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The dynamic changes in olive fruit phenolic metabolism and its contribution to the activation of quiescent Colletotrichum infection

Hristofor Miho, A. Expósito-Díaz, Maria Isabel Marquez-Perez, Carlos A. Ledesma‐Escobar, Concepción M. Díez, Dov Prusky, Feliciano Priego‐Capote, Juan Moral

2024Food Chemistry17 citationsDOIOpen Access PDF

Abstract

Anthracnose, the most critical disease affecting olive fruits, is caused by Colletotrichum species. While developing olive fruits are immune to the pathogen regardless of the cultivar, the resistance level varies once the fruit ripens. The defense mechanisms responsible for this difference in resistance are not well understood. To explore this, we analyzed the phenolic metabolic pathways occurring in olive fruits and their susceptibility to the pathogen during ripening in two resistant cultivars ('Empeltre' and 'Frantoio') and two susceptible cultivars ('Hojiblanca' and 'Picudo'). Overall, resistant cultivars induced the synthesis of aldehydic and demethylated forms of phenols, which highly inhibited fungal spore germination. In contrast, susceptible cultivars promoted the synthesis of hydroxytyrosol 4-O-glucoside during ripening, a compound with no antifungal effect. This study showed that the distinct phenolic profiles between resistant and susceptible cultivars play a key role in determining olive fruit resistance to Colletotrichum species.

Topics & Concepts

CultivarRipeningHydroxytyrosolBiologyPhenolsSpore germinationColletotrichumPathogenAntifungalHorticulturePlant disease resistanceBotanyFungi imperfectiSporeMicrobiologyPolyphenolBiochemistryGeneAntioxidantPlant Pathogens and Fungal DiseasesPostharvest Quality and Shelf Life ManagementEdible Oils Quality and Analysis
The dynamic changes in olive fruit phenolic metabolism and its contribution to the activation of quiescent Colletotrichum infection | Litcius