Primer extension analysis of transcripts of the Bacilus subtilis autolysin (cwlB) operon indicated that SigD-dependent transcripts from the Pd promoter are missing in the degU32(Hy) and degS200(Hy) mutants. The degU32(Hy) mutation caused a 990% reduction in the expression of a sigD-lacZ translational fusion gene constructed in the B. subtilis chromosome. The phosphorylated form of the DegU protein seems to be a regulator for expression of the sigD gene.Bacillus subtilis produces two major autolysins (N-acetylmuramoyl-L-alanine amidase and endo-o-N-acetylglucosaminidase) during the vegetative growth phase (7,8,12,28). A gene encoding the former protein (CwlB) has been cloned by us and others (15,18), and it is the third gene in an operon consisting of three genes which encode a putative lipoprotein (LppX), a modifier protein (CwbA), and CwlB, in that order (14,15,18). Transcription of the cwlB operon mainly depends on expression of the SigD protein, which is responsible for cell motility and chemotaxis (16,20). Recently, we cloned a cwlG gene encoding an endo-p-N-acetylglucosaminidase and constructed a double mutant deficient in the two above-mentioned autolysins. The double mutant exhibited greatly impaired motility on a swarm plate, whereas single mutants were motile (27). One of the pleiotropic genes, sin(flaD), is involved in the control of many late-growth developmental processes (32). The sin(flaD) mutation results in an increase in alkaline protease, a filamentous cell morphology, poor development of competence, loss of motility, and a decreased level of autolysin (30, 32). We previously focused on the positive function of sin(flaD) in autolysin production (16,30). A mutation in the C-terminal region of Sin(SinR, FlaD) (3) significantly decreased the expression level of the sigD gene (16). Primer extension analysis indicated that transcription from the sigma D promoter (Pd) of the cwlB operon does not occur in the case of the sin(flaDl) mutant. Moreover, transcription from the sigma A promoter (Pa) also did not occur (16).The degS and degU genes form an operon encoding a two-component system (11,13,23,24,33). Two classes of mutation that have been found in both the degS and degU genes lead either to a deficiency of degradative enzyme production or a pleiotropic Hy phenotype, which includes hyperproduction of degradative enzymes, the ability to sporulate in the presence of glucose, poor development of competence, a filamentous cell morphology, and loss of flagella and motility (2,11,23,31,33 for degradative enzyme production and appears to act as a repressor of essential components of the competence development pathway encoded by the srfoperon (5,9,24). A nonphosphorylated form of DegU is also required for the development of competence, i.e., late competence genes such as comG (6,29). It has been suggested that the degU(Hy) allele may regulate some step(s) upstream from hag (structural gene for flagellin) (22) and degR (accessory regulatory peptide for DegS-DegU) (26,34,35). We report here that the degU(Hy)...
