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Journal article

The Interaction of Thin Film Flow, Bacterial Swarming and Cell Differentiation in Colonies of Serratia liquefaciens

By Bees, Martin Alan1; Andresen, Peter Ragnar1; Mosekilde, Erik1; Givskov, Michael Christian2,3

From

Department of Physics, Technical University of Denmark1

Center for Biomedical Microbiology, Department of Systems Biology, Technical University of Denmark2

Department of Systems Biology, Technical University of Denmark3

The rate of expansion of bacterial colonies of S. liquefaciens is investigated in terms of a mathematical model that combines biological as well as hydrodynamic processes. The relative importance of cell differentiation and production of an extracellular wetting agent to bacterial swarming is explored using a continuum representation.

The model incorporates aspects of thin film flow with variable suspension viscosity, wetting, and cell differentiation. Experimental evidence suggests that the bacterial colony is highly sensitive to its environment and that a variety of mechanisms are exploited in order to proliferate on a variety of surfaces.

It is found that a combination of effects are required to reproduce the variation of bacterial colony motility over a large range of nutrient availability and medium hardness.

Language: English
Publisher: Springer-Verlag
Year: 2000
Pages: 27-63
ISSN: 14321416 and 03036812
Types: Journal article
DOI: 10.1007/s002850050004
Keywords

Cell Division Culture Media Key words: Swarming – Bacteria – Differentiation – Wetting agent – Thin film theory – Hydrodynamics Legacy Mathematics Models, Biological Movement Serratia Viscosity

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