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酿酒酵母Mre11、Exo1和Rad27核酸酶在DNA代谢中的重叠功能。

Overlapping functions of the Saccharomyces cerevisiae Mre11, Exo1 and Rad27 nucleases in DNA metabolism.

作者信息

Moreau S, Morgan E A, Symington L S

机构信息

Department of Microbiology and Institute of Cancer Research, Columbia University College of Physicians and Surgeons, New York, New York 10032, USA.

出版信息

Genetics. 2001 Dec;159(4):1423-33. doi: 10.1093/genetics/159.4.1423.

DOI:10.1093/genetics/159.4.1423
PMID:11779786
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1461908/
Abstract

MRE11 functions in several aspects of DNA metabolism, including meiotic recombination, double-strand break repair, and telomere maintenance. Although the purified protein exhibits 3' to 5' exonuclease and endonuclease activities in vitro, Mre11 is implicated in the 5' to 3' resection of duplex ends in vivo. The mre11-H125N mutation, which eliminates the nuclease activities of Mre11, causes an accumulation of unprocessed double-strand breaks (DSBs) in meiosis, but no defect in processing HO-induced DSBs in mitotic cells, suggesting the existence of redundant activities. Mutation of EXO1, which encodes a 5' to 3' exonuclease, was found to increase the ionizing radiation sensitivity of both mre11Delta and mre11-H125N strains, but the exo1 mre11-H125N strain showed normal kinetics of mating-type switching and was more radiation resistant than the mre11Delta strain. This suggests that other nucleases can compensate for loss of the Exo1 and Mre11 nucleases, but not of the Mre11-Rad50-Xrs2 complex. Deletion of RAD27, which encodes a flap endonuclease, causes inviability in mre11 strains. When mre11-H125N was combined with the leaky rad27-6, the double mutants were viable and no more gamma-ray sensitive than the mre11-H125N strain. This suggests that the double mutant defect is unlikely to be due to defective DSB processing.

摘要

MRE11在DNA代谢的多个方面发挥作用,包括减数分裂重组、双链断裂修复和端粒维持。尽管纯化后的蛋白在体外表现出3'至5'核酸外切酶和核酸内切酶活性,但Mre11在体内参与双链末端的5'至3'切除。mre11-H125N突变消除了Mre11的核酸酶活性,导致减数分裂中未加工的双链断裂(DSB)积累,但在有丝分裂细胞中处理HO诱导的DSB时没有缺陷,这表明存在冗余活性。编码5'至3'核酸外切酶的EXO1突变被发现会增加mre11Delta和mre11-H125N菌株对电离辐射的敏感性,但exo1 mre11-H125N菌株显示出正常的交配型转换动力学,并且比mre11Delta菌株更抗辐射。这表明其他核酸酶可以补偿Exo1和Mre11核酸酶的缺失,但不能补偿Mre11-Rad50-Xrs2复合物的缺失。编码瓣状核酸内切酶的RAD27缺失会导致mre11菌株无法存活。当mre11-H125N与渗漏型rad27-6结合时,双突变体是可行的,并且不比mre11-H125N菌株对γ射线更敏感。这表明双突变体缺陷不太可能是由于DSB加工缺陷所致。

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