Location of Repository

From gene expression to gene regulatory networks in Arabidopsis thaliana

By C.J. Needham, I.W. Manfield, A.J. Bulpitt, P.M. Gilmartin and D.R. Westhead

Abstract

BACKGROUND\ud The elucidation of networks from a compendium of gene expression data is one of the goals of systems biology and can be a valuable source of new hypotheses for experimental researchers. For Arabidopsis, there exist several thousand microarrays which form a valuable resource from which to learn.\ud \ud RESULTS\ud A novel Bayesian network-based algorithm to infer gene regulatory networks from gene expression data is introduced and applied to learn parts of the transcriptomic network in Arabidopsis thaliana from a large number (thousands) of separate microarray experiments. Starting from an initial set of genes of interest, a network is grown by iterative addition to the model of the gene, from another defined set of genes, which gives the 'best' learned network structure. The gene set for iterative growth can be as large as the entire genome. A number of networks are inferred and analysed; these show (i) an agreement with the current literature on the circadian clock network, (ii) the ability to model other networks, and (iii) that the learned network hypotheses can suggest new roles for poorly characterized genes, through addition of relevant genes from an unconstrained list of over 15,000 possible genes. To demonstrate the latter point, the method is used to suggest that particular GATA transcription factors are regulators of photosynthetic genes. Additionally, the performance in recovering a known network from different amounts of synthetically.\ud \ud CONCLUSION\ud Our results show that plausible regulatory networks can be learned from such gene expression data alone. This work demonstrates that network hypotheses can be generated from existing gene expression data for use by experimental. \ud \u

Publisher: Biomed Central
Year: 2009
OAI identifier: oai:eprints.whiterose.ac.uk:10796

Suggested articles

Preview


To submit an update or takedown request for this paper, please submit an Update/Correction/Removal Request.