Characterization of the promoter region of the Bacillus subtilis spoIIE operon.

Mutations that define the spoIIE locus of Bacillus subtilis block sporulation at an early stage and recently were shown to prevent the proteolytic processing of sigma E (sigma 29) into its active form, an event that is believed to control critical changes in gene expression during the second hour of development. By taking advantage of two Tn917-mediated insertional mutations in spoIIE, we have cloned DNA spanning the locus. Gene disruption experiments with subcloned fragments transferred to integrational vectors revealed that the locus consisted of a single transcription unit about 2.5 kilobase pairs in size. Transcriptional lacZ fusions were used to show that expression of this transcription unit initiated at 1.5 h after the end of log-phase growth and depended upon the products of all spo0 loci. Expression was directed by a single promoter whose position was determined by high-resolution S1 protection mapping. A deletion analysis of the promoter region was also carried out, with novel integrational vectors based on derivatives of coliphage M13. The results indicated that a region of DNA extending from 183 to 118 base pairs upstream from the start point of transcription was required for full activity of the spoIIE promoter. The presumptive RNA polymerase-binding region of the promoter exhibited striking similarity to the spoIIG promoter and featured perfect but unusually spaced -10 and -35 consensus sequences for sigma A (sigma 43)-associated RNA polymerase.