Chromosomal inversions are ubiquitous in genomes and often coordinate complex phenotypes, such as the covariation of behavior and morphology in many birds, fishes, insects or mammals1,2,3,4,5,6,7,8,9,10,11. However, why and how inversions become associated with polymorphic traits remains obscure. Here we show that despite a strong selective advantage when they form, inversions accumulate recessive deleterious mutations that generate frequency-dependent selection and promote their maintenance at intermediate frequency. Combining genomics and in vivo fitness analyses in a model butterfly for wing-pattern polymorphism, Heliconius numata, we reveal that three ecologically advantageous inversions have built up a heavy mutational load from the se...
High rates of chromosomal rearrangements are remarkably abundant in Drosophila Fallén, 1832 (Insecta...
Genome re-arrangements such as chromosomal inversions are often involved in adaptation. As such, the...
Background: Inversion polymorphisms constitute an evolutionary puzzle: they should increase embryo m...
International audienceWhile natural selection favours the fittest genotype, polymorphisms are mainta...
Supergenes are tight clusters of loci that facilitate the co-segregation of adaptive variation, prov...
Genetic dominance in polymorphic loci may respond to selection; however, the evolution of dominance ...
International audienceSupergenes are genetic architectures associated with discrete and concerted va...
Chromosomal inversions, structural mutations that reverse a segment of a chromosome, cause suppressi...
The study of chromosomal inversion polymorphisms has received much recent attention, particularly in...
Supergenes are genetic architectures allowing the segregation of alternative combinations of alleles...
Inversions are structural mutations that reverse the sequence of a chromosome segment and reduce the...
Abstract Chromosomal inversions are structural changes that alter gene order but generally not gene ...
Chromosomal polymorphism is widespread in the Drosophila genus, with extensive evidence supporting i...
Supergenes are tight clusters of loci that facilitate the co-segregation of adaptive variation, prov...
High rates of chromosomal rearrangements are remarkably abundant in Drosophila Fallén, 1832 (Insecta...
Genome re-arrangements such as chromosomal inversions are often involved in adaptation. As such, the...
Background: Inversion polymorphisms constitute an evolutionary puzzle: they should increase embryo m...
International audienceWhile natural selection favours the fittest genotype, polymorphisms are mainta...
Supergenes are tight clusters of loci that facilitate the co-segregation of adaptive variation, prov...
Genetic dominance in polymorphic loci may respond to selection; however, the evolution of dominance ...
International audienceSupergenes are genetic architectures associated with discrete and concerted va...
Chromosomal inversions, structural mutations that reverse a segment of a chromosome, cause suppressi...
The study of chromosomal inversion polymorphisms has received much recent attention, particularly in...
Supergenes are genetic architectures allowing the segregation of alternative combinations of alleles...
Inversions are structural mutations that reverse the sequence of a chromosome segment and reduce the...
Abstract Chromosomal inversions are structural changes that alter gene order but generally not gene ...
Chromosomal polymorphism is widespread in the Drosophila genus, with extensive evidence supporting i...
Supergenes are tight clusters of loci that facilitate the co-segregation of adaptive variation, prov...
High rates of chromosomal rearrangements are remarkably abundant in Drosophila Fallén, 1832 (Insecta...
Genome re-arrangements such as chromosomal inversions are often involved in adaptation. As such, the...
Background: Inversion polymorphisms constitute an evolutionary puzzle: they should increase embryo m...