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<tool id="abims_CAMERA_combinexsAnnos" name="CAMERA.combinexsAnnos" version="2.0.4"> <description>Wrapper function for the combinexsAnnos CAMERA function. Returns a dataframe with recalculated annotations.</description> <macros> <import>macros.xml</import> </macros> <expand macro="requirements"/> <expand macro="stdio"/> <command><![CDATA[ @COMMAND_CAMERA_SCRIPT@ xfunction combinexsAnnos image_pos $image_pos image_neg $image_neg variableMetadataOutput $variableMetadata pos $pos tol $tol ruleset $ruleset convert_param $convert_param keep_meta $keep_meta ]]></command> <inputs> <param name="image_pos" type="data" label="Positive RData ion mode" format="rdata.camera.positive,rdata" help="output file from CAMERA.annotate using a positive polarity mode" /> <param name="image_neg" type="data" label="Negative RData ion mode" format="rdata.camera.negative,rdata" help="output file from CAMERA.annotate using a positive negative mode" /> <param name="pos" type="select" label="Returned peaklist polarity mode"> <option value="TRUE" selected="true">positive</option> <option value="FALSE" >negative</option> </param> <param name="tol" type="integer" value="2" label="Retention time window in seconds" help="[pos] As first step it searches for pseudospectra from the positive and the negative sample within a retention time window" /> <param name="ruleset" type="text" value="1,1" label="Matrix of matching rules" help="[ruleset] Matrix of matching rules. By default, the matrix (1,1) would create the M+H/M-H rule, since the first rule of xsa.pos@ruleset and xsa.neg@ruleset is M+H respectively M-H. Only rules with identical charge can be combined!" /> <param name="convert_param" type="boolean" checked="false" truevalue="TRUE" falsevalue="FALSE" label="Convert retention time (seconds) rtmed, rtmin and rtmax into minutes"/> <param name="keep_meta" type="boolean" checked="true" truevalue="TRUE" falsevalue="FALSE" label="Keep only the metabolites which match a difference "/> </inputs> <outputs> <data name="variableMetadata" format="tabular" label="${image_pos.name[:-6]}.combinexsAnnos.variableMetadata.tsv" /> <!-- <data name="rdata" format="rdata" label="${image_pos.name[:-6]}.combinexsAnnos.Rdata" /> --> </outputs> <tests> <test> <!-- TODO: generer des vrais dataset pos et neg--> <param name="image_pos" value="faahOK.xset.group.retcor.group.fillPeaks.annotate.positive.Rdata"/> <param name="image_neg" value="faahOK.xset.group.retcor.group.fillPeaks.annotate.negative.Rdata"/> <param name="pos" value="TRUE"/> <param name="tol" value="2"/> <param name="ruleset" value="1,1"/> <output name="variableMetadata" file="faahOK.xset.group.retcor.group.fillPeaks.annotate.positive.combinexsAnnos.variableMetadata.tsv" /> </test> </tests> <help><![CDATA[ @HELP_AUTHORS@ ======================= Xcms.combinexsAnnos ======================= ----------- Description ----------- **What it does?** This function check annotations of ion species with the help of a sample from opposite ion mode. As first step it searches for pseudospectra from the positive and the negative sample within a reten- tion time window. For every result the m/z differences between both samples are matched against specific rules, which are combinations from pos. and neg. ion species. As example M+H and M-H with a m/z difference of 2.014552. If two ions matches such a difference, the ion annotations are changed (previous annotation is wrong), confirmed or added. Returns the peaklist from one ion mode with recalculated annotations. **Details** Both xsAnnotate object should be full processed (grouping and annotation). Without previous anno- tation the resulting peaklist only includes annotation with matches peaks from both mode according to the rule(s). With ruleset=NULL the function only looks for M+H/M-H pairs. The ruleset is a two column matrix with includes rule indices from the rule table of both xsAnnotate objects. A ruleset (1,1) would create the M+H/M-H rule, since the first rule of xsa.pos@ruleset and xsa.neg@ruleset is M+H respectively M-H. Only rules with identical charge can be combined! ----------------- Workflow position ----------------- **Upstream tools** ========================= ======================= ===================== ========== Name Output file Format Parameter ========================= ======================= ===================== ========== xcms.annotatediffreport xset.annotate_POS.RData rdata.camera.positive RData file ------------------------- ----------------------- --------------------- ---------- xcms.annotatediffreport xset.annotate_NEG.RData rdata.camera.positive RData file ========================= ======================= ===================== ========== **Downstream tools** +---------------------------+-----------------------------------------+--------+ | Name | Output file | Format | +===========================+=========================================+========+ |Batch_correction |xset.combinexsAnnos.variableMetadata.tsv | Tabular| +---------------------------+-----------------------------------------+--------+ |Filters |xset.combinexsAnnos.variableMetadata.tsv | Tabular| +---------------------------+-----------------------------------------+--------+ |Univariate |xset.combinexsAnnos.variableMetadata.tsv | Tabular| +---------------------------+-----------------------------------------+--------+ |Multivariate |xset.combinexsAnnos.variableMetadata.tsv | Tabular| +---------------------------+-----------------------------------------+--------+ The output file **xset.annotateDiffreport.variableMetadata.tsv** is a tabular file. You can continue your analysis using it in the following tools: | Batch_correction | Filters | Univariate | Multivariate PCA, PLS and OPLS **General schema of the metabolomic workflow** .. image:: combinexsannos_workflow.png ----------- Input files ----------- +---------------------------+----------------------------+ | Parameter : label | Format | +===========================+============================+ | Positive RData ion mode | rdata.camera.positive | +---------------------------+----------------------------+ | Negative RData ion mode | rdata.camera.negative | +---------------------------+----------------------------+ ------------ Output files ------------ xset.combinexsAnnos.variableMetadata.tsv | A tabular file which is similar to the diffreport result , within additional columns containing the annotation results. | For each metabolite (row) : | the value of the intensity in each sample, fold, tstat, pvalue, anova, mzmed, mzmin, mzmax, rtmed, rtmin, rtmax, npeaks, isotopes, adduct, pcgroup and neg (or pos). Mode xset.combinexsAnnos.Rdata | Rdata file, that be used outside Galaxy in R. --------------------------------------------------- --------------- Working example --------------- Input files ----------- | Positive RData ion mode -> **POS.xset.annotateDiffreport.RData** | Negative RData ion mode -> **NEG.xset.annotateDiffreport.RData** Parameters ---------- | pos -> **positive** | tol -> **2 (default)** | ruleset -> **1,1 (default)** Output files ------------ **Example of an xset.combinexsAnnos.variableMetadata.tsv output:** .. image:: combinexsannos_variableMetadata.png --------------------------------------------------- Changelog/News -------------- **Version 2.0.4 - 21/04/2016** - UPGRADE: upgrate the CAMERA version from 1.22.0 to 1.26.0 **Version 2.0.3 - 10/02/2016** - BUGFIX: better management of errors. Datasets remained green although the process failed - UPDATE: refactoring of internal management of inputs/outputs **Version 2.0.1 - 07/06/2015** - IMPROVEMENT: new datatype/dataset formats (rdata.camera.positive, rdata.camera.negative, rdata.camera.quick ...) will facilitate the sequence of tools and so avoid incompatibility errors. - IMPROVEMENT: parameter labels have changed to facilitate their reading. **Version 2.0.0 - 09/06/2015** - NEW: combinexsAnnos Check CAMERA ion species annotation due to matching with opposite ion mode ]]></help> <expand macro="citation" /> </tool>