Inhibition of Bacteriophage φX174 DNA Replication in dnaB Mutants of Escherichia coli C

Abstract

Bacteriophage φX174 DNA replication was examined in temperature-sensitive dnaB mutants of Escherichia coli C to determine which stages require the participation of the product of this host gene. The conversion of the infecting phage single-stranded DNA to the double-stranded replicative form (parental RF synthesis) is completely inhibited at the nonpermissive temperature (41 C) in two of the three dnaB mutants tested. The efficiency of phage eclipse and of phage DNA penetration of these mutant host cells at 41 C is the same as that of the parent host strain. The defect is most likely in the synthesis of the complementary strand DNA. The semiconservative replication of the double-stranded replicative form DNA (RF replication) is inhibited in all three host mutants after shifting from 30 to 41 C. Late in infection, the rate of progeny single-stranded phage DNA synthesis increases following shifts from 30 to 41 C. Approximately the same amounts of phage DNA and of infectious phage particles are made following the shift to 41 C as in the control left at 30 C. The simplest interpretation of our data is that the product of the host dnaB gene is required for φX174 parental RF synthesis and RF replication, but is not directly involved in phage single-stranded DNA synthesis once it has begun. The possible significance of the synthesis of parental RF DNA at 41 C in one of the three mutants is discussed.