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Developmental cheating in the social bacterium Myxococcus xanthus

Author

Listed:
  • Gregory J. Velicer

    (Michigan State University
    Center for Microbial Ecology, Michigan State University)

  • Lee Kroos

    (Michigan State University)

  • Richard E. Lenski

    (Center for Microbial Ecology, Michigan State University)

Abstract

Cheating is a potential problem in any social system that depends on cooperation and in which actions that benefit a group are costly to individuals that perform them1,2,3,4,5. Genetic mutants that fail to perform a group-beneficial function but that reap the benefits of belonging to the group should have a within-group selective advantage, provided that the mutants are not too common. Here we show that social cheating exists even among prokaryotes. The bacterium Myxococcus xanthus exhibits several social behaviours, including aggregation of cells into spore-producing fruiting bodies during starvation. We examined a number of M. xanthus genotypes that were defective for fruiting-body development, including several lines that evolved for 1,000 generations under asocial conditions6 and others carrying defined mutations in developmental pathways7,8,9,10, to determine whether they behaved as cheaters when mixed with their developmentally proficient progenitor. Clones from several evolved lines and two defined mutants exhibited cheating during development, being over-represented among resulting spores relative to their initial frequency in the mixture. The ease of finding anti-social behaviours suggests that cheaters may be common in natural populations of M. xanthus.

Suggested Citation

  • Gregory J. Velicer & Lee Kroos & Richard E. Lenski, 2000. "Developmental cheating in the social bacterium Myxococcus xanthus," Nature, Nature, vol. 404(6778), pages 598-601, April.
    • Handle: RePEc:nat:nature:v:404:y:2000:i:6778:d:10.1038_35007066
    DOI: 10.1038/35007066
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    Cited by:

    1. Young, Glenn & Belmonte, Andrew, 2018. "Fast cheater migration stabilizes coexistence in a public goods dilemma on networks," Theoretical Population Biology, Elsevier, vol. 121(C), pages 12-25.
    2. Lieven Demeester & Knut Eichler & Christoph H. Loch, 2004. "Organic Production Systems: What the Biological Cell Can Teach Us About Manufacturing," Manufacturing & Service Operations Management, INFORMS, vol. 6(2), pages 115-132, April.
    3. Peña, Jorge & Cooper, Guy Alexander & Liu, Ming & West, Stuart Andrew, 2020. "Dividing labour in social microorganisms: coordinated or random specialisation?," IAST Working Papers 20-104, Institute for Advanced Study in Toulouse (IAST).

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