Périgord black truffle genome uncovers evolutionary origins and mechanisms of symbiosis

Francis Martin; Annegret Kohler; Claude Murat; Raffaella Balestrini; Pedro M. Coutinho; Olivier Jaillon; Barbara Montanini; Emmanuelle Morin; Benjamin Noel; Riccardo Percudani; Bettina Porcel; Andrea Rubini; Antonella Amicucci; Joelle Amselem; Véronique Anthouard; Sergio Arcioni; François Artiguenave; Jean Marc Aury; Paola Ballario; Angelo Bolchi; Andrea Brenna; Annick Brun; Marc Buée; Brandi Cantarel; Gérard Chevalier; Arnaud Couloux; Corinne Da Silva; France Denoeud; Sébastien Duplessis; Stefano Ghignone; Benot Hilselberger; Mirco Iotti; Benot Marçais; Antonietta Mello; Michele Miranda; Giovanni Pacioni; Hadi Quesneville; Claudia Riccioni; Roberta Ruotolo; Richard Splivallo; Vilberto Stocchi; Emilie Tisserant; Arturo Roberto Viscomi; Alessandra Zambonelli; Elisa Zampieri; Bernard Henrissat; Marc Henri Lebrun; Francesco Paolocci; Paola Bonfante; Simone Ottonello; Patrick Wincker

doi:10.1038/nature08867

Périgord black truffle genome uncovers evolutionary origins and mechanisms of symbiosis

Francis Martin, Annegret Kohler, Claude Murat, Raffaella Balestrini, Pedro M. Coutinho, Olivier Jaillon, Barbara Montanini, Emmanuelle Morin, Benjamin Noel, Riccardo Percudani, Bettina Porcel, Andrea Rubini, Antonella Amicucci, Joelle Amselem, Véronique Anthouard, Sergio Arcioni, François Artiguenave, Jean Marc Aury, Paola Ballario, Angelo BolchiAndrea Brenna, Annick Brun, Marc Buée, Brandi Cantarel, Gérard Chevalier, Arnaud Couloux, Corinne Da Silva, France Denoeud, Sébastien Duplessis, Stefano Ghignone, Benot Hilselberger, Mirco Iotti, Benot Marçais, Antonietta Mello, Michele Miranda, Giovanni Pacioni, Hadi Quesneville, Claudia Riccioni, Roberta Ruotolo, Richard Splivallo, Vilberto Stocchi, Emilie Tisserant, Arturo Roberto Viscomi, Alessandra Zambonelli, Elisa Zampieri, Bernard Henrissat, Marc Henri Lebrun, Francesco Paolocci, Paola Bonfante, Simone Ottonello, Patrick Wincker

Research output: Contribution to journal › Article › peer-review

542 Scopus citations

Abstract

The Périgord black truffle (Tuber melanosporum Vittad.) and the Piedmont white truffle dominate todays truffle market. The hypogeous fruiting body of T. melanosporum is a gastronomic delicacy produced by an ectomycorrhizal symbiont endemic to calcareous soils in southern Europe. The worldwide demand for this truffle has fuelled intense efforts at cultivation. Identification of processes that condition and trigger fruit body and symbiosis formation, ultimately leading to efficient crop production, will be facilitated by a thorough analysis of truffle genomic traits. In the ectomycorrhizal Laccaria bicolor, the expansion of gene families may have acted as a symbiosis toolbox. This feature may however reflect evolution of this particular taxon and not a general trait shared by all ectomycorrhizal species. To get a better understanding of the biology and evolution of the ectomycorrhizal symbiosis, we report here the sequence of the haploid genome of T. melanosporum, which at 125 megabases is the largest and most complex fungal genome sequenced so far. This expansion results from a proliferation of transposable elements accounting for 58% of the genome. In contrast, this genome only contains 7,500 protein-coding genes with very rare multigene families. It lacks large sets of carbohydrate cleaving enzymes, but a few of them involved in degradation of plant cell walls are induced in symbiotic tissues. The latter feature and the upregulation of genes encoding for lipases and multicopper oxidases suggest that T. melanosporum degrades its host cell walls during colonization. Symbiosis induces an increased expression of carbohydrate and amino acid transporters in both L. bicolor and T. melanosporum, but the comparison of genomic traits in the two ectomycorrhizal fungi showed that genetic predispositions for symbiosisthe symbiosis toolboxevolved along different ways in ascomycetes and basidiomycetes.

Original language	English (US)
Pages (from-to)	1033-1038
Number of pages	6
Journal	Nature
Volume	464
Issue number	7291
DOIs	https://doi.org/10.1038/nature08867
State	Published - Apr 15 2010

ASJC Scopus subject areas

General

Access to Document

10.1038/nature08867

Cite this

Martin, F., Kohler, A., Murat, C., Balestrini, R., Coutinho, P. M., Jaillon, O., Montanini, B., Morin, E., Noel, B., Percudani, R., Porcel, B., Rubini, A., Amicucci, A., Amselem, J., Anthouard, V., Arcioni, S., Artiguenave, F., Aury, J. M., Ballario, P., ... Wincker, P. (2010). Périgord black truffle genome uncovers evolutionary origins and mechanisms of symbiosis. Nature, 464(7291), 1033-1038. https://doi.org/10.1038/nature08867

Martin, F, Kohler, A, Murat, C, Balestrini, R, Coutinho, PM, Jaillon, O, Montanini, B, Morin, E, Noel, B, Percudani, R, Porcel, B, Rubini, A, Amicucci, A, Amselem, J, Anthouard, V, Arcioni, S, Artiguenave, F, Aury, JM, Ballario, P, Bolchi, A, Brenna, A, Brun, A, Buée, M, Cantarel, B, Chevalier, G, Couloux, A, Da Silva, C, Denoeud, F, Duplessis, S, Ghignone, S, Hilselberger, B, Iotti, M, Marçais, B, Mello, A, Miranda, M, Pacioni, G, Quesneville, H, Riccioni, C, Ruotolo, R, Splivallo, R, Stocchi, V, Tisserant, E, Viscomi, AR, Zambonelli, A, Zampieri, E, Henrissat, B, Lebrun, MH, Paolocci, F, Bonfante, P, Ottonello, S & Wincker, P 2010, 'Périgord black truffle genome uncovers evolutionary origins and mechanisms of symbiosis', Nature, vol. 464, no. 7291, pp. 1033-1038. https://doi.org/10.1038/nature08867

@article{81b1a46815654fc69bbfa2fc6adbed6c,

title = "P{\'e}rigord black truffle genome uncovers evolutionary origins and mechanisms of symbiosis",

abstract = "The P{\'e}rigord black truffle (Tuber melanosporum Vittad.) and the Piedmont white truffle dominate todays truffle market. The hypogeous fruiting body of T. melanosporum is a gastronomic delicacy produced by an ectomycorrhizal symbiont endemic to calcareous soils in southern Europe. The worldwide demand for this truffle has fuelled intense efforts at cultivation. Identification of processes that condition and trigger fruit body and symbiosis formation, ultimately leading to efficient crop production, will be facilitated by a thorough analysis of truffle genomic traits. In the ectomycorrhizal Laccaria bicolor, the expansion of gene families may have acted as a symbiosis toolbox. This feature may however reflect evolution of this particular taxon and not a general trait shared by all ectomycorrhizal species. To get a better understanding of the biology and evolution of the ectomycorrhizal symbiosis, we report here the sequence of the haploid genome of T. melanosporum, which at 125 megabases is the largest and most complex fungal genome sequenced so far. This expansion results from a proliferation of transposable elements accounting for 58% of the genome. In contrast, this genome only contains 7,500 protein-coding genes with very rare multigene families. It lacks large sets of carbohydrate cleaving enzymes, but a few of them involved in degradation of plant cell walls are induced in symbiotic tissues. The latter feature and the upregulation of genes encoding for lipases and multicopper oxidases suggest that T. melanosporum degrades its host cell walls during colonization. Symbiosis induces an increased expression of carbohydrate and amino acid transporters in both L. bicolor and T. melanosporum, but the comparison of genomic traits in the two ectomycorrhizal fungi showed that genetic predispositions for symbiosisthe symbiosis toolboxevolved along different ways in ascomycetes and basidiomycetes.",

author = "Francis Martin and Annegret Kohler and Claude Murat and Raffaella Balestrini and Coutinho, {Pedro M.} and Olivier Jaillon and Barbara Montanini and Emmanuelle Morin and Benjamin Noel and Riccardo Percudani and Bettina Porcel and Andrea Rubini and Antonella Amicucci and Joelle Amselem and V{\'e}ronique Anthouard and Sergio Arcioni and Fran{\c c}ois Artiguenave and Aury, {Jean Marc} and Paola Ballario and Angelo Bolchi and Andrea Brenna and Annick Brun and Marc Bu{\'e}e and Brandi Cantarel and G{\'e}rard Chevalier and Arnaud Couloux and {Da Silva}, Corinne and France Denoeud and S{\'e}bastien Duplessis and Stefano Ghignone and Benot Hilselberger and Mirco Iotti and Benot Mar{\c c}ais and Antonietta Mello and Michele Miranda and Giovanni Pacioni and Hadi Quesneville and Claudia Riccioni and Roberta Ruotolo and Richard Splivallo and Vilberto Stocchi and Emilie Tisserant and Viscomi, {Arturo Roberto} and Alessandra Zambonelli and Elisa Zampieri and Bernard Henrissat and Lebrun, {Marc Henri} and Francesco Paolocci and Paola Bonfante and Simone Ottonello and Patrick Wincker",

note = "Funding Information: Acknowledgements We thank the late L. Riousset and C. Dupr{\'e} for providing the Mel28 isolate, and acknowledge F. Le Tacon and J. Weissenbach for continuous support. The genome sequencing of T. melanosporum was funded by the G{\'e}noscope, Institut de G{\'e}nomique, CEA, and Agence Nationale de la Recherche (ANR). Genome annotation and transcriptome analysis were supported by INRA, the European FP6 Network of Excellence EVOLTREE, R{\'e}gion Lorraine, the ANR FungEffector project, Fondazione Cariparma, Compagnia di San Paolo-Torino, the Italian Ministry of Education, University and Research (MIUR), Regione Umbria and Instituto Pasteur Fondazione Cenci Bolognetti. We thank D. Hibbett and J. Heitman for comments on an early draft of the manuscript, and J. Plett for a critical reading of the paper.",

year = "2010",

month = apr,

day = "15",

doi = "10.1038/nature08867",

language = "English (US)",

volume = "464",

pages = "1033--1038",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Publishing Group",

number = "7291",

}

TY - JOUR

T1 - Périgord black truffle genome uncovers evolutionary origins and mechanisms of symbiosis

AU - Martin, Francis

AU - Kohler, Annegret

AU - Murat, Claude

AU - Balestrini, Raffaella

AU - Coutinho, Pedro M.

AU - Jaillon, Olivier

AU - Montanini, Barbara

AU - Morin, Emmanuelle

AU - Noel, Benjamin

AU - Percudani, Riccardo

AU - Porcel, Bettina

AU - Rubini, Andrea

AU - Amicucci, Antonella

AU - Amselem, Joelle

AU - Anthouard, Véronique

AU - Arcioni, Sergio

AU - Artiguenave, François

AU - Aury, Jean Marc

AU - Ballario, Paola

AU - Bolchi, Angelo

AU - Brenna, Andrea

AU - Brun, Annick

AU - Buée, Marc

AU - Cantarel, Brandi

AU - Chevalier, Gérard

AU - Couloux, Arnaud

AU - Da Silva, Corinne

AU - Denoeud, France

AU - Duplessis, Sébastien

AU - Ghignone, Stefano

AU - Hilselberger, Benot

AU - Iotti, Mirco

AU - Marçais, Benot

AU - Mello, Antonietta

AU - Miranda, Michele

AU - Pacioni, Giovanni

AU - Quesneville, Hadi

AU - Riccioni, Claudia

AU - Ruotolo, Roberta

AU - Splivallo, Richard

AU - Stocchi, Vilberto

AU - Tisserant, Emilie

AU - Viscomi, Arturo Roberto

AU - Zambonelli, Alessandra

AU - Zampieri, Elisa

AU - Henrissat, Bernard

AU - Lebrun, Marc Henri

AU - Paolocci, Francesco

AU - Bonfante, Paola

AU - Ottonello, Simone

AU - Wincker, Patrick

N1 - Funding Information: Acknowledgements We thank the late L. Riousset and C. Dupré for providing the Mel28 isolate, and acknowledge F. Le Tacon and J. Weissenbach for continuous support. The genome sequencing of T. melanosporum was funded by the Génoscope, Institut de Génomique, CEA, and Agence Nationale de la Recherche (ANR). Genome annotation and transcriptome analysis were supported by INRA, the European FP6 Network of Excellence EVOLTREE, Région Lorraine, the ANR FungEffector project, Fondazione Cariparma, Compagnia di San Paolo-Torino, the Italian Ministry of Education, University and Research (MIUR), Regione Umbria and Instituto Pasteur Fondazione Cenci Bolognetti. We thank D. Hibbett and J. Heitman for comments on an early draft of the manuscript, and J. Plett for a critical reading of the paper.

PY - 2010/4/15

Y1 - 2010/4/15

N2 - The Périgord black truffle (Tuber melanosporum Vittad.) and the Piedmont white truffle dominate todays truffle market. The hypogeous fruiting body of T. melanosporum is a gastronomic delicacy produced by an ectomycorrhizal symbiont endemic to calcareous soils in southern Europe. The worldwide demand for this truffle has fuelled intense efforts at cultivation. Identification of processes that condition and trigger fruit body and symbiosis formation, ultimately leading to efficient crop production, will be facilitated by a thorough analysis of truffle genomic traits. In the ectomycorrhizal Laccaria bicolor, the expansion of gene families may have acted as a symbiosis toolbox. This feature may however reflect evolution of this particular taxon and not a general trait shared by all ectomycorrhizal species. To get a better understanding of the biology and evolution of the ectomycorrhizal symbiosis, we report here the sequence of the haploid genome of T. melanosporum, which at 125 megabases is the largest and most complex fungal genome sequenced so far. This expansion results from a proliferation of transposable elements accounting for 58% of the genome. In contrast, this genome only contains 7,500 protein-coding genes with very rare multigene families. It lacks large sets of carbohydrate cleaving enzymes, but a few of them involved in degradation of plant cell walls are induced in symbiotic tissues. The latter feature and the upregulation of genes encoding for lipases and multicopper oxidases suggest that T. melanosporum degrades its host cell walls during colonization. Symbiosis induces an increased expression of carbohydrate and amino acid transporters in both L. bicolor and T. melanosporum, but the comparison of genomic traits in the two ectomycorrhizal fungi showed that genetic predispositions for symbiosisthe symbiosis toolboxevolved along different ways in ascomycetes and basidiomycetes.

AB - The Périgord black truffle (Tuber melanosporum Vittad.) and the Piedmont white truffle dominate todays truffle market. The hypogeous fruiting body of T. melanosporum is a gastronomic delicacy produced by an ectomycorrhizal symbiont endemic to calcareous soils in southern Europe. The worldwide demand for this truffle has fuelled intense efforts at cultivation. Identification of processes that condition and trigger fruit body and symbiosis formation, ultimately leading to efficient crop production, will be facilitated by a thorough analysis of truffle genomic traits. In the ectomycorrhizal Laccaria bicolor, the expansion of gene families may have acted as a symbiosis toolbox. This feature may however reflect evolution of this particular taxon and not a general trait shared by all ectomycorrhizal species. To get a better understanding of the biology and evolution of the ectomycorrhizal symbiosis, we report here the sequence of the haploid genome of T. melanosporum, which at 125 megabases is the largest and most complex fungal genome sequenced so far. This expansion results from a proliferation of transposable elements accounting for 58% of the genome. In contrast, this genome only contains 7,500 protein-coding genes with very rare multigene families. It lacks large sets of carbohydrate cleaving enzymes, but a few of them involved in degradation of plant cell walls are induced in symbiotic tissues. The latter feature and the upregulation of genes encoding for lipases and multicopper oxidases suggest that T. melanosporum degrades its host cell walls during colonization. Symbiosis induces an increased expression of carbohydrate and amino acid transporters in both L. bicolor and T. melanosporum, but the comparison of genomic traits in the two ectomycorrhizal fungi showed that genetic predispositions for symbiosisthe symbiosis toolboxevolved along different ways in ascomycetes and basidiomycetes.

UR - http://www.scopus.com/inward/record.url?scp=77951144839&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=77951144839&partnerID=8YFLogxK

U2 - 10.1038/nature08867

DO - 10.1038/nature08867

M3 - Article

C2 - 20348908

AN - SCOPUS:77951144839

SN - 0028-0836

VL - 464

SP - 1033

EP - 1038

JO - Nature

JF - Nature

IS - 7291

ER -

Périgord black truffle genome uncovers evolutionary origins and mechanisms of symbiosis

Abstract

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Cite this