4.6 Article

Convergent evolution of toxin resistance in animals

Journal

BIOLOGICAL REVIEWS
Volume 97, Issue 5, Pages 1823-1843

Publisher

WILEY
DOI: 10.1111/brv.12865

Keywords

convergent evolution; toxin resistance; molecular adaptation; functional constraint; deterministic evolution; co-evolutionary arms races

Categories

Funding

  1. Elise Mathilde Fonds of Leids Universiteits Fonds [6113/21-6-16]
  2. Academy Ecology Funds of Royal Netherlands Academy of Arts and Sciences [713/18015]
  3. Higher Education Commission, Islamabad, Pakistan
  4. University of Queensland
  5. Ministry of Education, Singapore [MOE2017-T2-1-045]

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Convergence is the phenomenon where similar phenotypes evolve independently in different lineages. Resistance to toxins in animals is an example of convergence, where molecular adaptations have evolved to counteract the harmful effects of toxins. However, resistance adaptations may carry fitness costs if they disrupt the normal physiology of the resistant animal.
Convergence is the phenomenon whereby similar phenotypes evolve independently in different lineages. One example is resistance to toxins in animals. Toxins have evolved many times throughout the tree of life. They disrupt molecular and physiological pathways in target species, thereby incapacitating prey or deterring a predator. In response, molecular resistance has evolved in many species exposed to toxins to counteract their harmful effects. Here, we review current knowledge on the convergence of toxin resistance using examples from a wide range of toxin families. We explore the evolutionary processes and molecular adaptations driving toxin resistance. However, resistance adaptations may carry a fitness cost if they disrupt the normal physiology of the resistant animal. Therefore, there is a trade-off between maintaining a functional molecular target and reducing toxin susceptibility. There are relatively few solutions that satisfy this trade-off. As a result, we see a small set of molecular adaptations appearing repeatedly in diverse animal lineages, a phenomenon that is consistent with models of deterministic evolution. Convergence may also explain what has been called 'autoresistance'. This is often thought to have evolved for self-protection, but we argue instead that it may be a consequence of poisonous animals feeding on toxic prey. Toxin resistance provides a unique and compelling model system for studying the interplay between trophic interactions, selection pressures and the molecular mechanisms underlying evolutionary novelties.

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