## page was renamed from PDZProteomeScanning ## page was renamed from PDZInteractionPredictionProject #acl All:read = Proteome scanning of PDZ domain interactions using support vector machines = ## == Table of Contents == <> == Background == An accurate predictor of genomic PDZ domain interactions would allow the proteomes of organisms to be scanned for potential binders. Such an application would require an accurate and precise predictor to avoid generating too many false positive hits given the large amount of possible interactors in a given proteome. Once validated these predictions will help to increase the coverage of current PDZ domain interaction networks and further our understanding of the roles that PDZ domains play in a variety of biological processes. == Results == We built an SVM using mouse and human experimental training data to predict PDZ domain interactions. We showed that it correctly predicts known interactions from proteomes of different organisms and compared to published state of art predictors, is more accurate and precise. == SVM Predictions == SVM predictions were validated using known interactions from PDZBase, a domain peptide interaction database. The number of interactions which corresponded to known protein protein interactions (PPIs) from iRefIndex (BIND, BioGRID, CORUM, DIP, HPRD, !IntAct, MINT) was also calculated. The following are SVM proteome scanning predictions for 13 human, 6 fly and 6 worm PDZ domains with domain-peptide interactions in PDZBase. * [[attachment:HumanSVMPredictions.zip|Human 13 (zip)]] * [[attachment:FlySVMPredictions.zip|Fly 6 (zip)]] * [[attachment:WormSVMPredictions.zip|Worm 6 (zip)]] The following are SVM proteome scanning predictions for 192 human PDZ domains for which the SVM predicted binders. From this set 75 PDZ domains had predicted interactions which corresponded to PPIs in iRefIndex. Please Supplemental Information for the identities of these domains. * [[attachment:Human192SVMPredictions.zip|Human 192 (zip)]] The format of the output is: [PB|IR(.)] * PB = Found in PDZBase * IR = Corresponds to a PPI in iRefIndex (transcript index1, ..., transcript index n) == Supplementary == * [[attachment:SupplementaryInformation.pdf|Supplementary Information (pdf)]] * [[attachment:PDZSVMData.zip|Data Files (zip)]] * Models * Chen model parameter and binding site encoding files * Stiffler model parameter files * Proteomes * Ensembl proteome files for Human, Worm and Fly * Experiment Interaction files (in peptide file format) * Fly files from Chen * Human files from Sidhu * Mouse files from Stiffler * Worm files from Chen * Curated Interaction files (flat files) * PDZBase for Human (Worm and Fly included, but not used) * iRefIndex interactions for Human * Phage codon bias files * ProteomeScan Files * Files required to run the ProteomeScan software == Source Code == *[[attachment:PDZSVM_LICENSE.txt|GNU LGP License (txt)]] *[[attachment:PDZSVM_1.0_src.zip|Java Code (zip)]] *[[attachment:PDZSVMDep.zip|Dependency Jars (zip)]] * jfreechart 1.0.12 (and dependencies) * weka 3.9.1 * auc calculator (Davis & Goadrich, 2006) * !BioJava 1.5 * iText 2.1.3 * jmatio * Bingo 2.3 * Cytoscape 2.6.3 * Cytoscape-task 2.6.3 * BRAIN 1.0.5 (pdzsvm) * libSVM 2.8.9 (pdzsvm) == Team == * Shirley Hui * Gary Bader ---- CategoryProject