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Evolution of chromosomal inversions across an avian radiation.

Ulrich KniefIngo A MüllerKatherine F StryjewskiDirk MetzlerMichael D SorensonJochen B W Wolf
Published in: Molecular biology and evolution (2024)
Chromosomal inversions are structural mutations that can play a prominent role in adaptation and speciation. Inversions segregating across species boundaries (trans-species inversions) are often taken as evidence for ancient balancing selection or adaptive introgression but can also be due to incomplete lineage sorting (ILS). Using whole-genome resequencing data from 18 populations of 11 recognized munia species in the genus Lonchura (N = 176 individuals), we identify four large para- and pericentric inversions ranging in size from 4 to 20 Mb. All four inversions co-segregate across multiple species and predate the numerous speciation events associated with the rapid radiation of this clade across the prehistoric Sahul (Australia, New Guinea) and Bismarck Archipelago. Using coalescent theory, we infer that trans-specificity is improbable for neutrally segregating variation despite substantial ILS characterizing this young radiation. Instead, maintenance of all three autosomal inversions (chr1, chr5, chr6) is best explained by selection acting along eco-geographic clines not observed for the collinear parts of the genome. In addition, the large sex chromosome inversion largely aligns with species boundaries and shows signatures of repeated positive selection for both alleles. This study provides evidence for trans-species inversion polymorphisms involved in both adaptation and speciation. It further highlights the importance of informing selection inference using a null model of neutral evolution derived from the collinear part of the genome.
Keyphrases
  • genetic diversity
  • copy number
  • single cell
  • genome wide
  • magnetic resonance imaging
  • machine learning
  • gene expression