The relationship of serine protease activity to RNA polymerase modification and sporulation in Bacillus subtilis

The isolation and properties of a single site temperature sensitive protease mutant of Bacillus subtilis are described. Numerous criteria suggest that the mutation resides in the structural gene coding for a basic serine protease. The mutation has been mapped between aroD and lys-1 on the Bacillus subtilis chromosome. This protease exists as an intracellular and extracellular enzyme. The mutant cells are temperature sensitive for sporulation, antibiotic production, and the sporulation-specific alteration in DNA-dependent RNA polymerase β subunit. Several types of evidence indicate a direct involvement of this enzyme in a limited proteolytic cleavage of vegetative RNA polymerase β subunit, which produces the lower molecular weight β subunit found in sporulating cells. The derangement in this process is sufficient to account for the stoppage of sporulation at stage 0 when the mutant cells are grown at the non-permissive temperature.