Role of surface exclusion genes in lethal zygosis in Escherichia coli K12 mating

Summary We find that diaminopimelic acid in the recipient membrane is released into the medium during bacterial matings, indicating that membrane damage was inflicted on the recipient by the donor, probably for forming a channel for DNA transfer. When the damage is extensive, as in matings with an excess of Hfr bacteria, the F^- bacteria are killed (lethal zygosis). The transfer of a large amount of DNA in Hfr matings appears to enhance the killing. In analogous F⁺xF^- (Nal^r) matings, on the other hand, killing of F^- bacteria does not occur unless F plasmid transfer is inhibited by a substance like nalidixic acid. The F^- bacteria are killed, suggesting that F plasmids contain genes that express immunity to lethal zygosis in the recipient. For example, bacteria containing surface exclusion-deficient mutants of F plasmids, such as traS^- and traT^-, induce lethal zygosis in F^- bacteria and are susceptible to it. Various tra^- polar mutants that abolish surface exclusion are also susceptible to lethal zygosis when mated with Hfr bacteria. Kinetic experiments indicate that in F⁺ (wild type) x F^- matings, immunity to lethal zygosis is expressed in the F^- recipient within 1/4 division time, whereas a complete expression of surface exclusion requires more than 1 division time. Thus, a complete change in all receptor sites seems to be required for the expression of surface exclusion.