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Speciation with gene flow in equids despite extensive chromosomal plasticity

Horses, asses, and zebras belong to a single genus, Equus, which emerged 4.0-4.5 Mya. Although the equine fossil record represents a textbook example of evolution, the succession of events that gave rise to the diversity of species existing today remains unclear. Here we present six genomes from eac... Full description

Journal Title: Proceedings of the National Academy of Sciences 30 December 2014, Vol.111(52), p.18655
Main Author: Hákon Jónsson
Other Authors: Mikkel Schubert , Andaine Seguin-Orlando , Aurélien Ginolhac , Lillian Petersen , Matteo Fumagalli , Anders Albrechtsen , Bent Petersen , Thorfinn S. Korneliussen , Julia T. Vilstrup , Teri Lear , Jennifer Leigh Myka , Judith Lundquist , Donald C. Miller , Ahmed H. Alfarhan , Saleh A. Alquraishi , Khaled A. S. Al-Rasheid , Julia Stagegaard , Günter Strauss , Mads Frost Bertelsen , Thomas Sicheritz-Ponten , Douglas F. Antczak , Ernest Bailey , Rasmus Nielsen , Eske Willerslev , Ludovic Orlando
Format: Electronic Article Electronic Article
Language: English
Subjects:
ID: ISSN: 0027-8424 ; E-ISSN: 1091-6490 ; DOI: 10.1073/pnas.1412627111
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recordid: pnas_s111_52_18655
title: Speciation with gene flow in equids despite extensive chromosomal plasticity
format: Article
creator:
  • Hákon Jónsson
  • Mikkel Schubert
  • Andaine Seguin-Orlando
  • Aurélien Ginolhac
  • Lillian Petersen
  • Matteo Fumagalli
  • Anders Albrechtsen
  • Bent Petersen
  • Thorfinn S. Korneliussen
  • Julia T. Vilstrup
  • Teri Lear
  • Jennifer Leigh Myka
  • Judith Lundquist
  • Donald C. Miller
  • Ahmed H. Alfarhan
  • Saleh A. Alquraishi
  • Khaled A. S. Al-Rasheid
  • Julia Stagegaard
  • Günter Strauss
  • Mads Frost Bertelsen
  • Thomas Sicheritz-Ponten
  • Douglas F. Antczak
  • Ernest Bailey
  • Rasmus Nielsen
  • Eske Willerslev
  • Ludovic Orlando
subjects:
  • Sciences (General)
ispartof: Proceedings of the National Academy of Sciences, 30 December 2014, Vol.111(52), p.18655
description: Horses, asses, and zebras belong to a single genus, Equus, which emerged 4.0-4.5 Mya. Although the equine fossil record represents a textbook example of evolution, the succession of events that gave rise to the diversity of species existing today remains unclear. Here we present six genomes from each living species of asses and zebras. This completes the set of genomes available for all extant species in the genus, which was hitherto represented only by the horse and the domestic donkey. In addition, we used a museum specimen to characterize the genome of the quagga zebra, which was driven to extinction in the early 1900s. We scan the genomes for lineage-specific adaptations and identify 48 genes that have evolved under positive selection and are involved in olfaction, immune response, development, locomotion, and behavior. Our extensive genome dataset reveals a highly dynamic demographic history with synchronous expansions and collapses on different continents during the last 400 ky after major climatic events. We show that the earliest speciation occurred with gene flow in Northern America, and that the ancestor of present-day asses and zebras dispersed into the Old World 2.1-3.4 Mya. Strikingly, we also find evidence for gene flow involving three contemporary equine species despite chromosomal numbers varying from 16 pairs to 31 pairs. These findings challenge the claim that the accumulation of chromosomal rearrangements drive complete reproductive isolation, and promote equids as a fundamental model for understanding the interplay between chromosomal structure, gene flow, and, ultimately, speciation. equids | evolutionary genomics | speciation | admixture | chromosomal rearrangements www.pnas.org/cgi/doi/10.1073/pnas.1412627111
language: eng
source:
identifier: ISSN: 0027-8424 ; E-ISSN: 1091-6490 ; DOI: 10.1073/pnas.1412627111
fulltext: fulltext_linktorsrc
issn:
  • 0027-8424
  • 00278424
  • 1091-6490
  • 10916490
url: Link


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titleSpeciation with gene flow in equids despite extensive chromosomal plasticity
creatorHákon Jónsson ; Mikkel Schubert ; Andaine Seguin-Orlando ; Aurélien Ginolhac ; Lillian Petersen ; Matteo Fumagalli ; Anders Albrechtsen ; Bent Petersen ; Thorfinn S. Korneliussen ; Julia T. Vilstrup ; Teri Lear ; Jennifer Leigh Myka ; Judith Lundquist ; Donald C. Miller ; Ahmed H. Alfarhan ; Saleh A. Alquraishi ; Khaled A. S. Al-Rasheid ; Julia Stagegaard ; Günter Strauss ; Mads Frost Bertelsen ; Thomas Sicheritz-Ponten ; Douglas F. Antczak ; Ernest Bailey ; Rasmus Nielsen ; Eske Willerslev ; Ludovic Orlando
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descriptionHorses, asses, and zebras belong to a single genus, Equus, which emerged 4.0-4.5 Mya. Although the equine fossil record represents a textbook example of evolution, the succession of events that gave rise to the diversity of species existing today remains unclear. Here we present six genomes from each living species of asses and zebras. This completes the set of genomes available for all extant species in the genus, which was hitherto represented only by the horse and the domestic donkey. In addition, we used a museum specimen to characterize the genome of the quagga zebra, which was driven to extinction in the early 1900s. We scan the genomes for lineage-specific adaptations and identify 48 genes that have evolved under positive selection and are involved in olfaction, immune response, development, locomotion, and behavior. Our extensive genome dataset reveals a highly dynamic demographic history with synchronous expansions and collapses on different continents during the last 400 ky after major climatic events. We show that the earliest speciation occurred with gene flow in Northern America, and that the ancestor of present-day asses and zebras dispersed into the Old World 2.1-3.4 Mya. Strikingly, we also find evidence for gene flow involving three contemporary equine species despite chromosomal numbers varying from 16 pairs to 31 pairs. These findings challenge the claim that the accumulation of chromosomal rearrangements drive complete reproductive isolation, and promote equids as a fundamental model for understanding the interplay between chromosomal structure, gene flow, and, ultimately, speciation. equids | evolutionary genomics | speciation | admixture | chromosomal rearrangements www.pnas.org/cgi/doi/10.1073/pnas.1412627111
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