Mercurial > repos > galaxyp > openms
view omssa_adapter.xml @ 4:1183846e70a1 draft
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| author | galaxyp |
|---|---|
| date | Wed, 19 Jun 2013 13:15:44 -0400 |
| parents | cf0d72c7b482 |
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<tool id="omssa_adapter" version="0.1.0" name="OMSSA (OpenMS)"> <description> </description> <macros> <import>macros.xml</import> </macros> <expand macro="stdio" /> <expand macro="requires"> <requirement type="package">omssa</requirement> <requirement type="package">blast+</requirement> </expand> <command interpreter="python"> openms_wrapper.py --executable '__SHELL__' --config $setup --executable 'OMSSAAdapter' --config $config </command> <configfiles> <configfile name="setup"> ln -s $database db.fasta; makeblastdb -dbtype prot -parse_seqids -in 'db.fasta' </configfile> <configfile name="config">[simple_options] in=$input1 out=$out database=db.fasta.psq omssa_executable=@WHICH(omssacl)@ variable_modifications=${variable_modifications or ''} fixed_modifications=${fixed_modifications or ''} precursor_mass_tolerance=$precursor_mass_tolerance #if $precursor_mass_tolerance_unit == "ppm" precursor_mass_tolerance_unit_ppm=true #end if fragment_mass_tolerance=$fragment_mass_tolerance min_precursor_charge=$min_precursor_charge max_precursor_charge=$max_precursor_charge v=$v e=$e hl=$hl he=$he threads=4 </configfile> </configfiles> <inputs> <expand macro="id_inputs" /> <expand macro="fixed_modifications_param" /> <expand macro="variable_modifications_param" /> <expand macro="precursor_mass_tolerance_param" /> <expand macro="precursor_mass_tolerance_unit_param" /> <expand macro="fragment_mass_tolerance_param" /> <expand macro="precursor_charge_params" /> <param name="v" label="Maximum Number of Missed Cleavages" value="1" type="integer" /> <param name="e" label="Enzyme" type="select"> <option value="0" selected="true">Trypsin</option> <option value="1">Arg-C</option> <option value="2">CNBr</option> <option value="3">Chymotrypsin (FYWL)</option> <option value="4">Formic Acid</option> <option value="5">Lys-C</option> <option value="6">Lys-C, no P rule</option> <option value="7">Pepsin A</option> <option value="8">Trypsin+CNBr</option> <option value="9">Trypsin+Chymotrypsin (FYWLKR)</option> <option value="10">Trypsin, no P rule</option> <option value="11">Whole protein</option> <option value="12">Asp-N</option> <option value="13">Glu-C</option> <option value="14">Asp-N+Glu-C</option> <option value="15">Top-Down</option> <option value="16">Semi-Tryptic</option> <option value="17">No Enzyme</option> <option value="18">Chymotrypsin, no P rule (FYWL)</option> <option value="19">Asp-N (DE)</option> <option value="20">Glu-C (DE)</option> <option value="21">Lys-N (K)</option> <option value="22">Thermolysin, no P rule</option> <option value="23">Semi-Chymotrypsin (FYWL)</option> <option value="24">Semi-Glu-C</option> </param> <param name="hl" label="Maximum Hits Per Spectrum" type="integer" value="30" /> <param name="he" label="Maximum Hits Per Spectrum" type="float" value="1000" help="The maximum e-value allowed in the hit list. If you set this parameter too small (e.g., he=1), this will effectively introduce FDR filtering. Thus, allowing a less stringent FDR during post-processing will nevertheless return the (better) FDR introduced here, since mediocre hits are not even reported. " /> </inputs> <expand macro="id_outputs" /> <help> **What it does** **Citation** For the underlying tool, please cite ``Marc Sturm, Andreas Bertsch, Clemens Gröpl, Andreas Hildebrandt, Rene Hussong, Eva Lange, Nico Pfeifer, Ole Schulz-Trieglaff, Alexandra Zerck, Knut Reinert, and Oliver Kohlbacher, 2008. OpenMS – an Open-Source Software Framework for Mass Spectrometry. BMC Bioinformatics 9: 163. doi:10.1186/1471-2105-9-163.`` and ``PepNovo: De Novo Peptide Sequencing via Probabilistic Network Modeling. Frank, A. and Pevzner, P. Analytical Chemistry 77:964-973, 2005.``. If you use this tool in Galaxy, please cite Chilton J, et al. https://bitbucket.org/galaxyp/galaxyp-toolshed-openms </help> </tool>