组蛋白 H3R2 对称二甲基化和组蛋白 H3K4 三甲基化在真核基因组中紧密相关。

Histone H3R2 symmetric dimethylation and histone H3K4 trimethylation are tightly correlated in eukaryotic genomes.

机构信息

Department of Molecular Biology, Massachusetts General Hospital and Department of Genetics, Harvard Medical School, Boston, MA 02114, USA.

出版信息

Cell Rep. 2012 Feb 23;1(2):83-90. doi: 10.1016/j.celrep.2011.12.008.

DOI:10.1016/j.celrep.2011.12.008

PMID:22720264

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3377377/

Abstract

The preferential in vitro interaction of the PHD finger of RAG2, a subunit of the V(D)J recombinase, with histone H3 tails simultaneously trimethylated at lysine 4 and symmetrically dimethylated at arginine 2 (H3R2me2sK4me3) predicted the existence of the previously unknown histone modification H3R2me2s. Here, we report the in vivo identification of H3R2me2s . Consistent with the binding specificity of the RAG2 PHD finger, high levels of H3R2me2sK4me3 are found at antigen receptor gene segments ready for rearrangement. However, this double modification is much more general; it is conserved throughout eukaryotic evolution. In mouse, H3R2me2s is tightly correlated with H3K4me3 at active promoters throughout the genome. Mutational analysis in S. cerevisiae reveals that deposition of H3R2me2s requires the same Set1 complex that deposits H3K4me3. Our work suggests that H3R2me2sK4me3, not simply H3K4me3 alone, is the mark of active promoters and that factors that recognize H3K4me3 will have their binding modulated by their preference for H3R2me2s.

摘要

RAG2 的 PHD 指结构域与组蛋白 H3 尾部的赖氨酸 4 三甲基化和精氨酸 2 对称二甲基化（H3R2me2sK4me3）优先体外相互作用，这预示着先前未知的组蛋白修饰 H3R2me2s 的存在。在这里，我们报告了 H3R2me2s 的体内鉴定。与 RAG2 PHD 指结构域的结合特异性一致，在准备进行重排的抗原受体基因片段中发现高水平的 H3R2me2sK4me3。然而，这种双重修饰更为普遍；它在整个真核生物进化中都保守。在小鼠中，H3R2me2s 与整个基因组中活跃启动子处的 H3K4me3 紧密相关。酿酒酵母中的突变分析表明，H3R2me2s 的沉积需要沉积 H3K4me3 的相同 Set1 复合物。我们的工作表明，H3R2me2sK4me3 而不仅仅是 H3K4me3 本身，是活跃启动子的标志，并且识别 H3K4me3 的因子的结合将受到其对 H3R2me2s 的偏好的调节。

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