3-Octanol controls gray mold on postharvest fruit by inducing autophagy of Botrytis cinerea

Gray mold caused by Botrytis cinerea is a devastating postharvest disease, resulting in severe fruit decay and enormous economic loss. Volatile secondary metabolites produced by plants or microorganisms are potential resources for developing fungicide alternatives. Here, we explored the antifungal a...

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Bibliographic Details
Published in:Postharvest biology and technology 2023-11, Vol.205, p.112525, Article 112525
Main Authors: Zhang, Xiaokang, Li, Guangjin, Zhang, Zhanquan, Tian, Shiping
Format: Article
Language:English
Subjects:
3-Octanol
Antifugal activity
Autophagy
Botrytis cinerea
Postharvest fruit
Volatile metabolites
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Summary:Gray mold caused by Botrytis cinerea is a devastating postharvest disease, resulting in severe fruit decay and enormous economic loss. Volatile secondary metabolites produced by plants or microorganisms are potential resources for developing fungicide alternatives. Here, we explored the antifungal activity of 3-octanol, a safe fungal volatile secondary metabolite, against B. cinerea. 3-Octanol exhibited a dose-dependent inhibitory effect on the development of B. cinerea both in vitro and in vivo. 3-Octanol treatment reduced the cell viability and suppressed the conidial germination of B. cinerea. Moreover, the transmission electron microscope analysis suggested that 3-octanol induces autophagy and autolysosome formation of B. cinerea. Further quantitative real-time PCR analysis indicated that 3-octanol induces the expression of autophagy-related genes and inhibits the expression of germination-related genes. These results suggest that 3-octanol controls gray mold by inducing autophagy, reducing cell viability, and suppressing the conidial germination of B. cinerea. Our findings suggest the potential role of 3-octanol in managing gray mold on postharvest fruit and provide a theoretical basis for the antifungal activity of 3-octanol against B. cinerea. •3-Octanol could effectively control Botrytis cinerea in vitro and in vivo.•3-Octanol treatment reduced the viability of Botrytis cinerea cells.•3-Octanol treatment inhibited germination of Botrytis cinerea.•3-Octanol treatment induced autophagy in Botrytis cinerea.
ISSN:0925-5214
1873-2356
DOI:10.1016/j.postharvbio.2023.112525