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一种自动调节机制通过组蛋白H3甲基化对V(D)J重组酶施加变构控制。

An autoregulatory mechanism imposes allosteric control on the V(D)J recombinase by histone H3 methylation.

作者信息

Lu Chao, Ward Alyssa, Bettridge John, Liu Yun, Desiderio Stephen

机构信息

Department of Molecular Biology and Genetics and Institute for Cell Engineering, The Johns Hopkins University School of Medicine, Baltimore, MD 21205, USA; Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Fudan University, Shanghai 200032, China.

Department of Molecular Biology and Genetics and Institute for Cell Engineering, The Johns Hopkins University School of Medicine, Baltimore, MD 21205, USA.

出版信息

Cell Rep. 2015 Jan 6;10(1):29-38. doi: 10.1016/j.celrep.2014.12.001. Epub 2014 Dec 24.

DOI:10.1016/j.celrep.2014.12.001
PMID:25543141
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4308961/
Abstract

V(D)J recombination is initiated by a specialized transposase consisting of the subunits RAG-1 and RAG-2. The susceptibility of gene segments to DNA cleavage by the V(D)J recombinase is correlated with epigenetic modifications characteristic of active chromatin, including trimethylation of histone H3 on lysine 4 (H3K4me3). Engagement of H3K4me3 by a plant homeodomain (PHD) in RAG-2 promotes recombination in vivo and stimulates DNA cleavage by RAG in vitro. We now show that H3K4me3 acts allosterically at the PHD finger to relieve autoinhibition imposed by a separate domain within RAG-2. Disruption of this autoinhibitory domain was associated with constitutive increases in recombination frequency, DNA cleavage activity, substrate binding affinity, and catalytic rate, thus mimicking the stimulatory effects of H3K4me3. Our observations support a model in which allosteric control of RAG is enforced by an autoinhibitory domain whose action is relieved by engagement of active chromatin.

摘要

V(D)J重组由一种由RAG-1和RAG-2亚基组成的特殊转座酶启动。基因片段对V(D)J重组酶切割DNA的敏感性与活性染色质的表观遗传修饰相关,包括组蛋白H3赖氨酸4位点的三甲基化(H3K4me3)。RAG-2中的植物同源结构域(PHD)与H3K4me3结合可促进体内重组,并在体外刺激RAG的DNA切割。我们现在表明,H3K4me3在PHD指结构上通过变构作用来解除RAG-2中另一个结构域施加的自身抑制。破坏这个自身抑制结构域与重组频率、DNA切割活性、底物结合亲和力和催化速率的组成性增加相关,从而模拟了H3K4me3的刺激作用。我们的观察结果支持这样一个模型,即RAG的变构控制由一个自身抑制结构域执行,该结构域的作用通过活性染色质的结合而解除。

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