Mercurial > repos > bgruening > uniprot_rest_interface
view uniprot.xml @ 6:054483e27a35 draft
planemo upload for repository https://github.com/bgruening/galaxytools/tree/master/tools/uniprot_rest_interface commit f7a71c09b68d85a73a7ce761b4e64d5de29daee0
| author | bgruening |
|---|---|
| date | Sun, 16 Sep 2018 13:41:08 -0400 |
| parents | fe94765e8814 |
| children | bfdc6a7ffd3a |
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<tool id="uniprot" name="UniProt" version="0.2"> <description>ID mapping and retrieval</description> <macros> <import>macros.xml</import> </macros> <requirements> <requirement type="package" version="2.19.1">requests</requirement> </requirements> <version_command>echo "UniProt ID mapping for Galaxy in version 0.1"</version_command> <command detect_errors="aggressive"><![CDATA[ cut -f ${id_column} '$infile' > id_file.tabular && '$__tool_directory__/uniprot.py' #if $tool.tool_choice == "retrieve": retrieve -f $tool.format id_file.tabular ./output #elif $tool.tool_choice == "map": map #if $tool.from.category_FROM == "uniprot" '${tool.from.db_uniprot_FROM}' #elif $tool.from.category_FROM == "oseqdb" ${tool.from.db_oseqdb} #elif $tool.from.category_FROM == "3Dstrdb" ${tool.from.db_3Dstrdb} #elif $tool.from.category_FROM == "ppidb" ${tool.from.db_ppidb} #elif $tool.from.category_FROM == "chemistry" ${tool.from.db_chemistry} #elif $tool.from.category_FROM == "protfgdb" ${tool.from.db_protfgdb} #elif $tool.from.category_FROM == "polymorphismANDmutation" ${tool.from.db_polymorphismANDmutation} #elif $tool.from.category_FROM == "2DgelDB" ${tool.from.db_2DgelDB} #elif $tool.from.category_FROM == "ProtocolsMaterialsDB" ${tool.from.db_ProtocolsMaterialsDB} #elif $tool.from.category_FROM == "GenomeAnnotationDB" ${tool.from.db_GenomeAnnotationDB} #elif $tool.from.category_FROM == "OrganismSpecificGeneDB" ${tool.from.db_OrganismSpecificGeneDB} #elif $tool.from.category_FROM == "phylogenomic" ${tool.from.db_phylogenomic} #elif $tool.from.category_FROM == "EnzymePathwayDB" ${tool.from.db_EnzymePathwayDB} #elif $tool.from.category_FROM == "GeneExpression" ${tool.from.db_GeneExpression} #elif $tool.from.category_FROM == "other" ${tool.from.db_other} #end if #if $tool.to.category_TO == "uniprot" ${tool.to.db_uniprot_TO} #elif $tool.to.category_TO == "oseqdb" ${tool.to.db_oseqdb} #elif $tool.to.category_TO == "3Dstrdb" ${tool.to.db_3Dstrdb} #elif $tool.to.category_TO == "ppidb" ${tool.to.db_ppidb} #elif $tool.to.category_TO == "chemistry" ${tool.to.db_chemistry} #elif $tool.to.category_TO == "protfgdb" ${tool.to.db_protfgdb} #elif $tool.to.category_TO == "polymorphismANDmutation" ${tool.to.db_polymorphismANDmutation} #elif $tool.to.category_TO == "2DgelDB" ${tool.to.db_2DgelDB} #elif $tool.to.category_TO == "ProtocolsMaterialsDB" ${tool.to.db_ProtocolsMaterialsDB} #elif $tool.to.category_TO == "GenomeAnnotationDB" ${tool.to.db_GenomeAnnotationDB} #elif $tool.to.category_TO == "OrganismSpecificGeneDB" ${tool.to.db_OrganismSpecificGeneDB} #elif $tool.to.category_TO == "phylogenomic" ${tool.to.db_phylogenomic} #elif $tool.to.category_TO == "EnzymePathwayDB" ${tool.to.db_EnzymePathwayDB} #elif $tool.to.category_TO == "GeneExpression" ${tool.to.db_GeneExpression} #elif $tool.to.category_TO == "other" ${tool.to.db_other} #end if id_file.tabular ./output #end if ]]></command> <inputs> <param name="infile" type="data" format="tabular" label="Input file with IDs" help="One ID in each line."/> <param name="id_column" label="ID column" type="data_column" data_ref="infile" help=""/> <conditional name="tool"> <param name="tool_choice" type="select" label="Do you want to map IDs or retrieve data from UniProt" help=""> <option value="retrieve">Retrieve: request entries by uniprot accession using batch retrieval</option> <option value="map" selected="True">Map: map a list of ids from one format onto another using uniprots mapping API</option> </param> <when value="map"> <conditional name="from"> <expand macro="macro-category_FROM"/> <when value="uniprot"> <expand macro="macro-db_uniprot_FROM"/> </when> <when value="oseqdb"> <expand macro="macro-db_oseqdb"/> </when> <when value="3Dstrdb"> <expand macro="macro-db_3Dstrdb"/> </when> <when value="ppidb"> <expand macro="macro-db_ppidb"/> </when> <when value="chemistry"> <expand macro="macro-db_chemistry"/> </when> <when value="protfgdb"> <expand macro="macro-db_protfgdb"/> </when> <when value="polymorphismANDmutation"> <expand macro="macro-db_polymorphismANDmutation"/> </when> <when value="2DgelDB"> <expand macro="macro-db_2DgelDB"/> </when> <when value="ProtocolsMaterialsDB"> <expand macro="macro-db_ProtocolsMaterialsDB"/> </when> <when value="GenomeAnnotationDB"> <expand macro="macro-db_GenomeAnnotationDB"/> </when> <when value="OrganismSpecificGeneDB"> <expand macro="macro-db_OrganismSpecificGeneDB"/> </when> <when value="phylogenomic"> <expand macro="macro-db_phylogenomic"/> </when> <when value="EnzymePathwayDB"> <expand macro="macro-db_EnzymePathwayDB"/> </when> <when value="GeneExpression"> <expand macro="macro-db_GeneExpression"/> </when> <when value="other"> <expand macro="macro-db_other"/> </when> </conditional> <conditional name="to"> <expand macro="macro-category_TO"/> <when value="uniprot"> <expand macro="macro-db_uniprot_TO"/> </when> <when value="oseqdb"> <expand macro="macro-db_oseqdb"/> </when> <when value="3Dstrdb"> <expand macro="macro-db_3Dstrdb"/> </when> <when value="ppidb"> <expand macro="macro-db_ppidb"/> </when> <when value="chemistry"> <expand macro="macro-db_chemistry"/> </when> <when value="protfgdb"> <expand macro="macro-db_protfgdb"/> </when> <when value="polymorphismANDmutation"> <expand macro="macro-db_polymorphismANDmutation"/> </when> <when value="2DgelDB"> <expand macro="macro-db_2DgelDB"/> </when> <when value="ProtocolsMaterialsDB"> <expand macro="macro-db_ProtocolsMaterialsDB"/> </when> <when value="GenomeAnnotationDB"> <expand macro="macro-db_GenomeAnnotationDB"/> </when> <when value="OrganismSpecificGeneDB"> <expand macro="macro-db_OrganismSpecificGeneDB"/> </when> <when value="phylogenomic"> <expand macro="macro-db_phylogenomic"/> </when> <when value="EnzymePathwayDB"> <expand macro="macro-db_EnzymePathwayDB"/> </when> <when value="GeneExpression"> <expand macro="macro-db_GeneExpression"/> </when> <when value="other"> <expand macro="macro-db_other"/> </when> </conditional> </when> <when value="retrieve"> <param name="format" type="select" label="Choose format of output file" help=""> <option value="fasta">fasta</option> <option value="gff">gff</option> <option value="txt">Text</option> </param> </when> </conditional> </inputs> <outputs> <data name="outfile_retrieve_fasta" format="fasta" from_work_dir="./output" label="${tool.name} on ${on_string} (retrieve output)"> <filter>tool['tool_choice'] == 'retrieve'</filter> <filter>tool['format'] == 'fasta'</filter> </data> <data name="outfile_retrieve_gff" format="gff" from_work_dir="./output" label="${tool.name} on ${on_string} (retrieve output)"> <filter>tool['tool_choice'] == 'retrieve'</filter> <filter>tool['format'] == 'gff'</filter> </data> <data name="outfile_retrieve_txt" format="txt" from_work_dir="./output" label="${tool.name} on ${on_string} (retrieve output)"> <filter>tool['tool_choice'] == 'retrieve'</filter> <filter>tool['format'] == 'txt'</filter> </data> <data name="outfile_map" format="tabular" from_work_dir="./output" label="${tool.name} on ${on_string} (map output)"> <filter>tool['tool_choice'] == 'map'</filter> </data> </outputs> <tests> <test> <param name="infile" value="id_uniprot.tab" ftype="tabular"/> <param name="id_column" value="c1"/> <param name="format" value="fasta"/> <param name="tool_choice" value="retrieve"/> <output name="outfile_retrieve_fasta" file="test1_retrieve.fasta" ftype="fasta" compare="sim_size" /> </test> <test> <param name="infile" value="id_uniprot.tab" ftype="tabular"/> <param name="id_column" value="c1"/> <param name="format" value="gff"/> <param name="tool_choice" value="retrieve"/> <output name="outfile_retrieve_gff" file="test2_retrieve.gff" ftype="gff" compare="sim_size" /> </test> <test> <param name="infile" value="id_uniprot.tab" ftype="tabular"/> <param name="id_column" value="c1"/> <param name="tool_choice" value="map"/> <param name="category_FROM" value="uniprot"/> <param name="db_uniprot_FROM" value="ID"/> <param name="category_TO" value="uniprot"/> <param name="db_uniprot_TO" value="GENENAME"/> <output name="outfile_map" file="test1_map.tab" ftype="tabular"/> </test> <test> <param name="infile" value="id_map_refseq.txt" ftype="tabular"/> <param name="id_column" value="c1"/> <param name="tool_choice" value="map"/> <param name="category_FROM" value="oseqdb"/> <param name="db_oseqdb" value="REFSEQ_NT_ID"/> <param name="category_TO" value="uniprot"/> <param name="db_uniprot_TO" value="ID"/> <output name="outfile_map" file="test2_map.tab" ftype="tabular"/> </test> </tests> <help><![CDATA[ .. class:: infomark **What it does** This tool provides access to the UniProt API. You can retrieve sequence informations given a list of sequence identifiers or map identifiers between different databases. Hence, this tool offers you two modes: *map* and *retrieve*. ----- **INPUT** The input is a list of IDs. *Example*:: Q0P8A9 A0A077ZHN8 A0A077ZFY8 M5B8V9 M5BAG7 S0DS17 .... ----- **MAP OUTPUT EXAMPLES** FROM refseq TO embl:: From To NM_130786 A1BG_HUMAN NM_130786 V9HWD8_HUMAN NM_001087 A0A024R410_HUMAN NM_001087 AAMP_HUMAN FROM uniprot TO genename:: From To Q0P8A9 fdhC A0A077ZHN8 TTRE_0000819801 A0A077ZFY8 TTRE_0000758701 M5B8V9 CMN_01519 M5BAG7 cydC S0DS17 FFUJ_00006 A0A077Z587 TTRE_0000309301 Q13685 AAMP O14639 ABLIM1 ----- **RETRIEVE OUTPUT EXAMPLES** retrieve gff:: #gff-version 3 #sequence-region S0DS17 1 369 #sequence-region M5BAG7 1 563 #sequence-region A0A077Z587 1 772 #sequence-region A0A077ZFY8 1 973 #sequence-region O14639 1 778 O14639 UniProtKB Chain 1 778 . . . ID=PRO_0000075697;Note=Actin-binding LIM protein 1 O14639 UniProtKB Domain 97 156 . . . Note=LIM zinc-binding 1;evidence=ECO:0000255|PROSITE-ProRule:PRU00125 O14639 UniProtKB Domain 156 216 . . . Note=LIM zinc-binding 2;evidence=ECO:0000255|PROSITE-ProRule:PRU00125 O14639 Un... retrieve fasta:: >tr|S0DS17|S0DS17_GIBF5 Related to cytochrom P450 OS=Gibberella fujikuroi (strain CBS 195.34 / IMI 58289 / NRRL A-6831) GN=FFUJ_00006 PE=3 SV=1 MSYQSILLRQVNSLCDNLEEVARDENGGLIDMAMQSDYFTFDVMSEVIFGMAYNALKDTS YRFVTGALGSSNIRIGTLVQSPLPAMCRIDKY... >tr|M5BAG7|M5BAG7_9MICO ABC transporter, fused permease/ABC transporter involved in the biosynthesis of cytochrom bd, fused permease/ATP-binding protein OS=Clavibacter michiganensis subsp. nebraskensis NCPPB 2581 GN=cydC PE=3 SV=1 MNRDGVLRLAQPPTRRTLPGLLAGLASAVGAVALLATSAWLITRASEQPPILFLGMAIVG VRAFALGRAAFRYLERITSHDAAFRALATLRV... >tr|A0A077Z587|A0A077Z587_TRITR Kelch 3 and Kelch 4 and Cytochrom B561 domain con taining protein OS=Trichuris trichiura GN=TTRE_0000309301 PE=4 SV=1 MGSQQAADETQKVVERIILNINVRKDKRSFGLGIKIKKGNVFVSSIRPGSIAEDHFKLYD VIKDVNGSRIDSRELCRDLIRTHKVLTV... ----- This tool is based on the work `Jan Rudolph`_ and the UniProt API. .. _Jan Rudolph: https://github.com/jdrudolph/uniprot ]]></help> <citations> <citation type="doi">10.1093/nar/gku989</citation> </citations> </tool>