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Tandem metalloenzymes gate plant cell entry by pathogenic fungi

Bastien Bissaro, Sayo Kodama, Takumi Nishiuchi, Anna M. Díaz-Rovira, Hayat Hage, David Ribeaucourt, Mireille Haon, Sacha Grisel, A. Jalila Simaan, Fred Beisson, Stephanie M. Forget, Harry Brumer, Marie‐Noëlle Rosso, Vı́ctor Guallar, Richard J. O’Connell, Mickaël Lafond, Yasuyuki Kubo, Jean‐Guy Berrin

2022Science Advances25 citationsDOIOpen Access PDF

Abstract

Global food security is endangered by fungal phytopathogens causing devastating crop production losses. Many of these pathogens use specialized appressoria cells to puncture plant cuticles. Here, we unveil a pair of alcohol oxidase–peroxidase enzymes to be essential for pathogenicity. Using Colletotrichum orbiculare , we show that the enzyme pair is cosecreted by the fungus early during plant penetration and that single and double mutants have impaired penetration ability. Molecular modeling, biochemical, and biophysical approaches revealed a fine-tuned interplay between these metalloenzymes, which oxidize plant cuticular long-chain alcohols into aldehydes. We show that the enzyme pair is involved in transcriptional regulation of genes necessary for host penetration. The identification of these infection-specific metalloenzymes opens new avenues on the role of wax-derived compounds and the design of oxidase-specific inhibitors for crop protection.

Topics & Concepts

AppressoriumBiologyAlcohol oxidaseFungusPeroxidaseOxidase testEnzymeAlternative oxidasePeroxisomeFlavin groupPenetration (warfare)BiochemistryMicrobiologyGeneComputational biologyBotanyPichia pastorisRecombinant DNAOperations researchEngineeringPlant-Microbe Interactions and ImmunityPlant Pathogens and Fungal DiseasesForest Insect Ecology and Management
Tandem metalloenzymes gate plant cell entry by pathogenic fungi | Litcius