Inducibility of a gene product required for UV and chemical mutagenesis in Escherichia coli.

The product of the umuC gene is required for UV and chemical mutagenesis in Escherichia coli. By the use of the Mud(Ap, lac) bacteriophage, we have obtained an operon fusion of the lac structural genes to the promoter/regulatory region of the umuC gene. The strain containing the umuC::Mud(Ap, lac) fusion was identified on the basis of its UV nonmutability. Strains containing this putative null allele of umuC were (i) nonmutable by UV and other agents, (ii) slightly UV sensitive, and (iii) deficient in their ability to carry out Weigle reactivation of UV-irradiation bacteriophage lambda. The UV nonmutability of the strain could be suppressed by a derivative of the mutagenesis-enhancing plasmid pKM101. beta-Galactosidase synthesis in umuC::Mud(Ap, lac) fusion strains was inducible by UV and other DNA-damaging agents. Genetic analysis of the regulation of beta-galactosidase in umuC::Mud(Ap, lac) strains suggests that the lexA protein is the direct repressor of the umuC gene and that a function of the recA protein, probably its protease activity, is required for the removal of the lexA repressor at the time of umuC induction.