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Parallel evolution of cox genes in H2S-tolerant fish as key adaptation to a toxic environment

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  • Markus Pfenninger

    (Molecular Ecology Group, Biodiversity and Climate Research Centre by Senckenberg Naturforschende Gesellschaft and Goethe-Universität)

  • Hannes Lerp

    (Institute for Ecology, Evolution and Diversity, J.W. Goethe-Universität)

  • Michael Tobler

    (Oklahoma State University)

  • Courtney Passow

    (Oklahoma State University)

  • Joanna L Kelley

    (Stanford University)

  • Elisabeth Funke

    (Molecular Ecology Group, Biodiversity and Climate Research Centre by Senckenberg Naturforschende Gesellschaft and Goethe-Universität)

  • Bastian Greshake

    (Molecular Ecology Group, Biodiversity and Climate Research Centre by Senckenberg Naturforschende Gesellschaft and Goethe-Universität)

  • Umut Kaan Erkoc

    (Institute for Ecology, Evolution and Diversity, J.W. Goethe-Universität)

  • Thomas Berberich

    (Molecular Ecology Group, Biodiversity and Climate Research Centre by Senckenberg Naturforschende Gesellschaft and Goethe-Universität)

  • Martin Plath

    (Institute for Ecology, Evolution and Diversity, J.W. Goethe-Universität)

Abstract

Populations that repeatedly adapt to the same environmental stressor offer a unique opportunity to study adaptation, especially if there are a priori predictions about the genetic basis underlying phenotypic evolution. Hydrogen sulphide (H2S) blocks the cytochrome-c oxidase complex (COX), predicting the evolution of decreased H2S susceptibility of the COX in three populations in the Poecilia mexicana complex that have colonized H2S-containing springs. Here, we demonstrate that decreased H2S susceptibility of COX evolved in parallel in two sulphide lineages, as evidenced by shared amino acid substitutions in cox1 and cox3 genes. One of the shared substitutions likely triggers conformational changes in COX1 blocking the access of H2S. In a third sulphide population, we detect no decreased H2S susceptibility of COX, suggesting that H2S resistance is achieved through another mechanism. Our study thus demonstrates that even closely related lineages follow both parallel and disparate molecular evolutionary paths to adaptation in response to the same selection pressure.

Suggested Citation

  • Markus Pfenninger & Hannes Lerp & Michael Tobler & Courtney Passow & Joanna L Kelley & Elisabeth Funke & Bastian Greshake & Umut Kaan Erkoc & Thomas Berberich & Martin Plath, 2014. "Parallel evolution of cox genes in H2S-tolerant fish as key adaptation to a toxic environment," Nature Communications, Nature, vol. 5(1), pages 1-7, September.
    • Handle: RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms4873
    DOI: 10.1038/ncomms4873
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