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Literature DB >> 10938632

Modelling run-and-tumble chemotaxis in a shear flow.

Abstract

The biased random walk undergone by chemotactic bacteria such as Escherichia coli will be influenced at the microscopic level by flow in the ambient medium. In this paper, we model swimming bacteria being advected and rotated by a simple shear flow. Under certain scaling assumptions, we obtain an advection-diffusion equation for cell density, when the chemotactic response is small, which shows a coupling between the rotation and chemotaxis. We also present an alternative method for calculating the chemotactic flux in an unbounded region which is valid for more general chemotactic responses.

Entities: Species

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Year: 2000 PMID： 10938632 DOI： 10.1006/bulm.2000.0178

Source DB: PubMed Journal: Bull Math Biol ISSN： 0092-8240 Impact factor: 1.758

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Cited

7 in total

Modelling run-and-tumble chemotaxis in a shear flow.

1. A new interpretation of the Keller-Segel model based on multiphase modelling.

2. Two-dimensional motion of Brownian swimmers in linear flows.

3. Bacterial scattering in microfluidic crystal flows reveals giant active Taylor-Aris dispersion.

4. Perspectives in flow-based microfluidic gradient generators for characterizing bacterial chemotaxis.

5. Adjustment in tumbling rates improves bacterial chemotaxis on obstacle-laden terrains.

6. Rapid expulsion of microswimmers by a vortical flow.

Review 7. Multiple functions of flagellar motility and chemotaxis in bacterial physiology.