Accéder directement au contenu Accéder directement à la navigation
Article dans une revue

Périgord black truffle genome uncovers evolutionary origins and mechanisms of symbiosis

Francis Martin 1, * Annegret Kohler 1 Claude Murat 1 Raffaella Balestrini 2 Pedro M. Coutinho 3 Olivier Jaillon 4 Barbara Montanini 5 Emmanuelle Morin 1, 6 Benjamin Noel 4 Riccardo Percudani 5 Betina Porcel 4 Andrea Rubini 7 Antonella Amicucci 8 Joelle Amselem 9 Véronique Anthouard 4, 10 Sergio Arcioni 7 François Artiguenave 4, 10 Jean-Marc Aury 4, 10 Paola Ballario 11 Angelo Bolchi 5 Andrea Brenna 12 Annick Brun 1 Marc Buée 1 Brandi Cantarel 3 Gérard Chevalier 13 Arnaud Couloux 4 Corinne da Silva 4, 10 France Denoeud 4, 10 Sébastien Duplessis 1 Stefano Ghignone 2 Benoît Hilselberger 1 Mirco Iotti 14 Benoit Marçais 1 Antonietta Mello 15 Michele Miranda 16 Giovanni Pacioni 17 Hadi Quesneville 18 Claudia Riccioni 19 Roberta Ruotolo 5 Richard Splivallo 20 Vilberto Stocchi 8 Emilie Tisserant 1 Arturo Roberto Viscomi 5 Alessandra Zambonelli 14 Elisa Zampieri 21 Bernard Henrissat 22 Marc-Henri Lebrun 23 Francesco Paolocci 24 Paola Bonfante 21 Simone Ottonello 5 Patrick Wincker 4
Abstract : The Périgord black truffle ($Tuber\ melanosporum$ Vittad.) and the Piedmont white truffle dominate today's 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 $\sim$125 megabases is the largest and most complex fungal genome sequenced so far. This expansion results from a proliferation of transposable elements accounting for $\sim$58% of the genome. In contrast, this genome only contains $\sim$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 symbiosis $-$'the symbiosis toolbox'$-$ evolved along different ways in ascomycetes and basidiomycetes
Type de document :
Article dans une revue
Liste complète des métadonnées

Littérature citée [28 références]  Voir  Masquer  Télécharger

https://hal-cea.archives-ouvertes.fr/cea-00907731
Déposant : Bruno Savelli <>
Soumis le : jeudi 17 octobre 2019 - 11:17:13
Dernière modification le : mercredi 29 juillet 2020 - 09:56:08
Archivage à long terme le : : samedi 18 janvier 2020 - 13:32:33

Fichier

mar.pdf
Publication financée par une institution

Identifiants

Citation

Francis Martin, Annegret Kohler, Claude Murat, Raffaella Balestrini, Pedro M. Coutinho, et al.. Périgord black truffle genome uncovers evolutionary origins and mechanisms of symbiosis. Nature, Nature Publishing Group, 2010, 464 (7291), pp.1033-1038. ⟨10.1038/nature08867⟩. ⟨cea-00907731⟩

Partager

Métriques

Consultations de la notice

1478

Téléchargements de fichiers

433