Major proliferation of transposable elements shaped the genome of the soybean rust pathogen Phakopsora pachyrhizi

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作者
Yogesh K. Gupta
Francismar C. Marcelino-Guimarães
Cécile Lorrain
Andrew Farmer
Sajeet Haridas
Everton Geraldo Capote Ferreira
Valéria S. Lopes-Caitar
Liliane Santana Oliveira
Emmanuelle Morin
Stephanie Widdison
Connor Cameron
Yoshihiro Inoue
Kathrin Thor
Kelly Robinson
Elodie Drula
Bernard Henrissat
Kurt LaButti
Aline Mara Rudsit Bini
Eric Paget
Vasanth Singan
Christopher Daum
Cécile Dorme
Milan van Hoek
Antoine Janssen
Lucie Chandat
Yannick Tarriotte
Jake Richardson
Bernardo do Vale Araújo Melo
Alexander H. J. Wittenberg
Harrie Schneiders
Stephane Peyrard
Larissa Goulart Zanardo
Valéria Cristina Holtman
Flavie Coulombier-Chauvel
Tobias I. Link
Dirk Balmer
André N. Müller
Sabine Kind
Stefan Bohnert
Louisa Wirtz
Cindy Chen
Mi Yan
Vivian Ng
Pierrick Gautier
Maurício Conrado Meyer
Ralf Thomas Voegele
Qingli Liu
Igor V. Grigoriev
Uwe Conrath
Sérgio H. Brommonschenkel
机构
[1] 2Blades,The Sainsbury Laboratory
[2] University of East Anglia,Pathogen Evolutionary Ecology
[3] Brazilian Agricultural Research Corporation - National Soybean Research Center (Embrapa Soja),U.S. Department of Energy Joint Genome Institute
[4] ETH Zürich,Department of Computer Science
[5] National Center for Genome Resources,Department of Biological Sciences
[6] Lawrence Berkeley National Laboratory,DTU Bioengineering
[7] Federal University of Technology of Paraná (UTFPR),Departamento de Fitopatologia
[8] Université de Lorraine,Institute of Phytomedicine
[9] INRAE,Department of Plant Physiology
[10] IAM,Department of Plant and Microbial Biology
[11] Syngenta Jealott’s Hill Int. Research Centre,undefined
[12] AFMB,undefined
[13] Aix-Marseille Univ.,undefined
[14] INRAE,undefined
[15] Biodiversité et Biotechnologie Fongiques,undefined
[16] INRAE,undefined
[17] King Abdulaziz University,undefined
[18] Technical University of Denmark,undefined
[19] Kgs,undefined
[20] Bayer SAS,undefined
[21] Crop Science Division,undefined
[22] KeyGene N.V.,undefined
[23] The John Innes Centre,undefined
[24] Universidade Federal de Viçosa,undefined
[25] University of Hohenheim,undefined
[26] Syngenta Crop Protection AG,undefined
[27] RWTH Aachen University,undefined
[28] Syngenta Crop Protection,undefined
[29] LLC,undefined
[30] Research Triangle Park,undefined
[31] University of California Berkeley,undefined
来源
Nature Communications | / 14卷
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摘要
With >7000 species the order of rust fungi has a disproportionately large impact on agriculture, horticulture, forestry and foreign ecosystems. The infectious spores are typically dikaryotic, a feature unique to fungi in which two haploid nuclei reside in the same cell. A key example is Phakopsora pachyrhizi, the causal agent of Asian soybean rust disease, one of the world’s most economically damaging agricultural diseases. Despite P. pachyrhizi’s impact, the exceptional size and complexity of its genome prevented generation of an accurate genome assembly. Here, we sequence three independent P. pachyrhizi genomes and uncover a genome up to 1.25 Gb comprising two haplotypes with a transposable element (TE) content of ~93%. We study the incursion and dominant impact of these TEs on the genome and show how they have a key impact on various processes such as host range adaptation, stress responses and genetic plasticity.
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