The transcriptional landscape of polyploid wheat

R. H. Ramírez-González(John Innes Centre), Philippa Borrill(John Innes Centre), Daniel Lang(Helmholtz Zentrum München), Sophie A. Harrington(John Innes Centre), Jemima Brinton(John Innes Centre), Luca Venturini(Norwich Research Park), Mark W. Davey(Ablynx (Belgium)), John Jacobs(Ablynx (Belgium)), Frédéric Van Ex(Ablynx (Belgium)), Asher Pasha(University of Toronto), Yogendra Khedikar(Agriculture and Agri-Food Canada), Stephen J. Robinson(Agriculture and Agri-Food Canada), Aron T. Cory(University of Saskatchewan), Tobin Florio(John Innes Centre), Lorenzo Concia(Université Paris-Sud), Caroline Juéry(Génétique, Diversité, Écophysiologie des Céréales), Henk‐jan Schoonbeek(John Innes Centre), Burkhard Steuernagel(John Innes Centre), Daoquan Xiang(National Research Council Canada), Christopher J. Ridout(John Innes Centre), Boulos Chalhoub(Institut National de Recherche pour l'Agriculture, l'Alimentation et l'Environnement), Klaus Mayer(Helmholtz Zentrum München), Moussa Benhamed(Université Paris-Sud), David Latrasse(Université Paris-Sud), Abdelhafid Bendahmane(Université Paris-Sud), Brande B. H. Wulff(John Innes Centre), R. Appels(Murdoch University), Vijay Tiwari(University of Maryland, College Park), Raju Datla(John Innes Centre), Frédéric Choulet(Génétique, Diversité, Écophysiologie des Céréales), Curtis Pozniak(University of Saskatchewan), Nicholas J. Provart(University of Toronto), Andrew Sharpe(Global Institute for Water Security), Etienne Paux(Génétique, Diversité, Écophysiologie des Céréales), M. Spannagl(Helmholtz Zentrum München), Andrea Bräutigam(Leibniz-Institut für Pflanzengenetik und Kulturpflanzenforschung (IPK)), Cristóbal Uauy(John Innes Centre), Abraham B. Korol, Andrew Sharpe(Global Institute for Water Security), Angéla Juhász, Antje Rohde, Arnaud Bellec, Assaf Distelfeld, Bala Anı Akpınar, Beat Keller, Benoît Darrier, Bikram Gill, Boulos Chalhoub(Institut National de Recherche pour l'Agriculture, l'Alimentation et l'Environnement), Burkhard Steuernagel(John Innes Centre), Catherine Feuillet, Chanderkant Chaudhary, Cristóbal Uauy(John Innes Centre), Curtis Pozniak(University of Saskatchewan), Danara Ormanbekova, Daoquan Xiang(National Research Council Canada), David Latrasse(Université Paris-Sud), David Swarbreck(Institut des Sciences des Plantes de Paris Saclay), Delfina Barabaschi, Dina Raats, E. M. Sergeeva, Е. А. Салина, Etienne Paux(Université Clermont Auvergne), Federica Cattonaro, Frédéric Choulet(Université Clermont Auvergne), Fuminori Kobayashi, Gabriel Keeble‐Gagnère, Gaganpreet Kaur, Gary J. Muehlbauer, George Kettleborough, Guotai Yu, Hana Šimková, Heidrun Gundlach, Hélène Bergès, Hélène Rimbert, Hikmet Budak, Hirokazu Handa, Ian Small, Jan Bartoš, Jane Rogers, Jaroslav Doležel, Jens Keilwagen, Jesse Poland, Joanna Melonek, John Jacobs(Ablynx (Belgium)), Jon Wright, Jonathan D. G. Jones, Juan J. Gutiérrez-González, Kellye Eversole, Kirby T. Nilsen, Klaus Mayer(Helmholtz Zentrum München), K. Kanyuka, Kuldeep Singh, Liangliang Gao, Lorenzo Concia(Université Paris-Sud), Luca Venturini(Norwich Research Park), Luigi Cattivelli, M. Spannagl(Helmholtz Zentrum München), Martin Mascher, Matthew Hayden, Michaël Abrouk, Michaël Alaux, Ming‐Cheng Luo, Miroslav Valárik, Moussa Benhamed(Université Paris-Sud), Nisha Singh, Naveen Sharma, Nicolas Guilhot, Nikolai V. Ravin, Nils Stein, Odd-Arne Olsen, O. P. Gupta, Paramjit Khurana, Parveen Chhuneja, Philipp E. Bayer, Philippa Borrill(John Innes Centre), Philippe Leroy, Philippe Rigault, Pierre Sourdille, Pilar Hernández, Raphaël Flores, Ricardo H. Ramírez-González(John Innes Centre), Robert C. King, R. E. Knox, R. Appels(Murdoch University), Ruonan Zhou, Sean Walkowiak, Sergio Gálvez, Sezgi Biyiklioglu, Shuhei Nasuda, Simen R. Sandve, Smahane Chalabi, Song Weining, Sunish K. Sehgal, Suruchi Jindal, Tatiana Belova, Thomas Letellier, Thomas Wicker, Tsuyoshi Tanaka, Tzion Fahima, Valérie Barbe, Vijay Tiwari(University of Maryland, College Park), Vinod Kumar, Yifang Tan
Science
August 17, 2018
10.1126/science.aar6089
Cited by 1,091Open Access
Full Text

Abstract

The coordinated expression of highly related homoeologous genes in polyploid species underlies the phenotypes of many of the world's major crops. Here we combine extensive gene expression datasets to produce a comprehensive, genome-wide analysis of homoeolog expression patterns in hexaploid bread wheat. Bias in homoeolog expression varies between tissues, with ~30% of wheat homoeologs showing nonbalanced expression. We found expression asymmetries along wheat chromosomes, with homoeologs showing the largest inter-tissue, inter-cultivar, and coding sequence variation, most often located in high-recombination distal ends of chromosomes. These transcriptionally dynamic genes potentially represent the first steps toward neo- or subfunctionalization of wheat homoeologs. Coexpression networks reveal extensive coordination of homoeologs throughout development and, alongside a detailed expression atlas, provide a framework to target candidate genes underpinning agronomic traits in wheat.

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