The evolutionary ecology of fungal killer phenotypes
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Date
2023-08-30
Publication Type
Review Article
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yes
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Abstract
Ecological interactions influence evolutionary dynamics by selecting upon fitness variation within species. Antagonistic interactions often promote genetic and species diversity, despite the inherently suppressive effect they can have on the species experiencing them. A central aim of evolutionary ecology is to understand how diversity is maintained in systems experiencing antagonism. In this review, we address how certain single-celled and dimorphic fungi have evolved allelopathic killer phenotypes that engage in antagonistic interactions. We discuss the evolutionary pathways to the production of lethal toxins, the functions of killer phenotypes and the consequences of competition for toxin producers, their competitors and toxin-encoding endosymbionts. Killer phenotypes are powerful models because many appear to have evolved independently, enabling across-phylogeny comparisons of the origins, functions and consequences of allelopathic antagonism. Killer phenotypes can eliminate host competitors and influence evolutionary dynamics, yet the evolutionary ecology of killer phenotypes remains largely unknown. We discuss what is known and what remains to be ascertained about killer phenotype ecology and evolution, while bringing their model system properties to the reader's attention.
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published
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Volume
290 (2005)
Pages / Article No.
20231108
Publisher
Royal Society
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Subject
Allelopathy; Coevolution; Competition; Symbiosis; Toxin; Virus
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Notes
Funding
ETH-23 20-1 - Chasing the killer yeasts and their dsRNA viruses in the wild (ETHZ)