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Selection for robust metabolism in domesticated yeasts is driven by adaptation to Hsp90 stress

Natalia Condic, Hatim Amiji, Dipak Patel, William C. Shropshire, Nejla Ozirmak Lermi, Youssef Sabha, B. John, Blake Hanson, Georgios Ioannis Karras

2024Science17 citationsDOIOpen Access PDF

Abstract

Protein folding both promotes and constrains adaptive evolution. We uncover this surprising duality in the role of the protein-folding chaperone heat shock protein 90 (Hsp90) in maintaining the integrity of yeast metabolism amid proteotoxic stressors within industrial domestication niches. Ethanol disrupts critical Hsp90-dependent metabolic pathways and exerts strong selective pressure for redundant duplications of key genes within these pathways, yielding the classical genomic signatures of beer and bread domestication. This work demonstrates a mechanism of adaptive canalization in an ecology of major economic importance and highlights Hsp90-dependent variation as an important source of phantom heritability in complex traits.

Topics & Concepts

DomesticationBiologyHsp90Adaptation (eye)Heat shock proteinEvolutionary biologyProtein foldingAdaptive evolutionNegative selectionChaperone (clinical)YeastPhenotypic plasticityPhenotypeGeneGeneticsCell biologyGenomeMedicinePathologyNeuroscienceMeat and Animal Product QualityHeat shock proteins researchFungal and yeast genetics research
Selection for robust metabolism in domesticated yeasts is driven by adaptation to Hsp90 stress | Litcius