The evolution of genomic organization through chromosomal rearrangements in Arctic charr (Salvelinus alpinus).

Chromosomal rearrangements (CRs) can play an important role in evolutionary diversification by preserving linkage among favourable alleles through reduced recombination and/or by reducing hybrid fitness due to genomic incompatibilities. Our goal was to determine to what extent CRs contribute to known patterns of genetic variation in Arctic charr (Salvelinus alpinus). To address this goal, we compared genetic linkage maps to identify whole arm CRs and smaller scale structural variants (SVs) such as translocations/transpositions and inversions found in groups of populations that reflect the temporal sequence of geographic isolation events. If CRs contribute to genetic differentiation, we expected that CRs would be specific to glacial lineages, geographic clusters of populations within lineages, and sympatric morphs. We detected fusions and fissions of whole chromosome arms and SV involving translocations/transpositions of the sex-determining gene (sdY) and inversions. Several CRs were shared across populations from the Arctic and Atlantic glacial lineages, Canadian and Icelandic populations within the Atlantic lineage, between two Icelandic populations and sympatric morphs within Icelandic populations, suggesting that their origin predates geographic isolation in glacial refugia. Other CRs were specific to single populations, which suggests a more recent origin of these variants in refugia, during post-glacial recolonization and/or in contemporary populations. Thus, CRs contribute relatively little to known patterns of genetic differentiation at different geographic scales but represent a pool of standing genetic variation for evolution.