Abstract
Swarming migration is observed in flagellated bacteria on wet surfaces. As the secreted biosurfactant hydrates, friction between the cell and the wet surface is reduced, and weak flagellar movement appears to be a significant force for cell translocation. Developing an artificial swarming control method could greatly aid in establishing techniques for biofilm inhibition and detachment. In this study, the effect of forced cell vibration by an alternating current electric field (ACEF) on swarming motility was investigated using the serrawettin W1-producing Serratia marcescens strain. At frequencies close to the natural frequencies of microbial cells (12 MHz), swarming motion was effectively enhanced in biosurfactant-producing S. marcescens, but not in non-surfactant-producing Escherichia coli or non-flagellated Staphylococcus aureus. Electric field-assisted cell migration was significantly induced under swarming conditions with low friction resistance between the cell and gel surface. This finding suggests a direction for developing strategies to regulate biofilm formation and detachment using ACEF-assisted oscillation of cells attached to surfaces.
Published Version
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