Mercurial > repos > computational-metabolomics > mspurity_filterfragspectra
view filterFragSpectra.xml @ 3:cad0376c0b66 draft
"planemo upload for repository https://github.com/computational-metabolomics/mspurity-galaxy commit 89bf304d12233004031de3c3e703a472b0ba5459"
author | computational-metabolomics |
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date | Thu, 09 Apr 2020 14:28:45 -0400 |
parents | 96af79da0cc6 |
children | 2e10c13085c9 |
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<tool id="mspurity_filterfragspectra" name="msPurity.filterFragSpectra" version="@TOOL_VERSION@+galaxy@GALAXY_TOOL_VERSION@"> <description> Filter fragmentations spectra associated with an XCMS feature </description> <macros> <import>macros.xml</import> </macros> <expand macro="requirements" /> <command detect_errors="exit_code" interpreter="Rscript"><![CDATA[ filterFragSpectra.R --out_rdata='$filterFragSpectra_output_rdata' --out_peaklist_prec='$filterFragSpectra_output_prec_tsv' --out_peaklist_frag='$filterFragSpectra_output_frag_tsv' --pa='$pa' --ilim=$ilim --plim=$plim --ra=$ra --snr=$snr --snmeth=$snmeth $rmp ]]></command> <inputs> <param argument="--pa" type="data" label="purityA object with fragmentation linked to XCMS features" format="rdata" help="purityA object saved as 'pa' in a RData file where fragmentation has been linked to XCMS features(output from frag4feature tool)"/> <param argument="--plim" type="float" value="0.5" help="" label="Miniumum precursor ion purity of the associated precursor for fragmentation spectra scan" /> <param argument="--ilim" type="float" value="0.0" label="Peak instensity threshold" help="" /> <param argument="--ra" type="float" min="0.0" max="1.0" value="0.0" label="Relative abundance threshold" help="" /> <param argument="--snr" type="float" value="0.0" label="Signal-to-noise threshold" help="" /> <param argument="--snmeth" type="select" label="Function to calculate noise." help="" > <option value="median" selected="true">median</option> <option value="mean">mean</option> <!-- <option value="mad">mad</option> --> </param> <param argument="--rmp" type="boolean" checked="false" truevalue="--rmp" falsevalue="" label="Remove peaks that do not meet the filtering criteria. Otherwise peaks will be flagged instead." help="" /> </inputs> <outputs> <data name="filterFragSpectra_output_rdata" format="rdata" label="${tool.name} on ${on_string}: RData" /> <data name="filterFragSpectra_output_prec_tsv" format="tsv" label="${tool.name} on ${on_string}: peaklist (precursors)" /> <data name="filterFragSpectra_output_frag_tsv" format="tsv" label="${tool.name} on ${on_string}: peaklist (fragments)" /> </outputs> <tests> <test> <param name="pa" value="frag4feature_output.RData" /> <output name="filterFragSpectra_output_rdata" file="filterFragSpectra_output.RData" ftype="rdata" compare="sim_size" /> <output name="filterFragSpectra_output_prec_tsv" file="filterFragSpectra_output_prec.tsv" ftype="tsv" /> <output name="filterFragSpectra_output_frag_tsv" file="filterFragSpectra_output_frag.tsv" ftype="tsv" /> </test> </tests> <help><![CDATA[ ============================================================= Filter Fragmentation Spectra ============================================================= ----------- Description ----------- Flag and filter features based on signal-to-noise ratio, relative abundance, intensity threshold and precursor ion purity of precursor. **Example LC-MS/MS processing workflow** * Purity assessments + (mzML files) -> purityA -> (pa) * XCMS processing + (mzML files) -> xcms.xcmsSet -> xcms.merge -> xcms.group -> xcms.retcor -> xcms.group -> (xset) * Fragmentation processing + (xset, pa) -> frag4feature -> **filterFragSpectra** -> averageAllFragSpectra -> createDatabase -> spectralMatching -> (sqlite spectral database) See Bioconductor documentation for more details, functions: msPurity::filterFragSpectra() ----------- Outputs ----------- * filter_fragmentation_spectra_rdata: RData of the purityA object (pa) with filtered data * peaklist_prec_tsv: precursor peaklist * peaklist_frag_tsv: fragmentation peaklist ]]></help> <expand macro="citations" /> </tool>