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1 <tool id="ips5" name="Interproscan functional predictions of ORFs" version="5.0.0mkh">
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2 <description>Interproscan functional predictions of ORFs.</description>
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3 <requirements>
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4 <!--
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5 <requirement type="package">signalp</requirement>
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6 <requirement type="package">phobius</requirement>
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7 <requirement type="package">tmhmm</requirement>
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8 -->
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9 <requirement type="set_environment">INTERPROSCAN_SCRIPT_PATH</requirement>
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10 </requirements>
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11
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12 <command>
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13 #import os
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14
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15 \$IPS_HOME/interproscan.sh
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16 ## disables the precalculated lookup service, all calculation will be run locally
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17 -dp
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18 --input $infile
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19 --seqtype $seqtype
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20 -f $output_types
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21 --applications $appl
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22 --tempdir \$TEMP
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23
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24 $pathways
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25 $goterms
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26 $iprlookup
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27 $mode
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28 --output-file-base __base__
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29 2>&1;
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30
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31 #if 'tsv' in str($output_types):
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32 mv __base__.tsv $tsv_file;
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33 #end if
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34
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35 #if 'gff3' in str($output_types):
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36 mv __base__.gff3 $gff3_file;
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37 #end if
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38
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39 #if 'xml' in str($output_types):
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40 mv __base__.xml $xml_file;
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41 #end if
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42
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43 #if 'html' in str($output_types):
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44 mkdir -p $html_file.files_path;
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45 #set temp_archive_file = '__base__.html.tar.gz'
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46 tar -C $html_file.files_path -xvmzf $temp_archive_file;
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47 python \$INTERPROSCAN_SCRIPT_PATH/interproscan5/create_index.py $html_file $html_file.files_path;
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48 rm $temp_archive_file;
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49 #end if
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50
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51 #if 'svg' in str($output_types):
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52 mkdir -p $svg_file.files_path;
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53 #set temp_archive_file = '__base__.svg.tar.gz'
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54 tar -C $svg_file.files_path -xvmzf $temp_archive_file;
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55 python \$INTERPROSCAN_SCRIPT_PATH/interproscan5/create_index.py $svg_file $svg_file.files_path;
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56 rm $temp_archive_file;
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57 #end if
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58
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59 echo "End of ipsfaux"
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60 </command>
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61
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62 <inputs>
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63 <param name="infile" type="data" format="fasta" label="Sequence Fasta File (ignored -- faux mode)"/>
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64
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65 <param name="seqtype" type="select" label="Type of the input sequences" help="">
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66 <option value="p" selected="true">Protein</option>
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67 <option value="n">DNA / RNA</option>
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68 </param>
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69
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70 <param name="mode" type="boolean" label="Run on cluster?" help="Check to submit job to cluster."
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71 truevalue="--mode=cluster --clusterrunid=gtdi-ips-analysis"
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72 falsevalue=""/>
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73
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74 <param name="appl" type="select" multiple="True" display="checkboxes" label="Applications to run"
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75 help="Select your programm.">
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76 <option value="TIGRFAM"
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77 selected="true">TIGRFAM: protein families based on Hidden Markov Models or HMMs</option>
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78 <option value="PIRSF" selected="true">PIRSF: non-overlapping clustering of UniProtKB sequences into a hierarchical order (evolutionary relationships)</option>
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79 <option value="ProDom"
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80 selected="true">ProDom: set of protein domain families generated from the UniProtKB</option>
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81 <option value="Panther"
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82 selected="true">Panther: Protein ANalysis THrough Evolutionary Relationships</option>
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83 <option value="SMART" selected="true">SMART: identification and analysis of domain architectures based on Hidden Markov Models or HMMs</option>
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84 <option value="PrositeProfiles" selected="true">PROSITE Profiles: protein domains, families and functional sites as well as associated profiles to identify them</option>
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85 <option value="PrositePatterns" selected="true">PROSITE Pattern: protein domains, families and functional sites as well as associated patterns to identify them</option>
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86 <option value="HAMAP"
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87 selected="true">HAMAP: High-quality Automated Annotation of Microbial Proteomes</option>
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88 <option value="PfamA" selected="true">PfamA: protein families, each represented by multiple sequence alignments and hidden Markov models</option>
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89 <option value="PRINTS" selected="true">PRINTS: group of conserved motifs (fingerprints) used to characterise a protein family</option>
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90 <option value="SuperFamily"
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91 selected="true">SUPERFAMILY: database of structural and functional annotation</option>
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92 <option value="Coils" selected="true">Coils: Prediction of Coiled Coil Regions in Proteins</option>
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93 <option value="Gene3d" selected="true">Gene3d: Structural assignment for whole genes and genomes using the CATH domain structure database</option>
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94 <option value="SignalP-GRAM_POSITIVE" selected="false">SignalP Gram Positive Bacteria</option>
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95 <option value="SignalP-GRAM_NEGATIVE" selected="false">SignalP Gram Negative Bacteria</option>
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96 <option value="SignalP-EUK" selected="false">SignalP Eukaryotic Bacteria</option>
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97 <option value="Phobius" selected="false">Phobius: combined transmembrane topology and signal peptide predictor</option>
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98 <option value="TMHMM" selected="false">TMHMM: Prediction of transmembrane helices in proteins</option>
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99 </param>
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100
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101 <param name="pathways" truevalue="--pathways" falsevalue="" checked="True" type="boolean"
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102 label="Include pathway information"
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103 help="Option that provides mappings from matches to pathway information, which is based on the matched manually curated InterPro entries. (--pathways)"/>
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104 <param name="goterms" truevalue="--goterms" falsevalue="" checked="True" type="boolean"
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105 label="Include Gene Ontology (GO) mappings"
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106 help="Look up of corresponding Gene Ontology annotation. Implies -iprlookup option. (--goterms)"/>
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107
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108 <param name="iprlookup" truevalue="--iprlookup" falsevalue="" checked="False" type="boolean"
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109 label="Provide additional mappings"
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110 help="Provide mappings from matched member database signatures to the InterPro entries that they are integrated into (--iprlookup)"/>
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111
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112 <param name="output_types" type="select" display="checkboxes" multiple="true" label="Output formats"
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113 help="Select the output formats to generate (at least one)">
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114 <option value="tsv" selected="true">Raw (TSV)</option>
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115 <option value="html" selected="true">HTML (Graphical)</option>
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116 <option value="svg" selected="false">SVG (Scalable Vector Graphics)</option>
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117 <option value="gff3" selected="true">GFF3</option>
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118 <option value="xml" selected="false">XML</option>
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119 </param>
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120 </inputs>
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121
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122 <outputs>
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123 <data format="tabular" name="tsv_file" label="Interproscan TSV on ${on_string}">
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124 <filter>'tsv' in output_types</filter>
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125 </data>
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126 <data format="html" name="html_file" label="Interproscan HTML on ${on_string}">
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127 <filter>'html' in output_types</filter>
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128 </data>
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129 <data format="html" name="svg_file" label="Interproscan SVG on ${on_string}">
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130 <filter>'svg' in output_types</filter>
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131 </data>
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132 <data format="gff3" name="gff3_file" label="Interproscan GFF3 on ${on_string}">
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133 <filter>'gff3' in output_types</filter>
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134 </data>
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135 <data format="xml" name="xml_file" label="Interproscan XML on ${on_string}">
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136 <filter>'xml' in output_types</filter>
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137 </data>
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138 </outputs>
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139
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140 <requirements>
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141 </requirements>
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142
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143 <help>
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144
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145 **What it does**
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146
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147 Interproscan is a batch tool to query the Interpro database. It provides annotations based on multiple searches of profile and other functional databases.
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148
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149
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150 #####
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151 Input
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152 #####
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153
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154 Required is a FASTA file containing protein or nucleotide sequences.
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155
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156
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157 ######
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158 Output
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159 ######
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160
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161 In this version of InterProScan_, you can retrieve output in any of the following five formats:
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162
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163 * TSV: a simple tab-delimited file format
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164 * XML: the new "IMPACT" XML format (XSD available here_).
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165 * GFF: The `GFF 3.0`_ format
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166 * HTML: An HTML representation of the protein matches
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167 * SVG: An Scalable Vector Graphics representation of the protein matches
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168
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169
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170 .. _`GFF 3.0`: http://gmod.org/wiki/GFF#GFF3_Format
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171 .. _here: http://www.ebi.ac.uk/interpro/resources/schemas/interproscan5
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172
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173
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174
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175 Tab-separated values format (TSV)
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176 =================================
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177
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178 Basic tab delimited format.
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179
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180
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181 Example Output
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182 --------------
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183
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184 ::
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185
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186 P51587 14086411a2cdf1c4cba63020e1622579 3418 Pfam PF09103 BRCA2, oligonucleotide/oligosaccharide-binding, domain 1 2670 2799 7.9E-43 T 15-03-2013
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187 P51587 14086411a2cdf1c4cba63020e1622579 3418 ProSiteProfiles PS50138 BRCA2 repeat profile. 1002 1036 0.0 T 18-03-2013 IPR002093 BRCA2 repeat GO:0005515|GO:0006302
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188 P51587 14086411a2cdf1c4cba63020e1622579 3418 Gene3D G3DSA:2.40.50.140 2966 3051 3.1E-52 T 15-03-2013
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189 ...
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190
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191
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192 The TSV format presents the match data in columns as follows:
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193
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194 - Protein Accession (e.g. P51587)
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195 - Sequence MD5 digest (e.g. 14086411a2cdf1c4cba63020e1622579)
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196 - Sequence Length (e.g. 3418)
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197 - Analysis (e.g. Pfam / PRINTS / Gene3D)
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198 - Signature Accession (e.g. PF09103 / G3DSA:2.40.50.140)
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199 - Signature Description (e.g. BRCA2 repeat profile)
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200 - Start location
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201 - Stop location
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202 - Score - is the e-value of the match reported by member database method (e.g. 3.1E-52)
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203 - Status - is the status of the match (T: true)
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204 - Date - is the date of the run
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205 - (InterProScan_ annotations - accession (e.g. IPR002093) - optional column; only displayed if -iprscan option is switched on)
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206 - (InterProScan_ annotations - description (e.g. BRCA2 repeat) - optional column; only displayed if -iprscan option is switched on)
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207 - (GO annotations (e.g. GO:0005515) - optional column; only displayed if --goterms option is switched on)
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208 - (Pathways annotations (e.g. REACT_71) - optional column; only displayed if --pathways option is switched on)
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209
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210
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211 Extensible Markup Language (XML)
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212 ================================
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213
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214 XML representation of the matches - this is the richest form of the data. The XML Schema Definition (XSD) is available [http://www.ebi.ac.uk/interpro/resources/schemas/interproscan5 here].
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215
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216 Example Output
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217 --------------
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218
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219 .. image:: $PATH_TO_IMAGES/example_xml_output.png
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220
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221
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222
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223 Generic Feature Format Version 3 (GFF3)
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224 =======================================
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225
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226 The GFF3 format is a flat tab-delimited file, which is much richer then the TSV output format. It allows you to trace back from matches to predicted proteins and to nucleic acid sequences. It also contains a FASTA format representation of the predicted protein sequences and their matches. You will find a documentation of all the columns and attributes used on [http://www.sequenceontology.org/gff3.shtml].
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227
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228 Example Output
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229 --------------
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230
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231 ::
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232
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233 ##gff-version 3
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234 ##feature-ontology http://song.cvs.sourceforge.net/viewvc/song/ontology/sofa.obo?revision=1.269
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235 ##sequence-region AACH01000027 1 1347
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236 ##seqid|source|type|start|end|score|strand|phase|attributes
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237 AACH01000027 provided_by_user nucleic_acid 1 1347 . + . Name=AACH01000027;md5=b2a7416cb92565c004becb7510f46840;ID=AACH01000027
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238 AACH01000027 getorf ORF 1 1347 . + . Name=AACH01000027.2_21;Target=pep_AACH01000027_1_1347 1 449;md5=b2a7416cb92565c004becb7510f46840;ID=orf_AACH01000027_1_1347
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239 AACH01000027 getorf polypeptide 1 449 . + . md5=fd0743a673ac69fb6e5c67a48f264dd5;ID=pep_AACH01000027_1_1347
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240 AACH01000027 Pfam protein_match 84 314 1.2E-45 + . Name=PF00696;signature_desc=Amino acid kinase family;Target=null 84 314;status=T;ID=match$8_84_314;Ontology_term="GO:0008652";date=15-04-2013;Dbxref="InterPro:IPR001048","Reactome:REACT_13"
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241 ##sequence-region 2
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242 ...
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243 >pep_AACH01000027_1_1347
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244 LVLLAAFDCIDDTKLVKQIIISEIINSLPNIVNDKYGRKVLLYLLSPRDPAHTVREIIEV
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245 LQKGDGNAHSKKDTEIRRREMKYKRIVFKVGTSSLTNEDGSLSRSKVKDITQQLAMLHEA
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246 GHELILVSSGAIAAGFGALGFKKRPTKIADKQASAAVGQGLLLEEYTTNLLLRQIVSAQI
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247 LLTQDDFVDKRRYKNAHQALSVLLNRGAIPIINENDSVVIDELKVGDNDTLSAQVAAMVQ
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248 ADLLVFLTDVDGLYTGNPNSDPRAKRLERIETINREIIDMAGGAGSSNGTGGMLTKIKAA
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249 TIATESGVPVYICSSLKSDSMIEAAEETEDGSYFVAQEKGLRTQKQWLAFYAQSQGSIWV
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250 DKGAAEALSQYGKSLLLSGIVEAEGVFSYGDIVTVFDKESGKSLGKGRVQFGASALEDML
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251 RSQKAKGVLIYRDDWISITPEIQLLFTEF
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252 ...
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253 >match$8_84_314
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254 KRIVFKVGTSSLTNEDGSLSRSKVKDITQQLAMLHEAGHELILVSSGAIAAGFGALGFKK
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255 RPTKIADKQASAAVGQGLLLEEYTTNLLLRQIVSAQILLTQDDFVDKRRYKNAHQALSVL
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256 LNRGAIPIINENDSVVIDELKVGDNDTLSAQVAAMVQADLLVFLTDVDGLYTGNPNSDPR
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257 AKRLERIETINREIIDMAGGAGSSNGTGGMLTKIKAATIATESGVPVYICS
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258
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259
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260 Scalable Vector Graphics (SVG) and HyperText Markup Language (HTML)
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261 ====================================================================
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262
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263 InterProScan_ 5 outputs a single HTML/SVG file for each protein sequence analysed.
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264
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265
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266 Example Output
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267 --------------
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268
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269 .. image:: $PATH_TO_IMAGES/P51587.svg.png
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270
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271 .. _InterProScan: http://www.ebi.ac.uk/interpro
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272
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273
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274 ----------
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275 References
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276 ----------
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277
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278
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279 If you use this Galaxy tool in work leading to a scientific publication please
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280 cite the following papers:
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281
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282 Peter J.A. Cock, Björn A. Grüning, Konrad Paszkiewicz and Leighton Pritchard (2013).
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283 Galaxy tools and workflows for sequence analysis with applications
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284 in molecular plant pathology. PeerJ 1:e167
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285 http://dx.doi.org/10.7717/peerj.167
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286
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287 Zdobnov EM, Apweiler R (2001)
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288 InterProScan an integration platform for the signature-recognition methods in InterPro.
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289 Bioinformatics 17, 847-848.
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290 http://dx.doi.org/10.1093/bioinformatics/17.9.847
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291
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292 Quevillon E, Silventoinen V, Pillai S, Harte N, Mulder N, Apweiler R, Lopez R (2005)
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293 InterProScan: protein domains identifier.
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294 Nucleic Acids Research 33 (Web Server issue), W116-W120.
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295 http://dx.doi.org/10.1093/nar/gki442
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296
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297 Hunter S, Apweiler R, Attwood TK, Bairoch A, Bateman A, Binns D, Bork P, Das U, Daugherty L, Duquenne L, Finn RD, Gough J, Haft D, Hulo N, Kahn D, Kelly E, Laugraud A, Letunic I, Lonsdale D, Lopez R, Madera M, Maslen J, McAnulla C, McDowall J, Mistry J, Mitchell A, Mulder N, Natale D, Orengo C, Quinn AF, Selengut JD, Sigrist CJ, Thimma M, Thomas PD, Valentin F, Wilson D, Wu CH, Yeats C. (2009)
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298 InterPro: the integrative protein signature database.
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299 Nucleic Acids Research 37 (Database Issue), D224-228.
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300 http://dx.doi.org/10.1093/nar/gkn785
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301
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302
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303 This wrapper is available to install into other Galaxy Instances via the Galaxy Tool Shed at
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304 http://toolshed.g2.bx.psu.edu/view/bgruening/interproscan5
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305
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306
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307 **Galaxy Wrapper Author**::
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308
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309 * Bjoern Gruening, University of Freiburg
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310 * Konrad Paszkiewicz, University of Exeter
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311
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312 </help>
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313 </tool>
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