Your search keyword '"Mycobacterium -- Growth"' showing total 10 results

1. Mutations in pimE restore lipoarabinomannan synthesis and growth in a Mycobacterium smegmatis lpqW mutant

Author

Crellin, Paul K., Kovacevic, Svetozar, Martin, Kirstee L., Brammananth, Rajini, Morita, Yasu S., Billman-Jacobe, Helen, McConville, Malcolm J., and Coppel, Ross L.

Subjects

Mycobacteria -- Genetic aspects, Mycobacteria -- Growth, Mycobacterium -- Genetic aspects, Mycobacterium -- Growth, Gene mutations -- Research, Company growth, Biological sciences

Abstract

Lipoarabinomannans (LAMs) and phosphatidylinositol mannosides (PIMs) are abundant glycolipids in the cell walls of all corynebacteria and mycobacteria, including the devastating human pathogen Mycobacterium tuberculosis. We have recently shown that M. smegmatis mutants of the lipoprotein-encoding lpqW gene have a profound defect in LAM biosynthesis. When these mutants are cultured in complex medium, spontaneous bypass mutants consistently evolve in which LAM biosynthesis is restored at the expense of polar PIM synthesis. Here we show that restoration of LAM biosynthesis in the lpqW mutant results from secondary mutations in the pimE gene. PimE is a mannosyltransferase involved in converting AcPIM4, a proposed branch point intermediate in the PIM and LAM biosynthetic pathways, to more polar PIMs. Mutations in pimE arose due to insertion of the mobile genetic element ISMsml and independent point mutations that were clustered in predicted extracytoplasmic loops of this polytopic membrane protein. Our findings provide the first strong evidence that LpqW is required to channel intermediates such as AcPIM4 into LAM synthesis and that loss of PimE function results in the accumulation of AcPIM4, bypassing the need for LpqW. These data highlight new mechanisms regulating the biosynthetic pathways of these essential cell wall components.

Published

2008

2. The alanine racemase of mycobacterium smegmatis is essential for growth in the absence of D-alanine

Author

Milligan, Daniel L., Tran, Sieu L., Strych, Ulrich, Cook, Gregory M., and Krause, Kurt L.

Subjects

Alanine -- Physiological aspects, Mycobacteria -- Growth, Mycobacterium -- Growth, Company growth, Biological sciences

Abstract

Alanine racemase, encoded by the gene air, is an important enzyme in the synthesis of D-alanine for peptidoglyean biosynthesis. Strains of Mycobaeterium smegmatis with a deletion mutation of the air gene were found to require D-alanine for growth in both rich and minimal media. This indicates that alanine raeemase is the only source of D-alanine for cell wall biosynthesis in M. smegmatis and confirms alanine racemase as a viable target gene for antimycobacterial drug development.

Published

2007

3. Prosthetic joint infection due to rapidly growing mycobacteria: report of 8 cases and review of the literature

Author

Eid, Albert J., Berbari, Elie F., Sia, Irene G., Wengenack, Nancy L., Osmon, Douglas R., and Razonable, Raymund R.

Subjects

Implants, Artificial -- Usage, Implants, Artificial -- Complications and side effects, Prosthesis -- Usage, Prosthesis -- Complications and side effects, Infection -- Causes of, Infection -- Care and treatment, Mycobacteria -- Growth, Mycobacteria -- Health aspects, Mycobacteria -- Care and treatment, Mycobacterium -- Growth, Mycobacterium -- Health aspects, Mycobacterium -- Care and treatment, Joint replacement -- Case studies, Joint replacement -- Complications and side effects, Company growth, Health, Health care industry

Published

2007

4. Silencing essential protein secretion in Mycobacterium smegmatis by using tetracycline repressors

Author

Guo, Xinzheng V., Monteleone, Mercedes, Klotzsche, Marcus, Kamionka, Annette, Hillen, Wolfgang, Braunstein, Miriam, Ehrt, Sabine, and Schnappinger, Dirk

Subjects

Mycobacteria -- Growth, Mycobacteria -- Genetic aspects, Mycobacteria -- Research, Mycobacterium -- Growth, Mycobacterium -- Genetic aspects, Mycobacterium -- Research, Gene expression -- Research, Gene silencing -- Research, Tetracycline -- Research, Tetracyclines -- Research, Company growth, Biological sciences

Abstract

Many processes that are essential for mycobacterial growth are poorly understood. To facilitate genetic analyses of such processes in mycobacteria, we and others have developed regulated expression systems that are repressed by a tetracycline repressor (TetR) and induced with tetracyclines, permitting the construction of conditional mutants of essential genes. A disadvantage of these systems is that tetracyclines function as transcriptional inducers and have to be removed to initiate gene silencing. Recently, reverse TetR mutants were identified that require tetracyclines as corepressors. Here, we report that one of these mutants, TetR r1.7, allows efficient repression of lacZ expression in Mycobacterium smegmatis in the presence but not the absence of anhydrotetracycline (atc). TetR and TetR r1.7 also allowed efficient silencing of the essential secA1 gene, as demonstrated by inhibition of the growth of a conditional mutant and dose-dependent depletion of the SecA1 protein after the removal or addition, respectively, of atc. The kinetics of SecA1 depletion were similar with TetR and TetR r1.7. To test whether silencing of secA1 could help identify substrates of the general secretion pathway, we analyzed the main porin of M. smegmatis, MspA. This showed that the amount of cell envelope-associated MspA decreased more than 90-fold after secA1 silencing. We thus demonstrated that TetR r1.7 allows the construction of conditional mycobacterial mutants in which the expression of an essential gene can be efficiently silenced by the addition of atc and that gene silencing permits the identification of candidate substrates of mycobacterial secretion systems.

Published

2007

5. Transcriptomic analysis identifies growth rate modulation as a component of the adaptation of mycobacteria to survival inside the macrophage

Author

Beste, D.J.V., Laing, E., Bonde, B., Avignone-Rossa, C., Bushell, M.E., and McFadden, J.J.

Subjects

Mycobacteria -- Growth, Mycobacteria -- Research, Mycobacteria -- Genetic aspects, Mycobacterium -- Growth, Mycobacterium -- Research, Mycobacterium -- Genetic aspects, Genetic regulation -- Research, Macrophages -- Research, Genetic transcription -- Research, Company growth, Biological sciences

Abstract

The adaptation of the tubercle bacillus to the host environment is likely to involve a complex set of gene regulatory events and physiological switches in response to environmental signals. In order to deconstruct the physiological state of Mycobacterium tuberculosis in vivo, we used a chemostat model to study a single aspect of the organism's in vivo state, slow growth. Mycobacterium bovis BCG was cultivated at high and low growth rates in a carbon-limited chemostat, and transcriptomic analysis was performed to identify the gene regulation events associated with slow growth. The results demonstrated that slow growth was associated with the induction of expression of several genes of the dormancy survival regulon. There was also a striking overlap between the transcriptomic profile of BCG in the chemostat model and the response of M. tuberculosis to growth in the macrophage, implying that a significant component of the response of the pathogen to the macrophage environment is the response to slow growth in carbon-limited conditions. This demonstrated the importance of adaptation to a low growth rate to the virulence strategy of M. tuberculosis and also the value of the chemostat model for deconstructing components of the in vivo state of this important pathogen.

Published

2007

6. Mutants of Mycobacterium smegmatis unable to grow at acidic pH in the presence of the protonophore carbonyl cyanide m-chlorophenylhydrazone

Author

Tran, Sieu L., Rao, Min, Simmers, Cameron, Gebhard, Susanne, Olsson, Karen, and Cook, Gregory M.

Subjects

Bacterial genetics -- Research, Mycobacteria -- Research, Mycobacteria -- Genetic aspects, Mycobacteria -- Growth, Mycobacterium -- Research, Mycobacterium -- Genetic aspects, Mycobacterium -- Growth, Company growth, Biological sciences

Abstract

Mycobacterium smegmatis is able to grow and survive at acidic pH, and exhibits intracellular pH homeostasis under these conditions. In this study, the authors have identified low proton permeability of the cytoplasmic membrane, and high cytoplasmic buffering capacity, as determinants of intrinsic acid resistance of M. smegmatis. To identify genes encoding proteins involved in protecting cells from acid stress, a screening method was developed using the electrogenic protonophore carbonyl cyanide m-chlorophenylhydrazone (CCCP). CCCP was used to suppress intrinsic acid resistance of M. smegmatis. The screen involved exposing cells to pH 5.0 in the presence of CCCP, and survivors were rescued at various time intervals on solid medium at pH 7.5. Cells capable of responding to intracellular acidification (due to CCCP-induced proton equilibration) will survive longer under these conditions than acid-sensitive cells. From a total pool of 5000 transposon (Tn611) insertion mutants screened, eight acid-sensitive M. smegmatis mutants were isolated. These acid-sensitive mutants were unable to grow at pH 5.0 in the presence of 1-5 [micro]M CCCP, a concentration not lethal to the wild-type strain [mc.sup.2]155. The DNA flanking the site of Tn611 was identified using marker rescue in Escherichia coli, and DNA sequencing to identify the disrupted locus. Acid-sensitive mutants of M. smegmatis were disrupted in genes involved in phosphonate/phosphite assimilation, methionine biosynthesis, the PPE multigene family, xenobiotic-response regulation and lipid biosynthesis. Several of the acid-sensitive mutants were also defective in stationary-phase survival, suggesting that overlapping stress protection systems exist in M. smegmatis.

Published

2005

7. Aquatic plants stimulate the growth of a biofilm formation by Mycobacterium ulcerants in axenic culture and harbor these bacteria in the environment

Author

Marsollier, Laurent, Stinear, Timothy, Aubry, Jacques, Robert, Raymond, Carbonnelle, Bernard, Legras, Pierre, Manceau, Anne-Lise, Bourdon, Sandra, ChristineSaint Andre, Jean Paul, Kouakou, Henri, and Audrain, Christine

Subjects

Mycobacteria -- Growth, Aquatic plants -- Research, Mycobacterium -- Growth, Skin diseases -- Causes of, Company growth, Biological sciences

Abstract

Mycobacterium ulcerans is a pathogen that causes Buruli ulcer a necrotic skin disease prevalent throughout Western Africa and studies indicate that aquatic insects could be transmitting this pathogen. Studies conducted show that crude extracts from the green algae added to BACTEC 7H12B culture medium, reduced to half.

Published

2004

8. Species of environmental mycobacteria differ in their abilities to grow in human, mouse, and carp macrophages and with regard to the presence of mycobacterial virulence genes, as observed by DNA microarray hybridization

Author

Harriff, Melanie J., Wu, Martin, Kent, Michael L., and Bermudez, Luiz E.

Subjects

DNA microarrays -- Analysis, Polymerase chain reaction -- Analysis, Mycobacteria -- Physiological aspects, Mycobacteria -- Growth, Mycobacteria -- Genetic aspects, Mycobacterium -- Physiological aspects, Mycobacterium -- Growth, Mycobacterium -- Genetic aspects, Mycobacterial infections -- Research, Company growth, Biological sciences

Abstract

Many isolates of environmental mycobacteria (EM) isolated from fish and humans are examined for their abilities to grow in macrophage lines from humans, mice and carp. The studies have shown that understanding the role of the microbial genes in host specificity and pathogenicity is important for understanding the zoonotic potential of certain EM as well as their mechanisms of virulence.

Published

2008

9. Screening respiratory specimens for Mycobacteria culture

Author

Pohl, Alison D. and Keim, Anne C.

Subjects

Mycobacterium -- Growth, Bacteriology -- Cultures and culture media, Sputum -- Medical examination

Published

1993

10. Nontuberculous mycobacterial infections after cosmetic surgery--Santo Domingo, Dominican Republic, 2003-2004

Author

Estivariz, C.

Subjects

Company growth, Surgery, Plastic -- Adverse and side effects, Surgical wound infections -- Growth, Mycobacterium -- Growth, Mycobacteria -- Growth

Abstract

Rapidly growing mycobacteria have been associated with postoperative infections in patients undergoing cosmetic surgery procedures (1,2). In April 2004, CDC received reports of infections caused by rapidly growing mycobacteria in [...]

Published

2004