A new test suggests hundreds of amino acid polymorphisms in humans are subject to balancing selection
Vivak Soni, Michiel Vos, Adam Eyre‐Walker
Abstract
The role that balancing selection plays in the maintenance of genetic diversity remains unresolved. Here, we introduce a new test, based on the McDonald-Kreitman test, in which the number of polymorphisms that are shared between populations is contrasted to those that are private at selected and neutral sites. We show that this simple test is robust to a variety of demographic changes, and that it can also give a direct estimate of the number of shared polymorphisms that are directly maintained by balancing selection. We apply our method to population genomic data from humans and provide some evidence that hundreds of nonsynonymous polymorphisms are subject to balancing selection.
Topics & Concepts
BiologyBalancing selectionNonsynonymous substitutionSelection (genetic algorithm)GeneticsEvolutionary biologyNatural selectionNegative selectionPopulationPopulation geneticsFrequency-dependent selectionComputational biologyGenetic variationGeneMachine learningGenomeComputer scienceDemographySociologyEvolution and Genetic DynamicsGenetic diversity and population structureGenomics and Phylogenetic Studies