Transformation in Bacillus subtilis: characterization of an intermediate in recombination observed during transformation.

Summary From recombination-proficient competent cells of Bacillus subtilis in which the donor DNA entered at 17°, and which were kept at the same temperature, a complex of donor DNA and the recipient chromosome can be obtained which has a relatively high buoyant density in CsCl gradients. Exposure of the isolated complex to nuclease S1 liberates donor radioactivity. The limited biological activity of DNA re-extracted from cells attempting to recombine at 17° is decreased upon incubation with nuclease S1. If recombination is allowed to proceed at 30°, the high buoyant density of the donor-recipient complex decreases to normal values and less radioactivity can be liberated from the complex by nuclease S1. Concomitantly the biological activity of re-extracted DNA becomes less vulnerable to nuclease S1 under these conditions. On the basis of these observations we assume that the intermediate complex partly consists of unpaired single-stranded donor DNA.Support for the correctness of this assumption is derived from experiments with a mutant, which is delayed in the processing of high buoyant density donor-recipient complex to normal buoyant density donor-recipient complex. This delay is reflected in the time of acquisition of resistance to nuclease S1 digestion of the isolated complex.