Establishing differential gene expression in sporulating Bacillus subtilis: phosphorylation of SpoIIAA (anti-anti-sigmaF) alters its conformation and prevents formation of a SpoIIAA/SpoIIAB/ADP complex.

Sigma-factor F (sigmaF) is a key transcription factor that initiates prespore development in Bacillus subtilis. Its activity is controlled by an anti-sigma factor, SpoIIAB, which is also a protein kinase that phosphorylates the anti-anti-sigma factor SpoIIAA. We have examined our earlier prediction that SpoIIAA must undergo a major change in its properties when phosphorylated. Upon gel filtration in the presence of ADP, SpoIIAA-P was eluted from a Superdex column much later than SpoIIAB, whereas SpoIIAA was coeluted with SpoIIAB, indicating the formation of a protein/protein complex. The complex contained ADP, and had two monomers of SpoIIAA to each SpoIIAB dimer. Its dissociation constant was 13 mu M. Gel permeation on high-performance liquid chromatography (HPLC) suggested an apparent molecular mass for SpoIIAA-P which was much higher (23.5 kDa) than that of SpoIIAA (15.8 kDa), but Ferguson plots showed that SpoIIAA-P was not a phosphorylated dimer of SpoIIAA. Our tentative conclusion, that SpoIIAA and SpoIIAA-P differ markedly in conformation, was confirmed by the results of partial digestion with chymotrypsin.