Substrate and Functional Diversity of Lysine Acetylation Revealed by a Proteomics Survey

Overview

Journal Mol Cell

Publisher Cell Press

Specialty Cell Biology

Date 2006 Aug 19

PMID 16916647

Citations 731

Authors

Sung Chan Kim

Robert Sprung

Yue Chen

Yingda Xu

Haydn Ball

Jimin Pei

Tzuling Cheng

Yoonjung Kho

Hao Xiao

Lin Xiao

Nick V Grishin

Michael White

Xiang-Jiao Yang

Yingming Zhao

Affiliations

Soon will be listed here.

Abstract

Acetylation of proteins on lysine residues is a dynamic posttranslational modification that is known to play a key role in regulating transcription and other DNA-dependent nuclear processes. However, the extent of this modification in diverse cellular proteins remains largely unknown, presenting a major bottleneck for lysine-acetylation biology. Here we report the first proteomic survey of this modification, identifying 388 acetylation sites in 195 proteins among proteins derived from HeLa cells and mouse liver mitochondria. In addition to regulators of chromatin-based cellular processes, nonnuclear localized proteins with diverse functions were identified. Most strikingly, acetyllysine was found in more than 20% of mitochondrial proteins, including many longevity regulators and metabolism enzymes. Our study reveals previously unappreciated roles for lysine acetylation in the regulation of diverse cellular pathways outside of the nucleus. The combined data sets offer a rich source for further characterization of the contribution of this modification to cellular physiology and human diseases.

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