Induction and repair of closely opposed pyrimidine dimers in Saccharomyces cerevisiae

Richard J. Reynolds
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引用次数: 13

Abstract

Pyrimidine dimer-DNA glycosylase activity prepared from Micrococcus luteus has been used to develop an enzyme-sensitive site assay for the detection and quantification of closely opposed pyrimidine dimers in the nuclear DNA of UV-irradiated yeast. With this assay, closely opposed dimers were found to be induced as a linear function of dose from 0 to 200 J/m2 (254 nm). Closely opposed dimer frequencies decreased during the incubation of UV-irradiated, excision repair-proficient cells under liquid-holding conditions in the dark and during post-irradiation exposure of excision-deficient cells to photoreactivating light. Incubation of excision-deficient cells in the dark had no effect on the frequency of closely opposed dimers for up to 16 h. These results indicate that closely opposed dimers in UV-irradiated yeast are subject to repair by enzymatic photoreactivation and/or by dark-repair processes dependent, at least in part, upon functions necessary for normal excision repair. The genetic and biochemical implications of these results are discussed.

密切对立嘧啶二聚体在酿酒酵母中的诱导与修复
利用黄体微球菌制备的嘧啶二聚体-DNA糖基酶活性,建立了一种酶敏感位点测定法,用于检测和定量紫外线照射酵母核DNA中紧密相反的嘧啶二聚体。通过该实验,发现在0至200 J/m2 (254 nm)范围内,密切相反的二聚体被诱导成线性函数。在紫外线照射下,精通切除修复的细胞在黑暗中保持液体条件下孵育期间,以及在照射后将切除缺陷细胞暴露于光活化光下期间,紧密相反的二聚体频率降低。切除缺陷细胞在黑暗中孵育长达16小时,对紧密对立二聚体的频率没有影响。这些结果表明,在紫外线照射的酵母中,紧密对立二聚体可以通过酶光再激活和/或至少部分依赖于正常切除修复所需功能的黑暗修复过程进行修复。讨论了这些结果的遗传和生化意义。
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