SGS1、MUS81和RAD51在酿酒酵母后随链复制缺陷修复中的作用。

Roles of SGS1, MUS81, and RAD51 in the repair of lagging-strand replication defects in Saccharomyces cerevisiae.

作者信息

Ii Miki, Brill Steven J

机构信息

Department of Molecular Biology and Biochemistry, Rutgers University, 679 Hoes Lane, Piscataway, NJ 08854, USA.

出版信息

Curr Genet. 2005 Oct;48(4):213-25. doi: 10.1007/s00294-005-0014-5. Epub 2005 Nov 4.

DOI:10.1007/s00294-005-0014-5

PMID:16193328

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1828632/

Abstract

Yeast cells lacking the SGS1 DNA helicase and the MUS81 structure-specific endonuclease display a synthetic lethality that is suppressed by loss of the RAD51 recombinase. This epistatic interaction suggests that the primary function of SGS1 or MUS81, or both genes, is downstream of RAD51. To identify RAD51-independent functions of SGS1 and MUS81, a synthetic-lethal screen was performed on the sgs1 mus81 rad51triple mutant. We found that mutation of RNH202, which encodes a subunit of the hetero-trimeric RNase H2, generates a profound synthetic-sickness in this background. RNase H2 is thought to play a non-essential role in Okazaki fragment maturation. Cells lacking RNH202 showed synthetic growth defects when combined with either mus81 or sgs1 alone. But, whereas the loss of RAD51 had little effect on rnh202 sgs1 double mutants, it strongly inhibited the growth of rnh202 mus81 cells. These data indicate that the primary function of SGS1, but not MUS81, is downstream of RAD51. SGS1 must have some RAD51-independent function, however, since the growth of rnh202 mus81 rad51cells was further compromised by the loss of SGS1. Consistent with these results, we show that rnh202 cells display a sensitivity to DNA-damaging agents that is exacerbated in the absence of RAD51 or MUS81. These data support a model in which defects in lagging-strand replication are repaired by the Mus81 endonuclease or through a pathway dependent on Rad51 and Sgs1.

摘要

缺乏SGS1 DNA解旋酶和MUS81结构特异性核酸内切酶的酵母细胞表现出合成致死性，而这种致死性会因RAD51重组酶的缺失而受到抑制。这种上位性相互作用表明，SGS1或MUS81，或这两个基因的主要功能是在RAD51的下游。为了鉴定SGS1和MUS81不依赖RAD51的功能，对sgs1 mus81 rad51三重突变体进行了合成致死筛选。我们发现，编码异源三聚体核糖核酸酶H2一个亚基的RNH202发生突变，在这种背景下会产生严重的合成疾病。核糖核酸酶H2被认为在冈崎片段成熟过程中发挥非必需作用。缺乏RNH202的细胞与单独的mus81或sgs1结合时表现出合成生长缺陷。但是，虽然RAD51的缺失对rnh202 sgs1双突变体影响不大，但它强烈抑制了rnh202 mus81细胞的生长。这些数据表明，SGS1而非MUS81的主要功能是在RAD51的下游。然而，SGS1一定具有一些不依赖RAD51的功能，因为rnh202 mus81 rad51细胞的生长因SGS1的缺失而进一步受损。与这些结果一致，我们表明rnh202细胞对DNA损伤剂敏感，在没有RAD51或MUS81的情况下这种敏感性会加剧。这些数据支持了一个模型，其中滞后链复制缺陷由Mus81核酸内切酶或通过依赖Rad51和Sgs1的途径进行修复。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1a35/1828632/8251a7fe37f8/nihms-18322-0001.jpg

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SGS1、MUS81和RAD51在酿酒酵母后随链复制缺陷修复中的作用。

Roles of SGS1, MUS81, and RAD51 in the repair of lagging-strand replication defects in Saccharomyces cerevisiae.

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