Literature DB >> 14766573

Shifts in the membrane fatty acid profile of Streptococcus mutans enhance survival in acidic environments.

Elizabeth M Fozo1, Robert G Quivey.   

Abstract

Acid adaptation of Streptococcus mutans UA159 involves several different mechanisms, including the ability to alter its proportion of long-chain, monounsaturated membrane fatty acids (R. G. Quivey, Jr., R. Faustoferri, K. Monahan, and R. Marquis, FEMS Microbiol. Lett. 189:89-92, 2000). In the present study, we examined the mechanism and timing of changes in fatty acid ratios and the potential benefit that an increased proportion of long-chained fatty acids has for the organism during growth at low pH. Cells taken from steady-state cultures at intermediate pH values of 6.5, 6, and 5.5 showed incremental changes from the short-chained, saturated membrane fatty acid profile normally seen in pH 7 cultures to the long-chained, monounsaturated fatty acids more typically observed in acidic cultures (pH 5). Our observations showed that the bacterium was capable of effecting the majority of changes in approximately 20 min, far less than one generation time. However, reversion to the distribution of fatty acids seen in cells growing at a pH of 7 required a minimum of 10 generations. Fatty acid composition analysis of cells taken from cultures treated with chloramphenicol suggested that the changes in fatty acid distribution did not require de novo protein synthesis. Cells treated with the fatty acid biosynthesis inhibitor cerulenin were unable to alter their membrane fatty acid profiles and were unable to survive severe acidification. Results presented here indicate that membrane fatty acid redistribution is important for low pH survival and, as such, is a component of the S. mutans acid-adaptation arsenal.

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Year:  2004        PMID: 14766573      PMCID: PMC348902          DOI: 10.1128/AEM.70.2.929-936.2004

Source DB:  PubMed          Journal:  Appl Environ Microbiol        ISSN: 0099-2240            Impact factor:   4.792


  25 in total

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Journal:  J Mol Biol       Date:  1974-03-25       Impact factor: 5.469

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Journal:  J Biol Chem       Date:  1983-02-25       Impact factor: 5.157

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Journal:  J Biol Chem       Date:  1980-04-25       Impact factor: 5.157

4.  Inhibition of fatty acid synthetases by the antibiotic cerulenin.

Authors:  D Vance; I Goldberg; O Mitsuhashi; K Bloch
Journal:  Biochem Biophys Res Commun       Date:  1972-08-07       Impact factor: 3.575

5.  Transformation of Streptococcus mutans with chromosomal and shuttle plasmid (pYA629) DNAs.

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Journal:  Infect Immun       Date:  1986-11       Impact factor: 3.441

6.  Shifts in membrane fatty acid profiles associated with acid adaptation of Streptococcus mutans.

Authors:  R G Quivey; R Faustoferri; K Monahan; R Marquis
Journal:  FEMS Microbiol Lett       Date:  2000-08-01       Impact factor: 2.742

7.  Regulation of lipid composition in Acholeplasma laidlawii and Escherichia coli membranes: NMR studies of lipid lateral diffusion at different growth temperatures.

Authors:  Göran Lindblom; Greger Orädd; Leif Rilfors; Sven Morein
Journal:  Biochemistry       Date:  2002-09-24       Impact factor: 3.162

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Journal:  Biochemistry       Date:  1978-11-28       Impact factor: 3.162

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Authors:  S Kashket; E R Kashket
Journal:  Infect Immun       Date:  1985-04       Impact factor: 3.441

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Authors:  R N McElhaney; K A Souza
Journal:  Biochim Biophys Acta       Date:  1976-09-07
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  78 in total

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Journal:  J Bacteriol       Date:  2014-03-28       Impact factor: 3.490

2.  Role of branched-chain fatty acids in pH stress tolerance in Listeria monocytogenes.

Authors:  Efstathios S Giotis; David A McDowell; Ian S Blair; Brian J Wilkinson
Journal:  Appl Environ Microbiol       Date:  2006-11-17       Impact factor: 4.792

3.  The F-ATPase operon promoter of Streptococcus mutans is transcriptionally regulated in response to external pH.

Authors:  Wendi L Kuhnert; Guolu Zheng; Roberta C Faustoferri; Robert G Quivey
Journal:  J Bacteriol       Date:  2004-12       Impact factor: 3.490

4.  Role of unsaturated fatty acid biosynthesis in virulence of Streptococcus mutans.

Authors:  Elizabeth M Fozo; Kathy Scott-Anne; Hyun Koo; Robert G Quivey
Journal:  Infect Immun       Date:  2007-01-12       Impact factor: 3.441

5.  Formation of trans fatty acids is not involved in growth-linked membrane adaptation of Pseudomonas putida.

Authors:  Claus Härtig; Norbert Loffhagen; Hauke Harms
Journal:  Appl Environ Microbiol       Date:  2005-04       Impact factor: 4.792

6.  Transcriptional profile of glucose-shocked and acid-adapted strains of Streptococcus mutans.

Authors:  J L Baker; J Abranches; R C Faustoferri; C J Hubbard; J A Lemos; M A Courtney; R Quivey
Journal:  Mol Oral Microbiol       Date:  2015-07-02       Impact factor: 3.563

7.  Long-term adaptation of Bacillus subtilis 168 to extreme pH affects chemical and physical properties of the cellular membrane.

Authors:  Denisa Petrackova; Jaroslav Vecer; Jaroslava Svobodova; Petr Herman
Journal:  J Membr Biol       Date:  2010-02-05       Impact factor: 1.843

8.  Functional profiling in Streptococcus mutans: construction and examination of a genomic collection of gene deletion mutants.

Authors:  R G Quivey; E J Grayhack; R C Faustoferri; C J Hubbard; J D Baldeck; A S Wolf; M E MacGilvray; P L Rosalen; K Scott-Anne; B Santiago; S Gopal; J Payne; R E Marquis
Journal:  Mol Oral Microbiol       Date:  2015-06-19       Impact factor: 3.563

9.  Characterization of mleR, a positive regulator of malolactic fermentation and part of the acid tolerance response in Streptococcus mutans.

Authors:  André Lemme; Helena Sztajer; Irene Wagner-Döbler
Journal:  BMC Microbiol       Date:  2010-02-23       Impact factor: 3.605

10.  A Vaginal Tract Signal Detected by the Group B Streptococcus SaeRS System Elicits Transcriptomic Changes and Enhances Murine Colonization.

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