Abstract

Cellular exposure to tobacco-specific nitrosamines causes formation of promutagenic O6 -[4-oxo-4-(3-pyridyl)but-1-yl]guanine (O6 -POB-G) and O6 -methylguanine (O6 -Me-G) adducts in DNA. These adducts can be directly repaired by O6 -alkylguanine-DNA alkyltransferase (AGT). Repair begins by flipping the damaged base out of the DNA helix. AGT binding and base-flipping have been previously studied using pyrrolocytosine as a fluorescent probe paired to the O6 -alkylguanine lesion, but low fluorescence yield limited the resolution of steps in the repair process. Here, we utilize the highly fluorescent 6-phenylpyrrolo-2'-deoxycytidine (6-phenylpyrrolo-C) to investigate AGT-DNA interactions. Synthetic oligodeoxynucleotide duplexes containing O6 -POB-G and O6 -Me-G adducts were placed within the CpG sites of codons 158, 245, and 248 of the p53 tumor suppressor gene and base-paired to 6-phenylpyrrolo-C in the opposite strand. Neighboring cytosine was either unmethylated or methylated. Stopped-flow fluorescence measurements were performed by mixing the DNA duplexes with C145A or R128G AGT variants. We observe a rapid, two-step, nearly irreversible binding of AGT to DNA followed by two slower steps, one of which is base-flipping. Placing 5-methylcytosine immediately 5' to the alkylated guanosine causes a reduction in rate constant of nucleotide flipping. O6 -POB-G at codon 158 decreased the base flipping rate constant by 3.5-fold compared with O6 -Me-G at the same position. A similar effect was not observed at other codons.

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