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"Translesion synthesis past 2'-deoxyxanthosine, a nitric oxide-derived DNA adduct, by mammalian DNA polymerases."

Yasui M, Suzuki N, Miller H, Matsuda T, Matsui S, Shibutani S



Published Nov. 26, 2004 in J Mol Biol volume 344 .

Pubmed ID: 15533436

Abstract:
Cellular DNA is damaged by nitric oxide (NO), a multifunctional bioregulator and an environmental pollutant that has been implicated in diseases associated with cancer and chronic inflammation. 2'-Deoxyxanthosine (dX) is a major NO-derived DNA lesion. To explore the mutagenic potential of dX, a 38-mer oligodeoxynucleotide ((5')CATGCTGATGAATTCCTTCXCTTCTTTCCTCTCCCTTT) modified site-specifically with dX at the X position was prepared post-synthetically and used as a DNA template in primer extension reactions catalyzed by calf thymus DNA polymerase (pol) alpha and human DNA pol beta, eta, and kappa. Primer extension reactions catalyzed by pol alpha or beta in the presence of four dNTPs were retarded at the dX lesion while pol eta and kappa readily bypassed the lesion. The fully extended products were analyzed to quantify the miscoding specificity and frequency of dX using two-phase polyacrylamide gel electrophoresis (PAGE). With pol alpha, eta and kappa, incorrect dTMP was preferentially incorporated opposite the lesion, along with lesser amounts of dCMP, the correct base. When pol beta was used, direct incorporation of correct dCMP was primarily observed, accompanied by small amounts of misincorporation of dTMP, dAMP and dGMP. Steady-state kinetic analyses supported the results obtained from the two-phase PAGE assay. dX is a miscoding lesion capable of preferentially generating G-->A mutations. The miscoding frequency varied depending on DNA polymerase used.


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Last modification of this entry: Oct. 6, 2010

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