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酿酒酵母中与DNA聚合酶δ的突变等位基因pol3-13发生合成致死的突变的特征分析。

Characterization of mutations that are synthetic lethal with pol3-13, a mutated allele of DNA polymerase delta in Saccharomyces cerevisiae.

作者信息

Chanet Roland, Heude Martine

机构信息

Institut Curie Recherche, CNRS UMR2027/Institut Curie, Bât. 110, Centre Universitaire, 91405 Orsay Cédex, France.

出版信息

Curr Genet. 2003 Aug;43(5):337-50. doi: 10.1007/s00294-003-0407-2. Epub 2003 May 21.

DOI:10.1007/s00294-003-0407-2
PMID:12759774
Abstract

The pol3-13 mutation is located in the C-terminal end of POL3, the gene encoding the catalytic subunit of polymerase delta, and confers thermosensitivity onto the Saccharomyces cerevisiae mutant strain. To get insight about DNA replication control, we performed a genetic screen to identify genes that are synthetic lethal with pol3-13. Mutations in genes encoding the two other subunits of DNA polymerase delta (HYS2, POL32) were identified. Mutations in two recombination genes (RAD50, RAD51) were also identified, confirming that homologous recombination is necessary for pol3-13 mutant strain survival. Other mutations were identified in genes involved in repair and genome stability (MET18/ MMS19), in the control of origin-firing and/or transcription (ABF1, SRB7), in the S/G2 checkpoint (RAD53), in the Ras-cAMP signal transduction pathway (MKS1), in nuclear pore metabolism (SEH1), in protein degradation (DOC1) and in folding (YDJ1). Finally, mutations in three genes of unknown function were isolated (NBP35, DRE2, TAH18). Synthetic lethality between pol3-13 and each of the three mutants pol32, mms19 and doc1 could be suppressed by a rad18 deletion, suggesting an important role of ubiquitination in DNA replication control. We propose that the pol3-13 mutant generates replicative problems that need both homologous recombination and an intact checkpoint machinery to be overcome.

摘要

pol3 - 13突变位于POL3的C末端,POL3是编码DNA聚合酶δ催化亚基的基因,该突变赋予酿酒酵母突变株热敏感性。为深入了解DNA复制控制,我们进行了遗传筛选以鉴定与pol3 - 13合成致死的基因。鉴定出了编码DNA聚合酶δ其他两个亚基(HYS2、POL32)的基因突变。还鉴定出了两个重组基因(RAD50、RAD51)的突变,证实同源重组对于pol3 - 13突变株的存活是必需的。在参与修复和基因组稳定性的基因(MET18 / MMS19)、起始点激活和/或转录控制的基因(ABF1、SRB7)、S/G2检查点基因(RAD53)、Ras - cAMP信号转导途径基因(MKS1)、核孔代谢基因(SEH1)、蛋白质降解基因(DOC1)和折叠基因(YDJ1)中也发现了其他突变。最后,分离出了三个功能未知基因(NBP35、DRE2、TAH18)的突变。pol3 - 13与三个突变体pol32、mms19和doc1中的每一个之间的合成致死性可被rad18缺失抑制,这表明泛素化在DNA复制控制中起重要作用。我们提出,pol3 - 13突变体产生了复制问题,需要同源重组和完整的检查点机制才能克服。

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