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Department of Molecular Biology, Graduate School of Biological Sciences, Nara Institute of Science and Technology, Ikoma, Nara 630-0192, Japan
The vast majority of spontaneous mutations occurring in Escherichia coli are thought to be derived from spontaneous DNA lesions, which include oxidative base damage. Systems for removing intrinsic mutagens and repairing DNA lesions contribute to the suppression of spontaneous mutations. Nucleotide excision repair (NER) is a general DNA repair system that eliminates various kinds of lesions from DNA. We therefore predicted that NER might be involved in suppression of spontaneous mutations, and analyzed base substitutions occurring spontaneously within the rpoB gene in NER-proficient (wild-type), -deficient and -overproducing E. coli strains. Surprisingly, the mutation frequency was lower in NER-deficient strains, and higher in NER-overproducing strains, than in the NER-proficient strain. These results suggest, paradoxically, that NER contributes to the generation of spontaneous mutation rather than to its suppression under normal growth conditions, and that transcription-coupled repair also participates in this process. Using E. coli strains that carried an editing exonuclease-deficient polA mutation, we further obtained data suggesting that unnecessary NER might account for these findings, so that errors introduced during repair DNA synthesis by DNA polymerase I would result in unwanted base substitutions. The repair system itself may thus be an important generator of spontaneous mutation.
* Correspondence: Email: maki{at}bs.naist.jp
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