Detecting the presence and absence of causal relationships between expression of yeast genes with very few samples
Detecting the presence and absence of causal relationships between expression of yeast genes with very few samples
Inference of biological networks from high-throughput data is a central problem in bioinformatics. Particularly powerful for network reconstruction is data collected by recent studies that contain both genetic variation information and gene expression profiles from genetically distinct strains of an organism. Various statistical approaches have been applied to these data to tease out the underlying biological networks that govern how individual genetic variation mediates gene expression and how genes regulate and interact with each other. Extracting meaningful causal relationships from these networks remains a challenging but important problem. In this article, we use causal inference techniques to infer the presence or absence of causal relationships between yeast gene expressions in the framework of graphical causal models. We evaluate our method using a well studied dataset consisting of both genetic variations and gene expressions collected over randomly segregated yeast strains. Our predictions of causal regulators, genes that control the expression of a large number of target genes, are consistent with previously known experimental evidence. In addition, our method can detect the absence of causal relationships and can distinguish between direct and indirect effects of variation on a gene expression level.
533-546
Kang, Eun Yong
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Ye, Chun
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Shpitser, Ilya
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Eskin, Eleazar
bc66b0d9-f5ed-49c9-bfd6-4b735fe7f55b
March 2010
Kang, Eun Yong
bd83d932-c2f3-4493-8ced-75c22e3f5a8f
Ye, Chun
a6aa82ba-e4f7-4677-a0c9-860f9675eaef
Shpitser, Ilya
4d295b9b-39e8-417f-b38d-fbb5d7df6992
Eskin, Eleazar
bc66b0d9-f5ed-49c9-bfd6-4b735fe7f55b
Kang, Eun Yong, Ye, Chun, Shpitser, Ilya and Eskin, Eleazar
(2010)
Detecting the presence and absence of causal relationships between expression of yeast genes with very few samples.
Journal of Computational Biology, 17 (3), .
(doi:10.1089/cmb.2009.0176).
Abstract
Inference of biological networks from high-throughput data is a central problem in bioinformatics. Particularly powerful for network reconstruction is data collected by recent studies that contain both genetic variation information and gene expression profiles from genetically distinct strains of an organism. Various statistical approaches have been applied to these data to tease out the underlying biological networks that govern how individual genetic variation mediates gene expression and how genes regulate and interact with each other. Extracting meaningful causal relationships from these networks remains a challenging but important problem. In this article, we use causal inference techniques to infer the presence or absence of causal relationships between yeast gene expressions in the framework of graphical causal models. We evaluate our method using a well studied dataset consisting of both genetic variations and gene expressions collected over randomly segregated yeast strains. Our predictions of causal regulators, genes that control the expression of a large number of target genes, are consistent with previously known experimental evidence. In addition, our method can detect the absence of causal relationships and can distinguish between direct and indirect effects of variation on a gene expression level.
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Published date: March 2010
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Local EPrints ID: 350595
URI: http://eprints.soton.ac.uk/id/eprint/350595
ISSN: 1066-5277
PURE UUID: c5e89415-b330-4d38-bcc3-971e3d043cbc
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Date deposited: 28 Mar 2013 14:02
Last modified: 14 Mar 2024 13:30
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Author:
Eun Yong Kang
Author:
Chun Ye
Author:
Ilya Shpitser
Author:
Eleazar Eskin
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