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Title: Spontaneous mutation, oxidative DNA damage, and the roles of base and nucleotide excision repair in the yeast Saccharomyces cerevisiae. Author: Scott AD, Neishabury M, Jones DH, Reed SH, Boiteux S, Waters R. Journal: Yeast; 1999 Feb; 15(3):205-18. PubMed ID: 10077187. Abstract: The OGG1 gene of Saccharomyces cerevisiae encodes a DNA glycosylase that excises 7,8-dihydro-8-oxoguanine (8-OxoG). When compared to wild-type, ogg1 mutants show an increase in the frequency of GC to TA transversions, indicating a role for Ogg1 in the repair of 8-OxoG. Here we report an increased frequency of forward mutation to canavanine resistance in mutants defective in the nucleotide excision repair (NER) gene RAD14. This was not increased further in strains additionally defective in OGG1. However, when compared to strains solely defective in OGG1, ogg1radl4 mutants displayed an increase in spontaneous GC to TA transversions. Intriguingly, reversion of the lys1-1 ochre allele was not increased in rad14 mutants, suggesting that oxidative base damage may only represent a substrate for NER in certain regions of the genome. We also examined repair of oxidative DNA damage by transforming mutant strains with plasmid DNA treated with methylene blue plus visible light. Mutants defective in OGG1 showed no significant reduction in transformation efficiency compared with wild-type strains. In contrast, disruption of RAD14 reduced the efficiency of transformation, yet there was no further decrease in an ogg1rad14 mutant. This strongly supports a role for NER in the repair of oxidative base damage in yeast, and differs from similar experiments carried out in E. coli, where transformation efficiency is only reduced in mutants defective in both fpg and uvrA. Finally, the repair of Fpg-sensitive sites was examined at the MATalpha and HMLalpha mating type loci, and NER was found to play a role in their removal.[Abstract] [Full Text] [Related] [New Search]