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Backbone Flexibility Influences Nucleotide Incorporation by Human Translesion DNA Polymerase η opposite Intrastrand Cross-Linked DNA.

Author(s): O'Flaherty DK, Guengerich FP, Egli M, Wilds CJ

Biochemistry. 2015 Dec 29;54(51):7449-56 Authors: O'Flaherty DK, Guengerich FP, Egli M, Wilds CJ

Article GUID: 26624500
Lesion Orientation of O4-Alkylthymidine Influences Replication by Human DNA Polymerase η.

Author(s): O'Flaherty DK, Patra A, Su Y, Guengerich FP, Egli M, Wilds CJ

Chem Sci. 2016 Aug 01;7(8):4896-4904 Authors: O'Flaherty DK, Patra A, Su Y, Guengerich FP, Egli M, Wilds CJ

Article GUID: 27574558
O6-2'-Deoxyguanosine-butylene-O6-2'-deoxyguanosine DNA Interstrand Cross-Links Are Replication-Blocking and Mutagenic DNA Lesions.

Author(s): Xu W, Kool D, O'Flaherty DK, Keating AM, Sacre L, Egli M, Noronha A, Wilds CJ, Zhao L

Chem Res Toxicol. 2016 11 21;29(11):1872-1882 Authors: Xu W, Kool D, O'Flaherty DK, Keating AM, Sacre L, Egli M, Noronha A, Wilds CJ, Zhao L

Article GUID: 27768841
Title:Lesion Orientation of O4-Alkylthymidine Influences Replication by Human DNA Polymerase η.
Authors:O'Flaherty DKPatra ASu YGuengerich FPEgli MWilds CJ
Link:https://www.ncbi.nlm.nih.gov/pubmed/27574558?dopt=Abstract
Category:Chem Sci
PMID:27574558
Dept Affiliation: CHEMBIOCHEM
1 Department of Chemistry and Biochemistry, Concordia University, Montréal, Québec H4B1R6, Canada.
2 Department of Biochemistry, Vanderbilt Institute of Chemical Biology, and Center for Structural Biology, School of Medicine, Vanderbilt University, Nashville, Tennessee 37232, United States.

Description:

Lesion Orientation of O4-Alkylthymidine Influences Replication by Human DNA Polymerase ?.

Chem Sci. 2016 Aug 01;7(8):4896-4904

Authors: O'Flaherty DK, Patra A, Su Y, Guengerich FP, Egli M, Wilds CJ

Abstract

DNA lesions that elude repair may undergo translesion synthesis catalyzed by Y-family DNA polymerases. O4-Alkylthymidines, persistent adducts that can result from carcinogenic agents, may be encountered by DNA polymerases. The influence of lesion orientation around the C4-O4 bond on processing by human DNA polymerase ? (hPol ?) was studied for oligonucleotides containing O4-methylthymidine, O4-ethylthymidine, and analogs restricting the O4-methylene group in an anti-orientation. Primer extension assays revealed that the O4-alkyl orientation influences hPol ? bypass. Crystal structures of hPol ?•DNA•dNTP ternary complexes with O4-methyl- or O4-ethylthymidine in the template strand showed the nucleobase of the former lodged near the ceiling of the active site, with the syn-O4-methyl group engaged in extensive hydrophobic interactions. This unique arrangement for O4-methylthymidine with hPol ?, inaccessible for the other analogs due to steric/conformational restriction, is consistent with differences observed for nucleotide incorporation and supports the concept that lesion conformation influences extension across DNA damage. Together, these results provide mechanistic insights on the mutagenicity of O4MedT and O4EtdT when acted upon by hPol ?.

PMID: 27574558 [PubMed - as supplied by publisher]