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Literature DB >> 31180806

The Ultimate Guide to Bacterial Swarming: An Experimental Model to Study the Evolution of Cooperative Behavior.

Jinyuan Yan¹, Hilary Monaco¹, Joao B Xavier¹.

Abstract

Cooperation has fascinated biologists since Darwin. How did cooperative behaviors evolve despite the fitness cost to the cooperator? Bacteria have cooperative behaviors that make excellent models to take on this age-old problem from both proximate (molecular) and ultimate (evolutionary) angles. We delve into Pseudomonas aeruginosa swarming, a phenomenon where billions of bacteria move cooperatively across distances of centimeters in a matter of a few hours. Experiments with swarming have unveiled a strategy called metabolic prudence that stabilizes cooperation, have showed the importance of spatial structure, and have revealed a regulatory network that integrates environmental stimuli and direct cooperative behavior, similar to a machine learning algorithm. The study of swarming elucidates more than proximate mechanisms: It exposes ultimate mechanisms valid to all scales, from cells in cancerous tumors to animals in large communities.

Entities: Chemical Disease Gene Species

Keywords: biofilm; cheater; metabolic prudence; rhamnolipids; sociomicrobiology

Mesh：

Year: 2019 PMID： 31180806 PMCID： PMC7428860 DOI： 10.1146/annurev-micro-020518-120033

Source DB: PubMed Journal: Annu Rev Microbiol ISSN： 0066-4227 Impact factor: 15.500

85 in total

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Journal: Commun Agric Appl Biol Sci Date: 2005

Review 2. Social evolution theory for microorganisms.

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Journal: Nat Rev Microbiol Date: 2006-08 Impact factor: 60.633

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Authors: Joshua D Shrout; David L Chopp; Collin L Just; Morten Hentzer; Michael Givskov; Matthew R Parsek
Journal: Mol Microbiol Date: 2006-10-24 Impact factor: 3.501

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Authors: Rodrigo S Reis; Alyson G Pereira; Bianca C Neves; Denise M G Freire
Journal: Bioresour Technol Date: 2011-03-30 Impact factor: 9.642

5. Influence of the Hfq and Crc global regulators on the control of iron homeostasis in Pseudomonas putida.

Authors: Dione L Sánchez-Hevia; Luis Yuste; Renata Moreno; Fernando Rojo
Journal: Environ Microbiol Date: 2018-08-05 Impact factor: 5.491

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Journal: Proc Natl Acad Sci U S A Date: 2011-04-11 Impact factor: 11.205

7. Swarming of Pseudomonas aeruginosa is controlled by a broad spectrum of transcriptional regulators, including MetR.

Authors: Amy T Y Yeung; Ellen C W Torfs; Farzad Jamshidi; Manjeet Bains; Irith Wiegand; Robert E W Hancock; Joerg Overhage
Journal: J Bacteriol Date: 2009-07-10 Impact factor: 3.490

8. The ecological basis of morphogenesis: branching patterns in swarming colonies of bacteria.

Authors: Pan Deng; Laura de Vargas Roditi; Dave van Ditmarsch; Joao B Xavier
Journal: New J Phys Date: 2014-01 Impact factor: 3.729

9. Self-produced extracellular stimuli modulate the Pseudomonas aeruginosa swarming motility behaviour.

Authors: Julien Tremblay; Anne-Pascale Richardson; François Lépine; Eric Déziel
Journal: Environ Microbiol Date: 2007-10 Impact factor: 5.491

10. Integration of Metabolic and Quorum Sensing Signals Governing the Decision to Cooperate in a Bacterial Social Trait.

Authors: Kerry E Boyle; Hilary Monaco; Dave van Ditmarsch; Maxime Deforet; Joao B Xavier
Journal: PLoS Comput Biol Date: 2015-06-23 Impact factor: 4.475

9 in total

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Journal: Sci Rep Date: 2020-05-08 Impact factor: 4.379

8. Kin discrimination drives territorial exclusion during Bacillus subtilis swarming and restrains exploitation of surfactin.

Authors: Barbara Kraigher; Monika Butolen; Polonca Stefanic; Ines Mandic Mulec
Journal: ISME J Date: 2021-10-14 Impact factor: 10.302

9. Enforced specialization fosters mutual cheating and not division of labour in the bacterium Pseudomonas aeruginosa.

Authors: Subham Mridha; Rolf Kümmerli
Journal: J Evol Biol Date: 2022-04-05 Impact factor: 2.516