Genomic architecture and introgression shape a butterfly radiation.
Nathaniel B EdelmanPaul B FrandsenMiriam MiyagiBernardo J ClavijoJohn W DaveyRebecca B DikowGonzalo Garcia AccinelliSteven M Van BelleghemNick PattersonDaniel E NeafseyRichard ChallisRichard ChallisGilson R P MoreiraCamilo SalazarMathieu ChouteauBrian A CountermanRiccardo PapaMark L BlaxterRobert D ReedKanchon K DasmahapatraMarcus R KronforstMathieu JoronChris D JigginsW Owen McMillanFederica Di PalmaAndrew J BlumbergJohn WakeleyDavid B JaffeJames MalletPublished in: Science (New York, N.Y.) (2020)
We used 20 de novo genome assemblies to probe the speciation history and architecture of gene flow in rapidly radiating Heliconius butterflies. Our tests to distinguish incomplete lineage sorting from introgression indicate that gene flow has obscured several ancient phylogenetic relationships in this group over large swathes of the genome. Introgressed loci are underrepresented in low-recombination and gene-rich regions, consistent with the purging of foreign alleles more tightly linked to incompatibility loci. Here, we identify a hitherto unknown inversion that traps a color pattern switch locus. We infer that this inversion was transferred between lineages by introgression and is convergent with a similar rearrangement in another part of the genus. These multiple de novo genome sequences enable improved understanding of the importance of introgression and selective processes in adaptive radiation.