On the nature of the RecBC and RecF pathways of conjugal recombination in Escherichia coli

Abstract

Summary The molecular mechanisms of the RecBC and RecF pathways for genetic recombination in E. coli were investigated by studying the kinetics of RecA protein function during conjugation. RecF recombination in recBC sbcB mutants is shown to be a much slower process than RecBC recombination in recBC ⁺ sbcB ⁺strains, and is blocked by a mutation in lexA that prevents induction of RecA protein. Progress of the RecF pathway is greatly accelerated by a recAoc mutation which increases synthesis of RecA protein, but this does not restore recombination proficiency to a recBC sbcB lexA mutant. These results are interpreted to suggest that the RecF pathway directs integration of single-stranded Hfr DNA into the recipient chromosome whereas the RecBC pathway catalyses the exchange of largely double stranded DNA. This is consistent with the known stoichiometry of RecA protein catalysed heteroduplex DNA formation in vitro and with the delayed replication of RecF pathway recombinants which approximates to the time required for one round of DNA replication to generate homoduplex DNA. The regulation of the RecF pathway by lexA repressor is discussed in relation to the factors that govern the relative utilization of the two recombination pathways in wild-type cells.