The Baci/lus subtilis spoIlJ locus is defined by a Tn917 insertion which leads to an oligosporogenous phenotype. Here Sporulation of Bacillus subtilis is induced by starvation for either a carbon, a nitrogen, or a phosphorus source. The first recognizable morphological step of this developmental process is the synthesis of an asymmetric septum at one pole of the cell (reviewed in reference 23). This abnormal septation, which segregates the two chromosomes issued from the last round of replication into two unequal compartments, takes place about 60 to 90 min after the end of exponential growth in liquid medium at 37°C. Mutations in the spoIIA and spoIIE operons lead to aberrant structures often characterized by multiple septa, excess membrane synthesis, and deposition of cell wall inside the septa (23). These mutations also block the processing of the inactive precursor of uE, a sigma factor which plays a major role in transcription specificity after the cell has divided into two compartments (35,37). It has been proposed that activation of the spoIIGA product, the presumptive processing enzyme (35), is triggered by the sporulation septum itself, which in turn activates pro_CrE, the spoIIGB product (18,35). Interestingly, the three operons spolIA, spoIIE, and spoIIG are turned on simultaneously about 30 min after the onset of sporulation, and their transcription depends on the products of the spoO genes, suggesting that their expression could be coordinated by a common regulatory mechanism (7,12,16,35).Since some spoO genes are transcribed during exponential growth (4, 40), it can be conjectured that their products respond to the metabolic status of the cell and relay this information by controlling expression of early spo genes, such as some stage II genes. Sequencing of spoOA (9) and spoOF (36) has revealed that their products belong to a family of widespread procaryotic proteins, most of which activate transcription of various regulons in response to specific environmental signals. These proteins are part of a twocomponent system, and their activity is modulated by a second protein acting as a "sensor" and a "transmitter" of some metabolic stimuli (27). It Construction of lacZ fusions. The spoIIA-and spoIIE-lacZ fusions have already been described (35). The spoIIG-lacZ fusion was constructed by subcloning a 518-base-pair (bp)
