Inhibition of initiation of mini-F plasmid replication in temperature-sensitive mafA mutants of Escherichia coli K-12

Abstract

When temperature-sensitive mafA mutants of Escherichia coli K-12 carrying mini-F plasmid (pSC138) are transferred from 30 to 42 °C, plasmid DNA replication as determined by incorporation of [ 3H]thymidine into covalently closed circular (CCC) mini-F DNA or by DNA-DNA hybridization is inhibited markedly within 10 min. The results of extensive pulse-chase experiments suggest that the initiation rather than the chain elongation step of plasmid replication is affected under these conditions. The replication inhibition in the mutant is accompanied by appearance of a class of plasmid DNA with a buoyant density higher than that of CCC DNA observed in the wild type, and is followed by gradual inhibition of host cell growth. The inhibition of plasmid replication is reversible at least for 60 min under the conditions used, and the recovery at low temperature (30 °C) depends on the synthesis of untranslated RNA. These results taken together with other evidence suggest that the mafA mutations primarily affect the initial step(s) of F DNA replication, presumably at or before the synthesis of untranslated RNA.