Tumble suppression is a conserved feature of swarming motility

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Abstract

Many bacteria use flagellum-driven motility to swarm or move collec-tively over a surface terrain. Bacterial adaptations for swarming can include cell elon-gation, hyperflagellation, recruitment of special stator proteins, and surfactant secre-tion, among others. We recently demonstrated another swarming adaptation in Escherichia coli, wherein the chemotaxis pathway is remodeled to decrease tumble bias (increase run durations), with running speeds increased as well. We show here that the modification of motility parameters during swarming is not unique to E. coli but is shared by a diverse group of bacteria we examined—Proteus mirabilis, Serratia marcescens, Salmonella enterica, Bacillus subtilis, and Pseudomonas aeruginosa—sug-gesting that increasing run durations and speeds are a cornerstone of swarming. IMPORTANCE Bacteria within a swarm move characteristically in packs, displaying an intricate swirling motion in which hundreds of dynamic rafts continuously form and dissociate as the swarm colonizes an increasing expanse of territory. The demonstrated property of E. coli to reduce its tumble bias and hence increase its run dura-tion during swarming is expected to maintain and promote side-by-side alignment and cohesion within the bacterial packs. In this study, we observed a similar low tumble bias in five different bacterial species, both Gram positive and Gram negative, each inhabit-ing a unique habitat and posing unique problems to our health. The unanimous display of an altered run-tumble bias in swarms of all species examined in this investigation suggests that this behavioral adaptation is crucial for swarming.

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Partridge, J. D., Nhu, N. T. Q., Dufour, Y. S., & Harshey, R. M. (2020). Tumble suppression is a conserved feature of swarming motility. MBio, 11(3), 1–5. https://doi.org/10.1128/mBio.01189-20

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