Sporulation gene spoIIB from Bacillus subtilis

Abstract

We have cloned and characterized the sporulation gene spoIIB from Bacillus subtilis. In extension of previous nucleotide sequence analysis, our results show that the order of genes in the vicinity of spoIIB is valS folC comC spoIIB orfA orfB mreB mreC mreD minC minD spoIVFA spoIVFB L20 orfX L24 spoOB obg pheB pheA. All 20 genes have the same orientation; the direction of transcription is from valS to pheA. We show that spoIIB is a 332-codon-long open reading frame whose transcription is under sporulation control. The deduced amino acid sequence of the spoIIB gene product, a 36-kDa polypeptide, is highly charged and contains a stretch of uncharged amino acids that could correspond to a transmembrane segment. Surprisingly, mutations in spoIIB, including an in vitro-constructed null mutation, cause only a mild impairment of spore formation in certain otherwise wild-type bacteria. However, when combined with mutations in another sporulation gene, spoVG, mutations in spoIIB cause a severe block in spore formation at the stage (stage II) of septum formation. (As with spoIIB mutations, mutations in spoVG cause little impairment in sporulation on their own.) The nature of the spoIIB spoVG mutant phenotype is discussed in terms of the events involved in the maturation of the sporulation septum and in the activation of sporulation transcription factors sigma F and sigma E.