rad51-K191R ATP酶缺陷型突变体在突触前细丝形成方面存在缺陷。

The rad51-K191R ATPase-defective mutant is impaired for presynaptic filament formation.

作者信息

Fung Cindy W, Fortin Gary S, Peterson Shaun E, Symington Lorraine S

机构信息

Graduate Program in Cellular, Molecular and Biophysical Studies, Columbia University Medical Center, New York, NY 10032, USA.

出版信息

Mol Cell Biol. 2006 Dec;26(24):9544-54. doi: 10.1128/MCB.00599-06. Epub 2006 Oct 9.

DOI:10.1128/MCB.00599-06

PMID:17030607

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1698519/

Abstract

The nucleoprotein filament formed by Rad51 polymerization on single-stranded DNA is essential for homologous pairing and strand exchange. ATP binding is required for Rad51 nucleoprotein filament formation and strand exchange, but ATP hydrolysis is not required for these functions in vitro. Previous studies have shown that a yeast strain expressing the rad51-K191R allele is sensitive to ionizing radiation, suggesting an important role for ATP hydrolysis in vivo. The recruitment of Rad51-K191R to double-strand breaks is defective in vivo, and this phenotype can be suppressed by elimination of the Srs2 helicase, an antagonist of Rad51 filament formation. The phenotype of the rad51-K191R strain is also suppressed by overexpression of Rad54. In vitro, the Rad51-K191R protein exhibits a slight decrease in binding to DNA, consistent with the defect in presynaptic filament formation. However, the rad51-K191R mutation is dominant in heterozygous diploids, indicating that the defect is not due simply to reduced affinity for DNA. We suggest the Rad51-K191R protein either forms an altered filament or is defective in turnover, resulting in a reduced pool of free protein available for DNA binding.

摘要

由Rad51在单链DNA上聚合形成的核蛋白细丝对于同源配对和链交换至关重要。Rad51核蛋白细丝的形成和链交换需要ATP结合，但在体外这些功能不需要ATP水解。先前的研究表明，表达rad51-K191R等位基因的酵母菌株对电离辐射敏感，这表明ATP水解在体内具有重要作用。在体内，Rad51-K191R募集到双链断裂处存在缺陷，并且这种表型可以通过消除Srs2解旋酶（Rad51细丝形成的拮抗剂）来抑制。Rad54的过表达也可以抑制rad51-K191R菌株的表型。在体外，Rad51-K191R蛋白与DNA的结合略有减少，这与突触前细丝形成的缺陷一致。然而，rad51-K191R突变在杂合二倍体中是显性的，这表明该缺陷不仅仅是由于对DNA的亲和力降低。我们认为Rad51-K191R蛋白要么形成改变的细丝，要么在周转方面存在缺陷，导致可用于DNA结合的游离蛋白池减少。

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