The Bacillus anthracis spore constitutes the infectious form of the bacterium, and sporulation is an important process in the organism's life cycle. Herein, we show that disruption of SpoVG resulted in defective B. anthracis sporulation. Confocal microscopy demonstrated that a ΔspoVG mutant could not form an asymmetric septum, the first morphological change observed during sporulation. Moreover, levels of spoIIE mRNA were reduced in the spoVG mutant, as demonstrated using β-galactosidase activity assays. The effects on sporulation of the ΔspoVG mutation differed in B. anthracis from those in B. subtilis because of the redundant functions of SpoVG and SpoIIB in B. subtilis. SpoVG is highly conserved between B. anthracis and B. subtilis. Conversely, BA4688 (the protein tentatively assigned as SpoIIB in B. anthracis) and B. subtilis SpoIIB (SpoIIBBs) share only 27.9% sequence identity. On complementation of the B. anthracis ΔspoVG strain with spoIIBBs, the resulting strain pBspoIIBBs/ΔspoVG could not form resistant spores, but partially completed the prespore engulfment stage. In agreement with this finding, mRNA levels of the prespore engulfment gene spoIIM were significantly increased in strain pBspoIIBBs/ΔspoVG compared with the ΔspoVG strain. Transcription of the coat development gene cotE was similar in the pBspoIIBBs/ΔspoVG and ΔspoVG strains. Thus, unlike in B. subtilis, SpoVG appears to be required for sporulation in B. anthracis, which provides further insight into the sporulation mechanisms of this pathogen.
Keywords: Bacillus anthracis; spoIIB; spoVG; sporulation.