Abstract
7-Bromomethylbenz[alpha]anthracene is a known mutagen and carcinogen. The mutagenic potency of its two major DNA adducts, i.e., N2-(benz[alpha]anthracen-7-ylmethyl)-2'-deoxyguanosine (b[alpha]a2G) and N6-(benz[alpha]anthracen-7-ylmethyl)-2'-deoxyadenosine (b[alpha]a6A), as well as the simpler benzylated analogs, N2-benzyl-2'-deoxyguanosine (bn2G) and N6-benzyl-2'-deoxyadenosine (bn6A), were determined in E. coli. Double-stranded and gapped plasmid vectors were used to determine the mutagenicity of b[alpha]a2G, b[alpha]a6A, bn2G and bn6A in E. coli. The four, suitably protected, bulky exocyclic amino-substituted adducts were incorporated into 16-base oligodeoxyribonucleotides, in place of normal guanine or adenine residues, which form part of the ATG initiation codon for the lacZ' alpha-complementation gene. The site-specifically modified oligodeoxyribonucleotides were then incorporated into double-stranded plasmids, which contained uracil residues in the complementary strand in the vicinity of the initiation codon. The uracil residues lead to the creation of a gap in the complementary strand due to the actions of E. coli uracil-DNA glycosylase and AP endonuclease. Following the transfection of these plasmid vectors into E. coli strain GP102, a lacZ alpha complementing version of the parent strain AB1157, their propensity to induce mutation was investigated. The percentages of mutant colonies produced by the four modified nucleosides, in both the double-stranded and gapped plasmid vectors, were not significantly different from those produced by the unmodified plasmids. The mutagenicities of the b[alpha]a2G and b[alpha]a6A were extremely low, and a totally unexpected result, whereas, those of the bn2G and bn6A were undetectable. In this E. coli site-specific mutagenesis system, these bulky aralkylated adducts exhibited no significant mutagenicities, either with or without SOS induction.
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