Modelling regulatory pathways in E. coli from time series expression profiles

doi:10.1093/bioinformatics/18.suppl_1.S241

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Bioinformatics Vol. 18 no. 90001 2002
Pages S241-S248
© 2002 Oxford University Press

Modelling regulatory pathways in E. coli from time series expression profiles

Irene M. Ong ¹, Jeremy D. Glasner ³ and David Page ¹^,2

¹ Department of Computer Sciences,
² Department of Biostatistics & Medical Informatics
³ Department of Genetics, University of Wisconsin, Madison 53706, USA

Received on January 24, 2002 ; revised on April 1, 2002 ; accepted on April 1, 2002

Motivation: Cells continuously reprogram their gene expressionnetwork as they move through the cell cycle or sense changesin their environment. In order to understand the regulationof cells, time series expression profiles provide a more completepicture than single time point expression profiles. Few analysistechniques, however, are well suited to modelling such timeseries data.

Results: We describe an approach that naturally handles timeseries data with the capabilities of modelling causality, feedbackloops, and environmental or hidden variables using a DynamicBayesian network. We also present a novel way of combining priorbiological knowledge and current observations to improve thequality of analysis and to model interactions between sets ofgenes rather than individual genes. Our approach is evaluatedon time series expression data measured in response to physiologicalchanges that affect tryptophan metabolism in E. coli. Resultsindicate that this approach is capable of finding correlationsbetween sets of related genes.

Contact: ong{at}cs.wisc.edu

Keywords: Dynamic Bayesian networks; regulatory pathways; time seriesgene expression; operon model.

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