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Population genomics of apricots unravels domestication history and adaptive events

Author

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  • Alexis Groppi

    (Univ. Bordeaux, Centre de Bioinformatique de Bordeaux (CBiB)
    Univ. Bordeaux, CNRS, IBGC, UMR 5095)

  • Shuo Liu

    (Univ. Bordeaux, INRAE, UMR 1332 Biologie du Fruit et Pathologie
    Liaoning Institute of Pomology)

  • Amandine Cornille

    (Université Paris Saclay, INRAE, CNRS, AgroParisTech, UMR GQE-Le Moulon)

  • Stéphane Decroocq

    (Univ. Bordeaux, INRAE, UMR 1332 Biologie du Fruit et Pathologie)

  • Quynh Trang Bui

    (Univ. Bordeaux, INRAE, UMR 1332 Biologie du Fruit et Pathologie)

  • David Tricon

    (Univ. Bordeaux, INRAE, UMR 1332 Biologie du Fruit et Pathologie)

  • Corinne Cruaud

    (Genoscope, Institut François Jacob, Commissariat à l’Energie Atomique (CEA), Université Paris-Saclay
    Génomique Métabolique, Genoscope, Institut François Jacob, CEA, CNRS, Univ Evry, Université Paris-Saclay)

  • Sandrine Arribat

    (French Plant Genomic Resource Center, INRAE-CNRGV)

  • Caroline Belser

    (Genoscope, Institut François Jacob, Commissariat à l’Energie Atomique (CEA), Université Paris-Saclay
    Génomique Métabolique, Genoscope, Institut François Jacob, CEA, CNRS, Univ Evry, Université Paris-Saclay)

  • William Marande

    (French Plant Genomic Resource Center, INRAE-CNRGV)

  • Jérôme Salse

    (Laboratory PaleoEVO Paleogenomics & Evolution)

  • Cécile Huneau

    (Laboratory PaleoEVO Paleogenomics & Evolution)

  • Nathalie Rodde

    (French Plant Genomic Resource Center, INRAE-CNRGV)

  • Wassim Rhalloussi

    (French Plant Genomic Resource Center, INRAE-CNRGV)

  • Stéphane Cauet

    (French Plant Genomic Resource Center, INRAE-CNRGV)

  • Benjamin Istace

    (Genoscope, Institut François Jacob, Commissariat à l’Energie Atomique (CEA), Université Paris-Saclay
    Génomique Métabolique, Genoscope, Institut François Jacob, CEA, CNRS, Univ Evry, Université Paris-Saclay)

  • Erwan Denis

    (Genoscope, Institut François Jacob, Commissariat à l’Energie Atomique (CEA), Université Paris-Saclay
    Génomique Métabolique, Genoscope, Institut François Jacob, CEA, CNRS, Univ Evry, Université Paris-Saclay)

  • Sébastien Carrère

    (LIPME, Université de Toulouse, INRAE, CNRS)

  • Jean-Marc Audergon

    (INRAE UR1052 GAFL, Domaine Saint Maurice)

  • Guillaume Roch

    (INRAE UR1052 GAFL, Domaine Saint Maurice
    CEP INNOVATION)

  • Patrick Lambert

    (INRAE UR1052 GAFL, Domaine Saint Maurice)

  • Tetyana Zhebentyayeva

    (The Pennsylvania State University)

  • Wei-Sheng Liu

    (Liaoning Institute of Pomology)

  • Olivier Bouchez

    (INRAE, US 1426, GeT-PlaGe, Genotoul)

  • Céline Lopez-Roques

    (INRAE, US 1426, GeT-PlaGe, Genotoul)

  • Rémy-Félix Serre

    (INRAE, US 1426, GeT-PlaGe, Genotoul)

  • Robert Debuchy

    (Université Paris-Saclay, CEA, CNRS, Institute for Integrative Biology of the Cell (I2BC))

  • Joseph Tran

    (EGFV, Bordeaux Sciences Agro, INRAE, Univ. Bordeaux, ISVV)

  • Patrick Wincker

    (Genoscope, Institut François Jacob, Commissariat à l’Energie Atomique (CEA), Université Paris-Saclay
    Génomique Métabolique, Genoscope, Institut François Jacob, CEA, CNRS, Univ Evry, Université Paris-Saclay)

  • Xilong Chen

    (Université Paris Saclay, INRAE, CNRS, AgroParisTech, UMR GQE-Le Moulon)

  • Pierre Pétriacq

    (Univ. Bordeaux, INRAE, UMR 1332 Biologie du Fruit et Pathologie)

  • Aurélien Barre

    (Univ. Bordeaux, Centre de Bioinformatique de Bordeaux (CBiB))

  • Macha Nikolski

    (Univ. Bordeaux, Centre de Bioinformatique de Bordeaux (CBiB)
    Univ. Bordeaux, CNRS, IBGC, UMR 5095)

  • Jean-Marc Aury

    (Genoscope, Institut François Jacob, Commissariat à l’Energie Atomique (CEA), Université Paris-Saclay
    Génomique Métabolique, Genoscope, Institut François Jacob, CEA, CNRS, Univ Evry, Université Paris-Saclay)

  • Albert Glenn Abbott

    (University of Kentucky)

  • Tatiana Giraud

    (Université Paris-Saclay AgroParisTech)

  • Véronique Decroocq

    (Univ. Bordeaux, INRAE, UMR 1332 Biologie du Fruit et Pathologie)

Abstract

Among crop fruit trees, the apricot (Prunus armeniaca) provides an excellent model to study divergence and adaptation processes. Here, we obtain nearly 600 Armeniaca apricot genomes and four high-quality assemblies anchored on genetic maps. Chinese and European apricots form two differentiated gene pools with high genetic diversity, resulting from independent domestication events from distinct wild Central Asian populations, and with subsequent gene flow. A relatively low proportion of the genome is affected by selection. Different genomic regions show footprints of selection in European and Chinese cultivated apricots, despite convergent phenotypic traits, with predicted functions in both groups involved in the perennial life cycle, fruit quality and disease resistance. Selection footprints appear more abundant in European apricots, with a hotspot on chromosome 4, while admixture is more pervasive in Chinese cultivated apricots. Our study provides clues to the biology of selected traits and targets for fruit tree research and breeding.

Suggested Citation

  • Alexis Groppi & Shuo Liu & Amandine Cornille & Stéphane Decroocq & Quynh Trang Bui & David Tricon & Corinne Cruaud & Sandrine Arribat & Caroline Belser & William Marande & Jérôme Salse & Cécile Huneau, 2021. "Population genomics of apricots unravels domestication history and adaptive events," Nature Communications, Nature, vol. 12(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-24283-6
    DOI: 10.1038/s41467-021-24283-6
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