Litcius/Paper detail

Compensatory mutations potentiate constructive neutral evolution by gene duplication

Philippe C Després, Alexandre K. Dubé, Marie-Ève Picard, Jordan Grenier, Rong Shi, Christian R. Landry

2024Science25 citationsDOI

Abstract

The functions of proteins generally depend on their assembly into complexes. During evolution, some complexes have transitioned from homomers encoded by a single gene to heteromers encoded by duplicate genes. This transition could occur without adaptive evolution through intermolecular compensatory mutations. Here, we experimentally duplicated and evolved a homodimeric enzyme to determine whether and how this could happen. We identified hundreds of deleterious mutations that inactivate individual homodimers but produce functional enzymes when coexpressed as duplicated proteins that heterodimerize. The structure of one such heteromer reveals how both losses of function are buffered through the introduction of asymmetry in the complex that allows them to subfunctionalize. Constructive neutral evolution can thus occur by gene duplication followed by only one deleterious mutation per duplicate.

Topics & Concepts

Gene duplicationGeneBiologyMutationGeneticsFunction (biology)Functional divergenceMutantComputational biologyGene familyGenomeGenomics and Phylogenetic StudiesRNA and protein synthesis mechanismsCRISPR and Genetic Engineering