Yokoyama Mika, Inoue Hirokazu, Ishii Chizu, Murakami Yota
Institute for Virus Research, Kyoto University, Shogoinkawahara-cho, Kyoto, Japan.
DNA Repair (Amst). 2007 Jun 1;6(6):770-80. doi: 10.1016/j.dnarep.2007.01.005. Epub 2007 Feb 20.
The progression of replication forks is often impeded by obstacles that cause them to stall or collapse, and appropriate responses to replication-associated DNA damage are important for genome integrity. Here we identified a new gene, mus7(+), that is involved in the repair of replication-associated DNA damage in the fission yeast Schizosaccharomyces pombe. The Deltamus7 mutant shows enhanced sensitivity to methyl methanesulfonate (MMS), camptothecin, and hydroxyurea, agents that cause replication fork stalling or collapse, but not to ultraviolet light or X-rays. Epistasis analysis of MMS sensitivity indicates that Mus7 functions in the same pathway as Mus81, a subunit of the Mus81-Eme1 structure-specific endonuclease, which has been implicated in the repair of the replication-associated DNA damage. In Deltamus7 and Deltamus81 cells, the repair of MMS-induced DNA double-strand breaks (DSBs) is severely impaired. Moreover, some cells with either mutation are hyper-elongated or enlarged, and most of these cells accumulate in late G2 phase. Spontaneous Rad22 (recombination mediator protein RAD52 homolog) foci increase in S phase to late G2 phase in Deltamus7 and Deltamus81 cells. These results suggest that replication-associated DSBs accumulate in these cells and that Rad22 foci form in the absence of Mus7 or Mus81. We also found that the rate of spontaneous conversion-type recombination is reduced in mitotic Deltamus7 cells, suggesting that Rhp51- (RAD51 homolog) dependent homologous recombination is disturbed in this mutant. From these data, we propose that Mus7 functions in the repair of replication-associated DSBs by promoting RAD51-dependent conversion-type recombination downstream of Rad22 and Mus81.
复制叉的进展常常受到阻碍其停滞或崩溃的障碍物的影响,而对复制相关DNA损伤的适当反应对于基因组完整性很重要。在这里,我们鉴定了一个新基因mus7(+),它参与裂殖酵母粟酒裂殖酵母中复制相关DNA损伤的修复。Δmus7突变体对甲磺酸甲酯(MMS)、喜树碱和羟基脲(这些会导致复制叉停滞或崩溃的试剂)表现出增强的敏感性,但对紫外线或X射线不敏感。对MMS敏感性的上位性分析表明,Mus7与Mus81(Mus81-Eme1结构特异性内切核酸酶的一个亚基)在同一途径中发挥作用,Mus81-Eme1结构特异性内切核酸酶已被认为与复制相关DNA损伤的修复有关。在Δmus7和Δmus81细胞中,MMS诱导的DNA双链断裂(DSB)的修复严重受损。此外,一些具有任何一种突变的细胞会过度伸长或增大,并且这些细胞中的大多数在G2期后期积累。在Δmus7和Δmus81细胞中,自发的Rad22(重组介质蛋白RAD52同源物)焦点在S期到G2期后期增加。这些结果表明,复制相关的DSB在这些细胞中积累,并且在没有Mus7或Mus81的情况下形成Rad22焦点。我们还发现,有丝分裂的Δmus7细胞中自发转换型重组的速率降低,这表明该突变体中Rhp51-(RAD51同源物)依赖性同源重组受到干扰。根据这些数据,我们提出Mus7通过在Rad22和Mus81下游促进RAD51依赖性转换型重组来参与复制相关DSB的修复。
