SigM-Responsive Genes of Bacillus subtilis and Their Promoters

ABSTRACT Promoters of nine Bacillus subtilis genes (bcrC, yacK, ydaH, yfnI, yjbD, ypbG, ypuA, yraA, and ysxA), all responsive to artificially induced increases in the stress-responsive extracytoplasmic function sigma factor, SigM, were mapped by rapid amplification of cDNA ends-PCR. The resulting promoter consensus suggests that overlapping control by SigX or SigW is common.

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The Clostridium difficile Dlt Pathway Is Controlled by the Extracytoplasmic Function Sigma Factor σVin Response to Lysozyme

Infection and Immunity ◽

10.1128/iai.00207-16 ◽

2016 ◽

Vol 84 (6) ◽

pp. 1902-1916 ◽

Cited By ~ 21

Author(s):

Emily C. Woods ◽

Kathryn L. Nawrocki ◽

Jose M. Suárez ◽

Shonna M. McBride

Keyword(s):

Cell Wall ◽

Clostridium Difficile ◽

Sigma Factor ◽

Intestinal Tract ◽

Dependent Manner ◽

Hamster Model ◽

Content Type ◽

Rapid Amplification ◽

Extracytoplasmic Function Sigma Factor

Clostridium difficile(also known asPeptoclostridium difficile) is a major nosocomial pathogen and a leading cause of antibiotic-associated diarrhea throughout the world. Colonization of the intestinal tract is necessary forC. difficileto cause disease. Host-produced antimicrobial proteins (AMPs), such as lysozyme, are present in the intestinal tract and can deter colonization by many bacterial pathogens, and yetC. difficileis able to survive in the colon in the presence of these AMPs. Our prior studies established that the Dlt pathway, which increases the surface charge of the bacterium by addition ofd-alanine to teichoic acids, is important forC. difficileresistance to a variety of AMPs. We sought to determine what genetic mechanisms regulate expression of the Dlt pathway. In this study, we show that adltnull mutant is severely attenuated for growth in lysozyme and that expression of thedltDABCoperon is induced in response to lysozyme. Moreover, we found that a mutant lacking the extracytoplasmic function (ECF) sigma factor σVdoes not inducedltexpression in response to lysozyme, indicating that σVis required for regulation of lysozyme-dependentd-alanylation of the cell wall. Using reporter gene fusions and 5′ RACE (rapid amplification of cDNA ends) analysis, we identified promoter elements necessary for lysozyme-dependent and lysozyme-independentdltexpression. In addition, we observed that both asigVmutant and adltmutant are more virulent in a hamster model of infection. These findings demonstrate that cell walld-alanylation inC. difficileis induced by lysozyme in a σV-dependent manner and that this pathway impacts virulencein vivo.

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Identification of transposon-inserted mutations including rnpB::Tn that abolished glucose induction of sigX encoding extracytoplasmic function-sigma factor in Bacillus subtilis

Bioscience Biotechnology and Biochemistry ◽

10.1093/bbb/zbab211 ◽

2021 ◽

Author(s):

Mitsuo Ogura

Keyword(s):

Bacillus Subtilis ◽

Sigma Factor ◽

Stringent Response ◽

Rnase P ◽

Glucose Induction ◽

Extracytoplasmic Function Sigma Factor

Abstract We investigated the regulators of the glucose induction (GI) of the ECF-sigma genes sigX/M. During further screening of transposon-inserted mutants, we identified several regulators including an RNA component of RNase P (rnpB), which is required for tRNA maturation. A depletion of rnpB is known to trigger the stringent response. We showed evidence that the stringent response inhibited GI of sigX/M.

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Regulation of the Bacillus subtilis Extracytoplasmic Function Protein σY and Its Target Promoters

Journal of Bacteriology ◽

10.1128/jb.185.16.4883-4890.2003 ◽

2003 ◽

Vol 185 (16) ◽

pp. 4883-4890 ◽

Cited By ~ 34

Author(s):

Min Cao ◽

Letal Salzberg ◽

Ching Sung Tsai ◽

Thorsten Mascher ◽

Carla Bonilla ◽

...

Keyword(s):

Bacillus Subtilis ◽

Sigma Factor ◽

Negative Regulation ◽

Wild Type ◽

Induced Mutations ◽

Mutant Strains ◽

Elevated Expression ◽

Direct Target ◽

Extracytoplasmic Function Sigma Factor ◽

Target Promoters

ABSTRACT The Bacillus subtilis extracytoplasmic function sigma factor σY is of unknown function. We demonstrate that the sigY operon is expressed from an autoregulatory promoter site, PY. We selected for transposon-induced mutations that upregulate PY transcription in an attempt to identify genes involved in σY regulation. The resulting insertions disrupted yxlC, the gene immediately downstream of sigY. However, the phenotype of the yxlC::Tn10 insertion was due to polarity on the downstream genes of the sigY operon; a nonpolar insertion in yxlC did not lead to derepression of PY. Further analyses revealed that both yxlD and yxlE encoded proteins important for the negative regulation of σY activity. A comparison of the transcriptomes of wild-type and yxlC::Tn10 mutant strains revealed elevated expression of several operons. However, only one additional gene, ybgB, was unambiguously identified as a direct target for σY. This was supported by analysis of direct targets for σY transcription with whole-genome runoff transcription followed by macroarray analysis.

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The Bacillus subtilis sigma(X) protein is an extracytoplasmic function sigma factor contributing to survival at high temperature.

Journal of Bacteriology ◽

10.1128/jb.179.9.2915-2921.1997 ◽

1997 ◽

Vol 179 (9) ◽

pp. 2915-2921 ◽

Cited By ~ 69

Author(s):

X Huang ◽

A Decatur ◽

A Sorokin ◽

J D Helmann

Keyword(s):

Bacillus Subtilis ◽

High Temperature ◽

Sigma Factor ◽

X Protein ◽

Extracytoplasmic Function Sigma Factor

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SigM, an Extracytoplasmic Function Sigma Factor of Bacillus subtilis, Is Activated in Response to Cell Wall Antibiotics, Ethanol, Heat, Acid, and Superoxide Stress

Journal of Bacteriology ◽

10.1128/jb.185.12.3491-3498.2003 ◽

2003 ◽

Vol 185 (12) ◽

pp. 3491-3498 ◽

Cited By ~ 91

Author(s):

Penny D. Thackray ◽

Anne Moir

Keyword(s):

Cell Wall ◽

Bacillus Subtilis ◽

Exponential Growth ◽

Sigma Factor ◽

Promoter Region ◽

Normal Cell ◽

Tween 20 ◽

Exponential Growth Phase ◽

Extracytoplasmic Function Sigma Factor ◽

Triton X

ABSTRACT The extracytoplasmic function sigma M of Bacillus subtilis is required for normal cell growth under salt stress. It is expressed maximally during exponential growth and is further induced by the addition of 0.7 M NaCl. The promoter region of the sigM operon contains two promoters; one (PA) is sigma A dependent, and the other (PM) is sigma M dependent. These have been placed separately at the amy locus, directing expression of a lacZ reporter gene. Only the PM fusion responded to salt induction. This promoter, which was responsive to the level of active sigma M in the cell, was also induced by 5% ethanol, by vancomycin, bacitracin, or phosphomycin (inhibitors of cell wall biosynthesis; 2 μg per ml), and by heat shock of 50°C for 10 min. It was very strongly induced by acid (pH 4.3) and 80 μM paraquat, but after a 15- to 30-min delay. There was no induction by alkali (pH 9), 5 mM H2O2, the detergents 0.1% Triton X-100 and 0.1% Tween 20, or 50 μM monensin. In addition to their reduced tolerance to salt, null mutants of sigM were unable to grow at pH 4.3 and lysed after exposure to 5% ethanol. Genes regulated by SigM were also tested for their response to pH 4.3, 5% ethanol, and 2 μg of vancomycin per ml. Expression of the genes may have been activated by increased levels of sigma M, but at least some were also subject to additional controls, as they responded to one type of stress but not another. Expression of yrhJ, which encodes a cytochrome P450/NADPH reductase, was induced in response to acid and vancomycin. yraA expression was acid, ethanol, and vancomycin induced, whereas yjbD showed only ethanol induction. YraA protein was extremely important to acid survival—a mutation in yraA, like a sigM mutation, resulted in the failure of B. subtilis to grow at pH 4.3. Sigma M is therefore involved in maintaining membrane and cell wall integrity in response to several different stresses in exponential growth phase and is activated by such stresses.

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