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Widespread epistasis among beneficial genetic variants revealed by high-throughput genome editing

Roy Moh Lik Ang, Shi-An A. Chen, Alexander Kern, Yihua Xie, Hunter B. Fraser

2023Cell Genomics27 citationsDOIOpen Access PDF

Abstract

The phenotypic effect of any genetic variant can be altered by variation at other genomic loci. Known as epistasis, these genetic interactions shape the genotype-phenotype map of every species, yet their origins remain poorly understood. To investigate this, we employed high-throughput genome editing to measure the fitness effects of 1,826 naturally polymorphic variants in four strains of Saccharomyces cerevisiae. About 31% of variants affect fitness, of which 24% have strain-specific fitness effects indicative of epistasis. We found that beneficial variants are more likely to exhibit genetic interactions and that these interactions can be mediated by specific traits such as flocculation ability. This work suggests that adaptive evolution will often involve trade-offs where a variant is only beneficial in some genetic backgrounds, potentially explaining why many beneficial variants remain polymorphic. In sum, we provide a framework to understand the factors influencing epistasis with single-nucleotide resolution, revealing widespread epistasis among beneficial variants.

Topics & Concepts

EpistasisGenome editingBiologyGenomeComputational biologyGeneticsThroughputEvolutionary biologyComputer scienceGeneWirelessTelecommunicationsCRISPR and Genetic EngineeringEvolution and Genetic DynamicsRNA and protein synthesis mechanisms
Widespread epistasis among beneficial genetic variants revealed by high-throughput genome editing | Litcius