Microbial interactions in building of communities
Identifieur interne : 003168 ( Istex/Curation ); précédent : 003167; suivant : 003169Microbial interactions in building of communities
Auteurs : C. J. Wright [États-Unis] ; L. H. Burns [États-Unis] ; A. A. Jack [Royaume-Uni] ; C. R. Back [Royaume-Uni] ; L. C. Dutton [Royaume-Uni] ; A. H. Nobbs [Royaume-Uni] ; R. J. Lamont [États-Unis] ; H. F. Jenkinson [Royaume-Uni, États-Unis]Source :
- Molecular Oral Microbiology [ 2041-1006 ] ; 2013-04.
Descripteurs français
- Wicri :
- topic : Micro-organisme, Quorum.
English descriptors
- KwdEn :
- Actinomyces, Actinomyces oris, Actinomycetemcomitans, Adhesins, Adhesion, Aeruginosa, Aggregatibacter actinomycetemcomitans, Albicans, Antimicrobial agents, Appl environ microbiol, Arginine, Arginine biosynthesis, Bacillus subtilis, Bacteriocin production, Bacteriol, Biol, Biol chem, Candida, Candida albicans, Carbohydrate, Coaggregation, Colonization, Colonizer, Community development, Community formation, Daep, Demuth, Dental plaque, Denticola, Extracellular, Fusobacterium, Fusobacterium nucleatum, Gingivalis, Gingivalis binding, Gingivalis cells, Gordonii, Hydrogen peroxide, Immun, Immunol, Interspecies, Interspecies communication, Jakubovics, Jenkinson, John wiley sons, Kinase, Kolenbrander, Kreth, Kuboniwa, Lamont, Ltp1, Lux, Maeda, Matrix, Mbriae, Mfa1, Microbial, Microbial interactions, Microbiol, Microbiology, Microorganism, Mutans, Nucleatum, Oral bacteria, Oral cavity, Oral health, Oral microbiol immunol, Oral microbiology, Oral streptococci, Oralis, Oralis group, Pathway, Peptide, Periodontal, Phosphatase, Phosphorylation, Planktonic, Planktonic cells, Plaque, Polypeptide, Polysaccharide, Porphyromonas, Porphyromonas gingivalis, Pseudomonas, Pseudomonas aeruginosa, Quorum, Receptor, Regulator, Salivary, Salivary pellicle, Sanguinis, Sspa, Sspb, Streptococcal, Streptococci, Streptococcus, Streptococcus gordonii, Streptococcus mutans, Streptococcus sanguinis, Tannerella forsythia, Transcriptional, Transduction, Treponema, Treponema denticola, Tyrosine, Tyrosine kinases, Tyrosine phosphatase, Tyrosine phosphorylation, Ueda wood, Whitmore lamont.
- Teeft :
- Actinomyces, Actinomyces oris, Actinomycetemcomitans, Adhesins, Adhesion, Aeruginosa, Aggregatibacter actinomycetemcomitans, Albicans, Antimicrobial agents, Appl environ microbiol, Arginine, Arginine biosynthesis, Bacillus subtilis, Bacteriocin production, Bacteriol, Biol, Biol chem, Candida, Candida albicans, Carbohydrate, Coaggregation, Colonization, Colonizer, Community development, Community formation, Daep, Demuth, Dental plaque, Denticola, Extracellular, Fusobacterium, Fusobacterium nucleatum, Gingivalis, Gingivalis binding, Gingivalis cells, Gordonii, Hydrogen peroxide, Immun, Immunol, Interspecies, Interspecies communication, Jakubovics, Jenkinson, John wiley sons, Kinase, Kolenbrander, Kreth, Kuboniwa, Lamont, Ltp1, Lux, Maeda, Matrix, Mbriae, Mfa1, Microbial, Microbial interactions, Microbiol, Microbiology, Microorganism, Mutans, Nucleatum, Oral bacteria, Oral cavity, Oral health, Oral microbiol immunol, Oral microbiology, Oral streptococci, Oralis, Oralis group, Pathway, Peptide, Periodontal, Phosphatase, Phosphorylation, Planktonic, Planktonic cells, Plaque, Polypeptide, Polysaccharide, Porphyromonas, Porphyromonas gingivalis, Pseudomonas, Pseudomonas aeruginosa, Quorum, Receptor, Regulator, Salivary, Salivary pellicle, Sanguinis, Sspa, Sspb, Streptococcal, Streptococci, Streptococcus, Streptococcus gordonii, Streptococcus mutans, Streptococcus sanguinis, Tannerella forsythia, Transcriptional, Transduction, Treponema, Treponema denticola, Tyrosine, Tyrosine kinases, Tyrosine phosphatase, Tyrosine phosphorylation, Ueda wood, Whitmore lamont.
Abstract
Establishment of a community is considered to be essential for microbial growth and survival in the human oral cavity. Biofilm communities have increased resilience to physical forces, antimicrobial agents and nutritional variations. Specific cell‐to‐cell adherence processes, mediated by adhesin‐receptor pairings on respective microbial surfaces, are able to direct community development. These interactions co‐localize species in mutually beneficial relationships, such as streptococci, veillonellae, Porphyromonas gingivalis and Candida albicans. In transition from the planktonic mode of growth to a biofilm community, microorganisms undergo major transcriptional and proteomic changes. These occur in response to sensing of diffusible signals, such as autoinducer molecules, and to contact with host tissues or other microbial cells. Underpinning many of these processes are intracellular phosphorylation events that regulate a large number of microbial interactions relevant to community formation and development.
Url:
DOI: 10.1111/omi.12012
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<term>Actinomycetemcomitans</term>
<term>Adhesins</term>
<term>Adhesion</term>
<term>Aeruginosa</term>
<term>Aggregatibacter actinomycetemcomitans</term>
<term>Albicans</term>
<term>Antimicrobial agents</term>
<term>Appl environ microbiol</term>
<term>Arginine</term>
<term>Arginine biosynthesis</term>
<term>Bacillus subtilis</term>
<term>Bacteriocin production</term>
<term>Bacteriol</term>
<term>Biol</term>
<term>Biol chem</term>
<term>Candida</term>
<term>Candida albicans</term>
<term>Carbohydrate</term>
<term>Coaggregation</term>
<term>Colonization</term>
<term>Colonizer</term>
<term>Community development</term>
<term>Community formation</term>
<term>Daep</term>
<term>Demuth</term>
<term>Dental plaque</term>
<term>Denticola</term>
<term>Extracellular</term>
<term>Fusobacterium</term>
<term>Fusobacterium nucleatum</term>
<term>Gingivalis</term>
<term>Gingivalis binding</term>
<term>Gingivalis cells</term>
<term>Gordonii</term>
<term>Hydrogen peroxide</term>
<term>Immun</term>
<term>Immunol</term>
<term>Interspecies</term>
<term>Interspecies communication</term>
<term>Jakubovics</term>
<term>Jenkinson</term>
<term>John wiley sons</term>
<term>Kinase</term>
<term>Kolenbrander</term>
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<term>Kuboniwa</term>
<term>Lamont</term>
<term>Ltp1</term>
<term>Lux</term>
<term>Maeda</term>
<term>Matrix</term>
<term>Mbriae</term>
<term>Mfa1</term>
<term>Microbial</term>
<term>Microbial interactions</term>
<term>Microbiol</term>
<term>Microbiology</term>
<term>Microorganism</term>
<term>Mutans</term>
<term>Nucleatum</term>
<term>Oral bacteria</term>
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<term>Oralis</term>
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<term>Periodontal</term>
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<term>Planktonic</term>
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<term>Polypeptide</term>
<term>Polysaccharide</term>
<term>Porphyromonas</term>
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<term>Pseudomonas</term>
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<term>Receptor</term>
<term>Regulator</term>
<term>Salivary</term>
<term>Salivary pellicle</term>
<term>Sanguinis</term>
<term>Sspa</term>
<term>Sspb</term>
<term>Streptococcal</term>
<term>Streptococci</term>
<term>Streptococcus</term>
<term>Streptococcus gordonii</term>
<term>Streptococcus mutans</term>
<term>Streptococcus sanguinis</term>
<term>Tannerella forsythia</term>
<term>Transcriptional</term>
<term>Transduction</term>
<term>Treponema</term>
<term>Treponema denticola</term>
<term>Tyrosine</term>
<term>Tyrosine kinases</term>
<term>Tyrosine phosphatase</term>
<term>Tyrosine phosphorylation</term>
<term>Ueda wood</term>
<term>Whitmore lamont</term>
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<term>Aeruginosa</term>
<term>Aggregatibacter actinomycetemcomitans</term>
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<term>Antimicrobial agents</term>
<term>Appl environ microbiol</term>
<term>Arginine</term>
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<term>Bacillus subtilis</term>
<term>Bacteriocin production</term>
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<term>Biol</term>
<term>Biol chem</term>
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<term>Daep</term>
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<term>Gordonii</term>
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<term>Immunol</term>
<term>Interspecies</term>
<term>Interspecies communication</term>
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<term>Jenkinson</term>
<term>John wiley sons</term>
<term>Kinase</term>
<term>Kolenbrander</term>
<term>Kreth</term>
<term>Kuboniwa</term>
<term>Lamont</term>
<term>Ltp1</term>
<term>Lux</term>
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<term>Pseudomonas</term>
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<term>Receptor</term>
<term>Regulator</term>
<term>Salivary</term>
<term>Salivary pellicle</term>
<term>Sanguinis</term>
<term>Sspa</term>
<term>Sspb</term>
<term>Streptococcal</term>
<term>Streptococci</term>
<term>Streptococcus</term>
<term>Streptococcus gordonii</term>
<term>Streptococcus mutans</term>
<term>Streptococcus sanguinis</term>
<term>Tannerella forsythia</term>
<term>Transcriptional</term>
<term>Transduction</term>
<term>Treponema</term>
<term>Treponema denticola</term>
<term>Tyrosine</term>
<term>Tyrosine kinases</term>
<term>Tyrosine phosphatase</term>
<term>Tyrosine phosphorylation</term>
<term>Ueda wood</term>
<term>Whitmore lamont</term>
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<front><div type="abstract">Establishment of a community is considered to be essential for microbial growth and survival in the human oral cavity. Biofilm communities have increased resilience to physical forces, antimicrobial agents and nutritional variations. Specific cell‐to‐cell adherence processes, mediated by adhesin‐receptor pairings on respective microbial surfaces, are able to direct community development. These interactions co‐localize species in mutually beneficial relationships, such as streptococci, veillonellae, Porphyromonas gingivalis and Candida albicans. In transition from the planktonic mode of growth to a biofilm community, microorganisms undergo major transcriptional and proteomic changes. These occur in response to sensing of diffusible signals, such as autoinducer molecules, and to contact with host tissues or other microbial cells. Underpinning many of these processes are intracellular phosphorylation events that regulate a large number of microbial interactions relevant to community formation and development.</div>
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