Shelter in a Swarm

Shelter in a Swarm

Flagella propel bacteria during both swimming and swarming, dispersing them widely. However, while swimming bacteria use chemotaxis to find nutrients and avoid toxic environments, swarming bacteria appear to suppress chemotaxis and to use the dynamics of their collective motion to continuously expan...

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Bibliographic Details
Published in:Journal of molecular biology 2015-11, Vol.427 (23), p.3683-3694
Main Authors: Harshey, Rasika M., Partridge, Jonathan D.
Format: Article
Language:eng
Subjects:
Anti-Bacterial Agents - pharmacology
antibiotic resistance
Bacillus subtilis - physiology
Bacterial Physiological Phenomena
biofilms
Chemotaxis
Drug Resistance, Bacterial
Escherichia coli - physiology
Flagella - physiology
flagellar motor
group migration
Proteus mirabilis - cytology
Proteus mirabilis - physiology
Salmonella - physiology
surface sensing
Vibrio parahaemolyticus - physiology
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Summary:Flagella propel bacteria during both swimming and swarming, dispersing them widely. However, while swimming bacteria use chemotaxis to find nutrients and avoid toxic environments, swarming bacteria appear to suppress chemotaxis and to use the dynamics of their collective motion to continuously expand and acquire new territory, barrel through lethal chemicals in their path, carry along bacterial and fungal cargo that assists in exploration of new niches, and engage in group warfare for niche dominance. Here, we focus on two aspects of swarming, which, if understood, hold the promise of revealing new insights into microbial signaling and behavior, with ramifications beyond bacterial swarming. These are as follows: how bacteria sense they are on a surface and turn on programs that promote movement and how they override scarcity and adversity as dense packs. [Display omitted] •A bacterial swarm has unique survival and dispersal mechanisms.•For swarming to ensue, bacteria sense and respond to surface contact.•New models for surface sensing are proposed.
ISSN:0022-2836
1089-8638