Cell morphology governs directional control in swimming bacteria

Guadayol, Òscar and Thornton, Katie L. and Humphries, Stuart (2017) Cell morphology governs directional control in swimming bacteria. Scientific Reports, 7 (1). ISSN 2045-2322

Full content URL: http://dx.doi.org/10.1038/s41598-017-01565-y

Documents
guadayol_etal_2017.pdf
[img]
[Download]
[img]
Preview
PDF
guadayol_etal_2017.pdf - Whole Document
Available under License Creative Commons Attribution 4.0 International.

2MB
Item Type:Article
Item Status:Live Archive

Abstract

The ability to rapidly detect and track nutrient gradients is key to the ecological success of motile bacteria in aquatic systems. Consequently, bacteria have evolved a number of chemotactic strategies that consist of sequences of straight runs and reorientations. Theoretically, both phases are affected by fluid drag and Brownian motion, which are themselves governed by cell geometry. Here, we experimentally explore the effect of cell length on control of swimming direction. We subjected Escherichia coli to an antibiotic to obtain motile cells of different lengths, and characterized their swimming patterns in a homogeneous medium. As cells elongated, angles between runs became smaller, forcing a change from a run-and-tumble to a run-and-stop/reverse pattern. Our results show that changes in the motility pattern of microorganisms can be induced by simple morphological variation, and raise the possibility that changes in swimming pattern may be triggered by both morphological plasticity and selection on morphology.

Keywords:bacterial shape, chemotaxis, direction persistence, tumble bias, Escherichia coli
Subjects:C Biological Sciences > C180 Ecology
C Biological Sciences > C770 Biophysical Science
C Biological Sciences > C500 Microbiology
F Physical Sciences > F710 Marine Sciences
Divisions:College of Science > School of Life Sciences
ID Code:27535
Deposited On:19 May 2017 11:04

Repository Staff Only: item control page