Fern genomes elucidate land plant evolution and cyanobacterial symbioses

Fay‐Wei Li; Paul Brouwer; Lorenzo Carretero‐Paulet; Shifeng Cheng; Jan de Vries; Pierre‐Marc Delaux; Ariana Noel Eily; Nils Koppers; Li‐Yaung Kuo; Zheng Li; Mathew Simenc; Ian Small; Eric Wafula; Stephany Angarita; Michael S. Barker; Andrea Bräutigam; Claude W. dePamphilis; Sven B. Gould; Prashant S. Hosmani; Yao Moan Huang; Bruno Hüettel; Yoichiro Kato; Xin Liu; Steven Maere; Rose McDowell; Lukas A. Mueller; Klaas G.J. Nierop; Stefan A. Rensing; Tanner A. Robison; Carl J. Rothfels; Erin M. Sigel; Yue Song; Prakash Raj Timilsena; Yves Van de Peer; Hongli Wang; Per K.I. Wilhelmsson; Paul G. Wolf; Xun Xu; Joshua P. Der; Henriette Schluepmann; Gane Ka‐Shu Wong; Kathleen M. Pryer

doi:10.1038/s41477-018-0188-8

Fern genomes elucidate land plant evolution and cyanobacterial symbioses

Fay‐Wei Li(Cornell University), Paul Brouwer(Utrecht University), Lorenzo Carretero‐Paulet(Ghent University), Shifeng Cheng, Jan de Vries(Dalhousie University), Pierre‐Marc Delaux(Centre National de la Recherche Scientifique), Ariana Noel Eily(Duke University), Nils Koppers(Cluster of Excellence on Plant Sciences), Li‐Yaung Kuo(Cornell University), Zheng Li(University of Arizona), Mathew Simenc(California State University, Fullerton), Ian Small(The University of Western Australia), Eric Wafula(Pennsylvania State University), Stephany Angarita(California State University, Fullerton), Michael S. Barker(University of Arizona), Andrea Bräutigam(Bielefeld University), Claude W. dePamphilis(Pennsylvania State University), Sven B. Gould(Heinrich Heine University Düsseldorf), Prashant S. Hosmani(Cornell University), Yao Moan Huang(Taiwan Forestry Research Institute), Bruno Hüettel(Max Planck Institute for Plant Breeding Research), Yoichiro Kato(The University of Tokyo), Xin Liu, Steven Maere(Ghent University), Rose McDowell(The University of Western Australia), Lukas A. Mueller(Cornell University), Klaas G.J. Nierop(Utrecht University), Stefan A. Rensing(Philipps University of Marburg), Tanner A. Robison(Utah State University), Carl J. Rothfels(University of California, Berkeley), Erin M. Sigel(University of Louisiana at Lafayette), Yue Song, Prakash Raj Timilsena(Pennsylvania State University), Yves Van de Peer(Ghent University), Hongli Wang, Per K.I. Wilhelmsson(Philipps University of Marburg), Paul G. Wolf(Utah State University), Xun Xu, Joshua P. Der(California State University, Fullerton), Henriette Schluepmann(Utrecht University), Gane Ka‐Shu Wong(University of Alberta), Kathleen M. Pryer(Duke University)

Nature Plants

June 29, 2018

10.1038/s41477-018-0188-8

Cited by 532Open Access

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Abstract

Abstract Ferns are the closest sister group to all seed plants, yet little is known about their genomes other than that they are generally colossal. Here, we report on the genomes of Azolla filiculoides and Salvinia cucullata (Salviniales) and present evidence for episodic whole-genome duplication in ferns—one at the base of ‘core leptosporangiates’ and one specific to Azolla . One fern-specific gene that we identified, recently shown to confer high insect resistance, seems to have been derived from bacteria through horizontal gene transfer. Azolla coexists in a unique symbiosis with N 2 -fixing cyanobacteria, and we demonstrate a clear pattern of cospeciation between the two partners. Furthermore, the Azolla genome lacks genes that are common to arbuscular mycorrhizal and root nodule symbioses, and we identify several putative transporter genes specific to Azolla –cyanobacterial symbiosis. These genomic resources will help in exploring the biotechnological potential of Azolla and address fundamental questions in the evolution of plant life.

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