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嘧啶二聚体作为前诱变损伤的作用:大肠杆菌lacI基因中靶向诱变与非靶向诱变的研究。

The role of pyrimidine dimers as premutagenic lesions: a study of targeted vs. untargeted mutagenesis in the lacI gene of Escherichia coli.

作者信息

Kunz B A, Glickman B W

出版信息

Genetics. 1984 Mar;106(3):347-64. doi: 10.1093/genetics/106.3.347.

DOI:10.1093/genetics/106.3.347
PMID:6368314
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1224243/
Abstract

We have employed conjugal transfer of an F' lac episome to examine targeted and untargeted mutagenesis in the lacI gene of Escherichia coli and to determine the relative importance of pyrimidine dimers as premutational UV lesions compared to (6-4) photoproducts that also may have a mutational role. This conjugal system allowed us to assess the premutagenic role of UV lesions independently from any role as inducers of SOS functions. F' DNA was transferred to an SOS-induced recipient strain from: unirradiated donor cells, UV-treated donor cells or donor cells that were irradiated and then exposed to photoreactivating light. The results indicate that SOS-related, untargeted events may account for as much as one-third of the nonsense mutations (i.e., base substitutions) recovered after undamaged F' DNA is transferred to UV-irradiated recipients. When the donor strain also is irradiated, in excess of 90% of the mutations detected following conjugation appear to be targeted. Photoreactivation of the UV-treated donors cells, prior to F' transfer to the SOS-induced recipient strain, demonstrated that in this experimental system virtually all recovered UV-induced mutations are targeted by photoreactivable lesions. We presume that these lesions are pyrimidine dimers because (6-4) photoproducts are not photoreactivable.

摘要

我们利用F' lac附加体的接合转移来检测大肠杆菌lacI基因中的靶向诱变和非靶向诱变,并确定嘧啶二聚体作为诱变前紫外线损伤相对于同样可能具有诱变作用的(6-4)光产物的相对重要性。这种接合系统使我们能够独立于作为SOS功能诱导剂的任何作用来评估紫外线损伤的诱变前作用。F' DNA从未经照射的供体细胞、经紫外线处理的供体细胞或先经照射然后暴露于光复活光的供体细胞转移到SOS诱导的受体菌株中。结果表明,在未受损的F' DNA转移到紫外线照射的受体后,与SOS相关的非靶向事件可能占所回收的无义突变(即碱基替换)的三分之一之多。当供体菌株也受到照射时,接合后检测到的超过90%的突变似乎是靶向的。在将F'转移到SOS诱导的受体菌株之前,对经紫外线处理的供体细胞进行光复活,结果表明在这个实验系统中,几乎所有回收的紫外线诱导突变都是由可光复活的损伤靶向的。我们推测这些损伤是嘧啶二聚体,因为(6-4)光产物是不可光复活的。

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