The long term goal of the proposed work is to understand the molecular biological and biophysical processes that lead to the production of mutations when mutagen-damaged DNA is replicated. This proposal aims to exploit the analytical power of experiments with vectors that carry a single defined and specifically located UV photoproduct. These tools will be used (i) to investigate the question of how DNA photoproduct structure is related to its mutagenic properties, (ii) to analyze the different components of the spectrum of UV-induced mutations, and attempt to reconstruct this spectrum from its component parts, (iii) to determine whether double-stranded DNA provides opportunities for error-free bypass of lesions, in addition to error-prone translesion replication, and (iv) to explore and define the roles of various normal and mutant genes in bypass and mutagenesis. These studies are likely to advance our understanding of UV mutagenesis, and of mutagenic mechanisms in general. UV is a significant environmental carcinogen, one that is likely to become of even greater importance in the future because of ozone depletion in the upper atmosphere, and mutagenesis is an important step in cancerogenesis. A better understanding of mutagenic mechanisms will help in estimating health risks from carcinogens, particularly in the difficult issues of extrapolation from high acute to low chronic doses, and from one species to another. The experimental design for this proposal is to construct vectors that carry a single uniquely placed mutagenic photoproduct, and determine the properties of the lesion when the vector is replicated in vivo. Estimates will be made of the three basic parameters that define a lesion's mutagenic potential: frequency of bypass, error-frequency of bypass, and mutation spectrum. A variety of photoproducts will be examined, and also a variety of vectors, including both single- and double-stranded constructs. Photoproducts to be studied include cis-syn and trans-syn cyclobutane dimers, and both the normal and dewar isomers of pyrimidine (6-4) pyrimidone adducts, each located in a variety of bipyrimidine target sites, and flanked by a variety of different nucleotides.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM032885-11
Application #
2176775
Study Section
Radiation Study Section (RAD)
Project Start
1983-12-01
Project End
1996-06-30
Budget Start
1994-07-01
Budget End
1995-06-30
Support Year
11
Fiscal Year
1994
Total Cost
Indirect Cost
Name
University of Rochester
Department
Physiology
Type
Schools of Dentistry
DUNS #
208469486
City
Rochester
State
NY
Country
United States
Zip Code
14627
Ozgenc, Ali I; Szekeres, Edward S; Lawrence, Christopher W (2005) In vivo evidence for a recA-independent recombination process in Escherichia coli that permits completion of replication of DNA containing UV damage in both strands. J Bacteriol 187:1974-84
Borden, Angela; O'Grady, Paul I; Vandewiele, Dominique et al. (2002) Escherichia coli DNA polymerase III can replicate efficiently past a T-T cis-syn cyclobutane dimer if DNA polymerase V and the 3' to 5' exonuclease proofreading function encoded by dnaQ are inactivated. J Bacteriol 184:2674-81
Vandewiele, D; Borden, A; O'Grady, P I et al. (1998) Efficient translesion replication in the absence of Escherichia coli Umu proteins and 3'-5' exonuclease proofreading function. Proc Natl Acad Sci U S A 95:15519-24
Horsfall, M J; Borden, A; Lawrence, C W (1997) Mutagenic properties of the T-C cyclobutane dimer. J Bacteriol 179:2835-9
Gentil, A; Le Page, F; Margot, A et al. (1996) Mutagenicity of a unique thymine-thymine dimer or thymine-thymine pyrimidine pyrimidone (6-4) photoproduct in mammalian cells. Nucleic Acids Res 24:1837-40
Lawrence, C W; Hinkle, D C (1996) DNA polymerase zeta and the control of DNA damage induced mutagenesis in eukaryotes. Cancer Surv 28:21-31
Szekeres Jr, E S; Woodgate, R; Lawrence, C W (1996) Substitution of mucAB or rumAB for umuDC alters the relative frequencies of the two classes of mutations induced by a site-specific T-T cyclobutane dimer and the efficiency of translesion DNA synthesis. J Bacteriol 178:2559-63
Lawrence, C W; Borden, A; Woodgate, R (1996) Analysis of the mutagenic properties of the UmuDC, MucAB and RumAB proteins, using a site-specific abasic lesion. Mol Gen Genet 251:493-8
Horsfall, M J; Lawrence, C W (1994) Accuracy of replication past the T-C (6-4) adduct. J Mol Biol 235:465-71
Lawrence, C W; Gibbs, P E; Borden, A et al. (1993) Mutagenesis induced by single UV photoproducts in E. coli and yeast. Mutat Res 299:157-63

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