Facilitated loading of RecA protein is essential to recombination by RecBCD enzyme.

Although the RecB(2109)CD enzyme retains most of the biochemical functions associated with the wild-type RecBCD enzyme, it is completely defective for genetic recombination. Here, we demonstrate that the mutant enzyme exhibits an aberrant double-stranded DNA exonuclease activity, intrinsically producing a 3'-terminal single-stranded DNA overhang that is an ideal substrate for RecA protein-promoted strand invasion. Thus, the mutant enzyme constitutively processes double-stranded DNA in the same manner as the chi-modified wild-type RecBCD enzyme. However, we further show that the RecB(2109)CD enzyme is unable to coordinate the loading of RecA protein onto the single-stranded DNA produced, and we conclude that this inability results in the recombination-defective phenotype of the recB2109 allele. Our findings argue that the facilitated loading of RecA protein by the chi-activated RecBCD enzyme is essential for RecBCD-mediated homologous recombination in vivo.