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Evolutionary dynamics and adaptive benefits of deleterious mutations in crop gene pools

Sangam L. Dwivedi, J. S. Heslop‐Harrison, Charles Spillane, Peter C. McKeown, David Edwards, Irwin L. Goldman, Rodomiro Ortíz

2023Trends in Plant Science45 citationsDOIOpen Access PDF

Abstract

Mutations with deleterious consequences in nature may be conditionally deleterious in crop plants. That is, while some genetic variants may reduce fitness under wild conditions and be subject to purifying selection, they can be under positive selection in domesticates. Such deleterious alleles can be plant breeding targets, particularly for complex traits. The difficulty of distinguishing favorable from unfavorable variants reduces the power of selection, while favorable trait variation and heterosis may be attributable to deleterious alleles. Here, we review the roles of deleterious mutations in crop breeding and discuss how they can be used as a new avenue for crop improvement with emerging genomic tools, including HapMaps and pangenome analysis, aiding the identification, removal, or exploitation of deleterious mutations.

Topics & Concepts

BiologyTraitAlleleSelection (genetic algorithm)GeneticsCropGeneQuantitative trait locusHeterosisNegative selectionMutationEvolutionary biologyBiotechnologyGenomeAgronomyHybridProgramming languageComputer scienceArtificial intelligenceChromosomal and Genetic VariationsGenomics and Phylogenetic StudiesGenetic diversity and population structure
Evolutionary dynamics and adaptive benefits of deleterious mutations in crop gene pools | Litcius