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The effect of flow on swimming bacteria controls the initial colonization of curved surfaces
by
Eberl, Leo
, Vitale, Alessandra
, Secchi, Eleonora
, Stocker, Roman
, Kantsler, Vasily
, Rusconi, Roberto
, Miño, Gastón L.
in
14
/ 14/63
/ 631/57
/ 639/766/189
/ Apexes
/ Bacteria
/ Bacterial Adhesion
/ Biofilms - growth & development
/ Biomechanical Phenomena
/ Cell morphology
/ Colonization
/ Computational fluid dynamics
/ Coupling (molecular)
/ Cytology
/ E coli
/ Escherichia coli - physiology
/ Fluid flow
/ Humanities and Social Sciences
/ Hydrodynamics
/ Mathematical models
/ Microfluidic Analytical Techniques
/ Microfluidics
/ Models, Biological
/ Molecular modelling
/ Morphology
/ Movement - physiology
/ multidisciplinary
/ Pseudomonas aeruginosa
/ Pseudomonas aeruginosa - physiology
/ Science
/ Science (multidisciplinary)
/ Surface drives
/ Surface Properties
/ Swimming
/ Velocity gradient
2020
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The effect of flow on swimming bacteria controls the initial colonization of curved surfaces
by
Eberl, Leo
, Vitale, Alessandra
, Secchi, Eleonora
, Stocker, Roman
, Kantsler, Vasily
, Rusconi, Roberto
, Miño, Gastón L.
in
14
/ 14/63
/ 631/57
/ 639/766/189
/ Apexes
/ Bacteria
/ Bacterial Adhesion
/ Biofilms - growth & development
/ Biomechanical Phenomena
/ Cell morphology
/ Colonization
/ Computational fluid dynamics
/ Coupling (molecular)
/ Cytology
/ E coli
/ Escherichia coli - physiology
/ Fluid flow
/ Humanities and Social Sciences
/ Hydrodynamics
/ Mathematical models
/ Microfluidic Analytical Techniques
/ Microfluidics
/ Models, Biological
/ Molecular modelling
/ Morphology
/ Movement - physiology
/ multidisciplinary
/ Pseudomonas aeruginosa
/ Pseudomonas aeruginosa - physiology
/ Science
/ Science (multidisciplinary)
/ Surface drives
/ Surface Properties
/ Swimming
/ Velocity gradient
2020
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The effect of flow on swimming bacteria controls the initial colonization of curved surfaces
by
Eberl, Leo
, Vitale, Alessandra
, Secchi, Eleonora
, Stocker, Roman
, Kantsler, Vasily
, Rusconi, Roberto
, Miño, Gastón L.
in
14
/ 14/63
/ 631/57
/ 639/766/189
/ Apexes
/ Bacteria
/ Bacterial Adhesion
/ Biofilms - growth & development
/ Biomechanical Phenomena
/ Cell morphology
/ Colonization
/ Computational fluid dynamics
/ Coupling (molecular)
/ Cytology
/ E coli
/ Escherichia coli - physiology
/ Fluid flow
/ Humanities and Social Sciences
/ Hydrodynamics
/ Mathematical models
/ Microfluidic Analytical Techniques
/ Microfluidics
/ Models, Biological
/ Molecular modelling
/ Morphology
/ Movement - physiology
/ multidisciplinary
/ Pseudomonas aeruginosa
/ Pseudomonas aeruginosa - physiology
/ Science
/ Science (multidisciplinary)
/ Surface drives
/ Surface Properties
/ Swimming
/ Velocity gradient
2020
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The effect of flow on swimming bacteria controls the initial colonization of curved surfaces
Journal Article
The effect of flow on swimming bacteria controls the initial colonization of curved surfaces
2020
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Overview
The colonization of surfaces by bacteria is a widespread phenomenon with consequences on environmental processes and human health. While much is known about the molecular mechanisms of surface colonization, the influence of the physical environment remains poorly understood. Here we show that the colonization of non-planar surfaces by motile bacteria is largely controlled by flow. Using microfluidic experiments with
Pseudomonas aeruginosa
and
Escherichia coli
, we demonstrate that the velocity gradients created by a curved surface drive preferential attachment to specific regions of the collecting surface, namely the leeward side of cylinders and immediately downstream of apexes on corrugated surfaces, in stark contrast to where nonmotile cells attach. Attachment location and rate depend on the local hydrodynamics and, as revealed by a mathematical model benchmarked on the observations, on cell morphology and swimming traits. These results highlight the importance of flow on the magnitude and location of bacterial colonization of surfaces.
Bacterial colonization of surfaces has a profound environmental, technological and medical impact. Here, Secchi et al. show how fluid flow affects the magnitude and location of bacterial colonization on curved surfaces through its coupling with cell morphology and motility.
Publisher
Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio
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