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Sequence Effects of Arylamine-DNA Adducts: Repair and Replication

$299,933R56FY2008CANIH

University Of Rhode Island, Kingston RI

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Abstract

Project Summary/Abstract The long term goal of our research program is to elucidate the molecular mechanisms of DNA adduct-induced chemical carcinogenesis. Aromatic amines are well-known environmental human carcinogens. In particular, arylamine-DNA adduct formation has been confirmed in various human tissues and is believed to induce mutation. We have previously shown that arylamine adducts in DNA exist in three well-defined conformations: stacked (S), external B-type (B), and wedge (W). The conformation depends on the location of the carcinogen moiety in the DNA molecule, and the population ratios of the types under physiological conditions are sequence-dependent. In this application, we hypothesize that arylamine-induced repair and mutation is conformation (S/B/W) specific. We propose four major aims to help define adduct conformation and examine their specific effects on repair (initial damage recognition) and replication (replication fork heterogeneity). Specifically, these aims focus on: (1) conformation-specific repair in a human nucleotide excision repair (NER) system, (2) long-range sequence effects, (3) the thermodynamics of sequencedependent slippage-induced frameshift mutagenesis, and (4) replication fork conformational heterogeneity. We will employ not only existing dynamic 19F NMR/CD, EMSA and fluorescence spectroscopy, but also innovative chip-based surface plasma resonance (SPR) and differential scanning calorimetric (DSC) procedures, creating a powerful suite of biophysical methodologies. Successful completion of the proposed aims will help us gain a better grasp on the protein-DNA interactions involved in human NER and trans-lesion synthesis, which have important implications for resolving the molecular details of cancer etiology. Such knowledge will also be of help in the development of sensible prevention and risk assessment strategies.

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