A novel Escherichia coli mutant capable of DNA replication in the absence of protein synthesis

Abstract

An Escherichia coli mutant capable of continued DNA synthesis in the presence of chloramphenicol has been isolated by an autoradiographic technique. The DNA synthesis represents semiconservative replication of E. coli DNA. It can occur in the presence of chloramphenicol or in the absence of essential amino acids, but not in the presence of an RNA synthesis inhibitor, rifampin. The mutant, termed constitutive stable DNA replication (Sdr c) mutant, appears to grow normally at 37 °C with a slightly slower growth rate than that of the parental strain. DNA replication in the mutant occurs at a reduced rate after 60 minutes in the absence of protein synthesis and continues linearly for several hours thereafter. This distinct slowdown in the DNA replication rate is due to a reduced rate of DNA synthesis in all the cells in the population. Constitutive stable DNA replication appears to require the dnaA and dnaC gene products. The sdr c mutation has been mapped near the pro-lac region of the E. coli chromosome. The mutation is recessive. Autoradiographic experiments have ruled out the possibility of multiple initiations during a cell cycle. The implication of the above findings is discussed in terms of the regulation of chromosome replication in E. coli.