Initiation of DNA replication in Bacillus subtilis. IV. The effect of an intercalating dye, ethidium bromide.

Abstract

The effects of an intercalating dye, ethidium bromide (EtBr), on the initiation of chromosome replication in Bacillus subtilis were studied. Spores of a thymine requiring mutant acquired the ability to initiate one round of replication in the absence of RNA and protein synthesis (initiation potential) during germination in a thymine starved medium. When EtBr was added after the initiation potential was fully established, initiation of replication was completely inhibited. This inhibition was reversible, and initiation was resumed when the drug was removed. The recovery of initiation occurred in the absence of protein synthesis but did require RNA synthesis and an active dna gene product. During germination both a DNA-protein complex and a DNA-membrane complex were formed at the replication origin in parallel with the establishment of initiation potential. EtBr destroyed both of these complexes at the concentration which inhibited initiation. The first round of replication of a plasmid DNA, pSL103, during spore germination was also prevented by EtBr. However a higher concentration was required to inhibit plasmid replication. It was found that the plasmid formed two complexes identical to the S- and M-complex of the chromosome origin. Compared to the chromosome complexes the plasmid complexes were less sensitive to EtBr. The loss of sensitivity was equivalent to that for the initiation of the plasmid compared to the chromosome. These results indicate that the target of EtBr is the DNA in the S- and M-complexes whose conformation is essential for the initiation of chromosome and plasmid replication.