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Comparative phylotranscriptomics reveals ancestral and derived root nodule symbiosis programmes

Cyril Libourel, Jean Keller, Lukas Brichet, Anne‐Claire Cazalé, Sébastien Carrère, Tatiana Vernié, Jean‐Malo Couzigou, Caroline Callot, Isabelle Dufau, Stéphane Cauet, William Marande, Tabatha Bulach, Amandine Suin, Catherine Masson‐Boivin, Philippe Remigi, Pierre‐Marc Delaux, Delphine Capela

2023Nature Plants66 citationsDOIOpen Access PDF

Abstract

Symbiotic interactions such as the nitrogen-fixing root nodule symbiosis (RNS) have structured ecosystems during the evolution of life. Here we aimed at reconstructing ancestral and intermediate steps that shaped RNS observed in extant flowering plants. We compared the symbiotic transcriptomic responses of nine host plants, including the mimosoid legume Mimosa pudica for which we assembled a chromosome-level genome. We reconstructed the ancestral RNS transcriptome composed of most known symbiotic genes together with hundreds of novel candidates. Cross-referencing with transcriptomic data in response to experimentally evolved bacterial strains with gradual symbiotic proficiencies, we found the response to bacterial signals, nodule infection, nodule organogenesis and nitrogen fixation to be ancestral. By contrast, the release of symbiosomes was associated with recently evolved genes encoding small proteins in each lineage. We demonstrate that the symbiotic response was mostly in place in the most recent common ancestor of the RNS-forming species more than 90 million years ago.

Topics & Concepts

BiologySymbiosisTranscriptomeRoot noduleNitrogen fixationGenomeEvolutionary biologyExtant taxonNodule (geology)GeneLineage (genetic)BotanyGeneticsBacteriaPaleontologyGene expressionLegume Nitrogen Fixing SymbiosisNematode management and characterization studiesPlant nutrient uptake and metabolism
Comparative phylotranscriptomics reveals ancestral and derived root nodule symbiosis programmes | Litcius