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通过对裂殖酵母Reb1-Ter3复合物的研究揭示的复制终止的机制性见解。

Mechanistic insights into replication termination as revealed by investigations of the Reb1-Ter3 complex of Schizosaccharomyces pombe.

作者信息

Biswas Subhrajit, Bastia Deepak

机构信息

Department of Biochemistry and Molecular Biology, Medical University of South Carolina, 174 Ashley Ave., Charleston, SC 29425, USA.

出版信息

Mol Cell Biol. 2008 Nov;28(22):6844-57. doi: 10.1128/MCB.01235-08. Epub 2008 Sep 15.

DOI:10.1128/MCB.01235-08
PMID:18794373
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2573303/
Abstract

Relatively little is known about the interaction of eukaryotic replication terminator proteins with the cognate termini and the replication termination mechanism. Here, we report a biochemical analysis of the interaction of the Reb1 terminator protein of Schizosaccharomyces pombe, which binds to the Ter3 site present in the nontranscribed spacers of ribosomal DNA, located in chromosome III. We show that Reb1 is a dimeric protein and that the N-terminal dimerization domain of the protein is dispensable for replication termination. Unlike its mammalian counterpart Ttf1, Reb1 did not need an accessory protein to bind to Ter3. The two myb/SANT domains and an adjacent, N-terminal 154-amino-acid-long segment (called the myb-associated domain) were both necessary and sufficient for optimal DNA binding in vitro and fork arrest in vivo. The protein and its binding site Ter3 were unable to arrest forks initiated in vivo from ars of Saccharomyces cerevisiae in the cell milieu of the latter despite the facts that the protein retained the proper affinity of binding, was located in vivo at the Ter site, and apparently was not displaced by the "sweepase" Rrm3. These observations suggest that replication fork arrest is not an intrinsic property of the Reb1-Ter3 complex.

摘要

关于真核生物复制终止蛋白与同源末端的相互作用以及复制终止机制,我们了解得相对较少。在此,我们报告了对粟酒裂殖酵母的Reb1终止蛋白相互作用的生化分析,该蛋白与位于第三条染色体上核糖体DNA非转录间隔区中的Ter3位点结合。我们表明Reb1是一种二聚体蛋白,并且该蛋白的N端二聚化结构域对于复制终止是可有可无的。与其哺乳动物对应物Ttf1不同,Reb1不需要辅助蛋白来结合Ter3。两个myb/SANT结构域和一个相邻的、N端154个氨基酸长的片段(称为myb相关结构域)对于体外最佳DNA结合和体内叉形停滞都是必需且充分的。尽管该蛋白保留了适当的结合亲和力、在体内位于Ter位点且显然未被“清扫酶”Rrm3取代,但在酿酒酵母的细胞环境中,该蛋白及其结合位点Ter3无法阻止从酿酒酵母的ars在体内起始的叉形。这些观察结果表明,复制叉停滞不是Reb1 - Ter3复合物的固有特性。

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