Mercurial > repos > dereeper > sniplay
view SNP_density/calculateSlidingWindowsSNPdensitiesFromVCF_wrapper.xml @ 15:31c23d943c29 draft default tip
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author | dereeper |
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date | Tue, 08 Jan 2019 08:47:56 -0500 |
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<tool id="sniplay_density" name="SNP density" version="2.0.0"> <!-- [REQUIRED] Tool description displayed after the tool name --> <description> Calculate SNP densities along chromosome from a VCF input</description> <!-- [OPTIONAL] 3rd party tools, binaries, modules... required for the tool to work --> <requirements> <requirement type="binary">perl</requirement> <requirement type="package" version="1.6.924">perl-bioperl</requirement> <requirement type="package" version="0.1.14">vcftools</requirement> <requirement type="package" version="0.1.14">perl-vcftools-vcf</requirement> </requirements> <!-- [STRONGLY RECOMMANDED] Exit code rules --> <stdio> <!-- [HELP] If no exit code rule is defined, the tool will stop if anything is written to STDERR --> <exit_code range="1:" level="fatal" /> </stdio> <!-- [OPTIONAL] Command to be executed to get the tool's version string --> <version_command> <!-- tool_binary -v --> </version_command> <!-- [REQUIRED] The command to execute --> <command interpreter="bash"> calculateSlidingWindowsSNPdensitiesFromVCF.sh $filein $fileout $fileout_bysample $step </command> <!-- [REQUIRED] Input files and tool parameters --> <inputs> <param name="filein" type="data" format="vcf" optional="false" label="VCF input" /> <param name="step" type="integer" value="200000" label="Step" help="Step in bp"/> <param name="fileout_label" type="text" value="densities" label="Output name" help="Output name for tabular files" /> </inputs> <!-- [REQUIRED] Output files --> <outputs> <data name="fileout" format="txt" label="${fileout_label}" /> <data name="fileout_bysample" format="txt" label="${fileout_label}.by_sample" /> </outputs> <tests> <test> <param name="filein" value="vcf2fastaAndHapmap-sample.vcf" /> <param name="step" value="20000" /> <output name="fileout" file="SNPden-result.txt" /> <output name="fileout_bysample" file="SNPden-result_bysample.txt" /> </test> <!-- [HELP] Multiple tests can be defined with different parameters --> <!-- <test> </test> --> </tests> <!-- [OPTIONAL] Help displayed in Galaxy --> <help><![CDATA[ .. class:: infomark **Authors** Dereeper Alexis (alexis.dereeper@ird.fr), IRD, South Green platform | **Please cite** "SNiPlay3: a web-based application for exploration and large scale analyses of genomic variations", **Dereeper A. et al.**, Nucl. Acids Res. (1 july 2015) 43 (W1). .. class:: infomark **Galaxy integration** Provided by Southgreen & Andres Gwendoline (Institut Français de Bioinformatique) & Marcon Valentin (IFB & INRA) .. class:: infomark **Support** For any questions about Galaxy integration, please send an e-mail to alexis.dereeper@ird.fr --------------------------------------------------- ============= SNP densities ============= ----------- Description ----------- Calculate SNP densities along chromosome from a VCF file ------------ Dependencies ------------ VCFtools vcftools_ 0.1.14, Conda version VCFtools Perl libraries perl-vcftools-vcf_ 0.1.14, Conda version Bioperl perl-bioperl_ 1.6.924, Conda version .. _vcftools: https://anaconda.org/bioconda/vcftools .. _perl-vcftools-vcf: https://anaconda.org/bioconda/perl-vcftools-vcf .. _perl-bioperl: https://anaconda.org/bioconda/perl-bioperl ---------- Input file ---------- VCF file File with SNPs ---------- Parameters ---------- Step Step in bp for the window to calculate SNP density Output name Output base name for the two ouput files ------------ Output files ------------ Output_name Tabular file with SNP density in each postion Output_name.by_sample Tabular file with SNP density for each sample --------------------------------------------------- --------------- Working example --------------- Input file ========== vcf file ----------- :: #fileformat=VCFv4.1 #FILTER=<ID=LowQual,Description="Low quality"> #FORMAT=<ID=AD,Number=.,Type=Integer,Description="Allelic depths for the ref and alt alleles in the order listed"> [...] CHROM POS ID REF ALT QUAL FILTER INFO FORMAT CATB1 chr1 2209 . G T 213.84 . AC=2;AF=1.00;AN=2;DP=7;Dels=0.00;FS=0.000;HaplotypeScore=0.0000;MLEAC=2;MLEAF=1.00;MQ=41.50;MQ0=0;QD=30.55;EFF=DOWNSTREAM(MODIFIER||||Cc01g00020|mRNA||GSCOCT00012438001|),UPSTREAM(MODIFIER||||Cc01g00010|mRNA||GSCOCT00012439001|) GT:AD:DP:GQ:PL 1/1:0,7:7:18:242,18,0 Parameters ========== Step -> 200000 Output name -> densities Output files ============ densities --------- :: Chromosome Position SNPs chr1 200000 355 chr1 400000 228 chr1 600000 63 chr1 800000 191 densities.by_sample ------------------- :: Chromosome BA58 BA59 BD54 chr1 220 197 225 chr1 130 119 133 chr1 43 43 40 chr1 139 167 141 ]]></help> <citations> <!-- [HELP] As DOI or BibTex entry --> <citation type="bibtex">@article{Dereeper03062015, author = {Dereeper, Alexis and Homa, Felix and Andres, Gwendoline and Sempere, Guilhem and Sarah, Gautier and Hueber, Yann and Dufayard, Jean-François and Ruiz, Manuel}, title = {SNiPlay3: a web-based application for exploration and large scale analyses of genomic variations}, year = {2015}, doi = {10.1093/nar/gkv351}, abstract ={SNiPlay is a web-based tool for detection, management and analysis of genetic variants including both single nucleotide polymorphisms (SNPs) and InDels. Version 3 now extends functionalities in order to easily manage and exploit SNPs derived from next generation sequencing technologies, such as GBS (genotyping by sequencing), WGRS (whole gre-sequencing) and RNA-Seq technologies. Based on the standard VCF (variant call format) format, the application offers an intuitive interface for filtering and comparing polymorphisms using user-defined sets of individuals and then establishing a reliable genotyping data matrix for further analyses. Namely, in addition to the various scaled-up analyses allowed by the application (genomic annotation of SNP, diversity analysis, haplotype reconstruction and network, linkage disequilibrium), SNiPlay3 proposes new modules for GWAS (genome-wide association studies), population stratification, distance tree analysis and visualization of SNP density. Additionally, we developed a suite of Galaxy wrappers for each step of the SNiPlay3 process, so that the complete pipeline can also be deployed on a Galaxy instance using the Galaxy ToolShed procedure and then be computed as a Galaxy workflow. SNiPlay is accessible at http://sniplay.southgreen.fr.}, URL = {http://nar.oxfordjournals.org/content/early/2015/06/03/nar.gkv351.abstract}, eprint = {http://nar.oxfordjournals.org/content/early/2015/06/03/nar.gkv351.full.pdf+html}, journal = {Nucleic Acids Research} } </citation> </citations> </tool>