Convergent losses of decay mechanisms and rapid turnover of symbiosis genes in mycorrhizal mutualists

Annegret Kohler(Institut National de la Recherche Agronomique), Alan Kuo(United States Department of Energy), László G. Nagy(Clark University), Emmanuelle Morin(Institut National de la Recherche Agronomique), Kerrie Barry(United States Department of Energy), François Buscot(Helmholtz Centre for Environmental Research), Björn Canbäck(Lund University), Cindy Choi(United States Department of Energy), Nicolas Cichocki(Institut National de la Recherche Agronomique), Alicia Clum(United States Department of Energy), Jan V. Colpaert(Hasselt University), Alex Copeland(United States Department of Energy), Maurício Dutra Costa(Conselho Nacional de Desenvolvimento Científico e Tecnológico), Jeanne Doré(Université Claude Bernard Lyon 1), Dimitrios Floudas(Clark University), Gilles Gay(Université Claude Bernard Lyon 1), Mariangela Girlanda(King Abdulaziz University), Bernard Henrissat(Centre National de la Recherche Scientifique), Sylvie Herrmann(Helmholtz Centre for Environmental Research), Jaqueline Hess(University of Oslo), Nils Högberg(Lund University), Tomas Johansson(Lund University), Hassine‐Radhouane Khouja(United States Department of Energy), Kurt LaButti(Max Planck Society), Urs Lahrmann(Aix-Marseille Université), Anthony Levasseur(Centre National de la Recherche Scientifique), Erika Lindquist(United States Department of Energy), Anna Lipzen(Université Claude Bernard Lyon 1), Roland Marmeisse(Université Claude Bernard Lyon 1), Elena Martino(Institut National de la Recherche Agronomique), Claude Murat(United States Department of Energy), Chew Yee Ngan(University of Bremen), Uwe Nehls(Institut National de la Recherche Agronomique), Jonathan M. Plett(Harvard University Press), Anne Pringle(United States Department of Energy), Robin A. Ohm(Joint Genome Institute), Silvia Perotto(University of Turin), Martina Peter(United States Department of Energy), Robert Riley(Joint Genome Institute), François Rineau(Hasselt University), Joske Ruytinx(United States Department of Energy), Asaf Salamov(Lund University), Firoz Shah(United States Department of Energy), Hui Sun(Helmholtz Centre for Environmental Research), Mika Tarkka(United States Department of Energy), Andrew Tritt(Institut National de la Recherche Agronomique), Claire Veneault‐Fourrey(Max Planck Society), Alga Zuccaro(Lund University), Anders Tunlid(United States Department of Energy), Igor V. Grigoriev(Clark University), David S Hibbett(Clark University), Francis Martin(Interactions Arbres-Microorganismes)
Nature Genetics
February 23, 2015
10.1038/ng.3223
Cited by 1,074Open Access
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Abstract

Francis Martin and colleagues report genome sequences for 18 species of mycorrhizal fungi and a phylogenomic analysis including 32 other fungal genomes. The study identifies cell wall-degradation genes lost in all true ectomycorrhizal species and, using gene expression data, finds candidate genes for the establishment of symbiosis. To elucidate the genetic bases of mycorrhizal lifestyle evolution, we sequenced new fungal genomes, including 13 ectomycorrhizal (ECM), orchid (ORM) and ericoid (ERM) species, and five saprotrophs, which we analyzed along with other fungal genomes. Ectomycorrhizal fungi have a reduced complement of genes encoding plant cell wall–degrading enzymes (PCWDEs), as compared to their ancestral wood decayers. Nevertheless, they have retained a unique array of PCWDEs, thus suggesting that they possess diverse abilities to decompose lignocellulose. Similar functional categories of nonorthologous genes are induced in symbiosis. Of induced genes, 7–38% are orphan genes, including genes that encode secreted effector-like proteins. Convergent evolution of the mycorrhizal habit in fungi occurred via the repeated evolution of a 'symbiosis toolkit', with reduced numbers of PCWDEs and lineage-specific suites of mycorrhiza-induced genes.

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