AI Article Synopsis
- WebPARE is a user-friendly web tool designed to help users infer genetic interactions from time course gene expression data without needing extensive programming skills.
- It utilizes a pattern recognition algorithm called PARE, which classifies gene pairs into subclasses based on their expression patterns and learns from known interactions to make predictions.
- WebPARE has demonstrated success in predicting interactions in yeast, aligning some predictions with established biological pathways, highlighting its potential for revealing components of biochemical pathways.
Article Abstract
Inferring genetic or transcriptional interactions, when done successfully, may provide insights into biological processes or biochemical pathways of interest. Unfortunately, most computational algorithms require a certain level of programming expertise. To provide a simple web interface for users to infer interactions from time course gene expression data, we present WebPARE, which is based on the pattern recognition algorithm (PARE). For expression data, in which each type of interaction (e.g. activator target) and the corresponding paired gene expression pattern are significantly associated, PARE uses a non-linear score to classify gene pairs of interest into a few subclasses of various time lags. In each subclass, PARE learns the parameters in the decision score using known interactions from biological experiments or published literature. Subsequently, the trained algorithm predicts interactions of a similar nature. Previously, PARE was shown to infer two sets of interactions in yeast successfully. Moreover, several predicted genetic interactions coincided with existing pathways; this indicates the potential of PARE in predicting partial pathway components. Given a list of gene pairs or genes of interest and expression data, WebPARE invokes PARE and outputs predicted interactions and their networks in directed graphs.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2820674 | PMC |
| http://dx.doi.org/10.1093/bioinformatics/btp684 | DOI Listing |
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