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酵母DNA损伤反应途径中DPB11与DDC1之间的遗传和物理相互作用。

Genetic and physical interactions between DPB11 and DDC1 in the yeast DNA damage response pathway.

作者信息

Wang Hong, Elledge Stephen J

机构信息

Verna and Marrs McLean Department of Biochemistry and Molecular Biology and Howard Hughes Medical Institute, Baylor College of Medicine, Houston, Texas 77030, USA.

出版信息

Genetics. 2002 Apr;160(4):1295-304. doi: 10.1093/genetics/160.4.1295.

DOI:10.1093/genetics/160.4.1295
PMID:11973288
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1462046/
Abstract

DPB11 is essential for DNA replication and S/M checkpoint control in Saccharomyces cerevisiae. The Dpb11 protein contains four BRCT domains, which have been proposed to be involved in protein-protein interactions. To further investigate the regulation and function of Dpb11, a yeast two-hybrid screen was carried out to identify proteins that physically interact with Dpb11. One positive clone isolated from the screen encoded a carboxyl-terminal fragment of Ddc1 (339-612 aa). Ddc1 is a DNA damage checkpoint protein, which, together with Mec3 and Rad17, has been proposed to form a PCNA-like complex and acts upstream in the DNA damage checkpoint pathways. We further determined that the carboxyl region of Dpb11 is required for its interaction with Ddc1. DDC1 and DPB11 also interact genetically. The Deltaddc1 dpb11-1 double mutant is more UV and MMS sensitive than the Deltaddc1 or the dpb11-1 single mutants. Furthermore, the double mutant is more hydroxyurea sensitive and displayed a lower restrictive temperature than dpb11-1. These results suggest that DPB11 and DDC1 may function in the same or parallel pathways after DNA damage and that DDC1 may play a role in responding to replication defects.

摘要

DPB11对于酿酒酵母中的DNA复制和S/M检验点控制至关重要。Dpb11蛋白包含四个BRCT结构域,据推测这些结构域参与蛋白质-蛋白质相互作用。为了进一步研究Dpb11的调控和功能,进行了酵母双杂交筛选以鉴定与Dpb11发生物理相互作用的蛋白质。从筛选中分离出的一个阳性克隆编码Ddc1的羧基末端片段(339-612个氨基酸)。Ddc1是一种DNA损伤检验点蛋白,据推测它与Mec3和Rad17一起形成类似PCNA的复合物,并在DNA损伤检验点途径中起上游作用。我们进一步确定Dpb11的羧基区域是其与Ddc1相互作用所必需的。DDC1和DPB11在遗传学上也相互作用。Deltaddc1 dpb11-1双突变体比Deltaddc1或dpb11-1单突变体对紫外线和甲基磺酸甲酯更敏感。此外,双突变体对羟基脲更敏感,并且比dpb11-1表现出更低的限制温度。这些结果表明,DPB11和DDC1可能在DNA损伤后的相同或平行途径中发挥作用,并且DDC1可能在应对复制缺陷中发挥作用。

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