Literature DB >> 28812690

Young inversion with multiple linked QTLs under selection in a hybrid zone.

Cheng-Ruei Lee1,2, Baosheng Wang1,3, Julius P Mojica1, Terezie Mandáková4, Kasavajhala V S K Prasad5, Jose Luis Goicoechea6, Nadeesha Perera1, Uffe Hellsten7, Hope N Hundley7, Jenifer Johnson7, Jane Grimwood8, Kerrie Barry7, Stephen Fairclough7, Jerry W Jenkins7, Yeisoo Yu9, Dave Kudrna6, Jianwei Zhang6, Jayson Talag6, Wolfgang Golser6, Kathryn Ghattas1, M Eric Schranz10, Rod Wing8, Martin A Lysak6, Jeremy Schmutz7, Daniel S Rokhsar7, Thomas Mitchell-Olds1.   

Abstract

Fixed chromosomal inversions can reduce gene flow and promote speciation in two ways: by suppressing recombination and by carrying locally favoured alleles at multiple loci. However, it is unknown whether favoured mutations slowly accumulate on older inversions or if young inversions spread because they capture pre-existing adaptive quantitative trait loci (QTLs). By genetic mapping, chromosome painting and genome sequencing, we have identified a major inversion controlling ecologically important traits in Boechera stricta. The inversion arose since the last glaciation and subsequently reached local high frequency in a hybrid speciation zone. Furthermore, the inversion shows signs of positive directional selection. To test whether the inversion could have captured existing, linked QTLs, we crossed standard, collinear haplotypes from the hybrid zone and found multiple linked phenology QTLs within the inversion region. These findings provide the first direct evidence that linked, locally adapted QTLs may be captured by young inversions during incipient speciation.

Entities:  

Year:  2017        PMID: 28812690      PMCID: PMC5607633          DOI: 10.1038/s41559-017-0119

Source DB:  PubMed          Journal:  Nat Ecol Evol        ISSN: 2397-334X            Impact factor:   15.460


  63 in total

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