Suppression of early competence mutations in Bacillus subtilis by mec mutations.

Although competence normally develops only in glucose-minimal salts media, mecA and mecB mutations permit the expression of competence and of late competence genes in complex media as well (D. Dubnau and M. Roggiani, J. Bacteriol. 172:4048-4055, 1990). The expression of late competence genes is dependent on the products of the regulatory genes comA, comB, comP, sin, abrB, spo0H, and spo0A. We show here that this list must be extended to include degU, csh-293, and spo0K. mecA and -B mutations bypass most of these requirements, making the expression of late competence genes and of competence itself independent of all of these regulatory genes, with the exceptions of spo0A and spo0K (in the case of mecB). The expression of late competence genes in mec mutants that are deficient for each of the bypassed regulatory functions is still under growth stage-specific regulation. The implications of these findings are discussed, and a provisional scheme for the flow of information during the development of competence is proposed.     

X-ray study of competence development in Bacillus subtilis

Summary Pre-competent and competent cultures of Bacillus subtilis were x-irradiated before and after centrifugal separation of cells in a Renografin density gradient. Pre-competent cultures have no cells at the radiosensitivity of the cells in the bulk competent culture, but there is a substantial fraction of cells in a multi-target state, with heterogeneous target numbers. On reaching maximal competence, the survival becomes entirely linear in radiosensitivity. Irradiation of the separated competent cells shows that competence development correlates with disappearance of multi-target cells from the non-competent band of cells and the appearance of single-target cells in the competent band at a radiosensitivity equal to that of the bulk competent culture. Thus the multi-target state may be a required stage in the development of competence in this system.     

DNA replication during development of competence in Bacillus subtilis

Summary A new technique for studying DNA synthesis in competent cells of Bacillus subtilis has been developed.During competence development, the transformable cells are probably synthetizing DNA with a duplication time of approximately 90 min at 30° C; only when the maximum of competence is reached, does synthesis stop.     

Bacillus subtilis YqjG is required for genetic competence development

Members of the evolutionary conserved Oxa1/Alb3/YidC family have been shown to play an important role in membrane protein insertion, folding and/or assembly. Bacillus subtilis contains two YidC-like proteins, denoted as SpoIIIJ and YqjG. SpoIIIJ and YqjG are largely exchangeable, but SpoIIIJ is essential for spore formation and YqjG cannot complement this activity. To elucidate the role of YqjG, we determined the membrane proteome and functional aspects of B. subtilis cells devoid of SpoIIIJ, YqjG or both. The data show that SpoIIIJ and YqjG have complementary functions in membrane protein insertion and assembly. The reduced levels of F(1)F(O) ATP synthase in cells devoid of both SpoIIIJ and YqjG are due to a defective assembly of the F(1)-domain onto the F(0)-domain. Importantly, for the first time, a specific function is demonstrated for YqjG in genetic competence development.     

Influence of several nucleotides on the competence development of Bacillus subtilis

The influence of adenosine-3,5-cyclic monophosphate (cAMP) and other nucleotides on the competence development of Bacillus subtilis was studied. The stimulation of competence which can be achieved by exposing physiologically low-competent cells to supernatants from highly competent cultures can be inhibited with different cAMP doses. When the same cells were suspended in a minimal medium with cAMP, varying degrees of stimulation of competence were observed depending on the time of addition of the drug. This effect is not specific for cAMP. It appears to be correlated to an increase of the amount of DNA bound to the competent cells. cAMP activities were antagonized by equimolar doses of adenosine-triphosphate (ATP) and guanosine-triphosphate (GTP).List of Abbreviations ATP adenosine triphosphate - AMP adenosine monophosphoric acid - GTP guanosine-triphosphate - cGMP guanosine 3,5-cyclic-monophosphoric acid - PLC physiologically low-competent cells - TY triptone yeast - CSA competence-stimulating activity - SF filtered supernatants - NCS non-competent supernatants - MBW minimal Bott and Wilson     

生防菌Bs-916突变菌株M49芽胞形成和感受态形成能力

摘要：生防枯草芽胞杆菌Bs-916（Bacillus subtilis）在水稻纹枯病的防治上效果显著。应用离子注入突变对Bs-916进行了突变,获得了一系列的突变菌株。其中突变菌株M49,其表面活性素Surfactin分泌量比出发菌株Bs-916大大降低并导致其防效降低。【目的】为了确认影响该菌株防效降低的影响因子,对其表型和相关基因表达水平进行了研究。【方法】应用生孢培养基,通过芽胞形成能力评测方法比较该菌株和野生菌株Bs-916的芽胞形成能力;通过转化质粒的实验评测突变菌株M49和野生型Bs-916的     

Mathematical approach to the stimulation of the competence development in Bacillus subtilis.

The stimulation of competence development by culture fluids of B. subtilis has been studied at very short intervals. In these conditions, successive competence waves as well as changes in the level of competence stimulating activity are observed. A mathematical model for the explanation of the phenomenon is developed. Two methods have been followed to study the model: construction of a simulation by using a computer system and analytic study of the equations.     

Amino-acylation site mutations in amino acid-activating domains of surfactin synthetase: effects on surfactin production and competence development in Bacillus subtilis.

The part of the srfA operon of Bacillus subtilis that contains the region required for competence development is composed of the first four amino acid-activating domains which are responsible for the incorporation of Glu, Leu, D-Leu, and Val into the peptide moiety of the lipopeptide surfactin. Ser-to-Ala substitutions were made in the amino-acylation site of each domain, and their effects on surfactin production and competence development were examined. All of the mutations conferred a surfactin-negative phenotype, supporting the finding that the conserved Ser in the amino-acylation site is required for peptide synthesis. However, none of the mutations affected significantly competence development or the expression of a lacZ fusion to the late competence operon comG. This, coupled with recent findings that only the fourth, Val-activating, domain is required for competence, suggests that some activity, other than amino-acylation and perhaps unrelated to peptide synthesis, possessed by the fourth domain is involved in the role of srfA in regulating competence development.