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组蛋白H3第2位精氨酸的甲基化调控H3K4三甲基化的沉积。

Arginine methylation at histone H3R2 controls deposition of H3K4 trimethylation.

作者信息

Kirmizis Antonis, Santos-Rosa Helena, Penkett Christopher J, Singer Michael A, Vermeulen Michiel, Mann Matthias, Bähler Jürg, Green Roland D, Kouzarides Tony

机构信息

Gurdon Institute and Department of Pathology, Tennis Court Road, Cambridge CB2 1QN, UK.

出版信息

Nature. 2007 Oct 18;449(7164):928-32. doi: 10.1038/nature06160. Epub 2007 Sep 26.

DOI:10.1038/nature06160
PMID:17898715
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3350864/
Abstract

Modifications on histones control important biological processes through their effects on chromatin structure. Methylation at lysine 4 on histone H3 (H3K4) is found at the 5' end of active genes and contributes to transcriptional activation by recruiting chromatin-remodelling enzymes. An adjacent arginine residue (H3R2) is also known to be asymmetrically dimethylated (H3R2me2a) in mammalian cells, but its location within genes and its function in transcription are unknown. Here we show that H3R2 is also methylated in budding yeast (Saccharomyces cerevisiae), and by using an antibody specific for H3R2me2a in a chromatin immunoprecipitation-on-chip analysis we determine the distribution of this modification on the entire yeast genome. We find that H3R2me2a is enriched throughout all heterochromatic loci and inactive euchromatic genes and is present at the 3' end of moderately transcribed genes. In all cases the pattern of H3R2 methylation is mutually exclusive with the trimethyl form of H3K4 (H3K4me3). We show that methylation at H3R2 abrogates the trimethylation of H3K4 by the Set1 methyltransferase. The specific effect on H3K4me3 results from the occlusion of Spp1, a Set1 methyltransferase subunit necessary for trimethylation. Thus, the inability of Spp1 to recognize H3 methylated at R2 prevents Set1 from trimethylating H3K4. These results provide the first mechanistic insight into the function of arginine methylation on chromatin.

摘要

组蛋白修饰通过影响染色质结构来控制重要的生物学过程。组蛋白H3赖氨酸4位点(H3K4)的甲基化出现在活跃基因的5'端,并通过招募染色质重塑酶促进转录激活。相邻的精氨酸残基(H3R2)在哺乳动物细胞中也已知会发生不对称二甲基化(H3R2me2a),但其在基因中的位置及其转录功能尚不清楚。在这里,我们表明H3R2在芽殖酵母(酿酒酵母)中也会发生甲基化,并且通过在芯片染色质免疫沉淀分析中使用针对H3R2me2a的特异性抗体,我们确定了这种修饰在整个酵母基因组中的分布。我们发现H3R2me2a在所有异染色质位点和不活跃的常染色质基因中富集,并存在于中等转录基因的3'端。在所有情况下,H3R2甲基化模式与H3K4的三甲基化形式(H3K4me3)相互排斥。我们表明H3R2甲基化会消除Set1甲基转移酶对H3K4的三甲基化作用。对H3K4me3的特异性影响是由于Spp1的阻断,Spp1是三甲基化所需的Set1甲基转移酶亚基。因此,Spp1无法识别R2处甲基化的H3,从而阻止Set1对H3K4进行三甲基化。这些结果首次为精氨酸甲基化在染色质上的功能提供了机制上的见解。

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