comparison IslandPath.xml @ 0:d798a01c4c16 draft

"planemo upload for repository https://github.com/brinkmanlab/galaxy-tools/tree/master/islandpath-dimob commit 33b02e08cbc8f76fb4b8537f8c968393f85a1b5e-dirty"
author brinkmanlab
date Fri, 24 Jan 2020 18:01:06 -0500
parents
children a56b2acd567b
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-1:000000000000 0:d798a01c4c16
1 <tool id="islandpath" name="IslandPath" version="1.0.4" profile="16.04">
2 <description>predict genomic islands in bacterial and archaeal genomes based on the presence of dinucleotide biases and mobility genes</description>
3 <edam_topics>
4 <edam_topic>topic_0194</edam_topic>
5 <edam_topic>topic_0091</edam_topic>
6 </edam_topics>
7 <edam_operations>
8 <edam_operation>operation_0362</edam_operation>
9 </edam_operations>
10 <requirements>
11 <requirement type="package" version="1.0.4">islandpath</requirement>
12 </requirements>
13 <version_command><![CDATA[ echo "1.0.4" ]]></version_command>
14 <command detect_errors="aggressive"><![CDATA[
15 #import os
16 #if $input.is_of_type("embl")
17 #set inp=$os.path.basename(str($input))+".embl"
18 #else
19 #set inp=$os.path.basename(str($input))+".gbk"
20 #end if
21 ln -s "$input" "$inp"
22 && islandpath "$inp" "$output"
23 ]]></command>
24 <inputs>
25 <param type="data" format="genbank,embl" name="input" argument="input" label="Input" optional="false"/>
26 </inputs>
27 <outputs>
28 <data format="gff" name="output" />
29 </outputs>
30 <tests>
31 <test expect_num_outputs="1">
32 <param name="input" value="test-data/test.embl" ftype="embl" />
33 <output name="output" checksum="sha256:36d25184326c3415001675921bf76be588edce9fe3313b8082c3eeac83dcf958" ftype="gff" />
34 </test>
35 </tests>
36 <help><![CDATA[
37 [IslandPath](http://www.pathogenomics.sfu.ca/islandpath/) was originally designed to aid to the identification of prokaryotic genomics islands (GIs),
38 including pathogenicity islands, of potentially horizontally transferred genes by visualizing several common characteristics of GIs such as abnormal
39 sequence composition or the presence of genes that functionally related to mobile elements (termed mobility genes).
40
41 Further studies (see [Hsiao et al 2005](http://www.ncbi.nlm.nih.gov/pubmed/16299586)) used dinucleotide sequence compostion bias and the presence of
42 mobility genes to develop a dataset of GIs (IslandPath DIMOB) for multiple organisms and revealed that these genomic regions contain higher
43 proportions of novel genes.
44
45 A recent study (see Langille et al 2008 (submitted)), developed a new method called [IslandPick](http://www.pathogenomics.sfu.ca/islandpick/)
46 that used comparative genomics to develop stringent data sets of GIs and non-GIs. These positive and negative data sets that were not based on
47 sequence composition bias allowed for an independent review of several previously published GI predictors. Although the overall accuracy of
48 several of the tools were similar, IslandPath DIMOB was shown to have the highest accuracy.
49 ]]></help>
50 <citations>
51 <citation type="doi">10.5281/zenodo.3364789</citation>
52 <citation type="doi">10.1093/bioinformatics/bty095</citation>
53 </citations>
54 </tool>