Sequence context modulation of polycyclic aromatic hydrocarbon-induced mutagenesis.

Chary P, Stone MP, Lloyd RS
Environ Mol Mutagen. 2013 54 (8): 652-8

PMID: 23913516 · PMCID: PMC4118935 · DOI:10.1002/em.21806

DNA structural perturbations that are induced by site specifically and stereospecifically defined benzo[a]pyrene-7,8-dihydrodiol-9,10-epoxide (BPDE) adducts are directly correlated with mutagenesis, leading to cellular transformation. Although previous investigations had established that replication of DNAs containing N(6) -BPDE dA adducts at the second position in the N-ras codon 61(CAA) (61(2) ) resulted exclusively in A to G transitions, NMR analyses not only established the structural basis for this transition mutation but also predicted that if the adduct were positioned at the third position in the same codon, an expanded spectra of mutations was possible. To test this prediction, replication of DNAs containing C10 S-BPDE and C10 R-BPDE lesions linked through the N(6) position of adenine in the sequence context N-ras codon 61, position 3 (C10 S-BPDE and C10 R-BPDE at 61(3) ) was carried out in Escherichia coli, and these data revealed a wide mutation spectrum. In addition to A to G transitions produced by replication of both lesions, replication of the C10 S-BPDE and C10 R-BPDE adducts also yielded A to C and A to T transversions, respectively. Analyses of single nucleotide incorporation using Sequenase 2.0 and exonuclease-deficient E. coli Klenow fragment and pol II not only revealed high fidelity synthesis but also demonstrated the same hierarchy of preference opposite a particular lesion, independent of the sequence context. Primer extension assays with the two lesions at N-ras 61(3) resulted in truncated products, with the C10 S-BPDE adducts being more blocking than C10 R-BPDE lesions, and termination of synthesis was more pronounced at position 61(3) than at 61(2) for each of the lesions.

Copyright © 2013 Wiley Periodicals, Inc.

MeSH Terms (10)

Base Pair Mismatch DNA-Directed DNA Polymerase DNA Adducts DNA Polymerase I Escherichia coli Molecular Structure Mutagenesis Mutagens Polycyclic Aromatic Hydrocarbons Stereoisomerism

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