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The population genetics of ecological specialization in evolving Escherichia coli populations

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  • Vaughn S. Cooper

    (Center for Microbial Ecology, Michigan State University)

  • Richard E. Lenski

    (Center for Microbial Ecology, Michigan State University)

Abstract

When organisms adapt genetically to one environment, they may lose fitness in other environments1,2,3,4. Two distinct population genetic processes can produce ecological specialization—mutation accumulation and antagonistic pleiotropy5,6,7,8. In mutation accumulation, mutations become fixed by genetic drift in genes that are not maintained by selection; adaptation to one environment and loss of adaptation to another are caused by different mutations. Antagonistic pleiotropy arises from trade-offs, such that the same mutations that are beneficial in one environment are detrimental in another. In general, it is difficult to distinguish between these processes5,6,7,8. We analysed the decay of unused catabolic functions in 12 lines of Escherichia coli propagated on glucose for 20,000 generations9,10. During that time, several lines evolved high mutation rates11. If mutation accumulation is important, their unused functions should decay more than the other lines, but no significant difference was observed. Moreover, most catabolic losses occurred early in the experiment when beneficial mutations were being rapidly fixed, a pattern predicted by antagonistic pleiotropy. Thus, antagonistic pleiotropy appears more important than mutation accumulation for the decay of unused catabolic functions in these populations.

Suggested Citation

  • Vaughn S. Cooper & Richard E. Lenski, 2000. "The population genetics of ecological specialization in evolving Escherichia coli populations," Nature, Nature, vol. 407(6805), pages 736-739, October.
    • Handle: RePEc:nat:nature:v:407:y:2000:i:6805:d:10.1038_35037572
    DOI: 10.1038/35037572
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    Cited by:

    1. Anna Y. Alekseeva & Anneloes E. Groenenboom & Eddy J. Smid & Sijmen E. Schoustra, 2021. "Eco-Evolutionary Dynamics in Microbial Communities from Spontaneous Fermented Foods," IJERPH, MDPI, vol. 18(19), pages 1-19, September.
    2. Richard E. Lenski & Terence C. Burnham, 2018. "Experimental evolution of bacteria across 60,000 generations, and what it might mean for economics and human decision-making," Journal of Bioeconomics, Springer, vol. 20(1), pages 107-124, April.
    3. Nicholas Leiby & Christopher J Marx, 2014. "Metabolic Erosion Primarily Through Mutation Accumulation, and Not Tradeoffs, Drives Limited Evolution of Substrate Specificity in Escherichia coli," PLOS Biology, Public Library of Science, vol. 12(2), pages 1-10, February.

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