Joint molecule formation following conjugation in wild type and mutant Escherichia coli recipients

The sedimentation coefficients of closed circular Simian virus (SV40) DNA, phage PM2 DNA and animal mitochondrial DNAs in alkaline NaCl and alkaline CsCl were found to decrease by about 5% as the initial superhelix densities decreased from 0.0 to ?0.10, corresponding to a decrease in the degree of strand interwinding from 1.0 to 0.9 net turns per ten base pairs. The small dependence of the appropriately normalized sedimentation coefficients on the degree of strand interwinding is taken to indicate that fully titrated and denatured closed circular DNA is highly supercoiled in a positive sense. This supercoiling results from the spontaneous decrease in the number of secondary turns in the no longer ordered pairs of polynucleotide strands.The measured sedimentation coefficients form a smoothly connected monotonie curve when plotted along with the sedimentation coefficients in alkali (Sebring et al., 1971) of parental closed circles derived from closed circular SV40 DNA replicating intermediates. These DNAs have degrees of strand interwinding that range from 0.6 to 0.15.The possibility raised by Paoletti &; LePecq (1971) that closed circular duplex DNAs contain positive supercoils, i.e. have degrees of strand interwinding greater than 1.0, has been ruled out in a series of ethidium bromide titrations of partially replicated mitochondrial DNA before and after removal of the progeny strand. More ethidium bromide was required in the latter case for relaxation, a result which shows that intercalated ethidium and a displacing strand act on the duplex in the same way, and that both unwind the duplex. This result requires the supercoils of naturally closed circular DNAs to be negative.