Mercurial > repos > marcel > caddsuite_linux_x86_64
diff CADDSuite-1.5/galaxyconfigs/tools/WaterFinder.xml @ 15:ac342506cd4e draft
CADDSuite version 1.5
author | Marcel Schumann <schumann.marcel@gmail.com> |
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date | Tue, 24 Jul 2012 11:08:49 -0400 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/CADDSuite-1.5/galaxyconfigs/tools/WaterFinder.xml Tue Jul 24 11:08:49 2012 -0400 @@ -0,0 +1,55 @@ + +<!--This is a configuration file for the integration of a CADDSuite tool into Galaxy (http://usegalaxy.org). This file was automatically generated using GalaxyConfigGenerator, so do not bother to make too many manual modifications.--> +<tool id="waterfinder" name="WaterFinder" version="1.5"> + <description>find strongly bound waters</description> + <command interpreter="bash"><![CDATA[../../WaterFinder +#if str( $rec ) != '' and str( $rec ) != 'None' : + -rec "$rec" +#end if +#if str( $rl ) != '' and str( $rl ) != 'None' : + -rl "$rl" +#end if +#if str( $ini ) != '' and str( $ini ) != 'None' : + -ini "$ini" +#end if +#if str( $wat ) != '' and str( $wat ) != 'None' : + -wat "$wat" +#end if +#if str( $o ) != '' and str( $o ) != 'None' : + -o "$o" +#end if +#if str( $ai ) != '' and str( $ai ) != 'None' : + -ai +#end if + | tail -n 5 +]]></command> + <inputs> + <param name="rec" optional="false" label="receptor pdb-file" type="data" format="pdb"/> + <param name="rl" optional="false" label="reference-ligand" type="data" format="mol2/sdf/drf"/> + <param name="ini" optional="true" label="configuration file" type="data" format="ini"/> + <param name="wat" optional="true" label="input pdb-file containing water molecules (if not part of rec.-file)" type="data" format="pdb"/> + <param name="ai" optional="true" label="use ab-initio water search (ignore water in pdb-file), experimental!" type="boolean" truevalue="true" falsevalue=""/> + </inputs> + <outputs> + <data name="o" format="pdb"/> + </outputs> + <help>This tool searches for crystal waters that + * either interact very strongly with the receptor + * or that interact strongly with receptor and reference ligand, + thus functioning as a water bridge. + +Water molecules in the pdb-structure (i.e. single oxygens) are automatically protonated and rotationally optimized before the search is done. + +As input we need: + * a file containing a protonated protein in pdb-format. + This file should contain water molecules that are to be evaluated by this tool. + However, you can also use a separate pdb-file as input for the water molecules (see below). + * a file containing a reference ligand. + This reference ligand should be located in the binding pocket. + Supported formats are mol2, sdf or drf (DockResultFile, xml-based). + * optionally a file in pdb-format containing water molecules. + If you specify such a file , all water molecules appearing in the + protein input-file (if any) will be ignored. + +Output of this tool is a pdb-file containing the protein and all detected strongly bound water molecules.</help> +</tool> \ No newline at end of file