ABSTRACT
Transcriptional selectivity derives, in large part, from the sequence-specific DNA-binding properties of the ς subunit of RNA polymerase. There are 17 ς factors in Bacillus subtilis which, in general, recognize distinct sets of promoters. However, some ς factors have overlapping promoter selectivity. We hypothesize that the overlap between the regulons activated by the ςX and ςW factors can be explained by overlapping specificity for the −10 region: ςX recognizes −10 elements with the sequence CGAC and ςW recognizes CGTA, while both can potentially recognize CGTC. To test this model, we mutated the ςX-specific autoregulatory site (PX), containing the −10 element CGAC, to either CGTC or GCTA. Conversely, the ςW autoregulatory site (PW) was altered from CGTA to CGTC or CGAC. Transcriptional analyses, both in vitro and in vivo, indicate that changes to the −10 element are sufficient to switch a promoter from the ςX to the ςW regulon or, conversely, from the ςW to the ςX regulon, but context effects clearly play an important role in determining promoter strength. It seems likely that these subtle differences in promoter selectivity derive from amino acid differences in conserved region 2 of ς, which contacts the −10 element. However, we were unable to alter promoter selectivity by replacements of two candidate recognition residues in ςW.
In Vitro Synthesis of Ribosomal RNA by Bacillus subtilis RNA Polymerase