Litcius/Paper detail

Transcriptional Landscape of Ectomycorrhizal Fungi and Their Host Provides Insight into N Uptake from Forest Soil

Carmen Alicia Rivera Pérez, Dennis Janz, Dominik Schneider, Rolf Daniel, Andrea Polle

2022mSystems21 citationsDOIOpen Access PDF

Abstract

Although EMF are well known for their role in supporting tree N nutrition, the molecular mechanisms underlying N flux from the soil solution into the host through the ectomycorrhizal pathway remain widely unknown. Furthermore, ammonium and nitrate availability in the soil solution is subject to frequent oscillations that create a dynamic environment for the tree roots and associated microbes during N acquisition. Therefore, it is important to understand how root-associated mycobiomes and the tree roots handle these fluctuations. We studied the responses of the symbiotic partners by screening their transcriptomes after a sudden environmental flux of nitrate or ammonium. We show that the fungi and the host respond asynchronously, with the fungi displaying resistance to increased nitrate or ammonium and the host dynamically metabolizing the supplied N sources. This study provides insights into the molecular mechanisms of the symbiotic partners operating under N enrichment in a multidimensional symbiotic system.

Topics & Concepts

BiologyTranscriptomeSymbiosisGlutamine synthetaseEctomycorrhizaBotanyGlomeromycotaHost (biology)Internal transcribed spacerGeneNitrogen cycleMicrobiomeEcosystemSoil microbiologyFungusMetabolic pathwayForest ecologyPopulus trichocarpaMicroorganismRelative species abundanceColonizationBeechMyceliumAscomycotaBasidiomycotaEctosymbiosisPhylogeneticsGenomeAmmoniumMicrobial ecologyMycorrhizaAbundance (ecology)Arbuscular mycorrhizaEcologyFungal proteinArabidopsisMycorrhizal Fungi and Plant InteractionsPlant nutrient uptake and metabolismLegume Nitrogen Fixing Symbiosis
Transcriptional Landscape of Ectomycorrhizal Fungi and Their Host Provides Insight into N Uptake from Forest Soil | Litcius