期刊
NUCLEIC ACIDS RESEARCH
卷 41, 期 3, 页码 1848-1858出版社
OXFORD UNIV PRESS
DOI: 10.1093/nar/gks1276
关键词
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资金
- Division of Intramural Research Program of the National Institutes of health
- National Institute of Environmental Health Sciences
- National Institutes of Health [1U19CA105010]
- [Z01-ES050158]
- [Z01-ES050159]
A major base lesion resulting from oxidative stress is 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxoG) that has ambiguous coding potential. Error-free DNA synthesis involves 8-oxoG adopting an anti-conformation to base pair with cytosine whereas mutagenic bypass involves 8-oxoG adopting a syn-conformation to base pair with adenine. Left unrepaired the syn-8-oxoG/dAMP base pair results in a G-C to T-A transversion. During base excision repair of this mispair, DNA polymerase (pol) beta is confronted with gap filling opposite 8-oxoG. To determine how pol beta discriminates between anti- and syn-8-oxoG, we introduced a point mutation (R283K) to alter insertion specificity. Kinetic studies demonstrate that this substitution results in an increased fidelity opposite 8-oxoG. Structural studies with R283K pol 13 show that the binary DNA complex has 8-oxoG in equilibrium between anti- and syn-forms. Ternary complexes with incoming dCTP resemble the wild-type enzyme, with templating anti-8-oxoG base pairing with incoming cytosine. In contrast to wild-type pol D, the ternary complex of the R283K mutant with an incoming dATP-analogue and templating 8-oxoG resembles a G-A mismatched structure with 8-oxoG adopting an anti-conformation. These results demonstrate that the incoming nucleotide is unable to induce a syn-8-oxoG conformation without minor groove DNA polymerase interactions that influence templating (anti-/syn-equilibrium) of 8-oxoG while modulating fidelity.
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