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Genome evolution and transcriptome plasticity is associated with adaptation to monocot and dicot plants in <i>Colletotrichum</i> fungi

Riccardo Baroncelli, José F. Cobo‐Díaz, Tiziano Benocci, Mao Peng, Evy Battaglia, Sajeet Haridas, William Andreopoulos, Kurt LaButti, Jasmyn Pangilinan, Anna Lipzen, Maxim Koriabine, Diane Bauer, Gaëtan Le Floch, Miia Mäkelä, Élodie Drula, Bernard Henrissat, Igor V. Grigoriev, Jo Anne Crouch, Ronald P. de Vries, Serenella A. Sukno, Michael R. Thon

2024GigaScience17 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Colletotrichum fungi infect a wide diversity of monocot and dicot hosts, causing diseases on almost all economically important plants worldwide. Colletotrichum is also a suitable model for studying gene family evolution on a fine scale to uncover events in the genome associated with biological changes. RESULTS: Here we present the genome sequences of 30 Colletotrichum species covering the diversity within the genus. Evolutionary analyses revealed that the Colletotrichum ancestor diverged in the late Cretaceous in parallel with the diversification of flowering plants. We provide evidence of independent host jumps from dicots to monocots during the evolution of Colletotrichum, coinciding with a progressive shrinking of the plant cell wall degradative arsenal and expansions in lineage-specific gene families. Comparative transcriptomics of 4 species adapted to different hosts revealed similarity in gene content but high diversity in the modulation of their transcription profiles on different plant substrates. Combining genomics and transcriptomics, we identified a set of core genes such as specific transcription factors, putatively involved in plant cell wall degradation. CONCLUSIONS: These results indicate that the ancestral Colletotrichum were associated with dicot plants and certain branches progressively adapted to different monocot hosts, reshaping the gene content and its regulation.

Topics & Concepts

BiologyColletotrichumGenomeTranscriptomeGeneGene familyGenomicsAdaptation (eye)Lineage (genetic)BotanyComparative genomicsEvolutionary biologyGeneticsGene expressionNeurosciencePlant Pathogens and Fungal DiseasesFungal and yeast genetics researchPlant pathogens and resistance mechanisms
Genome evolution and transcriptome plasticity is associated with adaptation to monocot and dicot plants in <i>Colletotrichum</i> fungi | Litcius