Genomic Analysis of the Necrotrophic Fungal Pathogens Sclerotinia sclerotiorum and Botrytis cinerea

Joëlle Amselem(Biologie et Gestion des Risques en Agriculture), Christina A. Cuomo(Broad Institute), J.A.L. van Kan(Wageningen University & Research), Muriel Viaud(Écologie des Forêts Méditerranéennes), Ernesto P. Benito(Universidad de Salamanca), Arnaud Couloux(Genoscope), Pedro M. Coutinho(Centre National de la Recherche Scientifique), Ronald P. de Vries(Westerdijk Fungal Biodiversity Institute), Paul S. Dyer(University of Nottingham), Sabine Fillinger(Écologie des Forêts Méditerranéennes), Elisabeth Fournier(Centre de Coopération Internationale en Recherche Agronomique pour le Développement), Lilian Gout(Écologie des Forêts Méditerranéennes), Matthias Hahn(University of Kaiserslautern), Linda M. Kohn(University of Toronto), Nicolas Lapalu(Centre National de la Recherche Scientifique), Kim M. Plummer(La Trobe University), Jean‐Marc Pradier(Écologie des Forêts Méditerranéennes), Emmanuel Quévillon(Laboratoire de Microbiologie, Adaptation et Pathogénie), Amir Sharon(Tel Aviv University), Adeline Simon(Écologie des Forêts Méditerranéennes), Arjen ten Have(National University of Mar del Plata), Bettina Tudzynski(Institute of Molecular Biotechnology), Paul Tudzynski, Patrick Wincker(Institute of Molecular Biotechnology), Marion Andrew(University of Toronto), Véronique Anthouard(Genoscope), Ross E. Beever(Manaaki Whenua – Landcare Research), Rolland Beffa(Université Claude Bernard Lyon 1), Isabelle Benoit(Cancer Genomics Centre), Ourdia Bouzid(Cancer Genomics Centre), Baptiste Brault(Biologie et Gestion des Risques en Agriculture), Zehua Chen(Broad Institute), Mathias Choquer(Biologie et Gestion des Risques en Agriculture), Jérôme Collemare(Unité de Recherche Pluridisciplinaire Prairies et Plantes Fourragères), Pascale Cotton(Université Claude Bernard Lyon 1), Étienne Danchin(Centre National de la Recherche Scientifique), Corinne Da Silva(Genoscope), Angélique Gautier(Biologie et Gestion des Risques en Agriculture), Corinne Giraud(Écologie des Forêts Méditerranéennes), Tatiana Giraud(Ecologie, Société, Evolution), Celedonio González(Universidad de La Laguna), Sandrine Grossetête(Université Claude Bernard Lyon 1), Ulrich Güldener(Helmholtz Zentrum München), Bernard Henrissat(Centre National de la Recherche Scientifique), Barbara J. Howlett(The University of Melbourne), Chinnappa D. Kodira(Broad Institute), Matthias Kretschmer(University of Kaiserslautern), Anne Lappartient(Université Claude Bernard Lyon 1), Michaela Leroch(University of Kaiserslautern), Caroline Levis(Écologie des Forêts Méditerranéennes), Evan Mauceli(Broad Institute), Cécile Neuvéglise(Microbiologie de l’alimentation au service de la santé), Birgitt Oeser(Institute of Molecular Biotechnology), Matthew D. Pearson(Broad Institute), Julie Poulain(Genoscope), Nathalie Poussereau(Université Claude Bernard Lyon 1), Hadi Quesneville(Institut National de la Recherche Agronomique), Christine Rascle(Université Claude Bernard Lyon 1), Julia Schumacher(Institute of Molecular Biotechnology), Béatrice Segurens(Genoscope), Adrienne Sexton(The University of Melbourne), Evelyn Silva(Fundación Ciencia and Vida), Catherine Sirven(Université Claude Bernard Lyon 1), Darren M. Soanes(University of Exeter), Nicholas J. Talbot(University of Exeter), Templeton Matt(Plant & Food Research), Chandri Yandava(Broad Institute), Oded Yarden(Hebrew University of Jerusalem), Qiandong Zeng(Broad Institute), Jeffrey A. Rollins(University of Florida), Marc‐Henri Lebrun(Laboratoire de Microbiologie, Adaptation et Pathogénie), Marty Dickman(Texas A&M University)
PLoS Genetics
August 18, 2011
10.1371/journal.pgen.1002230
Cited by 1,071Open Access
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Abstract

Sclerotinia sclerotiorum and Botrytis cinerea are closely related necrotrophic plant pathogenic fungi notable for their wide host ranges and environmental persistence. These attributes have made these species models for understanding the complexity of necrotrophic, broad host-range pathogenicity. Despite their similarities, the two species differ in mating behaviour and the ability to produce asexual spores. We have sequenced the genomes of one strain of S. sclerotiorum and two strains of B. cinerea. The comparative analysis of these genomes relative to one another and to other sequenced fungal genomes is provided here. Their 38-39 Mb genomes include 11,860-14,270 predicted genes, which share 83% amino acid identity on average between the two species. We have mapped the S. sclerotiorum assembly to 16 chromosomes and found large-scale co-linearity with the B. cinerea genomes. Seven percent of the S. sclerotiorum genome comprises transposable elements compared to <1% of B. cinerea. The arsenal of genes associated with necrotrophic processes is similar between the species, including genes involved in plant cell wall degradation and oxalic acid production. Analysis of secondary metabolism gene clusters revealed an expansion in number and diversity of B. cinerea-specific secondary metabolites relative to S. sclerotiorum. The potential diversity in secondary metabolism might be involved in adaptation to specific ecological niches. Comparative genome analysis revealed the basis of differing sexual mating compatibility systems between S. sclerotiorum and B. cinerea. The organization of the mating-type loci differs, and their structures provide evidence for the evolution of heterothallism from homothallism. These data shed light on the evolutionary and mechanistic bases of the genetically complex traits of necrotrophic pathogenicity and sexual mating. This resource should facilitate the functional studies designed to better understand what makes these fungi such successful and persistent pathogens of agronomic crops.

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