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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)
 
 
 

Error-prone and inefficient replication across 8-hydroxyguanine (8-oxoguanine) in human and mouse ras gene fragments by DNA polymerase kappa.

Using fragments of human c-Ha-ras and mouse Ha-ras1 genes containing 8-hydroxyguanine (8-OH-G) in hypermutagenic codon 12, we analyzed the kinetics of DNA synthesis catalyzed by human Polkappa. This translesion DNA polymerase, belonging to the Y-family, was found to be moderately inhibited by the presence of 8-OH-G on either mouse or human templates. From our previous results, inhibition of various polymerases by 8-OH-G increases in the following order: Poleta < Polkappa < Polbeta < Polalpha, showing that major replicative and repair polymerases are more sensitive to this lesion than enzymes belonging to the Y-family. In the direct mutagenesis experiments, Polkappa was found to be more mutagenic than Poleta studied previously: it inserted dAMP more efficiently than dCMP opposite 8-OH-G. Polkappa was also able to cause indirect mispair ('action-at-a-distance' mutagenesis), this effect being more distinct on mouse templates. Two adjacent 8-OH-G residues in codon 12 inhibited Polkappa moderately and induced misincorporation of dAMP. However, this effect was not comparable to the strong relaxation of the enzyme specificity, observed previously in the case of Poleta. Polkappa catalyzed incorporation (and misincorporation of dAMP) much more efficiently on mouse templates, human DNA fragments being distinctly worse substrates. Interestingly, in direct mutagenesis systems, the preference for dAMP over dCMP was nearly the same on mouse and human templates.[1]

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