dnaC

Abstract: A series of mutants of E coli temperature-sensitive for DNA synthesis has been studied The temperature-sensitive DNA mutations map in seven distinct genetic loci most of which have not been previously reported Mutations in dnaA and in dnaC affect the initiation of DNA replication; those at the remaining loci affect chain elongation A temperature-sensitive F′lac is shown to suppress a group A mutant with somewhat less efficiency than other F′ factors previously reported by others The gene products rendered temperaturesensitive by the mutations have not been identified for any of the loci

Abstract: The PriA protein, a component of the phiX174-type primosome, was previously shown to be essential for damage-inducible DNA replication in Escherichia coli, termed inducible stable DNA replication. Here, we show that priA::kan null mutants are defective in transductional and conjugational homologous recombination and are hypersensitive to mitomycin C and gamma rays, which cause double-strand breaks. The introduction of a plasmid carrying the priA300 allele, which encodes a mutant PriA protein capable of catalyzing the assembly of an active primosome but which is missing the n9-pas-dependent ATPase, helicase, and translocase activities associated with PriA, alleviates the defects of priA::kan mutants in homologous recombination, double-strand break repair, and inducible stable DNA replication. Furthermore, spa-47, which was isolated as a suppressor of the broth sensitivity of priA::kan mutants, suppresses the Rec- and mitomycin C sensitivity phenotypes of priA::kan mutants. The spa-47 suppressor mutation maps within or very near dnaC. These results suggest that PriA-dependent primosome assembly is crucial for both homologous recombination and double-strand break repair and support the proposal that these processes in E. coli involve extensive DNA replication.