Co-expression tools for plant biology: Opportunities for hypothesis generation and caveats

B. Usadel; M. Mutwil; F.M. Giorgi; D. Steinhauser; S. Persson; T. Obayashi; G.W. Bassel; A. Chow; N.J. Provart; M. Tanimoto

doi:10.1111/j.1365-3040.2009.02040.x

Co-expression tools for plant biology: Opportunities for hypothesis generation and caveats

B. Usadel, M. Mutwil, F.M. Giorgi, D. Steinhauser, S. Persson, T. Obayashi, G.W. Bassel, A. Chow, N.J. Provart, M. Tanimoto

Biosciences

Research output: Contribution to journal › Article › peer-review

409 Citations (Scopus)

Abstract

Gene co-expression analysis has emerged in the past 5 years as a powerful tool for gene function prediction. In essence, co-expression analysis asks the question 'what are the genes that are co-expressed, that is, those that show similar expression profiles across many experiments, with my gene of interest?'. Genes that are highly co-expressed may be involved in the biological process or processes of the query gene. This review describes the tools that are available for performing such analyses, how each of these perform, and also discusses statistical issues including how normalization of gene expression data can influence co-expression results, calculation of co-expression scores and P values, and the influence of data sets used for co-expression analysis. Finally, examples from the literature will be presented, wherein co-expression has been used to corroborate and discover various aspects of plant biology.

Original language	English
Pages (from-to)	1633-1651
Number of pages	19
Journal	Plant, Cell and Environment
Volume	32
Issue number	12
DOIs	https://doi.org/10.1111/j.1365-3040.2009.02040.x
Publication status	Published - 1 Dec 2009

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abstract = "Gene co-expression analysis has emerged in the past 5 years as a powerful tool for gene function prediction. In essence, co-expression analysis asks the question 'what are the genes that are co-expressed, that is, those that show similar expression profiles across many experiments, with my gene of interest?'. Genes that are highly co-expressed may be involved in the biological process or processes of the query gene. This review describes the tools that are available for performing such analyses, how each of these perform, and also discusses statistical issues including how normalization of gene expression data can influence co-expression results, calculation of co-expression scores and P values, and the influence of data sets used for co-expression analysis. Finally, examples from the literature will be presented, wherein co-expression has been used to corroborate and discover various aspects of plant biology.",

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AU - Usadel, B.

AU - Mutwil, M.

AU - Giorgi, F.M.

AU - Steinhauser, D.

AU - Persson, S.

AU - Obayashi, T.

AU - Bassel, G.W.

AU - Chow, A.

AU - Provart, N.J.

AU - Tanimoto, M.

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AB - Gene co-expression analysis has emerged in the past 5 years as a powerful tool for gene function prediction. In essence, co-expression analysis asks the question 'what are the genes that are co-expressed, that is, those that show similar expression profiles across many experiments, with my gene of interest?'. Genes that are highly co-expressed may be involved in the biological process or processes of the query gene. This review describes the tools that are available for performing such analyses, how each of these perform, and also discusses statistical issues including how normalization of gene expression data can influence co-expression results, calculation of co-expression scores and P values, and the influence of data sets used for co-expression analysis. Finally, examples from the literature will be presented, wherein co-expression has been used to corroborate and discover various aspects of plant biology.

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Co-expression tools for plant biology: Opportunities for hypothesis generation and caveats

Abstract

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