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Review
. 2000 Mar 15;19(6):1176-9.
doi: 10.1093/emboj/19.6.1176.

Acetylation: a regulatory modification to rival phosphorylation?

T Kouzarides  1
Affiliations
Review

Acetylation: a regulatory modification to rival phosphorylation?

T Kouzarides. EMBO J. .

Abstract

The fact that histones are modified by acetylation has been known for almost 30 years. The recent identification of enzymes that regulate histone acetylation has revealed a broader use of this modification than was suspected previously. Acetylases are now known to modify a variety of proteins, including transcription factors, nuclear import factors and alpha-tubulin. Acetylation regulates many diverse functions, including DNA recognition, protein-protein interaction and protein stability. There is even a conserved structure, the bromodomain, that recognizes acetylated residues and may serve as a signalling domain. If you think all this sounds familiar, it should be. These are features characteristic of kinases. So, is acetylation a modification analogous to phosphorylation? This review sets out what we know about the broader substrate specificity and regulation of acetyl- ases and goes on to compare acetylation with the process of phosphorylation.

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Figures

None
Fig. 1. Acetylation of a variety of proteins by acetylases affects their activity in different ways. The activity of acetylases is regulated, at least in vitro, by kinases involved in DNA repair (DNA–PK) and cell cycle progression (cyclin E–CDK). Acetylated targets include histones, nuclear acetylases (P/CAF and p300), transcription factors [e.g. HMGI(Y), E2F1, p53 and TCF], the nuclear import factor, importin-α and α–tubulin. Acetylation has many consequences, including effects on DNA binding, protein stability and protein–protein interaction. Ac, acetylation; p, phosphorylation.
See this image and copyright information in PMC

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