Molecular mechanisms and potential functions of histone demethylases

Susanne Marije Kooistra; Kristian Helin

doi:10.1038/nrm3327

Molecular mechanisms and potential functions of histone demethylases

Susanne Marije Kooistra, Kristian Helin

541 Citations (Scopus)

Abstract

Histone modifications are thought to regulate chromatin structure, transcription and other nuclear processes. Histone methylation was originally believed to be an irreversible modification that could only be removed by histone eviction or by dilution during DNA replication. However, the isolation of two families of enzymes that can demethylate histones has changed this notion. The biochemical activities of these histone demethylases towards specific Lys residues on histones, and in some cases non-histone substrates, have highlighted their importance in developmental control, cell-fate decisions and disease. Their ability to be regulated through protein-targeting complexes and post-translational modifications is also beginning to shed light on how they provide dynamic control during transcription.

Original language	English
Journal	Nature Reviews. Molecular Cell Biology
Volume	13
Issue number	5
Pages (from-to)	297-311
Number of pages	15
ISSN	1471-0072
DOIs	https://doi.org/10.1038/nrm3327
Publication status	Published - 2012

Keywords

Animals
Chromatin
Gene Expression Regulation
Histone Demethylases
Histones
Humans
Methylation
Neoplasms
Protein Processing, Post-Translational
Protein Structure, Tertiary
Substrate Specificity

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title = "Molecular mechanisms and potential functions of histone demethylases",

abstract = "Histone modifications are thought to regulate chromatin structure, transcription and other nuclear processes. Histone methylation was originally believed to be an irreversible modification that could only be removed by histone eviction or by dilution during DNA replication. However, the isolation of two families of enzymes that can demethylate histones has changed this notion. The biochemical activities of these histone demethylases towards specific Lys residues on histones, and in some cases non-histone substrates, have highlighted their importance in developmental control, cell-fate decisions and disease. Their ability to be regulated through protein-targeting complexes and post-translational modifications is also beginning to shed light on how they provide dynamic control during transcription.",

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AU - Kooistra, Susanne Marije

AU - Helin, Kristian

PY - 2012

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N2 - Histone modifications are thought to regulate chromatin structure, transcription and other nuclear processes. Histone methylation was originally believed to be an irreversible modification that could only be removed by histone eviction or by dilution during DNA replication. However, the isolation of two families of enzymes that can demethylate histones has changed this notion. The biochemical activities of these histone demethylases towards specific Lys residues on histones, and in some cases non-histone substrates, have highlighted their importance in developmental control, cell-fate decisions and disease. Their ability to be regulated through protein-targeting complexes and post-translational modifications is also beginning to shed light on how they provide dynamic control during transcription.

AB - Histone modifications are thought to regulate chromatin structure, transcription and other nuclear processes. Histone methylation was originally believed to be an irreversible modification that could only be removed by histone eviction or by dilution during DNA replication. However, the isolation of two families of enzymes that can demethylate histones has changed this notion. The biochemical activities of these histone demethylases towards specific Lys residues on histones, and in some cases non-histone substrates, have highlighted their importance in developmental control, cell-fate decisions and disease. Their ability to be regulated through protein-targeting complexes and post-translational modifications is also beginning to shed light on how they provide dynamic control during transcription.

KW - Animals

KW - Chromatin

KW - Gene Expression Regulation

KW - Histone Demethylases

KW - Histones

KW - Humans

KW - Methylation

KW - Neoplasms

KW - Protein Processing, Post-Translational

KW - Protein Structure, Tertiary

KW - Substrate Specificity

U2 - 10.1038/nrm3327

DO - 10.1038/nrm3327

M3 - Journal article

C2 - 22473470

SN - 1471-0072

VL - 13

SP - 297

EP - 311

JO - Nature Reviews Molecular Cell Biology

JF - Nature Reviews Molecular Cell Biology

IS - 5

ER -

Molecular mechanisms and potential functions of histone demethylases

Abstract

Keywords

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