Increased adhesion of Enterococcus faecalis strains with bimodal electrophoretic mobility distributions

Increased adhesion of Enterococcus faecalis strains with bimodal electrophoretic mobility distributions

Initial adhesion is a determinant in the development of microbial biofilms. It is influenced, amongst others, by the surface hydrophobicity and the electrostatic characteristics of the substratum and adhering organisms. Enterococcus faecalis strains, grown in pure cultures, generally display subpopu...

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Bibliographic Details
Published in:Colloids and surfaces, B, Biointerfaces Vol. 64; no. 2; pp. 302 - 306
Main Authors: van Merode, Annet E.J., Duval, Jérôme F.L., van der Mei, Henny C., Busscher, Henk J., Krom, Bastiaan P.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 15-07-2008
Elsevier
Subjects:
Bacterial Adhesion - physiology
Buffers
Chemical Sciences
Electrophoresis - methods
Electrophoretic mobility
Enterococcus faecalis
Enterococcus faecalis - classification
Enterococcus faecalis - genetics
Enterococcus faecalis - growth & development
Enterococcus faecalis - isolation & purification
Enterococcus faecalis - physiology
Environmental Sciences
Glass - chemistry
Heterogenic population
Humans
Hydrogen-Ion Concentration
Initial adhesion
Phosphates - chemistry
Physics
Potassium Compounds - chemistry
Substrate Specificity
Surface Properties
Time Factors
Enterococcus faecalis
Initial adhesion
Heterogenic population
Electrophoretic mobility
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Summary:Initial adhesion is a determinant in the development of microbial biofilms. It is influenced, amongst others, by the surface hydrophobicity and the electrostatic characteristics of the substratum and adhering organisms. Enterococcus faecalis strains, grown in pure cultures, generally display subpopulations with different electrokinetic features, reflected in a bimodal electrophoretic mobility distribution. Here, the initial adhesion kinetics of five heterogeneous and five homogeneous E. faecalis strains were followed in a parallel-plate flow chamber. After 4 h of flow, heterogeneous strains adhered in significantly higher numbers than homogeneous strains (7.3 × 10 6 and 1.9 × 10 6 cm −2, respectively), but the initial deposition rates were not significantly influenced (740 and 600 cm −2 s −1, respectively). Apparently, initial deposition of bacteria is mainly governed by attractive Lifshitz–Van der Waals forces that overwhelm the electrostatic repulsion energy barrier, thus resulting in similar initial deposition rates for the various bacterial populations investigated. In contrast, during later stages of adhesion, bacteria in heterogeneous cultures likely experience a lower electrostatic repulsion from already adhering bacteria than bacteria in homogeneous cultures, thus allowing a closer proximity of the bacteria with respect to each other, which ultimately leads to increased adhesion after 4 h.
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ISSN:0927-7765
1873-4367
DOI:10.1016/j.colsurfb.2008.02.004