The soybean rust pathogen <i>Phakopsora pachyrhizi</i> displays transposable element proliferation that correlates with broad host-range adaptation on legumes-Reference-Cited by-同舟云学术

The soybean rust pathogen Phakopsora pachyrhizi displays transposable element proliferation that correlates with broad host-range adaptation on legumes

Published:2022-06-13 Issue: Volume: Page:
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Gupta Yogesh K.^ORCID,Marcelino-Guimarães Francismar C.^ORCID,Lorrain Cécile^ORCID,Farmer Andrew^ORCID,Haridas Sajeet^ORCID,Ferreira Everton Geraldo Capote^ORCID,Lopes-Caitar Valéria S.^ORCID,Oliveira Liliane Santana^ORCID,Morin Emmanuelle^ORCID,Widdison Stephanie,Cameron Connor^ORCID,Inoue Yoshihiro^ORCID,Thor Kathrin^ORCID,Robinson Kelly^ORCID,Drula Elodie^ORCID,Henrissat Bernard^ORCID,LaButti Kurt^ORCID,Bini Aline Mara Rudsit,Paget Eric,Singan Vasanth^ORCID,Daum Christopher,Dorme Cécile,van Hoek Milan,Janssen Antoine^ORCID,Chandat Lucie,Tarriotte Yannick,Richardson Jake,do Vale Araújo Melo Bernardo^ORCID,Wittenberg Alexander,Schneiders Harrie,Peyrard Stephane,Zanardo Larissa Goulart^ORCID,Holtman Valéria Cristina^ORCID,Coulombier-Chauvel Flavie,Link Tobias I.^ORCID,Balmer Dirk,Müller André N.,Kind Sabine,Bohnert Stefan,Wirtz Louisa,Chen Cindy^ORCID,Yan Mi,Ng Vivian^ORCID,Gautier Pierrick,Meyer Maurício Conrado^ORCID,Voegele Ralf Thomas^ORCID,Liu Qingli,Grigoriev Igor V.^ORCID,Conrath Uwe^ORCID,Brommonschenkel Sérgio H.^ORCID,Loehrer Marco^ORCID,Schaffrath Ulrich^ORCID,Sirven Catherine^ORCID,Scalliet Gabriel^ORCID,Duplessis Sébastien^ORCID,van Esse H. Peter^ORCID

Abstract

ABSTRACTAsian soybean rust, caused by Phakopsora pachyrhizi, is 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. We simultaneously sequenced three P. pachyrhizi genomes uncovering a genome up to 1.25 Gb comprising two haplotypes with a transposable element (TE) content of ~93%. The proliferation of TEs within the genome occurred in several bursts and correlates with the radiation and speciation of the legumes. We present data of clear de-repression of TEs that mirrors expression of virulence-related candidate effectors. We can see a unique expansion in amino acid metabolism for this fungus. Our data shows that TEs play a dominant role in P. pachyrhizi’s genome and have a key impact on various processes such as host range adaptation, stress responses and genetic plasticity of the genome.

Publisher

Cold Spring Harbor Laboratory

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