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173 results on '"Clostridium -- Physiological aspects"'

1. Heilongjiang University of Science and Technology Researchers Yield New Study Findings on Microbiology (Comparative genomics reveals cellobiose hydrolysis mechanism of Ruminiclostridium thermocellum M3, a cellulosic saccharification bacterium)

Subjects
Microbial enzymes -- Physiological aspects, Clostridium -- Physiological aspects, Carbohydrates -- Physiological aspects, Hydrolysis -- Physiological aspects, Biological sciences, Health
Abstract

2023 JAN 24 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- New research on microbiology is the subject of a new report. According to news [...]

Published
2023

3. Study Results from Ocean University of China Broaden Understanding of Clostridium (Effects of Clostridium Autoethanogenum Protein As Substitute for Dietary Fishmeal On the Growth, Feed Utilization, Intestinal Health and Muscle Quality of Large ...)

Subjects
Clostridium -- Physiological aspects, Biological sciences, Health
Abstract

2022 DEC 20 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Investigators publish new report on Gram-Positive Endospore-Forming Bacteria - Clostridium. According to news reporting [...]

Published
2022

4. Research Reports from King Saud University Provide New Insights into Clostridium perfringens (Influence of prebiotic yeast cell wall extracts on growth performance, carcase attributes, biochemical metabolites, and intestinal morphology and ...)

Subjects
Clostridium -- Physiological aspects, Salmonella -- Physiological aspects, Biological sciences, Health
Abstract

2022 DEC 13 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Fresh data on Clostridium perfringens are presented in a new report. According to news [...]

Published
2022

5. Reports Outline Clostridium perfringens Study Findings from Heilongjiang Bayi Agricultural University (Diagnostic and therapeutic strategy for Clostridium perfringens infection in postpartum dairy cows: a report of 14 cases)

Subjects
Clostridium -- Physiological aspects, Dairy cattle -- Health aspects, Infection -- Diagnosis -- Care and treatment, Biological sciences, Health
Abstract

2022 DEC 13 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Data detailed on Clostridium perfringens have been presented. According to news reporting originating from [...]

Published
2022

6. Study Results from Zhejiang University Broaden Understanding of Clostridium perfringens (Screening of Bacteria Inhibiting * * Clostridium perfringens* * and Assessment of Their Beneficial Effects In Vitro and In Vivo with Whole Genome ...)

Subjects
Clostridium -- Physiological aspects, Biological sciences, Health
Abstract

2022 NOV 8 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Investigators publish new report on Clostridium perfringens. According to news originating from Hangzhou, People's [...]

Published
2022

7. Jimei University Researchers Describe Advances in Clostridium [Substituting Fish Meal with a Bacteria Protein (* * Clostridium autoethanogenum* * Protein) Derived from Industrial-Scale Gas Fermentation: Effects on Growth and Gut Health of ...]

Subjects
Clostridium -- Physiological aspects, Fermentation -- By-products, Bacterial proteins -- Usage -- Health aspects, Biological sciences, Health
Abstract

2022 NOV 8 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Investigators publish new report on clostridium. According to news reporting from Xiamen, People's Republic [...]

Published
2022

8. Chinese Academy of Agricultural Sciences Researchers Describe Research in Clostridium butyricum [Enhancing egg production and quality by the supplementation of probiotic strains (Clostridium and Brevibacillus) via improved amino acid ...]

Subjects
Clostridium -- Physiological aspects, Biological sciences, Health
Abstract

2022 SEP 27 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Research findings on Clostridium butyricum are discussed in a new report. According to news [...]

Published
2022

9. Recent Studies from University of Delaware Add New Data to Clostridium kluyveri [The potential of caproate (hexanoate) production using Clostridium kluyveri syntrophic cocultures with Clostridium acetobutylicum or Clostridium saccharolyticum]

Subjects
Clostridium -- Physiological aspects, Biological sciences, Health
Abstract

2022 SEP 6 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Investigators publish new report on Clostridium kluyveri. According to news originating from Newark, Delaware, [...]

Published
2022

10. Study Results from University of Wisconsin Madison in the Area of Clostridium beijerinckii Published (Glycerol Utilization as a Sole Carbon Source Disrupts the Membrane Architecture and Solventogenesis in * * Clostridium beijerinckii* * NCIMB ...)

Subjects
Clostridium -- Physiological aspects, Biological sciences, Health
Abstract

2022 AUG 9 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Investigators publish new report on Clostridium beijerinckii. According to news reporting originating from Madison, [...]

Published
2022

11. New Clostridium butyricum Study Results from Chalmers University of Technology Described (structural Diversity and Substrate Preferences of Three Tannase Enzymes Encoded By the Anaerobic Bacterium Clostridium Butyricum)

Subjects
Clostridium -- Physiological aspects, Biological sciences, Health
Abstract

2022 JUN 28 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Current study results on Gram-Positive Bacteria - Clostridium butyricum have been published. According to [...]

Published
2022

12. Study Findings from Northeast Agricultural University Provide New Insights into Clostridium butyricum (Effects of Dietary Supplementation With Clostridium butyricum on Growth Performance, Apparent Digestibility, Blood Metabolites, Ruminal ...)

Subjects
Clostridium -- Physiological aspects, Biological sciences, Health
Abstract

2022 JUN 7 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- New study results on Clostridium butyricum have been published. According to news reporting originating [...]

Published
2022

13. Researchers from Jiangsu University Publish Findings in Clostridium (Isolation, Characterization, and Application of * * Clostridium sporogenes* * F39 to Degrade Zearalenone under Anaerobic Conditions)

Subjects
Clostridium -- Physiological aspects, Biological sciences, Health
Abstract

2022 MAY 31 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Researchers detail new data in clostridium. According to news originating from Zhenjiang, People's Republic [...]

Published
2022

14. Data from University of Georgia Advance Knowledge in Thermoanaerobacter (Crystallographic Snapshots of Ternary Complexes of Thermophilic Secondary Alcohol Dehydrogenase From Thermoanaerobacter Pseudoethanolicus Reveal the Dynamics of Ligand ...)

Subjects
Clostridium -- Physiological aspects, Oxidoreductases -- Physiological aspects -- Structure, Biological sciences, Health
Abstract

2022 MAY 17 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Research findings on Gram-Positive Bacteria - Thermoanaerobacter are discussed in a new report. According [...]

Published
2022

15. Research from Nanjing Agricultural University Provide New Insights into Clostridium perfringens (The Broad Host Range Phage vB_CpeS_BG3P Is Able to Inhibit * * Clostridium perfringens* * Growth)

Subjects
Clostridium -- Physiological aspects, Bacteriophages -- Physiological aspects, Host-virus relationships -- Research, Microbiological research, Biological sciences, Health
Abstract

2022 MAY 10 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Researchers detail new data in Clostridium perfringens. According to news reporting out of Nanjing, [...]

Published
2022

16. [NADP.sup.+] reduction with reduced ferredoxin and [NADP.sup.+] reduction with NADH are coupled via an electron-bifurcating enzyme complex in Clostridium kluyveri

Author

Wang, Shuning, Huang, Haiyan, Moll, Johanna, and Thauer, Rudolf K.

Subjects
Clostridium -- Physiological aspects, NADP (Coenzyme) -- Physiological aspects, NADP (Coenzyme) -- Chemical properties, Biological sciences
Abstract

It was recently found that the cytoplasmic butyryl-coenzyme A (butyryl-CoA) dehydrogenase-EtfAB complex from Clostridium kluyveri couples the exergonic reduction of crotonyl-CoA to butyryl-CoA with NADH and the endergonic reduction of ferredoxin with NADH via flavin-based electron bifurcation. We report here on a second cytoplasmic enzyme complex in C. kluyveri capable of energetic coupling via this novel mechanism. It was found that the purified iron-sulfur flavoprotein complex NfnAB couples the exergonic reduction of [NADP.sup.+] with reduced ferredoxin ([Fd.sub.red]) and the endergonic reduction of [NADP.sup.+] with NADH in a reversible reaction: [Fd.sub.red.sup.2-] + NADH + 2 [NADP.sup.+] + [H.sup.+] = [Fd.sub.ox] + [NAD.sup.+] + 2 NADPH. The role of this energy- converting enzyme complex in the ethanol-acetate fermentation of C. kluyveri is discussed. doi: 10.1128/JB.00612-10

Published
2010

17. Systems-level metabolic flux profiling elucidates a complete, bifurcated tricarboxylic acid cycle in Clostridium acetobutylicum

Author

Amador-Noguez, Daniel, Feng, Xiao-Jiang, Fan, Jing, Roquet, Nathaniel, Rabitz, Herschel, and Rabinowitz, Joshua D.

Subjects
Tracers (Biology) -- Research, Clostridium -- Physiological aspects, Microbial metabolism -- Research, Biological sciences
Abstract

Obligatory anaerobic bacteria are major contributors to the overall metabolism of soil and the human gut. The metabolic pathways of these bacteria remain, however, poorly understood. Using isotope tracers, mass spectrometry, and quantitative flux modeling, here we directly map the metabolic pathways of Clostridium acetobutylicum, a soil bacterium whose major fermentation products include the biofuels butanol and hydrogen. While genome annotation suggests the absence of most tricarboxylic acid (TCA) cycle enzymes, our results demonstrate that this bacterium has a complete, albeit bifurcated, TCA cycle; oxaloacetate flows to succinate both through citrate/[alpha]-ketoglutarate and via malate/fumarate. Our investigations also yielded insights into the pathways utilized for glucose catabolism and amino acid biosynthesis and revealed that the organism's one-carbon metabolism is distinct from that of model microbes, involving reversible pyruvate decarboxylation and the use of pyruvate as the one-carbon donor for biosynthetic reactions. This study represents the first in vivo characterization of the TCA cycle and central metabolism of C. acetobutylicum. Our results establish a role for the full TCA cycle in an obligatory anaerobic organism and demonstrate the importance of complementing genome annotation with isotope tracer studies for determining the metabolic pathways of diverse microbes. doi: 10.1128/JB.00490-10

Published
2010

18. The surprising diversity of clostridial hydrogenases: a comparative genomic perspective

Author

Calusinska, Magdalena, Happe, Thomas, Joris, Bernard, and Wilmotte, Annick

Subjects
Clostridium -- Physiological aspects, Clostridium -- Genetic aspects, Clostridium -- Research, Enzymes -- Physiological aspects, Enzymes -- Research, Nucleotide sequencing -- Usage, Biological sciences
Abstract

Among the large variety of micro-organisms capable of fermentative hydrogen production, strict anaerobes such as members of the genus Clostridium are the most widely studied. They can produce hydrogen by a reversible reduction of protons accumulated during fermentation to dihydrogen, a reaction which is catalysed by hydrogenases. Sequenced genomes provide completely new insights into the diversity of clostridial hydrogenases. Building on previous reports, we found that [FeFe] hydrogenases are not a homogeneous group of enzymes, but exist in multiple forms with different modular structures and are especially abundant in members of the genus Clostridium. This unusual diversity seems to support the central role of hydrogenases in cell metabolism. In particular, the presence of multiple putative operons encoding multisubunit [FeFe] hydrogenases highlights the fact that hydrogen metabolism is very complex in this genus. In contrast with [FeFe] hydrogenases, their [NiFe] hydrogenase counterparts, widely represented in other bacteria and archaea, are found in only a few clostridial species. Surprisingly, a heteromultimeric Ech hydrogenase, known to be an energy-converting [NiFe] hydrogenase and previously described only in methanogenic archaea and some sulfur-reducing bacteria, was found to be encoded by the genomes of four cellulolytic strains: Clostridum cellulolyticum, Clostridum papyrosolvens, Clostridum thermoceflum and Clostridum phytofermentans. DOI 10.1099/mic.0.032771-0

Published
2010

19. Characterization of Acp, a peptidoglycan hydrolase of Clostridium perfringens with N-acetylglucosaminidase activity that is implicated in cell separation and stress-induced autolysis

Author

Camiade, Emilie, Peltier, Johann, Bourgeois, Ingrid, Couture-Tosi, Evelyne, Courtin, Pascal, Antunes, Ana, Chapot-Chartier, Marie-Pierre, Dupuy, Bruno, and Pons, Jean-Louis

Subjects
Hydrolases -- Properties, Enzymes -- Properties, Clostridium -- Physiological aspects, Peptidoglycans -- Properties, Biological sciences
Abstract

This work reports the characterization of the first known peptidoglycan hydrolase (Acp) produced mainly during vegetative growth of Clostridium perfringens. Acp has a modular structure with three domains: a signal peptide domain, an N-terminal domain with repeated sequences, and a C-terminal catalytic domain. The purified recombinant catalytic domain of Acp displayed lytic activity on the cell walls of several Gram-positive bacterial species. Its hydrolytic specificity was established by analyzing the Bacillus subtilis peptidoglycan digestion products by coupling reverse phase--high-pressure liquid chromatography (RP-HPLC) and matrix-assisted laser desorption ionization--time of flight mass spectrometry (MALDI-TOF MS) analysis, which displayed an N-acetylglucosaminidase activity. The study of acp expression showed a constant expression during growth, which suggested an important role of Acp in growth of C. perfringens. Furthermore, cell fractionation and indirect immunofluorescence staining using anti-Acp antibodies revealed that Acp is located at the septal peptidoglycan of vegetative cells during exponential growth phase, indicating a role in cell separation or division of C. perfringens. A knockout acp mutant strain was obtained by using the insertion of mobile group II intron strategy (ClosTron). The microscopic examination indicated a lack of vegetative cell separation in the acp mutant strain, as well as the wild-type strain incubated with anti-Acp antibodies, demonstrating the critical role of Acp in cell separation. The comparative responses of wild-type and acp mutant strains to stresses induced by Triton X-100, bile salts, and vancomycin revealed an implication of Acp in autolysis induced by these stresses. Overall, Acp appears as a major cell wall N-acetylglucosaminidase implicated in both vegetative growth and stress-induced autolysis. doi: 10.1128/JB.01546-09

Published
2010

20. Purification and characterization of a clostripain-like protease from a recombinant Clostridium perfringens culture

Author

Manabe, Sadao, Nariya, Hirofumi, Miyata, Shigeru, Tanaka, Hiroaki, Minami, Junzaburo, Suzuki, Motoo, Taniguchi, Yuki, and Okabe, Akinobu

Subjects
Amino acid sequence -- Usage, Clostridium -- Physiological aspects, Clostridium -- Genetic aspects, Clostridium -- Research, Proteases -- Physiological aspects, Proteases -- Research, Biological sciences
Abstract

Clostridium perfringens produces a homologue of clostripain (Clo), the arginine-specific endopeptidase of Clostridium histolyticum. To determine the biochemical and biological properties of the C. perfringens homologue (Clp), it was purified from the culture supernatant of a recombinant C. perfringens strain by cation-exchange chromatography and ultrafiltration. Analysis by SDS-PAGE, N-terminal amino acid sequencing and TOF mass spectrometry revealed that Clp consists of two polypeptides comprising heavy (38 kDa) and light (16 kDa or 15 kDa) chains, and that the two light chains differ in the N-terminal cleavage site. This difference in the light chain did not affect the enzymic activity toward N-benzoyI-L-arginine p-nitroanilide (Bz-L-arginine pNA), as demonstrated by assaying culture supematants differing in the relative ratio of the two light chains. Although the purified Clp preferentially degraded Bz-DL-arginine pNA rather than Bz-DL-lysine pNA, it degraded the latter more efficiently than did Clo. Clp showed 2.3-fold higher caseinolytic activity than Clo, as expected from the difference in substrate specificity. Clp caused an increase in vascular permeability when injected intradermally into mice, implying a possible role of Clp in the pathogenesis of clostridial myonecrosis. DOI 10.1099/mic.0.031609-0

Published
2010

21. Genetic and biochemical analysis of a class C non-specific acid phosphatase (NSAP) of Clostridium perfringens

Author

Wang, Ruoyu, Ohtani, Kaori, Wang, Yun, Yuan, Yonghui, Hassan, Sufi, and Shimizu, Tohru

Subjects
Bacterial genetics -- Research, Clostridium -- Physiological aspects, Clostridium -- Genetic aspects, Clostridium -- Research, Phosphatases -- Physiological aspects, Phosphatases -- Research, Biological sciences
Abstract

Clostridium perfringens, a Gram-positive anaerobe, is a human pathogen that causes gas gangrene in muscle tissues. Its ability to grow and survive in the host is believed to be due to the production of numerous enzymes that enable the organism to obtain essential nutrients from the host. In this study, CPE0201, a putative acid phosphatase gene deduced by genome analysis, was shown to encode a non-specific acid phosphatase in C. perfringens. Multiple alignments of the amino acid sequence showed that CPE0201 shares two signature motifs that belong to a class C acid phosphatase family. Expression of CPE0201 was shown to be positively regulated by the global VirR/VirS-VR-RNA regulatory cascade at the transcriptional level. To determine the acid phosphatase activity of the CPE0201-encoded protein, cloning, expression, purification and several biochemical characterizations were carried out. The optimum pH for activity of the CPE0201 enzyme was 4.8, and its [V.sub.max] and [K.sub.m] were 3.08 nmol [ml.sup.-1] [min.sup.-1] and 2.84 mM, respectively, with p-nitrophenyl phosphate (PNPP) as substrate. A CPE0201 mutant did not grow in a minimal medium containing PNPP, while it showed normal growth when [Na.sub.2]HP[O.sub.4] was added to the medium. The enzyme appears to be associated with the surface of the cell, where it may function to acquire inorganic phosphate from organic phosphomonoesters in acidic conditions, which could play an important role in the survival and growth of C. perfringens in the host tissue. DOI 10.1099/mic.0.030395-0

Published
2010

22. Requirements for germination of Clostridium sordellii spores in vitro

Author

Ramirez, Norma and Abel-Santos, Ernesto

Subjects
Spores (Bacteria) -- Growth, Clostridium -- Physiological aspects, Company growth, Biological sciences
Abstract

Clostridium sordellii is a spore-forming, obligately anaerobic, Gram-positive bacterium that can cause toxic shock syndrome after gynecological procedures. Although the incidence of C. sordellii infection is low, it is fatal in most cases. Since spore germination is believed to be the first step in the establishment of Bacilli and Clostridia infections, we analyzed the requirements for C. sordellii spore germination in vitro. Our data showed that C. sordellii spores require three structurally different amino acids and bicarbonate for maximum germination. Unlike the case for Bacilli species, D-alanine had no effect on C. sordellii spore germination. C. sordellii spores germinated only in a narrow pH range between 5.7 and 6.5. In contrast, C. sordellii spore germination was significantly less sensitive to temperature changes than that of the Bacilli. The analysis of the kinetics of C. sordellii spore germination showed strong allosteric behavior in the binding of L-phenylalanine and L-alanine but not in that of bicarbonate or L-arginine. By comparing germinant apparent binding affinities to their known in vivo concentrations, we postulated a mechanism for differential C. sordellii spore activation in the female reproductive tract. doi: 10.1128/JB.01226-09

Published
2010

23. Loss of the apical V-ATPase a-subunit VHA-6 prevents acidification of the intestinal lumen during a rhythmic behavior in C. elegans

Author

Allman, Erik, Johnson, David, and Nehrke, Keith

Subjects
Adenosine triphosphatase -- Analysis, Biological rhythms -- Research, Clostridium -- Physiological aspects, Clostridium -- Research, Protons -- Physiological aspects, Intestinal mucosa -- Physiological aspects, Intestinal mucosa -- Research, Biological sciences
Abstract

Loss of the apical V-ATPase a-subunit VHA-6 prevents acidification of the intestinal lumen during a rhythmic behavior in C. elegans. Am J Physiol Cell Physiol 297: C1071-C1081, 2009. First published September 9, 2009; doi:10.1152/ajpcell.00284.2009.--In Caenorhabditis elegans, oscillations of intestinal pH contribute to the rhythmic defecation behavior, but the acid-base transport mechanisms that facilitate proton movement are not well understood. Here, we demonstrate that VHA-6, an intestine-specific a-subunit of the [H.sup.+]-[K.sup.+]-ATPase complex (V-ATPase), resides in the apical membrane of the intestinal epithelial cells and is required for luminal acidification. Disruption of the vha-6 gene led to early developmental arrest; the arrest phenotype could be complemented by expression of a fluorescently labeled vha-6 transgene. To study the contribution of vha-6 to pH homeostasis in larval worms, we used a partial reduction of function through postembryonic single-generation RNA interference. We demonstrate that the inability to fully acidify the intestinal lumen coincides with a defect in pH recovery of the intestinal epithelial cells, suggesting that VHA-6 is essential for proton pumping following defecation. Moreover, intestinal dipeptide accumulation and fat storage are compromised by the loss of VHA-6, suggesting that luminal acidification promotes nutrient uptake in worms, as well as in mammals. Since acidified intracellular vesicles and autofluorescent storage granules are indistinguishable between the vha-6 mutant and controls, it is likely that the nutrient-restricted phenotype is due to a loss of plasma membrane V-ATPase activity specifically. These data establish a simple genetic model for proton pump-driven acidification. Since defecation occurs at 45-s intervals in worms, this model represents an opportunity to study acute regulation of V-ATPase activity on a short time scale and may be useful in the study of alternative treatments for acid-peptic disorders. biorhythm; nematode; proton doi: 10.1152/ajpcell.00284.2009.

Published
2009

24. tISCpe8, an IS1595-family lincomycin resistance element located on a conjugative plasmid in Clostridium perfringens

Author

Lyras, Dena, Adams, Vicki, Ballard, Susan A., Teng, Wee L., Howarth, Pauline M., Crellin, Paul K., Bannam, Trudi L., Songer, J. Glenn, and Rood, Julian I.

Subjects
Clostridium -- Physiological aspects, Clostridium -- Genetic aspects, Drug resistance in microorganisms -- Genetic aspects, Drug resistance in microorganisms -- Research, Plasmids -- Physiological aspects, Plasmids -- Research, Biological sciences
Abstract

Clostridium perfringens is a normal gastrointestinal organism that is a reservoir for antibiotic resistance genes and can potentially act as a source from which mobile elements and their associated resistance determinants can be transferred to other bacterial pathogens. Lincomycin resistance in C. perfringens is common and is usually encoded by erm genes that confer macrolide-lincosamide-streptogramin B resistance. In this study we identified strains that are lincomycin resistant but erythromycin sensitive and showed that the lincomycin resistance determinant was plasmid borne and could be transferred to other C. perfringens isolates by conjugation. The plasmid, pJIR2774, is the first conjugative C. perfringens R-plasmid to be identified that does not confer tetracycline resistance. Further analysis showed that resistance was encoded by the lnuP gene, which encoded a putative lincosamide nucleotidyltransferase and was located on tISCpe8, a functional transposable genetic element that was a member of the IS1595 family of transposon-like insertion sequences. This element had significant similarity to the mobilizable lincomycin resistance element tISSag10 from Streptococcus agalactiae. Like tISSag10, tISCpe8 carries a functional origin of transfer within the resistance gene, allowing the element to be mobilized by the conjugative transposon Tn916. The similarity of these elements and the finding that they both contain an oriT-like region support the hypothesis that conjugation may result in the movement of DNA modules that are not obviously mobile since they are not linked to conjugation or mobilization functions. This process likely plays a significant role in bacterial adaptation and evolution. doi: 10.1128/JB.00668-09

Published
2009

25. The role of PerR in [O.sub.2]-affected gene expression of Clostridium acetobutylicum

Author

Hillmann, Falk, Doring, Christina, Riebe, Oliver, Ehrenreich, Armin, Fischer, Ralf-Jorg, and Bahl, Hubert

Subjects
Gene expression -- Research, Oxidative stress -- Health aspects, Oxidative stress -- Research, Clostridium -- Physiological aspects, Clostridium -- Genetic aspects, Clostridium -- Research, Biological sciences
Abstract

In the strict anaerobe Clostridium acetobutylicum, a PerR-homologous protein has recently been identified as being a key repressor of a reductive machinery for the scavenging of reactive oxygen species and molecular [O.sub.2]. In the absence of PerR, the full derepression of its regulon resulted in increased resistance to oxidative stress and nearly full tolerance of an aerobic environment. In the present study, the complementation of a Bacillus subtilis PerR mutant confirmed that the homologous protein from C. acetobutylicum acts as a functional peroxide sensor in vivo. Furthermore, we used a transcriptomic approach to analyze gene expression in the aerotolerant PerR mutant strain and compared it to the [O.sub.2] stimulon of wild-type C. acetobutylicum. The genes encoding the components of the alternative detoxification system were PerR regulated. Only few other targets of direct PerR regulation were identified, including two highly expressed genes encoding enzymes that are putatively involved in the central energy metabolism. All of them were highly induced when wild-type cells were exposed to sublethal levels of [O.sub.2]. Under these conditions, C. acetobutylicum also activated the repair and biogenesis of DNA and Fe-S clusters as well as the transcription of a gene encoding an unknown CO dehydrogenase-like enzyme. Surprisingly few genes were downregulated when exposed to [O.sub.2], including those involved in butyrate formation. In summary, these results show that the defense of this strict anaerobe against oxidative stress is robust and by far not limited to the removal of [O.sub.2] and its reactive derivatives. doi: 10.1128/JB.00351-09

Published
2009

26. Sporulation and enterotoxin (CPE) synthesis are controlled by the sporulation-specific sigma factors SigE and SigK in Clostridium perfringens

Author

Harry, Kathryn H., Zhou, Ruanbao, Kroos, Lee, and Melville, Stephen B.

Subjects
Clostridium -- Physiological aspects, Clostridium -- Genetic aspects, Microbiological synthesis -- Research, Enterotoxins -- Physiological aspects, Spores (Bacteria) -- Growth, Company growth, Biological sciences
Abstract

Clostridium perfringens is the third most frequent cause of bacterial food poisoning annually in the United States. Ingested C. perfringens vegetative cells sporulate in the intestinal tract and produce an enterotoxin (CPE) that is responsible for the symptoms of acute food poisoning. Studies of Bacillus subtilis have shown that gene expression during sporulation is compartmentalized, with different genes expressed in the mother cell and the forespore. The cell-specific RNA polymerase sigma factors [[sigma].sup.F], [[sigma].sup.E], [[sigma].sup.G], and [[sigma].sup.K] coordinate much of the developmental process. The C. perfringens cpe gene, encoding CPE, is transcribed from three promoters, where P1 was proposed to be [[sigma].sup.K] dependent, while P2 and P3 were proposed to be [[sigma].sup.E] dependent based on consensus promoter recognition sequences. In this study, mutations were introduced into the sigE and sigK genes of C. perfringens. With the sigE and sigK mutants, gusA fusion assays indicated that there was no expression of cpe in either mutant. Results from gusA fusion assays and immunoblotting experiments indicate that [[sigma].sup.E]- associated RNA polymerase and [[sigma].sup.K]-associated RNA polymerase coregulate each other's expression. Transcription and translation of the spoIIID gene in C. perfringens were not affected by mutations in sigE and sigK, which differs from B. subtilis, in which spoIIID transcription requires [[sigma].sup.E]-associated RNA polymerase. The results presented here show that the regulation of developmental events in the mother cell compartment of C. perfringens is not the same as that in B. subtilis and Clostridium acetobutylicum.

Published
2009

27. SleC is essential for cortex peptidoglycan hydrolysis during germination of spores of the pathogenic bacterium Clostridium perfringens

Author

Paredes-Sabja, Daniel, Setlow, Peter, and Sarker, Mahfuzur R.

Subjects
Hydrolysis -- Research, Clostridium -- Physiological aspects, Spores (Bacteria) -- Growth, Company growth, Biological sciences
Abstract

Clostridial spore germination requires degradation of the spore's peptidoglycan (PG) cortex by cortex-lytic enzymes (CLEs), and two Clostridium perfringens CLEs, SleC and SleM, degrade cortex PG in vitro. We now find that only SleC is essential for cortex hydrolysis and viability of C. perfringens spores. C. perfringens sleC spores did not germinate completely with nutrients, KCl or a 1:1 chelate of [Ca.sup.2+] and dipicolinic acid (Ca-DPA), and the colony-forming efficiency of sleC spores was [10.sup.3]-fold lower than that of wild-type spores. However, sleC spores incubated with various germinants released most of their DPA, although slower than wild-type or sleM spores, and DPA release from sleC sleM spores was very slow. In contrast, germination and viability of sleM spores were similar to that of wild-type spores, although sleC sleM spores had [10.sup.5]-fold-lower viability. These results allow the following conclusions about C. perfringens spore germination: (i) SleC is essential for cortex hydrolysis; (ii) although SleM can degrade cortex PG in vitro, this enzyme is not essential; (iii) action of SleC alone or with SleM can accelerate DPA release; and (iv) Ca-DPA does not trigger spore germination by activation of CLEs.

Published
2009

28. Cellodextrin and laminaribiose ABC transporters in clostridium thermocellum

Author

Nataf, Yakir, Yaron, Sima, Stahl, Frank, Lamed, Raphael, Bayer, Edward A., Scheper, Thomas-Helmut, Sonenshein, Abraham L., and Shoham, Yuval

Subjects
Clostridium -- Physiological aspects, Bacterial proteins -- Properties, Biological sciences
Abstract

Clostridium thermocellum is an anaerobic thermophilic bacterium that grows efficiently on cellulosic biomass. This bacterium produces and secretes a highly active multienzyme complex, the cellulosome, that mediates the cell attachment to and hydrolysis of the crystalline cellulosic substrate. C. thermocellum can efficiently utilize only [beta]-1,3 and [beta]-1,4 glucans and prefers long celiodextrins. Since the bacterium can also produce ethanol, it is considered an attractive candidate for a consolidated fermentation process in which cellulose hydrolysis and ethanol fermentation occur in a single process. In this study, we have identified and characterized five sugar ABC transporter systems in C. thermocellum. The putative transporters were identified by sequence homology of the putative solute-binding lipoprotein to known sugar-binding proteins. Each of these systems is transcribed from a gene cluster, which includes an extracellular solute-binding protein, one or two integral membrane proteins, and, in most cases, an ATP-binding protein. The genes of the five solute-binding proteins were cloned, fused to His tags, overexpressed, and purified, and their abilities to interact with different sugars was examined by isothermal titration calorimetry. Three of the sugar-binding lipoproteins (CbpB to -D) interacted with different lengths of cellodextrins ([G.sub.2] to [G.sub.5]), with disassociation constants in the micromolar range. One protein, CbpA, binds only cellotriose ([G.sub.3]), while another protein, Lbp (laminaribiose- binding protein) interacts with laminaribiose. The sugar specificity of the different binding lipoproteins is consistent with the observed substrate preference of C. thermocellum, in which cellodextrins ([G.sub.3] to [G.sub.5]) are assimilated faster than cellobiose.

Published
2009

29. Pathway for [H.sub.2][O.sub.2] and [O.sub.2] detoxification in Clostridium acetobutylicum

Author

Riebe, Oliver, Fischer, Ralf-Jorg, Wampler, David A., Kurtz, Donald M. Jr., and Bahl, Hubert

Subjects
Clostridium -- Physiological aspects, Clostridium -- Research, Metalloproteins -- Physiological aspects, Metalloproteins -- Properties, Metalloproteins -- Research, Oxidative stress -- Physiological aspects, Oxidative stress -- Research, Biological sciences
Abstract

An unusual non-haem diiron protein, reverse rubrerythrin (revRbr), is known to be massively upregulated in response to oxidative stress in the strictly anaerobic bacterium Clostridium acetobutylicum. In the present study both in vivo and in vitro results demonstrate an [H.sub.2][O.sub.2] and [O.sub.2] detoxification pathway in C. acetobutylicum involving revRbr, rubredoxin (Rd) and NADH : rubredoxin oxidoreductase (NROR). RevRbr exhibited both NADH peroxidase (NADH : [H.sub.2][O.sub.2] oxidoreductase) and NADH oxidase (NADH : [O.sub.2] oxidoreductase) activities in in vitro assays using NROR as the electron-transfer intermediary from NADH to revRbr. Rd increased the NADH consumption rate by serving as an intermediary electron-transfer shuttle between NROR and revRbr. While [H.sub.2][O.sub.2] was found to be the preferred substrate for revRbr, its relative oxidase activity was found to be significantly higher than that reported for other Rbrs. A revRbr-overexpressing strain of C. acetobutylicum showed significantly increased tolerance to [H.sub.2][O.sub.2] and [O.sub.2] exposure. RevRbr thus appears to protect C. acetobutylicum against oxidative stress by functioning as the terminal component of an NADH peroxidase and NADH oxidase.

Published
2009

30. The two-component system PhoPR of clostridium acetobutylicum is involved in phosphate-dependent gene regulation

Author

Fiedler, Tomas, Mix, Maren, Meyer, Uta, Mikkat, Stefan, Glocker, Michael O., Bahl, Hubert, and Fischer, Ralf-Jorg

Subjects
Clostridium -- Physiological aspects, Clostridium -- Genetic aspects, Gene expression -- Research, Phosphorylation -- Physiological aspects, Phosphorylation -- Genetic aspects, Biological sciences
Abstract

The phoPR gene locus of Clostridium acetobutylicum ATCC 824 comprises two genes, phoP and phoR. Deduced proteins are predicted to represent a response regulator and sensor kinase of a phosphate-dependent two-component regulatory system. We analyzed the expression patterns of phoPR in [P.sub.i]-limited chemostat cultures and in response to [P.sub.i] pulses. A basic transcription level under high-phosphate conditions was shown, and a significant increase in mRNA transcript levels was found when external [P.sub.i] concentrations dropped below 0.3 mM. In two-dimensional gel electrophoresis experiments, a 2.5-fold increase in PhoP was observed under [P.sub.i]-limiting growth conditions compared to growth with an excess of [P.sub.i]. At least three different transcription start points for phoP were determined by primer extension analyses. Proteins PhoP and an N-terminally truncated *PhoR were individually expressed heterologously in Escherichia coli and purified. Autophosphorylation of *PhoR and phosphorylation of PhoP were shown in vitro. Electromobility shift assays proved that there was a specific binding of PhoP to the promoter region of the phosphate-regulated pst operon of C. acetobutylicum.

Published
2008

31. Characterization of clostridium perfringens spores that lack spoVA proteins and dipicolinic acid

Author

Paredes-Sabja, Daniel, Setlow, Barbara, Setlow, Peter, and Sarker, Mahfuzur R.

Subjects
Clostridium -- Physiological aspects, Spores (Bacteria) -- Physiological aspects, Bacterial proteins -- Physiological aspects, Biological sciences
Abstract

Spores of Clostridium perfringens possess high heat resistance, and when these spores germinate and return to active growth, they can cause gastrointestinal disease. Work with Bacillus subtilis has shown that the spore's dipicolinic acid (DPA) level can markedly influence both spore germination and resistance and that the proteins encoded by the spoVA operon are essential for DPA uptake by the developing spore during sporulation. We now find that proteins encoded by the spoVA operon are also essential for the uptake of [Ca.sup.2+] and DPA into the developing spore during C. perfringens sporulation. Spores of a spoVA mutant had little, if any, [Ca.sup.2+] and DPA, and their core water content was approximately twofold higher than that of wild-type spores. These DPA-less spores did not germinate spontaneously, as DPA-less B. subtilis spores do. Indeed, wild-type and spoVA C. perfringens spores germinated similarly with a mixture of L-asparagine and KCl (AK), KCl alone, or a 1:1 chelate of [Ca.sup.2+] and DPA (Ca-DPA). However, the viability of C. perfringens spoVA spores was 20-fold lower than the viability of wild-type spores. Decoated wild-type and spoVA spores exhibited little, if any, germination with AK, KCl, or exogenous Ca-DPA, and their colony-forming efficiency was 103- to 104-fold lower than that of intact spores. However, lysozyme treatment rescued these decoated spores. Although the levels of DNA-protective [alpha]/[beta]-type, small, acid-soluble spore proteins in spoVA spores were similar to those in wild-type spores, spoVA spores exhibited markedly lower resistance to moist heat, formaldehyde, HCl, hydrogen peroxide, nitrous acid, and UV radiation than wild-type spores did. In sum, these results suggest the following. (i) SpoVA proteins are essential for Ca-DPA uptake by developing spores during C. perfringens sporulation. (ii) SpoVA proteins and Ca-DPA release are not required for C. perfringens spore germination. (iii) A low spore core water content is essential for full resistance of C. perfringens spores to moist heat, UV radiation, and chemicals.

Published
2008

32. Structural basis of actin recognition and arginine ADP-ribosylation by Clostridium perfringens [iota]-toxin

Author

Tsuge, Hideaki, Nagahama, Masahiro, Oda, Masataka, Iwamoto, Shinobu, Utsunomiya, Hiroko, Marquez, Victor E., Katunuma, Nobuhiko, Nishizawa, Mugio, and Sakurai, Jun

Subjects
Clostridium -- Physiological aspects, Actin -- Properties, Ribose -- Properties, Microbiological chemistry -- Research, Crystals -- Structure, Crystals -- Evaluation, Protein research, Science and technology
Abstract

The ADP-ribosylating toxins (ADPRTs) produced by pathogenic bacteria modify intracellular protein and affect eukaryotic cell function. Actin-specific ADPRTs (including Clostridium perfringens L-toxin and Clostridium botulinum C2 toxin) ADP-ribosylate G-actin at Arg-177, leading to disorganization of the cytoskeleton and cell death. Although the structures of many actin-specific ADPRTs are available, the mechanisms underlying actin recognition and selective ADP-ribosylation of Arg-177 remain unknown. Here we report the crystal structure of actin-la in complex with the nonhydrolyzable NAD analog [beta]TAD at 2.8 A resolution. The structure indicates that la recognizes actin via five loops around NAD: loop I (Tyr-60--Tyr-62 in the N domain), loop II (active-site loop), loop III, loop IV (PN loop), and loop V (ADP-ribosylating turn-turn loop). We used site-directed mutagenesis to confirm that loop I on the N domain and loop II are essential for the ADP-ribosyltransferase activity. Furthermore, we revealed that Glu-378 on the EXE loop is in close proximity to Arg-177 in actin, and we proposed that the ADP-ribosylation of Arg-177 proceeds by an SN1 reaction via first an oxocarbenium ion intermediate and second a cationic intermediate by alleviating the strained conformation of the first oxocarbenium ion. Our results suggest a common reaction mechanism for ADPRTs. Moreover, the structure might be of use in rational drug design to block toxin-substrate recognition. complex | crystal structure | protein recognition

Published
2008

33. Transcriptional regulation of the Clostridium cellulolyticum cip-cel operon: a complex mechanism involving a catabolite-responsive element

Author

Abdou, Laetitia, Boileau, Celine, de Philip, Pascale, Pages, Sandrine, Fierobe, Henri-Pierre, and Tardif, Chantal

Subjects
Cellulose -- Genetic aspects, Clostridium -- Physiological aspects, Clostridium -- Genetic aspects, Biological sciences
Abstract

The cip-cel cluster of genes plays an important role in the catabolism of the substrate cellulose by Clostridium cellulolyticum. It encodes several key components of the cellulosomes, including the scaffolding protein CipC and the major cellulase Ce148F. All the genes of this cluster display linked transcription, focusing attention on the promoter upstream from the first gene, cipC. We analyzed the regulation of the cipC promoter using a transcriptional fusion approach. A single promoter is located between nucleotides -671 and -643 with respect to the ATG start codon, and the large mRNA leader sequence is processed at position -194. A catabolite-responsive element (CRE) 414 nucleotides downstream from the transcriptional start site has been shown to be involved in regulating this operon by a carbon catabolite repression mechanism. This CRE is thought to bind a CcpA-like regulator complexed with a P-Ser-Crh-like protein. Sequences surrounding the promoter sequence may also be involved in direct (sequencedependent DNA curvature) or indirect (unknown regulator binding) regulation.

Published
2008

34. Clostridium perfringens spore germination: characterization of germinants and their receptors

Author

Paredes-Sabja, Daniel, Torres, J. Antonio, Setlow, Peter, and Sarker, Mahfuzur R.

Subjects
Clostridium -- Physiological aspects, Clostridium -- Genetic aspects, Germination -- Research, Spores (Bacteria) -- Properties, Operons -- Properties, Operons -- Influence, Biological sciences
Abstract

Clostridium perfringens food poisoning is caused by type A isolates carrying a chromosomal enterotoxin (cpe) gene (C-cpe), while C. perfringens-associated non-food-borne gastrointestinal (GI) diseases are caused by isolates carrying a plasmid-borne cpe gene (P-cpe). C. perfringens spores are thought to be the important infectious cell morphotype, and after inoculation into a suitable host, these spores must germinate and return to active growth to cause GI disease. We have found differences in the germination of spores of C-cpe and P-cpe isolates in that (i) while a mixture of L-asparagine and KCI was a good germinant for spores of C-cpe and P-cpe isolates, KCl and, to a lesser extent, L-asparagine triggered spore germination in C-cpe isolates only; and (ii) L-alanine or L-valine induced significant germination of spores of P-cpe but not C-cpe isolates. Spores of a gerK mutant of a C-cpe isolate in which two of the proteins of a spore nutrient germinant receptor were absent germinated slower than wild-type spores with KCl, did not germinate with L-asparagine, and germinated poorly compared to wild-type spores with the nonnutrient germinants dodecylamine and a 1:1 chelate of [Ca.sup.2+] and dipicolinic acid. In contrast, spores of a gerAA mutant of a C-cpe isolate that lacked another component of a nutrient germinant receptor germinated at the same rate as that of wild-type spores with high concentrations of KCl, although they germinated slightly slower with a lower KCl concentration, suggesting an auxiliary role for GerAA in C. perfringens spore germination. In sum, this study identified nutrient germinants for spores of both C-cpe and P-cpe isolates of C. perfringens and provided evidence that proteins encoded by the gerK operon are required for both nutrient-induced and non-nutrient-induced spore germination.

Published
2008

35. Coupled ferredoxin and crotonyl coenzyme A (CoA) reduction with NADH catalyzed by the butyryl-CoA dehydrogenase/Etf complex from Clostridium kluyveri

Author

Li, Fuli, Hinderberger, Julia, Seedorf, Henning, Zhang, Jin, Buckel, Wolfgang, and Thauer, Rudolf K.

Subjects
Clostridium -- Physiological aspects, Catalysis -- Research, Biological sciences
Abstract

Cell extracts of butyrate-forming clostridia have been shown to catalyze acetyl-coenzyme A (acetyl-CoA)- and ferredoxinldependent formation of [H.sub.2] from NADH. It has been proposed that these bacteria contain an NADH:ferredoxin oxidoreductase which is allosterically regulated by acetyI-CoA. We report here that ferredoxin reduction with NADH in cell extracts from Clostridium kluyveri is catalyzed by the butyryl-CoA dehydrogenase/Etf complex and that the acetyl-CoA dependence previously observed is due to the fact that the cell extracts catalyze the reduction of acetyl-CoA with NADH via crotonyI-CoA to butyryl-CoA. The cytoplasmic butyryI-CoA dehydrogenase complex was purified and is shown to couple the endergonic reduction of ferredoxin ([E.sub.0]' = -410 mV) with NADH ([E.sub.0]' = -320 mV) to the exergonic reduction of crotonyl-CoA to butyryl-CoA ([E.sub.0]' = -10 mV) with NADH. The stoichiometry of the fully coupled reaction is extrapolated to be as follows: 2 NADH + 1 oxidized ferredoxin + 1 crotonyl-CoA = 2 [NAD.sup.+] + 1 ferredoxin reduced by two electrons + 1 butyryl-CoA. The implications of this finding for the energy metabolism of butyrate-forming anaerobes are discussed in the accompanying paper.

Published
2008

36. Carbon catabolite repression of type IV pilus-dependent gliding motility in the anaerobic pathogen Clostridium perfringens

Author

Mendez, Marcelo, Huang, I-Hsiu, Ohtani, Kaori, Grau, Roberto, Shimizu, Tohru, and Sarker, Mahfuzur R.

Subjects
Clostridium -- Physiological aspects, Bacteria -- Motility, Bacteria -- Research, Biological sciences
Abstract

Clostridium perfringens is an anaerobic, gram-positive, spore-forming bacterium responsible for the production of severe histotoxic and gastrointestinal diseases in humans and animals. In silico analysis of the three available genome-sequenced C. perfringens strains (13, SM101, and ATCC13124) revealed that genes that encode flagellar proteins and genes involved in chemotaxis are absent. However, those strains exhibit type IV pilus (TFP)-dependent gliding motility. Since carbon catabolite regulation has been implicated in the control of different bacterial behaviors, we investigated the effects of glucose and other readily metabolized carbohydrates on C. perfringens gliding motility. Our results demonstrate that carbon catabolite regulation constitutes an important physiological regulatory mechanism that reduces the proficiencies of the gliding motilities of a large number of unrelated human-and animal-derived pathogenic C. perfringens strains. Glucose produces a strong dose-dependent inhibition of gliding development without affecting vegetative growth. Maximum gliding inhibition was observed at a glucose concentration (1%) previously reported to also inhibit other important behaviors in C. perfringens, such as spore development. The inhibition of gliding development in the presence of glucose was due, at least in part, to the repression of the genes pilT and pilD, whose products are essential for TFP-dependent gliding proficiency. The inhibitory effects of glucose on pilT and pilD expression were under the control of the key regulatory protein CcpA (catabolite control protein A). The deficiency in CcpA activity of a ccpA knockout C. perfringens mutant strain restored the expressions of pilT and pilD and gliding proficiency in the presence of 1% glucose. The carbon catabolite repression of the gliding motility of the ccpA mutant strain was restored after the introduction of a complementing plasmid harboring a wild-type copy of ccpA. These results point to a central role for CcpA in orchestrating the negative effect of carbon catabolite regulation on C. perfringens gliding motility. Furthermore, we discovered a novel positive role for CcpA in pilT and pilD expression and gliding proficiency in the absence of catabolite regulation. Carbon catabolite repression of gliding motility and the dual role of CcpA, either as repressor or as activator of gliding, are analyzed in the context of the different social behaviors and diseases produced by C. perfringens.

Published
2008

37. Spore coat architecture of Clostridium novyi NT spores

Author

Plomp, Marco, McCaffery, J. Michael, Cheong, Ian, Huang, Xin, Bettegowda, Chetan, Kinzler, Kenneth W., Zhou, Shibin, Vogelstein, Bert, and Malkin, Alexander J.

Subjects
Clostridium -- Physiological aspects, Clostridium -- Growth, Company growth, Biological sciences
Abstract

Spores of the anaerobic bacterium Clostridium novyi NT are able to germinate in and destroy hypoxic regions of tumors in experimental animals. Future progress in this area will benefit from a better understanding of the germination and outgrowth processes that are essential for the tumorilytic properties of these spores. Toward this end, we have used both transmission electron microscopy and atomic force microscopy to determine the structure of both dormant and germinating spores. We found that the spores are surrounded by an amorphous layer intertwined with honeycomb parasporal layers. Moreover, the spore coat layers had apparently self-assembled, and this assembly was likely to be governed by crystal growth principles. During germination and outgrowth, the honeycomb layers, as well as the underlying spore coat and undercoat layers, sequentially dissolved until the vegetative cell was released. In addition to their implications for understanding the biology of C. novyi NT, these studies document the presence of proteinaceous growth spirals in a biological organism.

Published
2007

38. Functional identification of conjugation and replication regions of the tetracycline resistance plasmid pCW3 from Clostridium perfringens

Author

Bannam, Trudi L., Teng, Wee Lin, Bulach, Dieter, Lyras, Dena, and Rood, Julian I.

Subjects
Clostridium -- Physiological aspects, Clostridium -- Research, Gas gangrene -- Causes of, Bacterial proteins -- Research, Bacterial genetics -- Research, Biological sciences
Abstract

Clostridium perfringens causes fatal human infections, such as gas gangrene, as well as gastrointestinal diseases in both humans and animals. Detailed molecular analysis of the tetracycline resistance plasmid pCW3 from C. perfringens has shown that it represents the prototype of a unique family of conjugative antibiotic resistance and virulence plasmids. We have identified the pCW3 replication region by deletion and transposon mutagenesis and showed that the essential rep gene encoded a basic protein with no similarity to any known plasmid replication proteins. An 11-gene conjugation locus containing 5 genes that encoded putative proteins with similarity to proteins from the conjugative transposon Tn916 was identified, although the genes' genetic arrangements were different. Functional genetic studies demonstrated that two of the genes in this transfer clostridial plasmid (tcp) locus, tcpF and tcpH, were essential for the conjugative transfer of pCW3, and comparative analysis confirmed that the tcp locus was not confined to pCW3. The conjugation region was present on all known conjugative plasmids from C. perfringens, including an enterotoxin plasmid and other toxin plasmids. These results have significant implications for plasmid evolution, as they provide evidence that a nonreplicating Tn916-like element can evolve to become the conjugation locus of replicating plasmids that carry major virulence genes or antibiotic resistance determinants.

Published
2006

39. Trophic interaction of the aerotolerant anaerobe Clostridium intestinale and the acetogen Sporomusa rhizae sp. nov. isolated from roots of the black needlerush Juncus roemerianus

Author

Gossner, Anita S., Kusel, Kirsten, Schulz, Daria, Trenz, Sonja, Acker, George, Lovell, Charles R., and Drake, Harold L.

Subjects
Clostridium -- Physiological aspects, Nucleotide sequence -- Research, Biological sciences
Abstract

Acetogens were enumerated from root homogenates of the black needlerush Juncus roemerianus obtained from a nearly pristine salt marsh. An isolated colony, ST1, yielded acetogenic activity and was initially thought to be a pure culture; however, ST1 was subsequently found to be composed of an aerotolerant fermentative anaerobe (RC) and an acetogen (R[S.sup.T]) (T indicates type strain). The two spore-forming mesophiles were separated by selective cultivation under conditions favouring the growth of either RC or R[S.sup.T]. The 16S rRNA gene sequence of RC was 99% similar to that of Clostridium intestinale, indicating that RC was a new isolate of this clostridial species. The rRNA gene sequence most similar to that of R[S.sup.T] was only 96% similar to that of R[S.sup.T] and was from a species of the acetogenic genus Sporomusa, indicating that R[S.sup.T] was a new sporomusal species; the name Sporomusa rhizae sp. nov. is proposed. RC grew at the expense of saccharides. [H.sub.2]-forming butyrate fermentation was the primary catabolism utilized by RC under anoxic conditions, while homolactate fermentation was the primary catabolism under oxic conditions. RC consumed [O.sub.2] and tolerated 20% [O.sub.2] in the headspace of shaken broth cultures. In contrast, R[S.sup.T] was acetogenic, utilized [H.sub.2], lactate and formate, did not utilize saccharides, and could not tolerate high concentrations of [O.sub.2]. R[S.sup.T] grew by trophic interaction with RC on saccharides via the uptake of [H.sub.2], and, to a lesser extent, lactate and formate produced by RC. Co-cultures of the two organisms yielded high amounts of acetate. These results indicate that (i) previously uncharacterized species of Sporomusa are associated with Juncus roots and (ii) trophic links to [O.sub.2]-consuming aerotolerant anaerobes might contribute to the in situ activities and survival strategies of acetogens in salt marsh rhizospheres, a habitat subject to gradients of plant-derived [O.sub.2].

Published
2006

40. Recent Findings in Clostridium perfringens Described by Researchers from U.S. Department of Agriculture (USDA) (Antimicrobial activity of sophorolipids against Eimeria maxima and Clostridium perfringens, and their effect on growth performance ...)

Subjects
Lipids -- Physiological aspects, Sporozoa -- Physiological aspects, Clostridium -- Physiological aspects, Biological sciences, Health
Abstract

2022 APR 12 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Researchers detail new data in Clostridium perfringens. According to news reporting originating from the [...]

Published
2022

41. University of Guelph Researchers Broaden Understanding of Clostridium perfringens (Ex Vivo Differential Responsiveness to Clostridium perfringens and Lactococcus lactis by Avian Small Intestine Macrophages and T Cells)

Subjects
T cells -- Physiological aspects, Clostridium -- Physiological aspects, Lactococcus -- Physiological aspects, Biological sciences, Health
Abstract

2022 FEB 22 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- New study results on Clostridium perfringens have been published. According to news originating from [...]

Published
2022

42. Adaptive responses to oxygen stress in obligatory anaerobes Clostridium acetobutylicum and Clostridium aminovalericum

Author

Kawasaki, Shinji, Watamura, Yusuke, Ono, Masaki, Watanabe, Toshihiro, Takeda, Kouji, and Niimura, Youichi

Subjects
Clostridium -- Genetic aspects, Clostridium -- Physiological aspects, Microbial metabolism -- Research, Anaerobic bacteria -- Genetic aspects, Anaerobic bacteria -- Physiological aspects, Adaptation (Physiology) -- Research, Biological sciences
Abstract

The expression of genes required for oxygen metabolic systems is investigated using two species, Clostridium aminovalericum and C. acetobutylicum. The expression studies of the C. aminovalericum noxA (H2O-forming NADH oxidase) gene have revealed that the enzyme is involved in oxygen metabolism and in C. acetobutylicum many genes were identified as oxygen stress responsive for the first time in the genus Clostridium.

Published
2005

43. Hydrophilic domains of scaffolding protein CbpA promote glycosyl hydrolase activity and localization of cellulosomes to the cell surface of Clostridium cellulovorans

Author

Kosugi, Akihiko, Amano, Yoshihiko, Murashima, Koichiro, and Doi, Roy H.

Subjects
Clostridium -- Research, Clostridium -- Physiological aspects, Bacteriology -- Research, Biological sciences
Abstract

CbpA, the scaffolding protein of Clostridium cellulovorans cellulosomes, possesses one family 3 cellulose binding domain, nine cohesin domains, and four hydrophilic domains (HLDs). Among the three types of domains, the function of the HLDs is still unknown. We proposed previously that the HLDs of CbpA play a role in attaching the cellulosome to the cell surface, since they showed some homology to the surface layer homology domains of EngE. Several recombinant proteins with HLDs (rHLDs) and recombinant EngE (rEngE) were examined to determine their binding to the C. cellulovorans cell wall fraction. Tandemly linked rHLDs showed higher affinity for the cell wall than individual rHLDs showed. EngE was shown to have a higher affinity for cell walls than rHLDs have. C. cellulovorans native cellulosomes were found to have higher affinity for cell walls than rHLDs have. When immunoblot analysis was carried out with the native cellulosome fraction bound to cell wall fragments, the presence of EngE was also confirmed, suggesting that the mechanism anchoring CbpA to the C. cellulovorans cell surface was mediated through EngE and that the HLDs play a secondary role in the attachment of the cellulosome to the cell surface. During a study of the role of HLDs on cellulose degradation, the mini-cellulosome complexes with HLDs degraded cellulose more efficiently than complexes without HLDs degraded cellulose. The rHLDs also showed binding affinity for crystalline cellulose and carboxymethyl cellulose. These results suggest that the CbpA HLDs play a major role and a minor role in C. cellulovorans cellulosomes. The primary role increases cellulose degradation activity by binding the cellulosome complex to the cellulose substrate; secondarily, HLDs aid the binding of the CbpA/cellulosome to the C. cellulovorans cell surface.

Published
2004

44. Regulation of expression of cellulosomes and noncellulosomal (hemi)cellulolytic enzymes in Clostridium cellulovorans during growth on different carbon sources

Author

Han, Sung Ok, Cho, Hee-Yeon, Yukawa, Hideaki, Inui, Masayuki, and Doi, Roy H.

Subjects
Microbial enzymes -- Research, Clostridium -- Research, Clostridium -- Physiological aspects, Biological sciences
Abstract

Cellulosomes and noncellulosomal (hemi)cellulolytic enzymes are produced by Clostridium cellulovorans to degrade plant cell walls. To understand their synergistic relationship, changes in mRNA and protein expression in cellulosomes and noncellulosomal (hemi)cellulolytic enzymes (hereafter called noncellulosomal enzymes) of cultures grown on cellobiose, cellulose, pectin, xylan, and corn fiber or mixtures thereof were examined. Cellulase expression, favored particularly by the presence of Avicel, was found with all substrates. Comparison of cellulosome and noncellulosomal enzymes showed that expression profiles were strongly affected by the carbon source. High xylanase or pectate lyase expression was observed when C. cellulovorans was grown on xylan or pectin, respectively. Mixed carbon substrates (cellulose-pectin-xylan mixture or corn fiber) induced a wider variety of enzymes than a single carbon source, such as cellobiose, pectin, or xylan. Cellulosomal proteome profiles were more affected by the carbon source than the noncellulosomal enzymes. Transcription and protein analyses revealed that cellulosomes and noncellulosomal enzymes were expressed simultaneously on mixed carbon sources, but their degree of inducibility varied when the substrate was either cellulose or cellobiose. Cellulosomes and noncellulosomal enzymes had synergistic activity on various carbon substrates. These results indicated that expression of plant cell wall-degrading enzymes is highly influenced by the available carbon source and that synergy between cellulosomes and noncellulosomal enzymes contribute to plant cell wall degradation.

Published
2004

45. Mechanism of intrinsic resistance to vancomycin in Clostridium innocuum NCIB 10674

Author

David, Veronique, Bozdogan, Bulent, Mainardi, Jean-Luc, Legrand, Raymond, Gutmann, Laurent, and Leclercq, Roland

Subjects
Vancomycin -- Research, Drug resistance in microorganisms -- Research, Clostridium -- Research, Clostridium -- Physiological aspects, Clostridium -- Genetic aspects, Biological sciences
Abstract

We have studied the basis for intrinsic resistance to low levels of vancomycin in Clostridium innocuum NCIB 10674 (MIC = 8 [micro]g/ml). Analysis by high-pressure liquid chromatography (HPLC) and mass spectrometry of peptidoglycan nucleotide precursors pools revealed the presence of two types of UDP-MurNac-pentapeptide precursors constitutively produced, an UDP-MurNAc-pentapeptide with a serine at the C terminus which represented 93% of the pool and an UDP-MurNAc-pentapeptide with an alanine at the C terminus which represented the rest of the pool. C. innocuum cell wall muropeptides containing pentapeptide[Ser], either dialanine substituted on the epsilon amino group of lysine or not, were identified and represented about 10% of the monomers while only 1% of pentapeptide[D-Ala] monomers were found. The sequence of a 2,465-bp chromosomal fragment from C. innocuum was determined and revealed the presence of [ddl.sub.c.innocuum] and C. innocuum racemase genes putatively encoding homologues of D-Ala:D-X ligases and amino acid racemases, respectively. Analysis of the pool of precursors of Enterococcus faecalis JH2-2, containing cloned [ddl.sub.c.innocuum] and C. innocuum racemase genes showed in addition to the UDP-MurNAc-pentapeptide[n-Ala], the presence of an UDP-MurNAc-pentapeptide [n-Ser] precursor. However, the expression of low-level resistance to vancomycin was observed only when both genes were cloned in E. faecalis JH2-2 together with the vanX[Y.sub.c] gene from Enterococcus gallinarum BM4174 which encodes a D,D-peptidase which eliminates preferentially the high affinity vancomycin UDP-MurNAc-pentapeptide [D-Ala] precursors produced by the host. We conclude that resistance to vancomycin in C. innocuum NCIB 10674 was related to the presence of the two chromosomal [ddl.sub.c. innocuum] and C. innocuum racemase genes allowing the synthesis of a peptidoglycan precursor terminating in serine with low affinity for vancomycin.

Published
2004

46. A novel type of DNA curvature present in a Clostridium perfringens ferredoxin gene: characterization and role in gene expression

Author

Kaji, Masato, Matsushita, Osamu, Tamai, Eiji, Miyata, Shigeru, Taniguchi, Yuki, Shimamoto, Seiko, Katayama, Seiichi, Morita, Shushi, and Okabe, Akinobu

Subjects
Clostridium -- Genetic aspects, Clostridium -- Physiological aspects, DNA -- Genetic aspects, Gene expression -- Physiological aspects, Microbiology -- Research, Phospholipases -- Genetic aspects, Phospholipases -- Physiological aspects, Biological sciences
Abstract

This study has revealed that a Clostridium perfringens ferredoxin gene (per-fdx) possesses a novel type of DNA curvature, which is formed by five phased A-tracts extending from upstream to downstream of the -35 region. The three A-tracts upstream of the promoter and the two within the promoter are located at the positions corresponding to A-tracts present in a C. perfringens phospholipase C gene (plc) and a Clostridium pasteurianum ferredoxin gene (pas-fdx), respectively. DNA fragments of the per-fdx, pas-fdx and plc genes (nucleotide positions -69 to + 1 relative to the transcription initiation site) were fused to a chloramphenicol acetyltransferase reporter gene on a plasmid, pPSV, and their in vivo promoter activities were examined by assaying the chloramphenicol acetyltransferase activity of each C. perfringens transformant. Comparison of the three constructs showed that the order of promoter activity is, in descending order, per-fdx, pas-fdx and plc. Deletion of the three upstream A-tracts of the per-fdx gene drastically decreased the promoter activity, as demonstrated previously for the plc promoter. Substitution of the most downstream A-tract decreased the promoter activities of the per-fdx and pas-fdx genes. These results indicate that not only the phased A-tracts upstream of the promoter but also those within the promoter stimulate the promoter activity, and suggest that the high activity of the per-fdx promoter is due to the combined effects of these two types of A-tracts.

Published
2003

47. Identification and characterization of a fibronectin-binding protein from Clostridium difficile

Author

Hennequin, Claire, Janoir, Claire, Barc, Marie-Claude, Collignon, Anne, and Karjalainen, Tuomo

Subjects
Clostridium -- Physiological aspects, Clostridium -- Genetic aspects, Cell membranes -- Physiological aspects, Cell membranes -- Genetic aspects, Cell adhesion -- Physiological aspects, Cell adhesion -- Genetic aspects, Immunoblotting -- Analysis, Glutathione -- Physiological aspects, Glutathione -- Genetic aspects, Escherichia coli -- Physiological aspects, Escherichia coli -- Genetic aspects, Gene expression -- Physiological aspects, Fibronectins -- Physiological aspects, Fibronectins -- Genetic aspects, Microbiology -- Research, Biological sciences
Abstract

A 68 kDa fibronectin-binding protein (Fbp68) from Clostridium difficile displaying significant homology to several established or putative Fbps from other bacteria was identified. The one-copy gene is highly conserved in C. difficile isolates. Fbp68 was expressed in Escherichia coli in fusion with glutathione S-transferase; the fusion protein and the native Fbp68 were purified. Immunoblot analysis and cell fractionation experiments revealed that Fbp68 is present on the surface of the bacteria. Far-immuno dot-blotting demonstrated that Fbp68 was capable of fixing fibronectin. Indirect immunofluorescence and ELISA were employed to demonstrate that C. difficile could bind both soluble and immobilized fibronectin. With competitive adherence inhibition assays it was shown that antibodies raised against Fbp68 partially inhibited attachment of C. difficile to fibronectin and Vero cells. Furthermore, Vero cells could fix purified membrane-immobilized Fbp68. Thus Fbp68 appears to be one of the several adhesins identified to date in C. difficile.

Published
2003

48. Clostridium pasteurianum [F.sub.1][F.sub.o] ATP Synthase: operon, composition, and some properties

Author

Das, Amaresh and Ljungdahl, Lars G.

Subjects
Escherichia coli -- Genetic aspects, Escherichia coli -- Physiological aspects, Sulfites -- Physiological aspects, Genetic transcription -- Physiological aspects, Clostridium -- Physiological aspects, Clostridium -- Genetic aspects, Adenosine triphosphate -- Physiological aspects, Gene expression -- Physiological aspects, Operons -- Genetic aspects, Bacteriology -- Research, Biological sciences
Abstract

The atp operon encoding [F.sub.1][F.sub.o] ATP synthase in the fermentative obligate anaerobic bacterium Clostridium pasteurianum was sequenced. It consisted of nine genes arranged in the order atpl(i), atpB(a), atpE(c), atpF(b), atpH([delta]), atpA([alpha]), atpG([gamma]), atpD([beta]), and atpC([epsilon]), which was identical to that found in many bacteria. Reverse transcription-PCR confirmed the presence of the transcripts of all nine genes. The amount of ATPase activity in the membranes of C. pasteurianum was low compared to what has been found in many other bacteria. The [F.sub.1][F.sub.o] complexes solubilized from membranes of C. pasteurianum and Escherichia coli had similar masses, suggesting similar compositions for the [F.sub.1][F.sub.o] complexes from the two bacteria. Western blotting experiments with antibodies raised against the purified subunits of [F.sub.1][F.sub.o] detected the presence of eight subunits, [alpha, [beta], [gamma], [delta], [epsilon], a, b, and c, in the [F.sub.1][F.sub.o] complex from C. pasteurianum. The [F.sub.1][F.sub.o] complex from C. pasteurianum was activated by thiocyanate, cyanate, or sulfhydryl compounds; inhibited by sulfite, bisulfite, or bicarbonate; and had tolerance to inhibition by dicyclohexylcarbodiimide. The target of thiol activation of the [F.sub.1][F.sub.o] complex from C. pasteurianum was [F.sub.1]. Thiocyanate and sulfite were noncompetitive with respect to substrate Mg ATP but competitive with respect to each other. The [F.sub.1] and [F.sub.o] parts of the [F.sub.1][F.sub.o] complexes from C. pasteurianum and E. coli bound to each other, but the hybrid [F.sub.1][F.sub.o] complexes were not functionally active.

Published
2003

49. Characterization of two noncellulosomal subunits, ArfA and BgaA, from Clostridium cellulovorans that cooperate with the cellulosome in plant cell wall degradation

Author

Kosugi, Akihiko, Murashima, Koichiro, and Doi, Roy H.

Subjects
Biodegradation -- Physiological aspects, Clostridium -- Physiological aspects, Clostridium -- Genetic aspects, Biological sciences
Abstract

Rsearch has been conducted on plant cell wall degradation by Clostridium cellulovorans. The hemicellulose degradation system of this bacterium has been investigated via the characterization of noncellulosomal alpha-arabinosidae genes, and the details are reported.

Published
2002

50. The murein hydrolase of the bacteriophage phi3626 dual lysis system is active against all tested Clostridium perfingens strains

Author

Zimmer, Markus, Vukov, Natasa, Scherer, Seigfried, and Loessner, Martin J.

Subjects
Bacteriophages -- Physiological aspects, Bacteriophages -- Genetic aspects, Clostridium -- Genetic aspects, Clostridium -- Physiological aspects, Cells -- Genetic aspects, Cells -- Physiological aspects, Gene expression -- Physiological aspects, Cloning -- Genetic aspects, Enzymes -- Physiological aspects, Biological sciences
Abstract

Research has been conducted on Clostridium perfingens bacteriophage phi3626. The characterization of the lysis system of this bacteriophage, cloning and expression of genes in Escherichia coli have been carried out, and the results demonstrate that vlyses C. perfingens cells.

Published
2002

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