[Effect of a null mutation in the priA gene on radioresistance of Escherichia coli].

According to Kogoma's model of DNA recombination by replication, the PriA protein is involved in the RecBCD pathway of double-strand break (DSB) repair, which is associated with extensive DNA degradation, at the stage of primosome assembly in D-loops (intermediates of strand exchange at the ends of DSB) for the subsequent switch to DSB-induced DNA resynthesis. Comparable data on possible involvement of the PriA protein in the repair of gamma-ray-induced lethal lesions in cells of the wild-type strain of Escherichia coli (strain AB1157) and in two radiation-resistant mutants Gamr445 and Gamr444 were obtained. In all the three strains examined, the null priA2::kan mutation in the structural priA gene was shown to markedly enhance the radiation sensitivity, causing a two- to threefold increase in the slopes of linear dose-survival curves. In the AB1157 strain, the inactivation of PriA is manifested most clearly in the range of low doses (up to 0.15 kGy) when the priA2::kan mutation had only a slight effect on the radiation resistance of Gamr mutants. It can be assumed that, in these mutants with a decreased level of postradiation DNA degradation, the PriA-dependent RecBCD pathway of DSB repair associated with extensive DNA resynthesis is not essential for the repair of lethal lesions at low doses. However, this pathway becomes crucial at higher doses (> 0.5 kGy) even for radiation-resistant strains, especially for the most resistant Gamr444 mutant.