Repair resynthesis in Escherichia coli mutants deficients in single-stranded DNA-binding protein

Abstract

A series of Escherichia coli strains deficients in single-stranded DNA-binding protein (SSB) and DNA polymerase I was constructed in order to analyze the effects of these mutations on DNA repair resynthesis after UV-irradiation. Since SSB has been suggested to play a role in protecting single-stranded regions which may transiently exist during excision repair and since long single-stranded regions are believed to occur frequently as repair intermediates in strains deficient in DNA polymerase I, studies of repair resynthesis and strand rejoining were performed on strains containing both the ssb-1 and polA1 mutations. Repair resynthesis appears to be slightly decreased in the ssb-1 strain at 42°C relative to the wild-type; however, this effect is not enhanced in a polA1 derivative of this strain. After UV-irradiation, the single-strand molecular weight of the DNA of an ssb-1 strain decreases and fails to recover to normal size. These results are discussed in the context of long patch repair as an inducible component of repair resynthesis and of the protection of intermediates in the excision repair process by SSB. A direct role for SSB in repair resynthesis involving modulation of the proteins involved in this mode of DNA synthesis (particularly stimulation of DNA polymerase II) is not supported by our findings.