The isolation and characterisation of a mutant of Salmonella typhimurium defective in mutation frequency decline

Abstract

A mutant of Salmonella typhimurium strain trpC3 has been isolated which is defective in mutation frequency decline (MFD) for UV-induced suppressor revertants to tryptophan independence. Several characteristics of this mutant, PW 4, suggest that it is altered in the timing or rate of the general excision repair mechanism. Survival is greater in strain PW 4 when the first post-irradiation cell division is delayed by the inhibition of immediate protein synthesis. Similarly, stationary phase cells, which show an extended lag after irradiation, are more UV-resistant than lag-phase cells, which recover more rapidly. These data are consistent with the hypothesis that, in contrast with the parent strain trpC 3, the time available in the mutant strain for the action of excision repair is critical in the determination of survival after UV treatment. Contransductional analysis of the mutant locus indicates close linkage to metE, a region in which excision repair genes have been located.