comK acts as an autoregulatory control switch in the signal transduction route to competence in Bacillus subtilis.

The comK gene is a regulatory transcription unit which is essential for the development of genetic competence in Bacillus subtilis. The transcription of comK is under strict nutritional and growth phase-dependent control and has been shown to depend on the gene products of comA and srfA. In this report, we show that expression of comK is dependent on its own gene product as well as on the gene products of all other tested regulatory genes known to be involved in competence development (abrB, comA, comP, degU, sin, spo0A, spo0H, spo0K, and srfA). A mecA mutation is able to suppress the competence deficiency of mutations in any of these regulatory loci except for mutations in spo0A and, as we show here, in comK. Furthermore, we show that the presence of comK on a multiple copy plasmid leads to derepression of comK expression, causing an almost constitutive expression of competence in minimal medium as well as permitting competence development in complex medium. We infer from these results that the signals which trigger competence development, after having been received and processed by the various components of the competence signal transduction pathway, all converge at the level of comK expression. As soon as derepression of comK expression occurs, the positive autoregulation rapidly results in accumulation of the comK gene product, which subsequently induces competence.