Coordinated Chromatin Control: Structural and Functional Linkage of DNA and Histone Methylation

Xiaodong Cheng; Robert M. Blumenthal

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To whom correspondence should be addressed. X.C.: xcheng@emory.edu; phone, (404) 727-8491; fax, (404) 727-3746. R.M. B.: robert.blumenthal@utoledo.edu; phone, (419) 383-5422; fax, (419) 383-3002

Subject:

Chemistry, Biochemistry

Research Funding:

National Institute of General Medical Sciences : NIGMS

The work in the authors’ laboratories is currently supported by the U.S. National Institutes of Health (GM068680-05, DK-082678-02, and GM049245-16 to X.C.) and the National Science Foundation (MCB-0964728, to R.M.B.).

Coordinated Chromatin Control: Structural and Functional Linkage of DNA and Histone Methylation

Xiaodong Cheng, Emory University

Robert M. Blumenthal, University of Toledo Health Science Campus

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Journal Title:

Biochemistry

Volume:

Volume 49, Number 14

Publisher:

American Chemical Society | 2010-04-13, Pages 2999-3008

Type of Work:

Article | Post-print: After Peer Review

Permanent URL:

http://pid.emory.edu/ark:/25593/f8mfn

Publisher DOI:

http://doi.org/10.1021/bi100213t

Abstract:

One of the most fundamental questions in the control of gene expression in mammals is how epigenetic methylation patterns of DNA and histones are established, erased, and recognized. This central process in controlling metazoan gene expression includes coordinated covalent modifications of DNA and its associated histones. This review focuses on recent developments in characterizing the functional links between the methylation status of the DNA and of two particularly important histone marks. Mammalian DNA methylation is intricately connected to the presence of unmodified lysine 4 and methylated lysine 9 residues in histone H3. An interconnected network of methyltransferases, demethylases, and accessory proteins is responsible for changing or maintaining the modification status of specific regions of chromatin. The structural and functional interactions among members of this network are critical to processes that include imprinting and differentiation, dysregulation of which is associated with disorders ranging from inflammation to cancer.

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Coordinated Chromatin Control: Structural and Functional Linkage of DNA and Histone Methylation

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