Incorporating gene functions as priors in model-based clustering of microarray gene expression data

doi:10.1093/bioinformatics/btl011

Bioinformatics Advance Access published online on January 24, 2006
Bioinformatics, doi:10.1093/bioinformatics/btl011

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© The Author (2006). Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oxfordjournals.org
Received October 25, 2005
Revised January 16, 2006
Accepted January 16, 2006

Article

Incorporating gene functions as priors in model-based clustering of microarray gene expression data

Wei Pan ¹ ^*

¹ Division of Biostatistics, School of Public Health, University of Minnesota

^* To whom correspondence should be addressed.
Wei Pan, E-mail: weip{at}biostat.umn.edu

Abstract

Motivation: Cluster analysis of gene expression profiles hasbeen widely applied to clustering genes for gene function discovery.Many approaches have been proposed. The rationale is that thegenes with the same biological function or involved in the samebiological process are more likely to co-express, hence theyare more likely to form a cluster with similar gene expressionpatterns. However, most existing methods, including model-basedclustering, ignore known gene functions in clustering.

Results:To take advantage of accumulating gene functional annotations,we propose incorporating known gene functions as prior probabilitiesin model-based clustering. In contrast to a global mixture modelapplicable to all the genes in the standard model-based clustering,we use a stratified mixture model: one stratum corresponds tothe genes of unknown function while each of the other ones correspondingto the genes sharing the same biological function or pathway;the genes from the same stratum are assumed to have the sameprior probability of coming from a cluster while those fromdifferent strata are allowed to have different prior probabilitiesof coming from the same cluster. We derive a simple EM algorithmthat can be used to fit the stratified model. A simulation studyand an application to gene function prediction demonstrate theadvantage of our proposal over the standard method.

Associate Editor: John Quackenbush

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