Competence-specific induction of the Bacillus subtilis RecA protein analog: evidence for dual regulation of a recombination protein

Abstract

The development of competence in Bacillus subtilis is accompanied by the transcriptional activation of DNA damage-inducible (din) operons and other SOS-like responses. We report here that B. subtilis Rec protein (the analog of Escherichia coli RecA), a DNA damage-inducible protein, is substantially induced when cells differentiate to a state of competence. We quantitated the induction of B. subtilis Rec protein and the B. subtilis din-22 operon (representative of all known B. subtilis din operons) during competence development in Rec+ and DNA repair-deficient strains. We present two lines of evidence that Rec protein induction in competent cells is controlled by a competence-specific mechanism that is distinct from the SOS-like regulation that controls Rec induction following DNA damage: (i) Rec protein was significantly induced in rec mutants (recA1 and recE4) that are highly deficient in Rec induction by DNA damage, and (ii) Rec protein induction during competence development was greater than maximum Rec induction by DNA damage. On the other hand, our results suggest that the din-22 operon is induced by the same (SOS-like) mechanism both during competence development and after DNA damage.