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"Critical amino acids in human DNA polymerases eta and kappa involved in erroneous incorporation of oxidized nucleotides."

Katafuchi A, Sassa A, Niimi N, Gruz P, Fujimoto H, Masutani C, Hanaoka F, Ohta T, Nohmi T



Published Feb. 1, 2010 in Nucleic Acids Res volume 38 .

Pubmed ID: 19939936

Abstract:
Oxidized DNA precursors can cause mutagenesis and carcinogenesis when they are incorporated into the genome. Some human Y-family DNA polymerases (Pols) can effectively incorporate 8-oxo-dGTP, an oxidized form of dGTP, into a position opposite a template dA. This inappropriate G:A pairing may lead to transversions of A to C. To gain insight into the mechanisms underlying erroneous nucleotide incorporation, we changed amino acids in human Poleta and Polkappa proteins that might modulate their specificity for incorporating 8-oxo-dGTP into DNA. We found that Arg61 in Poleta was crucial for erroneous nucleotide incorporation. When Arg61 was substituted with lysine (R61K), the ratio of pairing of dA to 8-oxo-dGTP compared to pairing of dC was reduced from 660:1 (wild-type Poleta) to 7 : 1 (R61K). Similarly, Tyr112 in Polkappa was crucial for erroneous nucleotide incorporation. When Tyr112 was substituted with alanine (Y112A), the ratio of pairing was reduced from 11: 1 (wild-type Polkappa) to almost 1: 1 (Y112A). Interestingly, substitution at the corresponding position in Poleta, i.e. Phe18 to alanine, did not alter the specificity. These results suggested that amino acids at distinct positions in the active sites of Poleta and Polkappa might enhance 8-oxo-dGTP to favor the syn conformation, and thus direct its misincorporation into DNA.


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Last modification of this entry: Oct. 6, 2010

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