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RAG1/RAG2 突触复合体形成的分子机制。

Molecular mechanism underlying RAG1/RAG2 synaptic complex formation.

作者信息

Shlyakhtenko Luda S, Gilmore Jamie, Kriatchko Aleksei N, Kumar Sushil, Swanson Patrick C, Lyubchenko Yuri L

机构信息

Department of Pharmaceutical Sciences, College of Pharmacy, University of Nebraska Medical Center, Omaha, Nebraska 68198, USA.

出版信息

J Biol Chem. 2009 Jul 31;284(31):20956-65. doi: 10.1074/jbc.M109.028977. Epub 2009 Jun 5.

DOI:10.1074/jbc.M109.028977
PMID:19502597
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2742861/
Abstract

Two lymphoid cell-specific proteins, RAG1 and RAG2 (RAG), initiate V(D)J recombination by assembling a synaptic complex with recombination signal sequences (RSSs) abutting two different antigen receptor gene coding segments, and then introducing a DNA double strand break at the end of each RSS. Despite the biological importance of this system, the structure of the synaptic complex, and the RAG protein stoichiometry and arrangement of DNA within the synaptosome, remains poorly understood. Here we applied atomic force microscopy to directly visualize and characterize RAG synaptic complexes. We report that the pre-cleavage RAG synaptic complex contains about twice the protein content as a RAG complex bound to a single RSS, with a calculated mass consistent with a pair of RAG heterotetramers. In the synaptic complex, the RSSs are predominantly oriented in a side-by-side configuration with no DNA strand crossover. The mass of the synaptic complex, and the conditions under which it is formed in vitro, favors an association model of assembly in which isolated RAG-RSS complexes undergo synapsis mediated by RAG protein-protein interactions. The replacement of Mg2+ cations with Ca2+ leads to a dramatic change in protein stoichiometry for all RAG-RSS complexes, suggesting that the cation composition profoundly influences the type of complex assembled.

摘要

两种淋巴细胞特异性蛋白,重组激活基因1(RAG1)和重组激活基因2(RAG2)(合称RAG),通过与毗邻两个不同抗原受体基因编码片段的重组信号序列(RSS)组装成一个突触复合体,启动V(D)J重组,然后在每个RSS末端引入DNA双链断裂。尽管该系统具有重要生物学意义,但突触复合体的结构、RAG蛋白化学计量以及突触小体中DNA的排列方式仍知之甚少。在此,我们应用原子力显微镜直接观察和表征RAG突触复合体。我们报告称,切割前的RAG突触复合体的蛋白质含量约为与单个RSS结合的RAG复合体的两倍,计算出的质量与一对RAG异源四聚体一致。在突触复合体中,RSS主要以并排排列,没有DNA链交叉。突触复合体的质量及其在体外形成的条件,支持一种组装的结合模型,即孤立的RAG-RSS复合体通过RAG蛋白-蛋白相互作用进行突触形成。用Ca2+取代Mg2+阳离子会导致所有RAG-RSS复合体的蛋白质化学计量发生显著变化,这表明阳离子组成深刻影响所组装复合体的类型。

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