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脊椎动物H2A.Z的乙酰化及其对核小体结构的影响。

Acetylation of vertebrate H2A.Z and its effect on the structure of the nucleosome.

作者信息

Ishibashi Toyotaka, Dryhurst Deanna, Rose Kristie L, Shabanowitz Jeffrey, Hunt Donald F, Ausió Juan

机构信息

Department of Biochemistry and Microbiology and The Center for Biomedical Research, University of Victoria, Petch Building, Victoria, BC, Canada V8W 3P6.

出版信息

Biochemistry. 2009 Jun 9;48(22):5007-17. doi: 10.1021/bi900196c.

DOI:10.1021/bi900196c
PMID:19385636
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2850812/
Abstract

Purified histone H2A.Z from chicken erythrocytes and a sodium butyrate-treated chicken erythroleukemic cell line was used as a model system to identify the acetylation sites (K4, K7, K11, K13, and K15) and quantify their distribution in this vertebrate histone variant. To understand the role played by acetylation in the modulation of the H2A.Z nucleosome core particle (NCP) stability and conformation, an extensive analysis was conducted on NCPs reconstituted from acetylated forms of histones, including H2A.Z and recombinant H2A.Z (K/Q) acetylation mimic mutants. Although the overall global acetylation of core histones destabilizes the NCP, we found that H2A.Z stabilizes the NCP regardless of its state of acetylation. Interestingly and quite unexpectedly, we found that the change in NCP conformation induced by global histone acetylation is dependent on H2A/H2A.Z acetylation. This suggests that acetylated H2A variants act synergistically with the acetylated forms of the core histone complement to alter the particle conformation. Furthermore, the simultaneous occurrence of H2A.Z and H2A in heteromorphic NCPs that most likely occurs in vivo slightly destabilizes the NCP, but only in the presence of acetylation.

摘要

来自鸡红细胞和经丁酸钠处理的鸡红白血病细胞系的纯化组蛋白H2A.Z被用作模型系统,以鉴定乙酰化位点(K4、K7、K11、K13和K15)并量化它们在这种脊椎动物组蛋白变体中的分布。为了了解乙酰化在调节H2A.Z核小体核心颗粒(NCP)稳定性和构象中所起的作用,对由组蛋白的乙酰化形式(包括H2A.Z和重组H2A.Z(K/Q)乙酰化模拟突变体)重构的NCP进行了广泛分析。尽管核心组蛋白的整体全局乙酰化会使NCP不稳定,但我们发现H2A.Z无论其乙酰化状态如何都能稳定NCP。有趣且相当出乎意料的是,我们发现全局组蛋白乙酰化诱导的NCP构象变化取决于H2A/H2A.Z乙酰化。这表明乙酰化的H2A变体与核心组蛋白互补物的乙酰化形式协同作用以改变颗粒构象。此外,最有可能在体内发生的异型NCP中同时存在H2A.Z和H2A会使NCP略微不稳定,但仅在存在乙酰化的情况下。

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