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Abstract
Mycorrhizas are known to have a positive impact on plant growth and ability to resist major biotic and abiotic stresses. However, the metabolic alterations underlying mycorrhizal symbiosis are still understudied. By using metabolomics and transcriptomics approaches, cork oak roots colonized by the ectomycorrhizal fungus Pisolithus tinctorius were compared with non-colonized roots. Results show that compounds putatively corresponding to carbohydrates, organic acids, tannins, long-chain fatty acids and monoacylglycerols, were depleted in ectomycorrhizal cork oak colonized roots. Conversely, non-proteogenic amino acids, such as gamma-aminobutyric acid (GABA), and several putative defense-related compounds, including oxylipin-family compounds, terpenoids and B6 vitamers were induced in mycorrhizal roots. Transcriptomic analysis suggests the involvement of GABA in ectomycorrhizal symbiosis through increased synthesis and inhibition of degradation in mycorrhizal roots. Results from this global metabolomics analysis suggest decreases in root metabolites which are common components of exudates, and in compounds related to root external protective layers which could facilitate plant-fungal contact and enhance symbiosis. Root metabolic pathways involved in defense against stress were induced in ectomycorrhizal roots that could be involved in a plant mechanism to avoid uncontrolled growth of the fungal symbiont in the root apoplast. Several of the identified symbiosis-specific metabolites, such as GABA, may help to understand how ectomycorrhizal fungi such as P. tinctorius benefit their host plants.
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1 Universidade de Lisboa, Plant Functional Genomics Group, BioISI – Instituto de Biosistemas e Ciências Integrativas, Faculdade de Ciências, Lisbon, Portugal (GRID:grid.9983.b) (ISNI:0000 0001 2181 4263)
2 Global Change Research Institute of the Czech Academy of Sciences, Brno, Czech Republic (GRID:grid.9983.b)
3 CREAF, Cerdanyola del Vallès, Spain (GRID:grid.452388.0) (ISNI:0000 0001 0722 403X); CSIC, Global Ecology Unit CREAF-CSIC-UAB, Bellaterra, Spain (GRID:grid.4711.3) (ISNI:0000 0001 2183 4846)
4 Universitat Autònoma de Barcelona, Servei de Ressonàcia Magnètica Nuclear, Cerdanyola del Vallès, Spain (GRID:grid.7080.f)
5 Universidade de Lisboa, Centre for Ecology, Evolution and Environmental Changes (CE3C), Faculdade de Ciências, Lisbon, Portugal (GRID:grid.9983.b) (ISNI:0000 0001 2181 4263); Universidade de Lisboa, Linking Landscape, Environment, Agriculture and Food (LEAF), Instituto Superior de Agronomia (ISA), Lisbon, Portugal (GRID:grid.9983.b) (ISNI:0000 0001 2181 4263)
6 Universidade de Lisboa, Plant Functional Genomics Group, BioISI – Instituto de Biosistemas e Ciências Integrativas, Faculdade de Ciências, Lisbon, Portugal (GRID:grid.9983.b) (ISNI:0000 0001 2181 4263); Universidade de Lisboa, Laboratório de FTICR e Espectrometria de Massa Estrutural, Departamento de Química e Bioquímica, Faculdade de Ciências, Lisbon, Portugal (GRID:grid.9983.b) (ISNI:0000 0001 2181 4263)
7 Universidade de Lisboa, Laboratório de FTICR e Espectrometria de Massa Estrutural, Departamento de Química e Bioquímica, Faculdade de Ciências, Lisbon, Portugal (GRID:grid.9983.b) (ISNI:0000 0001 2181 4263)
8 Universidade de Lisboa, CEAUL - Centro de Estatística e Aplicações, Faculdade de Ciências, Lisbon, Portugal (GRID:grid.9983.b) (ISNI:0000 0001 2181 4263)
9 CREAF, Cerdanyola del Vallès, Spain (GRID:grid.452388.0) (ISNI:0000 0001 0722 403X); CSIC, Global Ecology Unit CREAF-CSIC-UAB, Bellaterra, Spain (GRID:grid.4711.3) (ISNI:0000 0001 2183 4846); Spanish National Research Council, Madrid, Spain (GRID:grid.4711.3) (ISNI:0000 0001 2183 4846)