAAAGTAATGAATGAGGAAAATTC
-AGAAACATTCTAAGGAGAAAGATATAAATGGATGGAAAAGAACTAATTAAGATAGCACAA
-GAAACATTTCAAACTGAAAAAATAACAAGAGAACAGATAGACCATATAATCAATATGCTA
-AATCCTTCTACCTATATGCTTAAGTATCATACACTGAGAGGGCATCCTATAACTTTTAGT
-ATTCCTAATAGAGATAGAAGTAAAGCACAGGCTCATAGACCTTGGCAAACTAGGATTGTA
-AATGATACTCATCCTAATAAGGCTGTAATAAAATCACGTCAGTTAGGTCTTAGTGAAATG
-GGTGTAATGGAAATGGTTCATTTTGCAGATATGCATAGTTATGCTAACGCAAAGTGTCTG
-TATACATTCCCTACAAATGAACAAATGAAAAAATTTGTTCAGTCACGTTTGAACCCTGTT
-TTAGAGAAAGAATATTTTAGAGACATTGTTGATTGGGATAAAGACTCGTTAGGTTTTAAA
-AAGATAAGAAACTCTAGTTTATTCTTTAGAACAAGTTCTAAAGCAAGTACCGTAGAGGGT
-GTGGATATTGATTATTTATCTTTAGATGAGTATGACAGGGTAAACTTATTAGCAGAATCG
-TCTGCATTAGAATCAATGTCTTCATCACCTTTTAAGATTGTGAGAAGATGGAGCACACCT
-TCTGTACCTGGGATGGGTATACACAAATTATACCAACAATCAGACCAGTGGTATTACGGT
-CATAGATGTCAACATTGTGATTACTTAAATGAAATGAGTTATAATGATTACAACCCTGAT
-AATCTTGAAGAAAGTGGAAATATGTTATGTGTTAATCCTGAAGGTGTAGATGAGCAAGCT
-AAAACAGTACAAAATGGCAGTTACCAATTTGTTTGTCAAAAATGTGGTAAACCACTAGAT
-AGATGGTATAACGGTGAGTGGCATTGTAAGTACCCTGAGCGTACAAAAGGTAATAAAGGG
-GTACGAGGGTATCTAATAACACAAATGAACGCTGTATGGATTTCTGCTGATGAATTAAAA
-GAGAAAGAAATGAATACAGAATCTAAGCAAGCATTCTACAACTATATTTTAGGTTATCCT
-TTTGAAGATGTTAAACTTAGAGTTAATGAAGAAGATGTTTATGGTAACAAATCACCTATT
-GCAGAAACACAATTAATGAAACGAGATAGATATTCTCATATAGCTATTGGTATAGATTGG
-GGAAATACTCACTGGATAACTGTTCATGGTATGTTACCTAATGGTAAGGTAGACTTAATA
-CGATTATTCTCTGTTAAAAAAATGACAAGACCTGATTTAGTTGAAGCAGATTTAGAAAAA
-ATAATTTGGGAAATATCTAAGTACGACCCTGATATTATAATTGCAGATAACGGGGACTCA
-GGTAATAATGTTTTAAAACTCATTAATCATTTTGGAAAAGATAAAGTATTTGGATGTACT
-TATAAATCTTCTCCTAAATCTACCGGACAATTAAGACCTGAATTTAATGAGAACAATAAC
-AGGGTTACAGTGGATAAATTAATGCAGAATAAAAGATACGTACAAGCACTTAAGACAAAG
-GATATAAGTGTTTATAGTACAGTAGATGATGATTTAAAAACTTTCTTAAAACATTGGCAA
-AATGTTGTTATTATGGATGAAGAAGATGAAAAAACTGGAGAAATGTACCAAGTTATCAAA
-CGTAAAGGTGACGACCACTATGCACAAGCAAGTGTCTACGCCTATATAGGATTAACAAGA
-ATAAAAGAACTTCTTAAAGAAGGAAACGGTACAAGCTTTGGTTCTACATTTGTTTCTACT
-GATTACAATCAAGAAGGAAATAAACAATTCTACTTTGATGAATAGAGGTGAAATAGACTT
-GACAGATAAATTATTTTATGGTACAATTAGTAATGAAGAAATTAATAAAAGTGTATTGAA
-TTTGTTATTGGGTGAGGAATTATCCTTAGATTATGTTTCTAAAAATAGTGATATTTTAGA
-TGTTAAATATGAACATGTTTATAAATCTCTAGGATTCGATAATTTCTTTGATTGTTTTTT
-ATATGCTAATAGAGAGCCTGAAATAGTCCATAAAGGTGGAGATAAAAATCTTGGTGGACT
-AAATAAGGTTAAACGTACTGTTATTCGTAATGGTAAAGAAATGGAAATGACAGTTTACGA
-AGATGGTAATAAAGAGAACGATAGTAAAGAAAAACAAGAAGGAAAAGAAGAAGTTAGTAG
-AAGTGCAGTAGGAGCAAGAGCTATTTCTAATGGTGAAGAAGGAAAGGTAAACCCTAAAAA
-AGTAGCAAATTCATTATCTAATTTAAGTAAAAAAGGTGTAGATGTATCCCATATTAATAC
-AAACTCATCATTGTATAAAGAGTTTGTTGATGATAACGGTGATACAATAGGAATTACATC
-TTTTAAACGAACTGAAAATGATATAATATTAGAATCTTATGCAAGTTCACCTGATTCAGA
-TGGTGTAGGAGCAAGAGCTATTATGGAATTATTACGTTTAAGTATTAAAGAAAATAAAAA
-TGCAGTTGTGTATGACATAGAATTACCTGAAGCAATAGAGTATTTAAAAACTTTAGGATT
-TAAACCTAATAAAGATGGATACATCTTAAGAAAAAAAGATGTAAAACAATTCTTAGGTGA
-TTATAGTGATTTTATTTAGCACTATAGTCATCTATTCTATTGTATTTATTCTATATATTG
-TATTAAAAACAATTTATATAAAGTCTAATATGAGTAGAATAGATAACACAACTGAATTAT
-TAAAAATATTACAGGAAGATATTGAAGGTAAGATAAAAAAGGAAGGAAGAAATAAATGAC
-TTTAGAAGAAAATAAATTAACATTAGAAGAATCAATAACTCCACTTAGCAAAGAGGAGAA
-AGAAGATAGTATTAAAGAATTTAGCAGTTTATTATGTGAAATGGTAAATAGACTATATAA
-GTCTTATAATGTATTTAGACAAGACCCTATGGATGAAACTCAACGTCTAGATGGCTCTTT
-AATGGTCTTTCAAAGTAGATTAAATGACCCTTTAACAGGAGATTTACATGATAAGATGTA
-TAAACTTGCTTTTTCAAAACGTATTGATATTTTCGAAGCTAATAAGCAATTTAGAAAAGA
-TGTAGAAGCAGGTAAAGCAATTGAGTTAGGTGATGTAGCTATTATAGATACAGCATTAAG
-TAACATCCTTTCAGGCAATGAGTTCCAAGGAAGTATTTCATTTATGCTTAGAAAAGACTT
-TGAAGAAAAAGAACGAATTAGAAAAGAAGAAGAAGAGAAACTTAATAACTTATAAAAGGG
-AAGAATTATGAGACTATATAAAATGAGGTATCATAATTGAAAAAGAAACCACAAGGCAAT
-GAGGTAATCATAACCATAATAACGGTTATGATAGCAGTATTTGTAGTCATTATGACCATA
-TTTTTTAATAAATATCAAGATGCTAAAGAAGATAAAGATAGATATCAAAGATTAGTAGAG
-ATTTATAAAAAAGCAGATGATAATGATGGTGAGACTAAAAAGAAATATGTTAAAAGATTA
-AATAAGGCTGAAGAAGAACTTAAAAAAGTAAAAAAAGAAACAAATTATAAAGATTATAAT
-AAGAAGTCAAGTAAAGAAAGACAAAAAGAAGATAAAGAAACTAGAGAGAAAATATATGAT
-GTAACTGGTGATGATGACTTAATATTAGTAAAAAATAATATTGAGTTTAGTGATAAAGTA
-GACAAGCCCGAAATACTTATTAGTGAAGATGGAATTGGTACGATAACTGTTCCTGTAGAT
-AGTGGGTATGAAAAACAAACAGTAGGTTCTATTATTACTAGTGTATTAGGTTCTCCTTTC
-CTATCACCTGGTTCAAATAGTATAGATGGTTTAAGTGTTATTAACGATAATGTTTATCCA
-AATACAGTAGATAGCATAGTAGAAGATACAAAACCTTCTATTAACTTACCAACGGATAAT
-CCTATTATAACAAATCCAGTTGAACCAACTATACCTTCAGATATTATACCTCCTATTGAT
-AATCCTTCAGTTCCGATATCTCCTGAGAACCCAGGAGATAATAATCAAGGAAATACAGAT
-AATCCAAATCCTCCCCCTCCAGGGTACACAGATGAAGATGGTGGAAGAGGCTCCGGTGGT
-GGAGGAAATTCTGAACCACCATCAACGGAAGAACCTTCGGATAATGGTAACACCGGAGGA
-GGAGATTGGGAAGAAAAACCTGACCCAGGAGAAGAACCTTCAGATAATGGTAATACAGGA
-GGAAATGGTGGAGAAGTTACGCCTGAACCTGAACCTGAACCTGAACCTGAACCTGAACCT
-GAACCTGAACCATCTGAACCGTCTGACAATCCTGATGAAAATGGAGGATGGGAAACGGAA
-CCAACTGAACCTGAGTCACCTTCAGAGCCGGACGATAAAGTGGACGAAGAGGATAAAAAT
-GAAGATACTACAGATGATAAACAGCCCACTGAACAACCGGACGATAACAACATAGATAAT
-GAAGATAAAACTGAAGAGGAGTAATTACTCCTCTTTTTTTGTTTGCTATATTAAATAAGA
-GCTAAATATAAAAAAATTGAACATTACGGTGGTGAAAACTTTGTTAGGAATGAATATTAT
-AACGTCACTATCAGTAGTATTTACCTGTTTAAGTCTTTTAACTTTAATGATTTTTGTTCA
-TAGTAAGTTCTCTAGTAAAAACGTTTTTGTTTTGTATGTAATTTATGCTATAATAGGAAT
-AGGTACATACATAGTTTTAACTATGTTTCAAACAACATCTGTACTTATTAAGAATGATGT
-AATAGATTCCATAGAAAATACTGAACATTATATTGTATTCAATGACCCTATAATTATATT
-TATTATAAGTTTTATAGGTGCAATACTTGGAGGAATTTGGTACAAGATGATGAAAATTAT
-TAAAAAAAGTAACTTTAAAGATAAAAAATAAAAAAGACGGTGAATAGGTTGATATTCTCT
-AAAGATAAAAAATGGGATGAAGCAAAAGATTTCATCAAAGGTCAAGGTATGCAAGATAAT
-TGGATAGAGATTGTAGATTATTATAGACAGATAGGTGGAAAACACGTAGCTGTTTTTATT
-GCTTTAAACAAAGTAAAATACATGATTCTAGAAGCAACAAAAGACAATAAAGTAATATTA
-GTAGATAAAGATAATAATATACTATTAGAAGATTATGATATTGTTATGGAAAGTAAGAAG
-ATGTTTTATTACATTGAAGAACCGTTTGAGGTTAAAATAAATATCCCTCAACATATTAGA
-GATGTAACTTATAATAATACTGTTGTATTAACTACAGTAAGAGGGAGTAGAGGTGACTAG
-TAATTGGCAGATTTATTTAAGCAATTCAGATTAGGTAAAGACTATGGTAATAATAGTACC
-ATTGCTCAAGTTCCTATTGATGAAGGATTACAAGCTAACATTAAAAAAATAGAACAAGAC
-AATAAAGAGTATCAAGATTTAACTAAGTCTTTATACGGACAGCAACAGGCTTATGCAGAG
-CCATTTATAGAAATGATGGATACGAATCCTGAATTTAGAGATAAGAGAAGTTACATGAAG
-AACGAACATAACTTACATGATGTTTTGAAAAAGTTTGGTAATAACCCTATCCTTAATGCT
-ATCATACTTACACGTTCAAATCAAGTAGCTATGTATTGTCAACCTGCAAGATATTCAGAG
-AAAGGTTTAGGTTTTGAGGTAAGATTAAGAGACCTAGATGCGGAACCCGGTAGAAAAGAA
-AAAGAGGAAATGAAACGCATAGAAGATTTTATTGTTAATACAGGTAAAGATAAAGATGTA
-GATAGAGATTCATTTCAAACTTTCTGTAAGAAAATTGTTAGAGATACTTATATCTATGAC
-CAAGTTAACTTTGAAAAAGTATTTAATAAGAATAATAAAACTAAATTAGAAAAATTCATA
-GCAGTAGACCCTTCTACTATTTTTTATGCAACAGATAAAAAAGGTAAAATTATTAAGGGT
-GGTAAGAGATTTGTTCAAGTAGTAGATAAAAGAGTAGTAGCTAGTTTTACTTCTAGAGAA
-TTAGCTATGGGTATAAGAAACCCTAGAACTGAATTATCTTCTTCAGGATACGGATTATCA
-GAAGTAGAAATAGCTATGAAAGAATTTATTGCCTACAATAATACGGAATCATTTAATGAT
-AGATTTTTCTCACATGGTGGTACTACTAGAGGTATTTTACAGATACGGTCAGACCAACAA
-CAATCACAACATGCATTAGAGAACTTTAAGCGTGAATGGAAATCTAGTTTATCAGGTATT
-AATGGTTCATGGCAAATTCCAGTGGTAATGGCAGATGATATTAAATTTGTCAATATGACA
-CCAACTGCTAATGATATGCAATTTGAGAAATGGTTAAATTACCTTATCAATATTATATCT
-GCTTTATATGGTATTGACCCTGCAGAAATTGGTTTCCCTAATAGAGGAGGAGCTACAGGT
-TCTAAAGGTGGTTCTACTTTAAATGAGGCTGACCCGGGTAAAAAACAACAACAATCTCAA
-AATAAAGGTTTACAACCTTTACTTAGATTTATTGAAGACTTAGTTAATAGACATATTATA
-TCAGAATATGGAGATAAGTATACATTCCAATTCGTAGGTGGAGATACTAAGAGTGCTACT
-GATAAACTTAATATTCTTAAACTAGAGACTCAAATATTTAAAACAGTTAATGAGGCTAGA
-GAAGAGCAAGGTAAGAAACCTATTGAAGGTGGAGACATTATTCTAGATGCTTCATTCTTA
-CAAGGAACAGCCCAATTACAACAAGATAAACAATATAATGATGGTAAACAAAAAGAACGT
-TTACAAATGATGATGAGTTTACTAGAAGGAGACAATGATGATTCTGAAGAAGGGCAATCA
-ACAGATTCTAGTAATGATGATAAAGAGATAGGAACAGATGCACAAATAAAAGGTGACGAT
-AATGTTTATCGTACTCAAACATCTAATAAAGGTCAAGGAAGAAAAGGAGAAAAATCTTCT
-GACTTTAAACATTAATTAATAAGCCTAGAATAAATCTAGGCTTTGTTTATTTTTTTCGTA
-ATTTAATTTTGATAAATGTAATAACTATGATATACTATATGTAATTGATATTAATACATA
-AAAAATATTAATATTTCACTTACAAGTTATTATTGTTATATTATTAACGTAAAAGTAAAT
-AAAATAACAAGTGGAGGTGTAGACACCTTTGGAAGAAATAAAATTTAATGCTTTTGTACC
-TATGGATTTGAAGAAATCTGTATCAACAGCTTCTGATACTAATGAGTATTCTATCGTTTC
-AGGATGGGCTAGTACTCCAAGTATGGATTTACAGAATGATATAGTTAATCCTAAAGGAAT
-AGATATAGAGTATTTTAAGTCACAAGGGTACATTAATTATGAGCATCAAAGTGATAAAGT
-TGTAGGTATACCTACAGAGAATTGCTATGTGGATATAGAAAAAGGTTTATTTATTGAAGC
-AAAGCTATGGAAGAATGACGAAAATGTTGTTAAGATGCTTGATTTAGCTGAGAAATTAGA
-AAAATCAGGTAGTGGAAGACGTTTAGGTTTTTCTATTGAAGGTGCAGTTAAAAAACGTAA
-TATAAATGACAATCGAGTTATTGATGAAGTTATGATAACCGGAGTTGCATTAGTTAAAAA
-CCCTGCTAATCCTGAAGCAACATGGGAAAGCTTTATGAAATCATTTTTAACTGGTCATGG
-TACATCACCTGACACTCAAGTTGATGCAGGAGCTTTAAGAAAAGAAGAAATAGCATCTAG
-CATTACAAATTTAGCTTACGTCACTAAGATTAAAGATTTAAAAGAGTTTAATGATGTATG
-GAATGGCGTTGTTGAAGATTTGAGTAAATCTAATAGTATGGGATATGAGGAATCAGTCCT
-TACGTTACAACTAGCTAAAGGTTTATCTCGTAAAGATGCAGAACTAGCAGTAATGGATAT
-AAACAAACAAAAACTAGAATAGGTAAGGAGAATACATTCTATGAGTAAAGAAATGCAAAA
-TATTTTAGAAGAGTATGATAAGTTAAATGCTCAAGAGGCAGTTTCGAAATCTGTAGAAGA
-TGATGAAAAGAATACAGTAGAATCTACCGAAGAGCAAGTAGCAGAAACAACTGAAGAACC
-TGCTAAAGAACCTGAAAAAGTATCTGAGGAAGATGCTAAAGAAGCACAAGAGCAAGGTGA
-AAAAGTTGAATCTGAAGAGGTAGCAGAAGGCAATGAAGATGAGGAAGTTGAAAAATCAGC
-TAAAGAATCAAAAGACCCTGTAGACCAAAAAGATACTAAGACAGAAAATAAAGACAACGA
-GAAACGTAAAAATAAAAAAGATAAAAAAGAAGATTCTGATTCTGACGATGAAGATAAAGA
-TACTGACGATGATAAAGATAAGAAAGAAGATAAGAAGGAAAAAACTTCTAAATCAATTTC
-TGATGAAGATATCACAACAGTATTTAAATCTATCTTAACATCTTTTGAAAACTTAAATAA
-AGAGAAAGAAAACTTTGCTACTAAAGAAGATTTAAGTGAAGTTAGTAAATCTATTAATGA
-GTTATCAGCAAAAATTTCTGAAATCCAAGCTGAAGATGTTTCTAAATCAGTAGACACTGA
-TGAAGAAGCTGTAGAAAAATCAGTAACATCTACAAACGGAGAGCAAGAAAAAGTAGAAGG
-TTACGTTTCTAAATCAGTAGACACTGAAGAACAAGCTGAAACTGGTGAAGCAAAATCAGA
-AGAAGCTGAAGAAGTACAAGAAGATAACACATTTAAAGGATTAAGTCAAGAAGAACGAAC
-TAAGTTCATGGATTCTTACAAAGCACAAGCTAAAGACCCTAGAGCTTCTAAACATGACTT
-ACAATCAGCTTACCAATCTTACTTGAACATTAACACTGACCCTACTAATGCATCAGAGAA
-AGATATTAAAACTGTAAAAGACTTTGCACAAATTTAATTAATGCACAAAGTTGTGTTATA
-TTATACGGTGTAACTAAAGAATATAAATAGGGTACATTTTACTGTACCCTACATAAAATA
-AAAAGAACACAAATGAAAGGTGATAAATTTATATGACTATCGAAAAGAACCTGTCAGACG
-TTCAACAAAAGTACGCTGACCAATTCCAAGAAGACGTAGTAAAGTCATTCCAAACTGGTT
-ATGGAATCACTCCTGATACACAAATTGACGCAGGAGCTTTACGTAGAGAAATTTTAGATG
-ACCAAATCACAATGTTAACATGGACTAATGAAGACTTAATCTTCTATCGTGATATCTCAC
-GCCGTCCTGCTCAATCTACAGTAGTAAAATACGACCAATATTTACGTCATGGTAACGTAG
-GTCACTCTCGTTTCGTTAAAGAAATCGGAGTAGCACCAGTATCTGACCCAAATATCCGTC
-AAAAAACTGTATCAATGAAATACGTTTCTGATACTAAAAATATGTCAATTGCATCAGGTT
-TAGTAAATAACATTGCTGACCCATCACAAATCCTTACAGAAGATGCTATCGCAGTTGTTG
-CAAAAACAATTGAGTGGGCTTCATTCTACGGTGACGCTTCATTAACTTCTGAAGTTGAAG
-GTGAAGGTCTAGAGTTTGATGGTTTAGCTAAATTAATTGACAAAAATAACGTAATTAACG
-CTAAAGGTAATCAATTAACTGAGAAACACTTAAATGAGGCGGCGGTACGTATCGGTAAAG
-GTTTCGGTACAGCTACAGATGCTTACATGCCTATCGGTGTACACGCAGACTTCGTTAACT
-CAATCTTAGGTCGTCAAATGCAATTAATGCAAGACAACAGCGGTAACGTTAACACTGGTT
-ACAGCGTAAATGGTTTCTACTCATCTCGTGGATTCATTAAATTACATGGTTCTACAGTAA
-TGGAAAATGAACTAATCTTAGATGAATCATTACAACCATTACCAAATGCTCCACAACCTG
-CTAAAGTTACAGCTACTGTTGAAACTAAGCAAAAAGGTGCTTTTGAAAATGAAGAAGACC
-GTGCAGGATTATCATATAAAGTAGTAGTTAACTCAGATGACGCTCAATCAGCTCCTTCTG
-AAGAAGTAACAGCTACAGTATCTAACGTAGACGATGGTGTTAAACTTTCAATTAATGTTA
-ACGCTATGTACCAACAACAACCACAATTCGTTTCTATCTACCGTCAAGGTAAAGAAACAG
-GTATGTACTTCCTAATCAAACGTGTACCAGTTAAAGATGCACAAGAAGACGGAACAATCG
-TATTCGTAGATAAGAACGAAACATTGCCTGAAACAGCAGACGTATTTGTTGGTGAAATGT
-CACCACAAGTAGTTCACTTATTCGAATTACTTCCAATGATGAAATTACCATTAGCTCAAA
-TTAATGCTTCTATTACATTTGCAGTATTATGGTATGGTGCATTAGCATTACGTGCTCCTA
-AAAAATGGGCTCGTATTAAAAACGTTCGTTATATCGCAGTTTAATAGAATAAGAAAAACT
-GAATACAAGAGAATAGGGATAAACTTAGGGTTTATCCCTTTTTTATTAAAATAAACTTGA
-AGGGATTTAATAAATATGTTATACTATAAGAAACTATTAGATAAAAAAATGGCTACTGTT
-TATGGTACAGTGGAGATTGACAAAGATGGAGTAGTCAAAGGATTAACTAAAGAACAAGAA
-AAAGAATTTGCCAATGTTCCAGGTTTTGAATTTGAAGAAGAAAAGAAAACTACTAGAAAA
-CAATCAGCTTCTACTAGTAAAGAAGAAGAGCCTAAGGAAGAGGAAAAGAAAGCCTCTACT
-AGAAAAACTACAAATACTACTAGAAAATCTACAGCACGTAAAACAACAGCCAAAAAAGAT
-GAAAATAAGTAAAGGGTGAATTAAATGGTTAACTCAATGTTTGGAGGGGACTTAGACCCT
-TATGAAAAATCATTAAACTATGAATATCCTTATCATCCTAGTGGTAATCCTAAACACATA
-GATGTAAGTGAGATAGATAATTTAACATTAGCTGATTATGGATGGTCACCGGATGCAGTT
-AAAGCATATATGTTCGGTATTGTAGTTCAAAATCCTGATACAGGACAGCCTATGGGTGAC
-GAGTTCTATAACCATATATTGGAAAGAGCGGTAGGTAAAGCTGAAAGAGCATTAGATATA
-TCTATACTACCTGACACTCAACATGAGATGAGAGATTATCATGAGACAGAGTTTAATAGT
-TACATGTTTGTACATGCTTACAGAAAACCTATATTACAGGTAGAGAACTTACAGCTACAG
-TTTAATGGTAGACCTATATATAAATACCCTGCTAACTGGTGGAAAGTAGAGCATCTAGCA
-GGACATGTTCAATTATTCCCTACAGCACTTATGCAAACAGGACAATCAATGTCATACGAT
-GCAGTATTCAATGGATACCCTCAATTAGCAGGTGTATACCCACCATCAGGAGCAACATTT
-GCACCTCAAATGATACGATTAGAATATGTATCAGGTATGCTTCCACGTAAAAAAGCAGGA
-AGAAATAAACCTTGGGAAATGCCCCCTGAGTTAGAACAGTTAGTTATAAAATATGCATTG
-AAAGAAATATACCAAGTATGGGGTAACTTAATTATTGGTGCCGGTATTGCTAATAAAACA
-TTAGAAGTAGACGGTATTACAGAGACAATAGGTACTACTCAATCAGCTATGTATGGTGGA
-GCTAGTGCTCAGATACTTCAAATAAATGAAGATATAAAAGAACTATTAGATGGTTTAAGA
-GCTTACTTTGGATATAATATGATAGGATTATAAGGAGGGTTAGAAAATGGAAAAACCGTA
-TATGATAGGAGCTAACTCTAACCCTAATGTTATTAATAAGTCAACAACATATACTACTAC
-AACACAAGCAGATGAACAAGATAAACCTAAGTATACTACTAGACTAGAGTTTGATACGAT
-TGACATGATTAGGTTTATTAATGACCGAGGTATAAAAGTACTATGGGAAGAAGCATATTT
-CTGTCCTTGTCTTAATCCTGATACAGGACATCCTAGAGTAGATTGCCCTAGATGTCATGG
-TAAAGGTATTGCATATCTACCTCCTAAAGAGACGATAATGGCAATACAGTCTCAAGAGAA
-AGGAACTAACCAGTTAGATATAGGTATATTAGATACAGGTACTGCAATAGGTACCACTCA
-ATTAGAAAAGAGAATTTCCTATAGAGACAGGTTTACTGTTCCTGAGGTATTGATGCCCCA
-ACAAATGATTTATTTTGTGAATAAAGATAGAATTAAAAAAGGTATACCTTTATACTACGA
-TGTAAAAGAAATAACTTATATAGCCACTCAAGACGGTACAGTCTATGAAGAAGATTATGA
-AATCAAGAATAATAGATTGTATTTAAATGAAAAATATGAGAATCATACAGTAACTTTAAA
-GATACTTATGACTTTAAGATATGTAGTATCAGATATACTAAAAGAAAGTCGTTATCAATA
-TACTAAGTTTAATCAACCTAAATCAAAATTTGAAAACTTACCTCAAAAATTACTTCTTAA
-AAGGGAAGATGTCATTGTACTACAAGACCCTTATAAAGTTAATGATGGTATAGAAGAAGA
-CCTAGAAATTCAAGTAGATGACCCTAAGGCTTCGGCATCTAATCCTAGTAATTTAGGTGG
-ATTCTTCGGAGGTGCATTTAAATAATGCCAGTTCATGGAAAGAGACCTAATTTATTTAAA
-AATAAAAACTATAAGCAGGTAGGTAAGAGAACAATTGATGGTATGCGTTCAGAAGTTCTT
-GATAAATTACAAGCAACAGCACAGCAAGTAGAGAATACTAGTATTAAACGTATGCCTACT
-TATCTACAAATAACAGAGAAAAAGCTTGAAAAAGAAGGAGTAGTAGACCTTAAAAAAGCT
-TTTGCTCACTCATCTAAAAAGAAAACTAGTAAAGATGGCGGATGGTATTTAACTGTACCA
-ATCCGCATCAAAACTAGTAGAATGAATAACAGTACTTATCAAGATATGAGAACTTTAAAA
-GTAGATAAAGGAACAGGTTCAGTTTCGAAGATAACTGATTACCTAGAAGGACGTAGGAAG
-AATGTAAGCCACCCTTCAATGAAGCCTGAACCTATGACTCATAATATGACTAAAGTTAAA
-AGAGGAAAGCAATCTTCTTACTTTATATTTAGAACTGTTTCTAGTAAGTCACCTGCTAGT
-TCTTGGATACTTAACAGAGATAAAGTTAATGAAGATAACTTCTCTAAAACAACTCTAAAA
-ACTGTTAAGCAATTAATGAACTGGAAGATGAAAAATTTAAATTAAGAGGAGGGTTAGTAT
-TAAATGGCAATAACATCAGTTGATTCATATTTATTATCAGAAATAAAGCCTAGACTTAAC
-ACTGTGCTAGAGAATTGTTATATTATAGATGAAGTTTTAAAAGACTTTGATTATCAAACT
-AGAGAGAGCTTTAAAGAAGCTTTCTGTGGTAAGAATGCACAACATGAAGTAACGGTAGGA
-TTTAACTTCCCAAAATTTAAAAATAACTATGAAGCTCATTACTTGATACAATTAGGTCAA
-GGACAAGAGACAAAAAACTCTTTAGGGAGTATTCAGTCATCTTACTTTGAGGCAACAGGA
-GATACTTTAGTCGAATCTTCTACAGCAATAAGAGAAGATGATAAGTTAGTTTTTACTGTT
-TCTAAACCAATAGGAGAGTTAATAAAGGTAGAAGATATAGAGTTTGCTAAATACGATAAT
-CTTCAGGTTGAAGGTAATAAGGTATCATTTAAGTATCAAACAAATGAAGATTATGAGAAC
-TACAATGCTAACATTATATTTACCGAAAAGAAAAATGATTCTAAAGGTTTAGTAAAAGGA
-TTCACAGTTGAAGAACAAGTAACAGTTGTAGGTCTTTCATTTAATGTAGACGTTGCAAGA
-TGTTTGGATGCTGTACTGAAAATGATTTTAATATCTATGAGAGATAGTATAGAAGAGCAA
-CAAACATTCCAATTACAGAATTTGTCTTTTGGTGATATTGCACCAATAATAGAAGATGGT
-GACTCAATGATTTTTGGTAGACCAACAATTATTAAGTACACAAGTTCTCTAGATTTGGAT
-TATACTATTACACAAGATATTAATAAACTAACTTTTAAAGAAAGAAAGGATTGGAAGTAG
-GATGGCTAGAAAAAAGACACCTGAAAATAACACTCCTAAATTTAATGGTTATGTTCATAT
-AGATACATTCCTTGATACTGCAAAAACCCTTTTTAATATGAGGGATTCACAAGTAGCAGG
-ATTTAAAGCTTATATGGAAGGTAGTCATTATTTGTTTAGTGAGCAAGAATTCTTACCATC
-ATTAGAGAAGTATCTAGGTAGGAAATTAGATATATAATAACATTCAGATAAGGAGAATTA
-AATATGGCAGTAGAACCATTCCCAAGAAGACCTATTACCCGTCCTCATGCATCTATTGAA
-GTAGATACTTCAGGTATCGGTGGCTCAGCAGGTTCAAGTGAAAAAGTATTTTGCTTAATC
-GGTCAGGCTGAAGGCGGAGAACCAAATACAGTTTATGAATTACGTAACTATTCACAAGCT
-AAACGTTTATTCCGTTCAGGAGAATTACTTGATGCAATAGAATTAGCATGGGGTTCTAAC
-CCTAACTATACAGCAGGACGTATTTTAGCTATGCGTATAGAAGATGCTAAACCTGCTTCA
-GCGGAAATTGGCGGATTAAAAATAACATCTAAAATCTACGGTAATGTTGCTAACAACATT
-CAAGTAGGATTAGAAAAGAATACACTAAGTGATTCATTACGTTTAAGAGTAATATTCCAA
-GATGACCGTTTCAATGAGGTTTATGATAATATCGGTAATATCTTCACAATCAAGTACAAA
-GGAGAAGAAGCTAACGCAACTTTCTCTGTAGAACATGATGAAGAAACTCAAAAAGCAAGT
-CGTTTAGTATTAAAAGTTGGAGACCAAGAAGTTAAGTCATATGATTTAACTGGTGGAGCT
-TATGACTACACTAATGCTATTATTACAGACATTAATCAATTACCTGATTTCGAAGCTAAA
-TTATCACCTTTCGGAGATAAGAACTTAGAATCTAGCAAATTAGATAAAATTGAAAATGCA
-AATATAAAAGATAAAGCTGTATATGTAAAAGCAGTTTTTGGTGACTTAGAAAAACAAACA
-GCTTACAATGGTATCGTATCTTTCGAGCAACTTAATGCAGAAGGAGAAGTACCAAGTAAT
-GTAGAGGTTGAAGCAGGAGAAGAATCAGCTACAGTAACTGCTACTTCACCTATTAAAACT
-ATTGAACCGTTTGAGTTAACTAAGTTAAAAGGCGGTACTAATGGTGAACCACCTGCTACA
-TGGGCAGACAAGTTAGATAAATTTGCACATGAAGGCGGATACTACATTGTTCCATTATCA
-TCTAAACAATCAGTTCATGCAGAGGTAGCTTCTTTTGTTAAAGAACGTTCTGATGCAGGA
-GAACCAATGAGAGCTATTGTTGGTGGAGGATTCAATGAATCTAAAGAACAATTGTTCGGT
-AGACAAGCATCATTATCTAATCCACGAGTATCATTAGTAGCTAACTCAGGTACTTTTGTT
-ATGGATGATGGACGTAAAAACCACGTACCTGCTTACATGGTAGCCGTAGCTCTAGGTGGT
-CTTGCAAGTGGTTTAGAAATCGGTGAATCAATCACATTCAAACCACTACGTGTAAGTTCA
-TTAGACCAAATCTATGAGTCAATAGACTTAGATGAATTAAATGAAAATGGTATTATTAGT
-ATAGAGTTTGTTCGTAACCGTACTAATACATTCTTCAGAATCGTTGACGATGTAACTACA
-TTCAACGATAAATCAGACCCAGTTAAGGCTGAAATGGCTGTTGGGGAAGCTAATGACTTC
-TTAGTAAGTGAGCTTAAAGTTCAACTTGAAGACCAGTTTATTGGTACTCGTACTATTAAT
-ACAAGTGCTTCAATCATTAAAGACTTTATCCAATCTTACTTGGGTCGTAAGAAACGTGAT
-AATGAAATTAAAGACTTCCCTGCTGAAGACGTACAAGTTATTGTTGAAGGTAACGAAGCA
-AGAATTTCAATGACAGTTTACCCAATCAGAAGCTTCAAGAAAATCTCTGTTAGCTTGGTT
-TACAAGCAACAGACATTACAAGCCTAGTCTAGGTGACGGAGTACCTGGATTAGGTACTCC
-TATTAATATAATTTGAATACTTTAGGAGAGTGAATACAGATGGCATCAGAAGCTAAACAA
-ACCGTCCATACTGGTAATACCGTCCTACTTATGATTAAAGGTAAACCGGTAGGAAGAGCA
-CAATCAGCATCAGGTCAACGTGAATACGGTACAACTGGTGTATACGAAATCGGTTCTATC
-ATGCCTCAAGAACACGTATACTTACGTTATGAAGGTACAATTACAGTAGAACGTTTACGT
-ATGAAAAAAGAAAACTTTGCAGATTTAGGATATGCTTCACTTGGTGAAGAAATTCTTAAG
-AAAGACATCATTGATATTTTAGTAGTAGATAACTTAACGAAACAAGTTATTATCTCATAT
-CATGGTTGCTCTGCAAATAACTACAATGAAACTTGGCAGACAAATGAAATTGTAACAGAA
-GAAATCGAGTTTAGTTACTTAACAGCAAGTGACAAAGCACGTACTTAATAGATTAGACCA
-ACTAAAAAGTTGGTCTTTTTTTATTGACACTTTAAAATTTATATGTTATTATAAATATAA
-TAATTTAAACAGGAGATGTACTAGATGGCAAATAAGAGAAAAACAATAGGAAAAATGAGT
-AACACAAGAGCAACATGGAATATTAATCCGGTAACTAAAGTTAAAAAAGATAAAACAAAA
-TATTCTAGAAAAAATAAACATAAAGGTCTTGACAATTATAATTAACTAAGGTATATTATT
-AGTATAACAAAAAAAGGAGATGGGTATATGAGTACATTTTGGTCAGAAAGAAGAACAACT
-AATAAAGATAGGCAAGTTAAAAAACATTATACTCAAATGAGTATGTATGAAAGAAAGAAA
-TGTGTAGAGTTATTACAAGAGACAATTACTGAAAATAGAATTATTAATTTTACACGACAT
-AGTGCAAAAAAGGTTAAAGGTAAACCAACAACAAATATACCTAAATTAATAGGTTTTATT
-TTTAAAAATAAGTTTGCCTACGAAAATATCATAGAGTACAATAACACAGATTATAATGGT
-AATATTGAGAGGAGAATTGTTGTTAAACATCCTAAAGTTATAACTGTAGAAGGAAAACCT
-AGCTATCAGTTTTTGACAATTAGTCTTGAAGATGCTAGAGTTATTACGGTGTGGTATAAC
-AGTGTAGATGATACACATAGAACACTAGATTTAAATTATTATAGTAAAGACTTGACAATT
-CAATAAGGAGGTATTATAATGGGTATAACAATAGTAAATAGTTATTTTATTCTGTCTAGC
-ATTTTCCTCATCATATTAACCATATTAAATGGTAAGGGTACAGTTACAAGGGAATCATTA
-ACTATGAGTAAAATATTAGTAGTAATAACATCAATTCAATTTTTAGCATGTTTAATTATT
-AATGGTATTTATTGGTCACTAAAATTTATGTAGTAGAACTAGAATAAAAGTATTGACAAA
-TTAAAACTAATAAATTATAATAAAGGTATAACAAATTAAAGGAGAAGATATAAAATGTCA
-CAAGATAAATTAAGAGCAATTTACACAGAAATGAAAGTAGAATTACACAAATTTCCTAAA
-GAGGTAGATATAACAAGTAAATCAACTGCAATTGCAATCAATCAGATTTTAGATAAATTC
-AAAACATTAACAGAACAAGCAGGAAAGATTACTAGAAAATATTTAGAAGGTCAAGAAATA
-TTAACTATTGATTATGAGTATTATGATTCATTACAAGAATACTATATTTACCTACTTAGA
-AATAGTGAAAAGATTGAACAAAGTTTACAAGAAATTACTAAGCGTACAGGTGAATATGTA
-AAGTAATTTTGATTTAAAAACAAAATATGATATACTATGTTTAAAGTAGTAAGCCTACAC
-TAGTCCGTGTTATATTAATATTGAATCGGATAAGCGTAGGCTTTATTAATATTTAAAAAA
-GGAAGGTATATCATATTATGGCAGAAGAAATTAAAAAGGAACAAGATGTACAAGAAACAA
-CTAAAGAAGAAAAAAAAGATGTTAGTAAAATGACACCGGAAGAAATAGATAAATTAAAAT
-ATCAAGACAAACAAGAAAAAGAACAAGTTATTAACAAAGTTATTAAAGGCGTTAATGATA
-CTTGGGAAAAAGAATATAACTTTGAAGAACTAGACTTAAGATTTAAAGTTAAGATTAAAT
-TACCTAATGCACGAGAACAAGGTAATATCTTTGCGTTACGTTCTGCTTACTTAGGTGGTA
-TGGATATGTACCAAACAGACCAAGTGATTAGAGCATATCAAATGTTAGCTACCTTACAGG
-AAGTAGGTATTGAAGTTCCTAAGGAATTCCAAGACCCTGACGATATTTATAACTTATATC
-CTTTAACTGTTATGTATGAAGATTGGTTAGGATTCTTAAACTCCTTTCGTTACTAATAGT
-ATAGAAACATTAGATAAAGATATAGAACGATTGGGCGGTATGGAATCAATTGTTAAACAA
-CCTTTATCTAGAAATCTATGGGCTATTATGAAAGAGTTTAATGTTTTACCTACCGAGCAA
-AGATTTAAGGACTTAGACGATTATCAGATAGAGTTTATTATTGGGAATATGAATAGAGAT
-GTTTATGAACATAATAAACAACTTAAACAAGCTCAAAAAGGTGGAAAATTCGATAGTCAA
-TTCGAAGATGATGATAGTAGTTGGTGGAATGAATCTCATGAAGACTTTGACCCAGTACCT
-GATTTCTTAGATGCTGATGATTTAGCACAACAGATGGAAGCTAAATTATCCGATAGAGAT
-AAGGAAGAAAGAGCTAAGAGAAACGATGCAGAGTTAAATGATGAAACAGAAGGACTTACT
-ACACAACATCTAGCTATGATGGAATACATCAGACAGAAACAACAAGAATTAGATGATGAA
-GTAGGAAATGGTAAGACTAGTGAAGATGACGCTACTATATCACAAGATAGCGTTAATAAA
-GCACTAGAAGACCTAGATGATGACTGGTATATGTAAAGGGTGGTAGGTGATACTACCATC
-CTTATTTTTTTAAAATGGATGGTGAATAATGATGGCAATGAATGACGATTATAGATTGGT
-CTTGTCCGGTGATAGTTCGGATTTAGAGAATAGTCTAAAGGCAATAGAACTTTATATGGA
-TTCTTTAGAGTCTAAGAATATTGATGCTCCTTTAGATAATTTCTTAAAAAAATTAAAAGT
-AATTGCTAAAGAAGTTAAAAATGTACAGAACGCAATGGATAAACAAGATGGTAAATCTGT
-TATATCTTCTAAAGACATGGATGAATCTATTAAATCCACTCAATCTGCTACAAAGAATAT
-AAATGAATTAAAGAAAGCTTTAGATGACCTTCAAAAAGAGAATATATCTAAAGGTATTGC
-ACCTGACCCTGAAGTTGAAAAAGCATATGCTAAGATGGGTAAAGTTGTAGATGAAACTCA
-AGAAAAACTTGAGAAAATGTCTTCACAAAAAATAGGTTCTGATGCCAGTATTCAAAATAG
-AATTAAGGAAATGAAAACCTTAAATCAAGTAACTGAAGAATACAATAAAATAAGTAAAGA
-TTCTAGCGCAACTAAAGATTATACAAAACGATTAAGAGCTAATCGTAATATGACTAGAGG
-TTACATGGAGCGTTCAGAAGGAACAGGACGATTAACATATGACCAAGGTGCACGAGTTAG
-AAGTGAGCTAGGTAAAATAAGTTCTTATGAGAGCCAAAGAAAACAAAACCAACGTAATTT
-AGGACAAGCAAGAGAGCAATATAGCAACTATAGAAATCAACAACAAGACTTGACTAAACG
-TAGAGCTAGCGGTCAAATTAATAAGGAACAATATGAACAAGAGTTAGCTTCTATTAAACA
-GGAAATGAAAGCTAGAGAAGAACTTATATCTAACTATGAGAAATTAGGAGCAGAACTTGA
-TAAAACAGTTCAGTATTATAAGGGTTCAGTTCAAAAGGATTTCCAATCTAGAGACGTAGA
-CCAACAAAGAGGAACATTTGGTAGAATGGTTCAAGAACGTTTGCCATCTATTGGTTCTCA
-TGCTATGATGGGTACTACAGCTATGGCTACAGGTTTATACATGAAGGGTGCCTCATTAAG
-TGAAACTAATAGACCGATGGTTACATCATTAGGTCAAAATTCCGATAATATGGATATAGA
-TTCTGTAAGAAATGCATATGGAGACTTGTCAATTGATAACAAATTAGGTTATAATAGTAC
-TGACATGTTGAAAATGGCTACTTCATATGAAGCATCAGTAGGACATAAAAGTGATGAGGA
-CACAATGGCAGGAACTAAACAGCTTGCTATTGGAGGACGTTCTTTAGGCATTAAAGACCA
-AGAAGCTTATCAAGAGTCTATGGGTCAAATCATGCATACCGGTGGAGTAAATTCTGATAA
-CATGAAGGAAATGCAAGATGCATTCTTAGGTGGTATTAAACAATCAGGCATGGTTGGTCG
-TCAAGATGAACAACTTAAAGCACTAGGTTCTATAGCGGAACAATCAGGAGAAGGAAGAAC
-TCTAACTAAAGACCAAATGAGTAACCTTACTGCCATGCAATCTACTTTTGCAGAGTCAGG
-AAGTAAAGGATTACAAGGTGAACAAGGTGCCAATGCTATTAACAGTATAGACCAAGGACT
-TAAAAATGGTATGAATAGTTCTTATGCTCGTATAGCAATGGGATGGGGAACGCAATACCA
-AGGTCTTGAAGGTGGATATGATTTACAAAAACGTATGGATGAAGGTATATCTAATCCTGA
-AAACTTGACAGATATGGCTGATATAGCTACTCAAATGGGTGGCAGTGAAAAAGAACAAAA
-ATACCTATTTAATAGAAGTATGAAAGAAATAGGCGCTAACCTAACTATGGAGCAATCTGA
-TGAAATATTTAAAGATGCTCAATCCGGAAAACTATCTAAAGAAGAGTTAGCTAAGAAAGC
-TAAGAAAATGGAAAAAGAAGGTAAAAAAGAAGGAGAAGATAACGCCACTGATTATAAAGA
-ATCTAAATCAGGAAAAAATGACCAAAATAAATCGAAGACTGATGATAAAGCAGAAGATAC
-TTATGATATGGCTCAACCACTAAGAGATGCTCATAGTGCTTTAGCAGGTCTTCCTGCCCC
-TATATATTTAGCTATAGGAGCTATAGGAGCATTTACAGCTTCACTAATTGCATCTGCAAG
-TCAATTTGGAGCAGGTCACTTAATTGGTAAAGGAGCCAAAGGACTTAGAAATAAATTTGG
-TAGAAATAAAGGCGGTAGCTCCGGTGGTAACCCTATGGCAGGTGGAATGCCTAGTGGTGG
-TGGTTCACCTAAGGGTGGAGGCTCACCTAAAGGTGGGGGCACTCGTTCTACTGGAGGAAA
-AATACTTGATAGCGCTAAAGGTCTTGGAGGATTCCTAGTAGGTGGCGCAGGATGGAAAGG
-TATGTTTGGCGGGGAGTCTAAAGGTAAAGGCTTTAAACAAACATCTAAAGAAGCCTGGTC
-AGGTACTAGAAAAGTATTTAATAGAGATAATGGTAGAAAAGCCATGGATAAATCTAAAGA
-TATAGCTAAAGGTACCGGTAGTGGTCTTAAAGATATCTATAATGATAGTATATTTGGTAA
-AGAAAGAAGACAAAACCTAGGAGAAAAAGCTAAAGGTTTTGGTGGCAAAGCTAAGGGTCT
-CTATGGTAAGTTTGCTGATAAGTTTGGTGACGGAGGTAAAAATGGTATTCTTTCACAATC
-ACCAAAAGCAGGTGGAAGTGGCATAGGGAAACTTGGAAAACTTGCAGGTGGACTTGGAAA
-AGGAGCCGGAGTTTTAGGTGTTGCTACGTCTGCCTTATCATTAATACCTGCTTTAGCTTC
-CGGAGATAGTAAAGCTATCGGCGGAGGAATAGGCTCTATGGGTGGAGGAATGGCAGGTGC
-ATCAGCAGGAGCTTCTATAGGAGCTTTATTTGGTGGTGTAGGTGCAATACCTGGAGCTTT
-AATAGGTGGAGCTATAGGTTCCTTCGGAGGAGGAGCTGTTGGTGAAAAAGTCGGAGACAT
-GGCTAAAAAAGCTAACACTAAAGAAGGATGGAACCTAGGATGGACTAACGGAGATAAGGA
-TGGTAAGAATAAATTCCAAGATTCTTTATTAGGAAAACCTATATCTAAAGCATGGAGCGG
-TATAACAGGTCTCTTTGATAATGACGCTGAAGCATCCGAAGAAGATAGTAAAGATAAGAA
-AAAAGGTGTTAAAGGCGTTAAAGGAGATACTAAGAAGAAAGAAAAAATGACAGCAGAACA
-ACTTAGAGAAAAGAATAACCAATCTGAAACTAAGAATCTTAAAATCTATAGTGATTTACT
-TGACAGAGCTCAGAAAATTATTGAGAGTGCTAAAGGTATTAATATAGATGGAGGAACTTC
-TGATAGTGGTTCTGATAGTGGAGGCTCTGCATCTGATGTAGGTGGAGAAGGCGCAGAGAA
-GATGTACAAGTTCCTTAAAGGAAAAGGACTATCTGATAATCAGGTAGGAGCTGTTATGGG
-GAACTTACAACAAGAATCTAATCTTGACCCTAATGCTAAGAATGCTTCTAGTGGAGCATT
-TGGTATTGCTCAGTGGTTAGGGGCTAGAAAAACAGGATTAGAAAATTTTGCTAAATCTAA
-AGGTAAAAAATCTAGTGACATGGATGTTCAATTAGATTACCTATGGAAAGAAATGCAGTC
-TGATTATGAAAGCAATAATCTTAAAAATGCAGGTTGGAGCAAAGGTGGAAGCTTAGAGCA
-GAATACAAAAGCATTTGCTACTGGATTTGAACGTATGGGAGCAAACGAGGCTATGATGGG
-TACTCGTGTTAACAATGCTAAGGAATTCAAGAAGAAATACGGAGGCTCCGGTGGCGGAGG
-TGGTGGAGGAGCCCTATCCTCTACTTACCAAGAAGCTATGAGTAATCCTGTATTAACTAC
-TGGTTCTAATTATAGGGGCTCTAATGATGCTTCTAATGCTTCTACAACTAACAGAATAAC
-AGTCAATGTTAATGTTCAAGGTGGAAATAATCCTGAAGAAACTGGAGACATTATCGGAGG
-AAGAATTAGAGAAGTTCTAGATAGTAATATGGATATCTTTGCAAATGAACATAAGAGAAG
-TTATTAGTAATTTTGTATTGACACAAGAGTAGTATCATAATATACTACTCTTATACATAT
-AAAAAATAAAAGGAAGTATGTGTATATGCGTAGAATAAGAAGACCTAAGGTAAGAATAGA
-AATCGTTACAGATGATAATACATTTACATTGAGATTTGAAGATACACGTGACTATAATGG
-TGATGAGTTTGGAGCTAAACTTTTAGGATTCCAAACTAAAAACTCTATGGAAGATGATAG
-TTCAGTTTTCCAAATAAATATGGCAGGAGATACTTATTGGGATAAGCTAGTTATGGCTAA
-TGATATCATAAGAATATTTATTACACCTAATGATGACCCTAACGATAAAGAAGGAAAACA
-AGAACGACTTATCCAGGTAGGTATGGTTTCTCAAGTATCAAAAGTAGGTAGTTACGGTAA
-TGACCAAACTCAATTTAGAATAACAGGTCAATCTTTTGTAAAACCTTTTATGAAATTTGG
-ATTAGGCGTTATTCAGGAAGTTCAAGCTGTATTACCTGAAGTAGGTTGGCTTATTGATGG
-TGATGGAGATAATGAAGTAAAATTTACTGGTAGCTCAGCTCATGAAGTAATGACTGGTAT
-TATACGTAGATTTATACCTTATATGAAATATAACTATACTGAAAAAACATATAATACAAT
-TGATAACTATCTTGATTATGATGATTTAAGTAGTTGGGATGAGTTTGAAAAACTTACAGA
-AGTTTCAGCCTTTACTAATTTTGATGGGTCATTAAAACAGTTAATGGATATGGTAACAGC
-TAGACCTTTTAATGAGTTATTCTTCAAAAATTCAGAAAAAACACCTGGAAAGGCTCAACT
-TGTATTAAGAAAGACCCCTTTTAATCCTACTGAGTGGAGAGCTTTAGATATGATTAAAGT
-ACCTACTGAGGATTTTATAGAAGAGGATGTAGGTAAAAGTGATGTAGAGACATATTCTAT
-ATTTACAGCAACACCTGCAGGTATGTTGAAAGAGCTTAACGGTGATGTATTTTCTAAACC
-ACAATTCCACCCTGAATTAACTGATAGATATGGTTATACTAAATTTGAAGTAGAAAATAT
-TTATCTTAGTACAAAATCAGGTTCAGCTACTGAGGATTCAGATTCTTCAGGTGATGATAA
-TGGCACAGAACGAGGAACTTATTCTAAAATTATGAAAGATTTAAGTAACTATGGAAGAGA
-TAATATATCTAAAGGTATAGATAAGTATACAAGTAAATTATCTTCAAAATATAAAAACTT
-AAAAAAAGCCCAAGCTAAAAAAATTATAGAGAAGTTTGTTAAAGAAGGAAAAGTAACAGA
-AAAAGAATATGAAAAAATAACAGGTAATAAGGTAGATGATGAATTAACATCAGATAACAG
-ACCGAAGTTGACAAAAGATAAATTAAAGAGTATACTAAAAGAGAAGTTTAAAACACAAGA
-TGATTTTAATAATTCTAAGAAAAAGAAAAAAGCTAAGACAGATGCACTTAAAGAATTGAC
-AACTAAATATCGTTTTGGTAATAAAACACATGCTACAACTTTATTAGATGAATATATTAA
-ATATAAAGGAGAGCCACCTAACGATGAGGCTTTTGATAAATATCTTAAAGCTATTGAAGG
-TGTTAGTAATGTAGCTACAGACACAGGTTCAGATGCAAGTGATAGCCCTTTAGTTATGTT
-TTCTAGAATGCTATTTAATTGGTATCATGGTAACCCTAACTTCTATGCAGGAGATATTAT
-TGTTTTAGGAGACCCTAAGTATGACCTAGGTAAAAGATTATTTATTGAAGATAAGCAACG
-AGGAGACACTTGGGAGTTCTATATTGAATCTGTAGAACATAAATTCGATTATAAACAGGG
-GTATTATACAACTGTAGGAGTAACTAGAGGTTTAAAAGACGCTATTCTAGAAGATGGTAA
-AGGTAGTCCGCATAGATTTGCAGGATTATGGAATCAATCATCAGACTTCATGGGAGGTCT
-TATGGGTGAAGATACTTCTAAAGAACTTAAAGAAAAAGGTGTAGCAGAGAAACAAAGTAG
-TGGAGATAAAGATGGTGGTTCTGATAGTGGTGGAGCTCAAGATGGTGGCTCTTTAGATTC
-ACTTAAAAAATATAACGGCAAACTTCCTAAGCATGACCCAAGTTTTGTTCAACCTGGTAA
-CCGACATTATAAGTATCAGTGTACATGGTATGCTTATAATAGAAGAGGTCAATTAGGCAT
-ACCTGTGCCTTTATGGGGGGACGCCGCCGACTGGATAGGTGGTGCTAAAGGAGCAGGTTA
-TGGTGTAGGTAGAACACCTAAACAAGGTGCTTGTGTTATATGGCAAAGAGGAGTTCAAGG
-AGGTAGCCCACAATATGGTCACGTAGCGTTTGTAGAGAAAGTATTAGATGGAGGTAAAAA
-AATATTTATCTCTGAACATAACTATGCTACCCCTAATGGATATGGTACTAGAACGATAGA
-TATGAGTTCAGCCATAGGTAAGAATGCACAATTCATTTACGATAAGAAATAAAGGAGGAT
-AGTCTATGGCAACAGATAAAGAAGCTAAAGATGTTATTGATAAATTTATAGACAATGTAT
-TTAATTTTGATGTACTTACAAAAGAAAGAATAAAAGAAAAAGATGAAGAAATTAAAAAAA
-TAACTACAGATGATATGTATGAAAAGGTTGTGTATATACGACCTTATGTTGGAGTAATAC
-AAAGCCTTAACCCTCAGCATGTTCAGTATGAATCATTTTCTAATAATGGTTATGATATAG
-AGGCAGAATTAAGTTTCAGGAAAGTAAGTTATTTAGTTGATAAAGGGTCTATACCTACAG
-ATTCTTTATCTACTTTAACAGTTCATTTAGTAGAACGAAATCAAGAACTATTAATAGATT
-ACTTTGATGAGATACAAGATGTGTTGTATGGAGAATATATGGAAGAAGAATATGTATTTG
-ATGAAGATGTACCATTAAGTACGATACTAGCATTAGACTTAAATGATAATCTTAAATCCT
-TATCAAATATAAAGTATATGTTCAAAGGTGCTCCTAAAGAGAATCCATTTGGAACAGATA
-AAGATGTTTATATAGATACTTATAACTTATTATACTGGTTATATTTAGGTGAAGATGAAG
-AGTTAGCATATCCTATGAATATTAACTACTTCTTTACAGAGGGAAGATTCTTTACTATAT
-TCGGTAAAGGACATAAGTATAAGGTAGATGTTAGTAAATTTATAGTTGGAGATATATTAT
-TCTTTGGTAGAAGTGATACTAATATAGGTATTTATGTAGGAGATGGGGAGTTTATATCTA
-TGATGGGTAAATTCCCTAAAGATGAAACACCTATAGGAAAATATAAACTTGATGATTACT
-GGAATGAATTTAACGGAAGAGTTATGAGATTCGATGAAGAGGTGTATATTTAATGGTAGT
-AAGATTCCAATCTTCCATGGGGAGAAGTTTAAAAAGAGTAGATTCGGATGATTTAAATGT
-AAAAGGATTAGTTTTAGCTACAGTTAGTAAAATTAATTATAAATATCAATCAGTAGAAGT
-TAAAGTTAACAATTTAACTCTAGGAAGCCGTATAGGTGATGATGGTAGCTTAGCTGTACC
-TTATCCTAAATCTTTCATAGGAAGAACACCTGAAGGAAGCGTATTCGGTACAAAACCTCT
-TATTACTGAAGGTTCTGTAGTATTAATAGGGTTTCTAAATGATGATATAAATAGTCCTAT
-TATTTTAAGTGTTTATGGTGATAATGAACAAAATAAAATGATTAATACCAATCCTCTAGA
-TGGAGGTAAGTTTGATACAGAAAGTGTTTATAAATATAGTAGTTCACTATATGAAATTTT
-ACCATCTTTAAATTATAAATATGATGATGGAGAAGGAACAAGTATTAGGACTTATAATGG
-TAAATCATTTTTCTCTATGACATCAGGTGAAGAAGAGAAACCTCAGGCAACAGATTTTTA
-TACTGGAACTGAGTATCAAGATTTATTTACTTCTTATTATGGTAATAAGACATTAATTGA
-GCCTAGAATACAAAAGGCTCCTAATATGTTATTTAAACATCAAGGAGTTTTTTATGATGA
-TGGCACGCCGGATAATCATATAACTACTTTATTTATATCTGAAAGAGGGGATATAAGAGC
-CTCAGTTTTAAATACAGAAACACAGAAAAGAACTACACAGGAAATGTCAAGTGATGGGTC
-TTATAGAGTTATCAAACAAGATGACGATTTAATGTTGGATGAAGCTCAAGTTTGGATTGA
-GTATGGTATTAGTGAAGATAATAAATTTTATATTAAAAATGACAAGCATAAATTTGAATT
-TACTGATGAGGGAATCTATATAGATGATAAACCTATGTTAGAAAACTTAGATGAGAGTAT
-AGCAGAGGCTATGAAGAATTTGAATGAAATACAAAAAGAACTCGATGATATAAACTACCT
-TCTCGAGGGTGTAGGTAAAGACAATTTAGAAGAATTAATAGAGTCTACAAAAGAGTCTAT
-AGAAGCTTCTAAAAAAGCAACTTCAGATGTCAATAGACTTACAACTCAGATAGCAGAAGT
-GAGTGGTAGAACTGAAGGTATTATAACACAGTTCCAAAAATTTAGAGATGAGACTTTTAA
-AGATTTTTATGAAGATGCTTCTACTGTTATTAATGAAGTAAATCAGAATTTCCCTACTAT
-GAAAACAGATGTTAAGACCTTAAAGACTAAAGTTGATAACCTAGAGAAAACTGAAATACC
-AAATATTAAAACTAGATTAACAGAACTAGAGAACAATAATAACAATGCTGATAAAATAAT
-CTCAGATAGAGGAGAACATATAGGTGCTATGATACAGTTAGAGGAAAATGTCACAGTACC
-TATGAGAAAATATATGCCAATACCATGGAGCAAAGTTACTTATAATAATGCAGAGTTTTG
-GGATTCTAATAATCCTACTCGATTAGTAGTACCTAAAGGAATAACAAAAGTAAGAGTTGC
-AGGTAATGTTTTGTGGGACTCTAACGCCACAGGACAACGTATGTTGAGAATATTGAAAAA
-TGGTACTTATAGTATAGGATTACCTTATACAAGAGATGTAGCTATATCTACAGCACCTCA
-GAATGGTACTAGTGGAGTTATTCCTGTTAAAGAAGGAGATTACTTTGAGTTTGAAGCTTT
-CCAAGACTCAGAAGGTGACAGACAATTCAGAGCAGACCCTTATACATGGTTTAGTATTGA
-AGCTATAGAATTAGAAACTGAAACTATGGAGAAAGACTTTATGCTTATAGGACATAGAGG
-AGCAACCGGATACACAGATGAGCACACGATAAAAGGATATCAAATGGCTTTAGATAAAGG
-TGCAGATTATATAGAATTGGATTTACAATTAACAAAAGATAATAAGTTATTGTGTATGCA
-TGATTCTACTATAGACAGAACAACAACAGGAACAGGTAAGGTAGGAGATATGACCTTATC
-TTATATACAAACTAACTTTACATCTCTCAATGGTGAGCCGATACCATCTCTTGATGATGT
-ACTAAATCATTTTGGAACAAAAGTTAAATATTATATAGAAACTAAACGTCCGTTTGATGC
-TAATATGGATAGAGAATTATTAACTCAATTAAAAGCAAAAGGATTAATAGGAATAGGTTC
-AGAGAGATTCCAAGTAATTATTCAATCATTTGCTAGAGAATCTTTAATTAATATTCATAA
-TCAATTCTCTAATATACCTTTAGCTTACCTAACAAGTACATTTTCTGAAAGTGAAATGGA
-TGATTGTTTAAGTTATGGTTTTTATGCTATTGCGCCTAAATATACAACTATAACTAAAGA
-ATTAGTAGATTTAGCTCATAGTAAAGGGCTTAAAGTCCATGCATGGACGGTAAACACAAA
-AGAAGAAATGCAAAGCTTAATACAAATGGGTGTAGATGGATTCTTTACAAACTACCTAGA
-TGAATATAAAAAGATTTAATATTAAAGACCTATTAATTTAGGTCTTTTTTTAGTTGTAAT
-TTAAACTAGTTCGTGATATATTAGTAGTATGAGATTTATATACATACTGAAAAGGAGAGG
-ATAAAATGCCACAATCAGATGGAATAAGTAATCTTCATAGAATAGCTTTACGCTTCCCTA
-AAGAAGGCGGTGGTTATGATATGTATAGATTTAAAGTTAACCCTGAGAACTACACAATAG
-ATTCACCACAACGTACGACAGCAATTAAAACAAAATCAGATATTGTAATAGAAGATTATG
-GTAAAGACATAGAAGTTATTAACTTCACAGGTACAACTGGTTTTAGACCTGTTAGAGAAG
-CAGATGGATTAAAAACAGGTAAGCAGAAAATGGAAGAGTTACAAAGTAGAGTTAGTGAAT
-ATGCTATGCAAGGTGGCAGTGGTAATGTAAGTGGTTCTTACTTACAATTTTTTAACTTTA
-CAGATGATAGTTATTATAAAGTTCATTTAGCTCCTCAGGGGTTAAAGATAACTAGGTCTA
-AAGATGAACCATTACTTTTTAGATATGAAATAACATTAGTAGTTATTGGTTCATTAACAG
-AAGCAGATAGAAGTGCTGTAACAACAGAAGAGTTTGGTAACGTTAAACCTAATGCTTCTC
-AAAGAGTAGATGAGGGTATAAAAGAATTAGATAAAAATGCTCGTAAAACGAGAGATAGAA
-ACAATCAAGAAATATCTAGAAGAGAAAATACAATACCTAAATCTACAGGAGATAATACGA
-ACGAGGGTAATAGACTTAAGCAAAGCTTCCCTAGTAGTTCTATATATAATCCTAGACAAT
-CTACTAACGGATTAAAAGGTAATATTGACAATATGGCGCTGATAATAGGTTACGGTGATG
-GAGGTGTATCTAGCTAATGAATAATTTTATACCACAACCTCAAGGTCTACTTAGATTTTT
-AAATGCCCTAGATACAGATTTAACTTCTTCTCATATGAATTTACTGGATGAAGAGGTATC
-ATTTGTATCTAAATTTTATACACCACAGCTACAATTAAGTGAATTAGCAAAAAAAGTATT
-GACAAATATAAAGACAGATGATATACCTGTATTAGAAAGAGAATTTAATGATAATACAAT
-TATCCATAAAGCTAACGATACATTACTAAAAGTACAGGCTCCAAGAATGTATATGATTCT
-ACAGTCGATTGTACTTGAAGCATATGCTATTGTTAATTGCTTTGTAGAAAATCCGAGCTC
-TTTAAAATACTTAACTGAAGAAGATGTTAGTATAACACGGGAAAATTTAAATTATGTAGC
-TGACTACTTAGGTAACTATGATGACTATAATAGTGTTGTCTTAGACTTAAGAGATTTAGA
-CTTATGTTTTAGTGCTATAGAATTACAATTACCTCTAATCAAAAAGGAGGCTAACGTATA
-ATGAGATTTAAGAAGCACGTAGTTCAACATGAAGAAACGATGCAAGCAATAGCACAGAGA
-TACTATGGTGATGTGAGTTATTGGATAGACCTAGTAGAGCATAATAATTTAAAGTACCCC
-TATTTAGTAGAAACTGATGAAGAAAAAATGAAAGACCCTGAACGATTGGCTTCTACAGGT
-GATACACTGATTATACCTATAGAATCTGATTTAACAGATGTATCAGCAAAAGAAATTAAT
-TCTAGAGATAAAGATGTACTAGTTGAATTAGCTTTAGGAAGAGATTTAAATATTACTGCA
-GATGAAAAGTATTTTAATGAACATGGTACTAGTGATAATATACTAGCATTCAGCACAAAT
-GGTAATGGAGATTTAGATACTGTAAAAGGCATAGATAATATGAAACAGCAATTACAGGCA
-CGTTTATTAACTCCTAGAGGTTCTTTAATGCTACATCCTAATTACGGTTCAGATTTGCAT
-AATTTATTTGGTCTTAATATACCTGAACAAGCTACATTAATAGAAATGGAAGTATTGAGA
-ACATTAACATCAGATAATAGAGTAAAATCTGCTAATCTAATTGATTGGAAAATTCAAGGT
-AATGTTTATTCAGGTCAATTTTCAGTGGAAATAAAATCTGTTGAAGAATCAATAAATTTT
-GTCTTAGGACAAGATGAGGAAGGAATTTTTGCTTTATTTGAATAGGAAAGGATTAAATTA
-TGAAAACTAGAAAATTAACTAACATACTATCAAAATTAATAGATAAGACAATGGCAGGTA
-CAAGCAAGATAACAGACTTTACTCCTGGTTCAGCTTCTCGTTCATTATTAGAAGCTGTAT
-CATTAGAGATAGAGCAATTCTATATTCTAACAAAAGAAAATATTGATTGGGGTATACAAG
-AAGGTATCATTGAAGCTTTTGATTTTCAAAAAAGACAATCTAAAAGAGCTTATGGTGATG
-TTACTATTCAATTCTACCAACCCTTAGATATGAGAATGTATATACCCGCAGGAACAACTT
-TTACTTCAACACGACAAGAATACCCTCAGCAATTTGAAACATTAGTTGATTATTATGCAG
-AGCCTGATTCTACTGAGATTGTTGTTGAAGTTTATTGTAAAGAAACAGGGGTTGCAGGTA
-ATGTTCCTGAAGGAACAATTAATACTATAGCATCAGGTTCTAGTTTGATTAGAAGTGTTA
-ATAACGAGTATTCTTTTAATACAGGAACTAAAGAAGAGAGCCAAGAAGACTTTAAGCGCA
-GATTCCACTCTTTTGTAGAATCTAGAGGTAGAGCAACTAATAAATCAGTAAGATATGGTG
-CACTGCAGATACCTGATGTAGAAGGTGTTTATGTTTATGAAGAAACAGGACATATTACAG
-TATTTGCTCATGATAGAAACGGTAATTTATCAGATACCTTAAAAGAAGATATAATTGATG
-CTTTACAAGACTATAGACCAAGTGGTATAATGTTAGATGTTACAGGTGTAGAAAAAGAAG
-AAGTTAATGTTTCTGCTACAGTAACTATATCTAATAAATCTAGAATTGGTGATACATTAC
-AAAAACATATCGAAAGTGTTATTAGAAGCTATTTAAATAATTTAAAAACTTCTGATGACC
-TAATAATTACAGACCTTATTCAAGCTATAATGAATATTGATGATGTATTAATATATGATG
-TGTCATTTGATAACCTAGATGAGAACATTATAGTACCGCCACAAGGAATTATTAGAGCAG
-GAGAAATAAAAGTAGAACTAAAGTAAAGAGAGGTGAAACTTAAGTCGTGGCTAATTTTTT
-AAAGAATCTTCATCCATTATTAAGAAGAGATAGAAATAAAAAAGATAATCAAGACCCTAA
-CTTTGCTCTGATAGATGCACTCAATGAAGAGATGAATCAAGTAGAGAAAGATGCTATAGA
-AAGTAAGTTACAATCTTCTCTAAAGACATCTACCAGTGAATATTTAGATAAGTTTGGGGA
-TTGGTTCGGAGTTTATCGTAAGACCGATGAGAAAGATGATGTTTATAGAGCAAGAATTAT
-AAAATATTTACTCTTGAAAAGAGGAACTAATAATGCTATAATAGATGCTATAAAAGATTA
-TTTAGGTAGAGATGATATTGATGTAAGTGTATATGAACCTTTTACAAATATTTTCTATAC
-TAACAAATCACATTTAAATGGTGAAGACCACTTAATGGGATACTATTATAGATTTGCTGT
-TATTAATGTCTCTATAGGTGATTATTTCCCTGTAGAGATTATAGATGTAATTAATGAATT
-CAAACCTGCAGGTGTAACTCTATATGTCACTTATGATGGGGCTTCTACTATTAGAGGTGG
-AGCAATTATTAAGTGGTTAGATGGGTTACCTAAAATAGAAACATACCAAGAGTTTGATAG
-ATTTACAGGTTATGATGATACATTCTATGGTCATATTAATATGAATCAAAGTAAAGATAC
-TGATAACAGTTCATCAGATATTTTTAAAACAAACCATAGCTTAATTAATAGTTTAGATGT
-TTTAACAGGTTCATCTAGTGTAGGGAGACAGTATATTAACTACGGATATGTAACATCATA
-TGTTTATAATCCAGGTATGACATCTTCTGTAAATCAAATAAGCGCTAGTACAAAAGGTAG
-AGGTCAAGAAGTACCTACTGACTATTATATGTATACTAGTACTAAGAATAACAATACAGT
-AGAACTTAGTATGCAAACTACTTCCGGTGTGTCTTATTTATATAATAACTTTAATTTTAG
-GGACTATATGAGTAAATATAGACCTCAAGTAGATTTACAATCTGATGAGGCTAGAAGAAT
-TGTATCTGATTATATAAAAGAATTAAGTATTGATTACTATCTTAGTGCTGTGATACCTCC
-TGATGAAAGTATAGAAATTAAACTACAAGTTTATGATTTTTCTATTAATAGATGGCTTAC
-AGTATCAATTAATAATTTATCTTTCTATGAAAAAAATATCGGGAGCAATATAGGATATAT
-AAAAGATTATCTAAACAGTGAATTAAATATGTTTACTAGGTTAGAGATAAATGCAGGTAA
-AAGAGATTCAGTAGATATTAAAGTTAATTACTTAGATTTAATGTTTTATTACTATGAACG
-AGGTATTTATACAATAAAACCGTATAAAGCATTAATAGAAAATTATTTAGATATATCTAG
-AGAGACTTATGTAGAAGCATTTAAAATAGCATCATTATCTAATGGAGATATTATAACTAA
-AACAGGTTTTCAGCCTATAGGGTATTTAAAACTAGTTGGTAATTATGAAAATACAATACC
-TAGCACAATAAATATAGTAGCTAAAGATACAGATAATAACCCTATAGAATCTAATGAATT
-AGATGTATATAATACAGTAGAGAATAGAAATTTATTACAATCTTATAAAGGTGTAAATAC
-GATAGCTAGAGAAATAACTTCTACAAAAGAGTTTACTGTATCAGGATGGGCTAAAGAGAT
-ATACTCAACTAATTATCTTTCTAAAGTATTAAAACCAGGTAAAGTGTATACGTTATCTTT
-TGATATGGAAATAACAGGTAATGACCCAACTCTTAAATCTTATTCTGATAGTCATGGTAT
-ATATTTATACAGTAATACTAAGGGAATTGTTGTTAATGGTGTTAAATCTATGGAACGTAC
-TATAGGTAACAAAGTATCCGTAACTCAAACTTTTACAGCCCCTACTATTACTGACCATAG
-ATTACTAATATATACTGGAAGATATACATCTGATGGTAAAGCATCAACTCCTCCAGTGTT
-CTTTAATACAGTTAAAATTACGGAATTAAAATTGACTGAGGGTTCTTCTAAGCTAGAGTA
-CTCACCTGCTCCGGAAGATAAACCTAACGTAATAGAAAAAGGAATTAAATTTAATAATAT
-CCTAACTAATATACAGACTTTAAGTATTAATTCGGATACTATCTTAAAAAATGTAACTTT
-ATATTATTCTTACTATGGTGATAGTTGGGTAGAACTAAAGACTCTAGGAAATATTAGTAC
-TGGAGAAACAACAGAAACCAATAACTTAATAGATTTATATGGATTACAGACAGTAGATTA
-TTCTAATATAAATCCAATGTCTAAAGTATCATTACGTTCCATTTGGAATGTTAAGCTAGG
-TGAATTGAACAATCAAGAAGGTTCTTTATATAATATGCCTAATGATTACTTTAATGCTGT
-ATGGCAGGATATAGATAAATTATCAGATATTGAGCTAGGTTCTATGAGAATGGTTAAAGA
-CACTGAGGGCGGAGTATTCGATGGAGCTACAGGTGAAATTATTAAGGCTACTCTATTTAA
-TGTCGGTGCTTATACTGATTTAGATATGTTAGCCTATACTTTGACTAATTATACTGAACC
-GTTAACGTTAGGCTCTAGTCGATTAATAATTGAGCTAAAAGAAGAACTACTAACATCAGA
-ATCATTTAATGTCGATAATAGAATTAAAGTAATTGACTCAATATATGAGGAGTTACCAAA
-TACAAGCATTATTAAAAATGGATTTGTTGAAAGAGAAGTTACAGGTTCTAAATATTTAGA
-TTACGGTTTATATGAGCCTATAGAAGATGGTACTAGATATAAACTTATTGTCGAAGGAGA
-ATTTAAAGATAATATAGAATTTATATCTTTATACAATTCTAACCCTAACTTTAATGAAAC
-ATTTATATATCCATCAGAGATAATTAATGGAGTTGCTGAAAAAGAATTTATTGCAAAACC
-ATCTACTGAAGACAAACCAAGGTTAAATACAGATGTTAGAATATATATACGACCTTATGA
-TTCAACTATCTCTAAAGTAAGAAGAGTAGAATTAAGGAAAGTTTAATAAATAAGTTGACA
-GAAAGTTAATAATATGGTATACTTATAAAGTAATATTTAGTGGGTATACCATGTTATATT
-AATAAAGAAAACAACAGATGAAAGGAATTAAAAAATATGGCAATTGCAACGTATAATTCT
-CATGTTGAGTTAGCAAAATATCTAGTTAGTAAAGCTGATTCAGTTTACTTAACAATTGGA
-AAGAGCACACCGTGGTCTAATGAAACAAACCCACCGCAACCTGATGAACATGCAACAGTA
-TTACAGGAGGTTATTGGATATAAAAAAGCTACTAAAGTTACTTTAGTTAGACCTTCTAAA
-TCACCTGAAGATGATAATAAGAATTTAATTTCTTATGGTAATAAATCGTGGGTAGAAGTA
-ACACCTGAAAATGCTAAAGCTGAAGGAGCTAAATGGGTTTACTTAGAAAGTAGTATTGTT
-GGTGACGAACTACCTCTTGGAACATATAGACAAGTAGGATTTGTTATGGACTTAGTAGCA
-AAAAGTGGTATTAGTAAATTTAACTTAGTACCTAGTGAAGTAGAATCAACTGGAACATTA
-TTATTCTTTGATAATAAACAATTCCAAAATAGAAGTGAGCAGACAACTGCTAAAGAAAGA
-TTTATTGTAGAAGTTTAAAGAAAGGGAGATAATTCTAAATGGCAATTAATTTTAAAGGTT
-CACCTTATTTAGATAGATTTGACCCGTCTAAAGATAGAACAAAAGTATTATTTAATCCTG
-ATAGACCTCTACAACAGGCAGAATTAAATGAAATGCAGTCTATAGACCAATATTATTTAA
-AAAATCTAGGAGACGCTATTTTTAAAGACGGAGATAAACAATCAGGGCTTGGATTCACAT
-TGTCTGAAGATAATGTATTGACAGTAAATCCTGGTTATGTATATATCAATGGTAAAATAA
-GATATTACGATAATGACGATTCAGTTAAAATAACTGGCGTAGGTAAAGAAACTATTGGTA
-TTAAATTAACAGAACGTATTGTTACACCTGATGAAGATGCTAGCCTATTAGACCAAACTA
-GTGGAGTACCAAGTTACTTCTCTAAAGGTGCAGATAGATTAGAAGAAAAGATGTCATTAA
-CAGTTAATGACCCGACATCAGCAACTATTTATACTTTCATGGATGGGGATTTATATATTC
-AATCAACTAATGCTGAGATGGATAAAATCAACAAAGTATTAGCTGAACGTACTTATGATG
-AGTCAGGTTCATATAAAGTAAATGGTTTTGAACTATTTTCAGAAGGTAATGCTGAAGATG
-ATGACCACGTTTCTGTAGTTGTAGATGCAGGTAAAGCCTATGTAAAAGGTTTTAAAGTAG
-ACAAACCCGTATCAACAAGAATTAGTGTACCTAAATCTTATGACTTAGGAACAGCAGAAA
-ATGAAAGTACTATCTTTAATAAGTCTAATAACTCTATTAGTTTAGCTAATAGCCCTGTAA
-AAGAAATTAGACGTGTTACAGGTCAAGTACTTATTGAAAAAGAACGAGTTACAAGAGGAG
-CTCAAGGTGATGGTCAAGATTTTCTTTCAAATAATACAGCATTTGAAATTGTAAAAGTTT
-GGACTGAAACAAGCCCTGGAGTTACTACAAAAGAGTATAAACAAGGAGAAGACTTCAGAT
-TAACAGATGGTCAAACAATTGATTGGTCACCTCAAGGTCAAGAACCTTCAGGAGGTACTT
-CATACTACGTTTCTTATAAATATAACAAACGTATGGAAGCCGGTAAGGATTATGAAGTAA
-CAACTCAAGGTGAAGGGTTAAGTAAGAAATGGTACATTAACTTTACACCTTCAAATGGTG
-CTAAACCTATTGACCAAACAGTAGTATTAGTAGACTATACTTACTACTTGGCTCGTAAAG
-ATTCAGTGTTTATTAATAAGTATGGTGATATTGCAATATTACCTGGTGAACCTAATATTA
-TGAGATTAGTTACACCACCATTAAACACAGACCCTGAGAATTTACAATTAGGTACAGTTA
-CAGTATTACCTGATTCAGATGAAGCCGTATGTATTTCATTTGCAATCACTAGATTGTCTA
-TGGAAGACTTACAGAAAGTTAAAACAAGAGTAGATAACTTAGAGTATAACCAAGCAGTAA
-ATGCTCTAGATGATGGTGCTATGGAAGGACAGAACCCTCTAACATTACGTTCAGTATTCA
-GTGAAGGTTTCATTAGTCTTGACAAAGCAGACATTACACATCCTGACTTCGGAATTGTAT
-TTAGTTTTGAAGATGCAGAAGCTACTCTAGCTTATACAGAAGCAGTTAACCAACCTAAGA
-TTATTCCAGGAGATACAACAGCTCATATTTGGGGTAGATTAATTTCAGCACCATTTACTG
-AGGAACGTACAATCTACCAAGGTCAAGCATCAGAAACATTAAATGTTAACCCTTATAATA
-TTCCTAACAAACAAGGTGTGTTAAAATTAACACCTAGTGAGGATAACTGGATTGATACTG
-AAAATGTTACAATCACTGAACAAAAAACTAAAAAAGTAACTATGAAACGATTTTGGAGAC
-ATAATGAAAGTTACTATGGTGAGACTGAGCATTACTTGTATTCTAACTTACAGTTAGATG
-CAGGACAAAAGTGGAAAGGTGAAACTTACGCTTATGATAGAGAGCATGGTCGTACCGGTA
-CTTTATTGGAATCAGGAGGACAACGTACTCTAGAAGAAATGATTGAATTCATTAGAATCA
-GAGATGTATCCTTCGAAGTTAAAGGACTAAACCCTAATGATAATAATTTATATTTATTAT
-TTGATGGAGTAAGATGTGCTATAACACCTGCAACTGGCTATAGAAAAGGCTCTGAAGATG
-GTACGATAATGACAGATGCTAAAGGAACAGCTAAAGGTAAGTTTACTATTCCTGCAGGTA
-TTCGTTGTGGTAACCGAGAAGTTACACTTAAGAATGCTAACTCTACAAGTGCTACAACTT
-ACACAGCCCAAGGACGTAAAAAAACCGCTCAAGATATTATTATCAGAACTCGTGTAACAG
-TAAACTTAGTAGACCCGTTAGCACAATCATTCCAATATGATGAGAATAGAACTATATCAT
-CATTAGGATTATACTTTGCTTCTAAAGGTGATAAACAATCTAATGTTGTTATCCAAATTA
-GAGGTATGGGTGACCAAGGTTATCCTAATAAAACAATCTATGCAGAAACAGTTATGAATG
-CTGATGATATTAAAGTATCTAATAATGCTAGTGCTGAAACTAGAGTATACTTTGATGACC
-CTATGATGGCTGAAGGCGGTAAGGAGTACGCTATTGTTATTATTACTGAGAACAGTGATT
-ATACAATGTGGGTAGGTACTAGAACTAAGCCTAAAATTGATAAACCTAATGAGGTTATTT
-CAGGTAATCCATACCTACAAGGTGTATTATTCAGTTCATCAAACGCATCAACATGGACTC
-CTCACCAAAACTCTGACCTTAAATTTGGTATTTATACTTCTAAATTTAATGAGACAGCAA
-CGATTGAATTCGAACCAATTAAAGATGTATCAGCGGATAGAATAGTTCTTATGTCTACGT
-ACTTAACTCCTGAGAGAACAGGATGTACGTGGGAAATGAAATTAATTCTAGATGATATGG
-CATCTTCTACAACATTCGACCAATTGAAATGGGAGCCTATCGGTAACTATCAAGACTTAG
-ATGTTTTAGGTCTAGCAAGACAAGTTAAGTTAAGAGCAACTTTCGAATCTAATAGATATA
-TCTCACCATTAATGAGCTCTAGTGATTTAACATTCACTACATTCTTAACAGAGTTAACAG
-GTTCATATGTTGGTAGAGCTATTGATATGACAGAGGCTCCTTACAATACAGTAAGATTTA
-GTTATGAAGCTTTCTTACCTAAAGGTACTAAAGTTGTTCCTAAGTATTCTGCGGATGATG
-GAAAAACTTGGAAAACATTTACTAAATCCCCTACAACTACTAGAGCCAATAATGAGTTTA
-CACGCTATGTCATTGACGAGAAAGTAAAATCATCAGGAACAAATACTAAACTACAAGTTA
-GATTAGATTTATCAACTGAAAATAGCTTTTTACGTCCTCGTGTTCGTAGACTTATGGTTA
-CTACTAGGGATGAATAAACTAGAGGGGTTGATTGACCCCTCTTTATTTAATAAGGAGAGA
-TTTATATGCCTAGAGAAGTTAGAGACCCTTATTCTCAAGCTAAATTATTTATACCTACAG
-TTGAGGAAAAATCAATTAAGGAATTAGAAAAAACATACAAAGAAAAAATTGATGAAGCTA
-CTAAGTTAATCAATGAATTAAAGAAAGAGAGAGGAGAAAAATAGATGGCATTTAACTACA
-CGCCTCTTACTGAAACACAGAAGTTAAAAGATATGTATCCTAAAGTTAATGATATAGGTA
-ACTTTTTAAAAACAGAAGTTAACCTTAGTGATGTAAAACAGATATCACAACCCGACTTTA
-ATAATATTTTAGCATCTATACCTGATAGTGGTAACTATTATGTAACTAATTCAAAAGGTG
-CTCCTAGTGGAGAAGCTACAGCAGGATTTGTAAGATTGGATAAAAGAAATGTAAATTATT
-ATAAAATTTACTATTCACCATATAGCAGTAACAAAATGTATATCAAGACTTATGCTAATG
-GTACTGTATATGATTGGATTAGTTTTAAATTAGATGAAGGTAGCTTATACAATGAAGGTA
-ATACTTTGAATGTAAAGGAACTTACTGAATCCACAACTCAATATGCAACACTAGTTAATC
-CTCCAAAAGAGAACTTAAATACAGGTTGGGTTAATTACAAAGAAAGTAAAAATGGTGTTT
-CTTCTTTAGTAGAATTTAACCCGGTTAACTCCACTTCAACTTTTAAGATGATAAGAAAGT
-TACCAGTACAAGAACAAAAGCCTAACTTATTGAAAGATAGTTTATTTGTTTATCCTGAAA
-CTAGCTATTCTAATATTAAAACAGATAACTGGGATACGCCTCCATTTTGGGGATATTCTT
-CTAATAGTGGTCGTTCAGGAGTTAGATTTAGAGGAGAGAATACAGTACAGATAGATGATG
-GGTCTGATACGTACCCTTCAGTAGTTTCTAATAGGTTTAAAATGGGTAAAGAACTTTCTG
-TAGGTGATACTGTAACGGTATCAGTATATGCTAAAATTAATGACCCTGCTTTACTTAAAG
-ATAACTTAGTTTACTTTGAATTAGCAGGATACGATACTGTAGATGATACTAGTAAAAATC
-CTTATACAGGAGGACGTAGAGAAATAACAGCAAGTGAGATAACAACTGAGTGGAAAAAAT
-ACTCTTTCACATTCACTATACCTGAAAATACAATCGGAGCATCAGGCGTTAAAGTTAATT
-ACGTATCTTTACTACTAAGAATGAATTGTTCATCTAGTAAAGGTAATGGTGCTGTAGTAT
-ACTATGCCTTACCTAAATTAGAAAAATCATCTAAAGTTACACCATTTATTACACATGAAA
-ATGATGTTCGTAAATATGATGAGATTTGGTCTAATTGGCAAGAAATTATTAGTAAAGATG
-AATTAAAAGGTCACTCCCCTGTAGATATTGAATATAATGATTATTTTAAATATCAGTGGT
-GGAAATCTGAAGTTAATGAAAAGAGTTTAAAAGATTTAGCTATGACAGTACCTCAAGGAT
-ATCATACATTTTATTGTCAAGGCTCTATTGCCGGGACGCCTAAGGGACGTTCTATTAGAG
-GAACCATTCAGGTAGATTATGACAAAGTTGACCCATATAGAGCTAATAAGTTTGTTAAAT
-TATTGTTTACTGACACAGAGGGTATTCCTTACACATTATATTATGGTGGTTATAACCAGG
-GTTGGAAACCCTTAAAGCAATCAGAAACTTCTACTTTACTATGGAAAGGTACTTTAGATT
-TTGGGTCTACGGAAGCTGTTAACTTAAATGACTCATTAGATAATTACGATTTAATTGAGG
-TAACTTATTGGACTCGTTCAGCAGGACATTTTTCTACAAAAAGATTAGATATAAAAAATA
-CATCAAATTTACTGTATATTAGAGATTTTAATATTTCAAATGATAGTAAAGGTTCTAGTG
-TAGACTTTTTTGAAGGGTATTGCACTTTTCCTACTAGAACATCAGTACAACCTGGTATGG
-TAAAATCTATAACTTTAGACGGGTCTACAAATACAACAAAAGTAGCATCATGGAATGAAA
-AGGAACGTATAAAGGTATACAATATTATGGGAATTAATAGAGGATAAAGAAAGGTGGAAT
-AAAAAAACTATGGCTGTTAAATATGATATAGGTAATAATGAGATAGTATTACATTTAAGA
-GAAGGTAAATATATAACAGGGTTTACAACAGTAGGAGGGTATGATAAGGAGTTAGGACAA
-GTAAAAGTTAATAGAGAAATCTTACCTGCTTACTTCTTTGATAATTTTGCCTATGAAAGA
-TATTTGTATTATAGTAAACCTGAAGAGGTTATAGAAAATAAAAACTATGTACCACCACAA
-ATCAATGATGATGATGAGGAATCCCAACAAATTACTGTACCTAAAGAACAATATGATAGT
-TTAAAAGAAGAACTAGAGCTTATGAGAAAACAACAAGAAGCTATGATGGAAATGCTTCAA
-AAGCTCTTAGGTCAAAAGGGGTAATTATAAATGGCATTAAATTTTACTACAATAACGGAA
-AACAATGTTATTAGAGACCTGACTACTCAGGTCAATAACATTGGAGAAGAATTAACAAAA
-GAAAGAAATATATTTGACATTACCGATGATTTAGTTTATAATTTTAATAAATCACAGAAA
-ATTAAACTAACTGATGATAAAGGATTAACTAAATCTTATGGAAACATAACAGCCCTTAGA
-GATATAAAAGAACCTGGTTATTACTATATAGGTGCTAGAACATTAGCAACATTATTAGAT
-AGACCTGATATGGAATCTCTTGATGTTGTTTTACATGTAGTACCTCTTGATACTTCTAGT
-AAGGTAGTTCAACATTTATATACACTATCTACTAACAATAACCAAATTAAAATGTTATAT
-AGATTTGTCTCAGGAAACTCTAGTTCAGAATGGCAATTTATTCAAGGATTACCTAGTAAT
-AAAAATGCTGTTATATCAGGAACTAATATTTTAGATATAGCTTCACCAGGTGTTTACTTT
-GTTATGGGAATGACAGGAGGAATGCCTAGTGGAGTAAGCTCCGGATTTTTAGACTTAAGT
-GTAGATGCTAATGATAATAGATTAGCTAGACTAACTGATGCTGAAACCGGTAAAGAATAT
-ACTAGCATTAAGAAACCTACAGGAACATACACAGCCTGGAAAAAAGAATTTGAGCCAAAA
-GATATGGAGAAATATCTACTAAGTAGTATTAGAGACGATGGTAGTGCATCATTCCCACTC
-CTAGTTTATACTAGTGATAGTAAAACATTTCAACAAGCTATTATAGACCATATAGATAGA
-ACAGGTCAAACAACCTTTACTTTCTATGTTCAAGGCGGTGTATCCGGTTCCCCTATGTCG
-AATAGTTGTCGAGGGTTATTCATGTCAGACACACCTAATACTTCTAGTTTACATGGTGTT
-TACAATGCTATAGGTACAGATGGTAGAAATGTAACAGGTTCAGTGGTAGGTAGTAATTGG
-ACTTCACCAAAAACATCCCCTTCTCATAAAGAATTATGGACAGGAGCACAATCATTCTTA
-TCTACAGGAACTACTAATAATTTATCAGATGATATTAGTAACTACTCTTATGTAGAAGTT
-TATACTACACATAAGACAACAGAGAAGACTAAAGGTAATGACAATACAGGAACTATATGT
-CATAAGTTTTATTTAGATGGTAGTGGAACTTACGTTTGTTCAGGTACATTTGTTTCCGGG
-GATAGAACCGATACAAAACCCCCTATCACGGAGTTTTATAGAGTAGGTGTATCTTTTAAA
-GGTTCTACATGGACTCTTGTAGATAGTGCAGTACAAAATAGTAAAACTCAATACGTTACA
-AGAATTATAGGTATTAATATGCCATAGACTAGGAGAAATTTCCTAGTCTTTTTTTTTCTT
-GACTTGAAAAGGATTCTGTGGTATACTATAACTCGTGTAAGGATATAAGGAGATTAAAAT
-GAGATTAAGAATTAAGAACTTATATACCTATGTAGAATTTGAGGAGGATGATAAATACTT
-AAAAGATATATTTTTAAAGAGAGTCCATACGACTATAGGAGCAAGACAAGAAGGATTTCA
-GTACAGCCCTGCGTACAAAAGAGGTAGTTGGGATGGTTATGTAGATTTTTATGTTTATGA
-GGAAGATAAATTCCCCACTGGACTTTTATTTAAAATTGAGTTATTATTAGGTGAGCTACA
-ATCAAGGTATAATTTCCAGTTTGAAACAATTGATGAGCGTGATGAAAGTTTCTTATCTGA
-AGAAGATATTGATGATGAGATAACATTGCTTGATAATAATGTCGGTCAAATTACCTTAAG
-AGATTACCAATATGAAGCAGTGTACAATAGCTTAACATTTTACAATGGTATTGCTCACTT
-AGCTACTAATGGTGGTAAAACTGAGGTTGCTAGTGGTATTATAGACCAATTATTACCTCA
-ATTAGAAAAAGGTGAGAGAGTAGCATTCTTCACAGGCTCTACGGAGATATTCCATCAGTC
-TGCAGATAGGCTCCAAGAGCGTTTAAATATTCCTATTGGTAAAGTAGGTGCAGGTAAGTT
-TGATGTTAAGCAGGTTACAGTTGTAATGATACCTACTTTAAATGCAAACCTTAAAGACCC
-AACACAAGGGGTAAAGGTTACGCCTAAACAAAATATTAGTAAAAAGATTGCTCAAGAGAT
-ATTACCTAAATTTGAAGGTGGAACAAATCAAAAGAAATTACTAAAAGTATTACTTGATAA
-CACAACACCTAAAACAAAAGTAGAACAAAATGTATTAAGTGCCTTAGAGATAATTTACCA
-AAATAGTAAGACAGATGCAGAAGTTTTATTAAACTTAAGAAATCATAATGCACATTTTCA
-AAAAATTGTTAGAGAAAAGAACGAAAAGAAATATGATAAATATCAAGATATGAGAGATTT
-TTTAGACTCAGTTACAGTTATGATAGTTGATGAGGCACACCATTCTAAATCTGATTCTTG
-GTATAATAATTTAATGACATGTGAAAAAGCTTTATATCGAATTGCATTAACAGGGTCTAT
-AGATAAAAAAGATGAATTACTTTGGATGAGATTGCAGGCGCTATTCGGTAATGTTATTGC
-ACGAACTACTAATAAGTTTTTAATTGATGAAGGTCATTCTGCTAGACCAACAATAAATAT
-TATACCTGTAGCTAATCCTAATGACATAGATAGAATTGATGATTATAGGGAAGCTTACGA
-TAAAGGTATAACAAATAATGATTTTAGGAATAAACTTATTGCAAAACTAACAGAAAAGTG
-GTATAATCAAGATAAAGGTACATTGATTATTGTAAACTTCATTGAACATGGAGACACAAT
-ATCAGAAATGTTAAATGATTTAGATGTAGAGCATTACTTCTTACATGGAGAAATAGACTC
-TGAAACTAGGAGAGAAAAATTAAACGATATGAGAAGTGGTAAGCTTAAAGTAATGATAGC
-TACATCACTTATTGATGAGGGTGTAGATATATCAGGTATTAATGCACTAATATTAGGTGC
-AGGAGGTAAGTCATTAAGACAAACATTGCAACGTATTGGTCGTGCTTTACGTAAGAAAAA
-AGACGATAATACAACACAAATATTTGATTTTAATGATATGACAAATAGATTTTTATATAC
-TCATGCTAATGAGCGTAGGAAAATTTATGAAGAGGAAGATTTTGAAATAAAAGACTTAGG
-AAAATAGGAGGGTAAGAGATGGCAACAAAAACACAAAGAAAGCTATACCAATATCTAGAG
-GAAAATGCTACAGAAAATAAATTTCATATTTCTACTAAGAAAGAGCTAGCAGATTCTCTA
-GGTGTTTCCATCTCTGCTTTATCCAATAACCTTAAAAAGTTAGAAGAAGAAAATAAAGTC
-GTTACTGTTTCTAAAAGAGGAAAAAACGGCGGGGTAATAATAACTTTAGTTAGAGAGTAT
-GACACAGAAGAATTGAAAGAATTCAATAATTCTACAGATAATATTATTACTTCCGATTTA
-CAGTATGCTAAGGCATTAAGAGAAAAGCACTTCCCTTCTTATAGATATGAGAGAAAAGAA
-CAACGTAGACGTACTAAGATAGAAATGGCACAATACAATGCCATTAAGGATGAGAAGAGA
-AGAATTATAGCAGATATGAATTTCTATTCAGAAGGTCTTCCTTATCCTTCTAAAGATATT
-TTTAATATGTCCTATGACCCGGAAGGGTTTTATAAAGCGTACATCTTATGTAAGTTATAC
-GACCAATATGCTATTTCTCATATGGATGCTAAACATACAAGTCATCTTAAAGCAATGAGT
-AAGGCAACAACTAAAGATGAATACGACTACCATCAACATATGTCTGAATACTATAGAAAT
-AAAATGATTCAAAATTTACCTAGAAATAGCGTTAGTGATAATTTCTTTGGTAGTAAAATG
-TTTAATACTTTTTATAATTTTTATTTAAAAATAAAAGATAAAAATATTAATGTATTTAAG
-TATATGCAAAATGTATTTAAAAATGTAACATTTTATTACGAGAACGGTATGCAACCTAAT
-CCAATACCTTCTCCTAACTTCTTTAGCTCAGATAAGTATTTTAAAAACTATAATAATTAT
-ATTAAAGGAATAAAAAAAGGTGTTAACAGTACTAATAGACACCTAGGTGATACAGACAGC
-ATCATTAATTCATCAGACTATGTGAAAAACCCTGCTGTATTACATCTACACCAACTATAT
-ACTACAGGATTAAATTCTACTTTACATGATATTGATACTATGTTTGAACAAGCCTTAGAC
-CTTGAAAATGCCTCCTATGGATTATTTGGAGATATGAAACATATTATTTTACTACAGTAT
-AATTCTATGATTGAAGAAGAAATTAAGAATTTACCTAGAGAAGAAAAGGATATTATTAAT
-AAATATGTAAAACAATGCATAATTAATGATTATTCACCAACAAGTATTTCACCTTCTGCA
-AGGTTATCAATGTTTACTATGCAGAAAGAGCATATAGTTTACAATAAGCAGTTAAATAAA
-GGAATCAAGAGAGAGGATTTATTACCATTAAGTCTAGGAGGTATAGTGAATAAAGATTTA
-TTGAGTGGTATGGATATACAAAACTTAGAACAGAATGGTAATGAATACCTATATATGAGA
-CAACATACTTCAACTTATTATATATTAAGAATGTTTGGTGACTATTTAGGGTATGAGGTA
-AACTTAAGAGAAGTAAAATATATTGTAGAGAAATATAATTTAATTGATAAAATACCATTG
-ACAAAAGAGGGTATGTTGGATTATAATAAACTTATACATTTAGTAGAGGAAGAGGTTAAT
-AACTATGAGTAAGAAGATAAAGGAGCTTATCCTTCATAAATCAATGAAGGATATACATTT
-TGCAAGAGAAGTATTAGATAACTTACCTAAGAATCTATTTTCAGCAGAGTCTGAGGACAT
-GGGTTACTTATTTACAGCTATAAAGAGAACAGCACATATTTCCGATAAGATGTCAAATGA
-AGCATTAGCAATTAAAGTAGAACAGCTTATGGGTAATAATAAGGAAGATGAAGAGAAAGT
-AACCAAGACATTAACTTACTTAGAAGATTTATATAAAGTAGACGTTAATGAAAAAGATGA
-ATCTGTTAATTATGAAATAGAGAAGTATATTAAAACAGAAATGTCAAAAGAAGTTTTAGT
-TAAATTTATTGCAGAAAATAAACAAGAAGACTCTGATAATCTACATGAACTTGTAGACAA
-ACTAAAGCAAATAGAAGTAAGTGACATCTCAGGAGGTAATGGGGAGTTTATTGACTTCTT
-CGAAGATACAGAAAAGAAACAAGAACTATTGAGTAATTTAGCTACAAATAAATTCTCTAC
-TGGATTTACTTCTATTGACAACCATATTGAAGGTGGTATAGCAAGAGGAGAGGTTGGATT
-AATCATAGCTCCTACCGGTAGAGGTAAATCATTAATGGCTTCAAACTTAGCTAAGAATTA
-TGTTAAAAGTGGATTAAGTGTTTTATATATTGCCTTAGAGGAAAAAATGGATAGAATGGT
-TTTGCGTGCTGAGCAACAAATGGCAGGAGCAGAAAAGAGTCAAATTGTAAATCAGGATAT
-GTCTTTAAATAATAAAGTTTATGATGCAATACAAAATCATTATCAGAAGAATAGAAAGTT
-ATTAGGTGACTTTTATATTTCTAAACATATGCCAGGTGAAGTTACACCAAACCAATTAGA
-ACAAATTATTGTCAATACAACAATTAAGAAGGATAAAAATATTGATGTTGTTATTATTGA
-CTATCCTCACTTAATGAGAAATCCTTATGCTAAATATCATTCAGAATCAGATGCAGGAGG
-GAAATTGTTTGAAGATATTCGTAGATTATCACAGCAATATGGATTTGTTTGTTGGACGTT
-AGCTCAAACTAACCGTGGTGCTTATGGTTCAGATGTTATTACAAGTGAGCATGTAGAAGG
-TTCTCGTAAGATTGTCAATGCTGTTGAGGTGTCTTTAGCAGTAAACCAAAAAGATGAAGA
-ATTCAAGAGCGGTTTCTTAAGATTGTATTTAGATAAAATTCGTAATAGCTCTAACACAGG
-AGAACGATTTGTTAATCTTAAAGTAGAACCAACTAAGATGATTGTAAGAGATGAAACACC
-TGAAGAAAAACAAGAGCATATACAATTGCTATCAGATAATGGAAAAGAAGACACAAGTAA
-ATTTCAAAATAAAGATAATAAAATAGAAGCTATAAATAACACATTCGGAGGATTACCGGG
-AGTTTAATTTTTTAAAATATACCACTTGACATTTTATATGTTAGGTGGTATAATTATTTT
-ATAAAGAATAAAGGAGAGATTAATAATGAAATTTGTATTCTTTACAGATAGCCACTTTCA
-CTTATTTACTAACTATGCTAAACCTGATGAGCAGTATGTGAATGATAGATTTAGAGAACA
-GATACAAGCTTTACAGAAAATGTTTGATATTGCAAGAGAAGAGGATGCAACAGTTATATT
-TGGTGGGGATTTATTCCACAAACGTAACGCAGTAGATACTAGAGTATATAATAAGGTATT
-TGAAACATTCCAACTTAATAGAGATATAGAAGTACTAATGTTAAGAGGTAATCATGATTC
-AGTTACAAATAGTTTATATACAGATTCTAGTATAGAACCTTTCGGTTACTTACCTAATGT
-AGAGGTTTGTAAAAACCTTGATACTTTAGGGTTTTTAGGAGAAGAACAGGATATTAATAT
-TGTTATGGCTCCTTATGGAGACGAGACTGAAGAAATTAAAGAGTTTATTAAAAATAAATA
-TGTAGAAGATAGAGTAAATATCTTAGTAGGTCATTTAGGTGTAGAAGGCTCTTTGACTGG
-AAAAGGGTCTCATAGATTAGAAGGGGCATTTGGATACCAGGATTTATTACCTGATAAATA
-TGATTTCATTTTACTAGGTCATTATCACCGTAGACAATATTTCCAAAATCCGAATCATTT
-TTATGGTGGTTCATTAATGCAACAATCATTTTCTGATGAGCAAGAAGCTAATGGTGTTCA
-TTTAATAGATACAGAAAAAATGACTACAGAATTCATCCCAATCCATACACGTAGATTTAT
-TACTATTCAAGGAGAAGATATTCCTGAGAACTTTGAACAGCTAATCGAGGAAGATAATTT
-TATTAGGGTTATCGGTACAGCAAATCATGCTAAGGTTTTAGAAATGGATGACAGTATGAA
-AGATAAGAATGTTGAAGTTCAAATTAAAAAAGAGTATACTGTAGAGAAACGTATTGATAG
-TGATGTGTCTGATGACCCTTTAACAATTGCTAGTACCTATGCTAAACAATACTCACCTGA
-ATCAGAACAAGAAATACTTGAGTGTTTGAAGGAGGTTTTATAATGAAAAAATATAGAGAA
-TATCTAAATAAGACAGATGCAGAAAATTTAGCAGAGGATTGGGAGAAAGTAACCGAAGAT
-TTATGGAAAGTGTTTAAAGATATGAAACCTAAAATTAATACATTAGATATCAGTAATGTA
-GTAAGTAAAGACTTAGATAAAAGTAAACCTATTTTACAATTCCAAGATTCAGATGGAGTA
-ATAGAGAATATTTGTAATGTTGAAGGTTTAGAAGATGGTCTAAGTAAAATGAAAAAGATT
-TTTGATGATAGTAATTTTGAAAAGCATTATTACAATAGAGTAGTAGACCATGATGAGTAT
-TACTGGATTGATTATGGCTCTCATCATTGTTTCTTTAGAGTTACGAAAGGGGATAAGTAA
-TGGTTGTATTTAAACAAGTAGAAGTTAATAATTTTTTAGCAATTAAAGAAGCTACGCTAG
-AGTTAGACAATAGAGGATTAATTCTAATTGAAGGTGAGAATAAATCTAATGAGTCATTTC
-ATTCAAACGGCTCAGGAAAATCAACTTTAATATCTGCCATTACTTACGCTTTATATGGTA
-AAACTGAAAAAGGACTAAAAGCAGATGATGTAGTAAATAATATTGAGAAGAAAAATACAT
-CTGTTAAACTTAAGTTTGATATTGGGGAAGATAGTTATTTAATTGAACGTTATCGTAAAG
-ATAAAGAGAATAAGAATAAAGTAAAATTATTCGTTAATGAAAAAGAGATTACAGGTTCAA
-CAAATGACGTTACCGATAAACAAATACAAGATTTATTTGGTATTGAGTTTAATACTTACG
-TTAATGCCATCATGTATGGTCAAGGAGATATCCCTATGTTCTCTCAAGCAACAGATAAAG
-GTAAGAAAGAAATTCTTGAATCTATTACTAAGACAGACGTATATAAACAAGCACAAGATG
-TAGCAAAAGAGAAAGTTAAAGAAGTGGAAGAACAACAAAATAACATAAGACAGGAAATCT
-ATAAACTAGGTTATCAGTTATCGACAAAAGATGAGTACTTTCAAAGAGAAATAGAGCAGT
-ACAATCAATATAAAGAACAATTGGTTCAGATAGAAAACAGTAATAAGGAAAAAGATAGAT
-TAAGAGAACAAGAGGAGAAGCAAATAGAAGCTCAAATAGAGCAACTAGCTTCACAGATAC
-CAACAATACCTGAAGATGAATTTAAGCACTCAGAGGAGTATAATAAAGCCTCTCAAAGCC
-TAGATTTACTTTCTAATAAATTAACGGAGTTAAATCAAGTTTACTCAGAGTATAATACCA
-AAGAACAAGTACTAAAATCTGAAATAGCTACATTAAGCAATAGTCTAAATCAGTTAGATA
-CAAATGACCATTGTCCTGTTTGTGGCTCCCCTATAGATAATTCTCATAAATTAAAAGAAC
-AGGAAAATATCAATAATCAGATTGAGAATAAGAAACAAGAGATTACTAGTGTATTAGAAA
-TGAAAGATACGTATAAAGAAGCTATTGATAAAGTAAAAGATAAATCACAAGAAATTAAAG
-ATAAAATGTCACAGGAAGACCAACAAGAACGAGAGCACAATAATAAGATTAACAGCATAA
-TTCAAGAGGCTTCTAGGATTAAATCAGACATTAGTTCATTAGAGAATAATAAAACGTATT
-TAAAAGTTAAATATCAACATCAATCTGTTCAAGGATTAGAGAGAGAAGAACCAAGTAAAG
-AAAAACATGAGGAAGATAAGAAAGAATTACAAGAATCTATTGACAAACATGAAGAGAATA
-TAGTACAATTAGAAACTAAGAAAGGTAAATATCAGCAAGCTGTAGATGCTTTTAGTAATA
-AAGGTATACGTTCAGTAGTGTTAGACTTTATTACACCATTCTTAAATGAAAAAGCAAATG
-AGTACCTTCAAACTTTATCAGGTTCAGATATTGAAATAGAGTTCCAAACTCAAGTGAAGA
-ATGCTAAAGGAGAACTAAAAGATAAGTTTGATGTTATTGTTAAGAATAGCAAGGGCGGAG
-GTTCGTACAAATCCAATTCAGCAGGAGAACAAAAACGTATTGATTTAGCAATTAGTTTTG
-CAATTCAGGATTTAATTATGAGTAAAGATGAGATATCTACGAATATTGCACTTTACGATG
-AGTGTTTTGATGGATTAGATACTATCGGTTGTGAAAACGTGATTAAATTATTAAAAGATA
-GACTTAATACAGTAGGAACAATATTTGTAATTACTCATAATACCGAGCTTAAACCACTGT
-TTGAACAAACAATTAAAATCGTAAAAGAAAATGGAGTATCAAAACTGGAGGAAAAATAAT
-GAAATTAAAGATTTTAGATAAAGATAATGCAACACTTAATGTGTTTCATCGTAATAAGGA
-GCACAAAACAATAGATAATGTACCAACTGCTAACTTAGTTGATTGGTACCCTCTAAGTAA
-TGCTTATGAGTACAAGTTAAGTAGAAACGGGGAATACTTAGAATTAAAAAGATTACGTTC
-TACTTTACCTTCATCTTATGGTTTAGATGATAATAACCAAGATATTATTAGAGATAATAA
-CCATAGATGTAAAATAGGTTATTGGTACAACCCTGCAGTACGCAAAGATAATTTAAAGAT
-TATAGAGAAAGCTAAACAATATGGATTACCTATTATAACAGAAGAATATGATGCTAATAC
-TGTAGAGCAAGGATTTAGAGATATTGGAGTTATATTCCAAAGTCTTAAAACTATTGTTGT
-TACTAGATACCTAGAAGGTAAAACAGAAGAAGAATTAAGAATATTTAACATGAAATCAGA
-AGAGTCACAACTGAATGAAGCACTTAAAGAGAGTGATTTTTCTGTAGATTTAACTTATAG
-TGACTTAGGACAAATTTATAATATGTTGTTATTAATGAAAAAAATTAGTAAATAGTAAGG
-AAGGATATTATGAGGTTTGAAGACTTTTTAACCCAAGAATTAGGAGAACCAAAAGAAAAT
-ACTATAGGTGAGCTAAGATACTGTTGTCCGTTTTGTGGAGAAAAAAGTTATAAGTTCTAT
-GTTAAGCAAGCCCTAGACTCTAGTAATGGTCAGTATCATTGTAAAAAATGTGATGAATCA
-GGTAACCCTATTACATTTATGAAGACTTATTATAACATTACAGGTAAACAAGCTTTTGAT
-TTATTAGAGTCTAAGAATATAGATATAGAGAGAGCCCCTTTACTTACGACCAATAATAAG
-GATTTGACAGAATCAGAGAAACTTATATTAATGCTTAGAGGTGTGCACCAAGATAAAGGA
-AATACTAGTATTAAACCTCCTAGATTACCTGAAGGGTATAAATTATTAAAAGATAACTTA
-AATAATAAAGAGATTATACCCTTTTTAAAATACTTAAAAGGCAGAGGTATAACTTTAGAA
-CAAATTATTAATAATAATATAGGTTATGTTATTAATGGGAGCTTTTATAAAGTTGATGGA
-GAATCCAAAGTATCATTAAGGAATAGTATTATATTTTTTACTTATGATAATGATGGAAAT
-TACCAGTATTGGAATACACGAAGTATAGAAAAGAACCCGTATATTAAATCTATCAATGCC
-CCTGCTAAACAAGATGAAGTAGGTAGAAAAGATGTCATATTTAATTTGAATATAGCAAGA
-AAGAAAAAGTTCTTAGTTATAACTGAGGGTGTATTTGATGCTTTAACCTTCCATGAGTAT
-GGCGTAGCAACATTAGGTAAACAAGTAACTGAGAATCAAATAAAAAAAATAATTGATTAT
-GTTAGTATAGATACATCAATATATATTATGTTAGACACTGATGCATTAGATAATAATATA
-GACTTAGCTTATAAGTTAAAAACACATTTTAATAAAGTTTACTTTGTACCTCATGGTGAT
-GAAGATGCAAATGATATGGGAACAAGGAAAGCTTTTGAGTTATTAAAACAGAACCGGGTG
-CTAGTAACACCTGAAAGTATACAGAGTTACAAAATACAACAAAAACTTAAACTTTAGGCT
-TGACCTTAGAGAAGTTTTATGTTATACTAGTAATTAAGTAATTAATAAAGGAGAAAAAAA
-ATAATGTCAAATAATAAAAAAGATATTTTAGAATTTGTAGATGAATACATTACAGCTTTA
-AGAGTTGGTAATGAGCAACGACAACATCAATTAGAAGAAATGGGTAAAGAAGAAACAGCA
-ACATTAACAGATGTAGCTAAAGCTATTACTAACCTTATGTTAGGTGTTAATGAGCAGATG
-ACAGACTTAGAATATAATAACGAGTTAAACTTAAATATTTTAATTGATGCTTTATATAAA
-GCAGAGCTTATTAATGAAGATGTATTAGACTACATTCAAGAATCAATTGATAAATCACAA
-GAAGAACCTAAAAATGAAGAAGAAAAAGGAGAACAAGAATAATGGAAAAAAATATTAGCA
-CACACACAAAAGGTATTAGTCAAGCAGACATGGAGAAATGGATTGAAGCTGTAGTACAAG
-GAACTGTTGATGGTAAACAAGTTGATGAGAAAACAGCTAAACAATTAGATAGAATTGGTT
-CACGAAGTGTTTCTTTAGAAGAAGCAACTCGTATTGCTAAAGTTCTTAATGCTGTAACAG
-CTCAAGAGGTTACAGGAGACTTTAATGATGCATTTAATGCAATTGACTTAATGATGATTA
-TCATGGAAGATGAGTTAGGAGTAACTCAAGAAAAAGTAGGTAAAGCTAAAGATAAACTAA
-ATGAAAAACGAGAAGCTTACCTAAAAGAGAAACAAGAAGAATTACGTCAAAAACAACAAG
-AAGAGGCACAGAAAAAAACTGAATCTGACAGCAATGAAAAAGTAATTCAGTTGAAGAAAA
-ATGACGAACAGTAAGAAAAAAGGGGATACATTCGAACGTAAAATAGCTAAAGAATTAACT
-GCTTGGTGGGGATACCAATTCAATAGGTCTCCTCAATCAGGTGGTGCTTCATGGGGTAAA
-GATAATAATGCTGTCGGAGATATAGTAGTACCTCAGGAAGCTAATTTTCCTTTAGTAGTA
-GAATGTAAACATAGAGAAGAATGGACTATAGATAACGTTCTTTTAAACAACAGAGAGCCA
-CACACATGGTGGGAGCAAGTCATTAATGATAGTAGTAAGGTGAATAAGACACCTTGCTTA
-ATATTTACTAGAAATAGAGCTCAGAGTTATGTTGCTTTACCTTATGATGAGAAAGTATAT
-GAAGATTTAAGAAATAATGAATACCCTGTCATGAGAACAGACTTTATTATTGATAATATT
-AGAAAAGATAAATTTTTTTATGATGTCCTTATAACTACCATGAATGGGTTGACCTCATTT
-ACACCTTCTTATATTATATCTTGCTACGACAAAAAAGATATAAAACCATACAAGAAGGTC
-GAGTCTAATTTATCTGAGGTAAGTAAGCATGAAGATGAATTGATTAATGACCTTCTTAGT
-GATATATAAGGAAGGTAAGATAAGTATGACAAGCAAAGAAAGACCATTAATCGTATATTT
-TTCAGGTACAGGACAAACAGAAAGATTAGTAAACAAAATTAATATTAATAATTCATTTGA
-AACATTTAGGGTTAAGAGTGGAAAAGAAAAAGTAAATAAACCTTTTATACTAATAACACC
-TACTTATAAGAAAGGTGCAATACCTAAACAAATAGAAAGATTCCTAGAAATTAATGGGAG
-CCCTAAAGAAGTTATTGGTACAGGAAATAAACAATGGGGCTCTAATTTCTGTGGAGCAAG
-TAAAAAGATTTCAGAGATGTTTAAGATTCCTTTAATTGCTAAAGTAGAGCAATCAGGACA
-CTTTAACGAGATACAACCAATATTAGAACACTTTAGTAATAAATATAAAGTAGCGTAAAG
-GATGAGAGATATATGGCAACATATGGAAAATGGATTGAGTTAAATAATGAAATAACTCAA
-TTAGATGACAATGGAAAAAATAAACTCTATAAAGACCAAGAAGCTTTAGATGAGTATTTA
-AAATATATTGAAGACAATACAAGAAAGTTTAATAGTGAAGTAGAAAGAATTAGAGTATTG
-ACAAAAGAAGGAACATATGATAAAATATTTGACAACGTTCCTGACACTATTATTGATGAA
-ATGACTAAGTTAGCTTACAGTTTTAATTTTAAATTCCCTAGTTTCATGGCAGGGCAAAAG
-TTTTATGAATCTTACGCATCAAAACAGTATGATGAAAACAAAAAACCTATTTTTGTTGAA
-GACTATGAACAACATAATGTTCGAGTAGCTTTATATTTATTTCAAAATGACTATGTAAAG
-GCTAGAGAATTACTAGTACAACTTATGGAGCAAACATTCCAACCATCTACACCTACGTAT
-AACAACTCAGGACAAGCTAATAGAGGTGAACTAAGCTCATGTTATCTATTTGTAGTAGAT
-GATTCAATTGAGTCTTTAAACTTTGTTGAAGATAGTGTAGCTAATGCTAGTTCTAATGGT
-GGTGGAGTTGCAATTGATTTAACTAGAATTAGACCTAAAGGAGCTCCAGTACGTAATAGA
-CCTAATTCAAGTAAAGGTGTTATTGCTTTTGCTAAAGCTATTGAACATAAAGTTAGTATT
-TATGACCAGGGTGGTGTAAGACAGGGTAGTGGTGCTGTTTACCTAAATATATTCCACAAT
-GATATCTTGGATTTATTAAGCTCTAAGAAAATCAATGCCAGTGAGTCTGTTAGACTAGAT
-AAATTATCTATTGGTGTTACAATCCCTAACAAATTTATGGAGTTAGTTAAAGAAGGTAAA
-CCTTTCTATACTTTTGATACTTACGACATTAATAAAGTGTACGGTAAGTATTTAGATGAG
-CTAAACATTGATGAATGGTATGATAAGTTACTAGATAATGATAGTATCGGTAAAGTAAAA
-CATGATGCTAGAGAAGTTATGACAGATATTGCTAAAACGCAATTAGAATCAGGCTACCCT
-TATGTATTCTATATTGATAATGCTAATGATAATCACCCATTGAAAAACCTAGGTAAAGTT
-AAAATGAGTAACTTATGTACAGAAATTTCACAATTACAAGAGGTATCAGAAATTTATCCG
-TACTCTTACAGTAATCAGAATGTTATTAATAGAGATGTTGTCTGTACATTAGGTTCTCTT
-AACTTGGTTAATGTGGTTGAAAAAGGTTTATTGAATGAATCTGTAGATATTGGTACAAGA
-GCATTAACAAAAGTTACTGATATTATGGATTTACCTTACTTACCTAGTGTTCAAAAAGCA
-AATGATGATATTAGAGCTATCGGTTTAGGTTCAATGAATTTACATGGACTTTTAGCTAAG
-AATATGATTAGTTATGGTTCTAGGGAAGCATTAGACCTAGTAAACAGTTTATATAGTGCT
-ATTAACTTCCAGTCTATTAAGACATCTATGTTAATGGCTAAAGAAACAGGAAAACCATTT
-AAAGGCTTTGAGAAGTCCGATTATGCTACAGGTGAATACTTTGTAAGATATATTAGAGAA
-TCCAATCAACCTAAGACAGATAAAGCTAAGAAAGTCTTAAATAAGGTTTATATTCCAACA
-CAAGATGATTGGGATGAATTAGCTAAAGCAGTAAAAGTACATGGCTTGTATAATGGTTAT
-AGAAAAGCAGAAGCACCTACTCAATCTATATCTTATGTACAGAATGCTACAAGTTCTATT
-ATGCCAGTTCCTAGTGCTATAGAGAATAGACAATATGGAGATATGGAGACATATTACCCA
-ATGCCTTACCTAAGTCCTATAACTCAGTTCTTCTATGAAGGAGAAACAGCTTATAAGATT
-GACAATAAACGTATTATTAATACAAGCGCAGTTGTTCAGAAACATACAGACCAAGCAGTG
-TCTACAATACTTTATGTAGAATCAGAAATCCCTACTAATAAACTAGTATCATTATACTAT
-TATGCTTGGGAACAAGGATTAAAATCATTATACTATACACGTTCACGTAAACTTTCTGTT
-ATTGAATGTGAAACATGTTCGGTTTAGAAAGGAAATAGATATGGATATTACACAAAAAGT
-AAAACAACATAATAAAAATGCTGTATTAAAAGCAACAAACTGGAATATTGAAGATGACGG
-GATGTCTGATATTTATTGGGAGCAAGGAATCTCCCAATTTTGGACTCCTGAAGAGTTTGA
-TGTATCAAGAGATTTAAGTTCTTGGAATAGTTTAACTGAAAGTGAAAAGAACACTTATAA
-GAAAGTCCTTGCAGGGCTCACAGGGCTCGATACAAAGCAAGGAGGAGAAGGTATGAACTT
-AGTATCCTACCACGAACCAAGACCTAAATACCAAGCTGTATTTGCGTTTATGGGTGGTAT
-GGAAGAGATACATGCTAAATCTTATAGTCATATTTTTACAACATTACTAAGTAATAAAGA
-AACAAGTTATTTATTAGATACTTGGGTAGAAGAAAACGACTTTTTAAAAGTAAAAGCTCA
-GTTTATCGGATATTACTACGACCAACTATTAAAACCTAATCCTACTATATTTGATAGATA
-CATGGCTAAAGTAGCTAGTGCCTTTTTAGAAAGTGCATTATTCTACTCAGGATTTTATTA
-TCCTTTACTTCTTGCAGGAAGAGGTCAGATGACACAATCAGGAGCTATTATTTATAAAAT
-TACTCAAGATGAAGCTTACCATGGTTCGGCAGTAGGATTAACAGCTCAATATGATTATAA
-TCTTCTAACAGAAGAAGAGAAAAAACAAGCAGATAAAGAAACTTATGAATTATTAGATAT
-TCTTTACACTAATGAAGTAGCGTATACACATAGTCTATATGACCCACTAGAATTAAGTGA
-AGACGTAATTAACTATGTTCAGTATAATTTTAATAGAGCTCTTCAAAACCTTGGAAGAGA
-GGACTATTTTAATCCTGAACCTTATAACCCTATTGTAGAAAATCAAACTAATGTAGACAG
-ATTACGAAATGTTGATTTCTTTAGTGGTAAAGCAGACTATGAAAAATCTACAAATATCAA
-AGATATTAAAGATGAAGATTTCTCATTCTTAGATAGTAAAGAATACAGTACTGCCAAGGA
-ATTCCTATAAAAAGGAGAAAAGATATTATGGATAGAAAAGAAGCAATGGATTTACTAAGT
-AAAGCAGAAATATTATTTAAAAAACATGATGAGTTTTCATGTGTAAGTGATATCAATGAC
-CCTATGAAGTTATTCAGTAACTCTAAGGATGCTAAAGCTGATGATACGTCTAATTCTTTT
-CAGCTAGAGTTTATGCATGATATGACCATGTATACTTTATCTTATGGCTCAGGACAGCTA
-AAACTTATTGATTTAGCAGAAGGTTATGAAGCACAAAAAGCTACAATAGTTAACTCATTT
-CCCGAAATTATTAAAACATTAGAAAAGGATGATTCAGAAGATGGAAAAAATGAATAGTTT
-AGTAGATTTAAATACAGCAATTAGACAAAAGAAAGATGTTATTGTCATGATTACACAAGA
-TAATTGTGGTAAGTGTGAGATTTTAAAAAGTGTAATCCCTATGTTTCAAGAGTCAGGTGA
-CATTAAAAAACCTATCTTAACATTAAATCTAGATGCTGAAGATGTAGATAGAGAAAAAGC
-TGTTAAGTTATTCGATATCATGAGTACACCAGTATTAATTGGGTATAAAGATGGTCAGTT
-AGTTAAAAAGTATGAAGACCAAGTTACACCTATGCAATTACAAGAATTAGAGTCACTTTA
-ATTTGGAATTTCCTACTATCTGTGCTATACTATAATAGTACAAGGTAGTAGGATTTTTTA
-ATGGAAGGAAGATGACATATCGCAAAGAATAAAACATTAACGATATATAATAGTGATAGA
-TATTTTAATATACACACAAAAGATAAAGATAAAATTAATGAGGCTATTAAAGTAACACAC
-GGTAATGAAGAAGAAATTGAAAAGAATATGGATGAATTAATATCTAAGTCTAGAAGATAT
-ATCATGAGGGATGAAAAGCATTACATGCTATTTAATGAGAAGTACAATAATGATAGGCTT
-ATAGAAAAAGTATGTAAACACGGTGGTAAAGTTACATACTATACTGATTCAGTATTACCT
-TACTATGTTTTAAAAGACTTATCTAGTCACCCTGACTCAGAAGTTGTTTATCGTATGCGC
-AACGGTTTTACTGCAAAAGAAGTAGATAATATAGCTTTATCATTCATGGGTACAAAAGTT
-ATTATTGATATTTCTGTAGTATTTCCTTATGTAAACCCTTATGATATTATTAGAAGTTTA
-CATGATATTAAAACAAATGTAGATGAAGTTCATTTATCATTTCCACGAATATTAGGGGTA
-GATGAAAAACAAGAAAAGTTTTATTTCTTTGATGGTGAAGCTTATGATTTAAAACCCGAA
-TATAAAGTCGATTTTGCAGATAAAATTAGAGTATCTTTATCAGTATGGAAAATGTATATC
-TATATCTTAACAAGTAGTCGTGATTTTGAGGATGTAGACAATGTAATTACGAAATTAAAA
-CAACAACGAAAGATTAAGATATAAGGTGATTATATGAGTACAGCAAATAGAAGAGATATA
-GCAAGAAAGATATCAGAGAATACAGGTTACTATATCCAAGATGTAGAGGAAATACTAAGT
-GCAGAGACAGATGCTATTTCTGACTTGCTAGAAGAAGGGTATACTAAAGTAAAGAATCAT
-AAATTTATGCAAATAGAAGTTATTGAAAGAAAAGGTAAAAAAGCGTGGGATGGTCTGAAT
-AAAGAATACTTCCATTTACCTAATAGAAAAGCTATAAAATTCAAACCACTAAAAGAACTA
-GAAGAGGTTATTGATAGACTTAATGAAGAAGAGAAATAATTCTCTTCTTTTTTTATTGAC
-AAGGTTTAAAATATATGGTATAGTATTATTAAGTTAAAAAAGGAGAGGAATTAAATGAAA
-GTATTAATCTTATTTGACCACATTAGAGAAGAGCATTTTTCTGTAAGTAAAGATGGGAGT
-GTGAAATCTAATGTACTAAATACACCTAACGGAAAAACACTTAAGAAATTACTTGAGAAG
-TGTTCTAACTTAAAGAGAGATAAAACAAACAGAGATTATGATATTGATTTTCTCTACAAT
-GCAGTACCTACACCTATTAGAAATGACTACGGTAAAATCATTAAATACCAAGATGTTAAA
-CAAGCAGAAGTAAAGCCATACTATGAGAGAATGAATAATATTATTATTGATAATTCTTAT
-GATATGGTAATTCCTGTAGGTAAACTAGGTGTTAAATACCTATTAAATGTTACAGCTATT
-GGTAAAGTAAGAGGTGTACCAAGTAAAGTAACTATTGAAAATGGAACATCTTCTCATGAT
-GTGTGGGTATTACCTACTTATAGCATTGAATATACTAATGTAAATAAAAATAGTGAACGT
-CATGTAGTATCAGATTTACAAACAGTTGGTAAGTTTGTAGAGCAAGGAGAAGAGGCATTT
-AAACCTAAGGAAGTATCTTACGAGTTGGTAGATAACATTGAAAGAGTAAGAGAAATATTC
-AATAAGGAAGTAAAGAATGATAATTATGATGGGGTAGATATTACCGCATGGGACTTAGAG
-ACTAACTCATTAAAACCTGATAAAGAAGGAAGTAAACCTTTAGTACTATCTCTATCATGG
-AGAAATGGTCAAGGTGTAACTATACCCTTATACAAATCAGACTTTAACTGGGAAAACGGT
-CAAGATGATATTGATGAAGTCTTAGAATTGCTTAAGAATTGGTTAGCTAGTAAAGAAGAT
-ATTAAAGTAGCACATAACGGTAAATGATTTGCTGTTGTAAAATCCCTCTCATATCGGGCA
-TAGCTTTAAGTAGCTGATAAGAGAACCTAAGTCCTGTAATAAGGATAGTGGTAATCCCGA
-GCTTACATTATTGGTGACAATAGATGGGGTGTAGAGACTGAGCCGAGGTTTTGTAGACCA
-AGGTGAGACATAGTGTATCGACTTAATAGAGGTGGTACAGTGAAAAAAGATTATATGACA
-TCAGTTAAAAATAACAAAAAAGTATGTAGAAGATGCAACGAAGAATTAGATTTATCTAAC
-TTTAAAACATATAAGAAGAATGATAAAACTTATTATCAAAGTATGTGTATACCTTGTCGG
-AAGGAATATAATAAGTTAGATAAAACTAAAAATACTATTAAAAAATGTTATGAGAAAAAC
-GGAGATAAATATAGAAGACAAAGTAATGAGTATAATACTTCTGACAGAGGTAGAGAGCTT
-AATAAAAATAGGTCTAGGAAATACAGAGAAAACAATTCTTTAAAATCGAAAGCTAGAAGC
-TCTGTAAGAACCGCATTAAGAAATGGTTCTCTCATAAGACCTGATAAGTGTTCAGAGTGT
-AATAAAGATTGCATACCTGAAGCTCACCATCCTGATTATACTAAACCTTTAGAAATAAAA
-TGGTTATGTAAATCCTGTCATGAAGATACTCATCATAAAAAATAATCACACTATGTAAAT
-GAGGGACATCAAGCCCATTTAGGTAACTACAAACAAACCTAATGGTAAGGGCTTATGAAG
-GTATAGTCCGTTCTATATAGAAATATATAGGCTAAAACGAAATATGATATTAAGTTCTTA
-ATGAGTACTGAAAACTTTAAAGATTTTGAGAGTATTCAGGATACTAAAGTAGGTTGGTAC
-CTAGCTGTTACCCAAGAAGTTAAAGAATCTTTAAGATTATCTGATTTAGCTTATGAGGTT
-ACAGATGTCGGAGGCTATGATAAACCATTAGAAGACTTTAAATTATGGTTTGTTACTAAG
-TTATTAAGATTCTTCTCAGATAAAATTAAAGAGATACAGAAAGAAAATAAAAAGATTGCT
-AAGAAAGAGTATGATGTTAAAGCTCCTGAATATAAAGAATGGTTAGAGAATAAATTAAAT
-GAAACAGTAGTAGAACTAGATGATACTGAGAAAAAATTTAGAGTTAGTGAATTAGAGAAA
-AAGTATATTCAACTAGGTCTTTCACCTGAAATTGTAAATATGAATTTAGTTATGGATAAT
-GATGAATTCATAAATATTGCAGAACAATCACCTGAGTACATGGGGTTATCTGACTACGCT
-AAGTCTTACACGTTAAATACTGCAATTAATTTAATTAATGAGTATAGAGATGTAAAAGAT
-GTAGTTAATGATATTGACGGAGGTAACTTTAATTATGATTGGTTCCCTATTGAGTTAATG
-CATCCATACGCATCAGGAGATACTGATGTATGTAGAAGAATTTATTGTGATGTAATTAAG
-AAACTTAAAGAACAAGATAGACCTAAGTCAATGCATTTATTAGAAGTTAATTACCCAAGA
-CTTACTAAGTCTTTAGCTAGAATTGAATCAAATGGTTTATATTGTGACTTAGATTATATG
-AAAGAAAATGATGAGTCATACGAGTCTGAGATGGCTAAGAACCATGCTACAATGAGAGAG
-CACTGGGCTGTTAAAGAATTTGAAGAATACCAATACAATCTTTACCAAATGGCGTTAGAA
-GAACATGAGAAAAAGCCAAAAGATAGAGATAAAGATATCCATCAGTACAGAGATAAATTT
-AAAGATGGTAAATGGATGTTTTCCCCAAGTTCCGGAGACCATAAAGGTAGAGTAATTTAT
-GATATTCTAGGAATTCAATTACCTTATGATAAAGAATATGTCAAGGAAAAACCATTTAAT
-GCTAATGTTAAAGAAGCAGACCTTACTTGGCAGGACTATAAAACAGACAAGAAAGCTATT
-GGTTATGCGTTAGATAATTTAGAATTAAAAGATGATGTTAAAGAGCTTCTTGAATTACTT
-AAATATCATGCTAGTATACAGACAAAACGTAATTCATTTACTAAGAAATTACTTAATATG
-ATTAATAAACAAAAACGAACATTACATGGTTCTTTTTCTGAGACAGGCACAGAGACATCA
-AGACTAAGTAGTAGTAACCCTTAAATTGGGGTTGTAAAACTTTGTTAACTGCGGGAAGAG
-ACTCGTTAGGTCTTAACTACTAACTTATAATGGAAACATATATAAGGGCAAACAGTAACG
-TGTTTGATATAGTAAAAAGGTTAAGAATAGAGAGAATCCGCATCCAAGACCCTGAAAGTA
-TATAAAAGTATGGGTAAGGTTCAACGACTAGGTGTTGAGACAATACAATCAATACACACC
-CACGAAAGCAAAGGTATTATTTCTGTGGTAGGGAATAATAAGGAGAGTTATATGAAAGAG
-ATTTGGAAGAAAGTAGTAGGATTTGAAAACTACGAGGTAAGTAATAAAGGAAAAGTAAGG
-AATATAAAAACTAACTATATTTTAAAGCCGTGGATAATAAATTCCGGATATGAGCAAGTA
-TCTATAGGTATTGCTAATGTATTAGTACATAGATTAGTGGCTATGACATTTATACCTACC
-GACAGCTATAGTATAGTTAACCATATTGATAATAATAAATTAAATAACTGTGTTGAAAAT
-TTAGAATGGGTAAGTTACAAAGGTAATAGTGCTCACGCTAATAAGCAAGGAAGATTGAAT
-ACTTATAGTGCAAGAGAAAAACTTAGTTCTGTATCTAAGAAAGCCATTTATCAAAAAGAT
-ATGGAAGGTAACATCATTAAGTTATGGGATTCACCAAGTGAAGCTGAAAAAGAATCTAAT
-GGGTACTTTAAAAGTACTAAGATTAGTTCCGTTGCTCACGGTAAACGTAAGCATCATAGA
-AGTTATACTTGGGAATACGTATATAAGGATTCAAAGAGAAGTTTAAATAAGTCTATTAAT
-ATGTATGATTTAAATAATAATTTATTATATGAAGATTTGACAATGAATAAAATTATGGGT
-ATACTAGAAATGAATAATCATAAAACATTAAGAGATAAACTAAGAAATACAGATGACTTT
-GTTGAATACAGAGGATATAAATTTAAAAATAATAATTAAAACCTACCACAGAAATGATAT
-ATGATATAGTCTACTCAATAGTGAGAGCTATTGTGTTACCTAAACAGTAACAGATTGTAA
-ACTAAAAAGCTTACAAATTATAGAATTTACAAAACTTACCTGCACACACATCAGATGTAA
-ATAAGTTTGATTACAAACATCCAATTAAACGTTCATTTGTTTCTAGATTTGAAAATGGAG
-TACTGCTAGGGTCCGACTATAGCGCCCTAGAGATGCGTATTATCGGATTATTTACTAAAG
-ACCCTGATATGCTACAATCATTCTTAAATGGGGAAGATATCCATAAGGCTACTGCAAGTA
-TTGTTTACAATAAACCAGTAGAAGAAGTAACTAAAGAAGAACGACAAGCAACTAAAGCAG
-TTAACTTCGGATTAGCCTTTGGTGAATCACCCTTCTCATTTGCAGGTAAAAATAATATGG
-AAGTAAGTGAAGCAGAAGAAATATTTGAAAAGTATTTCCAAACAAAACCAAGTGTAAAAA
-CTTCTATTGACAATGTACATGAGTTTGTGCAACAATATGGTTATGTTGATACAATGCACG
-GACATAGAAGATTTATCCGTTCAGCCCAATCAACAGATAAAAAGATAAAAAATGAAGGTC
-TAAGACAGTCATTTAACACTATCATCCAAGGTTCAGGTAGTTTCTTAACAAACATGTCTT
-TAACTTACTTAGATGATTTTATTCAATCTCGTAATTTAAAATCAAAAGTTATTGCCACAG
-TACATGATAGTATCTTAATTGATTGTCCTCCTGAAGAAGCTAAAATTATGGCTAAAGTGA
-CAATTCATATTATGGAAAACTTACCATTTGATTTCTTAAAAGCAGAAATTGATGGAAAAG
-AAGTACAATATCCTATTGAAGCCGATATGGAAATTGGGTTAAACTATAATGATATGGTTG
-AATATGATGAGGAAGAAATAGATACATTTAATTCTTACCAAGGTTATATTAAGTATATGA
-TGAATTTACAGACCTTAGAAGATTATAAAGAGTCAGGTAAACTAACAGATGAACAATTTG
-AAAAGGCTACTAATGTTGTTAAAAGTGAAAAACATATTTATCAAGAAATTTAATAAAAGT
-ATTGACAATATAGTTAACTTATGTTATACTATATAAGTAATAAATATAAGGAGGAAAAAG
-AGTGAATACAGGGGAGATTAGATTTAATCGTTCTATGGATGAATGGATTATAACAAGCAT
-GTACCAGGATGAGCTAGGTGGGATGAATATTGTTGTTACATTCTATAATAGAGAAGAAAA
-TAAACATGGTTCTACAGTTTTACCAACAGAGTCATCTACTGGAGAAGTAACAGAGGAATT
-GGCAAGTCTTGAAGAAGAATATCCTTTAGCTTTACCTTTAAGTAGTATCTCAGTTAATAT
-TTAAAAGGAGGAACTGATAAATGGAAATACACATTGATTCCCTAGATTTTACAAACTTTA
-CTATTAAAGATAGAAATGGGAACTCACAAGAGTTTGATATTACAGATGAGTTAAGAATTA
-CAGAGTATACAATACAAGAGGATTTTATGCAACAATCAGCTAAATATGCTTTTTGGGCTT
-CTATATTAGAGAAGGTAAGAGCATATTCTGAAATGGAACAAAGAAACCTAGAAACAATTG
-GTAGTAAGCTAAACCTTACAATTAGACAAGAGTACGAACAACAAGGTAAAAAGCCTACTA
-AAGATATGATTGAATCTAGTGTTTATATTCACGATTCTTATCAACAACAACTTAAAGTTG
-TTGAGGCTTGGAATTATAAAGTTAAACAACTTCAATATGTTGTAAAAGCTTTTGAGACAA
-GAAGAGATATGATGATTCAATTAGGTGCAGAATTACGACAAACAAATAAAAATGGTGGAA
-TTACTAATCCATTTTCACATTAAAAAATAAAGTAAAGAATATAATTGACAAATATAAAAA
-ACTATGTTATAATAAATAAGTAAATTAATTAAAAGGAGAAAAGATAATTATGGATTTCAA
-TCAATTTATTAACAATGAGGCAAGCAAATTAGAAAGCAATAACAGTTCTTTTAACAATAA
-TGTAGAGAGCTACAAACCTAAAAACCCTGTACTACGTTTAGGTAATATTAAAGATGCAAA
-CGGAAATAAGGTTGTTAAAGAAAATGCTTTTGTACGAGTATTACCTCCTGCACAAGGAAC
-AAATGTTTTCTTTAAAGAATTTAGAACAACAGGTATTAACTATTCTAAGAAAGATGGTTC
-TCAGGGATTCACAGGGTTAACATTACCTGCAGAAGAGGGTTCATCTGTCCTTGACCCATA
-CATTCAGGATTGGATAACAAATGGTGTTCAGTTCAGTAGATTCCCTAATAAACCAGGAGT
-ACGCTATTACATTCATGTTATTGAATACTTTAATAACAATGGTCAAATTCAACCAAAAAC
-GGATGCTCAAGGAAATGTAATGATTCAACCTATGGAATTATCTAATACAGGATATAAAGA
-ATTATTAGCTAACTTAAAAGACACTATGTTAAAACCATCACCTAATGCACCTCATAGCTT
-TATCTCAGCAACTGAAGCATTCCTAGTTAATATTGTTAAAGCTAAGAAAGGTGAAATGTC
-ATGGAAAGTAAGTGTTTATCCTAATGCCCCTTTAGGTGCGTTACCTCAAGGTTGGGAACA
-ACAATTATCTGACTTAGACCAATTAGCAAAACCAACAGAAGAACAAAATCCTAATTTTGT
-TAACTTCTTAATCAATAACGTTAATAACACAGAGTTAAGTCATGATAACTTTAAATTTAA
-CCGTGAAACAAATGTCTTAGGTGAAGAACCTTCAGAGCCTAAACAAGCACCCACACAACA
-AGATGTAGATAGTCAAATGCCAAGTAATATGGGAGGACAACCTAATCAGCCTCAGCAAGG
-TCAAGTAGGTCAGTATGCACAACAAGGTCAAAGTAATGGTCAAGGACAGCAGTTACAAGG
-TACACAACAACCTATCAATAACACTCAATTTGGTCAAGGAACTCCTTCAGGACAACAACC
-AAGTAACACAGGTTCTGTTGATTGGGATAACTTAGCGCAACAACAATCACAACCTGATTC
-AAACCCATTCAATGATTTTGATGTTAGCAGTGTTGATGATTCACAGGTACCTTTTGAGAC
-ACAACCTCAAAATACACAACAAGCACCTGAACCACAACAAACTACACAAGAGCCTCCAAA
-ACAAAAACAAACGCAAAGTATTGACGATGTATTAGGTGGTCTAGACTTAGATAACCTATA
-AGATATAGAGTGCCTTAGAGCACTCTTTTATTTGAGATATAATTACTAGGAGGATATTAA
-ATGGCAAGAGCAAAAAAAGGTAAAGAAGTCGATTTAACAGATTTAAATACAATTGATTTA
-GGTAAAGAATTAGGATTAACATTGCTATCAGATACAAACAGAGCAGATATTAAAAACGTT
-ATACCTACAATGGTTCCTCAGTATGACTATATTTTAGGTGGAGGTATTCCATTAGGTCGG
-TTAACAGAAGTTTACGGTTTAACTGGCAGTGGTAAATCTACTTTTGCAGTTCACTTATCT
-CGAATTGCAACACAATTAGGTGTTATCACTATTTGGATTGATATTGAAGGAACAGCAGAT
-AACAATCGTATGGAGCAACTTGGTGTAGATGTTTCAAAACTATTCTCTATTCAATCAGGA
-GAAGGTAGACTTAAAAATACAGTAGAATTATCTGTAGAGCAAGTAGGTAAAGAATTAGAG
-TACTGGATTGACACTTTCAATGAAAAGATTCCGGGAGTACCTATTGTATTTATTTGGGAC
-TCATTAGGGGCTACAAGAACTCAGAAAGAGATTGATGGCGGTATTGATGAGAAGCAAATG
-GGTCTTAAGGCATCAGCTACCCAAAAAGTAATTAATGCAGTAACACCTAAACTAAATGAT
-ACAAACACAGGGTTAATTGTTATTAACCAAGCCCGTGATGATATGAATGCAGGTATGTAT
-GGTGACCCTATTAAATCTACAGGTGGTAGAGCTTTTGAACATAGTGCTAGTTTACGTATT
-AAGGTTCATAAAGCATCTCAGTTAAAACAGAAAAGTGAGTTAACTGGTAAAGATGAATAC
-CATGGTCACATTATGCGTATTGAAACTAAGAAATCTAAACTATCACGACCAGGGCAAAAA
-GCTGAAGCAGACTTACTATCTGATTATATGGTAGGTAAAGAAGATGACCCTATCTTATTA
-AATGGTATCGACTTAGAACATACTGTATATAAAGAAGCAGTTGAAAGAGGTTTAATTACC
-AAAGGAGCATGGAGAAACTATGTTACATTGAATGGTGAAGAAATTAAACTTAGAGATGCT
-GAATGGGTTCCTGTACTTAAAGATAATAAAGAGTTATATCTAGAATTGTTTAGTAGAGTT
-TATGGAGAACACTTCCCTAATGGTTACTCACCATTACTTAATAACAAAGTAATCGTAACT
-CAATTAGAAGAGTATCAAGCTCTTGAAAACTACTATAAAGAATGGGCTACAGATAATAAA
-CAAGAGGAACAAGAGGAAGAACTAAAAGGAGAATCTCAAGAAAAGGATTCTGAATAATAG
-ATGGATAATTTAATAGATAAAAACATGAATCAGGTAAAAGAATCTTTGGGGAATGCAAAT
-TCCTCAGATGTTCTTCCTTTACCTTATAAAGATATAGCAAAGAAATTTGAAGAAGTAAAA
-GAAAAAGGTGAATCAATTATCATTGAAGAAGGTGGATTCCCTTATACAGATTCTACAGTG
-ATGTATATAGAACATGTAACAGATAGATGGGCAGGAGGATATTCCTTAATTAGACATGAA
-GGTGAAGAAGTTAAAGTACCTAAGACTATCCATTTCTCTGATATATATGTTAAAGATAAA
-TCACACAAAGTAAGAATAATCTTCGAGGGGGCTAATCCTTATGAAGAAAGCTAATAATGG
-TAATAGATATGTAATAGATATAGATGGTATACCTGTTGATTTTGAAAGGGATTTAGATAG
-TTTACTTAATAGGTATAAAAACCTTAGATGGTCGTTATATCATAGGTACGCAGGGATTTT
-ATCTAATGATTTTGAAAGACAAGAACTAAGAGAATATATTGATGAGCAATTTATTAAATT
-AGTTAAAGAATATAATATTAGAAGTAAAGTGGATTTTCCTGGATATATTAAAGCTAAACT
-AACTTTAAGAGTTCAAAATAGTTATGTTAAGAAGAATGAAAAATATAAACGTACTGAAAT
-TATCGGTAAAAAAGATTATACAGTAGAGTCTTTAACAGAAGATTTAAATGAAGACTTCGA
-GGATAATCAAATTATGAGTTATGTATTTGATGATATAGAATTTACAGAGGTTCAAAGTGA
-GTTACTTAAAGAATTACTTATTAACCCTGAAAGAGAAGATGATGCCTTTATCGTTTCTCA
-AGTAGCGGAAAAGTTTGATATGAAAAGAAAAGAAGTAGCAAGTGAGTTGACAGAACTCAG
-AGACTATGTTAGATTTAAAATAAATGCATACCATGAGTACTATGCTAAGAAAGAATTAAA
-TAACCATAGAGTTAATACTGAAAATCATATTTGGGAAAACTAGTTACAGTGCCTTCCTTG
-TGTTATATTATTATCGAGAATTCAATAATAAAGCATAGGGAAGGCTTTTTTCTATGTCTT
-ATAGAATGCTTTAAAATAGATTACTAAAATAAAGATTGGAGATTAAGCTTATGGCTAAAA
-AGAATGTTAATGATGTATTACAACAAGAATCTGTTACAGTAGCAGATAAGTATTTACAAG
-TTAAAGTTAACCGTGACGGTTATACTCGTACACATGAAGGACAATATGCGTACAAAGTAG
-TTTCAGAGGGAGAAGAATTATTCTTATACCCTGTACAAACAGATGGTAAAGGTACATTAA
-ATGTAATGAAGAAATCACCTATTGCTTACACTGATGGAGACAATATCCATTTCGTAGTAA
-ACACAGTAGTAGACCCTTATAATCACTCATTTATCCGTACTGAAGATATTAAAGGATTAG
-ATAAAGGTAAACAACTTATTCAAGCTTTCTTAGCTTTCGTTGAAGACCGTTTCAAATTTG
-GTGTTTATAACGTATTTGTTGCAAACAACAAAGAGGATGTATTATCTATTGTAGACCCTA
-CAGATAATGATGCAGATGAAGTTAAAGATAGTTTAGAGCACGCACATGAAGATGTAATTG
-CGGATTTCCCTGCTAGCCCTGCTCGTAAGGACGTTAAAGGCGTAGATTCAGGAGAAGGTC
-AAGGAGACACTTCAGAACCATCAGCACCTAAGAACGTTCAAGTTACTCCTAAGGAAGACG
-GAGCAGACGTATCAGCAGAATAATATATAGATAAGGATGGTAAATTTGGCTAAGTTAAAT
-TTATACAAAGGTAATGAGTTACTAAACAGCGTAGAAAAAACAGAAGGAAAATCAACAATC
-ACGATTGAGAATTTAGATGCTAATACGGATTACCCTAAAGGTACTTTTAAAGTATCATTC
-TCAAATGATTCAGGAGAGTCAGAGAAGGTCGATGTTCCTCAGTTTAAGACAAAAGCAATT
-AAAGTTATTTCAGTTACCCTTGACGTTGATAGTTTAGACCTTACAGTTGGAGATACTCAC
-CAACTATCAACAACTATCACGCCTAGTGAAGCATCTAACAAAAATGTGTCATTTGAATCA
-GACAAATCAGGTGTTGCTAGCGTAACATCAGAAGGCTTAATTGAAGCAGTTAGTGCAGGA
-ACAGCTAATGTTACTGTAACTACTGAAGATGGTAGTCACACTGATATTGTTGTTGTAACA
-GTTAAGGAACCTATTCCTGAAGCACCTGCAGACGTAACAGTTGAACCTGGTGAAAATAGC
-GCAGATATTACTGTATAGGAGGACAATAAAGAATGGAAAAGACATTAAAAGTTTATAGTA
-ATGGTGAAGTTGTGGGCTCTCAAGTAGCTAATAACGATGGAGCTACTACAGTATCTATTA
-CAGGCTTAGAAGCCGGAAAAACTTATGCTAAAGGAGATTTTAAAGTAGCATTTGCTAATG
-ATTCAGGTGAATCAGAAAAAGTAGATGTTCCTGAATTTACAACTAAAACTCCTACTGAAG
-AACCTTCAGGAGACGCATAATAATTAAGACCAACTAAAAAGTTGGTCTTTTTTTATTGAC
-AATTTATAATATCTATGATACACTATATAAGAATTAAGAAAAGGAGGGGAAAGTAATGGA
-TATTCCAACAATATTATTTAGAAATCCATATGATTATACGAAAGTAAAAAAATTAATGGA
-AAACAAAGAGCAGTATATTGTAGTAAAGTTTGATTCTGTTTCTGTTCATAATTTAAATGT
-TCAAGGTATGATGAATGTCATCCAAGATTACCTACACATCTATGGTTACAGAGTTAAAGA
-GTACGGACAAGAAAATTCTTCTAAAGATGATGAAAGAGACGTTAAAGGCTACTTATATGA
-AAGAGTAGGTGAGTAGGGTATGGGAATTATAGTAAACTCCAACCATATTCAATCAGACAC
-TTTATATGAGTATGATAGCTTTTTTGATATTGAGAAAGTAGATACATTTGAAGAAGGATT
-GCTTTCAATACAGGATGAGCCAACTGTTTTAGCAGGATTCATCTATGATGATATCACATT
-TAATAAGGTCATTAATTCTAATTCAGATATTGATGATTATATTAAGAATAATGATATTTA
-TTATGTCTCTGATATAGGATTACTTCCTGATACTTTTATCACTGTTGATTCTGATAGAAA
-ATATTATTCATTATTACAACAGATAACTGAGTTAAGTAAAGACCCTTTTCCTAAATGGGT
-AGAGGATGATGCAAAAGGTTTAACTAAGTATTATAACTTTCAAGATTTTGAAGATGTATT
-TGATTTAAATAGTTTTTACAAAAAAGAAGTTGACATGGTAAGAGAAAAGTGCTATAATAA
-TGGTAATGTATATTTATTATATGAGGTTCTGCCTGATTATAAATTACCTCTAGCTTATAG
-TTTACTTTCAAACAAGGAGCATGGTATTGTTATTATCGGTTCACAGACACGTTCTAATAA
-TGATATACTGACTTTTTATGTTAAAGGTATGGATGCTAAGGCAATAGCTAGTATGTTCAA
-TGTAGAACATGATTATGATTCTAATATTTTCCATACATTTGTAAACAGTCACATTAATAT
-TTTAGGAAATCAAATAACTAAGTTTATAAGAGAGAAAGGAAGCAGTTATGAGTAACTATA
-AAACAATAGAAGAAGTACAAGCAGTTATTATTGGGGTATTATTTAAAGATGAAGGTAAAA
-TTGTAACATCTAAGTTTAATAAAATTACTAAAGAGTTTGGTTTAGATAGAATCGGTAAAG
-ATGACCTTAAAGAAATTGTAGAGGATATTAGACAAGACGCTTATCTAAATGAACTTAAAA
-ACAAAGCAATTAAAGGTAAAGTAACGTTAGGTGATTTAAAAGATGTTGCAGATAACCAAG
-TATTCGAAGGTAATAACTACCATGAAGAAGTATCTACTTATGTAGTAGCTAAAGAAAAAG
-AATTGTCTCACTTAAGAGAACAGCGTAAGCACAATAGGCATACTGCATACCCTCAAATTA
-TGTTTGATGAACTTAAAGAACATATGGTTAAGGAATTACAAGGGGAAACATTAGTAGAAC
-ATCACGGAAGTAAAGCTAATATTAATGATACAGAGCTAATTGTGTTACTATCAGATTTCC
-ATATTGGAAGTATTGTATCTGATATGACTAATGGTAAATATGATTTTGAAGTTCTTAAAT
-CAAGATTAAATCATTTTATTAATACAACAGTTAAAGAAATTGAAGATAGGGAAATTTCTA
-ATGTAACTGTTTACTTTGTTGGGGACTTAGTAGAACATATTAATATGAGAGATGTTAACC
-AAGCATTTGAAACAGAGTTTACTTTAGCAGAACAAATCTCTAAAGGTACTCGATTACTTA
-TTGATATCCTAAATGTACTATCTAATGTAGTTTCAGGAGAACTAAGATTTGATATTATTG
-GTGGTAACCATGACCGTATGCAAGGTAACAAGAATCAGAAGATTTATAATGATAACATTG
-CTTATGTAGTGTTAGATTCTTTATTGTTATTCCAAGAACAAGGGCTATTAAATGGTGTAG
-ATATTATTGATAATCGTGAAGATATTTATACTATTAGAGATACCTTTGGCGGTAAATCTA
-TTATCATTAACCACGGAGATGGGTTAAAAGGTAAAGGTAATCATATCAATAAATTTATCT
-TAGATAGTCATATTGACTTATTAATTACAGGTCATGTACATCATTTCTCAGTAAAACAAG
-AAGATTTTAATAGAATGCACATCGTAGCTTCATCTCCGATGGGATATAATAACTATGCTA
-AAGAGTTACATTTATCAAAAACTAAACCTTCACAGCAGTTATTATTTGTAAATAAGGAAA
-ATAAAGATATTGATATTAAAACAGTATTTTTAGATTAAGGATGGTTAATAAATGGATACA
-ATTTTTATTATAGGTGTAGCGTTTATAACTTTTGCAACATTTAACATAGTCTTTAGATTA
-TTTGATTTATGGACTACAGAGAAAAAAATGGTAAGTCAAGGACAACCTCCACTAAGTAAC
-TTTGAGTACTATCATGTGATAGTACCTTACTTAGTAGGTGTTATTGTTATTATACTGAGT
-ATTATTTTTAGGGATTCCTTGTATTCCGCACAATCAGGGTTCGGTGTTATTATTACAAGC
-TTTATTTACATGCTAGTTTATGTTATAATTGGTCTTGTAGGGTCATTTGTACTTACAATA
-TTCCAAGCTAGAAAAGCTAGACAGTATCAAACACAGGAGGATAATAATGAAGTTCAATGA
-TATTTATGAGCAATTAATTAAAAATGATACAGTACAAAACATTCATGAGTCTCAAGATGA
-CAAAGGAAATATTTATACAATACAGTTTGATAAAGGTAATGATAAGTATTTATTTAATGT
-TATTAATGATGGATTCTTGAAAGAAATGACAAATGGTATGGTAGACCATCCTGAAGGTCA
-GCCATATTCAGTAAGTTTAATCAATAAAGAAACACCTAGTATGTCAGTGAAACAATATTT
-AACAGATGTAGAAGATATTGTACCTACTATTAGAAAAATGGAAAAGGATTTCTTATAGAG
-TCAAGTCTTTACTTGACTCTTTTTACTATATATGGTATATTAATATAGAGGTGACTTAAA
-AATGGATTTTAATTTTAGTGCTTTTGATAATAGCTCATTAGCAATGAGAATTAGTGAGGG
-TGTATACTATTTCAATGATACGCCTTATTACTTTATTGAGCATGTAGAAGAAGAAATGTC
-TGAGTATGTTATTGTATATGACATACATGACAGAGAGGAAAAAGAAAATCCTCAGAAGAA
-ATATAGAATAGAACCTTACCAACGTACAATACCGGGAGGAACACCTCTTAGTAATTTAAT
-TAAGAGTATGATGCCTCAACGTAAGTATCCTAAGAAGGTTACAGAAGACCCTATATTTGT
-AGCTAATGTTATTCCTTTAGGAACAGATACAGTAACAGGTAAAACCGGTAAAGGATTTTT
-TGAAAGAGATAAGGATAGAACTATCTATTCTCAAAAGGAACCAACTAAAGTCGTTCATGG
-TCAATACACAGGTGTTTTTATAGGTCTAACAAGTGTTAAGTGGAATAGAACATATACCCC
-CTTAGAAAGTGTTGTTGAGTACTACAAAAGGGTTAAAGGAGATAGGTTAAATGTCTAATG
-ATGTAGTTAAGTTCTATGAAAAAGATATTAAAGACCTTATCAGAACTAAAAAACACATGT
-TCAAAGACGATGAAATAACTAGTGATATAAACGATATACGAATCTTCAATGAGAAAGTCA
-TTTGTCAAGGTAAATGTAGAACAGATTGTTTAGTGTTAGACCGTAATGGTACAGTAATGG
-GTATAGAGATAAAAACAGAACGAGACTCTACACAAAGATTAAATAACCAATTAAAATATT
-ATAGTCTAGTATGTAAGTATGTATATGTAATGTGCCATGACAAACATGTACCTAAAGTAG
-AACAAATACTTAAAAGGTACAAACATAATCATGTAGGTATAATGAGTTACATTAGTTTTA
-AAGGCAAACCTGTTGTAGGTAAATACAAAGATGCTACACCATCACCACATAGAAGCCCTT
-ATCATACAATGAATATATTATGGAAGACAAACTTAATGACAATACTTAGATTGATTAGAG
-ACCCTCATACGTATAGAACAGGGTATAGCTATAATGTTAGTGGTAGATATAGTGGAGGGG
-AAGGTAATTTCTCCCAAACAACTCAAAGTAAAAGAATGAAAAAACCTGCTATTATTAACC
-AAATAATTCATTATGTAGGGGTAGATAATACTTATAAACTCTTTACAAGAGGTGTTATCT
-ATGGTTATAATAATAGGTGGGAAGTTATAGAAGAAGATTTCTTTAATACTATGAAGAATG
-GGGTAAGAGTAATTAATGAGCAAAGACAAACCAAATAGACGTAAAGAGATACAGCATCAA
-CCTGTTAACTTTGCCCCTACGAATACTTTAACAGGAGCTAATAATAGTTTCTTTGCTAAA
-AAGCCTTCAGAGCCTAAAGATGCAACATCTGTTATTGAATATCGTATACTATTTATTAAA
-AGATTTGATAACGTAACAAGTACAGATGTGAAATTACAGAAAAAGTATGCACTAAATCTT
-ATTAGTGAAGCACTTGATGTTAAAGAAACTTACTTGTCTCTTAAGCAAAAAGGAAAAAAA
-ACAGAATCTATTTTGCATACAGATAGAGTTTATTATGTTCATAGAGGTAAAAAACTTATT
-GGAAAGTGTAGTATCAGAGAACAAAGAACATTTAAGGGTAAACATTTGATATTTATATTC
-AAAACAAGACATAGAGTTAAAGCAGAAAGGAAAGATAAATAATGTTAAAAGGATTTTCAG
-AACATGTAGACAAACCTACAACTATTAAGACCTTATACAAGACCTTAACAAGTGGTAAAG
-TAGAATTACTAGGTGTATCTTACGATAGTGATTACTTCCCTTCAGGTGTTACAGTACAAT
-CTTACATTGAGGATATAGGTAATGAAGATGAGGGTCTACAGTTTGTTAATAAGGTAAATG
-TAGTAGAATCAATGAAACAGGCTGTAGTAGGTATGAATAATCAATTAGGTTCTTCAGGTC
-TTGGCTATGTGAGAACTGAACAACTTAAAAAAGAGTTGGAAGAGACTGGACTAATGACAG
-ATTTACTTGCTAGAGGTACTAACTTAACCTCTACTAAGAAAGTAGATATTGTAAGTACTT
-TTATTGAGCCTGAGGTAACATACCAAAATATTACTATAGCTAAAGATATTAAACTACGTT
-TGTATAAAGTAGAAGAAGAATCACCATTAAATGGTTACACTCATATTGTATACTTACTTA
-CTACAGAAAAACTATATGATGGTCAAACACTCTTCGGTATGCTCTCTAAAAAAGATAAGT
-TATCTAAAGGAGATACTGATAAATTATTAGCATTCTTCAGAAACAATAGTTTAATAAGTA
-AAAGTGTATTTTGTGTTAAGTTATTAAGTAAAGACTACTACTTTAATTTATATAATACAC
-ATGAGACAGGGATATTCTTTTTAGAAGACACAGATGTTATTACTATTGCTTGTGGTCAGT
-CATATGTTAAAGTTAACACTAAAGATATTAAGTCTAGTTATGTTAAAATTGAAGATAAGA
-CTCATAAATTAACTGAGCTAGTAATTAACCTAAAGGGTGACGACACATTAACTATTTTAT
-TCTAGGAAAATGTTATAAATATGTGATAATTAAGTATAAATATACGTTATATAAGAAGTT
-TTCATAATGTTTTTAATACAGAAACTAGTTAAGTTTTTTCTACTTGCTCTAGTTTCTGTG
-AAATTATATTTATGAAAAGTTAAAATATCTTTTAGGTAAAGGCTTTGTAAATAGTTAAAA
-AATATATTAAAATTTTATACAAAGTAGTTAATAAAATTATATTACATTTATATATTATGA
-AATAATAACAGAAATTGTGATATATTATATAGTGTAACCTTGAAACAGTTGATGTTGTAG
-GGTTTGTTTATGTTCGTTAAACTGGTTTCAGAACATCAGTTACCATAAATAAATGACAGT
-TAAGGAGAGCTATATAATGGCTAGAAAAAAGAATTTAAGAAATAAAAACAGTGATATAAA
-AGTTGTTCCTGATAAAGAAAAAGAAAGTATATTATCTAAGTTATACCATAATAAGTTACT
-ACGTTCAAAGGTAGATAATGCATTAGATGAAGATATGAGTTATGATGATATTATAGAATT
-ATGTAAAGAATATGATTTAGAATTGTCTAAATCAGCTATTACAAGATATAAAAGTAAAAG
-AAAAGAAGCTATTGAAAATGGTTGGGATTTAGGAGAATTAATTGATAAACGTAAAAAAAC
-AAGTGTAAAAGATATTAAGGAAAAAGAAACTCCTATATTAGAAGAGGAGCAACTTTCTCC
-ATTCGAACAATCAAAACATCACACACAAACAATTTATGATGATATTCAAGTACTAGATAT
-GATTATTTCTAAAGGTGCAAAAGGATTAGAGTTTGTGGAAACTTTAGACCCTGCTTTAAT
-GATACGTGCAATGGAAACTAAAGATAAGATTACCGGAAATCAATTAAAAGGTATGTCATT
-TATTGGACTTAGAGAATTACAATTAAAACAAACAGCTCAAGATACAGCTATGAGTGAAGT
-ATTATTAGAATTTATACCTGAAGAGAAACATGAAGAGGTATTACAACGATTAGAAGAACT
-ACAAAATGAATTCTACAAAAATCTAGATTTAGATGAGGAAAGTAGAAAATTAAAAGAAGC
-TCTTGATAGAGTAGGCTATACAATTTAGATAGTGAGGTTAGAGTAATGGCAGATGAGATT
-AGTTTAAATCCAATACAAGATGCTAAGCCAATTGACGATATAGTAGATATCATGACATAC
-TTAAAAAACGGGAAAGTACTGAGAGTTAAACAAGACAACCAAGGAGATATCCTTGTTAGA
-ATGAGTCCAGGGAAACACAAATTTACTGAAGTATCTAGAGACTTAGATAAAGAATCATTC
-TACTATAAAAGGCATTGGGTTCTCTATAATGTATCTGTTAACTCTCTTATAACATTTGAT
-GTTTATCTAGATGAAGAATATTCAGAAACAACTAAGGTTAAGTATCCTAAAGATACTATT
-GTAGAATATACAAGAGAAGACCAAGAAAAAGATGTTGCTATGATTAAAGAAATACTTACA
-GATAATAATGGTAATTATTTCTATGCACTTACAGGGGAAACAATACTCTTTGATGAAAAT
-AAATTAAATAAAGTTAAAGATTAGGGTTGACAGCTCCTATAGTTTATGATATAGTATATG
-TATACTAAAAGTAAAGGAGCTAACAATTATGTTTATTTCATTAAATCAAGAAGAGAAAGA
-ATTATTAACTAAAGAGGAAAGTAAATACACACCATTAGAAACATCAAGAGAGTTTAACAC
-ACCTAAAGAAGAATTCATTGTAACAAGCTATAATGAAGGTAAACCTTTAGATTACATTGC
-AAAAGAAGCTAAGGTAAGTATGGGATTAATTTACACAGTTCTAAACTACTATAAAGTAGG
-TAAGCGTAATAAGAAATCACCTGTAGAAGAAAGAATTGCACATATCTTAAAAGATAAAAA
-CTTAGTCAAAGAGATTATTAAGGATTACCAATATATGAATTTACAGGACATTTATAGTAA
-ATATAATCTTCATAAGAATGGTTTATATTACATCTTAGATTTATACCATGTGGAGAGAAA
-ATCTGAACTTAAGGACAAAGCATTAGAAGAGGATAATATTGTCGTTGAGTAAGTAAAGAG
-GTTATAATATGAGAAATAAAAAATCATTTCAAGAGCAGTTAAATGACATGCGTAATAAAG
-AGAAATGGGTATCTGAAGAGGAGTTCACTGAAGAAGTGGCTCCTCCTGAAGAACCTGAAG
-TAGAAGAAGAAAAACTATATACTTTAAATGAGTTAAAAGAGAGCTTACTAGATGCTCAAG
-GATTAAAAGATGTTGTAGCTGATTTTCCTGCATCTAAAGATTTATATGAACCTAATAAGT
-TATATATCTGTACAATACCTAAAGGATATCAGTCTACCGAAGTACAACCAGGACAATATA
-TTGGTATTAGTACTGGATTATTATCAGAGTCAGAAGACTTCAGCCATTTAAGAGGTCAAA
-TGCCTAGAAACTTATATGAAACTTCTCATGTTTTAAAACCTTTGATACGTATTAATAATA
-CAAATATTGAATACCAACAACATGAGTTACTTGAAGACATTAAGGATGACAAAAAGATAT
-ATGATGTAGAGTTAGAAGACTTAAGATTAGCAACAGGAGAAGAAGTTTCTCATTTAGAAA
-TTGTTGATAATAAGTTTTTTGAAAGTCGTATTAATGAAGTTCTTGACCGATACACTGAAC
-TAACGGATTCCAATGATTTACTTAAGTACTATAGTAAATTACGAGAATTAGTAGGTAGTG
-ACAAAATGATTTATTGTTCACTCCTCGATAAATGTGTTAAAATTATAGATTAATAGTAGT
-CTCCTCTTATATTATAATTGTAAGAGGGGACATTTTTGTATAGAGGTGTTAATTATGTCA
-AGAAAAGCAAGTATATTCTATATACTAGTGGTTATTGTTTTGGCTTTCTCTATCTCATCT
-TATTATATATCTTCTTTCATGTATCACGACAAAGCAAAAAATGAAGTCTCTACTGAGTTA
-TCGAACACAGGAAAGATTAAAGAAGAAAAGAACGTAGAATTTGTCGGTGACTACACATTG
-AAAAAAGTGGAAGATAATAAAGCTTATTTTATGGAAACATTACCTACTTACCTACCAGGT
-AGAACAGGAGATAACAGCATAGATATGAGGTACTACAAAACAAGTAGATTTAAGGAAGGG
-GTAAATTTCAAGCTTATTAGGGTATATACTGAAGATGGAGAAGATAATCCAATTCATAAG
-TATAGGTTTGAAGCAGTACCAACCAAAAAGTAATAAGGAGGTGACTTAAATGACAACATT
-AATTGTCGTCATCTTTATTGCTATCATTTATTACTTATGGAACAGTGATTGAGTCAAGTT
-AATTCTTGACTCTCTTTTTGTTTTATGGTATATTAATATATAGAAAGGAGAGATTAACTA
-TGGAAATGGCAGATTTAGAAAGATTTGATGCATTTGTAAGACTAATTTCAGATGATGAGC
-TTTCGGAGGAAAGAATACTGGAGTTAAGCGTAGACTTACTAAACCCGATACTAGAAGGAG
-GTACAGCTTACAAGGCTAAAAAACGTATTAAGAGTAAATTTGGTAAGTTAGAAGCAAAAA
-ATTTTAAACGAAACTATAAATTCTTACTTAAGTCGATAGCTCAAATAGACCAAAGGAGAT
-AGGACAATGACAGAAAGGGAAAAATTAATTAAAGATATTGAAGAGGCTAATAGAGACATA
-CAGTTACAGTTAAAAGAAGTAGATAATTATAAGGACAGCATACGTTCTAAAGGAACAAGA
-AATTATATTTCTACAAAGGTATTAGATTCTATTATGGTTGGTTTCATATGATGAAGTAGA
-TATTGTATCAAAACATAACTTAAGACAAATAACTTTTAGTGAGATTAATATACTTCATCT
-TAAATATATGAGATATAATAAGGCAGTAGAACAACATACTAAATTATCTAAAGAACTTTT
-TAAAAAAGATAAAGAAACTGTTGACAAGAACAAATAAGTGTAGTATAGTATTACTAAAGG
-AGGAGAGATATTATGGTTATACCTAGTATTAAAGCACAAAACAAATTCAAGAATGAGTTA
-GAGTATTATAAACAAGGTCACATTAGTGAAAGTAAAATGTTAGAATTAGCTTTTGATTAC
-ATCCAAGAATTAGAACAAAATAACGAATACGTTACTAACTTGCTAGAAGAGGAGAGATAT
-GGTGAGTAAATTTATCGGAGTGTACTTATTTAATTTACTAATAGCTATTATTTTAACTTT
-AACCTTAATAGGTACTATTACTGACTCAATTGAGAGTACTTTAGCCCAAATAATCGTAGG
-GATGTTCATAATCATTACTATATATATGGAATCCTATCAGCGTTAATACCTATTCTAGTT
-CATAAAGCTGTATCACCGGGATGGAGCTATACTGAATGGAATGAATCCTATTACATCAGA
-TTACCTGGAGAAGAGAACTACAAGTACTATAGTAAATGGTATTTAGATTTATTAGGAGTT
-AAAGAATTTTACTATAAGAGAGACAATGGAGAAGAAGTAAAAGAAAAAAATATATCATGG
-GCTTTTCAAGCTGAAGTAAAAAGACCTGAAGATGTTAACCACTGGAAAAACCAATTGCTT
-ACTAATAGACCTTTAACAATTTTAGAATATAAAAAATTAAAGAAATTAGATAAGGAAAGT
-GAAATTAGGAAACAAGAAGATTTAGAAGAATATAAACAATACAATAGTAATTAAAGAGGT
-GGAAAGCAATGATAAGCTCATTATTAGATGTAGAAGCTTGCTCTATGATAATGGCAGTCA
-TCAGTACAATTGTGTTTGGAATTATTGTACTTTTAATATGGCTAGCAGTAAATAATATTT
-TACTATAAGGAGATTTACTATGGATTTTAATGACTTTATAAACAGTGAATCGGATAGGGT
-AGGTAAGCCTAAACAAAAGAAGAAGGTAGAGAATAAGCTACCTTCTTCTACTCCTATTGA
-AGATAAGGAAAAGAAATTAAAAGAGATAAGAAAGAAATCATTATATATTGATTTAAGGAG
-AAAAAGAAATGACTAAAGAAACAAATGTACTTTACAAAGATAAGTATAGAGATTATACTA
-TAGTTGTAAGATTAGCAGGGAATATTATTGTTACTGAAGTAGATAAGAAACATAAAACAG
-CATTTACACCTATTATATTTGACAATGGTGTAGAAGGCGTAGAGCTTGTAATGCGTATAG
-GTTCTGTAGAGCTTAACATGACAGATTTACGTGAGTTCACAAAAGAAGTATCTACGGCTC
-AGAAAGCTTTAGAATATTTTAATAAAAAACTTTACATTAAAGGCTTGACAGATGAAGCAT
-TTTAATATATACTAAAAGTATAAATAAAATAAAGAAAAGAGGAATGATTATTATGTTATT
-AGGAATTTTATGGTTTATATGGGGATTTGTATCATACTTTGTATTGATGTTTGGAATTGA
-GTTTTGGAAAGATAGATGGATGCCAGGTGTTATCGGAGCAGGAACCTTACTACTATTCTT
-ATTTTGGATTATGAAATCTATCCATAATGCTATGACAGTAGTATACTTGTATTAGGAGGT
-TGTATAGATGGATATACTAATTATTCATTATAAAGAAACAAATAAACGGGTTTTAAAAGA
-AACAATACAAACAATACAAAATCATTTAAATGATGAACATGGTTTGGTTAAGATGACAGC
-AACAAAACTTAGCAGAGAGAATATAGAGAAAAGATTTAATAACTATAATATAGTCATTGC
-AGAAGATGACCCTGATAATTCTTATCATTACGGTGAAGCTGTAGAAGACGCAGATTTTAT
-TATAGACATACCAATTTCATATTTAGATATACATGCAGGAATAGAATGGGATGTTGATAA
-TCCTGTAGATATGCTAGATAGGAATCCTGATTTTATAGAAGCTGTAAATAAACTAAATGA
-AGACTTAATGTTATAAGGAGGAAATAGAATGCTAAATGAAAAACTAAAAAACCTGGAAGA
-TACAAAAGTATACATGATTAATAGTATTGCAAGTTTACTAAGCGCAAGTACAGGAAAATC
-AAGTAAAGTATTTTTTGATGAAGGGACTATTAAAATTGTAAGTGGTGAAACAAAAGCAGT
-AGAAGTCATTGATAACTTAGTTCACCCTCACTCAGGACGTTTACCTATTAAAACAACAGA
-ACGTATTGCGCTAGGTAGATTAACAGATTCTTTACAGTTTGTTATTTCAGAAATAGAAGT
-AGTTAAAGACCAAATTATAGATGAAGAAAATGAAGCTTACATTGATTTTGTGATGGAAGA
-CTGGAACTGGGATTAATGCCTATGGACTTATTAACTATTGCTTCTGTTGCTTTTATAGCT
-GTAGTCATTATTGATTTGATTAATGATGATATGAGCTATATGCTTACTGGTACTGCAATC
-TTAATAAATATTTGGGCAGGATTTTATGGATGGTTTTTCTTACTGCAAGCAGGAATGTTA
-CTTTTCTTACTATTAGCTAGGAAAGTTAAAGATGATAAGGAGTCAATACTATATTCCAGT
-GCTTCATTAATATGTGCACTAGGAATGATAATAAATCTTCTTTCATTTTCTTAAAAATAA
-GTATTGACACCTTTGTACTTTTGTATTATACTTAGTATATAACAAGTACAGGAGATGATT
-ACTATGAGTAAAGAAACAATTAGAAGACAATTTTCAAATGCAATTGAGATTATGGCAACA
-ACTAAAGAATGGTGGAACTTCCCTAAAAGTTTTGATACGAATAAAGAATTTAAAATTAAA
-ACTTTTAAAAATGATACACTTGTATTTGAAGTCAGAGAAGGCAGTAGAAATTTAGGAAGC
-TTTGTAGTTTTTACAAACATTGATTTTGATTATGATAAACTAGAAGGAACTTCAACACAA
-TATATGATTAATTACTTTGCTAAGAAATTAACTAAAGATATGTTTAACTATCATAAATTA
-CAATTATAGTAGGAGGTGGAAAGATGAGAGAAGAGTTAAAACCTTTTAATAGGAAACAAG
-TTAATGTTAAGGGTTACTTAGATGATGTTAAGTATTCAAAGCGTAGAAGACATAAAGGTA
-ATCAACATGGGTGTGTTAAAATCACAGTTACTGATGTAAAGATTAATGGTATACCTATTG
-ACCACGTTAACATTGAAGTTGGTATCTCTTTCTATGAAAAACTAAAGGAGCTTCAAGGAA
-AGAGAATTCAATTTGTAGGTACTGTTTATAAGTATGTTAAACATGCTAGGGGGCGCAAAG
-GTAGAATTAAAGGATTTTATAAAGAGGATTATAGCGTAACTTTAGATAAGAAGTTACAAA
-AGGAGGAAAAATAATGATTAAAAGAAGAAAACATTTAGACCACTCATTACAGCCTGAGAA
-AGGATGGAGAACAGTACCTTTTAATGGGTATTATGAAGCGCATCCTACGGGTTTAATTAG
-AAATAAAGTAACGAAAAAGTTAATTAAAGGTACACAGACAAGAAAGAACCATCCTAAGTG
-GACTGCTCATGAGATTGTATACCTAATTAACCCTAAGAAAACAAGTTATTCTAGGGGAGT
-AGTTATTGCACATACATTCCCTGAAATGATTAGTCAATCACGAGGAGACCTTAAGAACGG
-TCATGTGTGTTTTAAAGATGGTGACCGAAGTAATTGTCATGTAGACAATATGTTTATTGG
-TAAAGGTAATGTTAACAAAAATATCTATAAATTAAATGATTCTTATTTAACTAGAAAAGA
-TATTGAAGAGGATGTTAATAATTTAGTTAATGAAAGATTATTCTCTCAATTAGAATTATT
-GATTAAGAAAAATGAACCGGAAAGAATTACACCTAGTAATCACTTTATTAAAAGAGATAA
-TAATGTGTTCAGTATCACAGATTTATCTAAAAACTCACTAGTAGAGTTTGAGTTAGAAAT
-CAAGAATATTAAGTAAGGTGGTTATATAAATGAATGAGTGGTATGCTTTATGTTATTATA
-ACAAAATAGGTAAAAAGAAAATACCTAGACAAATTAAAGCTCACAGGGATGTATCTGTAT
-TAGAGGATTTAAAAGATAGATTAGAAGAACAAAATCCTAAAGAAGAATACAAGATTAAAA
-CAACAAAAGAATTTGATAAGGAAAGATAATTAATGTTAACACCTCAACAAAAGGATTCAT
-TAAAAGAGCAACAAAAAAAATTAAGTAAAAAGAAGAAATAAGTCTTGACAATTGAGTATA
-CATAAGTTATACTTAAGTTAACAAATAAAGAGGAGGTATGACCTATGTTATTCGTAATTT
-TTATATTGGCAGTACTGTTTGTACTTGGATTTATGAATGGATGGAACTCAGAAGACTAGA
-TAAGGAGTGGTTGTAATGAAGTTAGAAGATAAAGTGTTAGAGAGAATTGATTCTCTTGGA
-AATAAAGCAGGTAACTTAAGTAATCAAGTAATGGAGTCATTAGTAAAGTATCAAATTACG
-TACGGTATTATAGATATTGTTGTAAGTATTTTAGTTATTGCACTAACAATATTTTTAGGT
-AAGGTTTACCTTAAAGAATATAAGAAGGTTAAAATGGATTTAAAAGAAAGCTTATTGTAT
-GATGATTACGATGACTTAAGTGGTATCGGATGGTGTTACACAATTCTATTAATACTATTA
-ACGTTATTCTCTCTTTACGCAATAGTTGCAGGTATCCCAACTGATATTATGAGATTAATT
-AATCCGGAAGTTTATGCAGTAAAAGATTTAATTGAGCAAGTTAAAGGAGGAAATTAAAAT
-GAAACAAAGAGACTTTGAATTTGAAGAGGATTTTGTATTAACTTATGAGTGTGAGGATTG
-TAAGCATTTCGAAGACTGGGGTCATGATGAAGAGCCTGAAGAATGTAGTGAATGTGGAAG
-TAGTGATTTAATCTCAATAATACAAGTCATGAAGATACTGAGTGTGATATGTGTCGAGGG
-TATATTGATATGTGGCAAGATGGATATAGATATATGGGAGATAATAAAGAGTATATTGAA
-AAAGAGGAATCAGGTTTGATTTGTGAAGATTGTTATGAGAAATTAGATATTTAATAAGGA
-GGAAATTAATATGAATAAAGCAGTAGAACAAGCAAGTAATGCATTAGGTCAAGGATTTTC
-AGCTATGGTATGGCATCAAGTATTAGTAGGGTTAGGGTTTATTTTATTAGGATTGGTATT
-ATCTTTACTGGTTTGGGTATTAGTAAAAAAATTCCATGTACCTTTTAATCACCCGACAGC
-TTTTGTAGTGTACTCAATTATGTTAGTGAGTATTGTTGCTAGTTTTATTTGGGGCGGTTT
-ACATGTAATTAACCCTGAGTATTATGCTATTTTAGAACTTAAAGGTTTTATAAAGTAGGA
-GGAATTCTATGACTAAAGAAGAGTTAGAGCAAAAAGTAAAAGAACTTGAAGCAGAGAATA
-AAGAGCTTAAAAAACAAATAGAACGTTTTGAAGACGAAGGAGGAAAAACAAAAGATGAAC
-AGTAGAGAAAAGAAAATTTTAACACTAACAGTAAATAATTTTTTAATGTTAGCTTTAGAT
-ATTGTAGCACTTGTTAGGTACAAGAAAGGTAAAATTAAGCAAGAGAATTATAACACAGGT
-CAAATTTCAAGAACTATAGTTACAACAGCCAACTCATTAGGTATTCTTTACCTAGAAGAG
-CAAGAACGTAAAGAAAAAAAATCTGTTAAAATAGGTACTCTTGAAAGTGGTACTCTAAGA
-GGGTTTAAAAATAAATAAAAAAGTTTAAGAAACCTATTGACATTAGGTTTCTTTTATTAT
-ATACTAAGAGTATAAGAAATAAGGAGGTTAATTTATGAAGCATTTTATTTTAATTTTAGG
-AATTGTAATACTAGTTATTGCATTAGGTATTGTTTTACCGGCATGGATTTTACAGTTAGT
-ACTATCTGCATTCGGAGTTAAAGTAAGTATTTGGGTATGTATCGGAATATTTATTTTAAT
-CAGTGCAATAGGAAGTATGTTTAGCAGAAATTAAAGGAGGAACTATAAATGGCAAAATAT
-GAATCAAATATTAATGGAGAGAATTATATTGCAACACCGTCACAAGCTTTAAGAGAGGCA
-CTAGCAAAATTAATAACTGAAGAAAAGAGCTTTGCGGAGTACCAAACTAAAGGTGAGGAG
-CAGTATGAATCACAGTTACAACTAAGACACTTTGATACAATGATATCTCAGTATGAGGAA
-GCTATTAGAGTACTAGAAGATAAATATAGACCTCAGATTTTTATTCCGAAAGATAATAAG
-GAGGAAAATTAATTATGAAAGCAGAATCAATAGCAAGATTTTTTAATGACAAAGTACTAC
-AAATAGAGGGTTATAAAGTAAGATTCTTACAGGCTAGTTCATCGTATATTTTAGATATAG
-ATACTATAGATGAATCAGTATTGTTTTTAGAAGCTCAAGTATCTACACTTTCAGGTAAAC
-ATTTATTAGATACAGCTATTACAATTGAGAGACCTGAAACATTAAGTGCTAAAGAGCTAT
-ATACAGAAATTAGTAATAAACTACAAGCTATTGTAGGAGACCAAACTAAAACAACTATAG
-AACTATCAAGATATTTTAAGGAGGAAAAATAAGTGTCTAATAAAACCATTACAAATTATT
-TATTAAATTTAGAAGGAATAAAAGGAGAAACGTATAGTATTATTGCTCATATCAATAAAC
-AAACTGGTTGGGGTGATAAAGGGGATTATTTTGAAATAAGCATAAGTTATAAAGCTGATA
-AAGACCCTAGAACAACGAGATATATTACAACTGAAATTTTTGTTGATTATGGTAGTAATA
-ATCCAAAAGAAATTTTATTACAATTAAGAGATAAGATTTTTTCTATTGTAGAAGAACAGG
-TAGAGACTGACAATGATTTTATTGAATCTATTAAAGAAATTAATTCAACTAAAGAATTAG
-AAAAACTAAAGCCTTATATCAATAATGAATATTATTCAATGTTTAAATCTTCTATTGAAA
-AGGAAATACCTGTAGCTTTATCTTCTGAAGTACTCAATAGATGTACAGGTAAAACAAGCA
-CATTAGCTTATTTAGCACTAGAAAAGGATTTACCCTTAGTAGTATCAAATGAACCTATGA
-GAAAAATGCTTAAAAATAAATTCCCTCATCTTAGAGTAGCTTCTGCTTAAGATTATTCAA
-ATTATGATATTAAAGGTGAAATTGTTCTAATAGATGAAGTAGATATTGACCAGTTATATA
-GTGCTGATAAAGTATCTGTTGATGCACTTTTAGTGGGTATCATTAAAAATTAAATAAATT
-TATAAATACCTGTTGACAGCCTGTTGACAGCAGGTATTTTTTATAGTATACTTTAGATAT
-AAAGAAAAAGGAGGTAATATAATGATACCCGTAATAGTTATACTTATTGGACTCATATTA
-TTTTTATCTAGCGGTTATAAGTTGGTATTGGGTAAGTATTATGATGATGTAGATTTAAAA
-ATACTATTTACCATATTTGGTGTTGGGATTGCATTACTACTTGGAGGATTTATATTATAA
-AGCAGGAGCTATTTTATTTTAAGGAGAGGTAAATATGAATTATAGAGATTTTATTACAGA
-TTGTATTAGCGGTGGTTACAACGTACACATCAGTGTTACAGAAAAACGAGTACACATTAT
-TTCTGAGATGACATCAGCATCTTACCCTAAAAAGGAAATTAACTTAGATGAACTACAAGC
-TTATGTGTACTATATGAATAATTTTGGAAGTCAAATTACAACGGAGGGGTTATAAATGGA
-ATTGGTTATTAATATTGTAGCAGTATTGGTTGGTATGTATGCTATTTATTTCTATGTTAC
-AAAGTTTAGTACTGGCTTATCAGGTATTTTAATTGTTTTAGGGATGGCTATTGGTCTTTA
-CTTCTACTTAGACTATTTAAATGTCAGAGAAAATGTTATTCGATTAGTTTCAGTAATGTT
-CGGAGCTTTCTTATTTAGTATTGAAATGATTTATAATAAAATTATGTTCGAAATTAAAAA
-AAGCAATGTTCAGAAGACTGTTAGAGTGTATGATAAAGAGCAGTAATGATTTTACCATAA
-GAGTACCTAAATTACTTTAAGTGCTCTCTATGGTACCTTAAAGTAGCTTAGAATTGAAAT
-TAAGGAGATGAACAATTATGTATCCTGAAATAGATGTGGAAGAATTAGCGTATAAGCTAA
-AAAGTACAAGAGAGTATTTAGAGAGCATTACAACAAAAGAAGTAGAAATTTATGAAATCT
-ATCATCTTAAAACAGGTAAGTTAGTTTTTAAAGGTGAATACATTGAGGTAAAAGAATTAC
-TGAGGAAAATGTATAAAGAAAATTTAACACTTGTAGATGTAGATACAATGTTAAGCATTG
-GTAAAGGATTTATTGATGTAATTAAGAATATATCGGCAGAAAATGTATTCCAAATAACAT
-ATAAAAAGGAGCTATCAACAAAATGATTAAAATATTTTCAGAAGTAGATAAAGAATACAA
-ACCTATTATTACTGAAAAGTTTCCTAATGGTGAGATTAATTTTAAATATGATGATTTAAA
-GTATTTAGTAGAAGAGGACTTAAGATTTGATGTTTTCTTTAAATGGGAAAATGACGCAGA
-CTTAATGCATTTGTATATGTTTACTAAGTATTTAGAGCAACTAGGTATTAAAGATAAAGC
-TGAATTTTTAGAGATTGCATATCTACCTTATAGCAGAATGGATAGAGTAGAAGAAGGACA
-TAATAATATGTTCAGTCTTAAATACATTACAGAATTTATTAATAACCTTAATTATAAATC
-GGTATGGGTAGCAGAACCTCATAGCCCTGTAACAGAAGAATTACTTACTAATTCTTTTGC
-TATTGATGTTACACTTAAATTATTAAATCAGTATATTGAAATGTCCGAAGAGCCTGTAAC
-AATAGTACTACCTGATAAAGGGGCATACGATAGATATCTATTTGATGTAGAACGTATCTT
-AATGGAATCTAATATTGAATCATATTCAATTGTATATGGTGAGAAGAAACGAGATTTTGA
-AACAGGTAAGATTAAAGGTATTAAAATAATTAAAGATAAAAATACTTTATATGATAATTG
-TATTATACTAGATGACTTAACAAGTTACGGTGGGACATTTGTCGGTTGTAAAAAAGCCCT
-TGACAAACTTAAGGTAAGTAGTGTATCATTAATATTGACTCATGCAGAACGAGCTTTTGC
-AGAAGGAGCATTACTTAGCTCAGGATTTAAAGATATTATTGTAACAGACTCTATGTTCCC
-TAAAAATAATTGGGAAAAAGCTATTGCTAAACATAGAGCTAGAATCAACGGAACTGAATT
-ACAAATAAAAGATATCGAAAGATATTTATAAAAGGAGAAAAATAAATTATGCTAAATCCA
-ACTTTAATGTGTGACTTCTATAAACTAAGTCACAGAGAACAATACCCTGAAGGTACAGAA
-ATTGTATATAGTACACTAGTACCTAGAAGTAATAAATATTATGAACACAGTGATAATATT
-GTAGTATTTGGTATTCAATCACTTGTTAAAAAATATTTTATTGATATGTTTAATAAAGAG
-TTCTTTAACAGACCTAAAGAGGAAGTTATTAATGAATACAAACGTACAGTTAAATTTACA
-CTAGGACAAGAAAATCCTGATGCTAAACACTTAGAACAATTACATGACTTAGGTTATTTA
-CCTATTGATGTAAGAGCTTTAAAAGAAGGTACTGTTGTTCATCCTAACACACCTGTTATG
-ACAATTGAAAATACTCACTCAGATTTCTTTTGGTTAACTAATTACCTAGAAACTATTATT
-AGTACTCAAACATGGCAAGCAATGACTAGTGCTACACTAGCATATGATATGCGTAAAATG
-CTAGATAAATATGCAATGGAAACAGTAGGTAATATTGAAGCAGTAGATTTCCAGGGTCAT
-GACTTTAGTATGCGTGGTATGAGTTCTTTAGAAACAGCTCAATTAAGTTCAGCAGGTCAT
-GCAATTAGTTTTAAAGGTAGTGATACAGTACCTGTAGTGGATTTCTTAGAATCATATTAC
-AATGCAGACGTAGAGAAGGAAATGGTTGTTGCTTCTATCCCTGCTACTGAGCACTCAGTA
-ATGTGTGCAAATGGTAATTATGAAACCATGGATGAGTATGAAACATATAAACGTATGTTA
-ACAGAAATATATCCAACAGGCATTTTCTCTATTGTGTCTGATACTTGGGACTTTTGGGGT
-AATATGACTAAAACTTTACCTAGATTAAAGGATATTATTATGGAACGTAATGGTAAAGTA
-GTAATCAGACCTGATAGTGGAGACCCTGTTAAAATTATTTGCGGAGACCCTGATGCAGAC
-ACTGAATATGAACGTAAAGGTGCAGTAGAAGTGCTTTGGGATACATTTGGAGGTACTGAA
-ACTGAAAAAGGGTACAAAGTATTAGATGAACATGTAGGATTAATTTATGGAGACTCTATT
-AACTATGAACGTGCTCAACAAATTTGTGAAGGATTAAAAGAAAAAGGTTTTGCAAGTATT
-AATGTTGTATTAGGTGTAGGTAGTTTCTCTTACCAATTTAATACTCGTGATACCCACGGG
-TTTGCAATCAAAGCAACGTATGCTAAGATTAAAAATGAAGAAAAACTTATCTATAAAAAT
-CCTAAAACAGATAGTGGTAAACGTTCACATAAAGGTCGAGTAGCTGTATATAAAGACGGT
-TCATGGGAAGATAACTTAACCTTACATCAATGGCTAAACAAACAAAATGTTAATCAATTA
-GAAAGAGTATTTGAAGATGGTAAACTTTATAGAGACCAGTCGTTAAGTGAAATTAGAGAA
-ATAATTAAAAATAATTAATAAATATTTAAACTCCCTATTGACAAAGGGAGTTTTTTATTA
-TATAGTAGGGCTATAGTAAATAAAGGAGTGAAAGAAATGATTTATAAAATATCAAAACAT
-AATTACTATAGTAGATTTGAGCATTCCACTTATCCTCCTGATGAGGGGTTTGCGTATGTA
-GATTATGTAGATGTGATTCTTATTGGTGTAGATAATCCTAGGAAAAGAAAGATTATTACC
-TTAAAAGTAAATGAGTTCAACCCGGATGACTACAGAGTAGGTCATAAGTACAATATTATA
-AAAATACTATGGTTTGAAAAATGGGAATGGTTAAAGCCATAAGTAAAAGGAGAGAAATAA
-AATGATTATAGATAAATTAAATGGAGTTAAATTAGAAATAGGTGGGCATGTCGTATCATT
-TAGTGTAAGAAAGTTTAATACAATTAATGGTGAGAGACAATTAATAGACTACCATCATAT
-TAAAAGAAATAGACAACAGTACTTTAGAACTACTGAAGAATTTTATAATGAATATAAAGA
-AATTAAGCCTGACAAAAATGAAATAGATGAAATGTTTGAATCTCTAGGTTATGTAGATAC
-TGAGTTAGATGATGTAGTAAGAAACCAGGAAAAGGTTACTGAAATATTAGGAGTTAGTGA
-ACAATATTTAAATCAGTTATCTTATAAAGCTATAGAGGAGTATGTAGATAAAGTAGTTAC
-ACTTGAAATTAAAGAGTTGAAAGGAGAGAAATAGCATGAATAATAACTGGGAAAAAGAAG
-GAGTTAACTATTGGGAAAACGAAGACTGTCCTAGGGAATACTTAGAGAAAGCATTCATTG
-ACCTGGTAGAATATGTTGAAGGAGTTACAGTACCACCTAAAGATGTTAAGCAGTTAAGAG
-AAGATAAACTTAGAGAAGATATTGGGTTTTATGAGTACGTAGCTGATAAATAAATTAGTA
-TCTACCTATTGACTTAGGTAGGTATCTATTATATAATAGTATACAAGGAGATGAAAATAT
-GAAAAAGTTAATAGTATTACTTACAATTACTATTTCTCTATTACTAGGGGGTTGCTCTCC
-TGATAACCATGAAGGTAAAGTAGTAGGAGTAGGTGAATACAGAGAACCAACTACTTATAT
-AAAATCAGGTAGCGTTACTGTACCAGTCATTGGTGAAATGAAATACTATGTAGATTTAGA
-GACAGATAAAGGAGAAGACCGTGTATATCTTAATAAAGAGGTCTATCATAAGTTTGATAA
-AGGTGATGATTTCTCTAATGTAGGTGAGAAAGTGTATAAGAATGATGAATTAATATATAA
-AGGAGACTAACTATGTATTTAAATGATTATGTAGGTAAATTTATAAAGGAAGATAACTAT
-TATGGATATCAATCTACAGACTTAGTATCTAATTATGTTCAACGATTAACTCTAGGTAGG
-TACAAAACTAAGTTAAATGCTAATAAAATGAAATACGAAAGATTACCTAGTTCTTGGAAA
-ATAATTAAAGCCAAAGATTTGTTAAGAACAGATGATTATAGAGAAGGAGATATATTTGTA
-TCAGAAAGAATCTCCGTATTCGGTTTTAATGGTATTATTGTATATAACCATGATTTTAAC
-AATGTAACTGTTATTACTCAAAATAGAGATGGTAAAGCTACTAATCCTGTAGAGGAGCAT
-TTATATCCAAAGAAAGATATTGATTATATTATTAGACCTATCGAGAGGGACTACAGGGAA
-TACTTTAAAAAATCAGATTCAAAAGAAAAAGTTACTCTTTCGAAGCAAGAATATAAAAAA
-TTATTAGAGGCTTATAATAAAATGAAGGAAGTGTTTAAGTAATATGAATAGTACAAAATT
-AGTAGAGTACTTTACAAATAAACAAGGTAAATCTCTAATATTACCTGATGAAAATAAAGT
-TGAGTTATATAGAGTTGATGTAACACCTTATACTATGAGACTTAATTTCACTTACAATAC
-AGAAGTTGTAGCTATAGATATTGATAAGTTACACTCAGATTCTATAGAAATGCATATACC
-ACAAGGTCTTTATATAACAACTGTTGTTAAAATTACTAGTACGCAGAGTATTAGTTCAGT
-TCTTCATAAGGTATTAGAGGAATGGGTAAGACAAGTACAAAATGATGGTATATTCGGATT
-CGTATGGGAGTAATTATAATGATAAGTATAGAACATGATTATACAATAAGAACTGTAGAT
-AATAGAAAATATACTTATTATAGTAAATACGAATCACTAGTTACTTTGTATGAAAATATT
-ATGAGTAAAGATTGTATTGAAGTAACTAAATATGGGAAAGATAAAAAAGTTATTATTGAT
-ACTAGACATATTGTATCTATTGAACGATGGTAAATAATAAGGAGGAGTAAACTATTATGA
-TAAATGCAGGGCATGCTAAGTACCTATCAGAAATTTATGAAGATGATGTACATTATGAAA
-CTATAGATAGTATTGTAGAAGATATACTAGATAATATTAATGATGGTATTATTGAAGAAG
-CTATGAAAGGTAATACAAGTTATCAATATGTTCTTAGAGACTTAAGAGTAGATAATGAAG
-TAGAATATAGAGTTATAGAAGAACTTACTAACCAAGGATATAGTGTAAACCACATTAGTA
-ATGATATAGAGTACCCTTCTATATCTACAAATAATTTAGCAGGGTTAGATTACTTAAATA
-TTAAATGGTAAGGGAGGGAATTAATATGATAAATAAATATAAAAAGTTATGGGATGAAAT
-AACTCAACAAATTGTTAATGTAGAAATTATTAACTTTAAAAATGAAACAGTAACAATAGA
-ATCTACAGATGATTCAGGATTATCAGAGATAAGAGGTTTTGAAGAAGTAGAGTTTATAGA
-TTACTATGGATAAGATGTTTAAAGTATATAATTTATAAGGAGGAAACATATGGACTTGTT
-TGCAAAAATAATTATTATGTCTATAGGAGTTGTTCCCTTGTTAACTATTATTGTTGCACA
-GCTAATTACAGATTACCATGATAATCATTAAGTATTATAGTAATAGGAAGGACAATATTT
-AGAGTGAGAGTATGTTGACTAATGAGGAAGATATAGAATGAGAACCTAACCAAGTAAAAC
-TAAGTACCTTTGTTATGTACTACTATTACTACTACTACTATTACTACTACTATTACTACT
-ACTACTACTACTACTATTACTATTACTACTACTATTACTACTACTAAGTACCTTTGTTAT
-GTACTACTATTACTA
-

--- a/cpt_convert_mga/test-data/ConvMga_In.out	Fri May 20 08:42:49 2022 +0000
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,211 +0,0 @@
-# 01
-# gc = 0.303936, rbs = 0.9375
-# self: b
-gene_1	28	243	+	0	11	6.36358	p	-	-	-
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-gene_3	945	1130	+	0	11	26.4954	a	929	934	16.2941
-gene_4	1237	1527	+	0	11	63.5811	p	1224	1229	14.3502
-gene_5	1527	1814	+	0	11	33.8744	p	1513	1518	13.2667
-gene_6	1814	2107	+	0	11	52.2562	p	1800	1805	15.8863
-gene_7	2111	2368	+	0	11	50.8798	p	2096	2101	15.9853
-gene_8	2446	2685	+	0	11	36.2735	s	2430	2435	10.7912
-gene_9	2696	3043	+	0	11	69.4745	s	2684	2689	15.7116
-gene_10	3252	3590	-	0	11	61.7674	p	3601	3606	0.728011
-gene_11	3901	4209	+	0	11	34.7395	s	3888	3893	-0.104741
-gene_12	4415	4702	+	0	11	46.3413	p	4399	4404	-0.522925
-gene_13	4752	4943	+	0	11	25.5946	p	4737	4742	-0.222928
-gene_14	5260	5748	-	0	11	60.0468	p	5758	5763	15.7116
-gene_15	5916	6074	+	0	11	7.34623	p	5899	5904	0.766797
-gene_16	6144	6275	+	0	11	10.8152	p	6128	6133	0.728011
-gene_17	6443	6766	+	0	11	47.907	p	6427	6432	0.728011
-gene_18	6866	7102	+	0	11	28.7246	p	6850	6855	0.728011
-gene_19	7182	7652	+	0	11	100.397	s	7166	7171	0.728011
-gene_20	7892	8071	+	0	11	32.3826	s	7876	7881	0.728011
-gene_21	8405	8641	-	0	11	56.3171	p	8652	8657	15.4219
-gene_22	8643	9128	-	0	11	103.956	s	9136	9141	18.4273
-gene_23	9141	9548	-	0	11	80.6226	p	9556	9561	18.4273
-gene_24	9548	9979	-	0	11	93.5448	s	9991	9996	15.3253
-gene_25	9982	10173	-	0	11	27.542	p	10181	10186	18.4273
-gene_26	10170	10655	-	0	11	49.9923	p	10662	10667	15.7116
-gene_27	10648	11079	-	0	11	79.9932	s	11087	11092	14.3502
-gene_28	11093	11635	-	0	11	66.0846	p	11642	11647	-2.78976
-gene_29	11647	12135	-	0	11	89.8718	s	12143	12148	14.3502
-gene_30	12148	12546	-	0	11	63.7164	p	12554	12559	12.7215
-gene_31	12543	13250	-	0	11	111.002	s	13258	13263	18.4273
-gene_32	13350	13901	-	0	11	111.317	p	13911	13916	13.3656
-gene_33	13920	14237	-	0	11	51.6242	s	14247	14252	15.9853
-gene_34	15223	15771	-	0	11	87.2276	s	15778	15783	4.63439
-gene_35	15775	15993	-	0	11	50.2172	s	16005	16010	10.6116
-gene_36	15994	16188	-	0	11	44.105	p	16195	16200	10.2405
-gene_37	16178	16915	-	0	11	127.839	s	16924	16929	17.0766
-gene_38	17094	17333	-	0	11	36.3308	p	17342	17347	0.377039
-gene_39	17335	17724	-	0	11	89.7706	s	17735	17740	15.4219
-gene_40	17823	17996	-	0	11	37.5907	p	18007	18012	16.2941
-gene_41	18037	18519	-	0	11	94.8623	p	18527	18532	18.4273
-gene_42	18569	19111	-	0	11	133.042	s	19122	19127	15.4219
-gene_43	19111	19644	-	0	11	109.849	s	19656	19661	14.3502
-gene_44	19647	19811	-	0	11	24.1269	p	19823	19828	14.3502
-gene_45	19814	20089	-	0	11	57.1618	s	20099	20104	10.2405
-gene_46	20089	20934	-	0	11	133.788	s	20942	20947	18.4273
-gene_47	20946	22064	-	0	11	225.008	s	22075	22080	15.4219
-gene_48	22218	22544	-	0	11	45.7619	p	22554	22559	10.2749
-gene_49	22537	22953	-	0	11	93.1622	b	22961	22966	18.4273
-gene_50	23087	23389	-	0	11	82.8253	s	23400	23405	15.4219
-gene_51	23389	23577	-	0	11	45.7175	p	23586	23591	0.377039
-gene_52	23621	23782	-	0	11	42.3377	p	23790	23795	18.4273
-gene_53	23782	25830	-	0	11	332.763	s	25840	25845	15.9853
-gene_54	25908	26171	-	0	11	63.8	p	26179	26184	18.4273
-gene_55	26188	26361	-	0	11	26.0644	p	26372	26377	7.89094
-gene_56	26368	26946	-	0	11	40.4747	b	26953	26958	-3.90026
-gene_57	26939	27565	-	0	11	150.252	s	27575	27580	15.9853
-gene_58	27558	28454	-	0	11	177.87	s	28462	28467	18.4273
-gene_59	28454	28678	-	0	11	27.7492	b	28687	28692	17.0766
-gene_60	28747	29487	-	0	11	105.788	s	29501	29506	-0.296479
-gene_61	29539	30153	-	0	11	137.064	s	30162	30167	15.8863
-gene_62	30169	30678	-	0	11	30.7749	p	-	-	-
-gene_63	30584	30775	-	0	11	31.0006	p	30786	30791	10.5884
-gene_64	30798	31439	-	0	11	115.669	b	31446	31451	10.0059
-gene_65	31429	31659	-	0	11	42.8517	s	31668	31673	13.2667
-gene_66	31662	31889	-	0	11	41.7783	p	31897	31902	18.4273
-gene_67	31999	32691	-	0	11	173.713	s	32702	32707	15.4219
-gene_68	32878	33513	-	0	11	89.781	p	33521	33526	18.4273
-gene_69	33580	34371	-	0	11	170.68	s	34379	34384	14.3502
-gene_70	34371	34679	-	0	11	51.9248	s	34686	34691	15.7116
-gene_71	34792	35421	-	0	11	105.582	s	-	-	-
-gene_72	35692	36192	-	0	11	87.4568	p	36201	36206	15.8863
-gene_73	36352	37155	-	0	11	180.291	s	37166	37171	16.2941
-gene_74	37155	37658	-	0	11	120.398	s	37670	37675	0.766797
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-gene_76	39475	39693	-	0	11	19.2957	p	39705	39710	0.252532
-gene_77	40171	40380	-	0	11	36.8021	p	40390	40395	12.2467
-gene_78	40393	40725	-	0	11	45.2422	p	40735	40740	1.60266
-gene_79	40738	41064	-	0	11	44.717	s	41073	41078	17.0766
-gene_80	41504	41890	+	0	11	54.798	p	41489	41494	15.7116
-gene_81	41868	42146	+	0	11	31.4125	p	41854	41859	0.377039
-gene_82	42143	42553	+	0	11	63.4739	s	42129	42134	-4.20792
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-gene_84	44378	45199	+	0	11	153.371	s	-	-	-
-gene_85	45177	45359	+	0	11	8.64918	b	-	-	-
-gene_86	45356	45835	+	0	11	86.8015	s	45338	45343	-0.222928
-gene_87	45928	47064	+	0	11	237.132	s	-	-	-
-gene_88	47141	47491	+	0	11	24.3307	b	47127	47132	4.66801
-gene_89	47500	47880	+	0	11	51.6497	p	-	-	-
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-gene_91	49769	50542	+	0	11	136.385	s	49752	49757	9.61955
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-gene_97	55225	55845	+	0	11	85.9216	s	55207	55212	7.45431
-gene_98	55864	56700	+	0	11	128.127	p	55847	55852	15.3253
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-gene_154	113853	114080	+	0	11	70.6974	s	113837	113842	16.2941
-gene_155	114176	114436	+	0	11	54.9897	s	114162	114167	17.0766
-gene_156	114440	115195	+	0	11	98.9334	s	-	-	-
-gene_157	115188	116438	+	0	11	235.397	s	115174	115179	0.524595
-gene_158	116452	116820	+	0	11	31.9307	s	116436	116441	-0.198208
-gene_159	116807	117118	+	0	11	65.8932	p	116795	116800	15.7116
-gene_160	117182	117718	+	0	11	84.4833	s	117166	117171	2.18516
-gene_161	117711	118478	+	0	11	94.9641	p	117696	117701	15.9853
-gene_162	118456	118902	+	0	11	50.1785	s	-	-	-
-gene_163	118902	119765	+	0	11	127.299	p	118885	118890	0.766797
-gene_164	120137	120868	+	0	11	162.867	s	120122	120127	15.9853
-gene_165	120886	121344	+	0	11	84.6329	p	120872	120877	-0.830994
-gene_166	121409	121852	+	0	11	86.4653	p	121394	121399	15.9853
-gene_167	121869	122573	+	0	11	128.068	s	121856	121861	10.0241
-gene_168	122635	123033	+	0	11	38.5561	p	122621	122626	2.96764
-gene_169	123180	123422	+	0	11	53.8202	s	123165	123170	15.9853
-gene_170	123427	123591	+	0	11	38.5845	p	123413	123418	15.8863
-gene_171	123578	123757	+	0	11	19.8686	p	-	-	-
-gene_172	123793	123969	+	0	11	46.266	p	123778	123783	15.7116
-gene_173	123962	124126	+	0	11	16.4271	b	123949	123954	11.7305
-gene_174	124375	124494	+	0	11	12.445	p	-	-	-
-gene_175	124509	124628	+	0	11	13.2651	b	124497	124502	8.77418
-gene_176	124640	124816	+	0	11	33.7203	p	124627	124632	14.3502
-gene_177	124809	125105	+	0	11	73.7223	p	124795	124800	15.8863
-gene_178	125153	125335	+	0	11	21.0171	s	125137	125142	7.89094
-gene_179	125348	125716	+	0	11	75.8528	b	125334	125339	17.0766
-gene_180	125729	126076	+	0	11	89.2576	s	125716	125721	18.4273
-gene_181	126076	126354	+	0	11	16.0608	b	-	-	-
-gene_182	126424	126729	+	0	11	52.4215	s	126409	126414	11.7794
-gene_183	126744	127094	+	0	11	73.8799	p	126731	126736	18.4273
-gene_184	127094	127696	+	0	11	97.8033	p	127081	127086	18.4273
-gene_185	127710	127889	+	0	11	44.5511	p	127696	127701	10.1392
-gene_186	128116	128517	+	0	11	69.0757	p	128102	128107	15.8863
-gene_187	128519	128779	+	0	11	32.5682	s	128505	128510	17.0766
-gene_188	128831	129118	+	0	11	56.3442	s	128817	128822	17.0766
-gene_189	129235	129498	+	0	11	52.4949	p	129218	129223	15.3253
-gene_190	129575	129754	+	0	11	31.8781	p	129562	129567	18.4273
-gene_191	129769	130032	+	0	11	59.5097	s	129755	129760	17.0766
-gene_192	130035	130352	+	0	11	72.9264	p	130019	130024	16.2941
-gene_193	130353	130910	+	0	11	97.954	p	130339	130344	17.0766
-gene_194	131122	131280	+	0	11	31.9551	a	131109	131114	18.4273
-gene_195	131315	131515	+	0	11	39.2297	s	131301	131306	15.8863
-gene_196	131516	131806	+	0	11	41.8281	p	131502	131507	11.6055
-gene_197	131898	132206	+	0	11	64.8526	p	131882	131887	15.4219
-gene_198	132203	133111	+	0	11	160.639	s	132186	132191	14.3502
-gene_199	133129	134598	+	0	11	295.577	s	133112	133117	14.3502
-gene_200	134677	134922	+	0	11	42.7425	p	134663	134668	15.8863
-gene_201	134942	135334	+	0	11	88.8849	s	134927	134932	15.9853
-gene_202	135336	135533	+	0	11	55.0569	s	135321	135326	15.9853
-gene_203	135599	135910	+	0	11	70.4734	p	135585	135590	15.8863
-gene_204	135913	136422	+	0	11	81.4458	p	135900	135905	14.3502
-gene_205	136424	136753	+	0	11	44.945	p	136407	136412	-0.442378
-gene_206	136759	136953	+	0	11	31.0427	p	136745	136750	7.63734
-gene_207	136977	137291	+	0	11	79.026	s	136960	136965	15.3253
-gene_208	137306	137473	+	0	11	41.9391	p	137291	137296	11.4748

--- a/cpt_convert_mga/test-data/ConvMga_Out.gff3	Fri May 20 08:42:49 2022 +0000
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,608 +0,0 @@
-##gff-version 3
-01	MGA	gene	28	243	.	+	0	Source=MGA;ID=01.gene_1;
-01	MGA	CDS	28	243	.	+	0	Source=MGA;ID=01.cds_gene_1;Parent=01.gene_1;
-01	MGA	gene	616	929	.	+	0	Source=MGA;ID=01.gene_2;
-01	MGA	CDS	630	929	.	+	0	Source=MGA;ID=01.cds_gene_2;Parent=01.gene_2;
-01	MGA	Shine_Dalgarno_sequence	616	620	.	+	0	ID=01.rbs_gene_2;Source=MGA;Parent=01.gene_2;
-01	MGA	gene	930	1130	.	+	0	Source=MGA;ID=01.gene_3;
-01	MGA	CDS	945	1130	.	+	0	Source=MGA;ID=01.cds_gene_3;Parent=01.gene_3;
-01	MGA	Shine_Dalgarno_sequence	930	934	.	+	0	ID=01.rbs_gene_3;Source=MGA;Parent=01.gene_3;
-01	MGA	gene	1225	1527	.	+	0	Source=MGA;ID=01.gene_4;
-01	MGA	CDS	1237	1527	.	+	0	Source=MGA;ID=01.cds_gene_4;Parent=01.gene_4;
-01	MGA	Shine_Dalgarno_sequence	1225	1229	.	+	0	ID=01.rbs_gene_4;Source=MGA;Parent=01.gene_4;
-01	MGA	gene	1514	1814	.	+	0	Source=MGA;ID=01.gene_5;
-01	MGA	CDS	1527	1814	.	+	0	Source=MGA;ID=01.cds_gene_5;Parent=01.gene_5;
-01	MGA	Shine_Dalgarno_sequence	1514	1518	.	+	0	ID=01.rbs_gene_5;Source=MGA;Parent=01.gene_5;
-01	MGA	gene	1801	2107	.	+	0	Source=MGA;ID=01.gene_6;
-01	MGA	CDS	1814	2107	.	+	0	Source=MGA;ID=01.cds_gene_6;Parent=01.gene_6;
-01	MGA	Shine_Dalgarno_sequence	1801	1805	.	+	0	ID=01.rbs_gene_6;Source=MGA;Parent=01.gene_6;
-01	MGA	gene	2097	2368	.	+	0	Source=MGA;ID=01.gene_7;
-01	MGA	CDS	2111	2368	.	+	0	Source=MGA;ID=01.cds_gene_7;Parent=01.gene_7;
-01	MGA	Shine_Dalgarno_sequence	2097	2101	.	+	0	ID=01.rbs_gene_7;Source=MGA;Parent=01.gene_7;
-01	MGA	gene	2431	2685	.	+	0	Source=MGA;ID=01.gene_8;
-01	MGA	CDS	2446	2685	.	+	0	Source=MGA;ID=01.cds_gene_8;Parent=01.gene_8;
-01	MGA	Shine_Dalgarno_sequence	2431	2435	.	+	0	ID=01.rbs_gene_8;Source=MGA;Parent=01.gene_8;
-01	MGA	gene	2685	3043	.	+	0	Source=MGA;ID=01.gene_9;
-01	MGA	CDS	2696	3043	.	+	0	Source=MGA;ID=01.cds_gene_9;Parent=01.gene_9;
-01	MGA	Shine_Dalgarno_sequence	2685	2689	.	+	0	ID=01.rbs_gene_9;Source=MGA;Parent=01.gene_9;
-01	MGA	gene	3252	3606	.	-	0	Source=MGA;ID=01.gene_10;
-01	MGA	CDS	3252	3590	.	-	0	Source=MGA;ID=01.cds_gene_10;Parent=01.gene_10;
-01	MGA	Shine_Dalgarno_sequence	3602	3606	.	-	0	ID=01.rbs_gene_10;Source=MGA;Parent=01.gene_10;
-01	MGA	gene	3889	4209	.	+	0	Source=MGA;ID=01.gene_11;
-01	MGA	CDS	3901	4209	.	+	0	Source=MGA;ID=01.cds_gene_11;Parent=01.gene_11;
-01	MGA	Shine_Dalgarno_sequence	3889	3893	.	+	0	ID=01.rbs_gene_11;Source=MGA;Parent=01.gene_11;
-01	MGA	gene	4400	4702	.	+	0	Source=MGA;ID=01.gene_12;
-01	MGA	CDS	4415	4702	.	+	0	Source=MGA;ID=01.cds_gene_12;Parent=01.gene_12;
-01	MGA	Shine_Dalgarno_sequence	4400	4404	.	+	0	ID=01.rbs_gene_12;Source=MGA;Parent=01.gene_12;
-01	MGA	gene	4738	4943	.	+	0	Source=MGA;ID=01.gene_13;
-01	MGA	CDS	4752	4943	.	+	0	Source=MGA;ID=01.cds_gene_13;Parent=01.gene_13;
-01	MGA	Shine_Dalgarno_sequence	4738	4742	.	+	0	ID=01.rbs_gene_13;Source=MGA;Parent=01.gene_13;
-01	MGA	gene	5260	5763	.	-	0	Source=MGA;ID=01.gene_14;
-01	MGA	CDS	5260	5748	.	-	0	Source=MGA;ID=01.cds_gene_14;Parent=01.gene_14;
-01	MGA	Shine_Dalgarno_sequence	5759	5763	.	-	0	ID=01.rbs_gene_14;Source=MGA;Parent=01.gene_14;
-01	MGA	gene	5900	6074	.	+	0	Source=MGA;ID=01.gene_15;
-01	MGA	CDS	5916	6074	.	+	0	Source=MGA;ID=01.cds_gene_15;Parent=01.gene_15;
-01	MGA	Shine_Dalgarno_sequence	5900	5904	.	+	0	ID=01.rbs_gene_15;Source=MGA;Parent=01.gene_15;
-01	MGA	gene	6129	6275	.	+	0	Source=MGA;ID=01.gene_16;
-01	MGA	CDS	6144	6275	.	+	0	Source=MGA;ID=01.cds_gene_16;Parent=01.gene_16;
-01	MGA	Shine_Dalgarno_sequence	6129	6133	.	+	0	ID=01.rbs_gene_16;Source=MGA;Parent=01.gene_16;
-01	MGA	gene	6428	6766	.	+	0	Source=MGA;ID=01.gene_17;
-01	MGA	CDS	6443	6766	.	+	0	Source=MGA;ID=01.cds_gene_17;Parent=01.gene_17;
-01	MGA	Shine_Dalgarno_sequence	6428	6432	.	+	0	ID=01.rbs_gene_17;Source=MGA;Parent=01.gene_17;
-01	MGA	gene	6851	7102	.	+	0	Source=MGA;ID=01.gene_18;
-01	MGA	CDS	6866	7102	.	+	0	Source=MGA;ID=01.cds_gene_18;Parent=01.gene_18;
-01	MGA	Shine_Dalgarno_sequence	6851	6855	.	+	0	ID=01.rbs_gene_18;Source=MGA;Parent=01.gene_18;
-01	MGA	gene	7167	7652	.	+	0	Source=MGA;ID=01.gene_19;
-01	MGA	CDS	7182	7652	.	+	0	Source=MGA;ID=01.cds_gene_19;Parent=01.gene_19;
-01	MGA	Shine_Dalgarno_sequence	7167	7171	.	+	0	ID=01.rbs_gene_19;Source=MGA;Parent=01.gene_19;
-01	MGA	gene	7877	8071	.	+	0	Source=MGA;ID=01.gene_20;
-01	MGA	CDS	7892	8071	.	+	0	Source=MGA;ID=01.cds_gene_20;Parent=01.gene_20;
-01	MGA	Shine_Dalgarno_sequence	7877	7881	.	+	0	ID=01.rbs_gene_20;Source=MGA;Parent=01.gene_20;
-01	MGA	gene	8405	8657	.	-	0	Source=MGA;ID=01.gene_21;
-01	MGA	CDS	8405	8641	.	-	0	Source=MGA;ID=01.cds_gene_21;Parent=01.gene_21;
-01	MGA	Shine_Dalgarno_sequence	8653	8657	.	-	0	ID=01.rbs_gene_21;Source=MGA;Parent=01.gene_21;
-01	MGA	gene	8643	9141	.	-	0	Source=MGA;ID=01.gene_22;
-01	MGA	CDS	8643	9128	.	-	0	Source=MGA;ID=01.cds_gene_22;Parent=01.gene_22;
-01	MGA	Shine_Dalgarno_sequence	9137	9141	.	-	0	ID=01.rbs_gene_22;Source=MGA;Parent=01.gene_22;
-01	MGA	gene	9141	9561	.	-	0	Source=MGA;ID=01.gene_23;
-01	MGA	CDS	9141	9548	.	-	0	Source=MGA;ID=01.cds_gene_23;Parent=01.gene_23;
-01	MGA	Shine_Dalgarno_sequence	9557	9561	.	-	0	ID=01.rbs_gene_23;Source=MGA;Parent=01.gene_23;
-01	MGA	gene	9548	9996	.	-	0	Source=MGA;ID=01.gene_24;
-01	MGA	CDS	9548	9979	.	-	0	Source=MGA;ID=01.cds_gene_24;Parent=01.gene_24;
-01	MGA	Shine_Dalgarno_sequence	9992	9996	.	-	0	ID=01.rbs_gene_24;Source=MGA;Parent=01.gene_24;
-01	MGA	gene	9982	10186	.	-	0	Source=MGA;ID=01.gene_25;
-01	MGA	CDS	9982	10173	.	-	0	Source=MGA;ID=01.cds_gene_25;Parent=01.gene_25;
-01	MGA	Shine_Dalgarno_sequence	10182	10186	.	-	0	ID=01.rbs_gene_25;Source=MGA;Parent=01.gene_25;
-01	MGA	gene	10170	10667	.	-	0	Source=MGA;ID=01.gene_26;
-01	MGA	CDS	10170	10655	.	-	0	Source=MGA;ID=01.cds_gene_26;Parent=01.gene_26;
-01	MGA	Shine_Dalgarno_sequence	10663	10667	.	-	0	ID=01.rbs_gene_26;Source=MGA;Parent=01.gene_26;
-01	MGA	gene	10648	11092	.	-	0	Source=MGA;ID=01.gene_27;
-01	MGA	CDS	10648	11079	.	-	0	Source=MGA;ID=01.cds_gene_27;Parent=01.gene_27;
-01	MGA	Shine_Dalgarno_sequence	11088	11092	.	-	0	ID=01.rbs_gene_27;Source=MGA;Parent=01.gene_27;
-01	MGA	gene	11093	11647	.	-	0	Source=MGA;ID=01.gene_28;
-01	MGA	CDS	11093	11635	.	-	0	Source=MGA;ID=01.cds_gene_28;Parent=01.gene_28;
-01	MGA	Shine_Dalgarno_sequence	11643	11647	.	-	0	ID=01.rbs_gene_28;Source=MGA;Parent=01.gene_28;
-01	MGA	gene	11647	12148	.	-	0	Source=MGA;ID=01.gene_29;
-01	MGA	CDS	11647	12135	.	-	0	Source=MGA;ID=01.cds_gene_29;Parent=01.gene_29;
-01	MGA	Shine_Dalgarno_sequence	12144	12148	.	-	0	ID=01.rbs_gene_29;Source=MGA;Parent=01.gene_29;
-01	MGA	gene	12148	12559	.	-	0	Source=MGA;ID=01.gene_30;
-01	MGA	CDS	12148	12546	.	-	0	Source=MGA;ID=01.cds_gene_30;Parent=01.gene_30;
-01	MGA	Shine_Dalgarno_sequence	12555	12559	.	-	0	ID=01.rbs_gene_30;Source=MGA;Parent=01.gene_30;
-01	MGA	gene	12543	13263	.	-	0	Source=MGA;ID=01.gene_31;
-01	MGA	CDS	12543	13250	.	-	0	Source=MGA;ID=01.cds_gene_31;Parent=01.gene_31;
-01	MGA	Shine_Dalgarno_sequence	13259	13263	.	-	0	ID=01.rbs_gene_31;Source=MGA;Parent=01.gene_31;
-01	MGA	gene	13350	13916	.	-	0	Source=MGA;ID=01.gene_32;
-01	MGA	CDS	13350	13901	.	-	0	Source=MGA;ID=01.cds_gene_32;Parent=01.gene_32;
-01	MGA	Shine_Dalgarno_sequence	13912	13916	.	-	0	ID=01.rbs_gene_32;Source=MGA;Parent=01.gene_32;
-01	MGA	gene	13920	14252	.	-	0	Source=MGA;ID=01.gene_33;
-01	MGA	CDS	13920	14237	.	-	0	Source=MGA;ID=01.cds_gene_33;Parent=01.gene_33;
-01	MGA	Shine_Dalgarno_sequence	14248	14252	.	-	0	ID=01.rbs_gene_33;Source=MGA;Parent=01.gene_33;
-01	MGA	gene	15223	15783	.	-	0	Source=MGA;ID=01.gene_34;
-01	MGA	CDS	15223	15771	.	-	0	Source=MGA;ID=01.cds_gene_34;Parent=01.gene_34;
-01	MGA	Shine_Dalgarno_sequence	15779	15783	.	-	0	ID=01.rbs_gene_34;Source=MGA;Parent=01.gene_34;
-01	MGA	gene	15775	16010	.	-	0	Source=MGA;ID=01.gene_35;
-01	MGA	CDS	15775	15993	.	-	0	Source=MGA;ID=01.cds_gene_35;Parent=01.gene_35;
-01	MGA	Shine_Dalgarno_sequence	16006	16010	.	-	0	ID=01.rbs_gene_35;Source=MGA;Parent=01.gene_35;
-01	MGA	gene	15994	16200	.	-	0	Source=MGA;ID=01.gene_36;
-01	MGA	CDS	15994	16188	.	-	0	Source=MGA;ID=01.cds_gene_36;Parent=01.gene_36;
-01	MGA	Shine_Dalgarno_sequence	16196	16200	.	-	0	ID=01.rbs_gene_36;Source=MGA;Parent=01.gene_36;
-01	MGA	gene	16178	16929	.	-	0	Source=MGA;ID=01.gene_37;
-01	MGA	CDS	16178	16915	.	-	0	Source=MGA;ID=01.cds_gene_37;Parent=01.gene_37;
-01	MGA	Shine_Dalgarno_sequence	16925	16929	.	-	0	ID=01.rbs_gene_37;Source=MGA;Parent=01.gene_37;
-01	MGA	gene	17094	17347	.	-	0	Source=MGA;ID=01.gene_38;
-01	MGA	CDS	17094	17333	.	-	0	Source=MGA;ID=01.cds_gene_38;Parent=01.gene_38;
-01	MGA	Shine_Dalgarno_sequence	17343	17347	.	-	0	ID=01.rbs_gene_38;Source=MGA;Parent=01.gene_38;
-01	MGA	gene	17335	17740	.	-	0	Source=MGA;ID=01.gene_39;
-01	MGA	CDS	17335	17724	.	-	0	Source=MGA;ID=01.cds_gene_39;Parent=01.gene_39;
-01	MGA	Shine_Dalgarno_sequence	17736	17740	.	-	0	ID=01.rbs_gene_39;Source=MGA;Parent=01.gene_39;
-01	MGA	gene	17823	18012	.	-	0	Source=MGA;ID=01.gene_40;
-01	MGA	CDS	17823	17996	.	-	0	Source=MGA;ID=01.cds_gene_40;Parent=01.gene_40;
-01	MGA	Shine_Dalgarno_sequence	18008	18012	.	-	0	ID=01.rbs_gene_40;Source=MGA;Parent=01.gene_40;
-01	MGA	gene	18037	18532	.	-	0	Source=MGA;ID=01.gene_41;
-01	MGA	CDS	18037	18519	.	-	0	Source=MGA;ID=01.cds_gene_41;Parent=01.gene_41;
-01	MGA	Shine_Dalgarno_sequence	18528	18532	.	-	0	ID=01.rbs_gene_41;Source=MGA;Parent=01.gene_41;
-01	MGA	gene	18569	19127	.	-	0	Source=MGA;ID=01.gene_42;
-01	MGA	CDS	18569	19111	.	-	0	Source=MGA;ID=01.cds_gene_42;Parent=01.gene_42;
-01	MGA	Shine_Dalgarno_sequence	19123	19127	.	-	0	ID=01.rbs_gene_42;Source=MGA;Parent=01.gene_42;
-01	MGA	gene	19111	19661	.	-	0	Source=MGA;ID=01.gene_43;
-01	MGA	CDS	19111	19644	.	-	0	Source=MGA;ID=01.cds_gene_43;Parent=01.gene_43;
-01	MGA	Shine_Dalgarno_sequence	19657	19661	.	-	0	ID=01.rbs_gene_43;Source=MGA;Parent=01.gene_43;
-01	MGA	gene	19647	19828	.	-	0	Source=MGA;ID=01.gene_44;
-01	MGA	CDS	19647	19811	.	-	0	Source=MGA;ID=01.cds_gene_44;Parent=01.gene_44;
-01	MGA	Shine_Dalgarno_sequence	19824	19828	.	-	0	ID=01.rbs_gene_44;Source=MGA;Parent=01.gene_44;
-01	MGA	gene	19814	20104	.	-	0	Source=MGA;ID=01.gene_45;
-01	MGA	CDS	19814	20089	.	-	0	Source=MGA;ID=01.cds_gene_45;Parent=01.gene_45;
-01	MGA	Shine_Dalgarno_sequence	20100	20104	.	-	0	ID=01.rbs_gene_45;Source=MGA;Parent=01.gene_45;
-01	MGA	gene	20089	20947	.	-	0	Source=MGA;ID=01.gene_46;
-01	MGA	CDS	20089	20934	.	-	0	Source=MGA;ID=01.cds_gene_46;Parent=01.gene_46;
-01	MGA	Shine_Dalgarno_sequence	20943	20947	.	-	0	ID=01.rbs_gene_46;Source=MGA;Parent=01.gene_46;
-01	MGA	gene	20946	22080	.	-	0	Source=MGA;ID=01.gene_47;
-01	MGA	CDS	20946	22064	.	-	0	Source=MGA;ID=01.cds_gene_47;Parent=01.gene_47;
-01	MGA	Shine_Dalgarno_sequence	22076	22080	.	-	0	ID=01.rbs_gene_47;Source=MGA;Parent=01.gene_47;
-01	MGA	gene	22218	22559	.	-	0	Source=MGA;ID=01.gene_48;
-01	MGA	CDS	22218	22544	.	-	0	Source=MGA;ID=01.cds_gene_48;Parent=01.gene_48;
-01	MGA	Shine_Dalgarno_sequence	22555	22559	.	-	0	ID=01.rbs_gene_48;Source=MGA;Parent=01.gene_48;
-01	MGA	gene	22537	22966	.	-	0	Source=MGA;ID=01.gene_49;
-01	MGA	CDS	22537	22953	.	-	0	Source=MGA;ID=01.cds_gene_49;Parent=01.gene_49;
-01	MGA	Shine_Dalgarno_sequence	22962	22966	.	-	0	ID=01.rbs_gene_49;Source=MGA;Parent=01.gene_49;
-01	MGA	gene	23087	23405	.	-	0	Source=MGA;ID=01.gene_50;
-01	MGA	CDS	23087	23389	.	-	0	Source=MGA;ID=01.cds_gene_50;Parent=01.gene_50;
-01	MGA	Shine_Dalgarno_sequence	23401	23405	.	-	0	ID=01.rbs_gene_50;Source=MGA;Parent=01.gene_50;
-01	MGA	gene	23389	23591	.	-	0	Source=MGA;ID=01.gene_51;
-01	MGA	CDS	23389	23577	.	-	0	Source=MGA;ID=01.cds_gene_51;Parent=01.gene_51;
-01	MGA	Shine_Dalgarno_sequence	23587	23591	.	-	0	ID=01.rbs_gene_51;Source=MGA;Parent=01.gene_51;
-01	MGA	gene	23621	23795	.	-	0	Source=MGA;ID=01.gene_52;
-01	MGA	CDS	23621	23782	.	-	0	Source=MGA;ID=01.cds_gene_52;Parent=01.gene_52;
-01	MGA	Shine_Dalgarno_sequence	23791	23795	.	-	0	ID=01.rbs_gene_52;Source=MGA;Parent=01.gene_52;
-01	MGA	gene	23782	25845	.	-	0	Source=MGA;ID=01.gene_53;
-01	MGA	CDS	23782	25830	.	-	0	Source=MGA;ID=01.cds_gene_53;Parent=01.gene_53;
-01	MGA	Shine_Dalgarno_sequence	25841	25845	.	-	0	ID=01.rbs_gene_53;Source=MGA;Parent=01.gene_53;
-01	MGA	gene	25908	26184	.	-	0	Source=MGA;ID=01.gene_54;
-01	MGA	CDS	25908	26171	.	-	0	Source=MGA;ID=01.cds_gene_54;Parent=01.gene_54;
-01	MGA	Shine_Dalgarno_sequence	26180	26184	.	-	0	ID=01.rbs_gene_54;Source=MGA;Parent=01.gene_54;
-01	MGA	gene	26188	26377	.	-	0	Source=MGA;ID=01.gene_55;
-01	MGA	CDS	26188	26361	.	-	0	Source=MGA;ID=01.cds_gene_55;Parent=01.gene_55;
-01	MGA	Shine_Dalgarno_sequence	26373	26377	.	-	0	ID=01.rbs_gene_55;Source=MGA;Parent=01.gene_55;
-01	MGA	gene	26368	26958	.	-	0	Source=MGA;ID=01.gene_56;
-01	MGA	CDS	26368	26946	.	-	0	Source=MGA;ID=01.cds_gene_56;Parent=01.gene_56;
-01	MGA	Shine_Dalgarno_sequence	26954	26958	.	-	0	ID=01.rbs_gene_56;Source=MGA;Parent=01.gene_56;
-01	MGA	gene	26939	27580	.	-	0	Source=MGA;ID=01.gene_57;
-01	MGA	CDS	26939	27565	.	-	0	Source=MGA;ID=01.cds_gene_57;Parent=01.gene_57;
-01	MGA	Shine_Dalgarno_sequence	27576	27580	.	-	0	ID=01.rbs_gene_57;Source=MGA;Parent=01.gene_57;
-01	MGA	gene	27558	28467	.	-	0	Source=MGA;ID=01.gene_58;
-01	MGA	CDS	27558	28454	.	-	0	Source=MGA;ID=01.cds_gene_58;Parent=01.gene_58;
-01	MGA	Shine_Dalgarno_sequence	28463	28467	.	-	0	ID=01.rbs_gene_58;Source=MGA;Parent=01.gene_58;
-01	MGA	gene	28454	28692	.	-	0	Source=MGA;ID=01.gene_59;
-01	MGA	CDS	28454	28678	.	-	0	Source=MGA;ID=01.cds_gene_59;Parent=01.gene_59;
-01	MGA	Shine_Dalgarno_sequence	28688	28692	.	-	0	ID=01.rbs_gene_59;Source=MGA;Parent=01.gene_59;
-01	MGA	gene	28747	29506	.	-	0	Source=MGA;ID=01.gene_60;
-01	MGA	CDS	28747	29487	.	-	0	Source=MGA;ID=01.cds_gene_60;Parent=01.gene_60;
-01	MGA	Shine_Dalgarno_sequence	29502	29506	.	-	0	ID=01.rbs_gene_60;Source=MGA;Parent=01.gene_60;
-01	MGA	gene	29539	30167	.	-	0	Source=MGA;ID=01.gene_61;
-01	MGA	CDS	29539	30153	.	-	0	Source=MGA;ID=01.cds_gene_61;Parent=01.gene_61;
-01	MGA	Shine_Dalgarno_sequence	30163	30167	.	-	0	ID=01.rbs_gene_61;Source=MGA;Parent=01.gene_61;
-01	MGA	gene	30169	30678	.	-	0	Source=MGA;ID=01.gene_62;
-01	MGA	CDS	30169	30678	.	-	0	Source=MGA;ID=01.cds_gene_62;Parent=01.gene_62;
-01	MGA	gene	30584	30791	.	-	0	Source=MGA;ID=01.gene_63;
-01	MGA	CDS	30584	30775	.	-	0	Source=MGA;ID=01.cds_gene_63;Parent=01.gene_63;
-01	MGA	Shine_Dalgarno_sequence	30787	30791	.	-	0	ID=01.rbs_gene_63;Source=MGA;Parent=01.gene_63;
-01	MGA	gene	30798	31451	.	-	0	Source=MGA;ID=01.gene_64;
-01	MGA	CDS	30798	31439	.	-	0	Source=MGA;ID=01.cds_gene_64;Parent=01.gene_64;
-01	MGA	Shine_Dalgarno_sequence	31447	31451	.	-	0	ID=01.rbs_gene_64;Source=MGA;Parent=01.gene_64;
-01	MGA	gene	31429	31673	.	-	0	Source=MGA;ID=01.gene_65;
-01	MGA	CDS	31429	31659	.	-	0	Source=MGA;ID=01.cds_gene_65;Parent=01.gene_65;
-01	MGA	Shine_Dalgarno_sequence	31669	31673	.	-	0	ID=01.rbs_gene_65;Source=MGA;Parent=01.gene_65;
-01	MGA	gene	31662	31902	.	-	0	Source=MGA;ID=01.gene_66;
-01	MGA	CDS	31662	31889	.	-	0	Source=MGA;ID=01.cds_gene_66;Parent=01.gene_66;
-01	MGA	Shine_Dalgarno_sequence	31898	31902	.	-	0	ID=01.rbs_gene_66;Source=MGA;Parent=01.gene_66;
-01	MGA	gene	31999	32707	.	-	0	Source=MGA;ID=01.gene_67;
-01	MGA	CDS	31999	32691	.	-	0	Source=MGA;ID=01.cds_gene_67;Parent=01.gene_67;
-01	MGA	Shine_Dalgarno_sequence	32703	32707	.	-	0	ID=01.rbs_gene_67;Source=MGA;Parent=01.gene_67;
-01	MGA	gene	32878	33526	.	-	0	Source=MGA;ID=01.gene_68;
-01	MGA	CDS	32878	33513	.	-	0	Source=MGA;ID=01.cds_gene_68;Parent=01.gene_68;
-01	MGA	Shine_Dalgarno_sequence	33522	33526	.	-	0	ID=01.rbs_gene_68;Source=MGA;Parent=01.gene_68;
-01	MGA	gene	33580	34384	.	-	0	Source=MGA;ID=01.gene_69;
-01	MGA	CDS	33580	34371	.	-	0	Source=MGA;ID=01.cds_gene_69;Parent=01.gene_69;
-01	MGA	Shine_Dalgarno_sequence	34380	34384	.	-	0	ID=01.rbs_gene_69;Source=MGA;Parent=01.gene_69;
-01	MGA	gene	34371	34691	.	-	0	Source=MGA;ID=01.gene_70;
-01	MGA	CDS	34371	34679	.	-	0	Source=MGA;ID=01.cds_gene_70;Parent=01.gene_70;
-01	MGA	Shine_Dalgarno_sequence	34687	34691	.	-	0	ID=01.rbs_gene_70;Source=MGA;Parent=01.gene_70;
-01	MGA	gene	34792	35421	.	-	0	Source=MGA;ID=01.gene_71;
-01	MGA	CDS	34792	35421	.	-	0	Source=MGA;ID=01.cds_gene_71;Parent=01.gene_71;
-01	MGA	gene	35692	36206	.	-	0	Source=MGA;ID=01.gene_72;
-01	MGA	CDS	35692	36192	.	-	0	Source=MGA;ID=01.cds_gene_72;Parent=01.gene_72;
-01	MGA	Shine_Dalgarno_sequence	36202	36206	.	-	0	ID=01.rbs_gene_72;Source=MGA;Parent=01.gene_72;
-01	MGA	gene	36352	37171	.	-	0	Source=MGA;ID=01.gene_73;
-01	MGA	CDS	36352	37155	.	-	0	Source=MGA;ID=01.cds_gene_73;Parent=01.gene_73;
-01	MGA	Shine_Dalgarno_sequence	37167	37171	.	-	0	ID=01.rbs_gene_73;Source=MGA;Parent=01.gene_73;
-01	MGA	gene	37155	37675	.	-	0	Source=MGA;ID=01.gene_74;
-01	MGA	CDS	37155	37658	.	-	0	Source=MGA;ID=01.cds_gene_74;Parent=01.gene_74;
-01	MGA	Shine_Dalgarno_sequence	37671	37675	.	-	0	ID=01.rbs_gene_74;Source=MGA;Parent=01.gene_74;
-01	MGA	gene	37743	37942	.	-	0	Source=MGA;ID=01.gene_75;
-01	MGA	CDS	37743	37928	.	-	0	Source=MGA;ID=01.cds_gene_75;Parent=01.gene_75;
-01	MGA	Shine_Dalgarno_sequence	37938	37942	.	-	0	ID=01.rbs_gene_75;Source=MGA;Parent=01.gene_75;
-01	MGA	gene	39475	39710	.	-	0	Source=MGA;ID=01.gene_76;
-01	MGA	CDS	39475	39693	.	-	0	Source=MGA;ID=01.cds_gene_76;Parent=01.gene_76;
-01	MGA	Shine_Dalgarno_sequence	39706	39710	.	-	0	ID=01.rbs_gene_76;Source=MGA;Parent=01.gene_76;
-01	MGA	gene	40171	40395	.	-	0	Source=MGA;ID=01.gene_77;
-01	MGA	CDS	40171	40380	.	-	0	Source=MGA;ID=01.cds_gene_77;Parent=01.gene_77;
-01	MGA	Shine_Dalgarno_sequence	40391	40395	.	-	0	ID=01.rbs_gene_77;Source=MGA;Parent=01.gene_77;
-01	MGA	gene	40393	40740	.	-	0	Source=MGA;ID=01.gene_78;
-01	MGA	CDS	40393	40725	.	-	0	Source=MGA;ID=01.cds_gene_78;Parent=01.gene_78;
-01	MGA	Shine_Dalgarno_sequence	40736	40740	.	-	0	ID=01.rbs_gene_78;Source=MGA;Parent=01.gene_78;
-01	MGA	gene	40738	41078	.	-	0	Source=MGA;ID=01.gene_79;
-01	MGA	CDS	40738	41064	.	-	0	Source=MGA;ID=01.cds_gene_79;Parent=01.gene_79;
-01	MGA	Shine_Dalgarno_sequence	41074	41078	.	-	0	ID=01.rbs_gene_79;Source=MGA;Parent=01.gene_79;
-01	MGA	gene	41490	41890	.	+	0	Source=MGA;ID=01.gene_80;
-01	MGA	CDS	41504	41890	.	+	0	Source=MGA;ID=01.cds_gene_80;Parent=01.gene_80;
-01	MGA	Shine_Dalgarno_sequence	41490	41494	.	+	0	ID=01.rbs_gene_80;Source=MGA;Parent=01.gene_80;
-01	MGA	gene	41855	42146	.	+	0	Source=MGA;ID=01.gene_81;
-01	MGA	CDS	41868	42146	.	+	0	Source=MGA;ID=01.cds_gene_81;Parent=01.gene_81;
-01	MGA	Shine_Dalgarno_sequence	41855	41859	.	+	0	ID=01.rbs_gene_81;Source=MGA;Parent=01.gene_81;
-01	MGA	gene	42130	42553	.	+	0	Source=MGA;ID=01.gene_82;
-01	MGA	CDS	42143	42553	.	+	0	Source=MGA;ID=01.cds_gene_82;Parent=01.gene_82;
-01	MGA	Shine_Dalgarno_sequence	42130	42134	.	+	0	ID=01.rbs_gene_82;Source=MGA;Parent=01.gene_82;
-01	MGA	gene	42553	44385	.	+	0	Source=MGA;ID=01.gene_83;
-01	MGA	CDS	42568	44385	.	+	0	Source=MGA;ID=01.cds_gene_83;Parent=01.gene_83;
-01	MGA	Shine_Dalgarno_sequence	42553	42557	.	+	0	ID=01.rbs_gene_83;Source=MGA;Parent=01.gene_83;
-01	MGA	gene	44378	45199	.	+	0	Source=MGA;ID=01.gene_84;
-01	MGA	CDS	44378	45199	.	+	0	Source=MGA;ID=01.cds_gene_84;Parent=01.gene_84;
-01	MGA	gene	45177	45359	.	+	0	Source=MGA;ID=01.gene_85;
-01	MGA	CDS	45177	45359	.	+	0	Source=MGA;ID=01.cds_gene_85;Parent=01.gene_85;
-01	MGA	gene	45339	45835	.	+	0	Source=MGA;ID=01.gene_86;
-01	MGA	CDS	45356	45835	.	+	0	Source=MGA;ID=01.cds_gene_86;Parent=01.gene_86;
-01	MGA	Shine_Dalgarno_sequence	45339	45343	.	+	0	ID=01.rbs_gene_86;Source=MGA;Parent=01.gene_86;
-01	MGA	gene	45928	47064	.	+	0	Source=MGA;ID=01.gene_87;
-01	MGA	CDS	45928	47064	.	+	0	Source=MGA;ID=01.cds_gene_87;Parent=01.gene_87;
-01	MGA	gene	47128	47491	.	+	0	Source=MGA;ID=01.gene_88;
-01	MGA	CDS	47141	47491	.	+	0	Source=MGA;ID=01.cds_gene_88;Parent=01.gene_88;
-01	MGA	Shine_Dalgarno_sequence	47128	47132	.	+	0	ID=01.rbs_gene_88;Source=MGA;Parent=01.gene_88;
-01	MGA	gene	47500	47880	.	+	0	Source=MGA;ID=01.gene_89;
-01	MGA	CDS	47500	47880	.	+	0	Source=MGA;ID=01.cds_gene_89;Parent=01.gene_89;
-01	MGA	gene	47869	49575	.	+	0	Source=MGA;ID=01.gene_90;
-01	MGA	CDS	47884	49575	.	+	0	Source=MGA;ID=01.cds_gene_90;Parent=01.gene_90;
-01	MGA	Shine_Dalgarno_sequence	47869	47873	.	+	0	ID=01.rbs_gene_90;Source=MGA;Parent=01.gene_90;
-01	MGA	gene	49753	50542	.	+	0	Source=MGA;ID=01.gene_91;
-01	MGA	CDS	49769	50542	.	+	0	Source=MGA;ID=01.cds_gene_91;Parent=01.gene_91;
-01	MGA	Shine_Dalgarno_sequence	49753	49757	.	+	0	ID=01.rbs_gene_91;Source=MGA;Parent=01.gene_91;
-01	MGA	gene	50546	51517	.	+	0	Source=MGA;ID=01.gene_92;
-01	MGA	CDS	50561	51517	.	+	0	Source=MGA;ID=01.cds_gene_92;Parent=01.gene_92;
-01	MGA	Shine_Dalgarno_sequence	50546	50550	.	+	0	ID=01.rbs_gene_92;Source=MGA;Parent=01.gene_92;
-01	MGA	gene	51616	53024	.	+	0	Source=MGA;ID=01.gene_93;
-01	MGA	CDS	51633	53024	.	+	0	Source=MGA;ID=01.cds_gene_93;Parent=01.gene_93;
-01	MGA	Shine_Dalgarno_sequence	51616	51620	.	+	0	ID=01.rbs_gene_93;Source=MGA;Parent=01.gene_93;
-01	MGA	gene	53100	53412	.	+	0	Source=MGA;ID=01.gene_94;
-01	MGA	CDS	53116	53412	.	+	0	Source=MGA;ID=01.cds_gene_94;Parent=01.gene_94;
-01	MGA	Shine_Dalgarno_sequence	53100	53104	.	+	0	ID=01.rbs_gene_94;Source=MGA;Parent=01.gene_94;
-01	MGA	gene	53425	54333	.	+	0	Source=MGA;ID=01.gene_95;
-01	MGA	CDS	53425	54333	.	+	0	Source=MGA;ID=01.cds_gene_95;Parent=01.gene_95;
-01	MGA	gene	54334	55225	.	+	0	Source=MGA;ID=01.gene_96;
-01	MGA	CDS	54347	55225	.	+	0	Source=MGA;ID=01.cds_gene_96;Parent=01.gene_96;
-01	MGA	Shine_Dalgarno_sequence	54334	54338	.	+	0	ID=01.rbs_gene_96;Source=MGA;Parent=01.gene_96;
-01	MGA	gene	55208	55845	.	+	0	Source=MGA;ID=01.gene_97;
-01	MGA	CDS	55225	55845	.	+	0	Source=MGA;ID=01.cds_gene_97;Parent=01.gene_97;
-01	MGA	Shine_Dalgarno_sequence	55208	55212	.	+	0	ID=01.rbs_gene_97;Source=MGA;Parent=01.gene_97;
-01	MGA	gene	55848	56700	.	+	0	Source=MGA;ID=01.gene_98;
-01	MGA	CDS	55864	56700	.	+	0	Source=MGA;ID=01.cds_gene_98;Parent=01.gene_98;
-01	MGA	Shine_Dalgarno_sequence	55848	55852	.	+	0	ID=01.rbs_gene_98;Source=MGA;Parent=01.gene_98;
-01	MGA	gene	56686	56917	.	+	0	Source=MGA;ID=01.gene_99;
-01	MGA	CDS	56702	56917	.	+	0	Source=MGA;ID=01.cds_gene_99;Parent=01.gene_99;
-01	MGA	Shine_Dalgarno_sequence	56686	56690	.	+	0	ID=01.rbs_gene_99;Source=MGA;Parent=01.gene_99;
-01	MGA	gene	56931	58707	.	+	0	Source=MGA;ID=01.gene_100;
-01	MGA	CDS	56944	58707	.	+	0	Source=MGA;ID=01.cds_gene_100;Parent=01.gene_100;
-01	MGA	Shine_Dalgarno_sequence	56931	56935	.	+	0	ID=01.rbs_gene_100;Source=MGA;Parent=01.gene_100;
-01	MGA	gene	58764	59208	.	+	0	Source=MGA;ID=01.gene_101;
-01	MGA	CDS	58780	59208	.	+	0	Source=MGA;ID=01.cds_gene_101;Parent=01.gene_101;
-01	MGA	Shine_Dalgarno_sequence	58764	58768	.	+	0	ID=01.rbs_gene_101;Source=MGA;Parent=01.gene_101;
-01	MGA	gene	59291	59445	.	+	0	Source=MGA;ID=01.gene_102;
-01	MGA	CDS	59305	59445	.	+	0	Source=MGA;ID=01.cds_gene_102;Parent=01.gene_102;
-01	MGA	Shine_Dalgarno_sequence	59291	59295	.	+	0	ID=01.rbs_gene_102;Source=MGA;Parent=01.gene_102;
-01	MGA	gene	59475	59946	.	+	0	Source=MGA;ID=01.gene_103;
-01	MGA	CDS	59488	59946	.	+	0	Source=MGA;ID=01.cds_gene_103;Parent=01.gene_103;
-01	MGA	Shine_Dalgarno_sequence	59475	59479	.	+	0	ID=01.rbs_gene_103;Source=MGA;Parent=01.gene_103;
-01	MGA	gene	59947	60153	.	+	0	Source=MGA;ID=01.gene_104;
-01	MGA	CDS	59959	60153	.	+	0	Source=MGA;ID=01.cds_gene_104;Parent=01.gene_104;
-01	MGA	Shine_Dalgarno_sequence	59947	59951	.	+	0	ID=01.rbs_gene_104;Source=MGA;Parent=01.gene_104;
-01	MGA	gene	60220	60546	.	+	0	Source=MGA;ID=01.gene_105;
-01	MGA	CDS	60235	60546	.	+	0	Source=MGA;ID=01.cds_gene_105;Parent=01.gene_105;
-01	MGA	Shine_Dalgarno_sequence	60220	60224	.	+	0	ID=01.rbs_gene_105;Source=MGA;Parent=01.gene_105;
-01	MGA	gene	60662	61136	.	+	0	Source=MGA;ID=01.gene_106;
-01	MGA	CDS	60678	61136	.	+	0	Source=MGA;ID=01.cds_gene_106;Parent=01.gene_106;
-01	MGA	Shine_Dalgarno_sequence	60662	60666	.	+	0	ID=01.rbs_gene_106;Source=MGA;Parent=01.gene_106;
-01	MGA	gene	61170	61716	.	+	0	Source=MGA;ID=01.gene_107;
-01	MGA	CDS	61180	61716	.	+	0	Source=MGA;ID=01.cds_gene_107;Parent=01.gene_107;
-01	MGA	Shine_Dalgarno_sequence	61170	61174	.	+	0	ID=01.rbs_gene_107;Source=MGA;Parent=01.gene_107;
-01	MGA	gene	61758	65827	.	+	0	Source=MGA;ID=01.gene_108;
-01	MGA	CDS	61772	65827	.	+	0	Source=MGA;ID=01.cds_gene_108;Parent=01.gene_108;
-01	MGA	Shine_Dalgarno_sequence	61758	61762	.	+	0	ID=01.rbs_gene_108;Source=MGA;Parent=01.gene_108;
-01	MGA	gene	65890	68332	.	+	0	Source=MGA;ID=01.gene_109;
-01	MGA	CDS	65906	68332	.	+	0	Source=MGA;ID=01.cds_gene_109;Parent=01.gene_109;
-01	MGA	Shine_Dalgarno_sequence	65890	65894	.	+	0	ID=01.rbs_gene_109;Source=MGA;Parent=01.gene_109;
-01	MGA	gene	68334	69233	.	+	0	Source=MGA;ID=01.gene_110;
-01	MGA	CDS	68346	69233	.	+	0	Source=MGA;ID=01.cds_gene_110;Parent=01.gene_110;
-01	MGA	Shine_Dalgarno_sequence	68334	68338	.	+	0	ID=01.rbs_gene_110;Source=MGA;Parent=01.gene_110;
-01	MGA	gene	69218	71779	.	+	0	Source=MGA;ID=01.gene_111;
-01	MGA	CDS	69233	71779	.	+	0	Source=MGA;ID=01.cds_gene_111;Parent=01.gene_111;
-01	MGA	Shine_Dalgarno_sequence	69218	69222	.	+	0	ID=01.rbs_gene_111;Source=MGA;Parent=01.gene_111;
-01	MGA	gene	71873	72677	.	+	0	Source=MGA;ID=01.gene_112;
-01	MGA	CDS	71886	72677	.	+	0	Source=MGA;ID=01.cds_gene_112;Parent=01.gene_112;
-01	MGA	Shine_Dalgarno_sequence	71873	71877	.	+	0	ID=01.rbs_gene_112;Source=MGA;Parent=01.gene_112;
-01	MGA	gene	72660	73201	.	+	0	Source=MGA;ID=01.gene_113;
-01	MGA	CDS	72677	73201	.	+	0	Source=MGA;ID=01.cds_gene_113;Parent=01.gene_113;
-01	MGA	Shine_Dalgarno_sequence	72660	72664	.	+	0	ID=01.rbs_gene_113;Source=MGA;Parent=01.gene_113;
-01	MGA	gene	73186	73905	.	+	0	Source=MGA;ID=01.gene_114;
-01	MGA	CDS	73201	73905	.	+	0	Source=MGA;ID=01.cds_gene_114;Parent=01.gene_114;
-01	MGA	Shine_Dalgarno_sequence	73186	73190	.	+	0	ID=01.rbs_gene_114;Source=MGA;Parent=01.gene_114;
-01	MGA	gene	73907	74966	.	+	0	Source=MGA;ID=01.gene_115;
-01	MGA	CDS	73920	74966	.	+	0	Source=MGA;ID=01.cds_gene_115;Parent=01.gene_115;
-01	MGA	Shine_Dalgarno_sequence	73907	73911	.	+	0	ID=01.rbs_gene_115;Source=MGA;Parent=01.gene_115;
-01	MGA	gene	74969	78046	.	+	0	Source=MGA;ID=01.gene_116;
-01	MGA	CDS	74987	78046	.	+	0	Source=MGA;ID=01.cds_gene_116;Parent=01.gene_116;
-01	MGA	Shine_Dalgarno_sequence	74969	74973	.	+	0	ID=01.rbs_gene_116;Source=MGA;Parent=01.gene_116;
-01	MGA	gene	78141	78678	.	+	0	Source=MGA;ID=01.gene_117;
-01	MGA	CDS	78157	78678	.	+	0	Source=MGA;ID=01.cds_gene_117;Parent=01.gene_117;
-01	MGA	Shine_Dalgarno_sequence	78141	78145	.	+	0	ID=01.rbs_gene_117;Source=MGA;Parent=01.gene_117;
-01	MGA	gene	78684	82157	.	+	0	Source=MGA;ID=01.gene_118;
-01	MGA	CDS	78699	82157	.	+	0	Source=MGA;ID=01.cds_gene_118;Parent=01.gene_118;
-01	MGA	Shine_Dalgarno_sequence	78684	78688	.	+	0	ID=01.rbs_gene_118;Source=MGA;Parent=01.gene_118;
-01	MGA	gene	82193	82364	.	+	0	Source=MGA;ID=01.gene_119;
-01	MGA	CDS	82206	82364	.	+	0	Source=MGA;ID=01.cds_gene_119;Parent=01.gene_119;
-01	MGA	Shine_Dalgarno_sequence	82193	82197	.	+	0	ID=01.rbs_gene_119;Source=MGA;Parent=01.gene_119;
-01	MGA	gene	82352	84287	.	+	0	Source=MGA;ID=01.gene_120;
-01	MGA	CDS	82365	84287	.	+	0	Source=MGA;ID=01.cds_gene_120;Parent=01.gene_120;
-01	MGA	Shine_Dalgarno_sequence	82352	82356	.	+	0	ID=01.rbs_gene_120;Source=MGA;Parent=01.gene_120;
-01	MGA	gene	84293	84684	.	+	0	Source=MGA;ID=01.gene_121;
-01	MGA	CDS	84310	84684	.	+	0	Source=MGA;ID=01.cds_gene_121;Parent=01.gene_121;
-01	MGA	Shine_Dalgarno_sequence	84293	84297	.	+	0	ID=01.rbs_gene_121;Source=MGA;Parent=01.gene_121;
-01	MGA	gene	84677	86067	.	+	0	Source=MGA;ID=01.gene_122;
-01	MGA	CDS	84691	86067	.	+	0	Source=MGA;ID=01.cds_gene_122;Parent=01.gene_122;
-01	MGA	Shine_Dalgarno_sequence	84677	84681	.	+	0	ID=01.rbs_gene_122;Source=MGA;Parent=01.gene_122;
-01	MGA	gene	86148	87907	.	+	0	Source=MGA;ID=01.gene_123;
-01	MGA	CDS	86159	87907	.	+	0	Source=MGA;ID=01.cds_gene_123;Parent=01.gene_123;
-01	MGA	Shine_Dalgarno_sequence	86148	86152	.	+	0	ID=01.rbs_gene_123;Source=MGA;Parent=01.gene_123;
-01	MGA	gene	87907	89532	.	+	0	Source=MGA;ID=01.gene_124;
-01	MGA	CDS	87919	89532	.	+	0	Source=MGA;ID=01.cds_gene_124;Parent=01.gene_124;
-01	MGA	Shine_Dalgarno_sequence	87907	87911	.	+	0	ID=01.rbs_gene_124;Source=MGA;Parent=01.gene_124;
-01	MGA	gene	89511	90967	.	+	0	Source=MGA;ID=01.gene_125;
-01	MGA	CDS	89525	90967	.	+	0	Source=MGA;ID=01.cds_gene_125;Parent=01.gene_125;
-01	MGA	Shine_Dalgarno_sequence	89511	89515	.	+	0	ID=01.rbs_gene_125;Source=MGA;Parent=01.gene_125;
-01	MGA	gene	91032	92083	.	+	0	Source=MGA;ID=01.gene_126;
-01	MGA	CDS	91046	92083	.	+	0	Source=MGA;ID=01.cds_gene_126;Parent=01.gene_126;
-01	MGA	Shine_Dalgarno_sequence	91032	91036	.	+	0	ID=01.rbs_gene_126;Source=MGA;Parent=01.gene_126;
-01	MGA	gene	92071	92460	.	+	0	Source=MGA;ID=01.gene_127;
-01	MGA	CDS	92083	92460	.	+	0	Source=MGA;ID=01.cds_gene_127;Parent=01.gene_127;
-01	MGA	Shine_Dalgarno_sequence	92071	92075	.	+	0	ID=01.rbs_gene_127;Source=MGA;Parent=01.gene_127;
-01	MGA	gene	92448	94379	.	+	0	Source=MGA;ID=01.gene_128;
-01	MGA	CDS	92460	94379	.	+	0	Source=MGA;ID=01.cds_gene_128;Parent=01.gene_128;
-01	MGA	Shine_Dalgarno_sequence	92448	92452	.	+	0	ID=01.rbs_gene_128;Source=MGA;Parent=01.gene_128;
-01	MGA	gene	94367	94975	.	+	0	Source=MGA;ID=01.gene_129;
-01	MGA	CDS	94379	94975	.	+	0	Source=MGA;ID=01.cds_gene_129;Parent=01.gene_129;
-01	MGA	Shine_Dalgarno_sequence	94367	94371	.	+	0	ID=01.rbs_gene_129;Source=MGA;Parent=01.gene_129;
-01	MGA	gene	94976	96057	.	+	0	Source=MGA;ID=01.gene_130;
-01	MGA	CDS	94990	96057	.	+	0	Source=MGA;ID=01.cds_gene_130;Parent=01.gene_130;
-01	MGA	Shine_Dalgarno_sequence	94976	94980	.	+	0	ID=01.rbs_gene_130;Source=MGA;Parent=01.gene_130;
-01	MGA	gene	96109	96462	.	+	0	Source=MGA;ID=01.gene_131;
-01	MGA	CDS	96124	96462	.	+	0	Source=MGA;ID=01.cds_gene_131;Parent=01.gene_131;
-01	MGA	Shine_Dalgarno_sequence	96109	96113	.	+	0	ID=01.rbs_gene_131;Source=MGA;Parent=01.gene_131;
-01	MGA	gene	96447	96914	.	+	0	Source=MGA;ID=01.gene_132;
-01	MGA	CDS	96462	96914	.	+	0	Source=MGA;ID=01.cds_gene_132;Parent=01.gene_132;
-01	MGA	Shine_Dalgarno_sequence	96447	96451	.	+	0	ID=01.rbs_gene_132;Source=MGA;Parent=01.gene_132;
-01	MGA	gene	96901	97509	.	+	0	Source=MGA;ID=01.gene_133;
-01	MGA	CDS	96901	97509	.	+	0	Source=MGA;ID=01.cds_gene_133;Parent=01.gene_133;
-01	MGA	gene	97508	97918	.	+	0	Source=MGA;ID=01.gene_134;
-01	MGA	CDS	97526	97918	.	+	0	Source=MGA;ID=01.cds_gene_134;Parent=01.gene_134;
-01	MGA	Shine_Dalgarno_sequence	97508	97512	.	+	0	ID=01.rbs_gene_134;Source=MGA;Parent=01.gene_134;
-01	MGA	gene	97918	100047	.	+	0	Source=MGA;ID=01.gene_135;
-01	MGA	CDS	97933	100047	.	+	0	Source=MGA;ID=01.cds_gene_135;Parent=01.gene_135;
-01	MGA	Shine_Dalgarno_sequence	97918	97922	.	+	0	ID=01.rbs_gene_135;Source=MGA;Parent=01.gene_135;
-01	MGA	gene	100048	101110	.	+	0	Source=MGA;ID=01.gene_136;
-01	MGA	CDS	100061	101110	.	+	0	Source=MGA;ID=01.cds_gene_136;Parent=01.gene_136;
-01	MGA	Shine_Dalgarno_sequence	100048	100052	.	+	0	ID=01.rbs_gene_136;Source=MGA;Parent=01.gene_136;
-01	MGA	gene	101113	101457	.	+	0	Source=MGA;ID=01.gene_137;
-01	MGA	CDS	101128	101457	.	+	0	Source=MGA;ID=01.cds_gene_137;Parent=01.gene_137;
-01	MGA	Shine_Dalgarno_sequence	101113	101117	.	+	0	ID=01.rbs_gene_137;Source=MGA;Parent=01.gene_137;
-01	MGA	gene	101425	101761	.	+	0	Source=MGA;ID=01.gene_138;
-01	MGA	CDS	101441	101761	.	+	0	Source=MGA;ID=01.cds_gene_138;Parent=01.gene_138;
-01	MGA	Shine_Dalgarno_sequence	101425	101429	.	+	0	ID=01.rbs_gene_138;Source=MGA;Parent=01.gene_138;
-01	MGA	gene	101953	102564	.	+	0	Source=MGA;ID=01.gene_139;
-01	MGA	CDS	101968	102564	.	+	0	Source=MGA;ID=01.cds_gene_139;Parent=01.gene_139;
-01	MGA	Shine_Dalgarno_sequence	101953	101957	.	+	0	ID=01.rbs_gene_139;Source=MGA;Parent=01.gene_139;
-01	MGA	gene	102574	102879	.	+	0	Source=MGA;ID=01.gene_140;
-01	MGA	CDS	102574	102879	.	+	0	Source=MGA;ID=01.cds_gene_140;Parent=01.gene_140;
-01	MGA	gene	102941	103827	.	+	0	Source=MGA;ID=01.gene_141;
-01	MGA	CDS	102955	103827	.	+	0	Source=MGA;ID=01.cds_gene_141;Parent=01.gene_141;
-01	MGA	Shine_Dalgarno_sequence	102941	102945	.	+	0	ID=01.rbs_gene_141;Source=MGA;Parent=01.gene_141;
-01	MGA	gene	104008	104505	.	+	0	Source=MGA;ID=01.gene_142;
-01	MGA	CDS	104020	104505	.	+	0	Source=MGA;ID=01.cds_gene_142;Parent=01.gene_142;
-01	MGA	Shine_Dalgarno_sequence	104008	104012	.	+	0	ID=01.rbs_gene_142;Source=MGA;Parent=01.gene_142;
-01	MGA	gene	104641	105984	.	+	0	Source=MGA;ID=01.gene_143;
-01	MGA	CDS	104641	105984	.	+	0	Source=MGA;ID=01.cds_gene_143;Parent=01.gene_143;
-01	MGA	gene	106241	106959	.	+	0	Source=MGA;ID=01.gene_144;
-01	MGA	CDS	106252	106959	.	+	0	Source=MGA;ID=01.cds_gene_144;Parent=01.gene_144;
-01	MGA	Shine_Dalgarno_sequence	106241	106245	.	+	0	ID=01.rbs_gene_144;Source=MGA;Parent=01.gene_144;
-01	MGA	gene	107193	108053	.	+	0	Source=MGA;ID=01.gene_145;
-01	MGA	CDS	107193	108053	.	+	0	Source=MGA;ID=01.cds_gene_145;Parent=01.gene_145;
-01	MGA	gene	108110	108364	.	+	0	Source=MGA;ID=01.gene_146;
-01	MGA	CDS	108122	108364	.	+	0	Source=MGA;ID=01.cds_gene_146;Parent=01.gene_146;
-01	MGA	Shine_Dalgarno_sequence	108110	108114	.	+	0	ID=01.rbs_gene_146;Source=MGA;Parent=01.gene_146;
-01	MGA	gene	108367	108863	.	+	0	Source=MGA;ID=01.gene_147;
-01	MGA	CDS	108381	108863	.	+	0	Source=MGA;ID=01.cds_gene_147;Parent=01.gene_147;
-01	MGA	Shine_Dalgarno_sequence	108367	108371	.	+	0	ID=01.rbs_gene_147;Source=MGA;Parent=01.gene_147;
-01	MGA	gene	108934	110221	.	+	0	Source=MGA;ID=01.gene_148;
-01	MGA	CDS	108950	110221	.	+	0	Source=MGA;ID=01.cds_gene_148;Parent=01.gene_148;
-01	MGA	Shine_Dalgarno_sequence	108934	108938	.	+	0	ID=01.rbs_gene_148;Source=MGA;Parent=01.gene_148;
-01	MGA	gene	110269	111537	.	+	0	Source=MGA;ID=01.gene_149;
-01	MGA	CDS	110281	111537	.	+	0	Source=MGA;ID=01.cds_gene_149;Parent=01.gene_149;
-01	MGA	Shine_Dalgarno_sequence	110269	110273	.	+	0	ID=01.rbs_gene_149;Source=MGA;Parent=01.gene_149;
-01	MGA	gene	111523	111894	.	+	0	Source=MGA;ID=01.gene_150;
-01	MGA	CDS	111541	111894	.	+	0	Source=MGA;ID=01.cds_gene_150;Parent=01.gene_150;
-01	MGA	Shine_Dalgarno_sequence	111523	111527	.	+	0	ID=01.rbs_gene_150;Source=MGA;Parent=01.gene_150;
-01	MGA	gene	111867	112543	.	+	0	Source=MGA;ID=01.gene_151;
-01	MGA	CDS	111881	112543	.	+	0	Source=MGA;ID=01.cds_gene_151;Parent=01.gene_151;
-01	MGA	Shine_Dalgarno_sequence	111867	111871	.	+	0	ID=01.rbs_gene_151;Source=MGA;Parent=01.gene_151;
-01	MGA	gene	112659	113303	.	+	0	Source=MGA;ID=01.gene_152;
-01	MGA	CDS	112671	113303	.	+	0	Source=MGA;ID=01.cds_gene_152;Parent=01.gene_152;
-01	MGA	Shine_Dalgarno_sequence	112659	112663	.	+	0	ID=01.rbs_gene_152;Source=MGA;Parent=01.gene_152;
-01	MGA	gene	113313	113838	.	+	0	Source=MGA;ID=01.gene_153;
-01	MGA	CDS	113326	113838	.	+	0	Source=MGA;ID=01.cds_gene_153;Parent=01.gene_153;
-01	MGA	Shine_Dalgarno_sequence	113313	113317	.	+	0	ID=01.rbs_gene_153;Source=MGA;Parent=01.gene_153;
-01	MGA	gene	113838	114080	.	+	0	Source=MGA;ID=01.gene_154;
-01	MGA	CDS	113853	114080	.	+	0	Source=MGA;ID=01.cds_gene_154;Parent=01.gene_154;
-01	MGA	Shine_Dalgarno_sequence	113838	113842	.	+	0	ID=01.rbs_gene_154;Source=MGA;Parent=01.gene_154;
-01	MGA	gene	114163	114436	.	+	0	Source=MGA;ID=01.gene_155;
-01	MGA	CDS	114176	114436	.	+	0	Source=MGA;ID=01.cds_gene_155;Parent=01.gene_155;
-01	MGA	Shine_Dalgarno_sequence	114163	114167	.	+	0	ID=01.rbs_gene_155;Source=MGA;Parent=01.gene_155;
-01	MGA	gene	114440	115195	.	+	0	Source=MGA;ID=01.gene_156;
-01	MGA	CDS	114440	115195	.	+	0	Source=MGA;ID=01.cds_gene_156;Parent=01.gene_156;
-01	MGA	gene	115175	116438	.	+	0	Source=MGA;ID=01.gene_157;
-01	MGA	CDS	115188	116438	.	+	0	Source=MGA;ID=01.cds_gene_157;Parent=01.gene_157;
-01	MGA	Shine_Dalgarno_sequence	115175	115179	.	+	0	ID=01.rbs_gene_157;Source=MGA;Parent=01.gene_157;
-01	MGA	gene	116437	116820	.	+	0	Source=MGA;ID=01.gene_158;
-01	MGA	CDS	116452	116820	.	+	0	Source=MGA;ID=01.cds_gene_158;Parent=01.gene_158;
-01	MGA	Shine_Dalgarno_sequence	116437	116441	.	+	0	ID=01.rbs_gene_158;Source=MGA;Parent=01.gene_158;
-01	MGA	gene	116796	117118	.	+	0	Source=MGA;ID=01.gene_159;
-01	MGA	CDS	116807	117118	.	+	0	Source=MGA;ID=01.cds_gene_159;Parent=01.gene_159;
-01	MGA	Shine_Dalgarno_sequence	116796	116800	.	+	0	ID=01.rbs_gene_159;Source=MGA;Parent=01.gene_159;
-01	MGA	gene	117167	117718	.	+	0	Source=MGA;ID=01.gene_160;
-01	MGA	CDS	117182	117718	.	+	0	Source=MGA;ID=01.cds_gene_160;Parent=01.gene_160;
-01	MGA	Shine_Dalgarno_sequence	117167	117171	.	+	0	ID=01.rbs_gene_160;Source=MGA;Parent=01.gene_160;
-01	MGA	gene	117697	118478	.	+	0	Source=MGA;ID=01.gene_161;
-01	MGA	CDS	117711	118478	.	+	0	Source=MGA;ID=01.cds_gene_161;Parent=01.gene_161;
-01	MGA	Shine_Dalgarno_sequence	117697	117701	.	+	0	ID=01.rbs_gene_161;Source=MGA;Parent=01.gene_161;
-01	MGA	gene	118456	118902	.	+	0	Source=MGA;ID=01.gene_162;
-01	MGA	CDS	118456	118902	.	+	0	Source=MGA;ID=01.cds_gene_162;Parent=01.gene_162;
-01	MGA	gene	118886	119765	.	+	0	Source=MGA;ID=01.gene_163;
-01	MGA	CDS	118902	119765	.	+	0	Source=MGA;ID=01.cds_gene_163;Parent=01.gene_163;
-01	MGA	Shine_Dalgarno_sequence	118886	118890	.	+	0	ID=01.rbs_gene_163;Source=MGA;Parent=01.gene_163;
-01	MGA	gene	120123	120868	.	+	0	Source=MGA;ID=01.gene_164;
-01	MGA	CDS	120137	120868	.	+	0	Source=MGA;ID=01.cds_gene_164;Parent=01.gene_164;
-01	MGA	Shine_Dalgarno_sequence	120123	120127	.	+	0	ID=01.rbs_gene_164;Source=MGA;Parent=01.gene_164;
-01	MGA	gene	120873	121344	.	+	0	Source=MGA;ID=01.gene_165;
-01	MGA	CDS	120886	121344	.	+	0	Source=MGA;ID=01.cds_gene_165;Parent=01.gene_165;
-01	MGA	Shine_Dalgarno_sequence	120873	120877	.	+	0	ID=01.rbs_gene_165;Source=MGA;Parent=01.gene_165;
-01	MGA	gene	121395	121852	.	+	0	Source=MGA;ID=01.gene_166;
-01	MGA	CDS	121409	121852	.	+	0	Source=MGA;ID=01.cds_gene_166;Parent=01.gene_166;
-01	MGA	Shine_Dalgarno_sequence	121395	121399	.	+	0	ID=01.rbs_gene_166;Source=MGA;Parent=01.gene_166;
-01	MGA	gene	121857	122573	.	+	0	Source=MGA;ID=01.gene_167;
-01	MGA	CDS	121869	122573	.	+	0	Source=MGA;ID=01.cds_gene_167;Parent=01.gene_167;
-01	MGA	Shine_Dalgarno_sequence	121857	121861	.	+	0	ID=01.rbs_gene_167;Source=MGA;Parent=01.gene_167;
-01	MGA	gene	122622	123033	.	+	0	Source=MGA;ID=01.gene_168;
-01	MGA	CDS	122635	123033	.	+	0	Source=MGA;ID=01.cds_gene_168;Parent=01.gene_168;
-01	MGA	Shine_Dalgarno_sequence	122622	122626	.	+	0	ID=01.rbs_gene_168;Source=MGA;Parent=01.gene_168;
-01	MGA	gene	123166	123422	.	+	0	Source=MGA;ID=01.gene_169;
-01	MGA	CDS	123180	123422	.	+	0	Source=MGA;ID=01.cds_gene_169;Parent=01.gene_169;
-01	MGA	Shine_Dalgarno_sequence	123166	123170	.	+	0	ID=01.rbs_gene_169;Source=MGA;Parent=01.gene_169;
-01	MGA	gene	123414	123591	.	+	0	Source=MGA;ID=01.gene_170;
-01	MGA	CDS	123427	123591	.	+	0	Source=MGA;ID=01.cds_gene_170;Parent=01.gene_170;
-01	MGA	Shine_Dalgarno_sequence	123414	123418	.	+	0	ID=01.rbs_gene_170;Source=MGA;Parent=01.gene_170;
-01	MGA	gene	123578	123757	.	+	0	Source=MGA;ID=01.gene_171;
-01	MGA	CDS	123578	123757	.	+	0	Source=MGA;ID=01.cds_gene_171;Parent=01.gene_171;
-01	MGA	gene	123779	123969	.	+	0	Source=MGA;ID=01.gene_172;
-01	MGA	CDS	123793	123969	.	+	0	Source=MGA;ID=01.cds_gene_172;Parent=01.gene_172;
-01	MGA	Shine_Dalgarno_sequence	123779	123783	.	+	0	ID=01.rbs_gene_172;Source=MGA;Parent=01.gene_172;
-01	MGA	gene	123950	124126	.	+	0	Source=MGA;ID=01.gene_173;
-01	MGA	CDS	123962	124126	.	+	0	Source=MGA;ID=01.cds_gene_173;Parent=01.gene_173;
-01	MGA	Shine_Dalgarno_sequence	123950	123954	.	+	0	ID=01.rbs_gene_173;Source=MGA;Parent=01.gene_173;
-01	MGA	gene	124375	124494	.	+	0	Source=MGA;ID=01.gene_174;
-01	MGA	CDS	124375	124494	.	+	0	Source=MGA;ID=01.cds_gene_174;Parent=01.gene_174;
-01	MGA	gene	124498	124628	.	+	0	Source=MGA;ID=01.gene_175;
-01	MGA	CDS	124509	124628	.	+	0	Source=MGA;ID=01.cds_gene_175;Parent=01.gene_175;
-01	MGA	Shine_Dalgarno_sequence	124498	124502	.	+	0	ID=01.rbs_gene_175;Source=MGA;Parent=01.gene_175;
-01	MGA	gene	124628	124816	.	+	0	Source=MGA;ID=01.gene_176;
-01	MGA	CDS	124640	124816	.	+	0	Source=MGA;ID=01.cds_gene_176;Parent=01.gene_176;
-01	MGA	Shine_Dalgarno_sequence	124628	124632	.	+	0	ID=01.rbs_gene_176;Source=MGA;Parent=01.gene_176;
-01	MGA	gene	124796	125105	.	+	0	Source=MGA;ID=01.gene_177;
-01	MGA	CDS	124809	125105	.	+	0	Source=MGA;ID=01.cds_gene_177;Parent=01.gene_177;
-01	MGA	Shine_Dalgarno_sequence	124796	124800	.	+	0	ID=01.rbs_gene_177;Source=MGA;Parent=01.gene_177;
-01	MGA	gene	125138	125335	.	+	0	Source=MGA;ID=01.gene_178;
-01	MGA	CDS	125153	125335	.	+	0	Source=MGA;ID=01.cds_gene_178;Parent=01.gene_178;
-01	MGA	Shine_Dalgarno_sequence	125138	125142	.	+	0	ID=01.rbs_gene_178;Source=MGA;Parent=01.gene_178;
-01	MGA	gene	125335	125716	.	+	0	Source=MGA;ID=01.gene_179;
-01	MGA	CDS	125348	125716	.	+	0	Source=MGA;ID=01.cds_gene_179;Parent=01.gene_179;
-01	MGA	Shine_Dalgarno_sequence	125335	125339	.	+	0	ID=01.rbs_gene_179;Source=MGA;Parent=01.gene_179;
-01	MGA	gene	125717	126076	.	+	0	Source=MGA;ID=01.gene_180;
-01	MGA	CDS	125729	126076	.	+	0	Source=MGA;ID=01.cds_gene_180;Parent=01.gene_180;
-01	MGA	Shine_Dalgarno_sequence	125717	125721	.	+	0	ID=01.rbs_gene_180;Source=MGA;Parent=01.gene_180;
-01	MGA	gene	126076	126354	.	+	0	Source=MGA;ID=01.gene_181;
-01	MGA	CDS	126076	126354	.	+	0	Source=MGA;ID=01.cds_gene_181;Parent=01.gene_181;
-01	MGA	gene	126410	126729	.	+	0	Source=MGA;ID=01.gene_182;
-01	MGA	CDS	126424	126729	.	+	0	Source=MGA;ID=01.cds_gene_182;Parent=01.gene_182;
-01	MGA	Shine_Dalgarno_sequence	126410	126414	.	+	0	ID=01.rbs_gene_182;Source=MGA;Parent=01.gene_182;
-01	MGA	gene	126732	127094	.	+	0	Source=MGA;ID=01.gene_183;
-01	MGA	CDS	126744	127094	.	+	0	Source=MGA;ID=01.cds_gene_183;Parent=01.gene_183;
-01	MGA	Shine_Dalgarno_sequence	126732	126736	.	+	0	ID=01.rbs_gene_183;Source=MGA;Parent=01.gene_183;
-01	MGA	gene	127082	127696	.	+	0	Source=MGA;ID=01.gene_184;
-01	MGA	CDS	127094	127696	.	+	0	Source=MGA;ID=01.cds_gene_184;Parent=01.gene_184;
-01	MGA	Shine_Dalgarno_sequence	127082	127086	.	+	0	ID=01.rbs_gene_184;Source=MGA;Parent=01.gene_184;
-01	MGA	gene	127697	127889	.	+	0	Source=MGA;ID=01.gene_185;
-01	MGA	CDS	127710	127889	.	+	0	Source=MGA;ID=01.cds_gene_185;Parent=01.gene_185;
-01	MGA	Shine_Dalgarno_sequence	127697	127701	.	+	0	ID=01.rbs_gene_185;Source=MGA;Parent=01.gene_185;
-01	MGA	gene	128103	128517	.	+	0	Source=MGA;ID=01.gene_186;
-01	MGA	CDS	128116	128517	.	+	0	Source=MGA;ID=01.cds_gene_186;Parent=01.gene_186;
-01	MGA	Shine_Dalgarno_sequence	128103	128107	.	+	0	ID=01.rbs_gene_186;Source=MGA;Parent=01.gene_186;
-01	MGA	gene	128506	128779	.	+	0	Source=MGA;ID=01.gene_187;
-01	MGA	CDS	128519	128779	.	+	0	Source=MGA;ID=01.cds_gene_187;Parent=01.gene_187;
-01	MGA	Shine_Dalgarno_sequence	128506	128510	.	+	0	ID=01.rbs_gene_187;Source=MGA;Parent=01.gene_187;
-01	MGA	gene	128818	129118	.	+	0	Source=MGA;ID=01.gene_188;
-01	MGA	CDS	128831	129118	.	+	0	Source=MGA;ID=01.cds_gene_188;Parent=01.gene_188;
-01	MGA	Shine_Dalgarno_sequence	128818	128822	.	+	0	ID=01.rbs_gene_188;Source=MGA;Parent=01.gene_188;
-01	MGA	gene	129219	129498	.	+	0	Source=MGA;ID=01.gene_189;
-01	MGA	CDS	129235	129498	.	+	0	Source=MGA;ID=01.cds_gene_189;Parent=01.gene_189;
-01	MGA	Shine_Dalgarno_sequence	129219	129223	.	+	0	ID=01.rbs_gene_189;Source=MGA;Parent=01.gene_189;
-01	MGA	gene	129563	129754	.	+	0	Source=MGA;ID=01.gene_190;
-01	MGA	CDS	129575	129754	.	+	0	Source=MGA;ID=01.cds_gene_190;Parent=01.gene_190;
-01	MGA	Shine_Dalgarno_sequence	129563	129567	.	+	0	ID=01.rbs_gene_190;Source=MGA;Parent=01.gene_190;
-01	MGA	gene	129756	130032	.	+	0	Source=MGA;ID=01.gene_191;
-01	MGA	CDS	129769	130032	.	+	0	Source=MGA;ID=01.cds_gene_191;Parent=01.gene_191;
-01	MGA	Shine_Dalgarno_sequence	129756	129760	.	+	0	ID=01.rbs_gene_191;Source=MGA;Parent=01.gene_191;
-01	MGA	gene	130020	130352	.	+	0	Source=MGA;ID=01.gene_192;
-01	MGA	CDS	130035	130352	.	+	0	Source=MGA;ID=01.cds_gene_192;Parent=01.gene_192;
-01	MGA	Shine_Dalgarno_sequence	130020	130024	.	+	0	ID=01.rbs_gene_192;Source=MGA;Parent=01.gene_192;
-01	MGA	gene	130340	130910	.	+	0	Source=MGA;ID=01.gene_193;
-01	MGA	CDS	130353	130910	.	+	0	Source=MGA;ID=01.cds_gene_193;Parent=01.gene_193;
-01	MGA	Shine_Dalgarno_sequence	130340	130344	.	+	0	ID=01.rbs_gene_193;Source=MGA;Parent=01.gene_193;
-01	MGA	gene	131110	131280	.	+	0	Source=MGA;ID=01.gene_194;
-01	MGA	CDS	131122	131280	.	+	0	Source=MGA;ID=01.cds_gene_194;Parent=01.gene_194;
-01	MGA	Shine_Dalgarno_sequence	131110	131114	.	+	0	ID=01.rbs_gene_194;Source=MGA;Parent=01.gene_194;
-01	MGA	gene	131302	131515	.	+	0	Source=MGA;ID=01.gene_195;
-01	MGA	CDS	131315	131515	.	+	0	Source=MGA;ID=01.cds_gene_195;Parent=01.gene_195;
-01	MGA	Shine_Dalgarno_sequence	131302	131306	.	+	0	ID=01.rbs_gene_195;Source=MGA;Parent=01.gene_195;
-01	MGA	gene	131503	131806	.	+	0	Source=MGA;ID=01.gene_196;
-01	MGA	CDS	131516	131806	.	+	0	Source=MGA;ID=01.cds_gene_196;Parent=01.gene_196;
-01	MGA	Shine_Dalgarno_sequence	131503	131507	.	+	0	ID=01.rbs_gene_196;Source=MGA;Parent=01.gene_196;
-01	MGA	gene	131883	132206	.	+	0	Source=MGA;ID=01.gene_197;
-01	MGA	CDS	131898	132206	.	+	0	Source=MGA;ID=01.cds_gene_197;Parent=01.gene_197;
-01	MGA	Shine_Dalgarno_sequence	131883	131887	.	+	0	ID=01.rbs_gene_197;Source=MGA;Parent=01.gene_197;
-01	MGA	gene	132187	133111	.	+	0	Source=MGA;ID=01.gene_198;
-01	MGA	CDS	132203	133111	.	+	0	Source=MGA;ID=01.cds_gene_198;Parent=01.gene_198;
-01	MGA	Shine_Dalgarno_sequence	132187	132191	.	+	0	ID=01.rbs_gene_198;Source=MGA;Parent=01.gene_198;
-01	MGA	gene	133113	134598	.	+	0	Source=MGA;ID=01.gene_199;
-01	MGA	CDS	133129	134598	.	+	0	Source=MGA;ID=01.cds_gene_199;Parent=01.gene_199;
-01	MGA	Shine_Dalgarno_sequence	133113	133117	.	+	0	ID=01.rbs_gene_199;Source=MGA;Parent=01.gene_199;
-01	MGA	gene	134664	134922	.	+	0	Source=MGA;ID=01.gene_200;
-01	MGA	CDS	134677	134922	.	+	0	Source=MGA;ID=01.cds_gene_200;Parent=01.gene_200;
-01	MGA	Shine_Dalgarno_sequence	134664	134668	.	+	0	ID=01.rbs_gene_200;Source=MGA;Parent=01.gene_200;
-01	MGA	gene	134928	135334	.	+	0	Source=MGA;ID=01.gene_201;
-01	MGA	CDS	134942	135334	.	+	0	Source=MGA;ID=01.cds_gene_201;Parent=01.gene_201;
-01	MGA	Shine_Dalgarno_sequence	134928	134932	.	+	0	ID=01.rbs_gene_201;Source=MGA;Parent=01.gene_201;
-01	MGA	gene	135322	135533	.	+	0	Source=MGA;ID=01.gene_202;
-01	MGA	CDS	135336	135533	.	+	0	Source=MGA;ID=01.cds_gene_202;Parent=01.gene_202;
-01	MGA	Shine_Dalgarno_sequence	135322	135326	.	+	0	ID=01.rbs_gene_202;Source=MGA;Parent=01.gene_202;
-01	MGA	gene	135586	135910	.	+	0	Source=MGA;ID=01.gene_203;
-01	MGA	CDS	135599	135910	.	+	0	Source=MGA;ID=01.cds_gene_203;Parent=01.gene_203;
-01	MGA	Shine_Dalgarno_sequence	135586	135590	.	+	0	ID=01.rbs_gene_203;Source=MGA;Parent=01.gene_203;
-01	MGA	gene	135901	136422	.	+	0	Source=MGA;ID=01.gene_204;
-01	MGA	CDS	135913	136422	.	+	0	Source=MGA;ID=01.cds_gene_204;Parent=01.gene_204;
-01	MGA	Shine_Dalgarno_sequence	135901	135905	.	+	0	ID=01.rbs_gene_204;Source=MGA;Parent=01.gene_204;
-01	MGA	gene	136408	136753	.	+	0	Source=MGA;ID=01.gene_205;
-01	MGA	CDS	136424	136753	.	+	0	Source=MGA;ID=01.cds_gene_205;Parent=01.gene_205;
-01	MGA	Shine_Dalgarno_sequence	136408	136412	.	+	0	ID=01.rbs_gene_205;Source=MGA;Parent=01.gene_205;
-01	MGA	gene	136746	136953	.	+	0	Source=MGA;ID=01.gene_206;
-01	MGA	CDS	136759	136953	.	+	0	Source=MGA;ID=01.cds_gene_206;Parent=01.gene_206;
-01	MGA	Shine_Dalgarno_sequence	136746	136750	.	+	0	ID=01.rbs_gene_206;Source=MGA;Parent=01.gene_206;
-01	MGA	gene	136961	137291	.	+	0	Source=MGA;ID=01.gene_207;
-01	MGA	CDS	136977	137291	.	+	0	Source=MGA;ID=01.cds_gene_207;Parent=01.gene_207;
-01	MGA	Shine_Dalgarno_sequence	136961	136965	.	+	0	ID=01.rbs_gene_207;Source=MGA;Parent=01.gene_207;
-01	MGA	gene	137292	137473	.	+	0	Source=MGA;ID=01.gene_208;
-01	MGA	CDS	137306	137473	.	+	0	Source=MGA;ID=01.cds_gene_208;Parent=01.gene_208;
-01	MGA	Shine_Dalgarno_sequence	137292	137296	.	+	0	ID=01.rbs_gene_208;Source=MGA;Parent=01.gene_208;

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/cpt_convert_mga_to_gff3.py	Mon Jun 05 02:40:41 2023 +0000
@@ -0,0 +1,125 @@
+#!/usr/bin/env python
+import sys
+import argparse
+from Bio import SeqIO
+from Bio.SeqFeature import SeqFeature
+from Bio.SeqFeature import FeatureLocation
+from CPT_GFFParser import gffParse, gffWrite, gffSeqFeature
+import logging
+
+logging.basicConfig(level=logging.INFO)
+
+
+def mga_to_gff3(mga_output, genome):
+    seq_dict = SeqIO.to_dict(SeqIO.parse(genome, "fasta"))
+
+    current_record = None
+    for line in mga_output:
+        if line.startswith("#"):
+            if line.startswith("# gc = ") or line.startswith("# self:"):
+                continue
+            chromId = line.strip().replace("# ", "")
+
+            if " " in chromId:
+                chromId = chromId[0 : chromId.index(" ")]
+
+            if chromId in seq_dict:
+                if current_record is not None:
+                    yield current_record
+                current_record = seq_dict[chromId]
+            else:
+                raise Exception(
+                    "Found results for sequence %s which was not in fasta file sequences (%s)"
+                    % (chromId, ", ".join(seq_dict.keys()))
+                )
+
+        else:
+            (
+                gene_id,
+                start,
+                end,
+                strand,
+                phase,
+                complete,
+                score,
+                model,
+                rbs_start,
+                rbs_end,
+                rbs_score,
+            ) = line.strip().split("\t")
+            start = int(start)
+            end = int(end)
+            strand = +1 if strand == "+" else -1
+
+            # Correct for gff3
+            start -= 1
+
+            rbs_feat = None
+            if rbs_start != "-":
+                rbs_start = int(rbs_start)
+                rbs_end = int(rbs_end)
+                rbs_feat = gffSeqFeature(
+                    FeatureLocation(rbs_start, rbs_end),
+                    type="Shine_Dalgarno_sequence",
+                    strand=strand,
+                    qualifiers={
+                        "ID": "%s.rbs_%s" % (current_record.id, gene_id),
+                        "Source": "MGA",
+                    },
+                    phase=phase,
+                    source="MGA",
+                )
+
+            cds_feat = gffSeqFeature(
+                FeatureLocation(start, end),
+                type="CDS",
+                strand=strand,
+                qualifiers={
+                    "Source": "MGA",
+                    "ID": "%s.cds_%s" % (current_record.id, gene_id),
+                },
+                phase=phase,
+                source="MGA",
+            )
+
+            if rbs_feat is not None:
+                if strand > 0:
+                    gene_start = rbs_start
+                    gene_end = end
+                else:
+                    gene_start = start
+                    gene_end = rbs_end
+            else:
+                gene_start = start
+                gene_end = end
+
+            gene = gffSeqFeature(
+                FeatureLocation(gene_start, gene_end),
+                type="gene",
+                strand=strand,
+                id="%s.%s" % (current_record.id, gene_id),
+                qualifiers={
+                    "Source": "MGA",
+                    "ID": "%s.%s" % (current_record.id, gene_id),
+                },
+                phase=phase,
+                source="MGA",
+            )
+
+            gene.sub_features = [cds_feat]
+            if rbs_feat is not None:
+                gene.sub_features.append(rbs_feat)
+            current_record.features.append(gene)
+    yield current_record
+
+
+if __name__ == "__main__":
+    parser = argparse.ArgumentParser(description="Convert MGA to GFF3", epilog="")
+    parser.add_argument(
+        "mga_output", type=argparse.FileType("r"), help="MetaGeneAnnotator Output"
+    )
+    parser.add_argument("genome", type=argparse.FileType("r"), help="Fasta Genome")
+    args = parser.parse_args()
+
+    for result in mga_to_gff3(**vars(args)):
+        gffWrite([result], sys.stdout)

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/cpt_convert_mga_to_gff3.xml	Mon Jun 05 02:40:41 2023 +0000
@@ -0,0 +1,38 @@
+<tool id="edu.tamu.cpt2.util.mga_to_gff3" name="MGA to GFF3" version="19.1.0.0">
+    <description/>
+    <macros>
+        <import>cpt-macros.xml</import>
+        <import>macros.xml</import>
+    </macros>
+    <expand macro="requirements"/>
+    <command detect_errors="aggressive"><![CDATA[
+@GENOME_SELECTOR_PRE@
+
+python '$__tool_directory__/cpt_convert_mga_to_gff3.py'
+'$mga'
+@GENOME_SELECTOR@
+> '$data' ]]>
+</command>
+    <inputs>
+        <param label="MGA Output" name="mga" type="data" format="txt"/>
+        <expand macro="genome_selector"/>
+    </inputs>
+    <outputs>
+        <data format="gff3" name="data">
+		</data>
+    </outputs>
+    <tests>
+        <test>
+            <param name="reference_genome_source" value="history"/>
+            <param name="genome_fasta" value="ConvMga_In.fa"/>
+            <param name="mga" value="ConvMga_In.out"/>
+            <output name="data" file="ConvMga_Out.gff3"/>
+        </test>
+    </tests>
+    <help>
+**What it does**
+
+Converts an input MetaGeneAnnotator table to the GFF3 format.
+	</help>
+    <expand macro="citations"/>
+</tool>

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/macros.xml	Mon Jun 05 02:40:41 2023 +0000
@@ -0,0 +1,74 @@
+<macros>
+    <xml name="requirements">
+        <requirements>
+            <requirement type="package">progressivemauve</requirement>
+            <!--<requirement type="package" version="2.7">python</requirement>-->
+            <requirement type="package" version="0.6.4">bcbiogff</requirement>
+            <yield/>
+        </requirements>
+    </xml>
+    <token name="@WRAPPER_VERSION@">2.4.0</token>
+    <xml name="citation/progressive_mauve">
+        <citation type="doi">10.1371/journal.pone.0011147</citation>
+    </xml>
+    <xml name="citation/gepard">
+        <citation type="doi">10.1093/bioinformatics/btm039</citation>
+    </xml>
+    <token name="@XMFA_INPUT@">
+		'$xmfa'
+	</token>
+    <xml name="xmfa_input" token_formats="xmfa">
+        <param type="data" format="@FORMATS@" name="xmfa" label="XMFA MSA"/>
+    </xml>
+    <token name="@XMFA_FA_INPUT@">
+		'$sequences'
+	</token>
+    <xml name="xmfa_fa_input">
+        <param type="data" format="fasta" name="sequences" label="Sequences in alignment" help="These sequences should be the SAME DATASET that was used in the progressiveMauve run. Failing that, they should be provided in the same order as in original progressiveMauve run"/>
+    </xml>
+    <xml name="genome_selector">
+        <conditional name="reference_genome">
+            <param name="reference_genome_source" type="select" label="Reference Genome">
+                <option value="history" selected="True">From History</option>
+                <option value="cached">Locally Cached</option>
+            </param>
+            <when value="cached">
+                <param name="fasta_indexes" type="select" label="Source FASTA Sequence">
+                    <options from_data_table="all_fasta"/>
+                </param>
+            </when>
+            <when value="history">
+                <param name="genome_fasta" type="data" format="fasta" label="Source FASTA Sequence"/>
+            </when>
+        </conditional>
+    </xml>
+    <xml name="gff3_input">
+        <param label="GFF3 Annotations" name="gff3_data" type="data" format="gff3"/>
+    </xml>
+    <xml name="input/gff3+fasta">
+        <expand macro="gff3_input"/>
+        <expand macro="genome_selector"/>
+    </xml>
+    <token name="@INPUT_GFF@">
+	    '$gff3_data'
+	</token>
+    <token name="@INPUT_FASTA@">
+    #if str($reference_genome.reference_genome_source) == 'cached':
+            '${reference_genome.fasta_indexes.fields.path}'
+    #else if str($reference_genome.reference_genome_source) == 'history':
+            genomeref.fa
+    #end if
+	</token>
+    <token name="@GENOME_SELECTOR_PRE@">
+    #if $reference_genome.reference_genome_source == 'history':
+            ln -s '$reference_genome.genome_fasta' genomeref.fa;
+    #end if
+	</token>
+    <token name="@GENOME_SELECTOR@">
+    #if str($reference_genome.reference_genome_source) == 'cached':
+            '${reference_genome.fasta_indexes.fields.path}'
+    #else if str($reference_genome.reference_genome_source) == 'history':
+            genomeref.fa
+    #end if
+	</token>
+</macros>

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/ConvMga_In.fa	Mon Jun 05 02:40:41 2023 +0000
@@ -0,0 +1,2300 @@
+>01
+TACTACTATTACTACTACTAAGTACCTTTGTTATGTACTACTATTACTACTACTATTACT
+ACTACTATTACTATTACTACTACTATTACTACTACTATTACTACTACTATTACTACTACT
+ATTACTACTACTACTAAGTACCTGGGAATTCTTTTACCTCTCTCACTCAGCCTATTACTT
+ATTACCGACTTCCCTAACTACTTATTCTATAGTTATAATATTCATTTATTATACAATACT
+TAAACTATAGTATTCTACTGTTAATCTATGCTGAAGCGGTCTTAATCTATGGTTATTATA
+TAATAATCTTATATAATGGTACATTAATCTAGTATATTACATTAGAATCATTCTAATCTA
+GGATTTTAATCTTTAGACCCTAGGAAAAGTGGTACTAAAATATAAAACCCTATAGGTATG
+GGATTCTTATTTTTAAAATTACTAAAAAGTATTAGGTTTTCCCTAGGGCAAAGTTTTAAT
+GTACTTAAAATAGTAAGTAGCTACTTATCATTTAGGGTTCTATAATTGAGAATATTGAGA
+GATAATCCGCTTCAATTGTAATTAATTGTTGACAACTATGAAGCGGGTATGCTATAATTA
+GGTATAGTCAAATTTAGGAGATGAAATAGATGATTGATATATACTTAGGAGAAGGTTATA
+ATAAAGAATACTTGTCTAAAGCACTCAGATTAATCAATGACCATGCTCCTAGGGAGTTAA
+GTTATGATTTTAATAATGTAGAAGCGGATGTTAATATTCACACAATGTTATATGTTAAAC
+CTGAAGATAGATTTATATATAAGGATATATCCTATTACTTCCCGGGTGATTTAATTATTT
+GTATAGTTGATGATGATGCTATTGTATACCACCAAGGTGAGCAGATTTCAGGTATTAGTA
+TTTTAAGAATACTAGAAGAGATATTTTAAGGAGGATAAGTAATCATGATAGGAATAACAA
+TATTAATTACGATAATGAGTATATCAACTATCTCTATGTATATTTATTTTTTAGTAGACT
+TGATTCAGTCAATCAGATATAATAGTTTTGATAAGGTAATTAACGTCATAACATTTGTAC
+TTATGACAGTTATAATAGCATCAGGTATTTTAGCTATACTTGGAATATAGAGCTCATTTA
+AGAAGCGGTTAAGTAGTTAGAGGGGATTTGTCCTAAAATAGTATACCGCTTCTATATGGA
+AGGCTGAGAGGTCTTAGAATTGAAAGGAGAGATATAATGATTCATATATTTGTAAAAGAG
+GATTATAATAAAGAAACATTAAGGAGTTTACTTGAGTATATTAATGATACTGTAGGTAGG
+GAATTAACTTATGGTATTAATACAGACTATGATAAGGATGTCGTGATTGAAACCGATGAC
+CCTATAGATGAGGAGGATACAATTGAGTTATCAGGTACAAACATGTTCAAGGATGACTTA
+TGTATTCTTATAGAAGAGCTATACTGTAAGGCATTTGTTAATGGTGAACCTGTTATTATA
+CGTAAGTATGTAGAGGAGATGTTATAATGATTATAATATTTTTAACTGAAAAATATGATG
+CCAAGGCTTTAAAGAAAGTATTAGAACATATTGATAATTGTAGTAGTAGAGGTCTTAGCT
+ATTTAATGGGAAAAGGAGAAGCGGATGTATGTATAGAGAAAAATGTATTTAGAGAAAGAG
+ATGATGTAAGGATTAACTCAAACATTATTGATGAAGGTAAACTTTGTATACTAATAAATA
+GACATGGTTTAGAATGTAGCTACTATAGAGGTATATCATGTAATATTGGTTCCTTCGTAA
+AGGAGAGATTATAATGATAGAGATATACCTTAGTGAAAATTATGATAAGAATTTACTAAA
+AGCAGAATTAAAATGGATTAAAGAGACCGCTTCAAGAGAACTAACTTATGATGTTAATAG
+AAGTCCAGGATTGGATGTTTATGTTAATCCCTATAGGTGTACTAAAGACGAAGTTGAAGA
+ATGGAGTACACTTCCTCCATTTGAAGATGATATACTTGTATTTATAGCGGAGACGTGGAT
+ACATGAATATCTTAAGGGTGAATCAATAGGTGTAGATAGTATGGAAGAGTATGTAAAGGA
+GATGTAACTAATGTTTAAGGTATATTATACAGTCTACCATAGAGGTAGTATGAAAACTAT
+TAAGGATAAGCTAGATAGAAGTAGTTTAATATACTTCTTGTATGATACTTGGTATAAAGA
+TATTAGTAACGTATTCCCTAATCACTATAATAAAGAGTTTGGGAGTAAGAGTGATGATAT
+AGATATAGATAAACTTATTGAAGCGGTTAATGAGGAAGGTATATTACTTATCAATAGAGG
+TAATTATGTTACAATAAGAGAATGGTAGGATAGGATAAACTTAGGATAGAAAATAATTTA
+GGATGAGTTACAATAGGATAGGATAGGATAGGGGGTTAAGTTAGGATGGATACTTTAACA
+TACACTATTATTCATAAAGAATCTGATAGGGTAATAGCTAGCGGTTTAAATGAGACAGAA
+ACTATGAACTTAGTTCAAAGGATGATAAATACTAATCTAGTTACTGATATATCATTAGAT
+GATTATAAACGCAGACCACATGGAAAGATAGATGTAGTCAATTTACTAGTAGATATTAGA
+AGACAAGGCGTATTTGATTTCAATCACATTTGGCACGTAGGATAGGAGGGATAGGATGAT
+AGTTATATATACAGATGTTTCTAAGGATTATTTAAAAGACGAGTTCTTACCTTGGCTTAA
+TGAAAGGGATAGATACTTAGAATACTATAAAGATGAATTACCTGAGGATATAGATTCCTC
+TTATATTGTATCAGTTGTATACTGTAAGGATATGGAAGGTCTATTAGAAAGAAAAGACAT
+TGTTCTTGATAATAGTTATAATGAACCTGTAGCTTTATTAGGTGTTCCTGAGTTTTTTGG
+TAATTATAGTAATTATTTCTATTATAGAGGAGAAAGTATTAGTAAACATGACCTAGGAGA
+AATTGTTAGGTTAAAAGCTTGGCAACGTATGGGTGGGGATTGACTAAGTAGCTCTCCCTA
+ATTTCACTAAGTAGCTCCCTAGGAATTGCCTAAGTAGCTCGGTATGATTTTACCCTAAGT
+AGCTCCCTCTGTTTTCTACTAGTTTATTTTAACCGCTTCAGGTGTCTATATATATATAGA
+CGGTTGGAATAATATCAGACCGCAAAAATAAATACACTAGGATATTATTCCTAGTGTATT
+ATATAATTTTTTTATAGAATATTTATAACATTGTATTCAAATTCATTTACTTCATGTTGT
+GATTTAATTAAATTTTTAATTAATCCGTTTTGTGTTTTATACTCTTTTATTAGTTTTTCA
+TTTTCTATAATTAAATTATTAAATTCTTCTTTTGTTGTTTCCTCATCTACATAAAATTTA
+CTTTCATATATTTCATAATATTTTTTATCTGTTCCGCCATCTAAATCATCTGATATTTGA
+TAATTTTTGAATATAATTTCTTTTGTTTCTAATTCATTTACTAATAATTGTGATTTTGCA
+TATTGTAATACATCTTCATTGTCCCACATTGGAATATAGTTTATTTTCATTTAAATCAAA
+TCCTTTTCTTATAATTTTTTTATATAATATTTGTAGAAGCGGTTGGGGTTTGTCCCTTGC
+CTTACTACACTTTATATATTACAGTATAGTTATTCAGAAGTCAATACTTTTGAGTAACTT
+TTTTTAAATTCTTTTTTCTTCTATATAATAGTAGTTTTTAGCCCTAAAAATGTTTTTAAA
+AGAATTTGCATTTTCTTATTGACTTTATTATCATATGGTAGTAATATAAAGGTACAGCAA
+GGGAACAGCAACAAGATATTAGAATTATATAAAAAAATTATTTAATTGGAGATGATTTAA
+ATGGATGTAAAAGAAATTGCAAATACTATAATGGAGTTGTGGCAAATGGACGGCTACAGA
+TGTGCAGAACCTCCATTATATGAAAGCACACTAAACCATACACGCACATATACGGCGTTA
+ATTGTTTCTATTAATGGAAACTATGACACAGTGCAGATGTTCCGCAAAACGCCTATAATG
+AGCATGAGAGGGCAAAGCCAACCGGCTAGCATGTTAGTTAATGTGATTGACGATGTAATT
+ATAATCGTATATGAAAATGTAGTGTACGGAGTTCAAAACAAAGAAATAAAATTTATTGAA
+GAAATTTAAAAATAGGGGTTGCAATCCTCAAGCATCTATAGTAATATAATAGGTGTAGGG
+GATAGCAACACACCTCAAAAAACTTTTTAAAAAAGTTAAAGAAAAGTGTTGACACCTTAC
+AAGATACATGTTATTATTAAGATAACAAATAAGACAAGCCACCTAGCAAATAACGAAATT
+AAATAAAAAAATTATAGAATAGGATTTGATTATTATGACAAACAAAAATTACTTATACGA
+AGAAACTCACACAGTACAAGGGCAAGACATTACGGCTTTCAGAATTCCAAATGACGCAAA
+CGGCAACCCACGTTATGTAGTGCATTTCATGGATTTAGATATTAAACTAGCAGACTATGA
+CAACATCAATAAACTATACGGCTTTAAAAAATATACTGCTAAATGGTTTGGCGGTGGTGT
+AGTATTCCAAAGTTATAATATAGAAGATACATTAAATTTTGCACTAGATAATGTTAAAGA
+AATAGAAGCGGTTAAGAATTAAAACCGCTTCTGAATTAAATAAAAAAATTATATAAAAAG
+GATATGATAATATGAAATTTAAAATAGAAAAAAATAATAGTGATATAAAAACTTTATGGA
+ATTTAGCAAAAAATGGATATATGAGCTATCAAACTGTACACAATATATTTAAAAATGAAT
+CAGATGAATTTATTATATTTAACAGTAAACAAACTTATAATAAATTTATGAAATTAAGAT
+ATAATAGAAGTGCAATACAATAATATAAAAAAAATTATACAATTCCCTAGGATTAGATTT
+CTAGGGATTTTTATTTATTTTAATTTATATAAAAAAATTATTTAATAAATAAATTAGTGT
+AAAATTGACTGTTGACAAGGTTGTATTTTTTATGGTATAATGAAGTGAAGACCTTTTTTA
+GTATAAAAAAATTATTATATAAAAAATTTATATTAAATGGTTTTAAAACCACTCTTTCCC
+GGAACCTCTTCTCTTATATAGCGGACACGTAGGCTCCTTACCGCTTTCTTACTATACTTA
+TAGTATACTATAGAAAAAAGAAAAGGTCAACCCTTTTCTTTAATCTTTTTTATATTTTTT
+TATAATTCTTCTAACGGTTATTTCACTTATATTATATTCCTTTGCTAACATAGGTTGAGT
+GTACTTTCTAGGCTTGTATTTGCTTGCTATGGCTTTTCTTTCATCTTCTGTTAATGCATA
+ACCCCTATTATACCTATTGAAAGTATTGTCTTTATGGTGCCTTTTATTGTGTTCTGACGG
+GCTAATACATTCTAGGTTATCAATACAATTATTTTGTTTGTTACCGTCTATATGGTGTAC
+ATGGTTTGATTTAATAAAATCATTGCCAAAATATTCATATACAAGTCTATGCACCATGTG
+TTTTTTATTATTGACCCTTACGGTTAAATATCCGTCACGGTCTTGATGTACTTTACTCAA
+CCTATCATTTATTTTTACCCTACCTAAATTAGAAACATAAAAATTATATTTATTAAAGTA
+TTCTTTTTTTATAGGTTTCCAAATTTCATTAATTTTATTTTCAACCATTTTTTTACTCCT
+CCTTTTTTGGTATCACTTCCATTATATAATAATTCGGTCTTAATGTCAATAGATAAATGT
+AAAAAAGTTTTTTAAATTAATTTCATTAAATCTATTGACTTTAATATCATTATAGTTTAA
+TATAAAGGTATACCAAATGAAAGGGATTGAACAAAATGATAAAATTTAAATGGAAAAACA
+AAACAATCAAATCAACACAAAAAACAGATAACATTCTCTTACTTATTATAGGGGGTTTAG
+TTGCAACAGTCACACCTAAACTTGTAAACTGGTTTTTACTACTACAAGATAATATAAATA
+TTTTTTTAAGATAACTATTGACAACCTAGAAACAACATGTTAATATTAAGATAACAAATA
+AATCAATAAAGGAAATGATAAAAATGAAAAAAATCACAACAACTTTAAACTTAATCGGCA
+TGAAAAATAATGAAAGGTTTACAGAAGAGTTAAAAAACTACCGTCAAGATGTTACTTTCT
+TGAAAGCAAATAAAATTGTAAAATATTCAAAATAAGGCTTGACAACTTAAACAATAGATG
+TTAATATTAAGATACAAGGTAAGGGAAGCGGTCAACCGCTTCCAACCTAAATAAAAAAAG
+TTTAAAAAAAACTATTGACAGTCACTTGAAACCATGATATTATTAAGATAACAAAAAACA
+AACAGAAAAGGAATTGATTATAATGAAATTTATCAAAACTATCGAAAACTTATTAGAAAA
+AGCAGAAAACAAAGGGCAAGCAATTTTAAATGGTCGTTACTTTGACGGATATAGTAAAGG
+TGAGCTTGAAGAAAAATATGCAATTGAAATTGATGGCAACAAATTAGTTATGCGTCATTG
+GGGTACACAAACAATTGAGATTGACTTAAGCATAAATGAGATTGTTTCATATTACGGTGA
+AAGCAACTCAGACCGTGACAGTTTAAACACACTTGTATATTGCTTAGGAATTGAACCAAA
+CTTTAGATACTTACCAAGCAAAGACTTGTTCATTTACGAAAATTAATTAAATAAAGGGCT
+TGACTTTCAAGCCCTACAATGTTATTATTAAATTGTAAGGTAATCAAGCACAACGACAAA
+ATAAACTGAAAAGGAATTGATACAAATGAAATTAATCAATAGAGATAATGAAATCGTAAT
+TAGCATAGCAACACTTGAGAGTGTAAAACAAGCCCTAATTTGGGAGTACATCGACCACTT
+AGATAATAACATCCTAGACAAAGAAATACATGACCAGGAAGCGGTTGTTATTACTTCAGA
+CACTTTGCAATCACTCAAATTTGCGGACACTATGGAAGAACTAGAAGAATATGTAAACGA
+CATCGGTTGGAAATTAGTTTAGAAAAGGTATTGACATCCTAACATATAGATGGTAATATA
+AGAGTATAGAAAAAATAAAAAAAGAAAAGGATTTGATTATTATGACAAATACAATACAAG
+CATTTTTACAAGGACAAGAAGCAAGCACAGTTAAGGACGTAGCAACTCATGGAGTACAAA
+GCGGAGCAATTGGCAAATTAATCTACACATCAGACGTAGTAAACTTCTTTGATAGTTACG
+AGCAGGACATTGAAGCGGTCATCACTGAATACATTGAAGAGGTTACAGGACAACAATATT
+ATGACTTATTGAACTATGAGCTTATGAGAGACCTCGAGAATTATGCAAATGTAGAATTTG
+AAGACGAAGACGAATATAATAACATTCAATTTGACCTAGCAGAAAACATTGCTTCTGATG
+AGGTTGAAGGATTTGAAGACATGGACGAAGCAGACCGGGCGGAAGCAATCTATGAGGCTA
+TGGATGATGTTGAATTAGAACTACAAGAAACTGACAAGGTTCAATATGTTAATCTAGCGG
+TTGAGATTGTAGCTCAAAGAATGGCACTATAGAAAGCACACAGAGAAGCGGAACAATACA
+GATGAACAATAATACTACTTCATATAGTAATAGCCCATATGGTAGCTTAGAAGAGCTTAG
+AGAAGCTTATGACCTATCGTCATTATCTACTGGTGAGATTAAAGAACTAATACAAACATT
+TGTTTAAATTATTTTATCAAAACGCTTTACAATCTTTTAGTTTGTATGGTATAATGAACT
+TAACAAATTAAAAGAAAAGGAAATGATGAACATGAGAAACTTATTAGAGCAGGAACAATT
+AGAAAAAGATGTAAAAGACATTATTTGGGTATTAGATAGAATGATTGCTAAAGGAGAACA
+ATACACTGAAGCTTACGATATTTTAGTTAACAAATTAGAAAGACAAGAAAAAAGAATCGT
+AGAAATAAAAAAACAAAATGGAATATTTTAAATAACAAATAGAGGGAATAAAATCCCTCT
+TTTATTTTTATCCTATTATATAATTTTTTTATATTATACGGGGGCAGGGGTAAAATGCCA
+CTCAATGGGGGTGGGTCTATATACCCCTATGGTCTACCCAGGTACTTATTTTTTGGGAAA
+AATTATGAAAATAAATATTTAAAAGTCAACACCTAAAATATAGAAAGTAAGTCAACACCC
+TATATTAAAAGTCAACATTATAACCCCTCCCTGTAAGTCAATAATTTATAGTACAAATAG
+ACAACCTCTAAATATAAAGTCAACATACCTAAAATAAAAAAAGAGGGAAATTAAATCCCT
+CCTCTTAGGTATTATTAACAAACTCTAATTCATGTATAGTAATCATATCCATTCCATAGA
+AATCTCTTGGGTCTCCTTTAATGAACTCTTGCTCACCTCTATGGTTTGTTTCCTCTTTAT
+AACCTTCTTCTTTAATACGTTTAATTAAGTTCTCCTTATCTGTATATATCTTATCTTCTC
+TAAAATGGAAGTTATCTTCATAAGGTTCACAATTATCATGTTCTACTTGGTATAGTTTCA
+TATTACTTATTCTCCTTGATTTTTTTTAGATAGTTTTCATAATAAGCTCTTGATTCTTGT
+GTTAACTTTTCTCTTTCTTCTCTAGACCATTGTAATGCTCCCCAAAATTTCTCATAATTT
+TCTTTTGATAAGTCACCTAGTGGACTGCCCTTAGGTAAGTCTTTAGTAGCTTCTTTTTGT
+ATTTTTTCTCTTTCTTTTTTAATTTCATCTAGTTTTTCTTGATTACCTTTAAATGTGACT
+CTTGGTTTGGATAGTAAGAATTCTAGTATTTCTTCATCTGTAAATACCTTTGCATAACTA
+TCTTTCCATGTAGTATCTTCATAAGAGTGTTTACCTGTATCTTCTAATTCTTTTAACGCC
+AATTTTGAGTAACCTTTTGCATCTATAAGCCCTCTAGTATACATACTTGCAGGGTCTAAG
+AATTTTATTTGGTTCTCATAATTAATAATACTTGTTTCGAGTTTAAGTTTGGCTTGTTCT
+TTGTTCATACTTAATCCTCCTTATACATTTACACTCATGATTAAGTAAAAGTCATAGAAT
+TTACCTTCATATTGTTCTACATTGTATATATGAGACATTAATCTATAATAATATTCTGCA
+TCATGTGTACCTTTAAACGTTTTTTCATTAAACTCATTTTTCATTAGATTAACTAACTTG
+TCTTTAGTTAGTACGAATACACCTTCACACCATTCTTCAAACTCATCATAATATGTCTCT
+GCATCTCTTAAAAGTAAGTCCATAAAATATCCTGGTTTTCTAAAGTCATCTTCAAAGTTA
+AATCCTTTATAATAATTCTTTTCTAATATATGTCTATACCTAGCGTTATTAATAAAGTGC
+TGTAAGCCTTTCTGTTCCACTTTTCTATTACTTAATGTCACACCGATTACTTCAAAGTCT
+AGTCCCATTATTTTTCCTCCTCTTCATAAGACCACGTACCATATTCTGCATTATAGTGTG
+CTGTATCTGCACCTTCATCTTCATATTCTACACTATACCATGCATCCTCCTCTGTTTCTG
+CATCTATATATCTTACCTCTTCTGTAGTAATAGTACGTTTTACTTTGTATCTTTTCAACT
+GTTTTTCCTCCTTTATGTTTTCCTCTAGTATTTGTTTTAATGTCTGACAGTCTTTTTGGT
+CTAGAGTATCCCAACTCTCTAGATTTTGTAATTGATAAAGTAACTCATTTACAATTTCAT
+CGAAGGCTTCTGCTTTTTTATATACTTCTTCTAGTTCTGTTTCTGCTAATTTTCTATTCC
+TTTTAATTTGTTCTGCTTTAGTTACTAAGATATGGGCTTTATTCATTTCCTCTATAATAA
+AGTTTTTATAGTTTTCCATTATTATTTATCCCTCCTATTTTCTATCCGTTGTTTTATCTC
+TTCTCTATTGCGGTGGTGCTCCTTACTCATTTCTTTACGTTCCTTATTTGTTAACCTTAT
+TCTATAAACAAGGTAGTTAATGTATAAGATACCGGCTGACCATAGTAGCAAGAATGATAT
+TAAATAAGTCCATGAGATACTAATTTCTATCATTGTGAGTCCTCCTTATATTCTTTATAG
+CTCTTAATGGCTATTTTACAAATACCTCTATTTACAGCAACAAATACTATAAATGATAAT
+AGTGTTATAACTGCTCTTACATCCCCTGTAAAAGGTAATGATTGAAAGAGCAAATAGTTT
+TCTAAAACACTAATAGCTGTAATAGTAGTTAGATATAATATAGATAATAAGTAATCCTTT
+AATTTTAGTTTAACAAATGGTTTTTTGTGCTCACCTGTTCTTACAATACCATAAAGTATT
+ATGAACCACATAACAGGTACTAACTGTATAATAAAATCATTGTCTACATTTAATGCATGT
+AGAGCGTAAATAATAACTGCAGGAATACCTATAATGAATGCTAGGAATACAGAAAATATA
+ATTAACATTATAGGGAGGGCTACAAGAAAACCTAGCCCCTGTTTTGAATACTCTAATGTG
+TTTTTACCTAGGAACTTAAAAAATGTTTTATTCATCTTCTTCCTCCTTGGAATTACTTTC
+TGTAATTGTAATTTCTAACATATTATTGTAATAATCATTCTTTTGATTGATATTATAGTT
+ATCATTGTATTCATTAAAGTCTACATAAATATATTCATTTGCGTCATTTTCATAAATAAT
+ATCTATAGCTGTAATATCTGAATATGCTGTAATCATTTCATAAGCGTTCGTATTATCAGG
+ATAAGCAAAACCAACTTGAGGTATTTCCATAGGCTTATCAATAAGAATACCGAAATAAGT
+ACAGTGACGTGTTCGACTTATACTTGAAGTCCCTTTATATGTACCATAGTAATCTATACC
+TTCTGTAATACCTGATATATGGAACCTGCTTACGTCTTTAGGCTCTAATCTTACAACATC
+GCAATTTTCTAATACTAAATCAATATATTTGATATTCATTTTAACTCTCCTTTTATATTA
+ATAATTCTTTCCATTCTTTATCAACCTTTTTAAGTTCTTTTTTATTATAGTCCCCGTCTT
+TAGTTACTACAGTGTTCCATTGGAACTTTTGTAATAAGCTAAAATTATTTATAATCCATA
+TATTACTTTTACTATAATACATATTGTCTTCAAATCTTATATCTTTTTCTATAAAATATT
+TATATATTTTATATCTTCTTTCATCTGCACCTGATATTTTAATAATTTCATTAGTATTTA
+ATTGAGTGGATAACTGGAAGATAACATCTTTTACTTTCAATAGGTCTTTAACATTACCTC
+TGCCTACATGGTCATTATAGCAATCATATTTAACTTTTTTCTTTTGTTTTCTATCATTAA
+CTACAATGAATATATTATATACGATATAAGCTTTAAAATGGGTATAGGTAGTAGGTGCTT
+CTGAATCATCACATTCTTTTCTTAGGTCTGTACATTGTATTTTTAATGTAATATTATTTG
+ATATGTTAACTACAGTAGAGCCCTCATGTTTTTTATTAAGATTTATCTTATCCATTTTAT
+AATTACCTACTTATTGTAGATACAATGTACTCGAACATCTTCCATTACTTTGCCTAATAG
+ATTCTGACCTTTCCAGTTACTTTGCTCTAATATTTTAGGGTCATTTGCTTTAAGACCTAC
+TCCCCATATTTTATCATAAGGTGAAGCTTCTACAAAATCTTTACGTACATCTGTGTCTAA
+TATTCTTTGCTTTAGGTGTGTAGTCATAAATTTATCTTTAACTACTTCTACCATAATATT
+ATATCTTACTTTATTCCACTGTTCTTCATTAAAATTACGAACTTTACGACCTAAACTTTT
+AGCATGGTTTGGGTTCTTAGCATTTAGTATTTCACCTGCTATTTGAAAGTCATTAAAGTA
+TCTTGCTTTGCGCCACATAAAGGCTTGCTCTGAGTTATTAAATGTTCTTCCTTGGTGTTT
+AAACTTTATAGGGTAGAAATTAGAATAAATATCCTCTTTACCCCAAAACATAATATATTC
+CCTTGTTTCTCTCATAATATTTCTCCTTTAATTCCATAGTGATGGTAATACAATTTTAAA
+ATTATCTAATATTTTACTTTGTACCTGTTCAAGCTCATCATATTTATCCATATCAAAATC
+ATCCATTTCTTTATGATAATATTTTATTAAGCTTAAAATATGTTTTATCATATCTATTTG
+TGTTCTTTCTTTGCCGTCTACATCTACAAAAGTATGGTATTCCATATCCACATGATTACT
+ACTCTCTATAAATGCATTTAGGTCAGCGTATAGCTGAATAAAAAAGGACATGTCATAATT
+CCAATACTTAGGTTCATTTCTACCTAGTTTTTTCTTCATTTTCTTATATTTTTTATTCTT
+TTTTATCCCAAAAACTTCTTTTTCAAAGTCATTCAATTTAAGACCTTTAAAATATTTTTT
+CTTCATTTCTTAACCTCCAATTTAATAAATGGAAAATCAATGTTTCTAAATACTGCGCCA
+ACATCACACATTAACATGTCTCCATTAATTTCTACTTCTCCACTGTCTGTAGGGGTGTGA
+CCACATACATAGGTAAAACCATCTTTTCTAGGTTGAAAGTCTCTTGACCATATTAATTGG
+TCAATTGTTTGTTCTTCTACAGGTTTCCAACTAACCCCACCTGAATGAGAGAATATATAC
+TTGTCTTCTTTATAGTACTTTCTACAATTAACCATAAGTATTTTAAATTTTCTATAGTCG
+TCTGATTCTTTAAGTTTCTTTAGTTCACTTTTAATAAAATCATAATTATTTCTTAGATTT
+TCCTCTACACTACTATATTTTAAAGTTACTGTACTCACACCGTAAGAGTTAAGTGTTTCT
+ATACAATATCTTGAGAGCCATTCAATATCATAGATACTTAATCGGTCTACGTTTTCCATA
+ATATTATAAAACTCATCATCATGGTTCCCTAACAGAGTTACTACATTATCATCATTAGAC
+ATTAAATCAAATATATAGTTAACAACATCTTTTGACCTTTTACCTCTATCTACATAATCT
+CCTAAAAATACTATTGTTTCTTCAGGTTTTCTTTCATTATTTATTTTATCCATAATTGTT
+AATAATTTTTGGTATTCTCCGTAAATATCGGGAACAACGTATATAGCCATCTAATCTCCT
+CCTTATTGTATATAACTATCTTACCATACTTAGTAAAAAAAGTCAATAAAAAAACACCTA
+TTAAATTAATAGGTGTTTATCATTTAATGTTATTTTAAAGTATCATTACCATGTGCTAAT
+TTTTTATCATCTATTGCATGGTCATTATAAATATATTTAACCTCTATATACTGGTCTTCA
+CTTTTCAGTGCATCTACTATAGAAGCATTATTAGTTATTGAGCTTGTTCTAGGGTAAGTA
+AATTTTTGACCGTCAGATAAAATAATAGTAACATCAACTTCAAAGTTAACAGGTAGTCTG
+TATCCATAATCTTCCAAATAATTAATAAAGTTATTAAGAGAAAATGGTTTATACTTGCCA
+TCTAAGGTATAGTCAATATATTCATTTAATGCATTAGTAAGTTCTGATTCTGTTAACTCC
+ATTGTATCATAATCTTTTTCGTTATAGAATACTACAACATTAGGTTGTTCTATACTAGAA
+TCTCCGTCTTTATACTTAGATATAAAAAATCCAATATTTCCTTTATGCTCTAAATAATCT
+GCTTTCATAATTTTAAGTACTTCTTCTGCTATAGGTTTTGCTAATAGTGTTACCCATTCA
+CCTTTTTCTGCGTCATAAACACTAGGTAGTACGTTTACCATCATTTAAATCTCCTCTTCT
+TAATTTATTGGTTTAAACCACAATTTACTCTTATCACTTGGTTCTGTTTCACTAACTACG
+AAAGAGTTAGAATCAATGTTTAAAGTATTAAAAACAATTTCTTGTTTGTCTTCATTACTT
+TTTGTTGTAAATTCGGGAACATCTGTTAATATAGACTCTTTACCATTAATAGTCCATGAT
+ATTTTAAAAGACCCTTGGCTATACACTGTATTCGGTGTCAGTTTTTCAATTATAATTTTA
+GCGGATGCACCTGTAATTTTTTCTGAAGATTTTAATAATTTACCTTTGGAATCATATAAG
+TTTAATGTTCTCTCCACAAATTTTATCTCCTTTACTATATTTTGTACAATTAATATAACA
+AAAAAACACCTATTAGTTTAAATAGGTGTCCGACAGAGCTCCCGTACTTAGATTACGGTT
+AATAATATTTTACGACAACTATATGAGACCCTCTGTCGTTGAAACTCTTGTCACTGCGTT
+ATTCCACAAGATATTTTAGAAGGTAGCTTGTGGAAGAAGATTGTTTTTAAAGGTACAATT
+AGCGTTTTTAAGCCTATTCGATACCCAGGACACTATGTCCGTACTAACTATTACGTCAAT
+AAAGGTTCTACGGTCTCAATTACCTACTCTTTATTGTTAAAACTAAAATTAAGCTTGAGT
+GCTCTAGAAGCCAAAATCAATTAATTAACTATAGATACGGAATGGAGGGGCACTACCATC
+CGGAGTCTACGGTCAGATACAAAGCCTCTGCCGGGCAACATACGGTATCTCTCGTACATC
+AGGTTGACTAGACCTTTAGAGTTTTTCACTCCTTCTCTTATAACCAGTAACTTAAGAGAA
+ATAGGTTTTACTTAGTAGATATGAAACAATAAATCCACATACAATATTAAATCATAGTCA
+AGTGATTGCACATATGTCTAACACCTATAAGTTTTTTGCTAGCCTGGTATATGGACTCTG
+CAGGATTCGAACCTACAGTCAAACCGTTATGAGCGGTTGGCTTTACCTTTAAGCTAAGAG
+TCCTAGAAATATCCTGAGAGAGGACTCGAACCTCAACGACTAGGTAGCTACATCTAGCCA
+ATGCCATTACTCAGGATTGCTAGTAACGCTAAATAGAATTATAACGTTACCGTAGACCTT
+TTCTACGCTTGGTAGATAGGTAAAATATAATGATTTCAAAGTACCCATATAGTTAGGCTC
+TTATTCTCATTATAAGGTTAAAAAGGCTAACTGTGTTTAGCATTATATAAGAGGCTTTAG
+TTAACTACTATACTAATAATATACCATAAATTATACTTAATGTCAAGTTAATTTATCAAT
+TGAATCTATAATTTTTGATGTGCTACGTATATCTGCTTCTTTACTATGTTTAAGGAGATA
+TTTTAATTTCATTAAAAAAGAATTTTTTTCTTTTTCTATAATATCTTCTTTATCATCATA
+TTCTGAAAACATAATGAATTCTATACCTATACTATTTCTATTATGTGAAAACATATTTAT
+AGAAAAAGGTGAATCAAAATTTTTATCATCTTTATTAATACTAAAGTCTTCAGTAACCTG
+TAAGTCATTTATTTCAGATATTTCAAAGTAACCATTAACTCTTTTAAGTTCAATATAACT
+ATTGTATCTAAAGTAACGTTGTTCTTCTATTAACTTCTCTTTTGTTATATAAGGATATTC
+ATTTATGAATATAGGATTACTTGTTCCATAGTTATCTCTAATATATTCTGCATCCTCTAG
+GGAATCAGTATAACCTAAAATTTCATAACTTGTTGTATACACTGTATCTTCTTCCCACAA
+GTCATAGTCCATTTCCTCTATTTCTTCTTCTAATATATAAATTTTTTTCATATATTACTC
+CCAAACCCCGATAAGATTTTTAAGCTTAGCTATAACCTCTTCTTCTGTTTGATAAGAAAA
+TACCCCTGTAATATGTTCATAGTTACCTACAATTTCATAATCTTGTGTACCATGTTTATC
+TACTAAGTATGAGTTATTCATAACATTTAAACTATCTTCTGAGTAACTAAAATTTATGTT
+ATAGTCTACTAAAAAATTAATAATATTTTTCATTTACATAACCTCTCCTATCGGATATTG
+TCCTAGCATTCTTGTTCCATTTTCATTATAAAAAGTATATTCTACTACAATAATATTCAT
+CATATCTACATATATAGCTTCTATATACGGTGTAATATTTTCCTCTTCTTGTATGTGTTT
+ACCTATGATATCATATAATAATTCTGAGTGTATTCGTTTATCTCTCATTATAGACCTCCG
+TAAGGAATTCTACAGTTTTGTCTTTCAAAGATTTTTCTACTAATTCCATAGCATCTTTAT
+AGTGTTTGATATTAGATTCATTAGACTTAAGTTTATCTTTTACTTCTTGAATTAGGGGCT
+CTACTTTATTAACCAAATCTTTTTTCTTTTCAATACTTACATTGCTTCTCTTATTGTCTA
+ATACTTCTTTTGGCATATATTTAACTTTTGCAAAGTCTTTATAGCTAACATTTAAGTTAT
+CTAAATCATCTAATAAATCATTATAGTATTCTAAATGATTATAGAATGTATAAAACTTAA
+CAAGGTCTTTACCAGTTAATTCTCCTTTTTTTAGTATATTATTAATATTACCGATAACAG
+AATATGCTATAGGCTTAAAATTAGCTCTAACATAAGTTAAAAATATAAAATCATCATAAA
+ATAAATCTAAAACAGTTTTATTGAATCTAGTATTTTTAGCTTGCTCTAATTGAGCACATA
+AATTAAGAACATTATCAAACCCACTTTTTAGAACTAAAGAGATAAATCTTTCTACTGCAT
+AGTATCTTGATACTTCTGTATGCTTACTTGCTTTTTCATTATTCCTAAATATAGTATCTG
+ATAAAGGTTGAACAACTAAACTCATGTAATCTTTATCTGAATGCTCATCTGATGTTCCTT
+GATAAGTACTTCCAAATTCTATTGTTGATAATAAGAAACTTTTTTCTAAGTTCATTATAA
+CATCCTCCTTTTATTTGTTATTTAAATAATAACATATATTGATAATAATGTCAATACTTA
+TATATCTTCTTCTGTATCAACTTCATCTTGTTTATACTTAAAGTGTTCATAGACTTTAAA
+TAGTATAATCCCTAGTGTTATTAATCCTAAAATATATTTCATAGCAATCCTCCTTAATAA
+CCATGTTTAGTTACCCACCCTGCTAAAGCATCCATAGCTATATCATATTCTTCTTCATTT
+TTAATTCTTATAATTTTCTCTATTTCTTCCTTTGCTTGCTTAGAACTAATAAAATCAATA
+TCAGTATCCTCTAGGTTAGTTAATTCTAAGTTTTCTCTAATAAAATTCTTTTGACTTGGT
+GTTATAGAATTAACTCTTACATTTTCGTGATTTAGAAATTGGTAGAAGTCCATATTACTC
+ATCCTTTTTAACGTATTCTGCCATATCTTTTAAAATACTTAGTACATACTCTAAATCTCT
+ATATTGGTCATCTAACGAACCTATAATAGCATATGGTGTCATATCCCAGGCATGTGCACA
+GTCAAACCCTAATACTCTCTTACCCTCATAGTCATAATCATCGTAAGTGATACCTCTATG
+GGCACGTCTTTCTAAGGAGTCATATTCTTTTTCATTGATATCTGAAGGTAAAGTTATATA
+TCCATTTAGATGACCAGTTTCAGGGTGTCTCTTAACAGTTAGTTTAACTCCTTTATAATA
+AATATCAAGACTTAAATCTTCTCCTAGAATATTGTTTTCTTTTTCTACTTTTTCCATAAT
+GTATTGAGGTGCTTTTTTAAACATAATTAGTCATCTCCTTTTTATTTATATCTTTACTAT
+ACACTATTTTTTATATTTTGTCAACAAAAAAAGGCTACTAATTAAAGTAGCCTAAATATT
+AATTATTTAGCGTTATAAGACCAACGCCAATAACCATTTTTCTGTGAGAACTCAAAGTGA
+AAACCATCATAGTCAAATTCAATATTATAGTCTCCATCTTGAAGTGGTTTTGAATTTAGT
+ACAGGACTATTACTCTTTGCCAATTCTGCTAGAAACTCATGATTTACTTTTTCCATAGGG
+TTTATTCCTCCTAATTATTCTTACAGTACTAATATATCATAGGTCTTTTTCTAAGTCATT
+TTTAAAAGTTTCCTCGTAAGAACTAGCGTAAGTAACCTCATAACCCACTACGTTAGTATA
+TCCTACATATAATGACTTATAATTAGATTTTATCTTAATATCTTCTGATTGTTCTAGCTT
+ATTTAAGACTTCACCTAAATCATCTGAAGAATAGTGTTCATTATCTATTGTTATTGTTTT
+ACCTTGGGTATAGATATCAATTTCTTGTATCATCATTTCATCCTTTTGATTATTCATTAT
+TTGATTATAAGTTTCTAAATCATCAATGTTATCTGTATCTGAACCTTTTACTAACCATTC
+TCCTCTCTTCTTAAGGAGGTCATCAAACTTCTCATGCTCTTTAATTATCTTTTCTACCTC
+ACTTGGTATTAACACAGCCCTAGCATAGTTTATATGCCACATAGACATATTATCAATAAG
+ATAATTAACCATTCTTATAATCTCTTTTTCATTTGCCATATACCAACCTCCTTATATCTA
+TTACTAATATAAGAGAAAAGCAGACTTATTAAAAGTCTGCTTCTGTACCTAATTCTAATC
+TTCTATTTTTCATATGAGGAATCATTTTTTTATCTCCTGTTAATAGAGATAATTCTCTAG
+CTTTTTCTTTAGATAATGTTAGTAGTCCATTATAATTATCTACTTTACTATTATATTGTC
+TGACTAAGTACTCTAGTTCATCTTCTATACCTGCTAGTTCTCCTGATTTAACTCCAAGTA
+ACTTTCTATACATGTCATAATCTTCAGAAAGACTTTCTACTTTGTTTTTAGATACAGAAT
+CATAAACTGCTTGTAAATTACCTTCTTCAATAAGTTTAAAATTATATTCACCAATGATTA
+ATTCTTTTTCAGAAGAGTCAAGGGTAACTAAACCACTTGTATTACCTGTAAAGTCACCTT
+TATAATCTACAACAATTCCTTCAGTTATTTTATCTCCTAATTCAATAGTTCCATCTTCAT
+TTTCTTTAAATTTATGAGCATCATAAACTTCTACTTTATCACCTAATCTCAAATCTTGAG
+TTAAGTTATGTTTACCAATAATTCTATCCATTACTTAACCTCTCCTTTATTAATAGGGTC
+TTGTGTTAAGAACATTTCTAAGTTCTCTTTTGTAATAGGTAACCAAAAATATTTACTTTC
+CGGAATTGTAACTGTATAGAAGTCTTCATCATTATTAACTTTGATGTTAACATCTGTAAA
+CTCATCTTGCATTAACCAATGGGTTACAGTTAAGTTATATGACCCATCACTAACATATCC
+TAAATCAATATCATGTCTAAAAGCCAAATCTTCTAAATGTTCTAATAAATCGTTCTTTTC
+ATTATGTTTTTCTTCTTCTGTATTATTTTTAATTGGGTTAATTAATTCTGTACAAACAAT
+ATCATACAATTCACCATCTGTAACCTCATAGTTCTTTTCAATTAATACATCTTGTATTTT
+ATTGATTGAATTTGTAACTACTTTCCCATATTCTTCTTCTGTAAACTTACATTTATCTAA
+ATCAACATCTGTAATTAATTCTGCAATCCATTTATTTAAAATTGATACTGCCATTGTTCG
+AGAAATAATACTATCGTATACCATATTTATTTAATCTCCTTATTTAGGTGAATGTGGTCT
+TCTAATGAAAAATCAAAAGGCGCTACACCATTTCTTTTATTATTTGTTTCTTTTTTAAGT
+ATAACATAAGTTAGTGAAAAAGTCAAGATAGTTACTACAACCATTGATAAAAGTTTAATC
+AGGTTTTTCATAGTTACTCTAACTCCTTAAGTTTATTTTTTACTTTCTCTTTATCGTACT
+TATAATCTTTACTAGAGTTTTCATTTTTTTCTTTCTCTTCTTCATTAAGTTCTCTATACT
+GAGCTTCTTCTACCTCTTGTTCTTTATTATCGTTATCTTCTTCTGCTTTTTGAATTTCTA
+CATTCTTACTACTACCATTTACCTTTTTTCTAAAAAGAAACCAAAGTATTAATAAAATGA
+TGAGTAAAATAACAATGCTCAATACAACAGCCCAAATATTATTAGCCATTACAACCTACC
+TCCGAATAGTTTTTTTACAGCTCTTAAGTTTTCAGATGAATCGTTATTTATATCAATTCC
+TACGCTAGAATCAAAAATTACAGCATTATCAAGTATATGCTCTGTTAATTTATTACCATA
+ACTACTTTTACTTACCACACTACCATAACCATGATTAGTTAGGTCAACCATATCAGGTTC
+AACTTCTAGTACTCTAAAAGATATTCTACGTAAGAATGAAGGATTTACTAAGTAAAAGGA
+AGATTTAAAAACATTTAATCTTTGATAAGAATGTTTTATATTAACAACAAACCCTGTTAA
+CTTATCTTCATATCCTGAATTTGATAACTTACCTAAGTAAAGGTTTATACTATATCCTTT
+TGTTTCTAATGTTTGAATAGCACTTAACATTATAGCCCCTCTGTAAGCAAGATTTTCAGG
+GTCTTCCATCCAACTAATACTAGAATTATAAAATACATCAATAACTTTCTTCTCTGCTTT
+AACTCTTTGCTGAGACATCATAGAATTAGGTAACCCTTTTATAGCATTAGGTACGTGAGG
+TTGATACCCTTCCGGAGCTACGACAGGTTTTCTTTTTACTGACTTATCCATTCTAAATAA
+TGCATCTGTCATTTTTTTAAGTTTAACTACCATATCATATGACTCTCTATCACCCTTAAC
+CATTAAGTTATAGGCTTCTTGAAAACTATGAGTCCCTGTAAAATCATAGCTACCTGTATC
+TGATGAATTATCTCTACCTGAAACTCTATTCTTTTTTAAAGCAGAAAAGAAATCAGGTAG
+ACCATCATATTTAATTACATTTAATTCTGAGTTATCTATTAATCGTCTACCCATTGATTT
+TCCTCCTATTCTAATCCTAATTTATCCATAATTGTATCAAAGTCCATTGAATCTTTTGAT
+GTACTATCAGATTTTCTAGGTTCCTGCTTAGGCTCTTGTTGCATACCTAAAAGCTTTCTT
+GTTGCTTCTGTGTATCTGTTACCCTCAGGTAAAGAGCTAATAAATTGATTAATCTCATCT
+TTCGGTACAGATTTAAAGATAATACTTTCTACAACAAACTCATCTTCCATTACTCCATCT
+AATTTACTACCATTAATAATTGCACGCATTGAGAATACATAAGGTAATCCTTTTTCATCA
+TTCTCATGTCTTAATTGTTGTACAAAGTTAACTAGGTCTTCATTGCTTGATAACTGATGT
+TCCACCTTAGTATCATAGTCAAATTCAACTTGAGCAAAGCGGTCTAATGTAGCTCCGTCT
+AATTGTTGTCTACCTACATAAATATGGTCTGCTCCTGTTCCCATAGTATTACCTGCTGAC
+ACAACTCTGAAATCTTCATGAGCTGTTACACGTCCAATAGGGAAGTCAAAGTATTTATTT
+GCAATAGCTGAATTAAGAATTAATAGTACTTCAGGAATAGATGCATCCATTTCATCTAAG
+AAGAATAACCCACCTTTTGTAAATGCTTTATAGAATTGGGTTTCATGAAACTTACCATTT
+GCATCAATAAATCCTGTTAATTTAAATTCTTGAGTAATTGCATTACTGAAATAAAAATCT
+AAATCTAGAGCTTCTGCTACTTGTTCTAATACATGGTTCTTACCTGAACCTGCTCCACCT
+TTTAAAAATACTGGAATATTTTGGTTAACTAACTTTAGTATATCTTGGTATCTATAATGG
+AAGATTCCTGAGATATCTTTAATTGTTTTTCCTTCTTGTTGTAATTCAATTTTAACTGGT
+AAATTACTAAGTTGTTCTTCTACATATTCTTCAATTTGTTTTTTAACGTCAGTAATAATA
+ATTTCTCTACTCTCAGTTCCTGCTTTCTCAACAATTGCATCTACAATTGCTTGTTCATAC
+GGATTAGAGTTTTTCTCTCCTAGTTTGTCTGCCAAGTCTTTTGTTGTTTCCATTTGTTGT
+TCTACCAATCTCTCTAATCTTTCAATAGTATCTTGCTTTGCCATATTTATCATTCTCCTT
+TGATTTGTTATACATTTATTATATTACAAGTATTTGTATTTGTCAACAACTTTCTAAAAC
+TTTTTTTAGTTGTTAATAAAAAAAAATACCTTACACCTATAACTTAACATAGGGTAAGGT
+AATTGTCAACACTTTTATTAAAAATACATTAATTTAAAAAAATCATCAATATCTTTAGTT
+TCATGTGTATCCATATCATACATAAACATACAATTATATGTATGATTATTCATTATTTCT
+AACATGTTATGCATAGAAGTTGCATTATTGAATTCCTCTAAATCAATAGTTACCGTAAGT
+TCTTGACCTTCATAAAGTATGTTTGCTATATAATATTTCCTAACACCTTCCATTGTTCCA
+TGAGAAGTTTCATTATGATTAAGTACTTCTACACCTAGTGAAGGTAAATATTCTGAAAAG
+TAATATTTACAGAAATATATAAAATTGTCTGTTCTTTTAGACACGAGTACTATCTCCGTA
+CTTTATATTTCTTTCTAATCGTACATAATATGTTTTAATTTTTTGTACTTCTTTATCTAC
+TGCATCCTTTCTTCCTAACCTTGTAGTATATTTTACAATATTAAATATCATAGAATCAAC
+AAAGCCATCATAAGAAAAATGTTCTTCTAGAAAAGAAATAACATCCTTACTACCTTTATA
+GTGTTCAGGTAAATGTGCATCTACTTGTATATTATAATAATCTTCTAAAAGACCTATACT
+TTCACCAAGACTAGATAAAGCGTAACCTAAATCATTTGAATCATTAGACCATTCTTTAGA
+TACTGATAGTGCATCTTCTATAATTGTTACTTTTAATTTATCTAAATAATCTTCTACTTG
+AGCTTGTGTTTTCATAAATTCTTTTGCGTTCATGTAATACCCTCCTAAATTATATAAAAA
+AAAACACCCTGCTTGGCTACAAGCAAGGTGAAAAAGGAAAGATATTATGGAAGTGTACTA
+TCTAAGTACACCTCATAATATAACAGTTTTCCTTGCTAGTTATTACTTATTTTTTAAGGT
+CTTCTTCTTTGACAAACACTCCATTAATAAGCTTACCTTTTCTGTCTTTTATCTCATCAT
+AAGCCATATCAATACACTCTTCAATATCTATATCTAACTGTAAACATAGTACTGTTAATA
+CTACAAAAATATCCCCAACACTATCTCTTGTTACATGGTCATTACTTTTAGCAATACCTG
+AAGCTAATTCTCCTGCTTCTTCTAATAACTTTAACATTTGACCTTCAGGTTTACCTGTTT
+GTAAATTTCTATCTTTTGCCCATTGTTTAATAAGTTCTACTTTTTCCATTATTCTATATC
+TCCTTTAATTTCTGTATCTTTGATAATTAGGTTATCAGAGTCACTTGTTACATTTAAATT
+ATCTTCAACTAATTCATGTAGATTATTAGTAATATCTTCTTCATACCTATAACCTACACG
+AACATAAGCTTTAACTCTGATATCTATATTAACATAATCTTCTTGGAATTTTTCCATTTC
+TAACTTCCTTTATTATATCATATTATGATACTATTGTCAATTAATCTGAGTAGTTTCCTT
+TAGCAAGTTGATACTTTTTGTGTAATTCTTCATATAATTCTCTCATACCTTCATAGTTTC
+TCATATCATCTTCCAAGAAACTAAGGTAATCTAATAATACTTTTACATCCTCAGGTTCTA
+AAGTTATAACTGGTTTTACCATTAGGCAACCTCCTTAAATTCTTCTTTATTTATTTTCTT
+GATATCTTTTTCTAATGCTTCTTTTAATTCATTAGGTAATTTATAGGCATCAATTGATTG
+TTGTTGACCTAATACATAACCATTATCTGTAATACGTATTTCCACTGTAAACCATGAATT
+ATCTAAATCTTCTTCTAATCTTGCTAATAATATTAAACAACTATTTTTTAGAATTCTGTT
+AGCATACCCACCAACACAATGAGATAACATTTTACCTTCATCTTTAAGTTTACTTACAGT
+ATCTGCAGGAAGGAATTTTACTTTTCTACCATCTTTTAATTTATAAGTTTTATCAATTAT
+TTTTTCTAATTTATTATCATATTTAGCTTTAAGTTCTGCATCATCTAATTGTTGTTGTAT
+AGATTGTTTCTCATCTGTAACTATATCATGTTCTAGTTTTAGTGAAAATGGTGTTAAACT
+AACACTCTCTAATGTTCTATAACCTTCTCTTATTAATATTGATAAATCATGTAAGTAATC
+TAAGTAATAGTTATCTAGTGCATATCCTGTTATACGTTGTCTGTCTTGAGCATCTACATC
+TAAATAGTGCGTCATCTTTTTGTAATTAGCAAAAGATATAGATAATATTTGATTCACAAT
+AGGTTTAACTTTTAAAGCATCTGTAACATCTCTTGAATCTCTAACCATTAAAAAGGTATC
+GTCAAACAATTGGTGTAAATTAACTTCATTGTGTAAATGATTATAGTGCTTATAGAGAAT
+ATTAGCAAATCTTAAGTAATTACCTTGCTCAAATTTATTTAAAGTTAGTAACTTTTTATA
+AGTCTGTTTTGTAAGATTGAAGGCTTCATGAACTTTCCATTTAGGTTTTTTAGGTATATG
+GAATAGTAATGCATTTCTTTCAAATAACCCAAATTCTTCTAAGTTATTTATTTTATCAAT
+ATTTTTAACAATATCTGTTAAAGTTATTAAGTAATTAGAAGTTGAATTTTCTCCTATAAA
+AATCCTATATTTATCTCCTCTATAATTTATATGACCATAAACATCTGTATTATCAGGACA
+CCAACTAGAAAAATCAAAATTATGGTGCTCTAATGTTTGTTCTATTATCTTTATTATAAT
+TCCTCTAGTTAAGTTAGGTTGTGCATAGTTTTTTAAAATAACATTTAATAAAACAGATAA
+AGTTAATTCATTCTTATATTCACTTTTACTAATATCATCTTTATATAGGTTTAAAGTTAT
+TTCTTTATTAACAAGACTATCTGTTAAGAAAACCTTAACTTCTCCTGTTTTAACGTCAAA
+TGAACTTTTATTTTCTAAAACCCATTTGTTACCCATATTATGTTTATCTCTAATATGTTT
+AACTTTAAGACCAAAAGATGAATAGTTTTCAGTACTTGGATGCATGTACCAAACACGGCT
+ATATAATTCATCTGTCATAGCACTATAGTACTCACTAGAACCTTTTTCTATATCTTCATT
+CATAACAATAATAGATGACTTTATAAGACCATATTTACCTTGGTCTAGTACATCCATAAT
+ATCATTATTTAAACTATCTACTACTTTTTTATATTCTTCTAATTGTCTAGATTCATTCCT
+CCATAAATGGTCATTACCTTCTAGTTCTTTAATTTTTTCTTCAACATAACCTTTTGATTG
+TATACGTCTTCTACTCTTATCACCATATACAGGAAAATCTTTTCTTTCTTCTCTATTAGA
+TTCAATATACTCTTTGTAACTTCTTCCTTTATTATCATCAACTACACCTTCAACTAATTT
+TTCAACTGTTTCATAAGGGTTACCTTCAAAGTTTGTTACTTCTTTATTACCACATAGGGC
+TAAAAATAAATGTATTTCTGTGGCTGTATCAAAACTAAATATATTATGAATATCTCTAAA
+TAATTCTTTAGAACCTAAGTTAATTATATTATTTTTCTTTTTCTTAAGAAATACATCTTC
+TTCTCCTATATAGATACATCCTTTATTAACCTTAGGTAAATTAATAATTTCTTGTTCTGT
+TAATCCTTTTTGTTTATAAGTTATTGCCATTTAAAATCACTCCTTATTTGTTATGTACTA
+ATCATACCATAGTAAATAATATTTGTCAACAAAAAAAGAAGAACTTTTTAAAGTCCTTCT
+AAATGAGTTTCGTATATAACTTTTTGAATTTTATTTAATGGTTCTAAGTCTAAATTCATA
+ATAAGTTTTTTATACTTTCTTGAATTTTTAAAATTGATAGTATTTGGCATAGCAAGAGCT
+TCATCAACATCTTTAGTATAGCTTACAACATCTGAATAGATATCTACTTCTTTTACATAT
+AGACCTTGAGTTAAACTCCTAAATACTACCTCATTATGTGCTATAACTTCTTCTTTCTTT
+TCTATGCTCATTTATAAACCTCCTGGTCTACTCTACACAAACAAGTACGTATTCTAAATT
+AGTTAAAGAAACTGATTTAATATTGTTTAATTCTTGTAATTTCTTAATTTCCACATCATA
+GTTCTTACTTATAGTCCATAATGTCTCTCCTGCTCTTACTTTGTGATAATATTTATTTCC
+CTCTTTGATAAGGTCATTCAATATTACCTACCCTCTTGAGTAATAATTAGCTTGTAGATA
+ACATATAAGTATAAGAACAAAGTTTACAAATTCAGTAGCTATAATATGAACATAGGTATG
+TGTTAAAACCATACTTACAATTAATGAAGCTAATCCTAATCCAATAATAAGAAATAGAAA
+TCTATTTGTTCCTTCTGCACTTTTAGTTTTATAAAAGGTTGTTATCTGAGTTACATACGC
+AAGGATAATAGTAATAGTTGCTACAGTTTGTGTTAAGGCTGTAAAGTCACTTAATAAAAA
+TAGTAACAGTGAGAACACAATAATAAAAGGTATAGAGAAATAGTCCTTTTTTCTATATGA
+AGCTACTAATAAGCAAACAATACCTAAGGTTAAATTAAGACCTACAGATACTATTTGAAA
+TACTGAAGCATCAGTTAATAATAAGTTGTAAAAACTTATACCTACTGTAGCTACAATTAA
+ATACCAAAAATAGTTACTAACTCCCTTGACACTTTCTGCTTTAACTAATGCTACTAAACC
+TGGTATATATCCTACTGTAATTAATATAGCATATAATATACTTAAGTAATGTGATAAATT
+ATCCATCTTGTTCCCCTAATTTCTCTAATCTATTAATAACTTCTTCCCATGAAATAAATC
+CTTCTCCGTCTGTTAGTTCTAAAACCATACCATACACAAATTGGTTCGTACTAAATTCAG
+CTCTGTCAGGGTCATTGTATGGTTTACCATGTCCTTGTCTAATATCCGAGCAGTAGATTA
+ATACGGGTTTATTTACAATGTTTTCAAGTTTATCTACTATTAATTCTTCTTCAGTATTTA
+ATGACGTTTCAAACTTATTTGTAAAATAATTAAAATACTCTTCTCCATTATCATATATAT
+GGTTAATTGTTTCTTCTGCTTGATGTTTCATACCTAATAAAATACCGAGTTCTGCAATTG
+TTCCTAATCCTTCATTAAGGATATCAAATACAAAAATATCTGATTCTTGCATAGCCTTAA
+AGTCATTAGTTAAAATACGTTCTGCTAGCTTAGTTTGTTCTGCATTAGCTTTATCATTTA
+TTGACTTATCTTTGTGAGGGCTATAAGGAGTTACTCCTACAATGCCATCTACTTCTTTAT
+GTTGTTTATCTCTGTAATCTACCATAGCTTCATTTAGGATATGTCCACCCATATAAATTA
+CTTTGTCTTTAATTTTATTACCCATCTATAGTATCTCCTTTTTCTTCTAAAATTTCTCTT
+AAAATATGTGGCATTTTTTTCTTAATTTGTTTATCTACTATTTTCAGTATATTTTCTTTT
+TCTTCTTCCATAATATCATCAACAAAGTTTTGACCTACTTGTTTCATAATTAGACCGAAG
+TTTTCTAATTCTAAATCATCTTCAGATAATCTATCTTCTTCTATAGCCCTAAAAATCATT
+TTTTCCATTCTTGCTCTTGTAATGGCATAATCTGCCACTGACTCGTTCTTTTTTACTTCT
+GTTTTCATTTTTTGACGACTAAATTCTTTAAACTCATTAGATACTAATTTAAAGTAGTCA
+TCATATTCTGATTTACCATCTAAGTATTTAATTACTATACCTTCACCCTTATCAGGTTTA
+ACTGTCATGTCAGATTTTCCTACTAATTCTTGAATTTCTTCAGGTTTTAAATCATTTAAG
+TAGTGAGATGGTTTAGATACTAGCAAAGTTTTAACTGTTTTTAACCCTAAATGATGTGCA
+ATTACATTCATGTCTTCTACTGATAAATAAACTTCATTTTCTTTATCATAAACATCAAAT
+ACATAAAAATTGTTGTAAAATTCTTCTTTGTACTGAATCTTATGTTTGACTAACCATTCA
+CCAAAAATAATGTATTTTTCTAAGGCTGATACGTACGTATTTCTTACATTTATATTTTCA
+TGTACCCAATCATAAAAACCATTTAAAGTTTCATTCTCATTTAATTTTTTTCTACGTGAA
+AAACATACTAATTCACCATTTTCTACTGTGAAGCTTGCATTACTTCCATCTAATTTTTCT
+TGTACAACTAGACCTCTTTCTTTAAATTTATCTAGTACAATACCTTTATTTTTTACTTTA
+GTATACGATTTCATTAATTATCCTCCTTTGAATTATGTACTATAGAAAACAAAATAAGAC
+TTACGCTTGCTAAAAATGCTAATACTACTAAACCAGGTAAATTTAAAACTGTTGATAAGA
+ATAATGATATTGCACTTATAACATAAACTAGACCGCTTAGAAATAAAGTTAATAATACAA
+TTGTTATAAGTTTCACCAACCAATTGTTATTAATAAATACCTTAGCTAAATAATTCATAA
+AAAAATCCTCCTTAGTTATTATAGAATAATTATACCATAACTAAGGGGATTTGTCAACAT
+ATTATTTTACCATTTAAAATTATCTGCATATTGTGCAAGCTTAGAGCGGAAATTAACTGT
+AAAATTATGAAATACTGCTCCTTCATAATTTTTAAAGTATTCCATATAATCTCCAAAACC
+TGATTTACTTTCGTTCTTTAAATCTATTTGTTTAAAATTACCTTCTACTATTACAGTAGA
+ATTTTTTGTATGAACCCTTGTAAGAACTTTTTTAAGTTCACTACGTTTAAAGTTCTGTGC
+TTCATTTATAATTATAGTAGCATCTCTTAGATTTCCACCTCTTAGGAATAGATGGGATAT
+TTGAGATACCCAACAATCTCCTAGTTTATCTTCTTTAACATTATCTTCCATCATTAACAT
+TTCAGTTATTTGTTGTTCAGGATTCATATTAAGTTCAATAAGGGCATCATGTAATCCCAT
+GAAATAAGCCATTTCTTTTTCTGTCTGATTACCTGGTCTGCTTCCTAAATCTTCTGATAC
+TGGTGAAATTATAAATACTAGCTTTCTATTTTTATTAAGATAGTCTGCGTAAGCACAGGC
+TACTGAGCACATTGTTTTACCTGTACCGGCTTGACTCTCATTCCAAAGTATTTCAACATT
+ATCATTAAAGAAATCCTCACAGAAATCTAACTGCTCGGTTGTAGCTTTTTCAAGGAATTC
+ATTAAAGACTAGATGTTCTCCCATGTTGTATCTTACATTAGGATAATCTTTTAACTTAAA
+GTCTAACTCTTTTAGTTGTATTGCCATATTTTAAAGTTCCCCTATCTATAAATAGTTTTA
+CTCTCTTTTAATATAGTACTAATTTCCGATATATTCTCCTGTTGAAGAGCAATAATTACT
+ACATTCACATTCAGGGTAGTTATCACAAACATCTTCATCTTCTACATCATCATAACCAAT
+ATCATAATTATTATAATTAAAATCTACAATACAATTTTCACTATTACCTTTAGATAATCC
+TGTATAAATAATATCATCCACAGAATCCCAATCGTTATCTGCCAAGTAATTTACACTATC
+TAGTACTGATTCATTATCAGGTAAATAAATACTACCGTCTGAAAATTTAATTAAAATATC
+ACCTTGAGGTAAGGTATCATTAATTAAATCAATCTCTGTTTCTTCTTCAATAGTGAATAC
+AGTTCCTTCTAATCTTTCCGGTGTAGTATGTGTTAAATGTTTTACAGTATCCCCTGATTC
+TTCATAGAATCCTACTGCATTCATATCTTTATTATATTTTGCAATAAATTTACCATTGTC
+ACTTACCAAATATTGACTAGTTGCATTATAGTCGTTTGCGTCATCTACTGTCATGCAAGG
+GTTATAATCTTTAACATAATAACTAATTTTCCTAACATCTGCTGTTTGTACTTTCTTACC
+TTCACCTTTAATTACTGAATTAATTTTCTTCATAATATTTTCTCCTTTTTATATATCAAT
+TGATTTTTTTGCAAGATTATCGGCATAGTCATTCCATTTGTCATTTGAATGGCTCTTTAC
+TTTTACAAAGTTTATATCTATTACTTTTTGGTATTCTCGTATCATATTAATATATGTTTT
+ACTTAGAATATTTCTTGCAGACCAAGTACCTTCATACCAATGTATTAAACCAATATAATC
+TATATAAACTATTGCCTGATTGTATCCTAGTTTTATAGCCTCTTCAATACCATAACAACA
+AGCCAATATTTCACCTGCAACATTATTATACTTTATTAATCCTGGTTTGTCAACACTTTT
+ACTAATTTCCGATATTATATTTCCTTCTTTACTTACCAAGACAGCACCTGAGCCTACTTT
+ACCTTTATTATATGAGGAGCTACCGTCTGTGTATATATTTACACTATCCTGCATACTTAT
+AATCCTCCATAAATTGAGGGAATTCACAATCTGAATAGACTTCTCTGCAAAAAGATACTG
+AGATATAGTTAAAATCAAAACATTTGAAACAGTGTTCTTGAACTTCTTTTTTATCTTTAG
+CAATCACATTAAATTTAAAACCATCAGCTATTACTGTAAATACTCCTTTTTTCATAAAAC
+AAATACCTCCACTAATTTTATTTTAAATTAATAACTAACTCAATAAATGATTTAATAGTT
+TTATTTTTACCTTCATCAATATCTGAAAAGAAATTAATTAAACTGTCATCCTCATCAAAT
+AAATCTTCAACATCATCAAATTTATTTAATATGTCTGTAACACTGTAACCCTCTTCTGAT
+ATATACTCATGTAAGTCTTCTCCATCTTCTGACAGTGTTGCTTCTATTTTACCATTTTTA
+CTTTCAATTAAATATAAAGTATTTAACACTTTAACAGAATCTACAACTACACTGTAGTTA
+CTAATAGTAGGATACTCTGTATAAAGTATTTCTACATTAGTATTCATATAACTATCAATT
+ACAGAGTTAACTGTATCTCTTTTTAGCTCAGATACATTATGTTTTCGTATAGTAGGAAAT
+TCTTCATCATATTCTACTAATTCTTTTCTATCTGTATTCAATAACTTGTCTAAAGAGGAC
+AACAATACTATTTTATATTGGTTATCAGGAAGACTGTCTGTAATTTCCATTATTGTTAAA
+AACGTATCTTCACCTAGAACTTTGTTTATATCTTGTAATTCAAATGAATCTACCATTTCA
+ATAGTATCATCTATATCATCTGTAGTCATTAAAAAATTAACTAAATTATTATTCTCCATC
+GTCTTCCTCCAATTCTTTAAATAACTCTTTTCCTGGAGTATTTAACGCTTTCTCTAACCG
+CATTAAATTAGCACTTCTTGGTTTCTTTTTTCCATACTCCCAATAAGATATAAGAGAGTA
+ATGAACACCTATCTCAGAAGCTAGACTTCTTAACGTATGTCCTTTTTCTACTCTAATTTT
+TTGAAGGTTTAGAGGTTTACTTTCCTTTTTTTCATCCATAATTATTTCTCCTCTACTTTT
+AAAAATTTAAAATCCTCAGATGCTTTTGCATTTTTTAGTATATACTCTTGTGATTTATTT
+CTTGCCTCTGCCTTACTTTTAGCATATAACTCTATATGAAATACATGAGGTTTTTTTAAA
+GACGGTGACTCGTATCTCCAATAAACTTTAAAAAGTAGTGTTTCTTTTTTTAAAACATTA
+ATTCGAAACCATCTTTTAAATTTATTCATTCATTATCCTCCTCTATTTATTTGTTAAACT
+AATTATAGCATAGTTAACTTATGAAGTCAACTATAATATACAAAAAAAGACTAAGAAATT
+AATCTTAGTCTTAATATATTAATAACTATTATGTGCGTTGTGGTATGCAAGAGCTCCTGA
+TGTTGAACCGTAACGGTCAATCATATATTGTTTTGCACCTTTAGTTTGTTCTGCTATAGA
+ACCACCACTCCATGATTTACCTAATCCTTGGAATAATCCTTGAGCTCCTGATGATGCATT
+AACAGCATTAGGGTTCATTGTAGATTCACGCATAGCAATTTCAATCATTGCCTCGTCTCC
+ACCTGCTTGTCTAATCTGTTCTGCTACAGAGCCTCCTGTAGAACTAGTTGATTGTGTAGG
+TTGTTTAGTTTCCTTTTGAACTGGTGCTGATGTTGTTTGTACTTCTTTTTTAGTATCTTG
+TTTATTTTGAGTATCAAATTGTGCTTGTTGTTGGTCTACTTTTTGTTCAGGTGTTTGTTC
+TTCTCCTGCTAATCTAGATACTGTATTATCTACTTGAGTTGAGCCTGAATGGTATTCATA
+ACCAAAGTTACCATTATAATTATAGAAATGATAAGTAAATTCACCATCACTAAAAGAGAA
+ATCATAATTACCTGCTTGAATTGGTTTTGTATTTACTTCTGCTGAATTTGATTTAGCTTG
+TTCTGCTAACTTATTATAATCAATTTCGTCTGCACTAGCTTCATTTGTAGCAATACCTCC
+AAAAGTAATAGCTGTACCTAATGCTAATGTTGCAAAAATTGTTTTCTTCATAAATTTAAA
+ACTCCTTAAATAATTTTTTAGAATTGTTTATTTGTAAACCGACATAAGTAATCATAACAT
+ATATCTTTAAATAACGCAAGTATAATATAGCACTAATTAGTGTAATATTATTAAGGTTTT
+ATTACAAACATTACAGTTATCAGATAATTAAATACAAAAAAAGAGAGGTAATTATATTTA
+CCACTCTCCAGTTTCATTATATTTATTTATTACATTATCTCTTAATTCTATAGCCTCTTC
+TAAAGATTTTGCACTAAAATATTTAACTTTATTTTTTCTTACAATTTGTATATTATATAC
+ATTATTTGATTTTTTGTATATATTATGTGTACTTTTCTTTCTTATATTAGTTGAGTTTTC
+AGACCTAGTAGACCACTTAACATTACCAGGTTCATAATTACCATCATTATTTATTCTATC
+TATTTGATAATTTTCATTCGGAGGGTCTCCCATATAGTCGTAGAATTTTTTAAAATCATT
+CTTCCATTCTTCACATATTTCTATACCCCTTCCTCCATAGTTTTTATAATTTATAGCGTT
+AACATCGTAACAACGCTGTTTCATACCTAACCATCTTTGGTACATTGGGTTACTGGATAA
+TCCATGGGTAGTATTCCTTTCTCTCATTAACTCACTATGAATTTTATTACTCTCACACCC
+ACAAGATTTTATTTTACCTTGCCTTAAAGTGGAGCTTCTAACTATTATTACTTCTCCGCA
+TTCACATAAACATTCATACATTTTACATCTTGATTTATCCCTCTTACTAGACTCTTTTAT
+AACTTTTAGTTTATTAATAGTTTCTCCAATCATAATATCTCCTCCTATAATAAAACTATA
+GCATAAAAAACCACCTATGTCAATAGGTGGTTAAACATATTATTTATTTAAGTTTGTAAT
+AACACTATCTGAACCTATACTAATAGGTTGTTTTCCATTCCATTTTTCAATTAATTGTTG
+TTGTAAAACTTCCTCTGTTAAGGATTCACTTCTAATGTCATTGGCTTTCTTTTCACCTTT
+TGCTTCAATTTCTTTCTTTTTAGCGTTTTCTTCTGCTATTTGCTTATCAACTTTAGTGCG
+CTCTAGTTCTTGGTTTGCTTTTACTCTCTCATCAATTGCTTTTTGAGTATTTTTATCTGC
+AGTTGGGCTTGATAATGCAATATCATCAATAATAAAACCTTGCTTTTCTAAATTATCATT
+AAGTTTATTTAAAGTATCTTGTTTAATTTCTCCTGTTTTTACACCAAAAGCATCAATTAC
+AGAGTACTTAGAAATTGCTTGTCTAACATTATCTTGTACTCTAGAACGAAGATACCCTTT
+TTCAAGTTCTTCTATGTCAGCACTTCCGAATCTATTAAAAAGGTTTACTGCCTTAGTTGC
+ATCTACTTTATAAGATACATCAATGTCTAATTTAATATTTTTACCATCTGAAGTTGCTAC
+ATTTAAATCTTTATATTTATGTGTTTGTGTTTTAGTTGGGTATTTATTTACCTTATCAAA
+AGGTGCTGTTAAATGCCAACCCGGTGATTTAGTATCTTCCTTAACACCATTTACTGAGTA
+TACAACTCCAACATGACCTTGTGGAATCTTAGTAATACACATTAATAAAATAATAAACCC
+TATAATTGCTAAAAACCCTAATACTCCTGAAATAACTACTGACTTTCTCATTACATTTCT
+CCTTTTTCTATTTCTTTTATTAAGCTATTTAAAGCTTTTTCCTCTTGGTCTATTTCTTGT
+TTATCGGCTCTAGTTACAATTGATTGTCTACGGTCATTTAAGAATTGTTTTTTATACTTT
+ACATATTGTTCTAAACCGTATTCATCTAATGTACCTTGCCTAACTAATTCCCTGTATTGT
+TTTCTTATGTTACTCTTCTTCTCTTTCATTGAAAGAAAATCAAATAAATAACTTATACCA
+AAACCTACAAGGACTAGAAAAACAATAAAAATAGCAAAATATGTTAAAAGTAGTGCCATG
+TAATTCCTCCTTTATTTGATTACATATATAACTATACACTATGTATTTAATTTTGTCAAC
+ACTTTTTTGCAAAAAAAATAGACGGATTTAAAATCCGTCTAAATTTATATTCTATTTGAA
+TACTCCCCAGGCAACGCCAGGTATTTGATTAGGTGGAACACCTTGACAAGTTCTAACAGG
+GCAATATACTCTGTTACCGTTGTAAGCATTATAACCTATCCAAATGTGACCTGCTTGGAT
+ACAAACTTCGTCATATACAATTGTAGCCCCTGCCGGTAAGTTACCGCCTACTGGAGCATT
+TAAGAATGGAGAACCTATTCTAGTTACTATAGGTTGGTTACCATTGACAAATGTTGCATT
+TTCCGGTTTATACCAAGTTCCGTACTGGTTCTTTTTCCAAGAACCTGTAACTGGTCTAGT
+TGCCGGTGTACTTGCGCTACTTGTTTTACCATCTTTAACTACTGTAGAACTTGAAGTTCC
+TTTATCCATGTAGTTTTTAATTTGTTTAATGAAATAATCTTTTAATTTATTCATTATTGC
+TTGTGATGGTCTTCCTTGTGTTACTGGATTAAATCCTGTATGAAGAACCATAGAACGGTG
+AGGACAGGCAGTTGGTACAAATTCCATATGCAATCTTACAGTTTTACGGTTAGGAGTAAG
+ACCCCATTCTTTAAATTTCTCTGCTGTAAATTGGAATACTGCTTGTTCATTTTTAAGGAA
+TTGAGCATCACTAGCACTCATTGATTGACAGACTTCAATACCTGCAAATCTAAAGTTACC
+TGAGTTTGCTCCTGTTCCATCCGATTATTCAATAAAAGACGTAACTCCTTTACCGGTTCT
+CTTATGAACTCCTTATAGTTTCCTATAAGACTAGACTATATCTTCACCCTAATTTTGTTA
+GGGGTTCTCCATTTCGATTTAAGGGATTCTCACCCACTCCATTAACTTGAGCCCTACTCC
+TATTGACGATTTATTTTTATTGGCACTCGTCCGAGGGATAGTCGTTGAACCTTAATATTG
+TTTCCAAATGTATCCGTAGGCTGTTTTTCTCTCTCCTTTGATACATCTTCCTATATTACC
+ACTTCTTTTATTAGAAATACCTAAGAACTCTAAAGCCTCTTGAGCTGTGTAAAAGACATT
+CAATAAATTACCTTCTAAGTCATACTGAGCTATATTATAATTTATTTCATTTTTTAATCC
+TGTCTTTATTGCATGTTCTCTGTTCTCGGAATTAGAAACCCATTCTAAATTTCCTACACT
+ATTATCATTTTTACCATTTAAATGGTTAACTTGTTCTTTATTATCAGGATTAGGTATAAA
+AGCCATAGCAACTAAACGATGTATTTTAGGTGAATGGTATCGTAACCTTACAAACAAGTA
+ACCCTTGTTATTTTTTTGAAGTTTTAACTTTTTAGGCTCTTTACCTTTATAAGATATTAC
+TTCTCCTTTATCAGTAATAGTGTAATTTTCATATATTTCTAATCCAGGTATTTCATTTAA
+TTTCTTTTCCATAATAACATCTCCTTTACTTAAGTATATAGGAAAGTTATTATGTTGTCA
+AGTAGTTTTTTAAAACAATATTCTTGGATGCTGATTAGCATAGCTTGATAGCCTTAGCCT
+CCCAGTCAATTAAAAGAACTTTCATTATACATTACTGTATAACAGGGCAATTTATTTACC
+CGTGTGCCAAGCAATTTGATTCTTAGCATCTATTGCTTCCCATACATAACCTTCAGAGCC
+GTAGTAATGAGCAATACCATTAGCGTATCTAGCATAACCTGCATTAGCTAATGAATTCTC
+GTATTGTTGTCCTGAAGAACGACCTGCATCGTTGTGTATTACCATTCCTTCAGGTTTTTT
+ACCACGTTTATCCATTGTATAGTTAATGTGATTCTTAGAAACTTTTAGTGTTGCTTTCTT
+TTTAGGTGCAGGCGTTTTACTTGCGCTTTTCTTAGCTGTTTCTTTTTTAACAGTAGTTCC
+TGCTTTTACAGGTATTTCAATGAAGTGAGTTAATCCGTAATAATTATCTACACGTTTTGT
+AGGTTTTTTATTAGCATAACCATTCCAGTTTTGCTCTAAAATAGTAAATGTAGAAGTATT
+ACCTCCATCATATACAATACCTATGTGACCCCACTGTTCATAACTACCGGATGTAAATAC
+CGCAATCCAACCTTTTTTAGGTACAGTAGAAGGTTTATTTTCATGTATTTTAAATCCAGT
+ACCATAACTCTGTTTAATTTGGTCTTTAGCATTACCCCAAGTTCTAACTTTATTATCTGT
+TAACCATAAAACATAGTCTGTAATAAGGTCTTGACACTGAGCGTGATAGTAACCATCTGC
+ATCAATGGCTCCTGCTTCCATTACACCAAATGATGGGTCATAACTTGTAGCTTTTTTAAC
+TCTGTAAGGGCTATCTACTGTTCCTTTTGCATAAGCATCTAAACGTTTATTTATTTCTGC
+TTGAGTCTTAGCCATTACTTAACTTCCTCCTCTGCAAATACTTTACCATGTTCCTCGGTA
+TCTTCTTCATCTTGAGAAGGTGCTGAACCACCATCAATTTCATCTTCAATAGCAGGTACT
+TCATCACTATCATCTGTGTCAGGTTCTGCATTGTTTTCGTAGCTGTCTATCTCAAAAGTA
+CTAGTGTTATTTGCATTTGCTTGCCATTGAACGAATTCATTAGGGTCTTTACTATCACGA
+GGTTTAAGATAGTCTGTTTGAACAATATCACTATCTTTAAGACCTTTAGTATTATTATCA
+ACAATAATACCTAAACCTGCTAATAGTGTTAGTATAGAACCTACAATATTTACACCTTGC
+TCAATTTGAGCTGAGTAGTCTAAACCGAAAGCACCTATAATTTGGTTAGCAAATAATGCT
+ACTGCTGATATAATTGCTACCCAAAATGTTTTGCTCTTAGTTCTTGTGCTAAGGTTTATT
+CCTCCAACAACTTTAGGTTGTTTAGTTTCATTAGCCATTAAAAAACCGACCTTTCTATTA
+TATTTATTTCTAACAATAATATAACAGTAGGTCGGTCATGTTTATCTATATTAATTTAAC
+ACTTACTCATTAATTTGGTTTAGTTTTTTGATAACTTCAGACATTTGTTTGTTATCTAAA
+TCTTCTAATTTAGTTTCAGGAAGTAGCTCTAACTTATCCCAAACTTCTTCTTTATTAGAT
+ACTTTATTATTAATAATTGCCTTACCAACTAAACTTTCCGTATAATATAATTGTTTTGCT
+GATGCCATTTGTATCTCTCCTTTTAAATATGTAAAGTATATAGCTAGTATCGTATCCTAG
+GAACAAACACTTGCGCTATATACTCAATGAAATCCTACCCTCATTCGAGGACACAGCAAA
+CCGGTTCGTCAACCGCACATATGAATTCTCAGATTTCATTTATGTAAAACACACCCTCTT
+TGATTTGCACAAAGACTAAGGGTTTTGGAGACCCTTGTACTACTAATTATACTAAGGGTG
+TTTATTATGGTTTCTATTGGATTTGAACCAATGACACCTAGAGCTTCAATCTAGTGCTCT
+ACCATCTGAGCTAAGAAACCTTAAAACGACCCATACGAGACTCGAACTCGTACTCTCTGC
+CGTGACAGGGCAGTGTGTTAACCAGTTACACCAATGAGCCAAAATTATAATGCTATACCC
+TAACCTTACCTTAATGTATAGCAGGTTTTTATATAAGCTCGAAGCAACGATTATTACCAC
+TCATAACAACTATATATTAAGTGAAAGGAGGTGAAATGAACAAAACGTGGTAATTGGTAC
+TTATATAGGAAATATGTATAATCTACAAGGAGTAAGTTATTGGTTCATAAAGGAGTGTGA
+ACAATAAATACATGAAAGAGTGAAAGTTTACTCCCTGTAGATTCTTTTTTTAATTATCAA
+TCAAAGGAGGAAACTGATAATTGTTAATAATAAACTATAAAGAGGAAAATATTTATAGTC
+ACATTCTGATATAATGCAACTAAATATCCAAGCATAACCCGTCTCACGAGGAACCTACCT
+ATAAGACCTGTTATTAAGTGAATCACTACGATTGACTCTATTAAGGAGCTACCTTAAGTC
+CATCTCACGCAATTTAAAAGGGACTTACAAACCGTAAAACGGTAATAAGTTTATTAAATA
+ATGTGATATTAACATATTAGTTAATAACTTTCACATGGTCGAAGAAAAGTAAATTTATTT
+GATTACCAAATTATTTTTATCAAATATAGCTCTTTTGAACCTGTAGATTTATGCTACTTA
+TACTGATAACCTCTATTATCTAACACATTTCTGTGCTCCAACTACAGTTAGTCGTTACAG
+CGTATCTTTCTAGGATTCCGCTAAGACCCTAAAAAGAAATTAAACCCTAGCCGTTATCAT
+ACTCTACAGACCTTATAAGTAAGTACCAAGTATACCAATCGTATTTAACAATACTAATGA
+CGACCCATCCTACCGATATATCTCCGATAGGTTTTGATTCGTTTGATTATCTTGTACCTT
+ATGACTACCAAATCATTATTCAGTCACTATGCTCAGATATTTAGTTGTATTATTTATATA
+TTAATTATAACATAATTTTTATTACTTGTCAAGTTAATTTCAAAAAAATTATAGAAGTAG
+GGACGTTTACCTACTTCTATTTAATTTACACAAGGATGATAACATTGTTATTGTTTTATA
+CTGGAAAACAATGTAATAAAAACAGTGATGTGTAAGGTATTTGTTTTATTGTTAATTATA
+TTATAGCATATACTGATACCTTTGTCAAGTTAATTTAATACTTTTTTTAAAACATTAGTT
+ATCTTTTGTTAGTTCCTCCTGAATAGCATCCCATCTTCTTTCTGCTTCACTACGATTATC
+TTCTATATGTTTTGTAGTTTTACAACATTTGATACAATATATATCTTTGATATGACCTTC
+TTCTCTTTTATTTGCTCTTTTTCTTGGTACTTTGAATACATTTCCACATTCTTTACATAT
+TAAACTTGAGTAAAACATTTTTTGTCTTTTCATAATTAATCAATTCCTTTTCTCTTTTAT
+TTGATAATTTAACTATATACTATATTGATAAATAAGTCAACAGTTTTCTAAAAATAATTT
+AAATTATTTTGAAGAATACTTTAATATCAAGGGTTACAAGAGAAAAAGTACGTATTTAGA
+AAATAAGGAGTACTCCTATTATATATAATTATATTCTGATATAGAGTAATAAATAATATT
+AAATATATAATTATAATTAATAAGGTTGGGAAAATTGATATAAACATAACTGATACTGCT
+TATAGATACTCAGTATAAAAGTAAAATCCCTTAGTATCAGTACTTACAGGCAAAAAAGTA
+CGTATTTAGAAAATAAGGAGTACTCCTATTATAGTTATATATATTTATTACTATTATTAA
+TTACTATTTAAATATATAATTATAATTAACAATGTTAGAAAGTCAACAATAGTATAAATA
+AAAAAGTGACTACTTAAAGTCACTCAATAATTAGAATACTATTTTAAAAGATTCTATTCT
+GTTTGGATTAATATATACTTGAGGTGAAGTTATAGCACTTTCAGTATATACTTTTATAGA
+GGTTTCATCCATTCCTCTTAACATATAATCTATATCTTGCCTATTGTAACTCTTTTCATC
+AGTAGATACTAAAAAGTATTTAGCTCCACTTGACATTGTTATTTCAATATGTTTTGACAT
+CTACAATCTCTCCTATGCAAATTTGTTAAAGACAAAGGATAATATAGCTCCTAGAACAAG
+TAAAAGAACCTTCTCAGTTGTATCCTTTTTCTCAGTATCCTTAGTTTTTGTACTTTCAGC
+AAGTTCTGAAATCTTTTCATCAAGTCTTTCTAATTGGACGTAAATTGCTGATTGTTTTTC
+ACTATTGACAGCTACATCTTTATCTATACTAACTATCATTTTTCTTAGTTCAGCTACCTC
+AACTTCTAAATCTTTGAAAGTTCCTCTATCTATATAATTACCTTCTTGTATCTTAGACTT
+AATAGTTTCTACTTGAGAAACAAGGTTGTTTATCTCCTTATCCAACTAGAATCACCTCTA
+AGGTCTAACCGTTTCAGATTCAGAATGGATATCATAATTTTCTAAGAAATCATTGATAAT
+CTCCATATAATTATCCGTAACGACTTTTCCGTAAGATGTTTTTGTATCAATTTCAAACCT
+AAGCTTACCAAAACTTTGGAGGTCTAATTCTTTTATTACAATATTAGGGTCATCAGAAGG
+AAGGTAATAATAGTCGAAGTATATAATTGAGCCATTTATTAATACTCTGTCTATTCTATA
+GACGTGGAAATAGCGTCTGTCTCTTTTAAAATGGGCTAGTGCATCTTTAAACTCTAACTT
+AAGGATATCCTTATATTTAGTCAAAGTGGTAACCTCCTTACTATTAATTTTTAAATTTAC
+TTATTTTGTGGTATAATAGTTATGATAAAGGCAGTTATTATAATTATATTAAGAATAATG
+ATAATAATTATTTTTTCTGAGAAAATAAGCCAAATACTAAAAACAGATAAAGCATAGATA
+GCTGATAGATATACTATATTAAGAGTTACCTTACTTTTATCTTTTCTATAGATAGAATAA
+CCTAAAGACGTTGTAACACCACTAAGTATAAAATAATAGAAACAAAAAAGAGGTATAGAC
+AGAAAAAAAGATACGATAATCATTGTTAAACACCTATTTCTTTTTGACCTATTATTTCTA
+GAACTTTTAGATTACACCACTAATATAACATTAAAAGCCAGTCATAAAAGTCAATTGTTA
+GATTAATAATATAATAAAAAAAGACAATAGGAGGTTAAAGTGGTTGAATAATAACATAGC
+TATATTCATATTCAAAACACTGGTTATCATTATATTCTTACTACTAATTTTGTCTGTTAT
+TAATTCCTTGTCCCTTATTTACTCAATAAGACCGAGTGTAGTTATGACATACTTTATCTT
+TGGTGGTATTGTTTCTAATGTCGCACTTACTGTAACAGATAAGTTCTTACTGAAGAAAGA
+AGACCCCCTACCTGAATATGTTCTTAAAAAAGTAGAGATAAATGATAAAGAAATAAGAAT
+AATCAAGAAAATAATAGAAAGTAATTATGGTATAACAGCAGAAGAGATAAAAGTTAGGGC
+TAAAGCACAAAGAAGAGTAGAGGAAGATAGTAAAAAGGAAGATTACAATGAAAACAAAGA
+AAGAAATTAAAGAACAAAGGAAAGAACTTAAGGATGGTGCTACATCTGTTTCTTTAGTAA
+AAAAGGGAGATAAGAGAATAGCTAGCCCTAGTAGAATCTGTAGTCTATGTGGTCAGCAGT
+TATCAGGTATGAATTACACTAAAGGAAAAGCATTATCAAAAGTTAATCATTTTCATTTAC
+AGTATTCTAAGTATATTTATTTTGATATTTGCGCAGATATCAACAATTGTTATAAAAATT
+TAAGAAAACGAGGTGAAATGGATTGAGTGCAGAAAATATTAGAGATATAATTAACAAGAA
+AAAGTTAGAAGAAGAGGATACAAGAAAATATATAGCTGATGGGTTTATGAATGGTATCGG
+TAAATTAATGTACGAATTCAATAAGAAAGTAGATAACAAAGAAATAGAAGTTAAAGACCC
+GAATGATTTATACAAATTATTTGTGATATTCTCTCAAATGCAAAATATGGTCAATGAAAC
+TTCTGAAGGAGGAGCAATACCTCAACTATCTAGACCTCAACAGGAATTATTTGATGAGAT
+TACAACAGAAGATAGTAATGGAGAATCTACAGTTGATTTACAGAAGATATCAGAAATGTC
+AGCGGAAGATATTACAGCAATGATTTCTGAAAAGGAAAAAGTAATGAATGAGGAAAATTC
+AGAAACATTCTAAGGAGAAAGATATAAATGGATGGAAAAGAACTAATTAAGATAGCACAA
+GAAACATTTCAAACTGAAAAAATAACAAGAGAACAGATAGACCATATAATCAATATGCTA
+AATCCTTCTACCTATATGCTTAAGTATCATACACTGAGAGGGCATCCTATAACTTTTAGT
+ATTCCTAATAGAGATAGAAGTAAAGCACAGGCTCATAGACCTTGGCAAACTAGGATTGTA
+AATGATACTCATCCTAATAAGGCTGTAATAAAATCACGTCAGTTAGGTCTTAGTGAAATG
+GGTGTAATGGAAATGGTTCATTTTGCAGATATGCATAGTTATGCTAACGCAAAGTGTCTG
+TATACATTCCCTACAAATGAACAAATGAAAAAATTTGTTCAGTCACGTTTGAACCCTGTT
+TTAGAGAAAGAATATTTTAGAGACATTGTTGATTGGGATAAAGACTCGTTAGGTTTTAAA
+AAGATAAGAAACTCTAGTTTATTCTTTAGAACAAGTTCTAAAGCAAGTACCGTAGAGGGT
+GTGGATATTGATTATTTATCTTTAGATGAGTATGACAGGGTAAACTTATTAGCAGAATCG
+TCTGCATTAGAATCAATGTCTTCATCACCTTTTAAGATTGTGAGAAGATGGAGCACACCT
+TCTGTACCTGGGATGGGTATACACAAATTATACCAACAATCAGACCAGTGGTATTACGGT
+CATAGATGTCAACATTGTGATTACTTAAATGAAATGAGTTATAATGATTACAACCCTGAT
+AATCTTGAAGAAAGTGGAAATATGTTATGTGTTAATCCTGAAGGTGTAGATGAGCAAGCT
+AAAACAGTACAAAATGGCAGTTACCAATTTGTTTGTCAAAAATGTGGTAAACCACTAGAT
+AGATGGTATAACGGTGAGTGGCATTGTAAGTACCCTGAGCGTACAAAAGGTAATAAAGGG
+GTACGAGGGTATCTAATAACACAAATGAACGCTGTATGGATTTCTGCTGATGAATTAAAA
+GAGAAAGAAATGAATACAGAATCTAAGCAAGCATTCTACAACTATATTTTAGGTTATCCT
+TTTGAAGATGTTAAACTTAGAGTTAATGAAGAAGATGTTTATGGTAACAAATCACCTATT
+GCAGAAACACAATTAATGAAACGAGATAGATATTCTCATATAGCTATTGGTATAGATTGG
+GGAAATACTCACTGGATAACTGTTCATGGTATGTTACCTAATGGTAAGGTAGACTTAATA
+CGATTATTCTCTGTTAAAAAAATGACAAGACCTGATTTAGTTGAAGCAGATTTAGAAAAA
+ATAATTTGGGAAATATCTAAGTACGACCCTGATATTATAATTGCAGATAACGGGGACTCA
+GGTAATAATGTTTTAAAACTCATTAATCATTTTGGAAAAGATAAAGTATTTGGATGTACT
+TATAAATCTTCTCCTAAATCTACCGGACAATTAAGACCTGAATTTAATGAGAACAATAAC
+AGGGTTACAGTGGATAAATTAATGCAGAATAAAAGATACGTACAAGCACTTAAGACAAAG
+GATATAAGTGTTTATAGTACAGTAGATGATGATTTAAAAACTTTCTTAAAACATTGGCAA
+AATGTTGTTATTATGGATGAAGAAGATGAAAAAACTGGAGAAATGTACCAAGTTATCAAA
+CGTAAAGGTGACGACCACTATGCACAAGCAAGTGTCTACGCCTATATAGGATTAACAAGA
+ATAAAAGAACTTCTTAAAGAAGGAAACGGTACAAGCTTTGGTTCTACATTTGTTTCTACT
+GATTACAATCAAGAAGGAAATAAACAATTCTACTTTGATGAATAGAGGTGAAATAGACTT
+GACAGATAAATTATTTTATGGTACAATTAGTAATGAAGAAATTAATAAAAGTGTATTGAA
+TTTGTTATTGGGTGAGGAATTATCCTTAGATTATGTTTCTAAAAATAGTGATATTTTAGA
+TGTTAAATATGAACATGTTTATAAATCTCTAGGATTCGATAATTTCTTTGATTGTTTTTT
+ATATGCTAATAGAGAGCCTGAAATAGTCCATAAAGGTGGAGATAAAAATCTTGGTGGACT
+AAATAAGGTTAAACGTACTGTTATTCGTAATGGTAAAGAAATGGAAATGACAGTTTACGA
+AGATGGTAATAAAGAGAACGATAGTAAAGAAAAACAAGAAGGAAAAGAAGAAGTTAGTAG
+AAGTGCAGTAGGAGCAAGAGCTATTTCTAATGGTGAAGAAGGAAAGGTAAACCCTAAAAA
+AGTAGCAAATTCATTATCTAATTTAAGTAAAAAAGGTGTAGATGTATCCCATATTAATAC
+AAACTCATCATTGTATAAAGAGTTTGTTGATGATAACGGTGATACAATAGGAATTACATC
+TTTTAAACGAACTGAAAATGATATAATATTAGAATCTTATGCAAGTTCACCTGATTCAGA
+TGGTGTAGGAGCAAGAGCTATTATGGAATTATTACGTTTAAGTATTAAAGAAAATAAAAA
+TGCAGTTGTGTATGACATAGAATTACCTGAAGCAATAGAGTATTTAAAAACTTTAGGATT
+TAAACCTAATAAAGATGGATACATCTTAAGAAAAAAAGATGTAAAACAATTCTTAGGTGA
+TTATAGTGATTTTATTTAGCACTATAGTCATCTATTCTATTGTATTTATTCTATATATTG
+TATTAAAAACAATTTATATAAAGTCTAATATGAGTAGAATAGATAACACAACTGAATTAT
+TAAAAATATTACAGGAAGATATTGAAGGTAAGATAAAAAAGGAAGGAAGAAATAAATGAC
+TTTAGAAGAAAATAAATTAACATTAGAAGAATCAATAACTCCACTTAGCAAAGAGGAGAA
+AGAAGATAGTATTAAAGAATTTAGCAGTTTATTATGTGAAATGGTAAATAGACTATATAA
+GTCTTATAATGTATTTAGACAAGACCCTATGGATGAAACTCAACGTCTAGATGGCTCTTT
+AATGGTCTTTCAAAGTAGATTAAATGACCCTTTAACAGGAGATTTACATGATAAGATGTA
+TAAACTTGCTTTTTCAAAACGTATTGATATTTTCGAAGCTAATAAGCAATTTAGAAAAGA
+TGTAGAAGCAGGTAAAGCAATTGAGTTAGGTGATGTAGCTATTATAGATACAGCATTAAG
+TAACATCCTTTCAGGCAATGAGTTCCAAGGAAGTATTTCATTTATGCTTAGAAAAGACTT
+TGAAGAAAAAGAACGAATTAGAAAAGAAGAAGAAGAGAAACTTAATAACTTATAAAAGGG
+AAGAATTATGAGACTATATAAAATGAGGTATCATAATTGAAAAAGAAACCACAAGGCAAT
+GAGGTAATCATAACCATAATAACGGTTATGATAGCAGTATTTGTAGTCATTATGACCATA
+TTTTTTAATAAATATCAAGATGCTAAAGAAGATAAAGATAGATATCAAAGATTAGTAGAG
+ATTTATAAAAAAGCAGATGATAATGATGGTGAGACTAAAAAGAAATATGTTAAAAGATTA
+AATAAGGCTGAAGAAGAACTTAAAAAAGTAAAAAAAGAAACAAATTATAAAGATTATAAT
+AAGAAGTCAAGTAAAGAAAGACAAAAAGAAGATAAAGAAACTAGAGAGAAAATATATGAT
+GTAACTGGTGATGATGACTTAATATTAGTAAAAAATAATATTGAGTTTAGTGATAAAGTA
+GACAAGCCCGAAATACTTATTAGTGAAGATGGAATTGGTACGATAACTGTTCCTGTAGAT
+AGTGGGTATGAAAAACAAACAGTAGGTTCTATTATTACTAGTGTATTAGGTTCTCCTTTC
+CTATCACCTGGTTCAAATAGTATAGATGGTTTAAGTGTTATTAACGATAATGTTTATCCA
+AATACAGTAGATAGCATAGTAGAAGATACAAAACCTTCTATTAACTTACCAACGGATAAT
+CCTATTATAACAAATCCAGTTGAACCAACTATACCTTCAGATATTATACCTCCTATTGAT
+AATCCTTCAGTTCCGATATCTCCTGAGAACCCAGGAGATAATAATCAAGGAAATACAGAT
+AATCCAAATCCTCCCCCTCCAGGGTACACAGATGAAGATGGTGGAAGAGGCTCCGGTGGT
+GGAGGAAATTCTGAACCACCATCAACGGAAGAACCTTCGGATAATGGTAACACCGGAGGA
+GGAGATTGGGAAGAAAAACCTGACCCAGGAGAAGAACCTTCAGATAATGGTAATACAGGA
+GGAAATGGTGGAGAAGTTACGCCTGAACCTGAACCTGAACCTGAACCTGAACCTGAACCT
+GAACCTGAACCATCTGAACCGTCTGACAATCCTGATGAAAATGGAGGATGGGAAACGGAA
+CCAACTGAACCTGAGTCACCTTCAGAGCCGGACGATAAAGTGGACGAAGAGGATAAAAAT
+GAAGATACTACAGATGATAAACAGCCCACTGAACAACCGGACGATAACAACATAGATAAT
+GAAGATAAAACTGAAGAGGAGTAATTACTCCTCTTTTTTTGTTTGCTATATTAAATAAGA
+GCTAAATATAAAAAAATTGAACATTACGGTGGTGAAAACTTTGTTAGGAATGAATATTAT
+AACGTCACTATCAGTAGTATTTACCTGTTTAAGTCTTTTAACTTTAATGATTTTTGTTCA
+TAGTAAGTTCTCTAGTAAAAACGTTTTTGTTTTGTATGTAATTTATGCTATAATAGGAAT
+AGGTACATACATAGTTTTAACTATGTTTCAAACAACATCTGTACTTATTAAGAATGATGT
+AATAGATTCCATAGAAAATACTGAACATTATATTGTATTCAATGACCCTATAATTATATT
+TATTATAAGTTTTATAGGTGCAATACTTGGAGGAATTTGGTACAAGATGATGAAAATTAT
+TAAAAAAAGTAACTTTAAAGATAAAAAATAAAAAAGACGGTGAATAGGTTGATATTCTCT
+AAAGATAAAAAATGGGATGAAGCAAAAGATTTCATCAAAGGTCAAGGTATGCAAGATAAT
+TGGATAGAGATTGTAGATTATTATAGACAGATAGGTGGAAAACACGTAGCTGTTTTTATT
+GCTTTAAACAAAGTAAAATACATGATTCTAGAAGCAACAAAAGACAATAAAGTAATATTA
+GTAGATAAAGATAATAATATACTATTAGAAGATTATGATATTGTTATGGAAAGTAAGAAG
+ATGTTTTATTACATTGAAGAACCGTTTGAGGTTAAAATAAATATCCCTCAACATATTAGA
+GATGTAACTTATAATAATACTGTTGTATTAACTACAGTAAGAGGGAGTAGAGGTGACTAG
+TAATTGGCAGATTTATTTAAGCAATTCAGATTAGGTAAAGACTATGGTAATAATAGTACC
+ATTGCTCAAGTTCCTATTGATGAAGGATTACAAGCTAACATTAAAAAAATAGAACAAGAC
+AATAAAGAGTATCAAGATTTAACTAAGTCTTTATACGGACAGCAACAGGCTTATGCAGAG
+CCATTTATAGAAATGATGGATACGAATCCTGAATTTAGAGATAAGAGAAGTTACATGAAG
+AACGAACATAACTTACATGATGTTTTGAAAAAGTTTGGTAATAACCCTATCCTTAATGCT
+ATCATACTTACACGTTCAAATCAAGTAGCTATGTATTGTCAACCTGCAAGATATTCAGAG
+AAAGGTTTAGGTTTTGAGGTAAGATTAAGAGACCTAGATGCGGAACCCGGTAGAAAAGAA
+AAAGAGGAAATGAAACGCATAGAAGATTTTATTGTTAATACAGGTAAAGATAAAGATGTA
+GATAGAGATTCATTTCAAACTTTCTGTAAGAAAATTGTTAGAGATACTTATATCTATGAC
+CAAGTTAACTTTGAAAAAGTATTTAATAAGAATAATAAAACTAAATTAGAAAAATTCATA
+GCAGTAGACCCTTCTACTATTTTTTATGCAACAGATAAAAAAGGTAAAATTATTAAGGGT
+GGTAAGAGATTTGTTCAAGTAGTAGATAAAAGAGTAGTAGCTAGTTTTACTTCTAGAGAA
+TTAGCTATGGGTATAAGAAACCCTAGAACTGAATTATCTTCTTCAGGATACGGATTATCA
+GAAGTAGAAATAGCTATGAAAGAATTTATTGCCTACAATAATACGGAATCATTTAATGAT
+AGATTTTTCTCACATGGTGGTACTACTAGAGGTATTTTACAGATACGGTCAGACCAACAA
+CAATCACAACATGCATTAGAGAACTTTAAGCGTGAATGGAAATCTAGTTTATCAGGTATT
+AATGGTTCATGGCAAATTCCAGTGGTAATGGCAGATGATATTAAATTTGTCAATATGACA
+CCAACTGCTAATGATATGCAATTTGAGAAATGGTTAAATTACCTTATCAATATTATATCT
+GCTTTATATGGTATTGACCCTGCAGAAATTGGTTTCCCTAATAGAGGAGGAGCTACAGGT
+TCTAAAGGTGGTTCTACTTTAAATGAGGCTGACCCGGGTAAAAAACAACAACAATCTCAA
+AATAAAGGTTTACAACCTTTACTTAGATTTATTGAAGACTTAGTTAATAGACATATTATA
+TCAGAATATGGAGATAAGTATACATTCCAATTCGTAGGTGGAGATACTAAGAGTGCTACT
+GATAAACTTAATATTCTTAAACTAGAGACTCAAATATTTAAAACAGTTAATGAGGCTAGA
+GAAGAGCAAGGTAAGAAACCTATTGAAGGTGGAGACATTATTCTAGATGCTTCATTCTTA
+CAAGGAACAGCCCAATTACAACAAGATAAACAATATAATGATGGTAAACAAAAAGAACGT
+TTACAAATGATGATGAGTTTACTAGAAGGAGACAATGATGATTCTGAAGAAGGGCAATCA
+ACAGATTCTAGTAATGATGATAAAGAGATAGGAACAGATGCACAAATAAAAGGTGACGAT
+AATGTTTATCGTACTCAAACATCTAATAAAGGTCAAGGAAGAAAAGGAGAAAAATCTTCT
+GACTTTAAACATTAATTAATAAGCCTAGAATAAATCTAGGCTTTGTTTATTTTTTTCGTA
+ATTTAATTTTGATAAATGTAATAACTATGATATACTATATGTAATTGATATTAATACATA
+AAAAATATTAATATTTCACTTACAAGTTATTATTGTTATATTATTAACGTAAAAGTAAAT
+AAAATAACAAGTGGAGGTGTAGACACCTTTGGAAGAAATAAAATTTAATGCTTTTGTACC
+TATGGATTTGAAGAAATCTGTATCAACAGCTTCTGATACTAATGAGTATTCTATCGTTTC
+AGGATGGGCTAGTACTCCAAGTATGGATTTACAGAATGATATAGTTAATCCTAAAGGAAT
+AGATATAGAGTATTTTAAGTCACAAGGGTACATTAATTATGAGCATCAAAGTGATAAAGT
+TGTAGGTATACCTACAGAGAATTGCTATGTGGATATAGAAAAAGGTTTATTTATTGAAGC
+AAAGCTATGGAAGAATGACGAAAATGTTGTTAAGATGCTTGATTTAGCTGAGAAATTAGA
+AAAATCAGGTAGTGGAAGACGTTTAGGTTTTTCTATTGAAGGTGCAGTTAAAAAACGTAA
+TATAAATGACAATCGAGTTATTGATGAAGTTATGATAACCGGAGTTGCATTAGTTAAAAA
+CCCTGCTAATCCTGAAGCAACATGGGAAAGCTTTATGAAATCATTTTTAACTGGTCATGG
+TACATCACCTGACACTCAAGTTGATGCAGGAGCTTTAAGAAAAGAAGAAATAGCATCTAG
+CATTACAAATTTAGCTTACGTCACTAAGATTAAAGATTTAAAAGAGTTTAATGATGTATG
+GAATGGCGTTGTTGAAGATTTGAGTAAATCTAATAGTATGGGATATGAGGAATCAGTCCT
+TACGTTACAACTAGCTAAAGGTTTATCTCGTAAAGATGCAGAACTAGCAGTAATGGATAT
+AAACAAACAAAAACTAGAATAGGTAAGGAGAATACATTCTATGAGTAAAGAAATGCAAAA
+TATTTTAGAAGAGTATGATAAGTTAAATGCTCAAGAGGCAGTTTCGAAATCTGTAGAAGA
+TGATGAAAAGAATACAGTAGAATCTACCGAAGAGCAAGTAGCAGAAACAACTGAAGAACC
+TGCTAAAGAACCTGAAAAAGTATCTGAGGAAGATGCTAAAGAAGCACAAGAGCAAGGTGA
+AAAAGTTGAATCTGAAGAGGTAGCAGAAGGCAATGAAGATGAGGAAGTTGAAAAATCAGC
+TAAAGAATCAAAAGACCCTGTAGACCAAAAAGATACTAAGACAGAAAATAAAGACAACGA
+GAAACGTAAAAATAAAAAAGATAAAAAAGAAGATTCTGATTCTGACGATGAAGATAAAGA
+TACTGACGATGATAAAGATAAGAAAGAAGATAAGAAGGAAAAAACTTCTAAATCAATTTC
+TGATGAAGATATCACAACAGTATTTAAATCTATCTTAACATCTTTTGAAAACTTAAATAA
+AGAGAAAGAAAACTTTGCTACTAAAGAAGATTTAAGTGAAGTTAGTAAATCTATTAATGA
+GTTATCAGCAAAAATTTCTGAAATCCAAGCTGAAGATGTTTCTAAATCAGTAGACACTGA
+TGAAGAAGCTGTAGAAAAATCAGTAACATCTACAAACGGAGAGCAAGAAAAAGTAGAAGG
+TTACGTTTCTAAATCAGTAGACACTGAAGAACAAGCTGAAACTGGTGAAGCAAAATCAGA
+AGAAGCTGAAGAAGTACAAGAAGATAACACATTTAAAGGATTAAGTCAAGAAGAACGAAC
+TAAGTTCATGGATTCTTACAAAGCACAAGCTAAAGACCCTAGAGCTTCTAAACATGACTT
+ACAATCAGCTTACCAATCTTACTTGAACATTAACACTGACCCTACTAATGCATCAGAGAA
+AGATATTAAAACTGTAAAAGACTTTGCACAAATTTAATTAATGCACAAAGTTGTGTTATA
+TTATACGGTGTAACTAAAGAATATAAATAGGGTACATTTTACTGTACCCTACATAAAATA
+AAAAGAACACAAATGAAAGGTGATAAATTTATATGACTATCGAAAAGAACCTGTCAGACG
+TTCAACAAAAGTACGCTGACCAATTCCAAGAAGACGTAGTAAAGTCATTCCAAACTGGTT
+ATGGAATCACTCCTGATACACAAATTGACGCAGGAGCTTTACGTAGAGAAATTTTAGATG
+ACCAAATCACAATGTTAACATGGACTAATGAAGACTTAATCTTCTATCGTGATATCTCAC
+GCCGTCCTGCTCAATCTACAGTAGTAAAATACGACCAATATTTACGTCATGGTAACGTAG
+GTCACTCTCGTTTCGTTAAAGAAATCGGAGTAGCACCAGTATCTGACCCAAATATCCGTC
+AAAAAACTGTATCAATGAAATACGTTTCTGATACTAAAAATATGTCAATTGCATCAGGTT
+TAGTAAATAACATTGCTGACCCATCACAAATCCTTACAGAAGATGCTATCGCAGTTGTTG
+CAAAAACAATTGAGTGGGCTTCATTCTACGGTGACGCTTCATTAACTTCTGAAGTTGAAG
+GTGAAGGTCTAGAGTTTGATGGTTTAGCTAAATTAATTGACAAAAATAACGTAATTAACG
+CTAAAGGTAATCAATTAACTGAGAAACACTTAAATGAGGCGGCGGTACGTATCGGTAAAG
+GTTTCGGTACAGCTACAGATGCTTACATGCCTATCGGTGTACACGCAGACTTCGTTAACT
+CAATCTTAGGTCGTCAAATGCAATTAATGCAAGACAACAGCGGTAACGTTAACACTGGTT
+ACAGCGTAAATGGTTTCTACTCATCTCGTGGATTCATTAAATTACATGGTTCTACAGTAA
+TGGAAAATGAACTAATCTTAGATGAATCATTACAACCATTACCAAATGCTCCACAACCTG
+CTAAAGTTACAGCTACTGTTGAAACTAAGCAAAAAGGTGCTTTTGAAAATGAAGAAGACC
+GTGCAGGATTATCATATAAAGTAGTAGTTAACTCAGATGACGCTCAATCAGCTCCTTCTG
+AAGAAGTAACAGCTACAGTATCTAACGTAGACGATGGTGTTAAACTTTCAATTAATGTTA
+ACGCTATGTACCAACAACAACCACAATTCGTTTCTATCTACCGTCAAGGTAAAGAAACAG
+GTATGTACTTCCTAATCAAACGTGTACCAGTTAAAGATGCACAAGAAGACGGAACAATCG
+TATTCGTAGATAAGAACGAAACATTGCCTGAAACAGCAGACGTATTTGTTGGTGAAATGT
+CACCACAAGTAGTTCACTTATTCGAATTACTTCCAATGATGAAATTACCATTAGCTCAAA
+TTAATGCTTCTATTACATTTGCAGTATTATGGTATGGTGCATTAGCATTACGTGCTCCTA
+AAAAATGGGCTCGTATTAAAAACGTTCGTTATATCGCAGTTTAATAGAATAAGAAAAACT
+GAATACAAGAGAATAGGGATAAACTTAGGGTTTATCCCTTTTTTATTAAAATAAACTTGA
+AGGGATTTAATAAATATGTTATACTATAAGAAACTATTAGATAAAAAAATGGCTACTGTT
+TATGGTACAGTGGAGATTGACAAAGATGGAGTAGTCAAAGGATTAACTAAAGAACAAGAA
+AAAGAATTTGCCAATGTTCCAGGTTTTGAATTTGAAGAAGAAAAGAAAACTACTAGAAAA
+CAATCAGCTTCTACTAGTAAAGAAGAAGAGCCTAAGGAAGAGGAAAAGAAAGCCTCTACT
+AGAAAAACTACAAATACTACTAGAAAATCTACAGCACGTAAAACAACAGCCAAAAAAGAT
+GAAAATAAGTAAAGGGTGAATTAAATGGTTAACTCAATGTTTGGAGGGGACTTAGACCCT
+TATGAAAAATCATTAAACTATGAATATCCTTATCATCCTAGTGGTAATCCTAAACACATA
+GATGTAAGTGAGATAGATAATTTAACATTAGCTGATTATGGATGGTCACCGGATGCAGTT
+AAAGCATATATGTTCGGTATTGTAGTTCAAAATCCTGATACAGGACAGCCTATGGGTGAC
+GAGTTCTATAACCATATATTGGAAAGAGCGGTAGGTAAAGCTGAAAGAGCATTAGATATA
+TCTATACTACCTGACACTCAACATGAGATGAGAGATTATCATGAGACAGAGTTTAATAGT
+TACATGTTTGTACATGCTTACAGAAAACCTATATTACAGGTAGAGAACTTACAGCTACAG
+TTTAATGGTAGACCTATATATAAATACCCTGCTAACTGGTGGAAAGTAGAGCATCTAGCA
+GGACATGTTCAATTATTCCCTACAGCACTTATGCAAACAGGACAATCAATGTCATACGAT
+GCAGTATTCAATGGATACCCTCAATTAGCAGGTGTATACCCACCATCAGGAGCAACATTT
+GCACCTCAAATGATACGATTAGAATATGTATCAGGTATGCTTCCACGTAAAAAAGCAGGA
+AGAAATAAACCTTGGGAAATGCCCCCTGAGTTAGAACAGTTAGTTATAAAATATGCATTG
+AAAGAAATATACCAAGTATGGGGTAACTTAATTATTGGTGCCGGTATTGCTAATAAAACA
+TTAGAAGTAGACGGTATTACAGAGACAATAGGTACTACTCAATCAGCTATGTATGGTGGA
+GCTAGTGCTCAGATACTTCAAATAAATGAAGATATAAAAGAACTATTAGATGGTTTAAGA
+GCTTACTTTGGATATAATATGATAGGATTATAAGGAGGGTTAGAAAATGGAAAAACCGTA
+TATGATAGGAGCTAACTCTAACCCTAATGTTATTAATAAGTCAACAACATATACTACTAC
+AACACAAGCAGATGAACAAGATAAACCTAAGTATACTACTAGACTAGAGTTTGATACGAT
+TGACATGATTAGGTTTATTAATGACCGAGGTATAAAAGTACTATGGGAAGAAGCATATTT
+CTGTCCTTGTCTTAATCCTGATACAGGACATCCTAGAGTAGATTGCCCTAGATGTCATGG
+TAAAGGTATTGCATATCTACCTCCTAAAGAGACGATAATGGCAATACAGTCTCAAGAGAA
+AGGAACTAACCAGTTAGATATAGGTATATTAGATACAGGTACTGCAATAGGTACCACTCA
+ATTAGAAAAGAGAATTTCCTATAGAGACAGGTTTACTGTTCCTGAGGTATTGATGCCCCA
+ACAAATGATTTATTTTGTGAATAAAGATAGAATTAAAAAAGGTATACCTTTATACTACGA
+TGTAAAAGAAATAACTTATATAGCCACTCAAGACGGTACAGTCTATGAAGAAGATTATGA
+AATCAAGAATAATAGATTGTATTTAAATGAAAAATATGAGAATCATACAGTAACTTTAAA
+GATACTTATGACTTTAAGATATGTAGTATCAGATATACTAAAAGAAAGTCGTTATCAATA
+TACTAAGTTTAATCAACCTAAATCAAAATTTGAAAACTTACCTCAAAAATTACTTCTTAA
+AAGGGAAGATGTCATTGTACTACAAGACCCTTATAAAGTTAATGATGGTATAGAAGAAGA
+CCTAGAAATTCAAGTAGATGACCCTAAGGCTTCGGCATCTAATCCTAGTAATTTAGGTGG
+ATTCTTCGGAGGTGCATTTAAATAATGCCAGTTCATGGAAAGAGACCTAATTTATTTAAA
+AATAAAAACTATAAGCAGGTAGGTAAGAGAACAATTGATGGTATGCGTTCAGAAGTTCTT
+GATAAATTACAAGCAACAGCACAGCAAGTAGAGAATACTAGTATTAAACGTATGCCTACT
+TATCTACAAATAACAGAGAAAAAGCTTGAAAAAGAAGGAGTAGTAGACCTTAAAAAAGCT
+TTTGCTCACTCATCTAAAAAGAAAACTAGTAAAGATGGCGGATGGTATTTAACTGTACCA
+ATCCGCATCAAAACTAGTAGAATGAATAACAGTACTTATCAAGATATGAGAACTTTAAAA
+GTAGATAAAGGAACAGGTTCAGTTTCGAAGATAACTGATTACCTAGAAGGACGTAGGAAG
+AATGTAAGCCACCCTTCAATGAAGCCTGAACCTATGACTCATAATATGACTAAAGTTAAA
+AGAGGAAAGCAATCTTCTTACTTTATATTTAGAACTGTTTCTAGTAAGTCACCTGCTAGT
+TCTTGGATACTTAACAGAGATAAAGTTAATGAAGATAACTTCTCTAAAACAACTCTAAAA
+ACTGTTAAGCAATTAATGAACTGGAAGATGAAAAATTTAAATTAAGAGGAGGGTTAGTAT
+TAAATGGCAATAACATCAGTTGATTCATATTTATTATCAGAAATAAAGCCTAGACTTAAC
+ACTGTGCTAGAGAATTGTTATATTATAGATGAAGTTTTAAAAGACTTTGATTATCAAACT
+AGAGAGAGCTTTAAAGAAGCTTTCTGTGGTAAGAATGCACAACATGAAGTAACGGTAGGA
+TTTAACTTCCCAAAATTTAAAAATAACTATGAAGCTCATTACTTGATACAATTAGGTCAA
+GGACAAGAGACAAAAAACTCTTTAGGGAGTATTCAGTCATCTTACTTTGAGGCAACAGGA
+GATACTTTAGTCGAATCTTCTACAGCAATAAGAGAAGATGATAAGTTAGTTTTTACTGTT
+TCTAAACCAATAGGAGAGTTAATAAAGGTAGAAGATATAGAGTTTGCTAAATACGATAAT
+CTTCAGGTTGAAGGTAATAAGGTATCATTTAAGTATCAAACAAATGAAGATTATGAGAAC
+TACAATGCTAACATTATATTTACCGAAAAGAAAAATGATTCTAAAGGTTTAGTAAAAGGA
+TTCACAGTTGAAGAACAAGTAACAGTTGTAGGTCTTTCATTTAATGTAGACGTTGCAAGA
+TGTTTGGATGCTGTACTGAAAATGATTTTAATATCTATGAGAGATAGTATAGAAGAGCAA
+CAAACATTCCAATTACAGAATTTGTCTTTTGGTGATATTGCACCAATAATAGAAGATGGT
+GACTCAATGATTTTTGGTAGACCAACAATTATTAAGTACACAAGTTCTCTAGATTTGGAT
+TATACTATTACACAAGATATTAATAAACTAACTTTTAAAGAAAGAAAGGATTGGAAGTAG
+GATGGCTAGAAAAAAGACACCTGAAAATAACACTCCTAAATTTAATGGTTATGTTCATAT
+AGATACATTCCTTGATACTGCAAAAACCCTTTTTAATATGAGGGATTCACAAGTAGCAGG
+ATTTAAAGCTTATATGGAAGGTAGTCATTATTTGTTTAGTGAGCAAGAATTCTTACCATC
+ATTAGAGAAGTATCTAGGTAGGAAATTAGATATATAATAACATTCAGATAAGGAGAATTA
+AATATGGCAGTAGAACCATTCCCAAGAAGACCTATTACCCGTCCTCATGCATCTATTGAA
+GTAGATACTTCAGGTATCGGTGGCTCAGCAGGTTCAAGTGAAAAAGTATTTTGCTTAATC
+GGTCAGGCTGAAGGCGGAGAACCAAATACAGTTTATGAATTACGTAACTATTCACAAGCT
+AAACGTTTATTCCGTTCAGGAGAATTACTTGATGCAATAGAATTAGCATGGGGTTCTAAC
+CCTAACTATACAGCAGGACGTATTTTAGCTATGCGTATAGAAGATGCTAAACCTGCTTCA
+GCGGAAATTGGCGGATTAAAAATAACATCTAAAATCTACGGTAATGTTGCTAACAACATT
+CAAGTAGGATTAGAAAAGAATACACTAAGTGATTCATTACGTTTAAGAGTAATATTCCAA
+GATGACCGTTTCAATGAGGTTTATGATAATATCGGTAATATCTTCACAATCAAGTACAAA
+GGAGAAGAAGCTAACGCAACTTTCTCTGTAGAACATGATGAAGAAACTCAAAAAGCAAGT
+CGTTTAGTATTAAAAGTTGGAGACCAAGAAGTTAAGTCATATGATTTAACTGGTGGAGCT
+TATGACTACACTAATGCTATTATTACAGACATTAATCAATTACCTGATTTCGAAGCTAAA
+TTATCACCTTTCGGAGATAAGAACTTAGAATCTAGCAAATTAGATAAAATTGAAAATGCA
+AATATAAAAGATAAAGCTGTATATGTAAAAGCAGTTTTTGGTGACTTAGAAAAACAAACA
+GCTTACAATGGTATCGTATCTTTCGAGCAACTTAATGCAGAAGGAGAAGTACCAAGTAAT
+GTAGAGGTTGAAGCAGGAGAAGAATCAGCTACAGTAACTGCTACTTCACCTATTAAAACT
+ATTGAACCGTTTGAGTTAACTAAGTTAAAAGGCGGTACTAATGGTGAACCACCTGCTACA
+TGGGCAGACAAGTTAGATAAATTTGCACATGAAGGCGGATACTACATTGTTCCATTATCA
+TCTAAACAATCAGTTCATGCAGAGGTAGCTTCTTTTGTTAAAGAACGTTCTGATGCAGGA
+GAACCAATGAGAGCTATTGTTGGTGGAGGATTCAATGAATCTAAAGAACAATTGTTCGGT
+AGACAAGCATCATTATCTAATCCACGAGTATCATTAGTAGCTAACTCAGGTACTTTTGTT
+ATGGATGATGGACGTAAAAACCACGTACCTGCTTACATGGTAGCCGTAGCTCTAGGTGGT
+CTTGCAAGTGGTTTAGAAATCGGTGAATCAATCACATTCAAACCACTACGTGTAAGTTCA
+TTAGACCAAATCTATGAGTCAATAGACTTAGATGAATTAAATGAAAATGGTATTATTAGT
+ATAGAGTTTGTTCGTAACCGTACTAATACATTCTTCAGAATCGTTGACGATGTAACTACA
+TTCAACGATAAATCAGACCCAGTTAAGGCTGAAATGGCTGTTGGGGAAGCTAATGACTTC
+TTAGTAAGTGAGCTTAAAGTTCAACTTGAAGACCAGTTTATTGGTACTCGTACTATTAAT
+ACAAGTGCTTCAATCATTAAAGACTTTATCCAATCTTACTTGGGTCGTAAGAAACGTGAT
+AATGAAATTAAAGACTTCCCTGCTGAAGACGTACAAGTTATTGTTGAAGGTAACGAAGCA
+AGAATTTCAATGACAGTTTACCCAATCAGAAGCTTCAAGAAAATCTCTGTTAGCTTGGTT
+TACAAGCAACAGACATTACAAGCCTAGTCTAGGTGACGGAGTACCTGGATTAGGTACTCC
+TATTAATATAATTTGAATACTTTAGGAGAGTGAATACAGATGGCATCAGAAGCTAAACAA
+ACCGTCCATACTGGTAATACCGTCCTACTTATGATTAAAGGTAAACCGGTAGGAAGAGCA
+CAATCAGCATCAGGTCAACGTGAATACGGTACAACTGGTGTATACGAAATCGGTTCTATC
+ATGCCTCAAGAACACGTATACTTACGTTATGAAGGTACAATTACAGTAGAACGTTTACGT
+ATGAAAAAAGAAAACTTTGCAGATTTAGGATATGCTTCACTTGGTGAAGAAATTCTTAAG
+AAAGACATCATTGATATTTTAGTAGTAGATAACTTAACGAAACAAGTTATTATCTCATAT
+CATGGTTGCTCTGCAAATAACTACAATGAAACTTGGCAGACAAATGAAATTGTAACAGAA
+GAAATCGAGTTTAGTTACTTAACAGCAAGTGACAAAGCACGTACTTAATAGATTAGACCA
+ACTAAAAAGTTGGTCTTTTTTTATTGACACTTTAAAATTTATATGTTATTATAAATATAA
+TAATTTAAACAGGAGATGTACTAGATGGCAAATAAGAGAAAAACAATAGGAAAAATGAGT
+AACACAAGAGCAACATGGAATATTAATCCGGTAACTAAAGTTAAAAAAGATAAAACAAAA
+TATTCTAGAAAAAATAAACATAAAGGTCTTGACAATTATAATTAACTAAGGTATATTATT
+AGTATAACAAAAAAAGGAGATGGGTATATGAGTACATTTTGGTCAGAAAGAAGAACAACT
+AATAAAGATAGGCAAGTTAAAAAACATTATACTCAAATGAGTATGTATGAAAGAAAGAAA
+TGTGTAGAGTTATTACAAGAGACAATTACTGAAAATAGAATTATTAATTTTACACGACAT
+AGTGCAAAAAAGGTTAAAGGTAAACCAACAACAAATATACCTAAATTAATAGGTTTTATT
+TTTAAAAATAAGTTTGCCTACGAAAATATCATAGAGTACAATAACACAGATTATAATGGT
+AATATTGAGAGGAGAATTGTTGTTAAACATCCTAAAGTTATAACTGTAGAAGGAAAACCT
+AGCTATCAGTTTTTGACAATTAGTCTTGAAGATGCTAGAGTTATTACGGTGTGGTATAAC
+AGTGTAGATGATACACATAGAACACTAGATTTAAATTATTATAGTAAAGACTTGACAATT
+CAATAAGGAGGTATTATAATGGGTATAACAATAGTAAATAGTTATTTTATTCTGTCTAGC
+ATTTTCCTCATCATATTAACCATATTAAATGGTAAGGGTACAGTTACAAGGGAATCATTA
+ACTATGAGTAAAATATTAGTAGTAATAACATCAATTCAATTTTTAGCATGTTTAATTATT
+AATGGTATTTATTGGTCACTAAAATTTATGTAGTAGAACTAGAATAAAAGTATTGACAAA
+TTAAAACTAATAAATTATAATAAAGGTATAACAAATTAAAGGAGAAGATATAAAATGTCA
+CAAGATAAATTAAGAGCAATTTACACAGAAATGAAAGTAGAATTACACAAATTTCCTAAA
+GAGGTAGATATAACAAGTAAATCAACTGCAATTGCAATCAATCAGATTTTAGATAAATTC
+AAAACATTAACAGAACAAGCAGGAAAGATTACTAGAAAATATTTAGAAGGTCAAGAAATA
+TTAACTATTGATTATGAGTATTATGATTCATTACAAGAATACTATATTTACCTACTTAGA
+AATAGTGAAAAGATTGAACAAAGTTTACAAGAAATTACTAAGCGTACAGGTGAATATGTA
+AAGTAATTTTGATTTAAAAACAAAATATGATATACTATGTTTAAAGTAGTAAGCCTACAC
+TAGTCCGTGTTATATTAATATTGAATCGGATAAGCGTAGGCTTTATTAATATTTAAAAAA
+GGAAGGTATATCATATTATGGCAGAAGAAATTAAAAAGGAACAAGATGTACAAGAAACAA
+CTAAAGAAGAAAAAAAAGATGTTAGTAAAATGACACCGGAAGAAATAGATAAATTAAAAT
+ATCAAGACAAACAAGAAAAAGAACAAGTTATTAACAAAGTTATTAAAGGCGTTAATGATA
+CTTGGGAAAAAGAATATAACTTTGAAGAACTAGACTTAAGATTTAAAGTTAAGATTAAAT
+TACCTAATGCACGAGAACAAGGTAATATCTTTGCGTTACGTTCTGCTTACTTAGGTGGTA
+TGGATATGTACCAAACAGACCAAGTGATTAGAGCATATCAAATGTTAGCTACCTTACAGG
+AAGTAGGTATTGAAGTTCCTAAGGAATTCCAAGACCCTGACGATATTTATAACTTATATC
+CTTTAACTGTTATGTATGAAGATTGGTTAGGATTCTTAAACTCCTTTCGTTACTAATAGT
+ATAGAAACATTAGATAAAGATATAGAACGATTGGGCGGTATGGAATCAATTGTTAAACAA
+CCTTTATCTAGAAATCTATGGGCTATTATGAAAGAGTTTAATGTTTTACCTACCGAGCAA
+AGATTTAAGGACTTAGACGATTATCAGATAGAGTTTATTATTGGGAATATGAATAGAGAT
+GTTTATGAACATAATAAACAACTTAAACAAGCTCAAAAAGGTGGAAAATTCGATAGTCAA
+TTCGAAGATGATGATAGTAGTTGGTGGAATGAATCTCATGAAGACTTTGACCCAGTACCT
+GATTTCTTAGATGCTGATGATTTAGCACAACAGATGGAAGCTAAATTATCCGATAGAGAT
+AAGGAAGAAAGAGCTAAGAGAAACGATGCAGAGTTAAATGATGAAACAGAAGGACTTACT
+ACACAACATCTAGCTATGATGGAATACATCAGACAGAAACAACAAGAATTAGATGATGAA
+GTAGGAAATGGTAAGACTAGTGAAGATGACGCTACTATATCACAAGATAGCGTTAATAAA
+GCACTAGAAGACCTAGATGATGACTGGTATATGTAAAGGGTGGTAGGTGATACTACCATC
+CTTATTTTTTTAAAATGGATGGTGAATAATGATGGCAATGAATGACGATTATAGATTGGT
+CTTGTCCGGTGATAGTTCGGATTTAGAGAATAGTCTAAAGGCAATAGAACTTTATATGGA
+TTCTTTAGAGTCTAAGAATATTGATGCTCCTTTAGATAATTTCTTAAAAAAATTAAAAGT
+AATTGCTAAAGAAGTTAAAAATGTACAGAACGCAATGGATAAACAAGATGGTAAATCTGT
+TATATCTTCTAAAGACATGGATGAATCTATTAAATCCACTCAATCTGCTACAAAGAATAT
+AAATGAATTAAAGAAAGCTTTAGATGACCTTCAAAAAGAGAATATATCTAAAGGTATTGC
+ACCTGACCCTGAAGTTGAAAAAGCATATGCTAAGATGGGTAAAGTTGTAGATGAAACTCA
+AGAAAAACTTGAGAAAATGTCTTCACAAAAAATAGGTTCTGATGCCAGTATTCAAAATAG
+AATTAAGGAAATGAAAACCTTAAATCAAGTAACTGAAGAATACAATAAAATAAGTAAAGA
+TTCTAGCGCAACTAAAGATTATACAAAACGATTAAGAGCTAATCGTAATATGACTAGAGG
+TTACATGGAGCGTTCAGAAGGAACAGGACGATTAACATATGACCAAGGTGCACGAGTTAG
+AAGTGAGCTAGGTAAAATAAGTTCTTATGAGAGCCAAAGAAAACAAAACCAACGTAATTT
+AGGACAAGCAAGAGAGCAATATAGCAACTATAGAAATCAACAACAAGACTTGACTAAACG
+TAGAGCTAGCGGTCAAATTAATAAGGAACAATATGAACAAGAGTTAGCTTCTATTAAACA
+GGAAATGAAAGCTAGAGAAGAACTTATATCTAACTATGAGAAATTAGGAGCAGAACTTGA
+TAAAACAGTTCAGTATTATAAGGGTTCAGTTCAAAAGGATTTCCAATCTAGAGACGTAGA
+CCAACAAAGAGGAACATTTGGTAGAATGGTTCAAGAACGTTTGCCATCTATTGGTTCTCA
+TGCTATGATGGGTACTACAGCTATGGCTACAGGTTTATACATGAAGGGTGCCTCATTAAG
+TGAAACTAATAGACCGATGGTTACATCATTAGGTCAAAATTCCGATAATATGGATATAGA
+TTCTGTAAGAAATGCATATGGAGACTTGTCAATTGATAACAAATTAGGTTATAATAGTAC
+TGACATGTTGAAAATGGCTACTTCATATGAAGCATCAGTAGGACATAAAAGTGATGAGGA
+CACAATGGCAGGAACTAAACAGCTTGCTATTGGAGGACGTTCTTTAGGCATTAAAGACCA
+AGAAGCTTATCAAGAGTCTATGGGTCAAATCATGCATACCGGTGGAGTAAATTCTGATAA
+CATGAAGGAAATGCAAGATGCATTCTTAGGTGGTATTAAACAATCAGGCATGGTTGGTCG
+TCAAGATGAACAACTTAAAGCACTAGGTTCTATAGCGGAACAATCAGGAGAAGGAAGAAC
+TCTAACTAAAGACCAAATGAGTAACCTTACTGCCATGCAATCTACTTTTGCAGAGTCAGG
+AAGTAAAGGATTACAAGGTGAACAAGGTGCCAATGCTATTAACAGTATAGACCAAGGACT
+TAAAAATGGTATGAATAGTTCTTATGCTCGTATAGCAATGGGATGGGGAACGCAATACCA
+AGGTCTTGAAGGTGGATATGATTTACAAAAACGTATGGATGAAGGTATATCTAATCCTGA
+AAACTTGACAGATATGGCTGATATAGCTACTCAAATGGGTGGCAGTGAAAAAGAACAAAA
+ATACCTATTTAATAGAAGTATGAAAGAAATAGGCGCTAACCTAACTATGGAGCAATCTGA
+TGAAATATTTAAAGATGCTCAATCCGGAAAACTATCTAAAGAAGAGTTAGCTAAGAAAGC
+TAAGAAAATGGAAAAAGAAGGTAAAAAAGAAGGAGAAGATAACGCCACTGATTATAAAGA
+ATCTAAATCAGGAAAAAATGACCAAAATAAATCGAAGACTGATGATAAAGCAGAAGATAC
+TTATGATATGGCTCAACCACTAAGAGATGCTCATAGTGCTTTAGCAGGTCTTCCTGCCCC
+TATATATTTAGCTATAGGAGCTATAGGAGCATTTACAGCTTCACTAATTGCATCTGCAAG
+TCAATTTGGAGCAGGTCACTTAATTGGTAAAGGAGCCAAAGGACTTAGAAATAAATTTGG
+TAGAAATAAAGGCGGTAGCTCCGGTGGTAACCCTATGGCAGGTGGAATGCCTAGTGGTGG
+TGGTTCACCTAAGGGTGGAGGCTCACCTAAAGGTGGGGGCACTCGTTCTACTGGAGGAAA
+AATACTTGATAGCGCTAAAGGTCTTGGAGGATTCCTAGTAGGTGGCGCAGGATGGAAAGG
+TATGTTTGGCGGGGAGTCTAAAGGTAAAGGCTTTAAACAAACATCTAAAGAAGCCTGGTC
+AGGTACTAGAAAAGTATTTAATAGAGATAATGGTAGAAAAGCCATGGATAAATCTAAAGA
+TATAGCTAAAGGTACCGGTAGTGGTCTTAAAGATATCTATAATGATAGTATATTTGGTAA
+AGAAAGAAGACAAAACCTAGGAGAAAAAGCTAAAGGTTTTGGTGGCAAAGCTAAGGGTCT
+CTATGGTAAGTTTGCTGATAAGTTTGGTGACGGAGGTAAAAATGGTATTCTTTCACAATC
+ACCAAAAGCAGGTGGAAGTGGCATAGGGAAACTTGGAAAACTTGCAGGTGGACTTGGAAA
+AGGAGCCGGAGTTTTAGGTGTTGCTACGTCTGCCTTATCATTAATACCTGCTTTAGCTTC
+CGGAGATAGTAAAGCTATCGGCGGAGGAATAGGCTCTATGGGTGGAGGAATGGCAGGTGC
+ATCAGCAGGAGCTTCTATAGGAGCTTTATTTGGTGGTGTAGGTGCAATACCTGGAGCTTT
+AATAGGTGGAGCTATAGGTTCCTTCGGAGGAGGAGCTGTTGGTGAAAAAGTCGGAGACAT
+GGCTAAAAAAGCTAACACTAAAGAAGGATGGAACCTAGGATGGACTAACGGAGATAAGGA
+TGGTAAGAATAAATTCCAAGATTCTTTATTAGGAAAACCTATATCTAAAGCATGGAGCGG
+TATAACAGGTCTCTTTGATAATGACGCTGAAGCATCCGAAGAAGATAGTAAAGATAAGAA
+AAAAGGTGTTAAAGGCGTTAAAGGAGATACTAAGAAGAAAGAAAAAATGACAGCAGAACA
+ACTTAGAGAAAAGAATAACCAATCTGAAACTAAGAATCTTAAAATCTATAGTGATTTACT
+TGACAGAGCTCAGAAAATTATTGAGAGTGCTAAAGGTATTAATATAGATGGAGGAACTTC
+TGATAGTGGTTCTGATAGTGGAGGCTCTGCATCTGATGTAGGTGGAGAAGGCGCAGAGAA
+GATGTACAAGTTCCTTAAAGGAAAAGGACTATCTGATAATCAGGTAGGAGCTGTTATGGG
+GAACTTACAACAAGAATCTAATCTTGACCCTAATGCTAAGAATGCTTCTAGTGGAGCATT
+TGGTATTGCTCAGTGGTTAGGGGCTAGAAAAACAGGATTAGAAAATTTTGCTAAATCTAA
+AGGTAAAAAATCTAGTGACATGGATGTTCAATTAGATTACCTATGGAAAGAAATGCAGTC
+TGATTATGAAAGCAATAATCTTAAAAATGCAGGTTGGAGCAAAGGTGGAAGCTTAGAGCA
+GAATACAAAAGCATTTGCTACTGGATTTGAACGTATGGGAGCAAACGAGGCTATGATGGG
+TACTCGTGTTAACAATGCTAAGGAATTCAAGAAGAAATACGGAGGCTCCGGTGGCGGAGG
+TGGTGGAGGAGCCCTATCCTCTACTTACCAAGAAGCTATGAGTAATCCTGTATTAACTAC
+TGGTTCTAATTATAGGGGCTCTAATGATGCTTCTAATGCTTCTACAACTAACAGAATAAC
+AGTCAATGTTAATGTTCAAGGTGGAAATAATCCTGAAGAAACTGGAGACATTATCGGAGG
+AAGAATTAGAGAAGTTCTAGATAGTAATATGGATATCTTTGCAAATGAACATAAGAGAAG
+TTATTAGTAATTTTGTATTGACACAAGAGTAGTATCATAATATACTACTCTTATACATAT
+AAAAAATAAAAGGAAGTATGTGTATATGCGTAGAATAAGAAGACCTAAGGTAAGAATAGA
+AATCGTTACAGATGATAATACATTTACATTGAGATTTGAAGATACACGTGACTATAATGG
+TGATGAGTTTGGAGCTAAACTTTTAGGATTCCAAACTAAAAACTCTATGGAAGATGATAG
+TTCAGTTTTCCAAATAAATATGGCAGGAGATACTTATTGGGATAAGCTAGTTATGGCTAA
+TGATATCATAAGAATATTTATTACACCTAATGATGACCCTAACGATAAAGAAGGAAAACA
+AGAACGACTTATCCAGGTAGGTATGGTTTCTCAAGTATCAAAAGTAGGTAGTTACGGTAA
+TGACCAAACTCAATTTAGAATAACAGGTCAATCTTTTGTAAAACCTTTTATGAAATTTGG
+ATTAGGCGTTATTCAGGAAGTTCAAGCTGTATTACCTGAAGTAGGTTGGCTTATTGATGG
+TGATGGAGATAATGAAGTAAAATTTACTGGTAGCTCAGCTCATGAAGTAATGACTGGTAT
+TATACGTAGATTTATACCTTATATGAAATATAACTATACTGAAAAAACATATAATACAAT
+TGATAACTATCTTGATTATGATGATTTAAGTAGTTGGGATGAGTTTGAAAAACTTACAGA
+AGTTTCAGCCTTTACTAATTTTGATGGGTCATTAAAACAGTTAATGGATATGGTAACAGC
+TAGACCTTTTAATGAGTTATTCTTCAAAAATTCAGAAAAAACACCTGGAAAGGCTCAACT
+TGTATTAAGAAAGACCCCTTTTAATCCTACTGAGTGGAGAGCTTTAGATATGATTAAAGT
+ACCTACTGAGGATTTTATAGAAGAGGATGTAGGTAAAAGTGATGTAGAGACATATTCTAT
+ATTTACAGCAACACCTGCAGGTATGTTGAAAGAGCTTAACGGTGATGTATTTTCTAAACC
+ACAATTCCACCCTGAATTAACTGATAGATATGGTTATACTAAATTTGAAGTAGAAAATAT
+TTATCTTAGTACAAAATCAGGTTCAGCTACTGAGGATTCAGATTCTTCAGGTGATGATAA
+TGGCACAGAACGAGGAACTTATTCTAAAATTATGAAAGATTTAAGTAACTATGGAAGAGA
+TAATATATCTAAAGGTATAGATAAGTATACAAGTAAATTATCTTCAAAATATAAAAACTT
+AAAAAAAGCCCAAGCTAAAAAAATTATAGAGAAGTTTGTTAAAGAAGGAAAAGTAACAGA
+AAAAGAATATGAAAAAATAACAGGTAATAAGGTAGATGATGAATTAACATCAGATAACAG
+ACCGAAGTTGACAAAAGATAAATTAAAGAGTATACTAAAAGAGAAGTTTAAAACACAAGA
+TGATTTTAATAATTCTAAGAAAAAGAAAAAAGCTAAGACAGATGCACTTAAAGAATTGAC
+AACTAAATATCGTTTTGGTAATAAAACACATGCTACAACTTTATTAGATGAATATATTAA
+ATATAAAGGAGAGCCACCTAACGATGAGGCTTTTGATAAATATCTTAAAGCTATTGAAGG
+TGTTAGTAATGTAGCTACAGACACAGGTTCAGATGCAAGTGATAGCCCTTTAGTTATGTT
+TTCTAGAATGCTATTTAATTGGTATCATGGTAACCCTAACTTCTATGCAGGAGATATTAT
+TGTTTTAGGAGACCCTAAGTATGACCTAGGTAAAAGATTATTTATTGAAGATAAGCAACG
+AGGAGACACTTGGGAGTTCTATATTGAATCTGTAGAACATAAATTCGATTATAAACAGGG
+GTATTATACAACTGTAGGAGTAACTAGAGGTTTAAAAGACGCTATTCTAGAAGATGGTAA
+AGGTAGTCCGCATAGATTTGCAGGATTATGGAATCAATCATCAGACTTCATGGGAGGTCT
+TATGGGTGAAGATACTTCTAAAGAACTTAAAGAAAAAGGTGTAGCAGAGAAACAAAGTAG
+TGGAGATAAAGATGGTGGTTCTGATAGTGGTGGAGCTCAAGATGGTGGCTCTTTAGATTC
+ACTTAAAAAATATAACGGCAAACTTCCTAAGCATGACCCAAGTTTTGTTCAACCTGGTAA
+CCGACATTATAAGTATCAGTGTACATGGTATGCTTATAATAGAAGAGGTCAATTAGGCAT
+ACCTGTGCCTTTATGGGGGGACGCCGCCGACTGGATAGGTGGTGCTAAAGGAGCAGGTTA
+TGGTGTAGGTAGAACACCTAAACAAGGTGCTTGTGTTATATGGCAAAGAGGAGTTCAAGG
+AGGTAGCCCACAATATGGTCACGTAGCGTTTGTAGAGAAAGTATTAGATGGAGGTAAAAA
+AATATTTATCTCTGAACATAACTATGCTACCCCTAATGGATATGGTACTAGAACGATAGA
+TATGAGTTCAGCCATAGGTAAGAATGCACAATTCATTTACGATAAGAAATAAAGGAGGAT
+AGTCTATGGCAACAGATAAAGAAGCTAAAGATGTTATTGATAAATTTATAGACAATGTAT
+TTAATTTTGATGTACTTACAAAAGAAAGAATAAAAGAAAAAGATGAAGAAATTAAAAAAA
+TAACTACAGATGATATGTATGAAAAGGTTGTGTATATACGACCTTATGTTGGAGTAATAC
+AAAGCCTTAACCCTCAGCATGTTCAGTATGAATCATTTTCTAATAATGGTTATGATATAG
+AGGCAGAATTAAGTTTCAGGAAAGTAAGTTATTTAGTTGATAAAGGGTCTATACCTACAG
+ATTCTTTATCTACTTTAACAGTTCATTTAGTAGAACGAAATCAAGAACTATTAATAGATT
+ACTTTGATGAGATACAAGATGTGTTGTATGGAGAATATATGGAAGAAGAATATGTATTTG
+ATGAAGATGTACCATTAAGTACGATACTAGCATTAGACTTAAATGATAATCTTAAATCCT
+TATCAAATATAAAGTATATGTTCAAAGGTGCTCCTAAAGAGAATCCATTTGGAACAGATA
+AAGATGTTTATATAGATACTTATAACTTATTATACTGGTTATATTTAGGTGAAGATGAAG
+AGTTAGCATATCCTATGAATATTAACTACTTCTTTACAGAGGGAAGATTCTTTACTATAT
+TCGGTAAAGGACATAAGTATAAGGTAGATGTTAGTAAATTTATAGTTGGAGATATATTAT
+TCTTTGGTAGAAGTGATACTAATATAGGTATTTATGTAGGAGATGGGGAGTTTATATCTA
+TGATGGGTAAATTCCCTAAAGATGAAACACCTATAGGAAAATATAAACTTGATGATTACT
+GGAATGAATTTAACGGAAGAGTTATGAGATTCGATGAAGAGGTGTATATTTAATGGTAGT
+AAGATTCCAATCTTCCATGGGGAGAAGTTTAAAAAGAGTAGATTCGGATGATTTAAATGT
+AAAAGGATTAGTTTTAGCTACAGTTAGTAAAATTAATTATAAATATCAATCAGTAGAAGT
+TAAAGTTAACAATTTAACTCTAGGAAGCCGTATAGGTGATGATGGTAGCTTAGCTGTACC
+TTATCCTAAATCTTTCATAGGAAGAACACCTGAAGGAAGCGTATTCGGTACAAAACCTCT
+TATTACTGAAGGTTCTGTAGTATTAATAGGGTTTCTAAATGATGATATAAATAGTCCTAT
+TATTTTAAGTGTTTATGGTGATAATGAACAAAATAAAATGATTAATACCAATCCTCTAGA
+TGGAGGTAAGTTTGATACAGAAAGTGTTTATAAATATAGTAGTTCACTATATGAAATTTT
+ACCATCTTTAAATTATAAATATGATGATGGAGAAGGAACAAGTATTAGGACTTATAATGG
+TAAATCATTTTTCTCTATGACATCAGGTGAAGAAGAGAAACCTCAGGCAACAGATTTTTA
+TACTGGAACTGAGTATCAAGATTTATTTACTTCTTATTATGGTAATAAGACATTAATTGA
+GCCTAGAATACAAAAGGCTCCTAATATGTTATTTAAACATCAAGGAGTTTTTTATGATGA
+TGGCACGCCGGATAATCATATAACTACTTTATTTATATCTGAAAGAGGGGATATAAGAGC
+CTCAGTTTTAAATACAGAAACACAGAAAAGAACTACACAGGAAATGTCAAGTGATGGGTC
+TTATAGAGTTATCAAACAAGATGACGATTTAATGTTGGATGAAGCTCAAGTTTGGATTGA
+GTATGGTATTAGTGAAGATAATAAATTTTATATTAAAAATGACAAGCATAAATTTGAATT
+TACTGATGAGGGAATCTATATAGATGATAAACCTATGTTAGAAAACTTAGATGAGAGTAT
+AGCAGAGGCTATGAAGAATTTGAATGAAATACAAAAAGAACTCGATGATATAAACTACCT
+TCTCGAGGGTGTAGGTAAAGACAATTTAGAAGAATTAATAGAGTCTACAAAAGAGTCTAT
+AGAAGCTTCTAAAAAAGCAACTTCAGATGTCAATAGACTTACAACTCAGATAGCAGAAGT
+GAGTGGTAGAACTGAAGGTATTATAACACAGTTCCAAAAATTTAGAGATGAGACTTTTAA
+AGATTTTTATGAAGATGCTTCTACTGTTATTAATGAAGTAAATCAGAATTTCCCTACTAT
+GAAAACAGATGTTAAGACCTTAAAGACTAAAGTTGATAACCTAGAGAAAACTGAAATACC
+AAATATTAAAACTAGATTAACAGAACTAGAGAACAATAATAACAATGCTGATAAAATAAT
+CTCAGATAGAGGAGAACATATAGGTGCTATGATACAGTTAGAGGAAAATGTCACAGTACC
+TATGAGAAAATATATGCCAATACCATGGAGCAAAGTTACTTATAATAATGCAGAGTTTTG
+GGATTCTAATAATCCTACTCGATTAGTAGTACCTAAAGGAATAACAAAAGTAAGAGTTGC
+AGGTAATGTTTTGTGGGACTCTAACGCCACAGGACAACGTATGTTGAGAATATTGAAAAA
+TGGTACTTATAGTATAGGATTACCTTATACAAGAGATGTAGCTATATCTACAGCACCTCA
+GAATGGTACTAGTGGAGTTATTCCTGTTAAAGAAGGAGATTACTTTGAGTTTGAAGCTTT
+CCAAGACTCAGAAGGTGACAGACAATTCAGAGCAGACCCTTATACATGGTTTAGTATTGA
+AGCTATAGAATTAGAAACTGAAACTATGGAGAAAGACTTTATGCTTATAGGACATAGAGG
+AGCAACCGGATACACAGATGAGCACACGATAAAAGGATATCAAATGGCTTTAGATAAAGG
+TGCAGATTATATAGAATTGGATTTACAATTAACAAAAGATAATAAGTTATTGTGTATGCA
+TGATTCTACTATAGACAGAACAACAACAGGAACAGGTAAGGTAGGAGATATGACCTTATC
+TTATATACAAACTAACTTTACATCTCTCAATGGTGAGCCGATACCATCTCTTGATGATGT
+ACTAAATCATTTTGGAACAAAAGTTAAATATTATATAGAAACTAAACGTCCGTTTGATGC
+TAATATGGATAGAGAATTATTAACTCAATTAAAAGCAAAAGGATTAATAGGAATAGGTTC
+AGAGAGATTCCAAGTAATTATTCAATCATTTGCTAGAGAATCTTTAATTAATATTCATAA
+TCAATTCTCTAATATACCTTTAGCTTACCTAACAAGTACATTTTCTGAAAGTGAAATGGA
+TGATTGTTTAAGTTATGGTTTTTATGCTATTGCGCCTAAATATACAACTATAACTAAAGA
+ATTAGTAGATTTAGCTCATAGTAAAGGGCTTAAAGTCCATGCATGGACGGTAAACACAAA
+AGAAGAAATGCAAAGCTTAATACAAATGGGTGTAGATGGATTCTTTACAAACTACCTAGA
+TGAATATAAAAAGATTTAATATTAAAGACCTATTAATTTAGGTCTTTTTTTAGTTGTAAT
+TTAAACTAGTTCGTGATATATTAGTAGTATGAGATTTATATACATACTGAAAAGGAGAGG
+ATAAAATGCCACAATCAGATGGAATAAGTAATCTTCATAGAATAGCTTTACGCTTCCCTA
+AAGAAGGCGGTGGTTATGATATGTATAGATTTAAAGTTAACCCTGAGAACTACACAATAG
+ATTCACCACAACGTACGACAGCAATTAAAACAAAATCAGATATTGTAATAGAAGATTATG
+GTAAAGACATAGAAGTTATTAACTTCACAGGTACAACTGGTTTTAGACCTGTTAGAGAAG
+CAGATGGATTAAAAACAGGTAAGCAGAAAATGGAAGAGTTACAAAGTAGAGTTAGTGAAT
+ATGCTATGCAAGGTGGCAGTGGTAATGTAAGTGGTTCTTACTTACAATTTTTTAACTTTA
+CAGATGATAGTTATTATAAAGTTCATTTAGCTCCTCAGGGGTTAAAGATAACTAGGTCTA
+AAGATGAACCATTACTTTTTAGATATGAAATAACATTAGTAGTTATTGGTTCATTAACAG
+AAGCAGATAGAAGTGCTGTAACAACAGAAGAGTTTGGTAACGTTAAACCTAATGCTTCTC
+AAAGAGTAGATGAGGGTATAAAAGAATTAGATAAAAATGCTCGTAAAACGAGAGATAGAA
+ACAATCAAGAAATATCTAGAAGAGAAAATACAATACCTAAATCTACAGGAGATAATACGA
+ACGAGGGTAATAGACTTAAGCAAAGCTTCCCTAGTAGTTCTATATATAATCCTAGACAAT
+CTACTAACGGATTAAAAGGTAATATTGACAATATGGCGCTGATAATAGGTTACGGTGATG
+GAGGTGTATCTAGCTAATGAATAATTTTATACCACAACCTCAAGGTCTACTTAGATTTTT
+AAATGCCCTAGATACAGATTTAACTTCTTCTCATATGAATTTACTGGATGAAGAGGTATC
+ATTTGTATCTAAATTTTATACACCACAGCTACAATTAAGTGAATTAGCAAAAAAAGTATT
+GACAAATATAAAGACAGATGATATACCTGTATTAGAAAGAGAATTTAATGATAATACAAT
+TATCCATAAAGCTAACGATACATTACTAAAAGTACAGGCTCCAAGAATGTATATGATTCT
+ACAGTCGATTGTACTTGAAGCATATGCTATTGTTAATTGCTTTGTAGAAAATCCGAGCTC
+TTTAAAATACTTAACTGAAGAAGATGTTAGTATAACACGGGAAAATTTAAATTATGTAGC
+TGACTACTTAGGTAACTATGATGACTATAATAGTGTTGTCTTAGACTTAAGAGATTTAGA
+CTTATGTTTTAGTGCTATAGAATTACAATTACCTCTAATCAAAAAGGAGGCTAACGTATA
+ATGAGATTTAAGAAGCACGTAGTTCAACATGAAGAAACGATGCAAGCAATAGCACAGAGA
+TACTATGGTGATGTGAGTTATTGGATAGACCTAGTAGAGCATAATAATTTAAAGTACCCC
+TATTTAGTAGAAACTGATGAAGAAAAAATGAAAGACCCTGAACGATTGGCTTCTACAGGT
+GATACACTGATTATACCTATAGAATCTGATTTAACAGATGTATCAGCAAAAGAAATTAAT
+TCTAGAGATAAAGATGTACTAGTTGAATTAGCTTTAGGAAGAGATTTAAATATTACTGCA
+GATGAAAAGTATTTTAATGAACATGGTACTAGTGATAATATACTAGCATTCAGCACAAAT
+GGTAATGGAGATTTAGATACTGTAAAAGGCATAGATAATATGAAACAGCAATTACAGGCA
+CGTTTATTAACTCCTAGAGGTTCTTTAATGCTACATCCTAATTACGGTTCAGATTTGCAT
+AATTTATTTGGTCTTAATATACCTGAACAAGCTACATTAATAGAAATGGAAGTATTGAGA
+ACATTAACATCAGATAATAGAGTAAAATCTGCTAATCTAATTGATTGGAAAATTCAAGGT
+AATGTTTATTCAGGTCAATTTTCAGTGGAAATAAAATCTGTTGAAGAATCAATAAATTTT
+GTCTTAGGACAAGATGAGGAAGGAATTTTTGCTTTATTTGAATAGGAAAGGATTAAATTA
+TGAAAACTAGAAAATTAACTAACATACTATCAAAATTAATAGATAAGACAATGGCAGGTA
+CAAGCAAGATAACAGACTTTACTCCTGGTTCAGCTTCTCGTTCATTATTAGAAGCTGTAT
+CATTAGAGATAGAGCAATTCTATATTCTAACAAAAGAAAATATTGATTGGGGTATACAAG
+AAGGTATCATTGAAGCTTTTGATTTTCAAAAAAGACAATCTAAAAGAGCTTATGGTGATG
+TTACTATTCAATTCTACCAACCCTTAGATATGAGAATGTATATACCCGCAGGAACAACTT
+TTACTTCAACACGACAAGAATACCCTCAGCAATTTGAAACATTAGTTGATTATTATGCAG
+AGCCTGATTCTACTGAGATTGTTGTTGAAGTTTATTGTAAAGAAACAGGGGTTGCAGGTA
+ATGTTCCTGAAGGAACAATTAATACTATAGCATCAGGTTCTAGTTTGATTAGAAGTGTTA
+ATAACGAGTATTCTTTTAATACAGGAACTAAAGAAGAGAGCCAAGAAGACTTTAAGCGCA
+GATTCCACTCTTTTGTAGAATCTAGAGGTAGAGCAACTAATAAATCAGTAAGATATGGTG
+CACTGCAGATACCTGATGTAGAAGGTGTTTATGTTTATGAAGAAACAGGACATATTACAG
+TATTTGCTCATGATAGAAACGGTAATTTATCAGATACCTTAAAAGAAGATATAATTGATG
+CTTTACAAGACTATAGACCAAGTGGTATAATGTTAGATGTTACAGGTGTAGAAAAAGAAG
+AAGTTAATGTTTCTGCTACAGTAACTATATCTAATAAATCTAGAATTGGTGATACATTAC
+AAAAACATATCGAAAGTGTTATTAGAAGCTATTTAAATAATTTAAAAACTTCTGATGACC
+TAATAATTACAGACCTTATTCAAGCTATAATGAATATTGATGATGTATTAATATATGATG
+TGTCATTTGATAACCTAGATGAGAACATTATAGTACCGCCACAAGGAATTATTAGAGCAG
+GAGAAATAAAAGTAGAACTAAAGTAAAGAGAGGTGAAACTTAAGTCGTGGCTAATTTTTT
+AAAGAATCTTCATCCATTATTAAGAAGAGATAGAAATAAAAAAGATAATCAAGACCCTAA
+CTTTGCTCTGATAGATGCACTCAATGAAGAGATGAATCAAGTAGAGAAAGATGCTATAGA
+AAGTAAGTTACAATCTTCTCTAAAGACATCTACCAGTGAATATTTAGATAAGTTTGGGGA
+TTGGTTCGGAGTTTATCGTAAGACCGATGAGAAAGATGATGTTTATAGAGCAAGAATTAT
+AAAATATTTACTCTTGAAAAGAGGAACTAATAATGCTATAATAGATGCTATAAAAGATTA
+TTTAGGTAGAGATGATATTGATGTAAGTGTATATGAACCTTTTACAAATATTTTCTATAC
+TAACAAATCACATTTAAATGGTGAAGACCACTTAATGGGATACTATTATAGATTTGCTGT
+TATTAATGTCTCTATAGGTGATTATTTCCCTGTAGAGATTATAGATGTAATTAATGAATT
+CAAACCTGCAGGTGTAACTCTATATGTCACTTATGATGGGGCTTCTACTATTAGAGGTGG
+AGCAATTATTAAGTGGTTAGATGGGTTACCTAAAATAGAAACATACCAAGAGTTTGATAG
+ATTTACAGGTTATGATGATACATTCTATGGTCATATTAATATGAATCAAAGTAAAGATAC
+TGATAACAGTTCATCAGATATTTTTAAAACAAACCATAGCTTAATTAATAGTTTAGATGT
+TTTAACAGGTTCATCTAGTGTAGGGAGACAGTATATTAACTACGGATATGTAACATCATA
+TGTTTATAATCCAGGTATGACATCTTCTGTAAATCAAATAAGCGCTAGTACAAAAGGTAG
+AGGTCAAGAAGTACCTACTGACTATTATATGTATACTAGTACTAAGAATAACAATACAGT
+AGAACTTAGTATGCAAACTACTTCCGGTGTGTCTTATTTATATAATAACTTTAATTTTAG
+GGACTATATGAGTAAATATAGACCTCAAGTAGATTTACAATCTGATGAGGCTAGAAGAAT
+TGTATCTGATTATATAAAAGAATTAAGTATTGATTACTATCTTAGTGCTGTGATACCTCC
+TGATGAAAGTATAGAAATTAAACTACAAGTTTATGATTTTTCTATTAATAGATGGCTTAC
+AGTATCAATTAATAATTTATCTTTCTATGAAAAAAATATCGGGAGCAATATAGGATATAT
+AAAAGATTATCTAAACAGTGAATTAAATATGTTTACTAGGTTAGAGATAAATGCAGGTAA
+AAGAGATTCAGTAGATATTAAAGTTAATTACTTAGATTTAATGTTTTATTACTATGAACG
+AGGTATTTATACAATAAAACCGTATAAAGCATTAATAGAAAATTATTTAGATATATCTAG
+AGAGACTTATGTAGAAGCATTTAAAATAGCATCATTATCTAATGGAGATATTATAACTAA
+AACAGGTTTTCAGCCTATAGGGTATTTAAAACTAGTTGGTAATTATGAAAATACAATACC
+TAGCACAATAAATATAGTAGCTAAAGATACAGATAATAACCCTATAGAATCTAATGAATT
+AGATGTATATAATACAGTAGAGAATAGAAATTTATTACAATCTTATAAAGGTGTAAATAC
+GATAGCTAGAGAAATAACTTCTACAAAAGAGTTTACTGTATCAGGATGGGCTAAAGAGAT
+ATACTCAACTAATTATCTTTCTAAAGTATTAAAACCAGGTAAAGTGTATACGTTATCTTT
+TGATATGGAAATAACAGGTAATGACCCAACTCTTAAATCTTATTCTGATAGTCATGGTAT
+ATATTTATACAGTAATACTAAGGGAATTGTTGTTAATGGTGTTAAATCTATGGAACGTAC
+TATAGGTAACAAAGTATCCGTAACTCAAACTTTTACAGCCCCTACTATTACTGACCATAG
+ATTACTAATATATACTGGAAGATATACATCTGATGGTAAAGCATCAACTCCTCCAGTGTT
+CTTTAATACAGTTAAAATTACGGAATTAAAATTGACTGAGGGTTCTTCTAAGCTAGAGTA
+CTCACCTGCTCCGGAAGATAAACCTAACGTAATAGAAAAAGGAATTAAATTTAATAATAT
+CCTAACTAATATACAGACTTTAAGTATTAATTCGGATACTATCTTAAAAAATGTAACTTT
+ATATTATTCTTACTATGGTGATAGTTGGGTAGAACTAAAGACTCTAGGAAATATTAGTAC
+TGGAGAAACAACAGAAACCAATAACTTAATAGATTTATATGGATTACAGACAGTAGATTA
+TTCTAATATAAATCCAATGTCTAAAGTATCATTACGTTCCATTTGGAATGTTAAGCTAGG
+TGAATTGAACAATCAAGAAGGTTCTTTATATAATATGCCTAATGATTACTTTAATGCTGT
+ATGGCAGGATATAGATAAATTATCAGATATTGAGCTAGGTTCTATGAGAATGGTTAAAGA
+CACTGAGGGCGGAGTATTCGATGGAGCTACAGGTGAAATTATTAAGGCTACTCTATTTAA
+TGTCGGTGCTTATACTGATTTAGATATGTTAGCCTATACTTTGACTAATTATACTGAACC
+GTTAACGTTAGGCTCTAGTCGATTAATAATTGAGCTAAAAGAAGAACTACTAACATCAGA
+ATCATTTAATGTCGATAATAGAATTAAAGTAATTGACTCAATATATGAGGAGTTACCAAA
+TACAAGCATTATTAAAAATGGATTTGTTGAAAGAGAAGTTACAGGTTCTAAATATTTAGA
+TTACGGTTTATATGAGCCTATAGAAGATGGTACTAGATATAAACTTATTGTCGAAGGAGA
+ATTTAAAGATAATATAGAATTTATATCTTTATACAATTCTAACCCTAACTTTAATGAAAC
+ATTTATATATCCATCAGAGATAATTAATGGAGTTGCTGAAAAAGAATTTATTGCAAAACC
+ATCTACTGAAGACAAACCAAGGTTAAATACAGATGTTAGAATATATATACGACCTTATGA
+TTCAACTATCTCTAAAGTAAGAAGAGTAGAATTAAGGAAAGTTTAATAAATAAGTTGACA
+GAAAGTTAATAATATGGTATACTTATAAAGTAATATTTAGTGGGTATACCATGTTATATT
+AATAAAGAAAACAACAGATGAAAGGAATTAAAAAATATGGCAATTGCAACGTATAATTCT
+CATGTTGAGTTAGCAAAATATCTAGTTAGTAAAGCTGATTCAGTTTACTTAACAATTGGA
+AAGAGCACACCGTGGTCTAATGAAACAAACCCACCGCAACCTGATGAACATGCAACAGTA
+TTACAGGAGGTTATTGGATATAAAAAAGCTACTAAAGTTACTTTAGTTAGACCTTCTAAA
+TCACCTGAAGATGATAATAAGAATTTAATTTCTTATGGTAATAAATCGTGGGTAGAAGTA
+ACACCTGAAAATGCTAAAGCTGAAGGAGCTAAATGGGTTTACTTAGAAAGTAGTATTGTT
+GGTGACGAACTACCTCTTGGAACATATAGACAAGTAGGATTTGTTATGGACTTAGTAGCA
+AAAAGTGGTATTAGTAAATTTAACTTAGTACCTAGTGAAGTAGAATCAACTGGAACATTA
+TTATTCTTTGATAATAAACAATTCCAAAATAGAAGTGAGCAGACAACTGCTAAAGAAAGA
+TTTATTGTAGAAGTTTAAAGAAAGGGAGATAATTCTAAATGGCAATTAATTTTAAAGGTT
+CACCTTATTTAGATAGATTTGACCCGTCTAAAGATAGAACAAAAGTATTATTTAATCCTG
+ATAGACCTCTACAACAGGCAGAATTAAATGAAATGCAGTCTATAGACCAATATTATTTAA
+AAAATCTAGGAGACGCTATTTTTAAAGACGGAGATAAACAATCAGGGCTTGGATTCACAT
+TGTCTGAAGATAATGTATTGACAGTAAATCCTGGTTATGTATATATCAATGGTAAAATAA
+GATATTACGATAATGACGATTCAGTTAAAATAACTGGCGTAGGTAAAGAAACTATTGGTA
+TTAAATTAACAGAACGTATTGTTACACCTGATGAAGATGCTAGCCTATTAGACCAAACTA
+GTGGAGTACCAAGTTACTTCTCTAAAGGTGCAGATAGATTAGAAGAAAAGATGTCATTAA
+CAGTTAATGACCCGACATCAGCAACTATTTATACTTTCATGGATGGGGATTTATATATTC
+AATCAACTAATGCTGAGATGGATAAAATCAACAAAGTATTAGCTGAACGTACTTATGATG
+AGTCAGGTTCATATAAAGTAAATGGTTTTGAACTATTTTCAGAAGGTAATGCTGAAGATG
+ATGACCACGTTTCTGTAGTTGTAGATGCAGGTAAAGCCTATGTAAAAGGTTTTAAAGTAG
+ACAAACCCGTATCAACAAGAATTAGTGTACCTAAATCTTATGACTTAGGAACAGCAGAAA
+ATGAAAGTACTATCTTTAATAAGTCTAATAACTCTATTAGTTTAGCTAATAGCCCTGTAA
+AAGAAATTAGACGTGTTACAGGTCAAGTACTTATTGAAAAAGAACGAGTTACAAGAGGAG
+CTCAAGGTGATGGTCAAGATTTTCTTTCAAATAATACAGCATTTGAAATTGTAAAAGTTT
+GGACTGAAACAAGCCCTGGAGTTACTACAAAAGAGTATAAACAAGGAGAAGACTTCAGAT
+TAACAGATGGTCAAACAATTGATTGGTCACCTCAAGGTCAAGAACCTTCAGGAGGTACTT
+CATACTACGTTTCTTATAAATATAACAAACGTATGGAAGCCGGTAAGGATTATGAAGTAA
+CAACTCAAGGTGAAGGGTTAAGTAAGAAATGGTACATTAACTTTACACCTTCAAATGGTG
+CTAAACCTATTGACCAAACAGTAGTATTAGTAGACTATACTTACTACTTGGCTCGTAAAG
+ATTCAGTGTTTATTAATAAGTATGGTGATATTGCAATATTACCTGGTGAACCTAATATTA
+TGAGATTAGTTACACCACCATTAAACACAGACCCTGAGAATTTACAATTAGGTACAGTTA
+CAGTATTACCTGATTCAGATGAAGCCGTATGTATTTCATTTGCAATCACTAGATTGTCTA
+TGGAAGACTTACAGAAAGTTAAAACAAGAGTAGATAACTTAGAGTATAACCAAGCAGTAA
+ATGCTCTAGATGATGGTGCTATGGAAGGACAGAACCCTCTAACATTACGTTCAGTATTCA
+GTGAAGGTTTCATTAGTCTTGACAAAGCAGACATTACACATCCTGACTTCGGAATTGTAT
+TTAGTTTTGAAGATGCAGAAGCTACTCTAGCTTATACAGAAGCAGTTAACCAACCTAAGA
+TTATTCCAGGAGATACAACAGCTCATATTTGGGGTAGATTAATTTCAGCACCATTTACTG
+AGGAACGTACAATCTACCAAGGTCAAGCATCAGAAACATTAAATGTTAACCCTTATAATA
+TTCCTAACAAACAAGGTGTGTTAAAATTAACACCTAGTGAGGATAACTGGATTGATACTG
+AAAATGTTACAATCACTGAACAAAAAACTAAAAAAGTAACTATGAAACGATTTTGGAGAC
+ATAATGAAAGTTACTATGGTGAGACTGAGCATTACTTGTATTCTAACTTACAGTTAGATG
+CAGGACAAAAGTGGAAAGGTGAAACTTACGCTTATGATAGAGAGCATGGTCGTACCGGTA
+CTTTATTGGAATCAGGAGGACAACGTACTCTAGAAGAAATGATTGAATTCATTAGAATCA
+GAGATGTATCCTTCGAAGTTAAAGGACTAAACCCTAATGATAATAATTTATATTTATTAT
+TTGATGGAGTAAGATGTGCTATAACACCTGCAACTGGCTATAGAAAAGGCTCTGAAGATG
+GTACGATAATGACAGATGCTAAAGGAACAGCTAAAGGTAAGTTTACTATTCCTGCAGGTA
+TTCGTTGTGGTAACCGAGAAGTTACACTTAAGAATGCTAACTCTACAAGTGCTACAACTT
+ACACAGCCCAAGGACGTAAAAAAACCGCTCAAGATATTATTATCAGAACTCGTGTAACAG
+TAAACTTAGTAGACCCGTTAGCACAATCATTCCAATATGATGAGAATAGAACTATATCAT
+CATTAGGATTATACTTTGCTTCTAAAGGTGATAAACAATCTAATGTTGTTATCCAAATTA
+GAGGTATGGGTGACCAAGGTTATCCTAATAAAACAATCTATGCAGAAACAGTTATGAATG
+CTGATGATATTAAAGTATCTAATAATGCTAGTGCTGAAACTAGAGTATACTTTGATGACC
+CTATGATGGCTGAAGGCGGTAAGGAGTACGCTATTGTTATTATTACTGAGAACAGTGATT
+ATACAATGTGGGTAGGTACTAGAACTAAGCCTAAAATTGATAAACCTAATGAGGTTATTT
+CAGGTAATCCATACCTACAAGGTGTATTATTCAGTTCATCAAACGCATCAACATGGACTC
+CTCACCAAAACTCTGACCTTAAATTTGGTATTTATACTTCTAAATTTAATGAGACAGCAA
+CGATTGAATTCGAACCAATTAAAGATGTATCAGCGGATAGAATAGTTCTTATGTCTACGT
+ACTTAACTCCTGAGAGAACAGGATGTACGTGGGAAATGAAATTAATTCTAGATGATATGG
+CATCTTCTACAACATTCGACCAATTGAAATGGGAGCCTATCGGTAACTATCAAGACTTAG
+ATGTTTTAGGTCTAGCAAGACAAGTTAAGTTAAGAGCAACTTTCGAATCTAATAGATATA
+TCTCACCATTAATGAGCTCTAGTGATTTAACATTCACTACATTCTTAACAGAGTTAACAG
+GTTCATATGTTGGTAGAGCTATTGATATGACAGAGGCTCCTTACAATACAGTAAGATTTA
+GTTATGAAGCTTTCTTACCTAAAGGTACTAAAGTTGTTCCTAAGTATTCTGCGGATGATG
+GAAAAACTTGGAAAACATTTACTAAATCCCCTACAACTACTAGAGCCAATAATGAGTTTA
+CACGCTATGTCATTGACGAGAAAGTAAAATCATCAGGAACAAATACTAAACTACAAGTTA
+GATTAGATTTATCAACTGAAAATAGCTTTTTACGTCCTCGTGTTCGTAGACTTATGGTTA
+CTACTAGGGATGAATAAACTAGAGGGGTTGATTGACCCCTCTTTATTTAATAAGGAGAGA
+TTTATATGCCTAGAGAAGTTAGAGACCCTTATTCTCAAGCTAAATTATTTATACCTACAG
+TTGAGGAAAAATCAATTAAGGAATTAGAAAAAACATACAAAGAAAAAATTGATGAAGCTA
+CTAAGTTAATCAATGAATTAAAGAAAGAGAGAGGAGAAAAATAGATGGCATTTAACTACA
+CGCCTCTTACTGAAACACAGAAGTTAAAAGATATGTATCCTAAAGTTAATGATATAGGTA
+ACTTTTTAAAAACAGAAGTTAACCTTAGTGATGTAAAACAGATATCACAACCCGACTTTA
+ATAATATTTTAGCATCTATACCTGATAGTGGTAACTATTATGTAACTAATTCAAAAGGTG
+CTCCTAGTGGAGAAGCTACAGCAGGATTTGTAAGATTGGATAAAAGAAATGTAAATTATT
+ATAAAATTTACTATTCACCATATAGCAGTAACAAAATGTATATCAAGACTTATGCTAATG
+GTACTGTATATGATTGGATTAGTTTTAAATTAGATGAAGGTAGCTTATACAATGAAGGTA
+ATACTTTGAATGTAAAGGAACTTACTGAATCCACAACTCAATATGCAACACTAGTTAATC
+CTCCAAAAGAGAACTTAAATACAGGTTGGGTTAATTACAAAGAAAGTAAAAATGGTGTTT
+CTTCTTTAGTAGAATTTAACCCGGTTAACTCCACTTCAACTTTTAAGATGATAAGAAAGT
+TACCAGTACAAGAACAAAAGCCTAACTTATTGAAAGATAGTTTATTTGTTTATCCTGAAA
+CTAGCTATTCTAATATTAAAACAGATAACTGGGATACGCCTCCATTTTGGGGATATTCTT
+CTAATAGTGGTCGTTCAGGAGTTAGATTTAGAGGAGAGAATACAGTACAGATAGATGATG
+GGTCTGATACGTACCCTTCAGTAGTTTCTAATAGGTTTAAAATGGGTAAAGAACTTTCTG
+TAGGTGATACTGTAACGGTATCAGTATATGCTAAAATTAATGACCCTGCTTTACTTAAAG
+ATAACTTAGTTTACTTTGAATTAGCAGGATACGATACTGTAGATGATACTAGTAAAAATC
+CTTATACAGGAGGACGTAGAGAAATAACAGCAAGTGAGATAACAACTGAGTGGAAAAAAT
+ACTCTTTCACATTCACTATACCTGAAAATACAATCGGAGCATCAGGCGTTAAAGTTAATT
+ACGTATCTTTACTACTAAGAATGAATTGTTCATCTAGTAAAGGTAATGGTGCTGTAGTAT
+ACTATGCCTTACCTAAATTAGAAAAATCATCTAAAGTTACACCATTTATTACACATGAAA
+ATGATGTTCGTAAATATGATGAGATTTGGTCTAATTGGCAAGAAATTATTAGTAAAGATG
+AATTAAAAGGTCACTCCCCTGTAGATATTGAATATAATGATTATTTTAAATATCAGTGGT
+GGAAATCTGAAGTTAATGAAAAGAGTTTAAAAGATTTAGCTATGACAGTACCTCAAGGAT
+ATCATACATTTTATTGTCAAGGCTCTATTGCCGGGACGCCTAAGGGACGTTCTATTAGAG
+GAACCATTCAGGTAGATTATGACAAAGTTGACCCATATAGAGCTAATAAGTTTGTTAAAT
+TATTGTTTACTGACACAGAGGGTATTCCTTACACATTATATTATGGTGGTTATAACCAGG
+GTTGGAAACCCTTAAAGCAATCAGAAACTTCTACTTTACTATGGAAAGGTACTTTAGATT
+TTGGGTCTACGGAAGCTGTTAACTTAAATGACTCATTAGATAATTACGATTTAATTGAGG
+TAACTTATTGGACTCGTTCAGCAGGACATTTTTCTACAAAAAGATTAGATATAAAAAATA
+CATCAAATTTACTGTATATTAGAGATTTTAATATTTCAAATGATAGTAAAGGTTCTAGTG
+TAGACTTTTTTGAAGGGTATTGCACTTTTCCTACTAGAACATCAGTACAACCTGGTATGG
+TAAAATCTATAACTTTAGACGGGTCTACAAATACAACAAAAGTAGCATCATGGAATGAAA
+AGGAACGTATAAAGGTATACAATATTATGGGAATTAATAGAGGATAAAGAAAGGTGGAAT
+AAAAAAACTATGGCTGTTAAATATGATATAGGTAATAATGAGATAGTATTACATTTAAGA
+GAAGGTAAATATATAACAGGGTTTACAACAGTAGGAGGGTATGATAAGGAGTTAGGACAA
+GTAAAAGTTAATAGAGAAATCTTACCTGCTTACTTCTTTGATAATTTTGCCTATGAAAGA
+TATTTGTATTATAGTAAACCTGAAGAGGTTATAGAAAATAAAAACTATGTACCACCACAA
+ATCAATGATGATGATGAGGAATCCCAACAAATTACTGTACCTAAAGAACAATATGATAGT
+TTAAAAGAAGAACTAGAGCTTATGAGAAAACAACAAGAAGCTATGATGGAAATGCTTCAA
+AAGCTCTTAGGTCAAAAGGGGTAATTATAAATGGCATTAAATTTTACTACAATAACGGAA
+AACAATGTTATTAGAGACCTGACTACTCAGGTCAATAACATTGGAGAAGAATTAACAAAA
+GAAAGAAATATATTTGACATTACCGATGATTTAGTTTATAATTTTAATAAATCACAGAAA
+ATTAAACTAACTGATGATAAAGGATTAACTAAATCTTATGGAAACATAACAGCCCTTAGA
+GATATAAAAGAACCTGGTTATTACTATATAGGTGCTAGAACATTAGCAACATTATTAGAT
+AGACCTGATATGGAATCTCTTGATGTTGTTTTACATGTAGTACCTCTTGATACTTCTAGT
+AAGGTAGTTCAACATTTATATACACTATCTACTAACAATAACCAAATTAAAATGTTATAT
+AGATTTGTCTCAGGAAACTCTAGTTCAGAATGGCAATTTATTCAAGGATTACCTAGTAAT
+AAAAATGCTGTTATATCAGGAACTAATATTTTAGATATAGCTTCACCAGGTGTTTACTTT
+GTTATGGGAATGACAGGAGGAATGCCTAGTGGAGTAAGCTCCGGATTTTTAGACTTAAGT
+GTAGATGCTAATGATAATAGATTAGCTAGACTAACTGATGCTGAAACCGGTAAAGAATAT
+ACTAGCATTAAGAAACCTACAGGAACATACACAGCCTGGAAAAAAGAATTTGAGCCAAAA
+GATATGGAGAAATATCTACTAAGTAGTATTAGAGACGATGGTAGTGCATCATTCCCACTC
+CTAGTTTATACTAGTGATAGTAAAACATTTCAACAAGCTATTATAGACCATATAGATAGA
+ACAGGTCAAACAACCTTTACTTTCTATGTTCAAGGCGGTGTATCCGGTTCCCCTATGTCG
+AATAGTTGTCGAGGGTTATTCATGTCAGACACACCTAATACTTCTAGTTTACATGGTGTT
+TACAATGCTATAGGTACAGATGGTAGAAATGTAACAGGTTCAGTGGTAGGTAGTAATTGG
+ACTTCACCAAAAACATCCCCTTCTCATAAAGAATTATGGACAGGAGCACAATCATTCTTA
+TCTACAGGAACTACTAATAATTTATCAGATGATATTAGTAACTACTCTTATGTAGAAGTT
+TATACTACACATAAGACAACAGAGAAGACTAAAGGTAATGACAATACAGGAACTATATGT
+CATAAGTTTTATTTAGATGGTAGTGGAACTTACGTTTGTTCAGGTACATTTGTTTCCGGG
+GATAGAACCGATACAAAACCCCCTATCACGGAGTTTTATAGAGTAGGTGTATCTTTTAAA
+GGTTCTACATGGACTCTTGTAGATAGTGCAGTACAAAATAGTAAAACTCAATACGTTACA
+AGAATTATAGGTATTAATATGCCATAGACTAGGAGAAATTTCCTAGTCTTTTTTTTTCTT
+GACTTGAAAAGGATTCTGTGGTATACTATAACTCGTGTAAGGATATAAGGAGATTAAAAT
+GAGATTAAGAATTAAGAACTTATATACCTATGTAGAATTTGAGGAGGATGATAAATACTT
+AAAAGATATATTTTTAAAGAGAGTCCATACGACTATAGGAGCAAGACAAGAAGGATTTCA
+GTACAGCCCTGCGTACAAAAGAGGTAGTTGGGATGGTTATGTAGATTTTTATGTTTATGA
+GGAAGATAAATTCCCCACTGGACTTTTATTTAAAATTGAGTTATTATTAGGTGAGCTACA
+ATCAAGGTATAATTTCCAGTTTGAAACAATTGATGAGCGTGATGAAAGTTTCTTATCTGA
+AGAAGATATTGATGATGAGATAACATTGCTTGATAATAATGTCGGTCAAATTACCTTAAG
+AGATTACCAATATGAAGCAGTGTACAATAGCTTAACATTTTACAATGGTATTGCTCACTT
+AGCTACTAATGGTGGTAAAACTGAGGTTGCTAGTGGTATTATAGACCAATTATTACCTCA
+ATTAGAAAAAGGTGAGAGAGTAGCATTCTTCACAGGCTCTACGGAGATATTCCATCAGTC
+TGCAGATAGGCTCCAAGAGCGTTTAAATATTCCTATTGGTAAAGTAGGTGCAGGTAAGTT
+TGATGTTAAGCAGGTTACAGTTGTAATGATACCTACTTTAAATGCAAACCTTAAAGACCC
+AACACAAGGGGTAAAGGTTACGCCTAAACAAAATATTAGTAAAAAGATTGCTCAAGAGAT
+ATTACCTAAATTTGAAGGTGGAACAAATCAAAAGAAATTACTAAAAGTATTACTTGATAA
+CACAACACCTAAAACAAAAGTAGAACAAAATGTATTAAGTGCCTTAGAGATAATTTACCA
+AAATAGTAAGACAGATGCAGAAGTTTTATTAAACTTAAGAAATCATAATGCACATTTTCA
+AAAAATTGTTAGAGAAAAGAACGAAAAGAAATATGATAAATATCAAGATATGAGAGATTT
+TTTAGACTCAGTTACAGTTATGATAGTTGATGAGGCACACCATTCTAAATCTGATTCTTG
+GTATAATAATTTAATGACATGTGAAAAAGCTTTATATCGAATTGCATTAACAGGGTCTAT
+AGATAAAAAAGATGAATTACTTTGGATGAGATTGCAGGCGCTATTCGGTAATGTTATTGC
+ACGAACTACTAATAAGTTTTTAATTGATGAAGGTCATTCTGCTAGACCAACAATAAATAT
+TATACCTGTAGCTAATCCTAATGACATAGATAGAATTGATGATTATAGGGAAGCTTACGA
+TAAAGGTATAACAAATAATGATTTTAGGAATAAACTTATTGCAAAACTAACAGAAAAGTG
+GTATAATCAAGATAAAGGTACATTGATTATTGTAAACTTCATTGAACATGGAGACACAAT
+ATCAGAAATGTTAAATGATTTAGATGTAGAGCATTACTTCTTACATGGAGAAATAGACTC
+TGAAACTAGGAGAGAAAAATTAAACGATATGAGAAGTGGTAAGCTTAAAGTAATGATAGC
+TACATCACTTATTGATGAGGGTGTAGATATATCAGGTATTAATGCACTAATATTAGGTGC
+AGGAGGTAAGTCATTAAGACAAACATTGCAACGTATTGGTCGTGCTTTACGTAAGAAAAA
+AGACGATAATACAACACAAATATTTGATTTTAATGATATGACAAATAGATTTTTATATAC
+TCATGCTAATGAGCGTAGGAAAATTTATGAAGAGGAAGATTTTGAAATAAAAGACTTAGG
+AAAATAGGAGGGTAAGAGATGGCAACAAAAACACAAAGAAAGCTATACCAATATCTAGAG
+GAAAATGCTACAGAAAATAAATTTCATATTTCTACTAAGAAAGAGCTAGCAGATTCTCTA
+GGTGTTTCCATCTCTGCTTTATCCAATAACCTTAAAAAGTTAGAAGAAGAAAATAAAGTC
+GTTACTGTTTCTAAAAGAGGAAAAAACGGCGGGGTAATAATAACTTTAGTTAGAGAGTAT
+GACACAGAAGAATTGAAAGAATTCAATAATTCTACAGATAATATTATTACTTCCGATTTA
+CAGTATGCTAAGGCATTAAGAGAAAAGCACTTCCCTTCTTATAGATATGAGAGAAAAGAA
+CAACGTAGACGTACTAAGATAGAAATGGCACAATACAATGCCATTAAGGATGAGAAGAGA
+AGAATTATAGCAGATATGAATTTCTATTCAGAAGGTCTTCCTTATCCTTCTAAAGATATT
+TTTAATATGTCCTATGACCCGGAAGGGTTTTATAAAGCGTACATCTTATGTAAGTTATAC
+GACCAATATGCTATTTCTCATATGGATGCTAAACATACAAGTCATCTTAAAGCAATGAGT
+AAGGCAACAACTAAAGATGAATACGACTACCATCAACATATGTCTGAATACTATAGAAAT
+AAAATGATTCAAAATTTACCTAGAAATAGCGTTAGTGATAATTTCTTTGGTAGTAAAATG
+TTTAATACTTTTTATAATTTTTATTTAAAAATAAAAGATAAAAATATTAATGTATTTAAG
+TATATGCAAAATGTATTTAAAAATGTAACATTTTATTACGAGAACGGTATGCAACCTAAT
+CCAATACCTTCTCCTAACTTCTTTAGCTCAGATAAGTATTTTAAAAACTATAATAATTAT
+ATTAAAGGAATAAAAAAAGGTGTTAACAGTACTAATAGACACCTAGGTGATACAGACAGC
+ATCATTAATTCATCAGACTATGTGAAAAACCCTGCTGTATTACATCTACACCAACTATAT
+ACTACAGGATTAAATTCTACTTTACATGATATTGATACTATGTTTGAACAAGCCTTAGAC
+CTTGAAAATGCCTCCTATGGATTATTTGGAGATATGAAACATATTATTTTACTACAGTAT
+AATTCTATGATTGAAGAAGAAATTAAGAATTTACCTAGAGAAGAAAAGGATATTATTAAT
+AAATATGTAAAACAATGCATAATTAATGATTATTCACCAACAAGTATTTCACCTTCTGCA
+AGGTTATCAATGTTTACTATGCAGAAAGAGCATATAGTTTACAATAAGCAGTTAAATAAA
+GGAATCAAGAGAGAGGATTTATTACCATTAAGTCTAGGAGGTATAGTGAATAAAGATTTA
+TTGAGTGGTATGGATATACAAAACTTAGAACAGAATGGTAATGAATACCTATATATGAGA
+CAACATACTTCAACTTATTATATATTAAGAATGTTTGGTGACTATTTAGGGTATGAGGTA
+AACTTAAGAGAAGTAAAATATATTGTAGAGAAATATAATTTAATTGATAAAATACCATTG
+ACAAAAGAGGGTATGTTGGATTATAATAAACTTATACATTTAGTAGAGGAAGAGGTTAAT
+AACTATGAGTAAGAAGATAAAGGAGCTTATCCTTCATAAATCAATGAAGGATATACATTT
+TGCAAGAGAAGTATTAGATAACTTACCTAAGAATCTATTTTCAGCAGAGTCTGAGGACAT
+GGGTTACTTATTTACAGCTATAAAGAGAACAGCACATATTTCCGATAAGATGTCAAATGA
+AGCATTAGCAATTAAAGTAGAACAGCTTATGGGTAATAATAAGGAAGATGAAGAGAAAGT
+AACCAAGACATTAACTTACTTAGAAGATTTATATAAAGTAGACGTTAATGAAAAAGATGA
+ATCTGTTAATTATGAAATAGAGAAGTATATTAAAACAGAAATGTCAAAAGAAGTTTTAGT
+TAAATTTATTGCAGAAAATAAACAAGAAGACTCTGATAATCTACATGAACTTGTAGACAA
+ACTAAAGCAAATAGAAGTAAGTGACATCTCAGGAGGTAATGGGGAGTTTATTGACTTCTT
+CGAAGATACAGAAAAGAAACAAGAACTATTGAGTAATTTAGCTACAAATAAATTCTCTAC
+TGGATTTACTTCTATTGACAACCATATTGAAGGTGGTATAGCAAGAGGAGAGGTTGGATT
+AATCATAGCTCCTACCGGTAGAGGTAAATCATTAATGGCTTCAAACTTAGCTAAGAATTA
+TGTTAAAAGTGGATTAAGTGTTTTATATATTGCCTTAGAGGAAAAAATGGATAGAATGGT
+TTTGCGTGCTGAGCAACAAATGGCAGGAGCAGAAAAGAGTCAAATTGTAAATCAGGATAT
+GTCTTTAAATAATAAAGTTTATGATGCAATACAAAATCATTATCAGAAGAATAGAAAGTT
+ATTAGGTGACTTTTATATTTCTAAACATATGCCAGGTGAAGTTACACCAAACCAATTAGA
+ACAAATTATTGTCAATACAACAATTAAGAAGGATAAAAATATTGATGTTGTTATTATTGA
+CTATCCTCACTTAATGAGAAATCCTTATGCTAAATATCATTCAGAATCAGATGCAGGAGG
+GAAATTGTTTGAAGATATTCGTAGATTATCACAGCAATATGGATTTGTTTGTTGGACGTT
+AGCTCAAACTAACCGTGGTGCTTATGGTTCAGATGTTATTACAAGTGAGCATGTAGAAGG
+TTCTCGTAAGATTGTCAATGCTGTTGAGGTGTCTTTAGCAGTAAACCAAAAAGATGAAGA
+ATTCAAGAGCGGTTTCTTAAGATTGTATTTAGATAAAATTCGTAATAGCTCTAACACAGG
+AGAACGATTTGTTAATCTTAAAGTAGAACCAACTAAGATGATTGTAAGAGATGAAACACC
+TGAAGAAAAACAAGAGCATATACAATTGCTATCAGATAATGGAAAAGAAGACACAAGTAA
+ATTTCAAAATAAAGATAATAAAATAGAAGCTATAAATAACACATTCGGAGGATTACCGGG
+AGTTTAATTTTTTAAAATATACCACTTGACATTTTATATGTTAGGTGGTATAATTATTTT
+ATAAAGAATAAAGGAGAGATTAATAATGAAATTTGTATTCTTTACAGATAGCCACTTTCA
+CTTATTTACTAACTATGCTAAACCTGATGAGCAGTATGTGAATGATAGATTTAGAGAACA
+GATACAAGCTTTACAGAAAATGTTTGATATTGCAAGAGAAGAGGATGCAACAGTTATATT
+TGGTGGGGATTTATTCCACAAACGTAACGCAGTAGATACTAGAGTATATAATAAGGTATT
+TGAAACATTCCAACTTAATAGAGATATAGAAGTACTAATGTTAAGAGGTAATCATGATTC
+AGTTACAAATAGTTTATATACAGATTCTAGTATAGAACCTTTCGGTTACTTACCTAATGT
+AGAGGTTTGTAAAAACCTTGATACTTTAGGGTTTTTAGGAGAAGAACAGGATATTAATAT
+TGTTATGGCTCCTTATGGAGACGAGACTGAAGAAATTAAAGAGTTTATTAAAAATAAATA
+TGTAGAAGATAGAGTAAATATCTTAGTAGGTCATTTAGGTGTAGAAGGCTCTTTGACTGG
+AAAAGGGTCTCATAGATTAGAAGGGGCATTTGGATACCAGGATTTATTACCTGATAAATA
+TGATTTCATTTTACTAGGTCATTATCACCGTAGACAATATTTCCAAAATCCGAATCATTT
+TTATGGTGGTTCATTAATGCAACAATCATTTTCTGATGAGCAAGAAGCTAATGGTGTTCA
+TTTAATAGATACAGAAAAAATGACTACAGAATTCATCCCAATCCATACACGTAGATTTAT
+TACTATTCAAGGAGAAGATATTCCTGAGAACTTTGAACAGCTAATCGAGGAAGATAATTT
+TATTAGGGTTATCGGTACAGCAAATCATGCTAAGGTTTTAGAAATGGATGACAGTATGAA
+AGATAAGAATGTTGAAGTTCAAATTAAAAAAGAGTATACTGTAGAGAAACGTATTGATAG
+TGATGTGTCTGATGACCCTTTAACAATTGCTAGTACCTATGCTAAACAATACTCACCTGA
+ATCAGAACAAGAAATACTTGAGTGTTTGAAGGAGGTTTTATAATGAAAAAATATAGAGAA
+TATCTAAATAAGACAGATGCAGAAAATTTAGCAGAGGATTGGGAGAAAGTAACCGAAGAT
+TTATGGAAAGTGTTTAAAGATATGAAACCTAAAATTAATACATTAGATATCAGTAATGTA
+GTAAGTAAAGACTTAGATAAAAGTAAACCTATTTTACAATTCCAAGATTCAGATGGAGTA
+ATAGAGAATATTTGTAATGTTGAAGGTTTAGAAGATGGTCTAAGTAAAATGAAAAAGATT
+TTTGATGATAGTAATTTTGAAAAGCATTATTACAATAGAGTAGTAGACCATGATGAGTAT
+TACTGGATTGATTATGGCTCTCATCATTGTTTCTTTAGAGTTACGAAAGGGGATAAGTAA
+TGGTTGTATTTAAACAAGTAGAAGTTAATAATTTTTTAGCAATTAAAGAAGCTACGCTAG
+AGTTAGACAATAGAGGATTAATTCTAATTGAAGGTGAGAATAAATCTAATGAGTCATTTC
+ATTCAAACGGCTCAGGAAAATCAACTTTAATATCTGCCATTACTTACGCTTTATATGGTA
+AAACTGAAAAAGGACTAAAAGCAGATGATGTAGTAAATAATATTGAGAAGAAAAATACAT
+CTGTTAAACTTAAGTTTGATATTGGGGAAGATAGTTATTTAATTGAACGTTATCGTAAAG
+ATAAAGAGAATAAGAATAAAGTAAAATTATTCGTTAATGAAAAAGAGATTACAGGTTCAA
+CAAATGACGTTACCGATAAACAAATACAAGATTTATTTGGTATTGAGTTTAATACTTACG
+TTAATGCCATCATGTATGGTCAAGGAGATATCCCTATGTTCTCTCAAGCAACAGATAAAG
+GTAAGAAAGAAATTCTTGAATCTATTACTAAGACAGACGTATATAAACAAGCACAAGATG
+TAGCAAAAGAGAAAGTTAAAGAAGTGGAAGAACAACAAAATAACATAAGACAGGAAATCT
+ATAAACTAGGTTATCAGTTATCGACAAAAGATGAGTACTTTCAAAGAGAAATAGAGCAGT
+ACAATCAATATAAAGAACAATTGGTTCAGATAGAAAACAGTAATAAGGAAAAAGATAGAT
+TAAGAGAACAAGAGGAGAAGCAAATAGAAGCTCAAATAGAGCAACTAGCTTCACAGATAC
+CAACAATACCTGAAGATGAATTTAAGCACTCAGAGGAGTATAATAAAGCCTCTCAAAGCC
+TAGATTTACTTTCTAATAAATTAACGGAGTTAAATCAAGTTTACTCAGAGTATAATACCA
+AAGAACAAGTACTAAAATCTGAAATAGCTACATTAAGCAATAGTCTAAATCAGTTAGATA
+CAAATGACCATTGTCCTGTTTGTGGCTCCCCTATAGATAATTCTCATAAATTAAAAGAAC
+AGGAAAATATCAATAATCAGATTGAGAATAAGAAACAAGAGATTACTAGTGTATTAGAAA
+TGAAAGATACGTATAAAGAAGCTATTGATAAAGTAAAAGATAAATCACAAGAAATTAAAG
+ATAAAATGTCACAGGAAGACCAACAAGAACGAGAGCACAATAATAAGATTAACAGCATAA
+TTCAAGAGGCTTCTAGGATTAAATCAGACATTAGTTCATTAGAGAATAATAAAACGTATT
+TAAAAGTTAAATATCAACATCAATCTGTTCAAGGATTAGAGAGAGAAGAACCAAGTAAAG
+AAAAACATGAGGAAGATAAGAAAGAATTACAAGAATCTATTGACAAACATGAAGAGAATA
+TAGTACAATTAGAAACTAAGAAAGGTAAATATCAGCAAGCTGTAGATGCTTTTAGTAATA
+AAGGTATACGTTCAGTAGTGTTAGACTTTATTACACCATTCTTAAATGAAAAAGCAAATG
+AGTACCTTCAAACTTTATCAGGTTCAGATATTGAAATAGAGTTCCAAACTCAAGTGAAGA
+ATGCTAAAGGAGAACTAAAAGATAAGTTTGATGTTATTGTTAAGAATAGCAAGGGCGGAG
+GTTCGTACAAATCCAATTCAGCAGGAGAACAAAAACGTATTGATTTAGCAATTAGTTTTG
+CAATTCAGGATTTAATTATGAGTAAAGATGAGATATCTACGAATATTGCACTTTACGATG
+AGTGTTTTGATGGATTAGATACTATCGGTTGTGAAAACGTGATTAAATTATTAAAAGATA
+GACTTAATACAGTAGGAACAATATTTGTAATTACTCATAATACCGAGCTTAAACCACTGT
+TTGAACAAACAATTAAAATCGTAAAAGAAAATGGAGTATCAAAACTGGAGGAAAAATAAT
+GAAATTAAAGATTTTAGATAAAGATAATGCAACACTTAATGTGTTTCATCGTAATAAGGA
+GCACAAAACAATAGATAATGTACCAACTGCTAACTTAGTTGATTGGTACCCTCTAAGTAA
+TGCTTATGAGTACAAGTTAAGTAGAAACGGGGAATACTTAGAATTAAAAAGATTACGTTC
+TACTTTACCTTCATCTTATGGTTTAGATGATAATAACCAAGATATTATTAGAGATAATAA
+CCATAGATGTAAAATAGGTTATTGGTACAACCCTGCAGTACGCAAAGATAATTTAAAGAT
+TATAGAGAAAGCTAAACAATATGGATTACCTATTATAACAGAAGAATATGATGCTAATAC
+TGTAGAGCAAGGATTTAGAGATATTGGAGTTATATTCCAAAGTCTTAAAACTATTGTTGT
+TACTAGATACCTAGAAGGTAAAACAGAAGAAGAATTAAGAATATTTAACATGAAATCAGA
+AGAGTCACAACTGAATGAAGCACTTAAAGAGAGTGATTTTTCTGTAGATTTAACTTATAG
+TGACTTAGGACAAATTTATAATATGTTGTTATTAATGAAAAAAATTAGTAAATAGTAAGG
+AAGGATATTATGAGGTTTGAAGACTTTTTAACCCAAGAATTAGGAGAACCAAAAGAAAAT
+ACTATAGGTGAGCTAAGATACTGTTGTCCGTTTTGTGGAGAAAAAAGTTATAAGTTCTAT
+GTTAAGCAAGCCCTAGACTCTAGTAATGGTCAGTATCATTGTAAAAAATGTGATGAATCA
+GGTAACCCTATTACATTTATGAAGACTTATTATAACATTACAGGTAAACAAGCTTTTGAT
+TTATTAGAGTCTAAGAATATAGATATAGAGAGAGCCCCTTTACTTACGACCAATAATAAG
+GATTTGACAGAATCAGAGAAACTTATATTAATGCTTAGAGGTGTGCACCAAGATAAAGGA
+AATACTAGTATTAAACCTCCTAGATTACCTGAAGGGTATAAATTATTAAAAGATAACTTA
+AATAATAAAGAGATTATACCCTTTTTAAAATACTTAAAAGGCAGAGGTATAACTTTAGAA
+CAAATTATTAATAATAATATAGGTTATGTTATTAATGGGAGCTTTTATAAAGTTGATGGA
+GAATCCAAAGTATCATTAAGGAATAGTATTATATTTTTTACTTATGATAATGATGGAAAT
+TACCAGTATTGGAATACACGAAGTATAGAAAAGAACCCGTATATTAAATCTATCAATGCC
+CCTGCTAAACAAGATGAAGTAGGTAGAAAAGATGTCATATTTAATTTGAATATAGCAAGA
+AAGAAAAAGTTCTTAGTTATAACTGAGGGTGTATTTGATGCTTTAACCTTCCATGAGTAT
+GGCGTAGCAACATTAGGTAAACAAGTAACTGAGAATCAAATAAAAAAAATAATTGATTAT
+GTTAGTATAGATACATCAATATATATTATGTTAGACACTGATGCATTAGATAATAATATA
+GACTTAGCTTATAAGTTAAAAACACATTTTAATAAAGTTTACTTTGTACCTCATGGTGAT
+GAAGATGCAAATGATATGGGAACAAGGAAAGCTTTTGAGTTATTAAAACAGAACCGGGTG
+CTAGTAACACCTGAAAGTATACAGAGTTACAAAATACAACAAAAACTTAAACTTTAGGCT
+TGACCTTAGAGAAGTTTTATGTTATACTAGTAATTAAGTAATTAATAAAGGAGAAAAAAA
+ATAATGTCAAATAATAAAAAAGATATTTTAGAATTTGTAGATGAATACATTACAGCTTTA
+AGAGTTGGTAATGAGCAACGACAACATCAATTAGAAGAAATGGGTAAAGAAGAAACAGCA
+ACATTAACAGATGTAGCTAAAGCTATTACTAACCTTATGTTAGGTGTTAATGAGCAGATG
+ACAGACTTAGAATATAATAACGAGTTAAACTTAAATATTTTAATTGATGCTTTATATAAA
+GCAGAGCTTATTAATGAAGATGTATTAGACTACATTCAAGAATCAATTGATAAATCACAA
+GAAGAACCTAAAAATGAAGAAGAAAAAGGAGAACAAGAATAATGGAAAAAAATATTAGCA
+CACACACAAAAGGTATTAGTCAAGCAGACATGGAGAAATGGATTGAAGCTGTAGTACAAG
+GAACTGTTGATGGTAAACAAGTTGATGAGAAAACAGCTAAACAATTAGATAGAATTGGTT
+CACGAAGTGTTTCTTTAGAAGAAGCAACTCGTATTGCTAAAGTTCTTAATGCTGTAACAG
+CTCAAGAGGTTACAGGAGACTTTAATGATGCATTTAATGCAATTGACTTAATGATGATTA
+TCATGGAAGATGAGTTAGGAGTAACTCAAGAAAAAGTAGGTAAAGCTAAAGATAAACTAA
+ATGAAAAACGAGAAGCTTACCTAAAAGAGAAACAAGAAGAATTACGTCAAAAACAACAAG
+AAGAGGCACAGAAAAAAACTGAATCTGACAGCAATGAAAAAGTAATTCAGTTGAAGAAAA
+ATGACGAACAGTAAGAAAAAAGGGGATACATTCGAACGTAAAATAGCTAAAGAATTAACT
+GCTTGGTGGGGATACCAATTCAATAGGTCTCCTCAATCAGGTGGTGCTTCATGGGGTAAA
+GATAATAATGCTGTCGGAGATATAGTAGTACCTCAGGAAGCTAATTTTCCTTTAGTAGTA
+GAATGTAAACATAGAGAAGAATGGACTATAGATAACGTTCTTTTAAACAACAGAGAGCCA
+CACACATGGTGGGAGCAAGTCATTAATGATAGTAGTAAGGTGAATAAGACACCTTGCTTA
+ATATTTACTAGAAATAGAGCTCAGAGTTATGTTGCTTTACCTTATGATGAGAAAGTATAT
+GAAGATTTAAGAAATAATGAATACCCTGTCATGAGAACAGACTTTATTATTGATAATATT
+AGAAAAGATAAATTTTTTTATGATGTCCTTATAACTACCATGAATGGGTTGACCTCATTT
+ACACCTTCTTATATTATATCTTGCTACGACAAAAAAGATATAAAACCATACAAGAAGGTC
+GAGTCTAATTTATCTGAGGTAAGTAAGCATGAAGATGAATTGATTAATGACCTTCTTAGT
+GATATATAAGGAAGGTAAGATAAGTATGACAAGCAAAGAAAGACCATTAATCGTATATTT
+TTCAGGTACAGGACAAACAGAAAGATTAGTAAACAAAATTAATATTAATAATTCATTTGA
+AACATTTAGGGTTAAGAGTGGAAAAGAAAAAGTAAATAAACCTTTTATACTAATAACACC
+TACTTATAAGAAAGGTGCAATACCTAAACAAATAGAAAGATTCCTAGAAATTAATGGGAG
+CCCTAAAGAAGTTATTGGTACAGGAAATAAACAATGGGGCTCTAATTTCTGTGGAGCAAG
+TAAAAAGATTTCAGAGATGTTTAAGATTCCTTTAATTGCTAAAGTAGAGCAATCAGGACA
+CTTTAACGAGATACAACCAATATTAGAACACTTTAGTAATAAATATAAAGTAGCGTAAAG
+GATGAGAGATATATGGCAACATATGGAAAATGGATTGAGTTAAATAATGAAATAACTCAA
+TTAGATGACAATGGAAAAAATAAACTCTATAAAGACCAAGAAGCTTTAGATGAGTATTTA
+AAATATATTGAAGACAATACAAGAAAGTTTAATAGTGAAGTAGAAAGAATTAGAGTATTG
+ACAAAAGAAGGAACATATGATAAAATATTTGACAACGTTCCTGACACTATTATTGATGAA
+ATGACTAAGTTAGCTTACAGTTTTAATTTTAAATTCCCTAGTTTCATGGCAGGGCAAAAG
+TTTTATGAATCTTACGCATCAAAACAGTATGATGAAAACAAAAAACCTATTTTTGTTGAA
+GACTATGAACAACATAATGTTCGAGTAGCTTTATATTTATTTCAAAATGACTATGTAAAG
+GCTAGAGAATTACTAGTACAACTTATGGAGCAAACATTCCAACCATCTACACCTACGTAT
+AACAACTCAGGACAAGCTAATAGAGGTGAACTAAGCTCATGTTATCTATTTGTAGTAGAT
+GATTCAATTGAGTCTTTAAACTTTGTTGAAGATAGTGTAGCTAATGCTAGTTCTAATGGT
+GGTGGAGTTGCAATTGATTTAACTAGAATTAGACCTAAAGGAGCTCCAGTACGTAATAGA
+CCTAATTCAAGTAAAGGTGTTATTGCTTTTGCTAAAGCTATTGAACATAAAGTTAGTATT
+TATGACCAGGGTGGTGTAAGACAGGGTAGTGGTGCTGTTTACCTAAATATATTCCACAAT
+GATATCTTGGATTTATTAAGCTCTAAGAAAATCAATGCCAGTGAGTCTGTTAGACTAGAT
+AAATTATCTATTGGTGTTACAATCCCTAACAAATTTATGGAGTTAGTTAAAGAAGGTAAA
+CCTTTCTATACTTTTGATACTTACGACATTAATAAAGTGTACGGTAAGTATTTAGATGAG
+CTAAACATTGATGAATGGTATGATAAGTTACTAGATAATGATAGTATCGGTAAAGTAAAA
+CATGATGCTAGAGAAGTTATGACAGATATTGCTAAAACGCAATTAGAATCAGGCTACCCT
+TATGTATTCTATATTGATAATGCTAATGATAATCACCCATTGAAAAACCTAGGTAAAGTT
+AAAATGAGTAACTTATGTACAGAAATTTCACAATTACAAGAGGTATCAGAAATTTATCCG
+TACTCTTACAGTAATCAGAATGTTATTAATAGAGATGTTGTCTGTACATTAGGTTCTCTT
+AACTTGGTTAATGTGGTTGAAAAAGGTTTATTGAATGAATCTGTAGATATTGGTACAAGA
+GCATTAACAAAAGTTACTGATATTATGGATTTACCTTACTTACCTAGTGTTCAAAAAGCA
+AATGATGATATTAGAGCTATCGGTTTAGGTTCAATGAATTTACATGGACTTTTAGCTAAG
+AATATGATTAGTTATGGTTCTAGGGAAGCATTAGACCTAGTAAACAGTTTATATAGTGCT
+ATTAACTTCCAGTCTATTAAGACATCTATGTTAATGGCTAAAGAAACAGGAAAACCATTT
+AAAGGCTTTGAGAAGTCCGATTATGCTACAGGTGAATACTTTGTAAGATATATTAGAGAA
+TCCAATCAACCTAAGACAGATAAAGCTAAGAAAGTCTTAAATAAGGTTTATATTCCAACA
+CAAGATGATTGGGATGAATTAGCTAAAGCAGTAAAAGTACATGGCTTGTATAATGGTTAT
+AGAAAAGCAGAAGCACCTACTCAATCTATATCTTATGTACAGAATGCTACAAGTTCTATT
+ATGCCAGTTCCTAGTGCTATAGAGAATAGACAATATGGAGATATGGAGACATATTACCCA
+ATGCCTTACCTAAGTCCTATAACTCAGTTCTTCTATGAAGGAGAAACAGCTTATAAGATT
+GACAATAAACGTATTATTAATACAAGCGCAGTTGTTCAGAAACATACAGACCAAGCAGTG
+TCTACAATACTTTATGTAGAATCAGAAATCCCTACTAATAAACTAGTATCATTATACTAT
+TATGCTTGGGAACAAGGATTAAAATCATTATACTATACACGTTCACGTAAACTTTCTGTT
+ATTGAATGTGAAACATGTTCGGTTTAGAAAGGAAATAGATATGGATATTACACAAAAAGT
+AAAACAACATAATAAAAATGCTGTATTAAAAGCAACAAACTGGAATATTGAAGATGACGG
+GATGTCTGATATTTATTGGGAGCAAGGAATCTCCCAATTTTGGACTCCTGAAGAGTTTGA
+TGTATCAAGAGATTTAAGTTCTTGGAATAGTTTAACTGAAAGTGAAAAGAACACTTATAA
+GAAAGTCCTTGCAGGGCTCACAGGGCTCGATACAAAGCAAGGAGGAGAAGGTATGAACTT
+AGTATCCTACCACGAACCAAGACCTAAATACCAAGCTGTATTTGCGTTTATGGGTGGTAT
+GGAAGAGATACATGCTAAATCTTATAGTCATATTTTTACAACATTACTAAGTAATAAAGA
+AACAAGTTATTTATTAGATACTTGGGTAGAAGAAAACGACTTTTTAAAAGTAAAAGCTCA
+GTTTATCGGATATTACTACGACCAACTATTAAAACCTAATCCTACTATATTTGATAGATA
+CATGGCTAAAGTAGCTAGTGCCTTTTTAGAAAGTGCATTATTCTACTCAGGATTTTATTA
+TCCTTTACTTCTTGCAGGAAGAGGTCAGATGACACAATCAGGAGCTATTATTTATAAAAT
+TACTCAAGATGAAGCTTACCATGGTTCGGCAGTAGGATTAACAGCTCAATATGATTATAA
+TCTTCTAACAGAAGAAGAGAAAAAACAAGCAGATAAAGAAACTTATGAATTATTAGATAT
+TCTTTACACTAATGAAGTAGCGTATACACATAGTCTATATGACCCACTAGAATTAAGTGA
+AGACGTAATTAACTATGTTCAGTATAATTTTAATAGAGCTCTTCAAAACCTTGGAAGAGA
+GGACTATTTTAATCCTGAACCTTATAACCCTATTGTAGAAAATCAAACTAATGTAGACAG
+ATTACGAAATGTTGATTTCTTTAGTGGTAAAGCAGACTATGAAAAATCTACAAATATCAA
+AGATATTAAAGATGAAGATTTCTCATTCTTAGATAGTAAAGAATACAGTACTGCCAAGGA
+ATTCCTATAAAAAGGAGAAAAGATATTATGGATAGAAAAGAAGCAATGGATTTACTAAGT
+AAAGCAGAAATATTATTTAAAAAACATGATGAGTTTTCATGTGTAAGTGATATCAATGAC
+CCTATGAAGTTATTCAGTAACTCTAAGGATGCTAAAGCTGATGATACGTCTAATTCTTTT
+CAGCTAGAGTTTATGCATGATATGACCATGTATACTTTATCTTATGGCTCAGGACAGCTA
+AAACTTATTGATTTAGCAGAAGGTTATGAAGCACAAAAAGCTACAATAGTTAACTCATTT
+CCCGAAATTATTAAAACATTAGAAAAGGATGATTCAGAAGATGGAAAAAATGAATAGTTT
+AGTAGATTTAAATACAGCAATTAGACAAAAGAAAGATGTTATTGTCATGATTACACAAGA
+TAATTGTGGTAAGTGTGAGATTTTAAAAAGTGTAATCCCTATGTTTCAAGAGTCAGGTGA
+CATTAAAAAACCTATCTTAACATTAAATCTAGATGCTGAAGATGTAGATAGAGAAAAAGC
+TGTTAAGTTATTCGATATCATGAGTACACCAGTATTAATTGGGTATAAAGATGGTCAGTT
+AGTTAAAAAGTATGAAGACCAAGTTACACCTATGCAATTACAAGAATTAGAGTCACTTTA
+ATTTGGAATTTCCTACTATCTGTGCTATACTATAATAGTACAAGGTAGTAGGATTTTTTA
+ATGGAAGGAAGATGACATATCGCAAAGAATAAAACATTAACGATATATAATAGTGATAGA
+TATTTTAATATACACACAAAAGATAAAGATAAAATTAATGAGGCTATTAAAGTAACACAC
+GGTAATGAAGAAGAAATTGAAAAGAATATGGATGAATTAATATCTAAGTCTAGAAGATAT
+ATCATGAGGGATGAAAAGCATTACATGCTATTTAATGAGAAGTACAATAATGATAGGCTT
+ATAGAAAAAGTATGTAAACACGGTGGTAAAGTTACATACTATACTGATTCAGTATTACCT
+TACTATGTTTTAAAAGACTTATCTAGTCACCCTGACTCAGAAGTTGTTTATCGTATGCGC
+AACGGTTTTACTGCAAAAGAAGTAGATAATATAGCTTTATCATTCATGGGTACAAAAGTT
+ATTATTGATATTTCTGTAGTATTTCCTTATGTAAACCCTTATGATATTATTAGAAGTTTA
+CATGATATTAAAACAAATGTAGATGAAGTTCATTTATCATTTCCACGAATATTAGGGGTA
+GATGAAAAACAAGAAAAGTTTTATTTCTTTGATGGTGAAGCTTATGATTTAAAACCCGAA
+TATAAAGTCGATTTTGCAGATAAAATTAGAGTATCTTTATCAGTATGGAAAATGTATATC
+TATATCTTAACAAGTAGTCGTGATTTTGAGGATGTAGACAATGTAATTACGAAATTAAAA
+CAACAACGAAAGATTAAGATATAAGGTGATTATATGAGTACAGCAAATAGAAGAGATATA
+GCAAGAAAGATATCAGAGAATACAGGTTACTATATCCAAGATGTAGAGGAAATACTAAGT
+GCAGAGACAGATGCTATTTCTGACTTGCTAGAAGAAGGGTATACTAAAGTAAAGAATCAT
+AAATTTATGCAAATAGAAGTTATTGAAAGAAAAGGTAAAAAAGCGTGGGATGGTCTGAAT
+AAAGAATACTTCCATTTACCTAATAGAAAAGCTATAAAATTCAAACCACTAAAAGAACTA
+GAAGAGGTTATTGATAGACTTAATGAAGAAGAGAAATAATTCTCTTCTTTTTTTATTGAC
+AAGGTTTAAAATATATGGTATAGTATTATTAAGTTAAAAAAGGAGAGGAATTAAATGAAA
+GTATTAATCTTATTTGACCACATTAGAGAAGAGCATTTTTCTGTAAGTAAAGATGGGAGT
+GTGAAATCTAATGTACTAAATACACCTAACGGAAAAACACTTAAGAAATTACTTGAGAAG
+TGTTCTAACTTAAAGAGAGATAAAACAAACAGAGATTATGATATTGATTTTCTCTACAAT
+GCAGTACCTACACCTATTAGAAATGACTACGGTAAAATCATTAAATACCAAGATGTTAAA
+CAAGCAGAAGTAAAGCCATACTATGAGAGAATGAATAATATTATTATTGATAATTCTTAT
+GATATGGTAATTCCTGTAGGTAAACTAGGTGTTAAATACCTATTAAATGTTACAGCTATT
+GGTAAAGTAAGAGGTGTACCAAGTAAAGTAACTATTGAAAATGGAACATCTTCTCATGAT
+GTGTGGGTATTACCTACTTATAGCATTGAATATACTAATGTAAATAAAAATAGTGAACGT
+CATGTAGTATCAGATTTACAAACAGTTGGTAAGTTTGTAGAGCAAGGAGAAGAGGCATTT
+AAACCTAAGGAAGTATCTTACGAGTTGGTAGATAACATTGAAAGAGTAAGAGAAATATTC
+AATAAGGAAGTAAAGAATGATAATTATGATGGGGTAGATATTACCGCATGGGACTTAGAG
+ACTAACTCATTAAAACCTGATAAAGAAGGAAGTAAACCTTTAGTACTATCTCTATCATGG
+AGAAATGGTCAAGGTGTAACTATACCCTTATACAAATCAGACTTTAACTGGGAAAACGGT
+CAAGATGATATTGATGAAGTCTTAGAATTGCTTAAGAATTGGTTAGCTAGTAAAGAAGAT
+ATTAAAGTAGCACATAACGGTAAATGATTTGCTGTTGTAAAATCCCTCTCATATCGGGCA
+TAGCTTTAAGTAGCTGATAAGAGAACCTAAGTCCTGTAATAAGGATAGTGGTAATCCCGA
+GCTTACATTATTGGTGACAATAGATGGGGTGTAGAGACTGAGCCGAGGTTTTGTAGACCA
+AGGTGAGACATAGTGTATCGACTTAATAGAGGTGGTACAGTGAAAAAAGATTATATGACA
+TCAGTTAAAAATAACAAAAAAGTATGTAGAAGATGCAACGAAGAATTAGATTTATCTAAC
+TTTAAAACATATAAGAAGAATGATAAAACTTATTATCAAAGTATGTGTATACCTTGTCGG
+AAGGAATATAATAAGTTAGATAAAACTAAAAATACTATTAAAAAATGTTATGAGAAAAAC
+GGAGATAAATATAGAAGACAAAGTAATGAGTATAATACTTCTGACAGAGGTAGAGAGCTT
+AATAAAAATAGGTCTAGGAAATACAGAGAAAACAATTCTTTAAAATCGAAAGCTAGAAGC
+TCTGTAAGAACCGCATTAAGAAATGGTTCTCTCATAAGACCTGATAAGTGTTCAGAGTGT
+AATAAAGATTGCATACCTGAAGCTCACCATCCTGATTATACTAAACCTTTAGAAATAAAA
+TGGTTATGTAAATCCTGTCATGAAGATACTCATCATAAAAAATAATCACACTATGTAAAT
+GAGGGACATCAAGCCCATTTAGGTAACTACAAACAAACCTAATGGTAAGGGCTTATGAAG
+GTATAGTCCGTTCTATATAGAAATATATAGGCTAAAACGAAATATGATATTAAGTTCTTA
+ATGAGTACTGAAAACTTTAAAGATTTTGAGAGTATTCAGGATACTAAAGTAGGTTGGTAC
+CTAGCTGTTACCCAAGAAGTTAAAGAATCTTTAAGATTATCTGATTTAGCTTATGAGGTT
+ACAGATGTCGGAGGCTATGATAAACCATTAGAAGACTTTAAATTATGGTTTGTTACTAAG
+TTATTAAGATTCTTCTCAGATAAAATTAAAGAGATACAGAAAGAAAATAAAAAGATTGCT
+AAGAAAGAGTATGATGTTAAAGCTCCTGAATATAAAGAATGGTTAGAGAATAAATTAAAT
+GAAACAGTAGTAGAACTAGATGATACTGAGAAAAAATTTAGAGTTAGTGAATTAGAGAAA
+AAGTATATTCAACTAGGTCTTTCACCTGAAATTGTAAATATGAATTTAGTTATGGATAAT
+GATGAATTCATAAATATTGCAGAACAATCACCTGAGTACATGGGGTTATCTGACTACGCT
+AAGTCTTACACGTTAAATACTGCAATTAATTTAATTAATGAGTATAGAGATGTAAAAGAT
+GTAGTTAATGATATTGACGGAGGTAACTTTAATTATGATTGGTTCCCTATTGAGTTAATG
+CATCCATACGCATCAGGAGATACTGATGTATGTAGAAGAATTTATTGTGATGTAATTAAG
+AAACTTAAAGAACAAGATAGACCTAAGTCAATGCATTTATTAGAAGTTAATTACCCAAGA
+CTTACTAAGTCTTTAGCTAGAATTGAATCAAATGGTTTATATTGTGACTTAGATTATATG
+AAAGAAAATGATGAGTCATACGAGTCTGAGATGGCTAAGAACCATGCTACAATGAGAGAG
+CACTGGGCTGTTAAAGAATTTGAAGAATACCAATACAATCTTTACCAAATGGCGTTAGAA
+GAACATGAGAAAAAGCCAAAAGATAGAGATAAAGATATCCATCAGTACAGAGATAAATTT
+AAAGATGGTAAATGGATGTTTTCCCCAAGTTCCGGAGACCATAAAGGTAGAGTAATTTAT
+GATATTCTAGGAATTCAATTACCTTATGATAAAGAATATGTCAAGGAAAAACCATTTAAT
+GCTAATGTTAAAGAAGCAGACCTTACTTGGCAGGACTATAAAACAGACAAGAAAGCTATT
+GGTTATGCGTTAGATAATTTAGAATTAAAAGATGATGTTAAAGAGCTTCTTGAATTACTT
+AAATATCATGCTAGTATACAGACAAAACGTAATTCATTTACTAAGAAATTACTTAATATG
+ATTAATAAACAAAAACGAACATTACATGGTTCTTTTTCTGAGACAGGCACAGAGACATCA
+AGACTAAGTAGTAGTAACCCTTAAATTGGGGTTGTAAAACTTTGTTAACTGCGGGAAGAG
+ACTCGTTAGGTCTTAACTACTAACTTATAATGGAAACATATATAAGGGCAAACAGTAACG
+TGTTTGATATAGTAAAAAGGTTAAGAATAGAGAGAATCCGCATCCAAGACCCTGAAAGTA
+TATAAAAGTATGGGTAAGGTTCAACGACTAGGTGTTGAGACAATACAATCAATACACACC
+CACGAAAGCAAAGGTATTATTTCTGTGGTAGGGAATAATAAGGAGAGTTATATGAAAGAG
+ATTTGGAAGAAAGTAGTAGGATTTGAAAACTACGAGGTAAGTAATAAAGGAAAAGTAAGG
+AATATAAAAACTAACTATATTTTAAAGCCGTGGATAATAAATTCCGGATATGAGCAAGTA
+TCTATAGGTATTGCTAATGTATTAGTACATAGATTAGTGGCTATGACATTTATACCTACC
+GACAGCTATAGTATAGTTAACCATATTGATAATAATAAATTAAATAACTGTGTTGAAAAT
+TTAGAATGGGTAAGTTACAAAGGTAATAGTGCTCACGCTAATAAGCAAGGAAGATTGAAT
+ACTTATAGTGCAAGAGAAAAACTTAGTTCTGTATCTAAGAAAGCCATTTATCAAAAAGAT
+ATGGAAGGTAACATCATTAAGTTATGGGATTCACCAAGTGAAGCTGAAAAAGAATCTAAT
+GGGTACTTTAAAAGTACTAAGATTAGTTCCGTTGCTCACGGTAAACGTAAGCATCATAGA
+AGTTATACTTGGGAATACGTATATAAGGATTCAAAGAGAAGTTTAAATAAGTCTATTAAT
+ATGTATGATTTAAATAATAATTTATTATATGAAGATTTGACAATGAATAAAATTATGGGT
+ATACTAGAAATGAATAATCATAAAACATTAAGAGATAAACTAAGAAATACAGATGACTTT
+GTTGAATACAGAGGATATAAATTTAAAAATAATAATTAAAACCTACCACAGAAATGATAT
+ATGATATAGTCTACTCAATAGTGAGAGCTATTGTGTTACCTAAACAGTAACAGATTGTAA
+ACTAAAAAGCTTACAAATTATAGAATTTACAAAACTTACCTGCACACACATCAGATGTAA
+ATAAGTTTGATTACAAACATCCAATTAAACGTTCATTTGTTTCTAGATTTGAAAATGGAG
+TACTGCTAGGGTCCGACTATAGCGCCCTAGAGATGCGTATTATCGGATTATTTACTAAAG
+ACCCTGATATGCTACAATCATTCTTAAATGGGGAAGATATCCATAAGGCTACTGCAAGTA
+TTGTTTACAATAAACCAGTAGAAGAAGTAACTAAAGAAGAACGACAAGCAACTAAAGCAG
+TTAACTTCGGATTAGCCTTTGGTGAATCACCCTTCTCATTTGCAGGTAAAAATAATATGG
+AAGTAAGTGAAGCAGAAGAAATATTTGAAAAGTATTTCCAAACAAAACCAAGTGTAAAAA
+CTTCTATTGACAATGTACATGAGTTTGTGCAACAATATGGTTATGTTGATACAATGCACG
+GACATAGAAGATTTATCCGTTCAGCCCAATCAACAGATAAAAAGATAAAAAATGAAGGTC
+TAAGACAGTCATTTAACACTATCATCCAAGGTTCAGGTAGTTTCTTAACAAACATGTCTT
+TAACTTACTTAGATGATTTTATTCAATCTCGTAATTTAAAATCAAAAGTTATTGCCACAG
+TACATGATAGTATCTTAATTGATTGTCCTCCTGAAGAAGCTAAAATTATGGCTAAAGTGA
+CAATTCATATTATGGAAAACTTACCATTTGATTTCTTAAAAGCAGAAATTGATGGAAAAG
+AAGTACAATATCCTATTGAAGCCGATATGGAAATTGGGTTAAACTATAATGATATGGTTG
+AATATGATGAGGAAGAAATAGATACATTTAATTCTTACCAAGGTTATATTAAGTATATGA
+TGAATTTACAGACCTTAGAAGATTATAAAGAGTCAGGTAAACTAACAGATGAACAATTTG
+AAAAGGCTACTAATGTTGTTAAAAGTGAAAAACATATTTATCAAGAAATTTAATAAAAGT
+ATTGACAATATAGTTAACTTATGTTATACTATATAAGTAATAAATATAAGGAGGAAAAAG
+AGTGAATACAGGGGAGATTAGATTTAATCGTTCTATGGATGAATGGATTATAACAAGCAT
+GTACCAGGATGAGCTAGGTGGGATGAATATTGTTGTTACATTCTATAATAGAGAAGAAAA
+TAAACATGGTTCTACAGTTTTACCAACAGAGTCATCTACTGGAGAAGTAACAGAGGAATT
+GGCAAGTCTTGAAGAAGAATATCCTTTAGCTTTACCTTTAAGTAGTATCTCAGTTAATAT
+TTAAAAGGAGGAACTGATAAATGGAAATACACATTGATTCCCTAGATTTTACAAACTTTA
+CTATTAAAGATAGAAATGGGAACTCACAAGAGTTTGATATTACAGATGAGTTAAGAATTA
+CAGAGTATACAATACAAGAGGATTTTATGCAACAATCAGCTAAATATGCTTTTTGGGCTT
+CTATATTAGAGAAGGTAAGAGCATATTCTGAAATGGAACAAAGAAACCTAGAAACAATTG
+GTAGTAAGCTAAACCTTACAATTAGACAAGAGTACGAACAACAAGGTAAAAAGCCTACTA
+AAGATATGATTGAATCTAGTGTTTATATTCACGATTCTTATCAACAACAACTTAAAGTTG
+TTGAGGCTTGGAATTATAAAGTTAAACAACTTCAATATGTTGTAAAAGCTTTTGAGACAA
+GAAGAGATATGATGATTCAATTAGGTGCAGAATTACGACAAACAAATAAAAATGGTGGAA
+TTACTAATCCATTTTCACATTAAAAAATAAAGTAAAGAATATAATTGACAAATATAAAAA
+ACTATGTTATAATAAATAAGTAAATTAATTAAAAGGAGAAAAGATAATTATGGATTTCAA
+TCAATTTATTAACAATGAGGCAAGCAAATTAGAAAGCAATAACAGTTCTTTTAACAATAA
+TGTAGAGAGCTACAAACCTAAAAACCCTGTACTACGTTTAGGTAATATTAAAGATGCAAA
+CGGAAATAAGGTTGTTAAAGAAAATGCTTTTGTACGAGTATTACCTCCTGCACAAGGAAC
+AAATGTTTTCTTTAAAGAATTTAGAACAACAGGTATTAACTATTCTAAGAAAGATGGTTC
+TCAGGGATTCACAGGGTTAACATTACCTGCAGAAGAGGGTTCATCTGTCCTTGACCCATA
+CATTCAGGATTGGATAACAAATGGTGTTCAGTTCAGTAGATTCCCTAATAAACCAGGAGT
+ACGCTATTACATTCATGTTATTGAATACTTTAATAACAATGGTCAAATTCAACCAAAAAC
+GGATGCTCAAGGAAATGTAATGATTCAACCTATGGAATTATCTAATACAGGATATAAAGA
+ATTATTAGCTAACTTAAAAGACACTATGTTAAAACCATCACCTAATGCACCTCATAGCTT
+TATCTCAGCAACTGAAGCATTCCTAGTTAATATTGTTAAAGCTAAGAAAGGTGAAATGTC
+ATGGAAAGTAAGTGTTTATCCTAATGCCCCTTTAGGTGCGTTACCTCAAGGTTGGGAACA
+ACAATTATCTGACTTAGACCAATTAGCAAAACCAACAGAAGAACAAAATCCTAATTTTGT
+TAACTTCTTAATCAATAACGTTAATAACACAGAGTTAAGTCATGATAACTTTAAATTTAA
+CCGTGAAACAAATGTCTTAGGTGAAGAACCTTCAGAGCCTAAACAAGCACCCACACAACA
+AGATGTAGATAGTCAAATGCCAAGTAATATGGGAGGACAACCTAATCAGCCTCAGCAAGG
+TCAAGTAGGTCAGTATGCACAACAAGGTCAAAGTAATGGTCAAGGACAGCAGTTACAAGG
+TACACAACAACCTATCAATAACACTCAATTTGGTCAAGGAACTCCTTCAGGACAACAACC
+AAGTAACACAGGTTCTGTTGATTGGGATAACTTAGCGCAACAACAATCACAACCTGATTC
+AAACCCATTCAATGATTTTGATGTTAGCAGTGTTGATGATTCACAGGTACCTTTTGAGAC
+ACAACCTCAAAATACACAACAAGCACCTGAACCACAACAAACTACACAAGAGCCTCCAAA
+ACAAAAACAAACGCAAAGTATTGACGATGTATTAGGTGGTCTAGACTTAGATAACCTATA
+AGATATAGAGTGCCTTAGAGCACTCTTTTATTTGAGATATAATTACTAGGAGGATATTAA
+ATGGCAAGAGCAAAAAAAGGTAAAGAAGTCGATTTAACAGATTTAAATACAATTGATTTA
+GGTAAAGAATTAGGATTAACATTGCTATCAGATACAAACAGAGCAGATATTAAAAACGTT
+ATACCTACAATGGTTCCTCAGTATGACTATATTTTAGGTGGAGGTATTCCATTAGGTCGG
+TTAACAGAAGTTTACGGTTTAACTGGCAGTGGTAAATCTACTTTTGCAGTTCACTTATCT
+CGAATTGCAACACAATTAGGTGTTATCACTATTTGGATTGATATTGAAGGAACAGCAGAT
+AACAATCGTATGGAGCAACTTGGTGTAGATGTTTCAAAACTATTCTCTATTCAATCAGGA
+GAAGGTAGACTTAAAAATACAGTAGAATTATCTGTAGAGCAAGTAGGTAAAGAATTAGAG
+TACTGGATTGACACTTTCAATGAAAAGATTCCGGGAGTACCTATTGTATTTATTTGGGAC
+TCATTAGGGGCTACAAGAACTCAGAAAGAGATTGATGGCGGTATTGATGAGAAGCAAATG
+GGTCTTAAGGCATCAGCTACCCAAAAAGTAATTAATGCAGTAACACCTAAACTAAATGAT
+ACAAACACAGGGTTAATTGTTATTAACCAAGCCCGTGATGATATGAATGCAGGTATGTAT
+GGTGACCCTATTAAATCTACAGGTGGTAGAGCTTTTGAACATAGTGCTAGTTTACGTATT
+AAGGTTCATAAAGCATCTCAGTTAAAACAGAAAAGTGAGTTAACTGGTAAAGATGAATAC
+CATGGTCACATTATGCGTATTGAAACTAAGAAATCTAAACTATCACGACCAGGGCAAAAA
+GCTGAAGCAGACTTACTATCTGATTATATGGTAGGTAAAGAAGATGACCCTATCTTATTA
+AATGGTATCGACTTAGAACATACTGTATATAAAGAAGCAGTTGAAAGAGGTTTAATTACC
+AAAGGAGCATGGAGAAACTATGTTACATTGAATGGTGAAGAAATTAAACTTAGAGATGCT
+GAATGGGTTCCTGTACTTAAAGATAATAAAGAGTTATATCTAGAATTGTTTAGTAGAGTT
+TATGGAGAACACTTCCCTAATGGTTACTCACCATTACTTAATAACAAAGTAATCGTAACT
+CAATTAGAAGAGTATCAAGCTCTTGAAAACTACTATAAAGAATGGGCTACAGATAATAAA
+CAAGAGGAACAAGAGGAAGAACTAAAAGGAGAATCTCAAGAAAAGGATTCTGAATAATAG
+ATGGATAATTTAATAGATAAAAACATGAATCAGGTAAAAGAATCTTTGGGGAATGCAAAT
+TCCTCAGATGTTCTTCCTTTACCTTATAAAGATATAGCAAAGAAATTTGAAGAAGTAAAA
+GAAAAAGGTGAATCAATTATCATTGAAGAAGGTGGATTCCCTTATACAGATTCTACAGTG
+ATGTATATAGAACATGTAACAGATAGATGGGCAGGAGGATATTCCTTAATTAGACATGAA
+GGTGAAGAAGTTAAAGTACCTAAGACTATCCATTTCTCTGATATATATGTTAAAGATAAA
+TCACACAAAGTAAGAATAATCTTCGAGGGGGCTAATCCTTATGAAGAAAGCTAATAATGG
+TAATAGATATGTAATAGATATAGATGGTATACCTGTTGATTTTGAAAGGGATTTAGATAG
+TTTACTTAATAGGTATAAAAACCTTAGATGGTCGTTATATCATAGGTACGCAGGGATTTT
+ATCTAATGATTTTGAAAGACAAGAACTAAGAGAATATATTGATGAGCAATTTATTAAATT
+AGTTAAAGAATATAATATTAGAAGTAAAGTGGATTTTCCTGGATATATTAAAGCTAAACT
+AACTTTAAGAGTTCAAAATAGTTATGTTAAGAAGAATGAAAAATATAAACGTACTGAAAT
+TATCGGTAAAAAAGATTATACAGTAGAGTCTTTAACAGAAGATTTAAATGAAGACTTCGA
+GGATAATCAAATTATGAGTTATGTATTTGATGATATAGAATTTACAGAGGTTCAAAGTGA
+GTTACTTAAAGAATTACTTATTAACCCTGAAAGAGAAGATGATGCCTTTATCGTTTCTCA
+AGTAGCGGAAAAGTTTGATATGAAAAGAAAAGAAGTAGCAAGTGAGTTGACAGAACTCAG
+AGACTATGTTAGATTTAAAATAAATGCATACCATGAGTACTATGCTAAGAAAGAATTAAA
+TAACCATAGAGTTAATACTGAAAATCATATTTGGGAAAACTAGTTACAGTGCCTTCCTTG
+TGTTATATTATTATCGAGAATTCAATAATAAAGCATAGGGAAGGCTTTTTTCTATGTCTT
+ATAGAATGCTTTAAAATAGATTACTAAAATAAAGATTGGAGATTAAGCTTATGGCTAAAA
+AGAATGTTAATGATGTATTACAACAAGAATCTGTTACAGTAGCAGATAAGTATTTACAAG
+TTAAAGTTAACCGTGACGGTTATACTCGTACACATGAAGGACAATATGCGTACAAAGTAG
+TTTCAGAGGGAGAAGAATTATTCTTATACCCTGTACAAACAGATGGTAAAGGTACATTAA
+ATGTAATGAAGAAATCACCTATTGCTTACACTGATGGAGACAATATCCATTTCGTAGTAA
+ACACAGTAGTAGACCCTTATAATCACTCATTTATCCGTACTGAAGATATTAAAGGATTAG
+ATAAAGGTAAACAACTTATTCAAGCTTTCTTAGCTTTCGTTGAAGACCGTTTCAAATTTG
+GTGTTTATAACGTATTTGTTGCAAACAACAAAGAGGATGTATTATCTATTGTAGACCCTA
+CAGATAATGATGCAGATGAAGTTAAAGATAGTTTAGAGCACGCACATGAAGATGTAATTG
+CGGATTTCCCTGCTAGCCCTGCTCGTAAGGACGTTAAAGGCGTAGATTCAGGAGAAGGTC
+AAGGAGACACTTCAGAACCATCAGCACCTAAGAACGTTCAAGTTACTCCTAAGGAAGACG
+GAGCAGACGTATCAGCAGAATAATATATAGATAAGGATGGTAAATTTGGCTAAGTTAAAT
+TTATACAAAGGTAATGAGTTACTAAACAGCGTAGAAAAAACAGAAGGAAAATCAACAATC
+ACGATTGAGAATTTAGATGCTAATACGGATTACCCTAAAGGTACTTTTAAAGTATCATTC
+TCAAATGATTCAGGAGAGTCAGAGAAGGTCGATGTTCCTCAGTTTAAGACAAAAGCAATT
+AAAGTTATTTCAGTTACCCTTGACGTTGATAGTTTAGACCTTACAGTTGGAGATACTCAC
+CAACTATCAACAACTATCACGCCTAGTGAAGCATCTAACAAAAATGTGTCATTTGAATCA
+GACAAATCAGGTGTTGCTAGCGTAACATCAGAAGGCTTAATTGAAGCAGTTAGTGCAGGA
+ACAGCTAATGTTACTGTAACTACTGAAGATGGTAGTCACACTGATATTGTTGTTGTAACA
+GTTAAGGAACCTATTCCTGAAGCACCTGCAGACGTAACAGTTGAACCTGGTGAAAATAGC
+GCAGATATTACTGTATAGGAGGACAATAAAGAATGGAAAAGACATTAAAAGTTTATAGTA
+ATGGTGAAGTTGTGGGCTCTCAAGTAGCTAATAACGATGGAGCTACTACAGTATCTATTA
+CAGGCTTAGAAGCCGGAAAAACTTATGCTAAAGGAGATTTTAAAGTAGCATTTGCTAATG
+ATTCAGGTGAATCAGAAAAAGTAGATGTTCCTGAATTTACAACTAAAACTCCTACTGAAG
+AACCTTCAGGAGACGCATAATAATTAAGACCAACTAAAAAGTTGGTCTTTTTTTATTGAC
+AATTTATAATATCTATGATACACTATATAAGAATTAAGAAAAGGAGGGGAAAGTAATGGA
+TATTCCAACAATATTATTTAGAAATCCATATGATTATACGAAAGTAAAAAAATTAATGGA
+AAACAAAGAGCAGTATATTGTAGTAAAGTTTGATTCTGTTTCTGTTCATAATTTAAATGT
+TCAAGGTATGATGAATGTCATCCAAGATTACCTACACATCTATGGTTACAGAGTTAAAGA
+GTACGGACAAGAAAATTCTTCTAAAGATGATGAAAGAGACGTTAAAGGCTACTTATATGA
+AAGAGTAGGTGAGTAGGGTATGGGAATTATAGTAAACTCCAACCATATTCAATCAGACAC
+TTTATATGAGTATGATAGCTTTTTTGATATTGAGAAAGTAGATACATTTGAAGAAGGATT
+GCTTTCAATACAGGATGAGCCAACTGTTTTAGCAGGATTCATCTATGATGATATCACATT
+TAATAAGGTCATTAATTCTAATTCAGATATTGATGATTATATTAAGAATAATGATATTTA
+TTATGTCTCTGATATAGGATTACTTCCTGATACTTTTATCACTGTTGATTCTGATAGAAA
+ATATTATTCATTATTACAACAGATAACTGAGTTAAGTAAAGACCCTTTTCCTAAATGGGT
+AGAGGATGATGCAAAAGGTTTAACTAAGTATTATAACTTTCAAGATTTTGAAGATGTATT
+TGATTTAAATAGTTTTTACAAAAAAGAAGTTGACATGGTAAGAGAAAAGTGCTATAATAA
+TGGTAATGTATATTTATTATATGAGGTTCTGCCTGATTATAAATTACCTCTAGCTTATAG
+TTTACTTTCAAACAAGGAGCATGGTATTGTTATTATCGGTTCACAGACACGTTCTAATAA
+TGATATACTGACTTTTTATGTTAAAGGTATGGATGCTAAGGCAATAGCTAGTATGTTCAA
+TGTAGAACATGATTATGATTCTAATATTTTCCATACATTTGTAAACAGTCACATTAATAT
+TTTAGGAAATCAAATAACTAAGTTTATAAGAGAGAAAGGAAGCAGTTATGAGTAACTATA
+AAACAATAGAAGAAGTACAAGCAGTTATTATTGGGGTATTATTTAAAGATGAAGGTAAAA
+TTGTAACATCTAAGTTTAATAAAATTACTAAAGAGTTTGGTTTAGATAGAATCGGTAAAG
+ATGACCTTAAAGAAATTGTAGAGGATATTAGACAAGACGCTTATCTAAATGAACTTAAAA
+ACAAAGCAATTAAAGGTAAAGTAACGTTAGGTGATTTAAAAGATGTTGCAGATAACCAAG
+TATTCGAAGGTAATAACTACCATGAAGAAGTATCTACTTATGTAGTAGCTAAAGAAAAAG
+AATTGTCTCACTTAAGAGAACAGCGTAAGCACAATAGGCATACTGCATACCCTCAAATTA
+TGTTTGATGAACTTAAAGAACATATGGTTAAGGAATTACAAGGGGAAACATTAGTAGAAC
+ATCACGGAAGTAAAGCTAATATTAATGATACAGAGCTAATTGTGTTACTATCAGATTTCC
+ATATTGGAAGTATTGTATCTGATATGACTAATGGTAAATATGATTTTGAAGTTCTTAAAT
+CAAGATTAAATCATTTTATTAATACAACAGTTAAAGAAATTGAAGATAGGGAAATTTCTA
+ATGTAACTGTTTACTTTGTTGGGGACTTAGTAGAACATATTAATATGAGAGATGTTAACC
+AAGCATTTGAAACAGAGTTTACTTTAGCAGAACAAATCTCTAAAGGTACTCGATTACTTA
+TTGATATCCTAAATGTACTATCTAATGTAGTTTCAGGAGAACTAAGATTTGATATTATTG
+GTGGTAACCATGACCGTATGCAAGGTAACAAGAATCAGAAGATTTATAATGATAACATTG
+CTTATGTAGTGTTAGATTCTTTATTGTTATTCCAAGAACAAGGGCTATTAAATGGTGTAG
+ATATTATTGATAATCGTGAAGATATTTATACTATTAGAGATACCTTTGGCGGTAAATCTA
+TTATCATTAACCACGGAGATGGGTTAAAAGGTAAAGGTAATCATATCAATAAATTTATCT
+TAGATAGTCATATTGACTTATTAATTACAGGTCATGTACATCATTTCTCAGTAAAACAAG
+AAGATTTTAATAGAATGCACATCGTAGCTTCATCTCCGATGGGATATAATAACTATGCTA
+AAGAGTTACATTTATCAAAAACTAAACCTTCACAGCAGTTATTATTTGTAAATAAGGAAA
+ATAAAGATATTGATATTAAAACAGTATTTTTAGATTAAGGATGGTTAATAAATGGATACA
+ATTTTTATTATAGGTGTAGCGTTTATAACTTTTGCAACATTTAACATAGTCTTTAGATTA
+TTTGATTTATGGACTACAGAGAAAAAAATGGTAAGTCAAGGACAACCTCCACTAAGTAAC
+TTTGAGTACTATCATGTGATAGTACCTTACTTAGTAGGTGTTATTGTTATTATACTGAGT
+ATTATTTTTAGGGATTCCTTGTATTCCGCACAATCAGGGTTCGGTGTTATTATTACAAGC
+TTTATTTACATGCTAGTTTATGTTATAATTGGTCTTGTAGGGTCATTTGTACTTACAATA
+TTCCAAGCTAGAAAAGCTAGACAGTATCAAACACAGGAGGATAATAATGAAGTTCAATGA
+TATTTATGAGCAATTAATTAAAAATGATACAGTACAAAACATTCATGAGTCTCAAGATGA
+CAAAGGAAATATTTATACAATACAGTTTGATAAAGGTAATGATAAGTATTTATTTAATGT
+TATTAATGATGGATTCTTGAAAGAAATGACAAATGGTATGGTAGACCATCCTGAAGGTCA
+GCCATATTCAGTAAGTTTAATCAATAAAGAAACACCTAGTATGTCAGTGAAACAATATTT
+AACAGATGTAGAAGATATTGTACCTACTATTAGAAAAATGGAAAAGGATTTCTTATAGAG
+TCAAGTCTTTACTTGACTCTTTTTACTATATATGGTATATTAATATAGAGGTGACTTAAA
+AATGGATTTTAATTTTAGTGCTTTTGATAATAGCTCATTAGCAATGAGAATTAGTGAGGG
+TGTATACTATTTCAATGATACGCCTTATTACTTTATTGAGCATGTAGAAGAAGAAATGTC
+TGAGTATGTTATTGTATATGACATACATGACAGAGAGGAAAAAGAAAATCCTCAGAAGAA
+ATATAGAATAGAACCTTACCAACGTACAATACCGGGAGGAACACCTCTTAGTAATTTAAT
+TAAGAGTATGATGCCTCAACGTAAGTATCCTAAGAAGGTTACAGAAGACCCTATATTTGT
+AGCTAATGTTATTCCTTTAGGAACAGATACAGTAACAGGTAAAACCGGTAAAGGATTTTT
+TGAAAGAGATAAGGATAGAACTATCTATTCTCAAAAGGAACCAACTAAAGTCGTTCATGG
+TCAATACACAGGTGTTTTTATAGGTCTAACAAGTGTTAAGTGGAATAGAACATATACCCC
+CTTAGAAAGTGTTGTTGAGTACTACAAAAGGGTTAAAGGAGATAGGTTAAATGTCTAATG
+ATGTAGTTAAGTTCTATGAAAAAGATATTAAAGACCTTATCAGAACTAAAAAACACATGT
+TCAAAGACGATGAAATAACTAGTGATATAAACGATATACGAATCTTCAATGAGAAAGTCA
+TTTGTCAAGGTAAATGTAGAACAGATTGTTTAGTGTTAGACCGTAATGGTACAGTAATGG
+GTATAGAGATAAAAACAGAACGAGACTCTACACAAAGATTAAATAACCAATTAAAATATT
+ATAGTCTAGTATGTAAGTATGTATATGTAATGTGCCATGACAAACATGTACCTAAAGTAG
+AACAAATACTTAAAAGGTACAAACATAATCATGTAGGTATAATGAGTTACATTAGTTTTA
+AAGGCAAACCTGTTGTAGGTAAATACAAAGATGCTACACCATCACCACATAGAAGCCCTT
+ATCATACAATGAATATATTATGGAAGACAAACTTAATGACAATACTTAGATTGATTAGAG
+ACCCTCATACGTATAGAACAGGGTATAGCTATAATGTTAGTGGTAGATATAGTGGAGGGG
+AAGGTAATTTCTCCCAAACAACTCAAAGTAAAAGAATGAAAAAACCTGCTATTATTAACC
+AAATAATTCATTATGTAGGGGTAGATAATACTTATAAACTCTTTACAAGAGGTGTTATCT
+ATGGTTATAATAATAGGTGGGAAGTTATAGAAGAAGATTTCTTTAATACTATGAAGAATG
+GGGTAAGAGTAATTAATGAGCAAAGACAAACCAAATAGACGTAAAGAGATACAGCATCAA
+CCTGTTAACTTTGCCCCTACGAATACTTTAACAGGAGCTAATAATAGTTTCTTTGCTAAA
+AAGCCTTCAGAGCCTAAAGATGCAACATCTGTTATTGAATATCGTATACTATTTATTAAA
+AGATTTGATAACGTAACAAGTACAGATGTGAAATTACAGAAAAAGTATGCACTAAATCTT
+ATTAGTGAAGCACTTGATGTTAAAGAAACTTACTTGTCTCTTAAGCAAAAAGGAAAAAAA
+ACAGAATCTATTTTGCATACAGATAGAGTTTATTATGTTCATAGAGGTAAAAAACTTATT
+GGAAAGTGTAGTATCAGAGAACAAAGAACATTTAAGGGTAAACATTTGATATTTATATTC
+AAAACAAGACATAGAGTTAAAGCAGAAAGGAAAGATAAATAATGTTAAAAGGATTTTCAG
+AACATGTAGACAAACCTACAACTATTAAGACCTTATACAAGACCTTAACAAGTGGTAAAG
+TAGAATTACTAGGTGTATCTTACGATAGTGATTACTTCCCTTCAGGTGTTACAGTACAAT
+CTTACATTGAGGATATAGGTAATGAAGATGAGGGTCTACAGTTTGTTAATAAGGTAAATG
+TAGTAGAATCAATGAAACAGGCTGTAGTAGGTATGAATAATCAATTAGGTTCTTCAGGTC
+TTGGCTATGTGAGAACTGAACAACTTAAAAAAGAGTTGGAAGAGACTGGACTAATGACAG
+ATTTACTTGCTAGAGGTACTAACTTAACCTCTACTAAGAAAGTAGATATTGTAAGTACTT
+TTATTGAGCCTGAGGTAACATACCAAAATATTACTATAGCTAAAGATATTAAACTACGTT
+TGTATAAAGTAGAAGAAGAATCACCATTAAATGGTTACACTCATATTGTATACTTACTTA
+CTACAGAAAAACTATATGATGGTCAAACACTCTTCGGTATGCTCTCTAAAAAAGATAAGT
+TATCTAAAGGAGATACTGATAAATTATTAGCATTCTTCAGAAACAATAGTTTAATAAGTA
+AAAGTGTATTTTGTGTTAAGTTATTAAGTAAAGACTACTACTTTAATTTATATAATACAC
+ATGAGACAGGGATATTCTTTTTAGAAGACACAGATGTTATTACTATTGCTTGTGGTCAGT
+CATATGTTAAAGTTAACACTAAAGATATTAAGTCTAGTTATGTTAAAATTGAAGATAAGA
+CTCATAAATTAACTGAGCTAGTAATTAACCTAAAGGGTGACGACACATTAACTATTTTAT
+TCTAGGAAAATGTTATAAATATGTGATAATTAAGTATAAATATACGTTATATAAGAAGTT
+TTCATAATGTTTTTAATACAGAAACTAGTTAAGTTTTTTCTACTTGCTCTAGTTTCTGTG
+AAATTATATTTATGAAAAGTTAAAATATCTTTTAGGTAAAGGCTTTGTAAATAGTTAAAA
+AATATATTAAAATTTTATACAAAGTAGTTAATAAAATTATATTACATTTATATATTATGA
+AATAATAACAGAAATTGTGATATATTATATAGTGTAACCTTGAAACAGTTGATGTTGTAG
+GGTTTGTTTATGTTCGTTAAACTGGTTTCAGAACATCAGTTACCATAAATAAATGACAGT
+TAAGGAGAGCTATATAATGGCTAGAAAAAAGAATTTAAGAAATAAAAACAGTGATATAAA
+AGTTGTTCCTGATAAAGAAAAAGAAAGTATATTATCTAAGTTATACCATAATAAGTTACT
+ACGTTCAAAGGTAGATAATGCATTAGATGAAGATATGAGTTATGATGATATTATAGAATT
+ATGTAAAGAATATGATTTAGAATTGTCTAAATCAGCTATTACAAGATATAAAAGTAAAAG
+AAAAGAAGCTATTGAAAATGGTTGGGATTTAGGAGAATTAATTGATAAACGTAAAAAAAC
+AAGTGTAAAAGATATTAAGGAAAAAGAAACTCCTATATTAGAAGAGGAGCAACTTTCTCC
+ATTCGAACAATCAAAACATCACACACAAACAATTTATGATGATATTCAAGTACTAGATAT
+GATTATTTCTAAAGGTGCAAAAGGATTAGAGTTTGTGGAAACTTTAGACCCTGCTTTAAT
+GATACGTGCAATGGAAACTAAAGATAAGATTACCGGAAATCAATTAAAAGGTATGTCATT
+TATTGGACTTAGAGAATTACAATTAAAACAAACAGCTCAAGATACAGCTATGAGTGAAGT
+ATTATTAGAATTTATACCTGAAGAGAAACATGAAGAGGTATTACAACGATTAGAAGAACT
+ACAAAATGAATTCTACAAAAATCTAGATTTAGATGAGGAAAGTAGAAAATTAAAAGAAGC
+TCTTGATAGAGTAGGCTATACAATTTAGATAGTGAGGTTAGAGTAATGGCAGATGAGATT
+AGTTTAAATCCAATACAAGATGCTAAGCCAATTGACGATATAGTAGATATCATGACATAC
+TTAAAAAACGGGAAAGTACTGAGAGTTAAACAAGACAACCAAGGAGATATCCTTGTTAGA
+ATGAGTCCAGGGAAACACAAATTTACTGAAGTATCTAGAGACTTAGATAAAGAATCATTC
+TACTATAAAAGGCATTGGGTTCTCTATAATGTATCTGTTAACTCTCTTATAACATTTGAT
+GTTTATCTAGATGAAGAATATTCAGAAACAACTAAGGTTAAGTATCCTAAAGATACTATT
+GTAGAATATACAAGAGAAGACCAAGAAAAAGATGTTGCTATGATTAAAGAAATACTTACA
+GATAATAATGGTAATTATTTCTATGCACTTACAGGGGAAACAATACTCTTTGATGAAAAT
+AAATTAAATAAAGTTAAAGATTAGGGTTGACAGCTCCTATAGTTTATGATATAGTATATG
+TATACTAAAAGTAAAGGAGCTAACAATTATGTTTATTTCATTAAATCAAGAAGAGAAAGA
+ATTATTAACTAAAGAGGAAAGTAAATACACACCATTAGAAACATCAAGAGAGTTTAACAC
+ACCTAAAGAAGAATTCATTGTAACAAGCTATAATGAAGGTAAACCTTTAGATTACATTGC
+AAAAGAAGCTAAGGTAAGTATGGGATTAATTTACACAGTTCTAAACTACTATAAAGTAGG
+TAAGCGTAATAAGAAATCACCTGTAGAAGAAAGAATTGCACATATCTTAAAAGATAAAAA
+CTTAGTCAAAGAGATTATTAAGGATTACCAATATATGAATTTACAGGACATTTATAGTAA
+ATATAATCTTCATAAGAATGGTTTATATTACATCTTAGATTTATACCATGTGGAGAGAAA
+ATCTGAACTTAAGGACAAAGCATTAGAAGAGGATAATATTGTCGTTGAGTAAGTAAAGAG
+GTTATAATATGAGAAATAAAAAATCATTTCAAGAGCAGTTAAATGACATGCGTAATAAAG
+AGAAATGGGTATCTGAAGAGGAGTTCACTGAAGAAGTGGCTCCTCCTGAAGAACCTGAAG
+TAGAAGAAGAAAAACTATATACTTTAAATGAGTTAAAAGAGAGCTTACTAGATGCTCAAG
+GATTAAAAGATGTTGTAGCTGATTTTCCTGCATCTAAAGATTTATATGAACCTAATAAGT
+TATATATCTGTACAATACCTAAAGGATATCAGTCTACCGAAGTACAACCAGGACAATATA
+TTGGTATTAGTACTGGATTATTATCAGAGTCAGAAGACTTCAGCCATTTAAGAGGTCAAA
+TGCCTAGAAACTTATATGAAACTTCTCATGTTTTAAAACCTTTGATACGTATTAATAATA
+CAAATATTGAATACCAACAACATGAGTTACTTGAAGACATTAAGGATGACAAAAAGATAT
+ATGATGTAGAGTTAGAAGACTTAAGATTAGCAACAGGAGAAGAAGTTTCTCATTTAGAAA
+TTGTTGATAATAAGTTTTTTGAAAGTCGTATTAATGAAGTTCTTGACCGATACACTGAAC
+TAACGGATTCCAATGATTTACTTAAGTACTATAGTAAATTACGAGAATTAGTAGGTAGTG
+ACAAAATGATTTATTGTTCACTCCTCGATAAATGTGTTAAAATTATAGATTAATAGTAGT
+CTCCTCTTATATTATAATTGTAAGAGGGGACATTTTTGTATAGAGGTGTTAATTATGTCA
+AGAAAAGCAAGTATATTCTATATACTAGTGGTTATTGTTTTGGCTTTCTCTATCTCATCT
+TATTATATATCTTCTTTCATGTATCACGACAAAGCAAAAAATGAAGTCTCTACTGAGTTA
+TCGAACACAGGAAAGATTAAAGAAGAAAAGAACGTAGAATTTGTCGGTGACTACACATTG
+AAAAAAGTGGAAGATAATAAAGCTTATTTTATGGAAACATTACCTACTTACCTACCAGGT
+AGAACAGGAGATAACAGCATAGATATGAGGTACTACAAAACAAGTAGATTTAAGGAAGGG
+GTAAATTTCAAGCTTATTAGGGTATATACTGAAGATGGAGAAGATAATCCAATTCATAAG
+TATAGGTTTGAAGCAGTACCAACCAAAAAGTAATAAGGAGGTGACTTAAATGACAACATT
+AATTGTCGTCATCTTTATTGCTATCATTTATTACTTATGGAACAGTGATTGAGTCAAGTT
+AATTCTTGACTCTCTTTTTGTTTTATGGTATATTAATATATAGAAAGGAGAGATTAACTA
+TGGAAATGGCAGATTTAGAAAGATTTGATGCATTTGTAAGACTAATTTCAGATGATGAGC
+TTTCGGAGGAAAGAATACTGGAGTTAAGCGTAGACTTACTAAACCCGATACTAGAAGGAG
+GTACAGCTTACAAGGCTAAAAAACGTATTAAGAGTAAATTTGGTAAGTTAGAAGCAAAAA
+ATTTTAAACGAAACTATAAATTCTTACTTAAGTCGATAGCTCAAATAGACCAAAGGAGAT
+AGGACAATGACAGAAAGGGAAAAATTAATTAAAGATATTGAAGAGGCTAATAGAGACATA
+CAGTTACAGTTAAAAGAAGTAGATAATTATAAGGACAGCATACGTTCTAAAGGAACAAGA
+AATTATATTTCTACAAAGGTATTAGATTCTATTATGGTTGGTTTCATATGATGAAGTAGA
+TATTGTATCAAAACATAACTTAAGACAAATAACTTTTAGTGAGATTAATATACTTCATCT
+TAAATATATGAGATATAATAAGGCAGTAGAACAACATACTAAATTATCTAAAGAACTTTT
+TAAAAAAGATAAAGAAACTGTTGACAAGAACAAATAAGTGTAGTATAGTATTACTAAAGG
+AGGAGAGATATTATGGTTATACCTAGTATTAAAGCACAAAACAAATTCAAGAATGAGTTA
+GAGTATTATAAACAAGGTCACATTAGTGAAAGTAAAATGTTAGAATTAGCTTTTGATTAC
+ATCCAAGAATTAGAACAAAATAACGAATACGTTACTAACTTGCTAGAAGAGGAGAGATAT
+GGTGAGTAAATTTATCGGAGTGTACTTATTTAATTTACTAATAGCTATTATTTTAACTTT
+AACCTTAATAGGTACTATTACTGACTCAATTGAGAGTACTTTAGCCCAAATAATCGTAGG
+GATGTTCATAATCATTACTATATATATGGAATCCTATCAGCGTTAATACCTATTCTAGTT
+CATAAAGCTGTATCACCGGGATGGAGCTATACTGAATGGAATGAATCCTATTACATCAGA
+TTACCTGGAGAAGAGAACTACAAGTACTATAGTAAATGGTATTTAGATTTATTAGGAGTT
+AAAGAATTTTACTATAAGAGAGACAATGGAGAAGAAGTAAAAGAAAAAAATATATCATGG
+GCTTTTCAAGCTGAAGTAAAAAGACCTGAAGATGTTAACCACTGGAAAAACCAATTGCTT
+ACTAATAGACCTTTAACAATTTTAGAATATAAAAAATTAAAGAAATTAGATAAGGAAAGT
+GAAATTAGGAAACAAGAAGATTTAGAAGAATATAAACAATACAATAGTAATTAAAGAGGT
+GGAAAGCAATGATAAGCTCATTATTAGATGTAGAAGCTTGCTCTATGATAATGGCAGTCA
+TCAGTACAATTGTGTTTGGAATTATTGTACTTTTAATATGGCTAGCAGTAAATAATATTT
+TACTATAAGGAGATTTACTATGGATTTTAATGACTTTATAAACAGTGAATCGGATAGGGT
+AGGTAAGCCTAAACAAAAGAAGAAGGTAGAGAATAAGCTACCTTCTTCTACTCCTATTGA
+AGATAAGGAAAAGAAATTAAAAGAGATAAGAAAGAAATCATTATATATTGATTTAAGGAG
+AAAAAGAAATGACTAAAGAAACAAATGTACTTTACAAAGATAAGTATAGAGATTATACTA
+TAGTTGTAAGATTAGCAGGGAATATTATTGTTACTGAAGTAGATAAGAAACATAAAACAG
+CATTTACACCTATTATATTTGACAATGGTGTAGAAGGCGTAGAGCTTGTAATGCGTATAG
+GTTCTGTAGAGCTTAACATGACAGATTTACGTGAGTTCACAAAAGAAGTATCTACGGCTC
+AGAAAGCTTTAGAATATTTTAATAAAAAACTTTACATTAAAGGCTTGACAGATGAAGCAT
+TTTAATATATACTAAAAGTATAAATAAAATAAAGAAAAGAGGAATGATTATTATGTTATT
+AGGAATTTTATGGTTTATATGGGGATTTGTATCATACTTTGTATTGATGTTTGGAATTGA
+GTTTTGGAAAGATAGATGGATGCCAGGTGTTATCGGAGCAGGAACCTTACTACTATTCTT
+ATTTTGGATTATGAAATCTATCCATAATGCTATGACAGTAGTATACTTGTATTAGGAGGT
+TGTATAGATGGATATACTAATTATTCATTATAAAGAAACAAATAAACGGGTTTTAAAAGA
+AACAATACAAACAATACAAAATCATTTAAATGATGAACATGGTTTGGTTAAGATGACAGC
+AACAAAACTTAGCAGAGAGAATATAGAGAAAAGATTTAATAACTATAATATAGTCATTGC
+AGAAGATGACCCTGATAATTCTTATCATTACGGTGAAGCTGTAGAAGACGCAGATTTTAT
+TATAGACATACCAATTTCATATTTAGATATACATGCAGGAATAGAATGGGATGTTGATAA
+TCCTGTAGATATGCTAGATAGGAATCCTGATTTTATAGAAGCTGTAAATAAACTAAATGA
+AGACTTAATGTTATAAGGAGGAAATAGAATGCTAAATGAAAAACTAAAAAACCTGGAAGA
+TACAAAAGTATACATGATTAATAGTATTGCAAGTTTACTAAGCGCAAGTACAGGAAAATC
+AAGTAAAGTATTTTTTGATGAAGGGACTATTAAAATTGTAAGTGGTGAAACAAAAGCAGT
+AGAAGTCATTGATAACTTAGTTCACCCTCACTCAGGACGTTTACCTATTAAAACAACAGA
+ACGTATTGCGCTAGGTAGATTAACAGATTCTTTACAGTTTGTTATTTCAGAAATAGAAGT
+AGTTAAAGACCAAATTATAGATGAAGAAAATGAAGCTTACATTGATTTTGTGATGGAAGA
+CTGGAACTGGGATTAATGCCTATGGACTTATTAACTATTGCTTCTGTTGCTTTTATAGCT
+GTAGTCATTATTGATTTGATTAATGATGATATGAGCTATATGCTTACTGGTACTGCAATC
+TTAATAAATATTTGGGCAGGATTTTATGGATGGTTTTTCTTACTGCAAGCAGGAATGTTA
+CTTTTCTTACTATTAGCTAGGAAAGTTAAAGATGATAAGGAGTCAATACTATATTCCAGT
+GCTTCATTAATATGTGCACTAGGAATGATAATAAATCTTCTTTCATTTTCTTAAAAATAA
+GTATTGACACCTTTGTACTTTTGTATTATACTTAGTATATAACAAGTACAGGAGATGATT
+ACTATGAGTAAAGAAACAATTAGAAGACAATTTTCAAATGCAATTGAGATTATGGCAACA
+ACTAAAGAATGGTGGAACTTCCCTAAAAGTTTTGATACGAATAAAGAATTTAAAATTAAA
+ACTTTTAAAAATGATACACTTGTATTTGAAGTCAGAGAAGGCAGTAGAAATTTAGGAAGC
+TTTGTAGTTTTTACAAACATTGATTTTGATTATGATAAACTAGAAGGAACTTCAACACAA
+TATATGATTAATTACTTTGCTAAGAAATTAACTAAAGATATGTTTAACTATCATAAATTA
+CAATTATAGTAGGAGGTGGAAAGATGAGAGAAGAGTTAAAACCTTTTAATAGGAAACAAG
+TTAATGTTAAGGGTTACTTAGATGATGTTAAGTATTCAAAGCGTAGAAGACATAAAGGTA
+ATCAACATGGGTGTGTTAAAATCACAGTTACTGATGTAAAGATTAATGGTATACCTATTG
+ACCACGTTAACATTGAAGTTGGTATCTCTTTCTATGAAAAACTAAAGGAGCTTCAAGGAA
+AGAGAATTCAATTTGTAGGTACTGTTTATAAGTATGTTAAACATGCTAGGGGGCGCAAAG
+GTAGAATTAAAGGATTTTATAAAGAGGATTATAGCGTAACTTTAGATAAGAAGTTACAAA
+AGGAGGAAAAATAATGATTAAAAGAAGAAAACATTTAGACCACTCATTACAGCCTGAGAA
+AGGATGGAGAACAGTACCTTTTAATGGGTATTATGAAGCGCATCCTACGGGTTTAATTAG
+AAATAAAGTAACGAAAAAGTTAATTAAAGGTACACAGACAAGAAAGAACCATCCTAAGTG
+GACTGCTCATGAGATTGTATACCTAATTAACCCTAAGAAAACAAGTTATTCTAGGGGAGT
+AGTTATTGCACATACATTCCCTGAAATGATTAGTCAATCACGAGGAGACCTTAAGAACGG
+TCATGTGTGTTTTAAAGATGGTGACCGAAGTAATTGTCATGTAGACAATATGTTTATTGG
+TAAAGGTAATGTTAACAAAAATATCTATAAATTAAATGATTCTTATTTAACTAGAAAAGA
+TATTGAAGAGGATGTTAATAATTTAGTTAATGAAAGATTATTCTCTCAATTAGAATTATT
+GATTAAGAAAAATGAACCGGAAAGAATTACACCTAGTAATCACTTTATTAAAAGAGATAA
+TAATGTGTTCAGTATCACAGATTTATCTAAAAACTCACTAGTAGAGTTTGAGTTAGAAAT
+CAAGAATATTAAGTAAGGTGGTTATATAAATGAATGAGTGGTATGCTTTATGTTATTATA
+ACAAAATAGGTAAAAAGAAAATACCTAGACAAATTAAAGCTCACAGGGATGTATCTGTAT
+TAGAGGATTTAAAAGATAGATTAGAAGAACAAAATCCTAAAGAAGAATACAAGATTAAAA
+CAACAAAAGAATTTGATAAGGAAAGATAATTAATGTTAACACCTCAACAAAAGGATTCAT
+TAAAAGAGCAACAAAAAAAATTAAGTAAAAAGAAGAAATAAGTCTTGACAATTGAGTATA
+CATAAGTTATACTTAAGTTAACAAATAAAGAGGAGGTATGACCTATGTTATTCGTAATTT
+TTATATTGGCAGTACTGTTTGTACTTGGATTTATGAATGGATGGAACTCAGAAGACTAGA
+TAAGGAGTGGTTGTAATGAAGTTAGAAGATAAAGTGTTAGAGAGAATTGATTCTCTTGGA
+AATAAAGCAGGTAACTTAAGTAATCAAGTAATGGAGTCATTAGTAAAGTATCAAATTACG
+TACGGTATTATAGATATTGTTGTAAGTATTTTAGTTATTGCACTAACAATATTTTTAGGT
+AAGGTTTACCTTAAAGAATATAAGAAGGTTAAAATGGATTTAAAAGAAAGCTTATTGTAT
+GATGATTACGATGACTTAAGTGGTATCGGATGGTGTTACACAATTCTATTAATACTATTA
+ACGTTATTCTCTCTTTACGCAATAGTTGCAGGTATCCCAACTGATATTATGAGATTAATT
+AATCCGGAAGTTTATGCAGTAAAAGATTTAATTGAGCAAGTTAAAGGAGGAAATTAAAAT
+GAAACAAAGAGACTTTGAATTTGAAGAGGATTTTGTATTAACTTATGAGTGTGAGGATTG
+TAAGCATTTCGAAGACTGGGGTCATGATGAAGAGCCTGAAGAATGTAGTGAATGTGGAAG
+TAGTGATTTAATCTCAATAATACAAGTCATGAAGATACTGAGTGTGATATGTGTCGAGGG
+TATATTGATATGTGGCAAGATGGATATAGATATATGGGAGATAATAAAGAGTATATTGAA
+AAAGAGGAATCAGGTTTGATTTGTGAAGATTGTTATGAGAAATTAGATATTTAATAAGGA
+GGAAATTAATATGAATAAAGCAGTAGAACAAGCAAGTAATGCATTAGGTCAAGGATTTTC
+AGCTATGGTATGGCATCAAGTATTAGTAGGGTTAGGGTTTATTTTATTAGGATTGGTATT
+ATCTTTACTGGTTTGGGTATTAGTAAAAAAATTCCATGTACCTTTTAATCACCCGACAGC
+TTTTGTAGTGTACTCAATTATGTTAGTGAGTATTGTTGCTAGTTTTATTTGGGGCGGTTT
+ACATGTAATTAACCCTGAGTATTATGCTATTTTAGAACTTAAAGGTTTTATAAAGTAGGA
+GGAATTCTATGACTAAAGAAGAGTTAGAGCAAAAAGTAAAAGAACTTGAAGCAGAGAATA
+AAGAGCTTAAAAAACAAATAGAACGTTTTGAAGACGAAGGAGGAAAAACAAAAGATGAAC
+AGTAGAGAAAAGAAAATTTTAACACTAACAGTAAATAATTTTTTAATGTTAGCTTTAGAT
+ATTGTAGCACTTGTTAGGTACAAGAAAGGTAAAATTAAGCAAGAGAATTATAACACAGGT
+CAAATTTCAAGAACTATAGTTACAACAGCCAACTCATTAGGTATTCTTTACCTAGAAGAG
+CAAGAACGTAAAGAAAAAAAATCTGTTAAAATAGGTACTCTTGAAAGTGGTACTCTAAGA
+GGGTTTAAAAATAAATAAAAAAGTTTAAGAAACCTATTGACATTAGGTTTCTTTTATTAT
+ATACTAAGAGTATAAGAAATAAGGAGGTTAATTTATGAAGCATTTTATTTTAATTTTAGG
+AATTGTAATACTAGTTATTGCATTAGGTATTGTTTTACCGGCATGGATTTTACAGTTAGT
+ACTATCTGCATTCGGAGTTAAAGTAAGTATTTGGGTATGTATCGGAATATTTATTTTAAT
+CAGTGCAATAGGAAGTATGTTTAGCAGAAATTAAAGGAGGAACTATAAATGGCAAAATAT
+GAATCAAATATTAATGGAGAGAATTATATTGCAACACCGTCACAAGCTTTAAGAGAGGCA
+CTAGCAAAATTAATAACTGAAGAAAAGAGCTTTGCGGAGTACCAAACTAAAGGTGAGGAG
+CAGTATGAATCACAGTTACAACTAAGACACTTTGATACAATGATATCTCAGTATGAGGAA
+GCTATTAGAGTACTAGAAGATAAATATAGACCTCAGATTTTTATTCCGAAAGATAATAAG
+GAGGAAAATTAATTATGAAAGCAGAATCAATAGCAAGATTTTTTAATGACAAAGTACTAC
+AAATAGAGGGTTATAAAGTAAGATTCTTACAGGCTAGTTCATCGTATATTTTAGATATAG
+ATACTATAGATGAATCAGTATTGTTTTTAGAAGCTCAAGTATCTACACTTTCAGGTAAAC
+ATTTATTAGATACAGCTATTACAATTGAGAGACCTGAAACATTAAGTGCTAAAGAGCTAT
+ATACAGAAATTAGTAATAAACTACAAGCTATTGTAGGAGACCAAACTAAAACAACTATAG
+AACTATCAAGATATTTTAAGGAGGAAAAATAAGTGTCTAATAAAACCATTACAAATTATT
+TATTAAATTTAGAAGGAATAAAAGGAGAAACGTATAGTATTATTGCTCATATCAATAAAC
+AAACTGGTTGGGGTGATAAAGGGGATTATTTTGAAATAAGCATAAGTTATAAAGCTGATA
+AAGACCCTAGAACAACGAGATATATTACAACTGAAATTTTTGTTGATTATGGTAGTAATA
+ATCCAAAAGAAATTTTATTACAATTAAGAGATAAGATTTTTTCTATTGTAGAAGAACAGG
+TAGAGACTGACAATGATTTTATTGAATCTATTAAAGAAATTAATTCAACTAAAGAATTAG
+AAAAACTAAAGCCTTATATCAATAATGAATATTATTCAATGTTTAAATCTTCTATTGAAA
+AGGAAATACCTGTAGCTTTATCTTCTGAAGTACTCAATAGATGTACAGGTAAAACAAGCA
+CATTAGCTTATTTAGCACTAGAAAAGGATTTACCCTTAGTAGTATCAAATGAACCTATGA
+GAAAAATGCTTAAAAATAAATTCCCTCATCTTAGAGTAGCTTCTGCTTAAGATTATTCAA
+ATTATGATATTAAAGGTGAAATTGTTCTAATAGATGAAGTAGATATTGACCAGTTATATA
+GTGCTGATAAAGTATCTGTTGATGCACTTTTAGTGGGTATCATTAAAAATTAAATAAATT
+TATAAATACCTGTTGACAGCCTGTTGACAGCAGGTATTTTTTATAGTATACTTTAGATAT
+AAAGAAAAAGGAGGTAATATAATGATACCCGTAATAGTTATACTTATTGGACTCATATTA
+TTTTTATCTAGCGGTTATAAGTTGGTATTGGGTAAGTATTATGATGATGTAGATTTAAAA
+ATACTATTTACCATATTTGGTGTTGGGATTGCATTACTACTTGGAGGATTTATATTATAA
+AGCAGGAGCTATTTTATTTTAAGGAGAGGTAAATATGAATTATAGAGATTTTATTACAGA
+TTGTATTAGCGGTGGTTACAACGTACACATCAGTGTTACAGAAAAACGAGTACACATTAT
+TTCTGAGATGACATCAGCATCTTACCCTAAAAAGGAAATTAACTTAGATGAACTACAAGC
+TTATGTGTACTATATGAATAATTTTGGAAGTCAAATTACAACGGAGGGGTTATAAATGGA
+ATTGGTTATTAATATTGTAGCAGTATTGGTTGGTATGTATGCTATTTATTTCTATGTTAC
+AAAGTTTAGTACTGGCTTATCAGGTATTTTAATTGTTTTAGGGATGGCTATTGGTCTTTA
+CTTCTACTTAGACTATTTAAATGTCAGAGAAAATGTTATTCGATTAGTTTCAGTAATGTT
+CGGAGCTTTCTTATTTAGTATTGAAATGATTTATAATAAAATTATGTTCGAAATTAAAAA
+AAGCAATGTTCAGAAGACTGTTAGAGTGTATGATAAAGAGCAGTAATGATTTTACCATAA
+GAGTACCTAAATTACTTTAAGTGCTCTCTATGGTACCTTAAAGTAGCTTAGAATTGAAAT
+TAAGGAGATGAACAATTATGTATCCTGAAATAGATGTGGAAGAATTAGCGTATAAGCTAA
+AAAGTACAAGAGAGTATTTAGAGAGCATTACAACAAAAGAAGTAGAAATTTATGAAATCT
+ATCATCTTAAAACAGGTAAGTTAGTTTTTAAAGGTGAATACATTGAGGTAAAAGAATTAC
+TGAGGAAAATGTATAAAGAAAATTTAACACTTGTAGATGTAGATACAATGTTAAGCATTG
+GTAAAGGATTTATTGATGTAATTAAGAATATATCGGCAGAAAATGTATTCCAAATAACAT
+ATAAAAAGGAGCTATCAACAAAATGATTAAAATATTTTCAGAAGTAGATAAAGAATACAA
+ACCTATTATTACTGAAAAGTTTCCTAATGGTGAGATTAATTTTAAATATGATGATTTAAA
+GTATTTAGTAGAAGAGGACTTAAGATTTGATGTTTTCTTTAAATGGGAAAATGACGCAGA
+CTTAATGCATTTGTATATGTTTACTAAGTATTTAGAGCAACTAGGTATTAAAGATAAAGC
+TGAATTTTTAGAGATTGCATATCTACCTTATAGCAGAATGGATAGAGTAGAAGAAGGACA
+TAATAATATGTTCAGTCTTAAATACATTACAGAATTTATTAATAACCTTAATTATAAATC
+GGTATGGGTAGCAGAACCTCATAGCCCTGTAACAGAAGAATTACTTACTAATTCTTTTGC
+TATTGATGTTACACTTAAATTATTAAATCAGTATATTGAAATGTCCGAAGAGCCTGTAAC
+AATAGTACTACCTGATAAAGGGGCATACGATAGATATCTATTTGATGTAGAACGTATCTT
+AATGGAATCTAATATTGAATCATATTCAATTGTATATGGTGAGAAGAAACGAGATTTTGA
+AACAGGTAAGATTAAAGGTATTAAAATAATTAAAGATAAAAATACTTTATATGATAATTG
+TATTATACTAGATGACTTAACAAGTTACGGTGGGACATTTGTCGGTTGTAAAAAAGCCCT
+TGACAAACTTAAGGTAAGTAGTGTATCATTAATATTGACTCATGCAGAACGAGCTTTTGC
+AGAAGGAGCATTACTTAGCTCAGGATTTAAAGATATTATTGTAACAGACTCTATGTTCCC
+TAAAAATAATTGGGAAAAAGCTATTGCTAAACATAGAGCTAGAATCAACGGAACTGAATT
+ACAAATAAAAGATATCGAAAGATATTTATAAAAGGAGAAAAATAAATTATGCTAAATCCA
+ACTTTAATGTGTGACTTCTATAAACTAAGTCACAGAGAACAATACCCTGAAGGTACAGAA
+ATTGTATATAGTACACTAGTACCTAGAAGTAATAAATATTATGAACACAGTGATAATATT
+GTAGTATTTGGTATTCAATCACTTGTTAAAAAATATTTTATTGATATGTTTAATAAAGAG
+TTCTTTAACAGACCTAAAGAGGAAGTTATTAATGAATACAAACGTACAGTTAAATTTACA
+CTAGGACAAGAAAATCCTGATGCTAAACACTTAGAACAATTACATGACTTAGGTTATTTA
+CCTATTGATGTAAGAGCTTTAAAAGAAGGTACTGTTGTTCATCCTAACACACCTGTTATG
+ACAATTGAAAATACTCACTCAGATTTCTTTTGGTTAACTAATTACCTAGAAACTATTATT
+AGTACTCAAACATGGCAAGCAATGACTAGTGCTACACTAGCATATGATATGCGTAAAATG
+CTAGATAAATATGCAATGGAAACAGTAGGTAATATTGAAGCAGTAGATTTCCAGGGTCAT
+GACTTTAGTATGCGTGGTATGAGTTCTTTAGAAACAGCTCAATTAAGTTCAGCAGGTCAT
+GCAATTAGTTTTAAAGGTAGTGATACAGTACCTGTAGTGGATTTCTTAGAATCATATTAC
+AATGCAGACGTAGAGAAGGAAATGGTTGTTGCTTCTATCCCTGCTACTGAGCACTCAGTA
+ATGTGTGCAAATGGTAATTATGAAACCATGGATGAGTATGAAACATATAAACGTATGTTA
+ACAGAAATATATCCAACAGGCATTTTCTCTATTGTGTCTGATACTTGGGACTTTTGGGGT
+AATATGACTAAAACTTTACCTAGATTAAAGGATATTATTATGGAACGTAATGGTAAAGTA
+GTAATCAGACCTGATAGTGGAGACCCTGTTAAAATTATTTGCGGAGACCCTGATGCAGAC
+ACTGAATATGAACGTAAAGGTGCAGTAGAAGTGCTTTGGGATACATTTGGAGGTACTGAA
+ACTGAAAAAGGGTACAAAGTATTAGATGAACATGTAGGATTAATTTATGGAGACTCTATT
+AACTATGAACGTGCTCAACAAATTTGTGAAGGATTAAAAGAAAAAGGTTTTGCAAGTATT
+AATGTTGTATTAGGTGTAGGTAGTTTCTCTTACCAATTTAATACTCGTGATACCCACGGG
+TTTGCAATCAAAGCAACGTATGCTAAGATTAAAAATGAAGAAAAACTTATCTATAAAAAT
+CCTAAAACAGATAGTGGTAAACGTTCACATAAAGGTCGAGTAGCTGTATATAAAGACGGT
+TCATGGGAAGATAACTTAACCTTACATCAATGGCTAAACAAACAAAATGTTAATCAATTA
+GAAAGAGTATTTGAAGATGGTAAACTTTATAGAGACCAGTCGTTAAGTGAAATTAGAGAA
+ATAATTAAAAATAATTAATAAATATTTAAACTCCCTATTGACAAAGGGAGTTTTTTATTA
+TATAGTAGGGCTATAGTAAATAAAGGAGTGAAAGAAATGATTTATAAAATATCAAAACAT
+AATTACTATAGTAGATTTGAGCATTCCACTTATCCTCCTGATGAGGGGTTTGCGTATGTA
+GATTATGTAGATGTGATTCTTATTGGTGTAGATAATCCTAGGAAAAGAAAGATTATTACC
+TTAAAAGTAAATGAGTTCAACCCGGATGACTACAGAGTAGGTCATAAGTACAATATTATA
+AAAATACTATGGTTTGAAAAATGGGAATGGTTAAAGCCATAAGTAAAAGGAGAGAAATAA
+AATGATTATAGATAAATTAAATGGAGTTAAATTAGAAATAGGTGGGCATGTCGTATCATT
+TAGTGTAAGAAAGTTTAATACAATTAATGGTGAGAGACAATTAATAGACTACCATCATAT
+TAAAAGAAATAGACAACAGTACTTTAGAACTACTGAAGAATTTTATAATGAATATAAAGA
+AATTAAGCCTGACAAAAATGAAATAGATGAAATGTTTGAATCTCTAGGTTATGTAGATAC
+TGAGTTAGATGATGTAGTAAGAAACCAGGAAAAGGTTACTGAAATATTAGGAGTTAGTGA
+ACAATATTTAAATCAGTTATCTTATAAAGCTATAGAGGAGTATGTAGATAAAGTAGTTAC
+ACTTGAAATTAAAGAGTTGAAAGGAGAGAAATAGCATGAATAATAACTGGGAAAAAGAAG
+GAGTTAACTATTGGGAAAACGAAGACTGTCCTAGGGAATACTTAGAGAAAGCATTCATTG
+ACCTGGTAGAATATGTTGAAGGAGTTACAGTACCACCTAAAGATGTTAAGCAGTTAAGAG
+AAGATAAACTTAGAGAAGATATTGGGTTTTATGAGTACGTAGCTGATAAATAAATTAGTA
+TCTACCTATTGACTTAGGTAGGTATCTATTATATAATAGTATACAAGGAGATGAAAATAT
+GAAAAAGTTAATAGTATTACTTACAATTACTATTTCTCTATTACTAGGGGGTTGCTCTCC
+TGATAACCATGAAGGTAAAGTAGTAGGAGTAGGTGAATACAGAGAACCAACTACTTATAT
+AAAATCAGGTAGCGTTACTGTACCAGTCATTGGTGAAATGAAATACTATGTAGATTTAGA
+GACAGATAAAGGAGAAGACCGTGTATATCTTAATAAAGAGGTCTATCATAAGTTTGATAA
+AGGTGATGATTTCTCTAATGTAGGTGAGAAAGTGTATAAGAATGATGAATTAATATATAA
+AGGAGACTAACTATGTATTTAAATGATTATGTAGGTAAATTTATAAAGGAAGATAACTAT
+TATGGATATCAATCTACAGACTTAGTATCTAATTATGTTCAACGATTAACTCTAGGTAGG
+TACAAAACTAAGTTAAATGCTAATAAAATGAAATACGAAAGATTACCTAGTTCTTGGAAA
+ATAATTAAAGCCAAAGATTTGTTAAGAACAGATGATTATAGAGAAGGAGATATATTTGTA
+TCAGAAAGAATCTCCGTATTCGGTTTTAATGGTATTATTGTATATAACCATGATTTTAAC
+AATGTAACTGTTATTACTCAAAATAGAGATGGTAAAGCTACTAATCCTGTAGAGGAGCAT
+TTATATCCAAAGAAAGATATTGATTATATTATTAGACCTATCGAGAGGGACTACAGGGAA
+TACTTTAAAAAATCAGATTCAAAAGAAAAAGTTACTCTTTCGAAGCAAGAATATAAAAAA
+TTATTAGAGGCTTATAATAAAATGAAGGAAGTGTTTAAGTAATATGAATAGTACAAAATT
+AGTAGAGTACTTTACAAATAAACAAGGTAAATCTCTAATATTACCTGATGAAAATAAAGT
+TGAGTTATATAGAGTTGATGTAACACCTTATACTATGAGACTTAATTTCACTTACAATAC
+AGAAGTTGTAGCTATAGATATTGATAAGTTACACTCAGATTCTATAGAAATGCATATACC
+ACAAGGTCTTTATATAACAACTGTTGTTAAAATTACTAGTACGCAGAGTATTAGTTCAGT
+TCTTCATAAGGTATTAGAGGAATGGGTAAGACAAGTACAAAATGATGGTATATTCGGATT
+CGTATGGGAGTAATTATAATGATAAGTATAGAACATGATTATACAATAAGAACTGTAGAT
+AATAGAAAATATACTTATTATAGTAAATACGAATCACTAGTTACTTTGTATGAAAATATT
+ATGAGTAAAGATTGTATTGAAGTAACTAAATATGGGAAAGATAAAAAAGTTATTATTGAT
+ACTAGACATATTGTATCTATTGAACGATGGTAAATAATAAGGAGGAGTAAACTATTATGA
+TAAATGCAGGGCATGCTAAGTACCTATCAGAAATTTATGAAGATGATGTACATTATGAAA
+CTATAGATAGTATTGTAGAAGATATACTAGATAATATTAATGATGGTATTATTGAAGAAG
+CTATGAAAGGTAATACAAGTTATCAATATGTTCTTAGAGACTTAAGAGTAGATAATGAAG
+TAGAATATAGAGTTATAGAAGAACTTACTAACCAAGGATATAGTGTAAACCACATTAGTA
+ATGATATAGAGTACCCTTCTATATCTACAAATAATTTAGCAGGGTTAGATTACTTAAATA
+TTAAATGGTAAGGGAGGGAATTAATATGATAAATAAATATAAAAAGTTATGGGATGAAAT
+AACTCAACAAATTGTTAATGTAGAAATTATTAACTTTAAAAATGAAACAGTAACAATAGA
+ATCTACAGATGATTCAGGATTATCAGAGATAAGAGGTTTTGAAGAAGTAGAGTTTATAGA
+TTACTATGGATAAGATGTTTAAAGTATATAATTTATAAGGAGGAAACATATGGACTTGTT
+TGCAAAAATAATTATTATGTCTATAGGAGTTGTTCCCTTGTTAACTATTATTGTTGCACA
+GCTAATTACAGATTACCATGATAATCATTAAGTATTATAGTAATAGGAAGGACAATATTT
+AGAGTGAGAGTATGTTGACTAATGAGGAAGATATAGAATGAGAACCTAACCAAGTAAAAC
+TAAGTACCTTTGTTATGTACTACTATTACTACTACTACTATTACTACTACTATTACTACT
+ACTACTACTACTACTATTACTATTACTACTACTATTACTACTACTAAGTACCTTTGTTAT
+GTACTACTATTACTA
+

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/ConvMga_In.out	Mon Jun 05 02:40:41 2023 +0000
@@ -0,0 +1,211 @@
+# 01
+# gc = 0.303936, rbs = 0.9375
+# self: b
+gene_1	28	243	+	0	11	6.36358	p	-	-	-
+gene_2	630	929	+	0	11	57.1705	p	615	620	12.2467
+gene_3	945	1130	+	0	11	26.4954	a	929	934	16.2941
+gene_4	1237	1527	+	0	11	63.5811	p	1224	1229	14.3502
+gene_5	1527	1814	+	0	11	33.8744	p	1513	1518	13.2667
+gene_6	1814	2107	+	0	11	52.2562	p	1800	1805	15.8863
+gene_7	2111	2368	+	0	11	50.8798	p	2096	2101	15.9853
+gene_8	2446	2685	+	0	11	36.2735	s	2430	2435	10.7912
+gene_9	2696	3043	+	0	11	69.4745	s	2684	2689	15.7116
+gene_10	3252	3590	-	0	11	61.7674	p	3601	3606	0.728011
+gene_11	3901	4209	+	0	11	34.7395	s	3888	3893	-0.104741
+gene_12	4415	4702	+	0	11	46.3413	p	4399	4404	-0.522925
+gene_13	4752	4943	+	0	11	25.5946	p	4737	4742	-0.222928
+gene_14	5260	5748	-	0	11	60.0468	p	5758	5763	15.7116
+gene_15	5916	6074	+	0	11	7.34623	p	5899	5904	0.766797
+gene_16	6144	6275	+	0	11	10.8152	p	6128	6133	0.728011
+gene_17	6443	6766	+	0	11	47.907	p	6427	6432	0.728011
+gene_18	6866	7102	+	0	11	28.7246	p	6850	6855	0.728011
+gene_19	7182	7652	+	0	11	100.397	s	7166	7171	0.728011
+gene_20	7892	8071	+	0	11	32.3826	s	7876	7881	0.728011
+gene_21	8405	8641	-	0	11	56.3171	p	8652	8657	15.4219
+gene_22	8643	9128	-	0	11	103.956	s	9136	9141	18.4273
+gene_23	9141	9548	-	0	11	80.6226	p	9556	9561	18.4273
+gene_24	9548	9979	-	0	11	93.5448	s	9991	9996	15.3253
+gene_25	9982	10173	-	0	11	27.542	p	10181	10186	18.4273
+gene_26	10170	10655	-	0	11	49.9923	p	10662	10667	15.7116
+gene_27	10648	11079	-	0	11	79.9932	s	11087	11092	14.3502
+gene_28	11093	11635	-	0	11	66.0846	p	11642	11647	-2.78976
+gene_29	11647	12135	-	0	11	89.8718	s	12143	12148	14.3502
+gene_30	12148	12546	-	0	11	63.7164	p	12554	12559	12.7215
+gene_31	12543	13250	-	0	11	111.002	s	13258	13263	18.4273
+gene_32	13350	13901	-	0	11	111.317	p	13911	13916	13.3656
+gene_33	13920	14237	-	0	11	51.6242	s	14247	14252	15.9853
+gene_34	15223	15771	-	0	11	87.2276	s	15778	15783	4.63439
+gene_35	15775	15993	-	0	11	50.2172	s	16005	16010	10.6116
+gene_36	15994	16188	-	0	11	44.105	p	16195	16200	10.2405
+gene_37	16178	16915	-	0	11	127.839	s	16924	16929	17.0766
+gene_38	17094	17333	-	0	11	36.3308	p	17342	17347	0.377039
+gene_39	17335	17724	-	0	11	89.7706	s	17735	17740	15.4219
+gene_40	17823	17996	-	0	11	37.5907	p	18007	18012	16.2941
+gene_41	18037	18519	-	0	11	94.8623	p	18527	18532	18.4273
+gene_42	18569	19111	-	0	11	133.042	s	19122	19127	15.4219
+gene_43	19111	19644	-	0	11	109.849	s	19656	19661	14.3502
+gene_44	19647	19811	-	0	11	24.1269	p	19823	19828	14.3502
+gene_45	19814	20089	-	0	11	57.1618	s	20099	20104	10.2405
+gene_46	20089	20934	-	0	11	133.788	s	20942	20947	18.4273
+gene_47	20946	22064	-	0	11	225.008	s	22075	22080	15.4219
+gene_48	22218	22544	-	0	11	45.7619	p	22554	22559	10.2749
+gene_49	22537	22953	-	0	11	93.1622	b	22961	22966	18.4273
+gene_50	23087	23389	-	0	11	82.8253	s	23400	23405	15.4219
+gene_51	23389	23577	-	0	11	45.7175	p	23586	23591	0.377039
+gene_52	23621	23782	-	0	11	42.3377	p	23790	23795	18.4273
+gene_53	23782	25830	-	0	11	332.763	s	25840	25845	15.9853
+gene_54	25908	26171	-	0	11	63.8	p	26179	26184	18.4273
+gene_55	26188	26361	-	0	11	26.0644	p	26372	26377	7.89094
+gene_56	26368	26946	-	0	11	40.4747	b	26953	26958	-3.90026
+gene_57	26939	27565	-	0	11	150.252	s	27575	27580	15.9853
+gene_58	27558	28454	-	0	11	177.87	s	28462	28467	18.4273
+gene_59	28454	28678	-	0	11	27.7492	b	28687	28692	17.0766
+gene_60	28747	29487	-	0	11	105.788	s	29501	29506	-0.296479
+gene_61	29539	30153	-	0	11	137.064	s	30162	30167	15.8863
+gene_62	30169	30678	-	0	11	30.7749	p	-	-	-
+gene_63	30584	30775	-	0	11	31.0006	p	30786	30791	10.5884
+gene_64	30798	31439	-	0	11	115.669	b	31446	31451	10.0059
+gene_65	31429	31659	-	0	11	42.8517	s	31668	31673	13.2667
+gene_66	31662	31889	-	0	11	41.7783	p	31897	31902	18.4273
+gene_67	31999	32691	-	0	11	173.713	s	32702	32707	15.4219
+gene_68	32878	33513	-	0	11	89.781	p	33521	33526	18.4273
+gene_69	33580	34371	-	0	11	170.68	s	34379	34384	14.3502
+gene_70	34371	34679	-	0	11	51.9248	s	34686	34691	15.7116
+gene_71	34792	35421	-	0	11	105.582	s	-	-	-
+gene_72	35692	36192	-	0	11	87.4568	p	36201	36206	15.8863
+gene_73	36352	37155	-	0	11	180.291	s	37166	37171	16.2941
+gene_74	37155	37658	-	0	11	120.398	s	37670	37675	0.766797
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+gene_76	39475	39693	-	0	11	19.2957	p	39705	39710	0.252532
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+gene_78	40393	40725	-	0	11	45.2422	p	40735	40740	1.60266
+gene_79	40738	41064	-	0	11	44.717	s	41073	41078	17.0766
+gene_80	41504	41890	+	0	11	54.798	p	41489	41494	15.7116
+gene_81	41868	42146	+	0	11	31.4125	p	41854	41859	0.377039
+gene_82	42143	42553	+	0	11	63.4739	s	42129	42134	-4.20792
+gene_83	42568	44385	+	0	11	267.769	s	42552	42557	15.4219
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+gene_85	45177	45359	+	0	11	8.64918	b	-	-	-
+gene_86	45356	45835	+	0	11	86.8015	s	45338	45343	-0.222928
+gene_87	45928	47064	+	0	11	237.132	s	-	-	-
+gene_88	47141	47491	+	0	11	24.3307	b	47127	47132	4.66801
+gene_89	47500	47880	+	0	11	51.6497	p	-	-	-
+gene_90	47884	49575	+	0	11	322.611	s	47868	47873	2.18516
+gene_91	49769	50542	+	0	11	136.385	s	49752	49757	9.61955
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+gene_93	51633	53024	+	0	11	260.067	s	51615	51620	0.224606
+gene_94	53116	53412	+	0	11	58.0332	p	53099	53104	-0.100765
+gene_95	53425	54333	+	0	11	166.265	s	-	-	-
+gene_96	54347	55225	+	0	11	153.155	s	54333	54338	17.0766
+gene_97	55225	55845	+	0	11	85.9216	s	55207	55212	7.45431
+gene_98	55864	56700	+	0	11	128.127	p	55847	55852	15.3253
+gene_99	56702	56917	+	0	11	32.8668	p	56685	56690	0.252532
+gene_100	56944	58707	+	0	11	371.297	s	56930	56935	15.8863
+gene_101	58780	59208	+	0	11	92.8219	s	58763	58768	10.6116
+gene_102	59305	59445	+	0	11	32.5647	p	59290	59295	11.7794
+gene_103	59488	59946	+	0	11	75.0219	s	59474	59479	15.8863
+gene_104	59959	60153	+	0	11	22.9882	b	59946	59951	18.4273
+gene_105	60235	60546	+	0	11	71.2705	p	60219	60224	15.4219
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+gene_107	61180	61716	+	0	11	115.973	s	61169	61174	-1.99814
+gene_108	61772	65827	+	0	11	826.496	s	61757	61762	-1.78512
+gene_109	65906	68332	+	0	11	453.386	s	65889	65894	0.252532
+gene_110	68346	69233	+	0	11	165.92	s	68333	68338	18.4273
+gene_111	69233	71779	+	0	11	408.734	s	69217	69222	7.89094
+gene_112	71886	72677	+	0	11	163.614	s	71872	71877	15.8863
+gene_113	72677	73201	+	0	11	81.3156	s	72659	72664	7.21968
+gene_114	73201	73905	+	0	11	134.145	s	73185	73190	16.2941
+gene_115	73920	74966	+	0	11	178.025	s	73906	73911	0.524595
+gene_116	74987	78046	+	0	11	423.282	p	74968	74973	-0.413303
+gene_117	78157	78678	+	0	11	94.1588	s	78140	78145	0.766797
+gene_118	78699	82157	+	0	11	656.481	s	78683	78688	10.9115
+gene_119	82206	82364	+	0	11	51.3518	p	82192	82197	15.8863
+gene_120	82365	84287	+	0	11	281.644	s	82351	82356	13.2667
+gene_121	84310	84684	+	0	11	73.3716	s	84292	84297	5.988
+gene_122	84691	86067	+	0	11	208.241	s	84676	84681	1.80552
+gene_123	86159	87907	+	0	11	299.414	s	86147	86152	12.8833
+gene_124	87919	89532	+	0	11	202.695	s	87906	87911	18.4273
+gene_125	89525	90967	+	0	11	231.181	s	89510	89515	7.30844
+gene_126	91046	92083	+	0	11	197.587	s	91031	91036	15.9853
+gene_127	92083	92460	+	0	11	73.581	s	92070	92075	18.4273
+gene_128	92460	94379	+	0	11	329.683	s	92447	92452	4.52114
+gene_129	94379	94975	+	0	11	105.94	s	94366	94371	12.7215
+gene_130	94990	96057	+	0	11	132.769	s	94975	94980	-0.317592
+gene_131	96124	96462	+	0	11	103.603	s	96108	96113	15.4219
+gene_132	96462	96914	+	0	11	129.077	s	96446	96451	15.4219
+gene_133	96901	97509	+	0	11	65.5563	s	-	-	-
+gene_134	97526	97918	+	0	11	52.9605	p	97507	97512	-1.14915
+gene_135	97933	100047	+	0	11	332.096	s	97917	97922	0.728011
+gene_136	100061	101110	+	0	11	171.601	s	100047	100052	0.524595
+gene_137	101128	101457	+	0	11	75.7703	s	101112	101117	15.4219
+gene_138	101441	101761	+	0	11	62.9299	s	101424	101429	0.252532
+gene_139	101968	102564	+	0	11	83.1325	s	101952	101957	-3.11073
+gene_140	102574	102879	+	0	11	51.932	s	-	-	-
+gene_141	102955	103827	+	0	11	166.609	s	102940	102945	15.9853
+gene_142	104020	104505	+	0	11	46.0088	p	104007	104012	4.31827
+gene_143	104641	105984	+	0	11	223.678	s	-	-	-
+gene_144	106252	106959	+	0	11	99.5882	s	106240	106245	12.8833
+gene_145	107193	108053	+	0	11	158.859	s	-	-	-
+gene_146	108122	108364	+	0	11	51.6683	s	108109	108114	18.4273
+gene_147	108381	108863	+	0	11	94.3678	s	108366	108371	15.7116
+gene_148	108950	110221	+	0	11	253.303	s	108933	108938	14.3502
+gene_149	110281	111537	+	0	11	279.46	s	110268	110273	18.4273
+gene_150	111541	111894	+	0	11	55.5227	s	111522	111527	-0.222928
+gene_151	111881	112543	+	0	11	128.504	s	111866	111871	10.2087
+gene_152	112671	113303	+	0	11	151.415	s	112658	112663	-0.104741
+gene_153	113326	113838	+	0	11	93.6518	s	113312	113317	-0.54918
+gene_154	113853	114080	+	0	11	70.6974	s	113837	113842	16.2941
+gene_155	114176	114436	+	0	11	54.9897	s	114162	114167	17.0766
+gene_156	114440	115195	+	0	11	98.9334	s	-	-	-
+gene_157	115188	116438	+	0	11	235.397	s	115174	115179	0.524595
+gene_158	116452	116820	+	0	11	31.9307	s	116436	116441	-0.198208
+gene_159	116807	117118	+	0	11	65.8932	p	116795	116800	15.7116
+gene_160	117182	117718	+	0	11	84.4833	s	117166	117171	2.18516
+gene_161	117711	118478	+	0	11	94.9641	p	117696	117701	15.9853
+gene_162	118456	118902	+	0	11	50.1785	s	-	-	-
+gene_163	118902	119765	+	0	11	127.299	p	118885	118890	0.766797
+gene_164	120137	120868	+	0	11	162.867	s	120122	120127	15.9853
+gene_165	120886	121344	+	0	11	84.6329	p	120872	120877	-0.830994
+gene_166	121409	121852	+	0	11	86.4653	p	121394	121399	15.9853
+gene_167	121869	122573	+	0	11	128.068	s	121856	121861	10.0241
+gene_168	122635	123033	+	0	11	38.5561	p	122621	122626	2.96764
+gene_169	123180	123422	+	0	11	53.8202	s	123165	123170	15.9853
+gene_170	123427	123591	+	0	11	38.5845	p	123413	123418	15.8863
+gene_171	123578	123757	+	0	11	19.8686	p	-	-	-
+gene_172	123793	123969	+	0	11	46.266	p	123778	123783	15.7116
+gene_173	123962	124126	+	0	11	16.4271	b	123949	123954	11.7305
+gene_174	124375	124494	+	0	11	12.445	p	-	-	-
+gene_175	124509	124628	+	0	11	13.2651	b	124497	124502	8.77418
+gene_176	124640	124816	+	0	11	33.7203	p	124627	124632	14.3502
+gene_177	124809	125105	+	0	11	73.7223	p	124795	124800	15.8863
+gene_178	125153	125335	+	0	11	21.0171	s	125137	125142	7.89094
+gene_179	125348	125716	+	0	11	75.8528	b	125334	125339	17.0766
+gene_180	125729	126076	+	0	11	89.2576	s	125716	125721	18.4273
+gene_181	126076	126354	+	0	11	16.0608	b	-	-	-
+gene_182	126424	126729	+	0	11	52.4215	s	126409	126414	11.7794
+gene_183	126744	127094	+	0	11	73.8799	p	126731	126736	18.4273
+gene_184	127094	127696	+	0	11	97.8033	p	127081	127086	18.4273
+gene_185	127710	127889	+	0	11	44.5511	p	127696	127701	10.1392
+gene_186	128116	128517	+	0	11	69.0757	p	128102	128107	15.8863
+gene_187	128519	128779	+	0	11	32.5682	s	128505	128510	17.0766
+gene_188	128831	129118	+	0	11	56.3442	s	128817	128822	17.0766
+gene_189	129235	129498	+	0	11	52.4949	p	129218	129223	15.3253
+gene_190	129575	129754	+	0	11	31.8781	p	129562	129567	18.4273
+gene_191	129769	130032	+	0	11	59.5097	s	129755	129760	17.0766
+gene_192	130035	130352	+	0	11	72.9264	p	130019	130024	16.2941
+gene_193	130353	130910	+	0	11	97.954	p	130339	130344	17.0766
+gene_194	131122	131280	+	0	11	31.9551	a	131109	131114	18.4273
+gene_195	131315	131515	+	0	11	39.2297	s	131301	131306	15.8863
+gene_196	131516	131806	+	0	11	41.8281	p	131502	131507	11.6055
+gene_197	131898	132206	+	0	11	64.8526	p	131882	131887	15.4219
+gene_198	132203	133111	+	0	11	160.639	s	132186	132191	14.3502
+gene_199	133129	134598	+	0	11	295.577	s	133112	133117	14.3502
+gene_200	134677	134922	+	0	11	42.7425	p	134663	134668	15.8863
+gene_201	134942	135334	+	0	11	88.8849	s	134927	134932	15.9853
+gene_202	135336	135533	+	0	11	55.0569	s	135321	135326	15.9853
+gene_203	135599	135910	+	0	11	70.4734	p	135585	135590	15.8863
+gene_204	135913	136422	+	0	11	81.4458	p	135900	135905	14.3502
+gene_205	136424	136753	+	0	11	44.945	p	136407	136412	-0.442378
+gene_206	136759	136953	+	0	11	31.0427	p	136745	136750	7.63734
+gene_207	136977	137291	+	0	11	79.026	s	136960	136965	15.3253
+gene_208	137306	137473	+	0	11	41.9391	p	137291	137296	11.4748

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/ConvMga_Out.gff3	Mon Jun 05 02:40:41 2023 +0000
@@ -0,0 +1,608 @@
+##gff-version 3
+01	MGA	gene	28	243	.	+	0	Source=MGA;ID=01.gene_1;
+01	MGA	CDS	28	243	.	+	0	Source=MGA;ID=01.cds_gene_1;Parent=01.gene_1;
+01	MGA	gene	616	929	.	+	0	Source=MGA;ID=01.gene_2;
+01	MGA	CDS	630	929	.	+	0	Source=MGA;ID=01.cds_gene_2;Parent=01.gene_2;
+01	MGA	Shine_Dalgarno_sequence	616	620	.	+	0	ID=01.rbs_gene_2;Source=MGA;Parent=01.gene_2;
+01	MGA	gene	930	1130	.	+	0	Source=MGA;ID=01.gene_3;
+01	MGA	CDS	945	1130	.	+	0	Source=MGA;ID=01.cds_gene_3;Parent=01.gene_3;
+01	MGA	Shine_Dalgarno_sequence	930	934	.	+	0	ID=01.rbs_gene_3;Source=MGA;Parent=01.gene_3;
+01	MGA	gene	1225	1527	.	+	0	Source=MGA;ID=01.gene_4;
+01	MGA	CDS	1237	1527	.	+	0	Source=MGA;ID=01.cds_gene_4;Parent=01.gene_4;
+01	MGA	Shine_Dalgarno_sequence	1225	1229	.	+	0	ID=01.rbs_gene_4;Source=MGA;Parent=01.gene_4;
+01	MGA	gene	1514	1814	.	+	0	Source=MGA;ID=01.gene_5;
+01	MGA	CDS	1527	1814	.	+	0	Source=MGA;ID=01.cds_gene_5;Parent=01.gene_5;
+01	MGA	Shine_Dalgarno_sequence	1514	1518	.	+	0	ID=01.rbs_gene_5;Source=MGA;Parent=01.gene_5;
+01	MGA	gene	1801	2107	.	+	0	Source=MGA;ID=01.gene_6;
+01	MGA	CDS	1814	2107	.	+	0	Source=MGA;ID=01.cds_gene_6;Parent=01.gene_6;
+01	MGA	Shine_Dalgarno_sequence	1801	1805	.	+	0	ID=01.rbs_gene_6;Source=MGA;Parent=01.gene_6;
+01	MGA	gene	2097	2368	.	+	0	Source=MGA;ID=01.gene_7;
+01	MGA	CDS	2111	2368	.	+	0	Source=MGA;ID=01.cds_gene_7;Parent=01.gene_7;
+01	MGA	Shine_Dalgarno_sequence	2097	2101	.	+	0	ID=01.rbs_gene_7;Source=MGA;Parent=01.gene_7;
+01	MGA	gene	2431	2685	.	+	0	Source=MGA;ID=01.gene_8;
+01	MGA	CDS	2446	2685	.	+	0	Source=MGA;ID=01.cds_gene_8;Parent=01.gene_8;
+01	MGA	Shine_Dalgarno_sequence	2431	2435	.	+	0	ID=01.rbs_gene_8;Source=MGA;Parent=01.gene_8;
+01	MGA	gene	2685	3043	.	+	0	Source=MGA;ID=01.gene_9;
+01	MGA	CDS	2696	3043	.	+	0	Source=MGA;ID=01.cds_gene_9;Parent=01.gene_9;
+01	MGA	Shine_Dalgarno_sequence	2685	2689	.	+	0	ID=01.rbs_gene_9;Source=MGA;Parent=01.gene_9;
+01	MGA	gene	3252	3606	.	-	0	Source=MGA;ID=01.gene_10;
+01	MGA	CDS	3252	3590	.	-	0	Source=MGA;ID=01.cds_gene_10;Parent=01.gene_10;
+01	MGA	Shine_Dalgarno_sequence	3602	3606	.	-	0	ID=01.rbs_gene_10;Source=MGA;Parent=01.gene_10;
+01	MGA	gene	3889	4209	.	+	0	Source=MGA;ID=01.gene_11;
+01	MGA	CDS	3901	4209	.	+	0	Source=MGA;ID=01.cds_gene_11;Parent=01.gene_11;
+01	MGA	Shine_Dalgarno_sequence	3889	3893	.	+	0	ID=01.rbs_gene_11;Source=MGA;Parent=01.gene_11;
+01	MGA	gene	4400	4702	.	+	0	Source=MGA;ID=01.gene_12;
+01	MGA	CDS	4415	4702	.	+	0	Source=MGA;ID=01.cds_gene_12;Parent=01.gene_12;
+01	MGA	Shine_Dalgarno_sequence	4400	4404	.	+	0	ID=01.rbs_gene_12;Source=MGA;Parent=01.gene_12;
+01	MGA	gene	4738	4943	.	+	0	Source=MGA;ID=01.gene_13;
+01	MGA	CDS	4752	4943	.	+	0	Source=MGA;ID=01.cds_gene_13;Parent=01.gene_13;
+01	MGA	Shine_Dalgarno_sequence	4738	4742	.	+	0	ID=01.rbs_gene_13;Source=MGA;Parent=01.gene_13;
+01	MGA	gene	5260	5763	.	-	0	Source=MGA;ID=01.gene_14;
+01	MGA	CDS	5260	5748	.	-	0	Source=MGA;ID=01.cds_gene_14;Parent=01.gene_14;
+01	MGA	Shine_Dalgarno_sequence	5759	5763	.	-	0	ID=01.rbs_gene_14;Source=MGA;Parent=01.gene_14;
+01	MGA	gene	5900	6074	.	+	0	Source=MGA;ID=01.gene_15;
+01	MGA	CDS	5916	6074	.	+	0	Source=MGA;ID=01.cds_gene_15;Parent=01.gene_15;
+01	MGA	Shine_Dalgarno_sequence	5900	5904	.	+	0	ID=01.rbs_gene_15;Source=MGA;Parent=01.gene_15;
+01	MGA	gene	6129	6275	.	+	0	Source=MGA;ID=01.gene_16;
+01	MGA	CDS	6144	6275	.	+	0	Source=MGA;ID=01.cds_gene_16;Parent=01.gene_16;
+01	MGA	Shine_Dalgarno_sequence	6129	6133	.	+	0	ID=01.rbs_gene_16;Source=MGA;Parent=01.gene_16;
+01	MGA	gene	6428	6766	.	+	0	Source=MGA;ID=01.gene_17;
+01	MGA	CDS	6443	6766	.	+	0	Source=MGA;ID=01.cds_gene_17;Parent=01.gene_17;
+01	MGA	Shine_Dalgarno_sequence	6428	6432	.	+	0	ID=01.rbs_gene_17;Source=MGA;Parent=01.gene_17;
+01	MGA	gene	6851	7102	.	+	0	Source=MGA;ID=01.gene_18;
+01	MGA	CDS	6866	7102	.	+	0	Source=MGA;ID=01.cds_gene_18;Parent=01.gene_18;
+01	MGA	Shine_Dalgarno_sequence	6851	6855	.	+	0	ID=01.rbs_gene_18;Source=MGA;Parent=01.gene_18;
+01	MGA	gene	7167	7652	.	+	0	Source=MGA;ID=01.gene_19;
+01	MGA	CDS	7182	7652	.	+	0	Source=MGA;ID=01.cds_gene_19;Parent=01.gene_19;
+01	MGA	Shine_Dalgarno_sequence	7167	7171	.	+	0	ID=01.rbs_gene_19;Source=MGA;Parent=01.gene_19;
+01	MGA	gene	7877	8071	.	+	0	Source=MGA;ID=01.gene_20;
+01	MGA	CDS	7892	8071	.	+	0	Source=MGA;ID=01.cds_gene_20;Parent=01.gene_20;
+01	MGA	Shine_Dalgarno_sequence	7877	7881	.	+	0	ID=01.rbs_gene_20;Source=MGA;Parent=01.gene_20;
+01	MGA	gene	8405	8657	.	-	0	Source=MGA;ID=01.gene_21;
+01	MGA	CDS	8405	8641	.	-	0	Source=MGA;ID=01.cds_gene_21;Parent=01.gene_21;
+01	MGA	Shine_Dalgarno_sequence	8653	8657	.	-	0	ID=01.rbs_gene_21;Source=MGA;Parent=01.gene_21;
+01	MGA	gene	8643	9141	.	-	0	Source=MGA;ID=01.gene_22;
+01	MGA	CDS	8643	9128	.	-	0	Source=MGA;ID=01.cds_gene_22;Parent=01.gene_22;
+01	MGA	Shine_Dalgarno_sequence	9137	9141	.	-	0	ID=01.rbs_gene_22;Source=MGA;Parent=01.gene_22;
+01	MGA	gene	9141	9561	.	-	0	Source=MGA;ID=01.gene_23;
+01	MGA	CDS	9141	9548	.	-	0	Source=MGA;ID=01.cds_gene_23;Parent=01.gene_23;
+01	MGA	Shine_Dalgarno_sequence	9557	9561	.	-	0	ID=01.rbs_gene_23;Source=MGA;Parent=01.gene_23;
+01	MGA	gene	9548	9996	.	-	0	Source=MGA;ID=01.gene_24;
+01	MGA	CDS	9548	9979	.	-	0	Source=MGA;ID=01.cds_gene_24;Parent=01.gene_24;
+01	MGA	Shine_Dalgarno_sequence	9992	9996	.	-	0	ID=01.rbs_gene_24;Source=MGA;Parent=01.gene_24;
+01	MGA	gene	9982	10186	.	-	0	Source=MGA;ID=01.gene_25;
+01	MGA	CDS	9982	10173	.	-	0	Source=MGA;ID=01.cds_gene_25;Parent=01.gene_25;
+01	MGA	Shine_Dalgarno_sequence	10182	10186	.	-	0	ID=01.rbs_gene_25;Source=MGA;Parent=01.gene_25;
+01	MGA	gene	10170	10667	.	-	0	Source=MGA;ID=01.gene_26;
+01	MGA	CDS	10170	10655	.	-	0	Source=MGA;ID=01.cds_gene_26;Parent=01.gene_26;
+01	MGA	Shine_Dalgarno_sequence	10663	10667	.	-	0	ID=01.rbs_gene_26;Source=MGA;Parent=01.gene_26;
+01	MGA	gene	10648	11092	.	-	0	Source=MGA;ID=01.gene_27;
+01	MGA	CDS	10648	11079	.	-	0	Source=MGA;ID=01.cds_gene_27;Parent=01.gene_27;
+01	MGA	Shine_Dalgarno_sequence	11088	11092	.	-	0	ID=01.rbs_gene_27;Source=MGA;Parent=01.gene_27;
+01	MGA	gene	11093	11647	.	-	0	Source=MGA;ID=01.gene_28;
+01	MGA	CDS	11093	11635	.	-	0	Source=MGA;ID=01.cds_gene_28;Parent=01.gene_28;
+01	MGA	Shine_Dalgarno_sequence	11643	11647	.	-	0	ID=01.rbs_gene_28;Source=MGA;Parent=01.gene_28;
+01	MGA	gene	11647	12148	.	-	0	Source=MGA;ID=01.gene_29;
+01	MGA	CDS	11647	12135	.	-	0	Source=MGA;ID=01.cds_gene_29;Parent=01.gene_29;
+01	MGA	Shine_Dalgarno_sequence	12144	12148	.	-	0	ID=01.rbs_gene_29;Source=MGA;Parent=01.gene_29;
+01	MGA	gene	12148	12559	.	-	0	Source=MGA;ID=01.gene_30;
+01	MGA	CDS	12148	12546	.	-	0	Source=MGA;ID=01.cds_gene_30;Parent=01.gene_30;
+01	MGA	Shine_Dalgarno_sequence	12555	12559	.	-	0	ID=01.rbs_gene_30;Source=MGA;Parent=01.gene_30;
+01	MGA	gene	12543	13263	.	-	0	Source=MGA;ID=01.gene_31;
+01	MGA	CDS	12543	13250	.	-	0	Source=MGA;ID=01.cds_gene_31;Parent=01.gene_31;
+01	MGA	Shine_Dalgarno_sequence	13259	13263	.	-	0	ID=01.rbs_gene_31;Source=MGA;Parent=01.gene_31;
+01	MGA	gene	13350	13916	.	-	0	Source=MGA;ID=01.gene_32;
+01	MGA	CDS	13350	13901	.	-	0	Source=MGA;ID=01.cds_gene_32;Parent=01.gene_32;
+01	MGA	Shine_Dalgarno_sequence	13912	13916	.	-	0	ID=01.rbs_gene_32;Source=MGA;Parent=01.gene_32;
+01	MGA	gene	13920	14252	.	-	0	Source=MGA;ID=01.gene_33;
+01	MGA	CDS	13920	14237	.	-	0	Source=MGA;ID=01.cds_gene_33;Parent=01.gene_33;
+01	MGA	Shine_Dalgarno_sequence	14248	14252	.	-	0	ID=01.rbs_gene_33;Source=MGA;Parent=01.gene_33;
+01	MGA	gene	15223	15783	.	-	0	Source=MGA;ID=01.gene_34;
+01	MGA	CDS	15223	15771	.	-	0	Source=MGA;ID=01.cds_gene_34;Parent=01.gene_34;
+01	MGA	Shine_Dalgarno_sequence	15779	15783	.	-	0	ID=01.rbs_gene_34;Source=MGA;Parent=01.gene_34;
+01	MGA	gene	15775	16010	.	-	0	Source=MGA;ID=01.gene_35;
+01	MGA	CDS	15775	15993	.	-	0	Source=MGA;ID=01.cds_gene_35;Parent=01.gene_35;
+01	MGA	Shine_Dalgarno_sequence	16006	16010	.	-	0	ID=01.rbs_gene_35;Source=MGA;Parent=01.gene_35;
+01	MGA	gene	15994	16200	.	-	0	Source=MGA;ID=01.gene_36;
+01	MGA	CDS	15994	16188	.	-	0	Source=MGA;ID=01.cds_gene_36;Parent=01.gene_36;
+01	MGA	Shine_Dalgarno_sequence	16196	16200	.	-	0	ID=01.rbs_gene_36;Source=MGA;Parent=01.gene_36;
+01	MGA	gene	16178	16929	.	-	0	Source=MGA;ID=01.gene_37;
+01	MGA	CDS	16178	16915	.	-	0	Source=MGA;ID=01.cds_gene_37;Parent=01.gene_37;
+01	MGA	Shine_Dalgarno_sequence	16925	16929	.	-	0	ID=01.rbs_gene_37;Source=MGA;Parent=01.gene_37;
+01	MGA	gene	17094	17347	.	-	0	Source=MGA;ID=01.gene_38;
+01	MGA	CDS	17094	17333	.	-	0	Source=MGA;ID=01.cds_gene_38;Parent=01.gene_38;
+01	MGA	Shine_Dalgarno_sequence	17343	17347	.	-	0	ID=01.rbs_gene_38;Source=MGA;Parent=01.gene_38;
+01	MGA	gene	17335	17740	.	-	0	Source=MGA;ID=01.gene_39;
+01	MGA	CDS	17335	17724	.	-	0	Source=MGA;ID=01.cds_gene_39;Parent=01.gene_39;
+01	MGA	Shine_Dalgarno_sequence	17736	17740	.	-	0	ID=01.rbs_gene_39;Source=MGA;Parent=01.gene_39;
+01	MGA	gene	17823	18012	.	-	0	Source=MGA;ID=01.gene_40;
+01	MGA	CDS	17823	17996	.	-	0	Source=MGA;ID=01.cds_gene_40;Parent=01.gene_40;
+01	MGA	Shine_Dalgarno_sequence	18008	18012	.	-	0	ID=01.rbs_gene_40;Source=MGA;Parent=01.gene_40;
+01	MGA	gene	18037	18532	.	-	0	Source=MGA;ID=01.gene_41;
+01	MGA	CDS	18037	18519	.	-	0	Source=MGA;ID=01.cds_gene_41;Parent=01.gene_41;
+01	MGA	Shine_Dalgarno_sequence	18528	18532	.	-	0	ID=01.rbs_gene_41;Source=MGA;Parent=01.gene_41;
+01	MGA	gene	18569	19127	.	-	0	Source=MGA;ID=01.gene_42;
+01	MGA	CDS	18569	19111	.	-	0	Source=MGA;ID=01.cds_gene_42;Parent=01.gene_42;
+01	MGA	Shine_Dalgarno_sequence	19123	19127	.	-	0	ID=01.rbs_gene_42;Source=MGA;Parent=01.gene_42;
+01	MGA	gene	19111	19661	.	-	0	Source=MGA;ID=01.gene_43;
+01	MGA	CDS	19111	19644	.	-	0	Source=MGA;ID=01.cds_gene_43;Parent=01.gene_43;
+01	MGA	Shine_Dalgarno_sequence	19657	19661	.	-	0	ID=01.rbs_gene_43;Source=MGA;Parent=01.gene_43;
+01	MGA	gene	19647	19828	.	-	0	Source=MGA;ID=01.gene_44;
+01	MGA	CDS	19647	19811	.	-	0	Source=MGA;ID=01.cds_gene_44;Parent=01.gene_44;
+01	MGA	Shine_Dalgarno_sequence	19824	19828	.	-	0	ID=01.rbs_gene_44;Source=MGA;Parent=01.gene_44;
+01	MGA	gene	19814	20104	.	-	0	Source=MGA;ID=01.gene_45;
+01	MGA	CDS	19814	20089	.	-	0	Source=MGA;ID=01.cds_gene_45;Parent=01.gene_45;
+01	MGA	Shine_Dalgarno_sequence	20100	20104	.	-	0	ID=01.rbs_gene_45;Source=MGA;Parent=01.gene_45;
+01	MGA	gene	20089	20947	.	-	0	Source=MGA;ID=01.gene_46;
+01	MGA	CDS	20089	20934	.	-	0	Source=MGA;ID=01.cds_gene_46;Parent=01.gene_46;
+01	MGA	Shine_Dalgarno_sequence	20943	20947	.	-	0	ID=01.rbs_gene_46;Source=MGA;Parent=01.gene_46;
+01	MGA	gene	20946	22080	.	-	0	Source=MGA;ID=01.gene_47;
+01	MGA	CDS	20946	22064	.	-	0	Source=MGA;ID=01.cds_gene_47;Parent=01.gene_47;
+01	MGA	Shine_Dalgarno_sequence	22076	22080	.	-	0	ID=01.rbs_gene_47;Source=MGA;Parent=01.gene_47;
+01	MGA	gene	22218	22559	.	-	0	Source=MGA;ID=01.gene_48;
+01	MGA	CDS	22218	22544	.	-	0	Source=MGA;ID=01.cds_gene_48;Parent=01.gene_48;
+01	MGA	Shine_Dalgarno_sequence	22555	22559	.	-	0	ID=01.rbs_gene_48;Source=MGA;Parent=01.gene_48;
+01	MGA	gene	22537	22966	.	-	0	Source=MGA;ID=01.gene_49;
+01	MGA	CDS	22537	22953	.	-	0	Source=MGA;ID=01.cds_gene_49;Parent=01.gene_49;
+01	MGA	Shine_Dalgarno_sequence	22962	22966	.	-	0	ID=01.rbs_gene_49;Source=MGA;Parent=01.gene_49;
+01	MGA	gene	23087	23405	.	-	0	Source=MGA;ID=01.gene_50;
+01	MGA	CDS	23087	23389	.	-	0	Source=MGA;ID=01.cds_gene_50;Parent=01.gene_50;
+01	MGA	Shine_Dalgarno_sequence	23401	23405	.	-	0	ID=01.rbs_gene_50;Source=MGA;Parent=01.gene_50;
+01	MGA	gene	23389	23591	.	-	0	Source=MGA;ID=01.gene_51;
+01	MGA	CDS	23389	23577	.	-	0	Source=MGA;ID=01.cds_gene_51;Parent=01.gene_51;
+01	MGA	Shine_Dalgarno_sequence	23587	23591	.	-	0	ID=01.rbs_gene_51;Source=MGA;Parent=01.gene_51;
+01	MGA	gene	23621	23795	.	-	0	Source=MGA;ID=01.gene_52;
+01	MGA	CDS	23621	23782	.	-	0	Source=MGA;ID=01.cds_gene_52;Parent=01.gene_52;
+01	MGA	Shine_Dalgarno_sequence	23791	23795	.	-	0	ID=01.rbs_gene_52;Source=MGA;Parent=01.gene_52;
+01	MGA	gene	23782	25845	.	-	0	Source=MGA;ID=01.gene_53;
+01	MGA	CDS	23782	25830	.	-	0	Source=MGA;ID=01.cds_gene_53;Parent=01.gene_53;
+01	MGA	Shine_Dalgarno_sequence	25841	25845	.	-	0	ID=01.rbs_gene_53;Source=MGA;Parent=01.gene_53;
+01	MGA	gene	25908	26184	.	-	0	Source=MGA;ID=01.gene_54;
+01	MGA	CDS	25908	26171	.	-	0	Source=MGA;ID=01.cds_gene_54;Parent=01.gene_54;
+01	MGA	Shine_Dalgarno_sequence	26180	26184	.	-	0	ID=01.rbs_gene_54;Source=MGA;Parent=01.gene_54;
+01	MGA	gene	26188	26377	.	-	0	Source=MGA;ID=01.gene_55;
+01	MGA	CDS	26188	26361	.	-	0	Source=MGA;ID=01.cds_gene_55;Parent=01.gene_55;
+01	MGA	Shine_Dalgarno_sequence	26373	26377	.	-	0	ID=01.rbs_gene_55;Source=MGA;Parent=01.gene_55;
+01	MGA	gene	26368	26958	.	-	0	Source=MGA;ID=01.gene_56;
+01	MGA	CDS	26368	26946	.	-	0	Source=MGA;ID=01.cds_gene_56;Parent=01.gene_56;
+01	MGA	Shine_Dalgarno_sequence	26954	26958	.	-	0	ID=01.rbs_gene_56;Source=MGA;Parent=01.gene_56;
+01	MGA	gene	26939	27580	.	-	0	Source=MGA;ID=01.gene_57;
+01	MGA	CDS	26939	27565	.	-	0	Source=MGA;ID=01.cds_gene_57;Parent=01.gene_57;
+01	MGA	Shine_Dalgarno_sequence	27576	27580	.	-	0	ID=01.rbs_gene_57;Source=MGA;Parent=01.gene_57;
+01	MGA	gene	27558	28467	.	-	0	Source=MGA;ID=01.gene_58;
+01	MGA	CDS	27558	28454	.	-	0	Source=MGA;ID=01.cds_gene_58;Parent=01.gene_58;
+01	MGA	Shine_Dalgarno_sequence	28463	28467	.	-	0	ID=01.rbs_gene_58;Source=MGA;Parent=01.gene_58;
+01	MGA	gene	28454	28692	.	-	0	Source=MGA;ID=01.gene_59;
+01	MGA	CDS	28454	28678	.	-	0	Source=MGA;ID=01.cds_gene_59;Parent=01.gene_59;
+01	MGA	Shine_Dalgarno_sequence	28688	28692	.	-	0	ID=01.rbs_gene_59;Source=MGA;Parent=01.gene_59;
+01	MGA	gene	28747	29506	.	-	0	Source=MGA;ID=01.gene_60;
+01	MGA	CDS	28747	29487	.	-	0	Source=MGA;ID=01.cds_gene_60;Parent=01.gene_60;
+01	MGA	Shine_Dalgarno_sequence	29502	29506	.	-	0	ID=01.rbs_gene_60;Source=MGA;Parent=01.gene_60;
+01	MGA	gene	29539	30167	.	-	0	Source=MGA;ID=01.gene_61;
+01	MGA	CDS	29539	30153	.	-	0	Source=MGA;ID=01.cds_gene_61;Parent=01.gene_61;
+01	MGA	Shine_Dalgarno_sequence	30163	30167	.	-	0	ID=01.rbs_gene_61;Source=MGA;Parent=01.gene_61;
+01	MGA	gene	30169	30678	.	-	0	Source=MGA;ID=01.gene_62;
+01	MGA	CDS	30169	30678	.	-	0	Source=MGA;ID=01.cds_gene_62;Parent=01.gene_62;
+01	MGA	gene	30584	30791	.	-	0	Source=MGA;ID=01.gene_63;
+01	MGA	CDS	30584	30775	.	-	0	Source=MGA;ID=01.cds_gene_63;Parent=01.gene_63;
+01	MGA	Shine_Dalgarno_sequence	30787	30791	.	-	0	ID=01.rbs_gene_63;Source=MGA;Parent=01.gene_63;
+01	MGA	gene	30798	31451	.	-	0	Source=MGA;ID=01.gene_64;
+01	MGA	CDS	30798	31439	.	-	0	Source=MGA;ID=01.cds_gene_64;Parent=01.gene_64;
+01	MGA	Shine_Dalgarno_sequence	31447	31451	.	-	0	ID=01.rbs_gene_64;Source=MGA;Parent=01.gene_64;
+01	MGA	gene	31429	31673	.	-	0	Source=MGA;ID=01.gene_65;
+01	MGA	CDS	31429	31659	.	-	0	Source=MGA;ID=01.cds_gene_65;Parent=01.gene_65;
+01	MGA	Shine_Dalgarno_sequence	31669	31673	.	-	0	ID=01.rbs_gene_65;Source=MGA;Parent=01.gene_65;
+01	MGA	gene	31662	31902	.	-	0	Source=MGA;ID=01.gene_66;
+01	MGA	CDS	31662	31889	.	-	0	Source=MGA;ID=01.cds_gene_66;Parent=01.gene_66;
+01	MGA	Shine_Dalgarno_sequence	31898	31902	.	-	0	ID=01.rbs_gene_66;Source=MGA;Parent=01.gene_66;
+01	MGA	gene	31999	32707	.	-	0	Source=MGA;ID=01.gene_67;
+01	MGA	CDS	31999	32691	.	-	0	Source=MGA;ID=01.cds_gene_67;Parent=01.gene_67;
+01	MGA	Shine_Dalgarno_sequence	32703	32707	.	-	0	ID=01.rbs_gene_67;Source=MGA;Parent=01.gene_67;
+01	MGA	gene	32878	33526	.	-	0	Source=MGA;ID=01.gene_68;
+01	MGA	CDS	32878	33513	.	-	0	Source=MGA;ID=01.cds_gene_68;Parent=01.gene_68;
+01	MGA	Shine_Dalgarno_sequence	33522	33526	.	-	0	ID=01.rbs_gene_68;Source=MGA;Parent=01.gene_68;
+01	MGA	gene	33580	34384	.	-	0	Source=MGA;ID=01.gene_69;
+01	MGA	CDS	33580	34371	.	-	0	Source=MGA;ID=01.cds_gene_69;Parent=01.gene_69;
+01	MGA	Shine_Dalgarno_sequence	34380	34384	.	-	0	ID=01.rbs_gene_69;Source=MGA;Parent=01.gene_69;
+01	MGA	gene	34371	34691	.	-	0	Source=MGA;ID=01.gene_70;
+01	MGA	CDS	34371	34679	.	-	0	Source=MGA;ID=01.cds_gene_70;Parent=01.gene_70;
+01	MGA	Shine_Dalgarno_sequence	34687	34691	.	-	0	ID=01.rbs_gene_70;Source=MGA;Parent=01.gene_70;
+01	MGA	gene	34792	35421	.	-	0	Source=MGA;ID=01.gene_71;
+01	MGA	CDS	34792	35421	.	-	0	Source=MGA;ID=01.cds_gene_71;Parent=01.gene_71;
+01	MGA	gene	35692	36206	.	-	0	Source=MGA;ID=01.gene_72;
+01	MGA	CDS	35692	36192	.	-	0	Source=MGA;ID=01.cds_gene_72;Parent=01.gene_72;
+01	MGA	Shine_Dalgarno_sequence	36202	36206	.	-	0	ID=01.rbs_gene_72;Source=MGA;Parent=01.gene_72;
+01	MGA	gene	36352	37171	.	-	0	Source=MGA;ID=01.gene_73;
+01	MGA	CDS	36352	37155	.	-	0	Source=MGA;ID=01.cds_gene_73;Parent=01.gene_73;
+01	MGA	Shine_Dalgarno_sequence	37167	37171	.	-	0	ID=01.rbs_gene_73;Source=MGA;Parent=01.gene_73;
+01	MGA	gene	37155	37675	.	-	0	Source=MGA;ID=01.gene_74;
+01	MGA	CDS	37155	37658	.	-	0	Source=MGA;ID=01.cds_gene_74;Parent=01.gene_74;
+01	MGA	Shine_Dalgarno_sequence	37671	37675	.	-	0	ID=01.rbs_gene_74;Source=MGA;Parent=01.gene_74;
+01	MGA	gene	37743	37942	.	-	0	Source=MGA;ID=01.gene_75;
+01	MGA	CDS	37743	37928	.	-	0	Source=MGA;ID=01.cds_gene_75;Parent=01.gene_75;
+01	MGA	Shine_Dalgarno_sequence	37938	37942	.	-	0	ID=01.rbs_gene_75;Source=MGA;Parent=01.gene_75;
+01	MGA	gene	39475	39710	.	-	0	Source=MGA;ID=01.gene_76;
+01	MGA	CDS	39475	39693	.	-	0	Source=MGA;ID=01.cds_gene_76;Parent=01.gene_76;
+01	MGA	Shine_Dalgarno_sequence	39706	39710	.	-	0	ID=01.rbs_gene_76;Source=MGA;Parent=01.gene_76;
+01	MGA	gene	40171	40395	.	-	0	Source=MGA;ID=01.gene_77;
+01	MGA	CDS	40171	40380	.	-	0	Source=MGA;ID=01.cds_gene_77;Parent=01.gene_77;
+01	MGA	Shine_Dalgarno_sequence	40391	40395	.	-	0	ID=01.rbs_gene_77;Source=MGA;Parent=01.gene_77;
+01	MGA	gene	40393	40740	.	-	0	Source=MGA;ID=01.gene_78;
+01	MGA	CDS	40393	40725	.	-	0	Source=MGA;ID=01.cds_gene_78;Parent=01.gene_78;
+01	MGA	Shine_Dalgarno_sequence	40736	40740	.	-	0	ID=01.rbs_gene_78;Source=MGA;Parent=01.gene_78;
+01	MGA	gene	40738	41078	.	-	0	Source=MGA;ID=01.gene_79;
+01	MGA	CDS	40738	41064	.	-	0	Source=MGA;ID=01.cds_gene_79;Parent=01.gene_79;
+01	MGA	Shine_Dalgarno_sequence	41074	41078	.	-	0	ID=01.rbs_gene_79;Source=MGA;Parent=01.gene_79;
+01	MGA	gene	41490	41890	.	+	0	Source=MGA;ID=01.gene_80;
+01	MGA	CDS	41504	41890	.	+	0	Source=MGA;ID=01.cds_gene_80;Parent=01.gene_80;
+01	MGA	Shine_Dalgarno_sequence	41490	41494	.	+	0	ID=01.rbs_gene_80;Source=MGA;Parent=01.gene_80;
+01	MGA	gene	41855	42146	.	+	0	Source=MGA;ID=01.gene_81;
+01	MGA	CDS	41868	42146	.	+	0	Source=MGA;ID=01.cds_gene_81;Parent=01.gene_81;
+01	MGA	Shine_Dalgarno_sequence	41855	41859	.	+	0	ID=01.rbs_gene_81;Source=MGA;Parent=01.gene_81;
+01	MGA	gene	42130	42553	.	+	0	Source=MGA;ID=01.gene_82;
+01	MGA	CDS	42143	42553	.	+	0	Source=MGA;ID=01.cds_gene_82;Parent=01.gene_82;
+01	MGA	Shine_Dalgarno_sequence	42130	42134	.	+	0	ID=01.rbs_gene_82;Source=MGA;Parent=01.gene_82;
+01	MGA	gene	42553	44385	.	+	0	Source=MGA;ID=01.gene_83;
+01	MGA	CDS	42568	44385	.	+	0	Source=MGA;ID=01.cds_gene_83;Parent=01.gene_83;
+01	MGA	Shine_Dalgarno_sequence	42553	42557	.	+	0	ID=01.rbs_gene_83;Source=MGA;Parent=01.gene_83;
+01	MGA	gene	44378	45199	.	+	0	Source=MGA;ID=01.gene_84;
+01	MGA	CDS	44378	45199	.	+	0	Source=MGA;ID=01.cds_gene_84;Parent=01.gene_84;
+01	MGA	gene	45177	45359	.	+	0	Source=MGA;ID=01.gene_85;
+01	MGA	CDS	45177	45359	.	+	0	Source=MGA;ID=01.cds_gene_85;Parent=01.gene_85;
+01	MGA	gene	45339	45835	.	+	0	Source=MGA;ID=01.gene_86;
+01	MGA	CDS	45356	45835	.	+	0	Source=MGA;ID=01.cds_gene_86;Parent=01.gene_86;
+01	MGA	Shine_Dalgarno_sequence	45339	45343	.	+	0	ID=01.rbs_gene_86;Source=MGA;Parent=01.gene_86;
+01	MGA	gene	45928	47064	.	+	0	Source=MGA;ID=01.gene_87;
+01	MGA	CDS	45928	47064	.	+	0	Source=MGA;ID=01.cds_gene_87;Parent=01.gene_87;
+01	MGA	gene	47128	47491	.	+	0	Source=MGA;ID=01.gene_88;
+01	MGA	CDS	47141	47491	.	+	0	Source=MGA;ID=01.cds_gene_88;Parent=01.gene_88;
+01	MGA	Shine_Dalgarno_sequence	47128	47132	.	+	0	ID=01.rbs_gene_88;Source=MGA;Parent=01.gene_88;
+01	MGA	gene	47500	47880	.	+	0	Source=MGA;ID=01.gene_89;
+01	MGA	CDS	47500	47880	.	+	0	Source=MGA;ID=01.cds_gene_89;Parent=01.gene_89;
+01	MGA	gene	47869	49575	.	+	0	Source=MGA;ID=01.gene_90;
+01	MGA	CDS	47884	49575	.	+	0	Source=MGA;ID=01.cds_gene_90;Parent=01.gene_90;
+01	MGA	Shine_Dalgarno_sequence	47869	47873	.	+	0	ID=01.rbs_gene_90;Source=MGA;Parent=01.gene_90;
+01	MGA	gene	49753	50542	.	+	0	Source=MGA;ID=01.gene_91;
+01	MGA	CDS	49769	50542	.	+	0	Source=MGA;ID=01.cds_gene_91;Parent=01.gene_91;
+01	MGA	Shine_Dalgarno_sequence	49753	49757	.	+	0	ID=01.rbs_gene_91;Source=MGA;Parent=01.gene_91;
+01	MGA	gene	50546	51517	.	+	0	Source=MGA;ID=01.gene_92;
+01	MGA	CDS	50561	51517	.	+	0	Source=MGA;ID=01.cds_gene_92;Parent=01.gene_92;
+01	MGA	Shine_Dalgarno_sequence	50546	50550	.	+	0	ID=01.rbs_gene_92;Source=MGA;Parent=01.gene_92;
+01	MGA	gene	51616	53024	.	+	0	Source=MGA;ID=01.gene_93;
+01	MGA	CDS	51633	53024	.	+	0	Source=MGA;ID=01.cds_gene_93;Parent=01.gene_93;
+01	MGA	Shine_Dalgarno_sequence	51616	51620	.	+	0	ID=01.rbs_gene_93;Source=MGA;Parent=01.gene_93;
+01	MGA	gene	53100	53412	.	+	0	Source=MGA;ID=01.gene_94;
+01	MGA	CDS	53116	53412	.	+	0	Source=MGA;ID=01.cds_gene_94;Parent=01.gene_94;
+01	MGA	Shine_Dalgarno_sequence	53100	53104	.	+	0	ID=01.rbs_gene_94;Source=MGA;Parent=01.gene_94;
+01	MGA	gene	53425	54333	.	+	0	Source=MGA;ID=01.gene_95;
+01	MGA	CDS	53425	54333	.	+	0	Source=MGA;ID=01.cds_gene_95;Parent=01.gene_95;
+01	MGA	gene	54334	55225	.	+	0	Source=MGA;ID=01.gene_96;
+01	MGA	CDS	54347	55225	.	+	0	Source=MGA;ID=01.cds_gene_96;Parent=01.gene_96;
+01	MGA	Shine_Dalgarno_sequence	54334	54338	.	+	0	ID=01.rbs_gene_96;Source=MGA;Parent=01.gene_96;
+01	MGA	gene	55208	55845	.	+	0	Source=MGA;ID=01.gene_97;
+01	MGA	CDS	55225	55845	.	+	0	Source=MGA;ID=01.cds_gene_97;Parent=01.gene_97;
+01	MGA	Shine_Dalgarno_sequence	55208	55212	.	+	0	ID=01.rbs_gene_97;Source=MGA;Parent=01.gene_97;
+01	MGA	gene	55848	56700	.	+	0	Source=MGA;ID=01.gene_98;
+01	MGA	CDS	55864	56700	.	+	0	Source=MGA;ID=01.cds_gene_98;Parent=01.gene_98;
+01	MGA	Shine_Dalgarno_sequence	55848	55852	.	+	0	ID=01.rbs_gene_98;Source=MGA;Parent=01.gene_98;
+01	MGA	gene	56686	56917	.	+	0	Source=MGA;ID=01.gene_99;
+01	MGA	CDS	56702	56917	.	+	0	Source=MGA;ID=01.cds_gene_99;Parent=01.gene_99;
+01	MGA	Shine_Dalgarno_sequence	56686	56690	.	+	0	ID=01.rbs_gene_99;Source=MGA;Parent=01.gene_99;
+01	MGA	gene	56931	58707	.	+	0	Source=MGA;ID=01.gene_100;
+01	MGA	CDS	56944	58707	.	+	0	Source=MGA;ID=01.cds_gene_100;Parent=01.gene_100;
+01	MGA	Shine_Dalgarno_sequence	56931	56935	.	+	0	ID=01.rbs_gene_100;Source=MGA;Parent=01.gene_100;
+01	MGA	gene	58764	59208	.	+	0	Source=MGA;ID=01.gene_101;
+01	MGA	CDS	58780	59208	.	+	0	Source=MGA;ID=01.cds_gene_101;Parent=01.gene_101;
+01	MGA	Shine_Dalgarno_sequence	58764	58768	.	+	0	ID=01.rbs_gene_101;Source=MGA;Parent=01.gene_101;
+01	MGA	gene	59291	59445	.	+	0	Source=MGA;ID=01.gene_102;
+01	MGA	CDS	59305	59445	.	+	0	Source=MGA;ID=01.cds_gene_102;Parent=01.gene_102;
+01	MGA	Shine_Dalgarno_sequence	59291	59295	.	+	0	ID=01.rbs_gene_102;Source=MGA;Parent=01.gene_102;
+01	MGA	gene	59475	59946	.	+	0	Source=MGA;ID=01.gene_103;
+01	MGA	CDS	59488	59946	.	+	0	Source=MGA;ID=01.cds_gene_103;Parent=01.gene_103;
+01	MGA	Shine_Dalgarno_sequence	59475	59479	.	+	0	ID=01.rbs_gene_103;Source=MGA;Parent=01.gene_103;
+01	MGA	gene	59947	60153	.	+	0	Source=MGA;ID=01.gene_104;
+01	MGA	CDS	59959	60153	.	+	0	Source=MGA;ID=01.cds_gene_104;Parent=01.gene_104;
+01	MGA	Shine_Dalgarno_sequence	59947	59951	.	+	0	ID=01.rbs_gene_104;Source=MGA;Parent=01.gene_104;
+01	MGA	gene	60220	60546	.	+	0	Source=MGA;ID=01.gene_105;
+01	MGA	CDS	60235	60546	.	+	0	Source=MGA;ID=01.cds_gene_105;Parent=01.gene_105;
+01	MGA	Shine_Dalgarno_sequence	60220	60224	.	+	0	ID=01.rbs_gene_105;Source=MGA;Parent=01.gene_105;
+01	MGA	gene	60662	61136	.	+	0	Source=MGA;ID=01.gene_106;
+01	MGA	CDS	60678	61136	.	+	0	Source=MGA;ID=01.cds_gene_106;Parent=01.gene_106;
+01	MGA	Shine_Dalgarno_sequence	60662	60666	.	+	0	ID=01.rbs_gene_106;Source=MGA;Parent=01.gene_106;
+01	MGA	gene	61170	61716	.	+	0	Source=MGA;ID=01.gene_107;
+01	MGA	CDS	61180	61716	.	+	0	Source=MGA;ID=01.cds_gene_107;Parent=01.gene_107;
+01	MGA	Shine_Dalgarno_sequence	61170	61174	.	+	0	ID=01.rbs_gene_107;Source=MGA;Parent=01.gene_107;
+01	MGA	gene	61758	65827	.	+	0	Source=MGA;ID=01.gene_108;
+01	MGA	CDS	61772	65827	.	+	0	Source=MGA;ID=01.cds_gene_108;Parent=01.gene_108;
+01	MGA	Shine_Dalgarno_sequence	61758	61762	.	+	0	ID=01.rbs_gene_108;Source=MGA;Parent=01.gene_108;
+01	MGA	gene	65890	68332	.	+	0	Source=MGA;ID=01.gene_109;
+01	MGA	CDS	65906	68332	.	+	0	Source=MGA;ID=01.cds_gene_109;Parent=01.gene_109;
+01	MGA	Shine_Dalgarno_sequence	65890	65894	.	+	0	ID=01.rbs_gene_109;Source=MGA;Parent=01.gene_109;
+01	MGA	gene	68334	69233	.	+	0	Source=MGA;ID=01.gene_110;
+01	MGA	CDS	68346	69233	.	+	0	Source=MGA;ID=01.cds_gene_110;Parent=01.gene_110;
+01	MGA	Shine_Dalgarno_sequence	68334	68338	.	+	0	ID=01.rbs_gene_110;Source=MGA;Parent=01.gene_110;
+01	MGA	gene	69218	71779	.	+	0	Source=MGA;ID=01.gene_111;
+01	MGA	CDS	69233	71779	.	+	0	Source=MGA;ID=01.cds_gene_111;Parent=01.gene_111;
+01	MGA	Shine_Dalgarno_sequence	69218	69222	.	+	0	ID=01.rbs_gene_111;Source=MGA;Parent=01.gene_111;
+01	MGA	gene	71873	72677	.	+	0	Source=MGA;ID=01.gene_112;
+01	MGA	CDS	71886	72677	.	+	0	Source=MGA;ID=01.cds_gene_112;Parent=01.gene_112;
+01	MGA	Shine_Dalgarno_sequence	71873	71877	.	+	0	ID=01.rbs_gene_112;Source=MGA;Parent=01.gene_112;
+01	MGA	gene	72660	73201	.	+	0	Source=MGA;ID=01.gene_113;
+01	MGA	CDS	72677	73201	.	+	0	Source=MGA;ID=01.cds_gene_113;Parent=01.gene_113;
+01	MGA	Shine_Dalgarno_sequence	72660	72664	.	+	0	ID=01.rbs_gene_113;Source=MGA;Parent=01.gene_113;
+01	MGA	gene	73186	73905	.	+	0	Source=MGA;ID=01.gene_114;
+01	MGA	CDS	73201	73905	.	+	0	Source=MGA;ID=01.cds_gene_114;Parent=01.gene_114;
+01	MGA	Shine_Dalgarno_sequence	73186	73190	.	+	0	ID=01.rbs_gene_114;Source=MGA;Parent=01.gene_114;
+01	MGA	gene	73907	74966	.	+	0	Source=MGA;ID=01.gene_115;
+01	MGA	CDS	73920	74966	.	+	0	Source=MGA;ID=01.cds_gene_115;Parent=01.gene_115;
+01	MGA	Shine_Dalgarno_sequence	73907	73911	.	+	0	ID=01.rbs_gene_115;Source=MGA;Parent=01.gene_115;
+01	MGA	gene	74969	78046	.	+	0	Source=MGA;ID=01.gene_116;
+01	MGA	CDS	74987	78046	.	+	0	Source=MGA;ID=01.cds_gene_116;Parent=01.gene_116;
+01	MGA	Shine_Dalgarno_sequence	74969	74973	.	+	0	ID=01.rbs_gene_116;Source=MGA;Parent=01.gene_116;
+01	MGA	gene	78141	78678	.	+	0	Source=MGA;ID=01.gene_117;
+01	MGA	CDS	78157	78678	.	+	0	Source=MGA;ID=01.cds_gene_117;Parent=01.gene_117;
+01	MGA	Shine_Dalgarno_sequence	78141	78145	.	+	0	ID=01.rbs_gene_117;Source=MGA;Parent=01.gene_117;
+01	MGA	gene	78684	82157	.	+	0	Source=MGA;ID=01.gene_118;
+01	MGA	CDS	78699	82157	.	+	0	Source=MGA;ID=01.cds_gene_118;Parent=01.gene_118;
+01	MGA	Shine_Dalgarno_sequence	78684	78688	.	+	0	ID=01.rbs_gene_118;Source=MGA;Parent=01.gene_118;
+01	MGA	gene	82193	82364	.	+	0	Source=MGA;ID=01.gene_119;
+01	MGA	CDS	82206	82364	.	+	0	Source=MGA;ID=01.cds_gene_119;Parent=01.gene_119;
+01	MGA	Shine_Dalgarno_sequence	82193	82197	.	+	0	ID=01.rbs_gene_119;Source=MGA;Parent=01.gene_119;
+01	MGA	gene	82352	84287	.	+	0	Source=MGA;ID=01.gene_120;
+01	MGA	CDS	82365	84287	.	+	0	Source=MGA;ID=01.cds_gene_120;Parent=01.gene_120;
+01	MGA	Shine_Dalgarno_sequence	82352	82356	.	+	0	ID=01.rbs_gene_120;Source=MGA;Parent=01.gene_120;
+01	MGA	gene	84293	84684	.	+	0	Source=MGA;ID=01.gene_121;
+01	MGA	CDS	84310	84684	.	+	0	Source=MGA;ID=01.cds_gene_121;Parent=01.gene_121;
+01	MGA	Shine_Dalgarno_sequence	84293	84297	.	+	0	ID=01.rbs_gene_121;Source=MGA;Parent=01.gene_121;
+01	MGA	gene	84677	86067	.	+	0	Source=MGA;ID=01.gene_122;
+01	MGA	CDS	84691	86067	.	+	0	Source=MGA;ID=01.cds_gene_122;Parent=01.gene_122;
+01	MGA	Shine_Dalgarno_sequence	84677	84681	.	+	0	ID=01.rbs_gene_122;Source=MGA;Parent=01.gene_122;
+01	MGA	gene	86148	87907	.	+	0	Source=MGA;ID=01.gene_123;
+01	MGA	CDS	86159	87907	.	+	0	Source=MGA;ID=01.cds_gene_123;Parent=01.gene_123;
+01	MGA	Shine_Dalgarno_sequence	86148	86152	.	+	0	ID=01.rbs_gene_123;Source=MGA;Parent=01.gene_123;
+01	MGA	gene	87907	89532	.	+	0	Source=MGA;ID=01.gene_124;
+01	MGA	CDS	87919	89532	.	+	0	Source=MGA;ID=01.cds_gene_124;Parent=01.gene_124;
+01	MGA	Shine_Dalgarno_sequence	87907	87911	.	+	0	ID=01.rbs_gene_124;Source=MGA;Parent=01.gene_124;
+01	MGA	gene	89511	90967	.	+	0	Source=MGA;ID=01.gene_125;
+01	MGA	CDS	89525	90967	.	+	0	Source=MGA;ID=01.cds_gene_125;Parent=01.gene_125;
+01	MGA	Shine_Dalgarno_sequence	89511	89515	.	+	0	ID=01.rbs_gene_125;Source=MGA;Parent=01.gene_125;
+01	MGA	gene	91032	92083	.	+	0	Source=MGA;ID=01.gene_126;
+01	MGA	CDS	91046	92083	.	+	0	Source=MGA;ID=01.cds_gene_126;Parent=01.gene_126;
+01	MGA	Shine_Dalgarno_sequence	91032	91036	.	+	0	ID=01.rbs_gene_126;Source=MGA;Parent=01.gene_126;
+01	MGA	gene	92071	92460	.	+	0	Source=MGA;ID=01.gene_127;
+01	MGA	CDS	92083	92460	.	+	0	Source=MGA;ID=01.cds_gene_127;Parent=01.gene_127;
+01	MGA	Shine_Dalgarno_sequence	92071	92075	.	+	0	ID=01.rbs_gene_127;Source=MGA;Parent=01.gene_127;
+01	MGA	gene	92448	94379	.	+	0	Source=MGA;ID=01.gene_128;
+01	MGA	CDS	92460	94379	.	+	0	Source=MGA;ID=01.cds_gene_128;Parent=01.gene_128;
+01	MGA	Shine_Dalgarno_sequence	92448	92452	.	+	0	ID=01.rbs_gene_128;Source=MGA;Parent=01.gene_128;
+01	MGA	gene	94367	94975	.	+	0	Source=MGA;ID=01.gene_129;
+01	MGA	CDS	94379	94975	.	+	0	Source=MGA;ID=01.cds_gene_129;Parent=01.gene_129;
+01	MGA	Shine_Dalgarno_sequence	94367	94371	.	+	0	ID=01.rbs_gene_129;Source=MGA;Parent=01.gene_129;
+01	MGA	gene	94976	96057	.	+	0	Source=MGA;ID=01.gene_130;
+01	MGA	CDS	94990	96057	.	+	0	Source=MGA;ID=01.cds_gene_130;Parent=01.gene_130;
+01	MGA	Shine_Dalgarno_sequence	94976	94980	.	+	0	ID=01.rbs_gene_130;Source=MGA;Parent=01.gene_130;
+01	MGA	gene	96109	96462	.	+	0	Source=MGA;ID=01.gene_131;
+01	MGA	CDS	96124	96462	.	+	0	Source=MGA;ID=01.cds_gene_131;Parent=01.gene_131;
+01	MGA	Shine_Dalgarno_sequence	96109	96113	.	+	0	ID=01.rbs_gene_131;Source=MGA;Parent=01.gene_131;
+01	MGA	gene	96447	96914	.	+	0	Source=MGA;ID=01.gene_132;
+01	MGA	CDS	96462	96914	.	+	0	Source=MGA;ID=01.cds_gene_132;Parent=01.gene_132;
+01	MGA	Shine_Dalgarno_sequence	96447	96451	.	+	0	ID=01.rbs_gene_132;Source=MGA;Parent=01.gene_132;
+01	MGA	gene	96901	97509	.	+	0	Source=MGA;ID=01.gene_133;
+01	MGA	CDS	96901	97509	.	+	0	Source=MGA;ID=01.cds_gene_133;Parent=01.gene_133;
+01	MGA	gene	97508	97918	.	+	0	Source=MGA;ID=01.gene_134;
+01	MGA	CDS	97526	97918	.	+	0	Source=MGA;ID=01.cds_gene_134;Parent=01.gene_134;
+01	MGA	Shine_Dalgarno_sequence	97508	97512	.	+	0	ID=01.rbs_gene_134;Source=MGA;Parent=01.gene_134;
+01	MGA	gene	97918	100047	.	+	0	Source=MGA;ID=01.gene_135;
+01	MGA	CDS	97933	100047	.	+	0	Source=MGA;ID=01.cds_gene_135;Parent=01.gene_135;
+01	MGA	Shine_Dalgarno_sequence	97918	97922	.	+	0	ID=01.rbs_gene_135;Source=MGA;Parent=01.gene_135;
+01	MGA	gene	100048	101110	.	+	0	Source=MGA;ID=01.gene_136;
+01	MGA	CDS	100061	101110	.	+	0	Source=MGA;ID=01.cds_gene_136;Parent=01.gene_136;
+01	MGA	Shine_Dalgarno_sequence	100048	100052	.	+	0	ID=01.rbs_gene_136;Source=MGA;Parent=01.gene_136;
+01	MGA	gene	101113	101457	.	+	0	Source=MGA;ID=01.gene_137;
+01	MGA	CDS	101128	101457	.	+	0	Source=MGA;ID=01.cds_gene_137;Parent=01.gene_137;
+01	MGA	Shine_Dalgarno_sequence	101113	101117	.	+	0	ID=01.rbs_gene_137;Source=MGA;Parent=01.gene_137;
+01	MGA	gene	101425	101761	.	+	0	Source=MGA;ID=01.gene_138;
+01	MGA	CDS	101441	101761	.	+	0	Source=MGA;ID=01.cds_gene_138;Parent=01.gene_138;
+01	MGA	Shine_Dalgarno_sequence	101425	101429	.	+	0	ID=01.rbs_gene_138;Source=MGA;Parent=01.gene_138;
+01	MGA	gene	101953	102564	.	+	0	Source=MGA;ID=01.gene_139;
+01	MGA	CDS	101968	102564	.	+	0	Source=MGA;ID=01.cds_gene_139;Parent=01.gene_139;
+01	MGA	Shine_Dalgarno_sequence	101953	101957	.	+	0	ID=01.rbs_gene_139;Source=MGA;Parent=01.gene_139;
+01	MGA	gene	102574	102879	.	+	0	Source=MGA;ID=01.gene_140;
+01	MGA	CDS	102574	102879	.	+	0	Source=MGA;ID=01.cds_gene_140;Parent=01.gene_140;
+01	MGA	gene	102941	103827	.	+	0	Source=MGA;ID=01.gene_141;
+01	MGA	CDS	102955	103827	.	+	0	Source=MGA;ID=01.cds_gene_141;Parent=01.gene_141;
+01	MGA	Shine_Dalgarno_sequence	102941	102945	.	+	0	ID=01.rbs_gene_141;Source=MGA;Parent=01.gene_141;
+01	MGA	gene	104008	104505	.	+	0	Source=MGA;ID=01.gene_142;
+01	MGA	CDS	104020	104505	.	+	0	Source=MGA;ID=01.cds_gene_142;Parent=01.gene_142;
+01	MGA	Shine_Dalgarno_sequence	104008	104012	.	+	0	ID=01.rbs_gene_142;Source=MGA;Parent=01.gene_142;
+01	MGA	gene	104641	105984	.	+	0	Source=MGA;ID=01.gene_143;
+01	MGA	CDS	104641	105984	.	+	0	Source=MGA;ID=01.cds_gene_143;Parent=01.gene_143;
+01	MGA	gene	106241	106959	.	+	0	Source=MGA;ID=01.gene_144;
+01	MGA	CDS	106252	106959	.	+	0	Source=MGA;ID=01.cds_gene_144;Parent=01.gene_144;
+01	MGA	Shine_Dalgarno_sequence	106241	106245	.	+	0	ID=01.rbs_gene_144;Source=MGA;Parent=01.gene_144;
+01	MGA	gene	107193	108053	.	+	0	Source=MGA;ID=01.gene_145;
+01	MGA	CDS	107193	108053	.	+	0	Source=MGA;ID=01.cds_gene_145;Parent=01.gene_145;
+01	MGA	gene	108110	108364	.	+	0	Source=MGA;ID=01.gene_146;
+01	MGA	CDS	108122	108364	.	+	0	Source=MGA;ID=01.cds_gene_146;Parent=01.gene_146;
+01	MGA	Shine_Dalgarno_sequence	108110	108114	.	+	0	ID=01.rbs_gene_146;Source=MGA;Parent=01.gene_146;
+01	MGA	gene	108367	108863	.	+	0	Source=MGA;ID=01.gene_147;
+01	MGA	CDS	108381	108863	.	+	0	Source=MGA;ID=01.cds_gene_147;Parent=01.gene_147;
+01	MGA	Shine_Dalgarno_sequence	108367	108371	.	+	0	ID=01.rbs_gene_147;Source=MGA;Parent=01.gene_147;
+01	MGA	gene	108934	110221	.	+	0	Source=MGA;ID=01.gene_148;
+01	MGA	CDS	108950	110221	.	+	0	Source=MGA;ID=01.cds_gene_148;Parent=01.gene_148;
+01	MGA	Shine_Dalgarno_sequence	108934	108938	.	+	0	ID=01.rbs_gene_148;Source=MGA;Parent=01.gene_148;
+01	MGA	gene	110269	111537	.	+	0	Source=MGA;ID=01.gene_149;
+01	MGA	CDS	110281	111537	.	+	0	Source=MGA;ID=01.cds_gene_149;Parent=01.gene_149;
+01	MGA	Shine_Dalgarno_sequence	110269	110273	.	+	0	ID=01.rbs_gene_149;Source=MGA;Parent=01.gene_149;
+01	MGA	gene	111523	111894	.	+	0	Source=MGA;ID=01.gene_150;
+01	MGA	CDS	111541	111894	.	+	0	Source=MGA;ID=01.cds_gene_150;Parent=01.gene_150;
+01	MGA	Shine_Dalgarno_sequence	111523	111527	.	+	0	ID=01.rbs_gene_150;Source=MGA;Parent=01.gene_150;
+01	MGA	gene	111867	112543	.	+	0	Source=MGA;ID=01.gene_151;
+01	MGA	CDS	111881	112543	.	+	0	Source=MGA;ID=01.cds_gene_151;Parent=01.gene_151;
+01	MGA	Shine_Dalgarno_sequence	111867	111871	.	+	0	ID=01.rbs_gene_151;Source=MGA;Parent=01.gene_151;
+01	MGA	gene	112659	113303	.	+	0	Source=MGA;ID=01.gene_152;
+01	MGA	CDS	112671	113303	.	+	0	Source=MGA;ID=01.cds_gene_152;Parent=01.gene_152;
+01	MGA	Shine_Dalgarno_sequence	112659	112663	.	+	0	ID=01.rbs_gene_152;Source=MGA;Parent=01.gene_152;
+01	MGA	gene	113313	113838	.	+	0	Source=MGA;ID=01.gene_153;
+01	MGA	CDS	113326	113838	.	+	0	Source=MGA;ID=01.cds_gene_153;Parent=01.gene_153;
+01	MGA	Shine_Dalgarno_sequence	113313	113317	.	+	0	ID=01.rbs_gene_153;Source=MGA;Parent=01.gene_153;
+01	MGA	gene	113838	114080	.	+	0	Source=MGA;ID=01.gene_154;
+01	MGA	CDS	113853	114080	.	+	0	Source=MGA;ID=01.cds_gene_154;Parent=01.gene_154;
+01	MGA	Shine_Dalgarno_sequence	113838	113842	.	+	0	ID=01.rbs_gene_154;Source=MGA;Parent=01.gene_154;
+01	MGA	gene	114163	114436	.	+	0	Source=MGA;ID=01.gene_155;
+01	MGA	CDS	114176	114436	.	+	0	Source=MGA;ID=01.cds_gene_155;Parent=01.gene_155;
+01	MGA	Shine_Dalgarno_sequence	114163	114167	.	+	0	ID=01.rbs_gene_155;Source=MGA;Parent=01.gene_155;
+01	MGA	gene	114440	115195	.	+	0	Source=MGA;ID=01.gene_156;
+01	MGA	CDS	114440	115195	.	+	0	Source=MGA;ID=01.cds_gene_156;Parent=01.gene_156;
+01	MGA	gene	115175	116438	.	+	0	Source=MGA;ID=01.gene_157;
+01	MGA	CDS	115188	116438	.	+	0	Source=MGA;ID=01.cds_gene_157;Parent=01.gene_157;
+01	MGA	Shine_Dalgarno_sequence	115175	115179	.	+	0	ID=01.rbs_gene_157;Source=MGA;Parent=01.gene_157;
+01	MGA	gene	116437	116820	.	+	0	Source=MGA;ID=01.gene_158;
+01	MGA	CDS	116452	116820	.	+	0	Source=MGA;ID=01.cds_gene_158;Parent=01.gene_158;
+01	MGA	Shine_Dalgarno_sequence	116437	116441	.	+	0	ID=01.rbs_gene_158;Source=MGA;Parent=01.gene_158;
+01	MGA	gene	116796	117118	.	+	0	Source=MGA;ID=01.gene_159;
+01	MGA	CDS	116807	117118	.	+	0	Source=MGA;ID=01.cds_gene_159;Parent=01.gene_159;
+01	MGA	Shine_Dalgarno_sequence	116796	116800	.	+	0	ID=01.rbs_gene_159;Source=MGA;Parent=01.gene_159;
+01	MGA	gene	117167	117718	.	+	0	Source=MGA;ID=01.gene_160;
+01	MGA	CDS	117182	117718	.	+	0	Source=MGA;ID=01.cds_gene_160;Parent=01.gene_160;
+01	MGA	Shine_Dalgarno_sequence	117167	117171	.	+	0	ID=01.rbs_gene_160;Source=MGA;Parent=01.gene_160;
+01	MGA	gene	117697	118478	.	+	0	Source=MGA;ID=01.gene_161;
+01	MGA	CDS	117711	118478	.	+	0	Source=MGA;ID=01.cds_gene_161;Parent=01.gene_161;
+01	MGA	Shine_Dalgarno_sequence	117697	117701	.	+	0	ID=01.rbs_gene_161;Source=MGA;Parent=01.gene_161;
+01	MGA	gene	118456	118902	.	+	0	Source=MGA;ID=01.gene_162;
+01	MGA	CDS	118456	118902	.	+	0	Source=MGA;ID=01.cds_gene_162;Parent=01.gene_162;
+01	MGA	gene	118886	119765	.	+	0	Source=MGA;ID=01.gene_163;
+01	MGA	CDS	118902	119765	.	+	0	Source=MGA;ID=01.cds_gene_163;Parent=01.gene_163;
+01	MGA	Shine_Dalgarno_sequence	118886	118890	.	+	0	ID=01.rbs_gene_163;Source=MGA;Parent=01.gene_163;
+01	MGA	gene	120123	120868	.	+	0	Source=MGA;ID=01.gene_164;
+01	MGA	CDS	120137	120868	.	+	0	Source=MGA;ID=01.cds_gene_164;Parent=01.gene_164;
+01	MGA	Shine_Dalgarno_sequence	120123	120127	.	+	0	ID=01.rbs_gene_164;Source=MGA;Parent=01.gene_164;
+01	MGA	gene	120873	121344	.	+	0	Source=MGA;ID=01.gene_165;
+01	MGA	CDS	120886	121344	.	+	0	Source=MGA;ID=01.cds_gene_165;Parent=01.gene_165;
+01	MGA	Shine_Dalgarno_sequence	120873	120877	.	+	0	ID=01.rbs_gene_165;Source=MGA;Parent=01.gene_165;
+01	MGA	gene	121395	121852	.	+	0	Source=MGA;ID=01.gene_166;
+01	MGA	CDS	121409	121852	.	+	0	Source=MGA;ID=01.cds_gene_166;Parent=01.gene_166;
+01	MGA	Shine_Dalgarno_sequence	121395	121399	.	+	0	ID=01.rbs_gene_166;Source=MGA;Parent=01.gene_166;
+01	MGA	gene	121857	122573	.	+	0	Source=MGA;ID=01.gene_167;
+01	MGA	CDS	121869	122573	.	+	0	Source=MGA;ID=01.cds_gene_167;Parent=01.gene_167;
+01	MGA	Shine_Dalgarno_sequence	121857	121861	.	+	0	ID=01.rbs_gene_167;Source=MGA;Parent=01.gene_167;
+01	MGA	gene	122622	123033	.	+	0	Source=MGA;ID=01.gene_168;
+01	MGA	CDS	122635	123033	.	+	0	Source=MGA;ID=01.cds_gene_168;Parent=01.gene_168;
+01	MGA	Shine_Dalgarno_sequence	122622	122626	.	+	0	ID=01.rbs_gene_168;Source=MGA;Parent=01.gene_168;
+01	MGA	gene	123166	123422	.	+	0	Source=MGA;ID=01.gene_169;
+01	MGA	CDS	123180	123422	.	+	0	Source=MGA;ID=01.cds_gene_169;Parent=01.gene_169;
+01	MGA	Shine_Dalgarno_sequence	123166	123170	.	+	0	ID=01.rbs_gene_169;Source=MGA;Parent=01.gene_169;
+01	MGA	gene	123414	123591	.	+	0	Source=MGA;ID=01.gene_170;
+01	MGA	CDS	123427	123591	.	+	0	Source=MGA;ID=01.cds_gene_170;Parent=01.gene_170;
+01	MGA	Shine_Dalgarno_sequence	123414	123418	.	+	0	ID=01.rbs_gene_170;Source=MGA;Parent=01.gene_170;
+01	MGA	gene	123578	123757	.	+	0	Source=MGA;ID=01.gene_171;
+01	MGA	CDS	123578	123757	.	+	0	Source=MGA;ID=01.cds_gene_171;Parent=01.gene_171;
+01	MGA	gene	123779	123969	.	+	0	Source=MGA;ID=01.gene_172;
+01	MGA	CDS	123793	123969	.	+	0	Source=MGA;ID=01.cds_gene_172;Parent=01.gene_172;
+01	MGA	Shine_Dalgarno_sequence	123779	123783	.	+	0	ID=01.rbs_gene_172;Source=MGA;Parent=01.gene_172;
+01	MGA	gene	123950	124126	.	+	0	Source=MGA;ID=01.gene_173;
+01	MGA	CDS	123962	124126	.	+	0	Source=MGA;ID=01.cds_gene_173;Parent=01.gene_173;
+01	MGA	Shine_Dalgarno_sequence	123950	123954	.	+	0	ID=01.rbs_gene_173;Source=MGA;Parent=01.gene_173;
+01	MGA	gene	124375	124494	.	+	0	Source=MGA;ID=01.gene_174;
+01	MGA	CDS	124375	124494	.	+	0	Source=MGA;ID=01.cds_gene_174;Parent=01.gene_174;
+01	MGA	gene	124498	124628	.	+	0	Source=MGA;ID=01.gene_175;
+01	MGA	CDS	124509	124628	.	+	0	Source=MGA;ID=01.cds_gene_175;Parent=01.gene_175;
+01	MGA	Shine_Dalgarno_sequence	124498	124502	.	+	0	ID=01.rbs_gene_175;Source=MGA;Parent=01.gene_175;
+01	MGA	gene	124628	124816	.	+	0	Source=MGA;ID=01.gene_176;
+01	MGA	CDS	124640	124816	.	+	0	Source=MGA;ID=01.cds_gene_176;Parent=01.gene_176;
+01	MGA	Shine_Dalgarno_sequence	124628	124632	.	+	0	ID=01.rbs_gene_176;Source=MGA;Parent=01.gene_176;
+01	MGA	gene	124796	125105	.	+	0	Source=MGA;ID=01.gene_177;
+01	MGA	CDS	124809	125105	.	+	0	Source=MGA;ID=01.cds_gene_177;Parent=01.gene_177;
+01	MGA	Shine_Dalgarno_sequence	124796	124800	.	+	0	ID=01.rbs_gene_177;Source=MGA;Parent=01.gene_177;
+01	MGA	gene	125138	125335	.	+	0	Source=MGA;ID=01.gene_178;
+01	MGA	CDS	125153	125335	.	+	0	Source=MGA;ID=01.cds_gene_178;Parent=01.gene_178;
+01	MGA	Shine_Dalgarno_sequence	125138	125142	.	+	0	ID=01.rbs_gene_178;Source=MGA;Parent=01.gene_178;
+01	MGA	gene	125335	125716	.	+	0	Source=MGA;ID=01.gene_179;
+01	MGA	CDS	125348	125716	.	+	0	Source=MGA;ID=01.cds_gene_179;Parent=01.gene_179;
+01	MGA	Shine_Dalgarno_sequence	125335	125339	.	+	0	ID=01.rbs_gene_179;Source=MGA;Parent=01.gene_179;
+01	MGA	gene	125717	126076	.	+	0	Source=MGA;ID=01.gene_180;
+01	MGA	CDS	125729	126076	.	+	0	Source=MGA;ID=01.cds_gene_180;Parent=01.gene_180;
+01	MGA	Shine_Dalgarno_sequence	125717	125721	.	+	0	ID=01.rbs_gene_180;Source=MGA;Parent=01.gene_180;
+01	MGA	gene	126076	126354	.	+	0	Source=MGA;ID=01.gene_181;
+01	MGA	CDS	126076	126354	.	+	0	Source=MGA;ID=01.cds_gene_181;Parent=01.gene_181;
+01	MGA	gene	126410	126729	.	+	0	Source=MGA;ID=01.gene_182;
+01	MGA	CDS	126424	126729	.	+	0	Source=MGA;ID=01.cds_gene_182;Parent=01.gene_182;
+01	MGA	Shine_Dalgarno_sequence	126410	126414	.	+	0	ID=01.rbs_gene_182;Source=MGA;Parent=01.gene_182;
+01	MGA	gene	126732	127094	.	+	0	Source=MGA;ID=01.gene_183;
+01	MGA	CDS	126744	127094	.	+	0	Source=MGA;ID=01.cds_gene_183;Parent=01.gene_183;
+01	MGA	Shine_Dalgarno_sequence	126732	126736	.	+	0	ID=01.rbs_gene_183;Source=MGA;Parent=01.gene_183;
+01	MGA	gene	127082	127696	.	+	0	Source=MGA;ID=01.gene_184;
+01	MGA	CDS	127094	127696	.	+	0	Source=MGA;ID=01.cds_gene_184;Parent=01.gene_184;
+01	MGA	Shine_Dalgarno_sequence	127082	127086	.	+	0	ID=01.rbs_gene_184;Source=MGA;Parent=01.gene_184;
+01	MGA	gene	127697	127889	.	+	0	Source=MGA;ID=01.gene_185;
+01	MGA	CDS	127710	127889	.	+	0	Source=MGA;ID=01.cds_gene_185;Parent=01.gene_185;
+01	MGA	Shine_Dalgarno_sequence	127697	127701	.	+	0	ID=01.rbs_gene_185;Source=MGA;Parent=01.gene_185;
+01	MGA	gene	128103	128517	.	+	0	Source=MGA;ID=01.gene_186;
+01	MGA	CDS	128116	128517	.	+	0	Source=MGA;ID=01.cds_gene_186;Parent=01.gene_186;
+01	MGA	Shine_Dalgarno_sequence	128103	128107	.	+	0	ID=01.rbs_gene_186;Source=MGA;Parent=01.gene_186;
+01	MGA	gene	128506	128779	.	+	0	Source=MGA;ID=01.gene_187;
+01	MGA	CDS	128519	128779	.	+	0	Source=MGA;ID=01.cds_gene_187;Parent=01.gene_187;
+01	MGA	Shine_Dalgarno_sequence	128506	128510	.	+	0	ID=01.rbs_gene_187;Source=MGA;Parent=01.gene_187;
+01	MGA	gene	128818	129118	.	+	0	Source=MGA;ID=01.gene_188;
+01	MGA	CDS	128831	129118	.	+	0	Source=MGA;ID=01.cds_gene_188;Parent=01.gene_188;
+01	MGA	Shine_Dalgarno_sequence	128818	128822	.	+	0	ID=01.rbs_gene_188;Source=MGA;Parent=01.gene_188;
+01	MGA	gene	129219	129498	.	+	0	Source=MGA;ID=01.gene_189;
+01	MGA	CDS	129235	129498	.	+	0	Source=MGA;ID=01.cds_gene_189;Parent=01.gene_189;
+01	MGA	Shine_Dalgarno_sequence	129219	129223	.	+	0	ID=01.rbs_gene_189;Source=MGA;Parent=01.gene_189;
+01	MGA	gene	129563	129754	.	+	0	Source=MGA;ID=01.gene_190;
+01	MGA	CDS	129575	129754	.	+	0	Source=MGA;ID=01.cds_gene_190;Parent=01.gene_190;
+01	MGA	Shine_Dalgarno_sequence	129563	129567	.	+	0	ID=01.rbs_gene_190;Source=MGA;Parent=01.gene_190;
+01	MGA	gene	129756	130032	.	+	0	Source=MGA;ID=01.gene_191;
+01	MGA	CDS	129769	130032	.	+	0	Source=MGA;ID=01.cds_gene_191;Parent=01.gene_191;
+01	MGA	Shine_Dalgarno_sequence	129756	129760	.	+	0	ID=01.rbs_gene_191;Source=MGA;Parent=01.gene_191;
+01	MGA	gene	130020	130352	.	+	0	Source=MGA;ID=01.gene_192;
+01	MGA	CDS	130035	130352	.	+	0	Source=MGA;ID=01.cds_gene_192;Parent=01.gene_192;
+01	MGA	Shine_Dalgarno_sequence	130020	130024	.	+	0	ID=01.rbs_gene_192;Source=MGA;Parent=01.gene_192;
+01	MGA	gene	130340	130910	.	+	0	Source=MGA;ID=01.gene_193;
+01	MGA	CDS	130353	130910	.	+	0	Source=MGA;ID=01.cds_gene_193;Parent=01.gene_193;
+01	MGA	Shine_Dalgarno_sequence	130340	130344	.	+	0	ID=01.rbs_gene_193;Source=MGA;Parent=01.gene_193;
+01	MGA	gene	131110	131280	.	+	0	Source=MGA;ID=01.gene_194;
+01	MGA	CDS	131122	131280	.	+	0	Source=MGA;ID=01.cds_gene_194;Parent=01.gene_194;
+01	MGA	Shine_Dalgarno_sequence	131110	131114	.	+	0	ID=01.rbs_gene_194;Source=MGA;Parent=01.gene_194;
+01	MGA	gene	131302	131515	.	+	0	Source=MGA;ID=01.gene_195;
+01	MGA	CDS	131315	131515	.	+	0	Source=MGA;ID=01.cds_gene_195;Parent=01.gene_195;
+01	MGA	Shine_Dalgarno_sequence	131302	131306	.	+	0	ID=01.rbs_gene_195;Source=MGA;Parent=01.gene_195;
+01	MGA	gene	131503	131806	.	+	0	Source=MGA;ID=01.gene_196;
+01	MGA	CDS	131516	131806	.	+	0	Source=MGA;ID=01.cds_gene_196;Parent=01.gene_196;
+01	MGA	Shine_Dalgarno_sequence	131503	131507	.	+	0	ID=01.rbs_gene_196;Source=MGA;Parent=01.gene_196;
+01	MGA	gene	131883	132206	.	+	0	Source=MGA;ID=01.gene_197;
+01	MGA	CDS	131898	132206	.	+	0	Source=MGA;ID=01.cds_gene_197;Parent=01.gene_197;
+01	MGA	Shine_Dalgarno_sequence	131883	131887	.	+	0	ID=01.rbs_gene_197;Source=MGA;Parent=01.gene_197;
+01	MGA	gene	132187	133111	.	+	0	Source=MGA;ID=01.gene_198;
+01	MGA	CDS	132203	133111	.	+	0	Source=MGA;ID=01.cds_gene_198;Parent=01.gene_198;
+01	MGA	Shine_Dalgarno_sequence	132187	132191	.	+	0	ID=01.rbs_gene_198;Source=MGA;Parent=01.gene_198;
+01	MGA	gene	133113	134598	.	+	0	Source=MGA;ID=01.gene_199;
+01	MGA	CDS	133129	134598	.	+	0	Source=MGA;ID=01.cds_gene_199;Parent=01.gene_199;
+01	MGA	Shine_Dalgarno_sequence	133113	133117	.	+	0	ID=01.rbs_gene_199;Source=MGA;Parent=01.gene_199;
+01	MGA	gene	134664	134922	.	+	0	Source=MGA;ID=01.gene_200;
+01	MGA	CDS	134677	134922	.	+	0	Source=MGA;ID=01.cds_gene_200;Parent=01.gene_200;
+01	MGA	Shine_Dalgarno_sequence	134664	134668	.	+	0	ID=01.rbs_gene_200;Source=MGA;Parent=01.gene_200;
+01	MGA	gene	134928	135334	.	+	0	Source=MGA;ID=01.gene_201;
+01	MGA	CDS	134942	135334	.	+	0	Source=MGA;ID=01.cds_gene_201;Parent=01.gene_201;
+01	MGA	Shine_Dalgarno_sequence	134928	134932	.	+	0	ID=01.rbs_gene_201;Source=MGA;Parent=01.gene_201;
+01	MGA	gene	135322	135533	.	+	0	Source=MGA;ID=01.gene_202;
+01	MGA	CDS	135336	135533	.	+	0	Source=MGA;ID=01.cds_gene_202;Parent=01.gene_202;
+01	MGA	Shine_Dalgarno_sequence	135322	135326	.	+	0	ID=01.rbs_gene_202;Source=MGA;Parent=01.gene_202;
+01	MGA	gene	135586	135910	.	+	0	Source=MGA;ID=01.gene_203;
+01	MGA	CDS	135599	135910	.	+	0	Source=MGA;ID=01.cds_gene_203;Parent=01.gene_203;
+01	MGA	Shine_Dalgarno_sequence	135586	135590	.	+	0	ID=01.rbs_gene_203;Source=MGA;Parent=01.gene_203;
+01	MGA	gene	135901	136422	.	+	0	Source=MGA;ID=01.gene_204;
+01	MGA	CDS	135913	136422	.	+	0	Source=MGA;ID=01.cds_gene_204;Parent=01.gene_204;
+01	MGA	Shine_Dalgarno_sequence	135901	135905	.	+	0	ID=01.rbs_gene_204;Source=MGA;Parent=01.gene_204;
+01	MGA	gene	136408	136753	.	+	0	Source=MGA;ID=01.gene_205;
+01	MGA	CDS	136424	136753	.	+	0	Source=MGA;ID=01.cds_gene_205;Parent=01.gene_205;
+01	MGA	Shine_Dalgarno_sequence	136408	136412	.	+	0	ID=01.rbs_gene_205;Source=MGA;Parent=01.gene_205;
+01	MGA	gene	136746	136953	.	+	0	Source=MGA;ID=01.gene_206;
+01	MGA	CDS	136759	136953	.	+	0	Source=MGA;ID=01.cds_gene_206;Parent=01.gene_206;
+01	MGA	Shine_Dalgarno_sequence	136746	136750	.	+	0	ID=01.rbs_gene_206;Source=MGA;Parent=01.gene_206;
+01	MGA	gene	136961	137291	.	+	0	Source=MGA;ID=01.gene_207;
+01	MGA	CDS	136977	137291	.	+	0	Source=MGA;ID=01.cds_gene_207;Parent=01.gene_207;
+01	MGA	Shine_Dalgarno_sequence	136961	136965	.	+	0	ID=01.rbs_gene_207;Source=MGA;Parent=01.gene_207;
+01	MGA	gene	137292	137473	.	+	0	Source=MGA;ID=01.gene_208;
+01	MGA	CDS	137306	137473	.	+	0	Source=MGA;ID=01.cds_gene_208;Parent=01.gene_208;
+01	MGA	Shine_Dalgarno_sequence	137292	137296	.	+	0	ID=01.rbs_gene_208;Source=MGA;Parent=01.gene_208;