Patterns of Collective Bacterial Motion in Microfluidic Devices

Sipos, O.; Nagy, K.; Galajda, P.

doi:10.15255/CABEQ.2013.1935

Chemical and Biochemical Engineering Quarterly, Vol. 28 No. 2, 2014.

Original scientific paper

https://doi.org/10.15255/CABEQ.2013.1935

Patterns of Collective Bacterial Motion in Microfluidic Devices

O. Sipos ; Institute of Biophysics, Biological Research Centre of the Hungarian Academy of Sciences, H-6726 Temesvári krt. 62, Szeged, Hungary
K. Nagy ; Institute of Biophysics, Biological Research Centre of the Hungarian Academy of Sciences, H-6726 Temesvári krt. 62, Szeged, Hungary
P. Galajda ; Institute of Biophysics, Biological Research Centre of the Hungarian Academy of Sciences, H-6726 Temesvári krt. 62, Szeged, Hungary

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APA 6th Edition

Sipos, O., Nagy, K. & Galajda, P. (2014). Patterns of Collective Bacterial Motion in Microfluidic Devices. Chemical and Biochemical Engineering Quarterly, 28 (2), 233-240. https://doi.org/10.15255/CABEQ.2013.1935

MLA 8th Edition

Sipos, O., et al. "Patterns of Collective Bacterial Motion in Microfluidic Devices." Chemical and Biochemical Engineering Quarterly, vol. 28, no. 2, 2014, pp. 233-240. https://doi.org/10.15255/CABEQ.2013.1935. Accessed 5 May 2024.

Chicago 17th Edition

Sipos, O., K. Nagy and P. Galajda. "Patterns of Collective Bacterial Motion in Microfluidic Devices." Chemical and Biochemical Engineering Quarterly 28, no. 2 (2014): 233-240. https://doi.org/10.15255/CABEQ.2013.1935

Harvard

Sipos, O., Nagy, K., and Galajda, P. (2014). 'Patterns of Collective Bacterial Motion in Microfluidic Devices', Chemical and Biochemical Engineering Quarterly, 28(2), pp. 233-240. https://doi.org/10.15255/CABEQ.2013.1935

Vancouver

Sipos O, Nagy K, Galajda P. Patterns of Collective Bacterial Motion in Microfluidic Devices. Chemical and Biochemical Engineering Quarterly [Internet]. 2014 [cited 2024 May 05];28(2):233-240. https://doi.org/10.15255/CABEQ.2013.1935

IEEE

O. Sipos, K. Nagy and P. Galajda, "Patterns of Collective Bacterial Motion in Microfluidic Devices", Chemical and Biochemical Engineering Quarterly, vol.28, no. 2, pp. 233-240, 2014. [Online]. https://doi.org/10.15255/CABEQ.2013.1935

Abstract

We have studied active and passive forms of pattern formation and synchronized motion in high-density bacterial cell suspensions with phase contrast and epifluorescent videomicroscopy. We have shown that in high-density cultures of non-motile cells sedimentation patterns form. By comparing bacterial and colloidal suspensions we suggest
that hydrodynamic interactions between sedimenting bacteria lead to patterns that one may consider a passive form of collective motion. Furthermore, we used microfluidic devices to investigate how solid boundaries influence the motion patterns of flagellated swimming bacteria in high-density cultures. We studied the emergence and dynamics of collective swimming of Escherichia coli. Using microfabricated chambers, we were able to control and stabilize the swimming patterns formed. Our results suggest that the physical features of the environment (solid boundaries and geometric constrictions) have strong effects on the swimming behavior and pattern formation of motile bacteria. Such effects may need to be considered when culturing bacteria in microchambers and microreactors.

Keywords

synchronized motion; bacterial motility; collective behavior; microfluidics

Hrčak ID:

120554

URI

https://hrcak.srce.hr/120554

Publication date:

5.5.2014.

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Chemical and Biochemical Engineering Quarterly, Vol. 28 No. 2, 2014.

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