#acl All:read {{attachment:Software/EnrichmentMap/UserManual/enrichmentmap_logo3.png|Enrichment Map Logo|align="right"}}<
> = Enrichment Map g:Profiler Tutorial = <> = Outline = This quick tutorial will guide you through the generation of an Enrichment Map for an analysis performed using [[http://biit.cs.ut.ee/gprofiler/| g:Profiler ]] (Functional Profiling of Gene List from large-scale experiments) To run this tutorial: * You need to have Cytoscape installed : minimally 2.6.3 must be installed but preferable to have the latest version of Cytoscape (e.g. version 3.1) * Install the Enrichment Map plugin from the Cytoscape plugin manager. If you install it manually (e.g. if you need to install a new version that doesn't happen to be in the plugin manager yet), then it must be in the Cytoscape-[Version#]/plugins folder --> '''For Cytoscape 2.8''' * Install the Enrichment Map App from the Cytoscape App manager in cytoscape 3. --> '''For Cytoscape 3.''' = Instructions = == Step 1: Generate g:Profiler output files == * You need to download the test data: [[attachment:gProfilerTutorial.zip]] * Description of the tutorial files contained in the gProfilerTutorial folder: * 12hr_topgenes.txt : List of top genes expressed in Estrogen dataset at 12hr - Official Gene Symbol. * 24hr_topgenes.txt : List of top genes expressed in Estrogen dataset at 24hr - Official Gene Symbol. 1. '''Go to g:Profiler website''' - [[http://biit.cs.ut.ee/gprofiler/]] 1. Select and copy all genes in the tutorial file 12hr_topgenes.txt in the '''Query''' box. /!\ make sure that your list contains only official gene symbol (HUGO) 1. In '''Options''', check '''Significant only''', '''No electronic GO annotations''' 1. Set the '''Output type''' to '''Generic !EnrichmentMap''' 1. '''Show advanced options''' 1. Set '''Min and Max size of functional category''' to '''3''' and '''500''' respectively. 1. Select '''2''' for '''Size of Q&T''' 1. On the right panel, choose the '''Gene Ontology Biological process''' and '''Kegg''' and '''Reactome''' 1. Set '''Significance threshold''' to '''Benjamini-Hochberg FDR''' 1. Click on '''g:Profile!''' to run the analysis 1. Download g:Profiler data as gmt: '''name''' Note: you will have to unzip the folder 1. Download the result file: ''' Download data in Generic Enrichment Map (GEM) format''' '''Note''': repeat these steps for the 24hrs time-point and the file 24hr_topgenes.txt {{attachment:gProfiler_screenshot.png}} <
> {{attachment:gProfiler_inputpanel.png|Screenshot gProfilet EM Panel|align="right"}} == Step 2: Generate Enrichment Map with g:Profiler Output == <
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> * g:Profiler output files [[attachment:gProfiler_EM.zip]] <
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> *1. '''Open Cytoscape''' <
> *2. In the menu bar, locate the '''App''' tab and then select --> '''!EnrichmentMap''' --> '''Create Enrichment Map''' <
> *3. Make sure the Analysis Type is set to '''generic(ex:gProfiler)''' <
> *4. '''Please select the following files by clicking on the respective (...) button and selecting the file in the Dialog''': * GMT / '''hsapiens.NAME.gmt''' * Dataset 1 / Enrichments: '''gProfiler_results_12hr.txt''' <
> *5. '''Tune Parameters''' * P-value cut-off '''1''' * Q-value cut-off '''1''' * Overlap Coefficient cut-off '''0.5''' <
> *6. Click on the '''Build''' radio button at the bottom of the panel to create the Enrichment Map <
> *7. In the menu bar, Go to '''View''', and activate '''Show Graphics Details''' <
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> == Step 3: Examining Results == {{attachment:gProfiler_EM.png|gProfiler EM Result}}<
> '''Legend''': 1. Node size corresponds to the number of genes in dataset 1 within the geneset 1. Colour of the node corresponds to the significance of the geneset for dataset 1. 1. Edge size corresponds to the number of genes that overlap between two connected genesets.