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ROS Stress and Cell Membrane Disruption are the Main Antifungal Mechanisms of 2-Phenylethanol against <i>Botrytis cinerea</i>

Xiurong Zou, Yingying Wei, Shu Jiang, Feng Xu, Hongfei Wang, Pingping Zhan, Xingfeng Shao

2022Journal of Agricultural and Food Chemistry132 citationsDOI

Abstract

2-Phenylethanol (2-PE), a common compound found in plants and microorganisms, exhibits broad-spectrum antifungal activity. Using Botrytis cinerea, we demonstrated that 2-PE suppressed mycelium growth in vitro and in strawberry fruit and reduced natural disease without adverse effects to fruit quality. 2-PE caused structural damage to mycelia, as shown by scanning and transmission electron microscopy. From RNA sequencing analysis we found significantly upregulated genes for enzymatic and nonenzymatic reactive oxygen species (ROS) scavenging systems including sulfur metabolism and glutathione metabolism, indicating that ROS stress was induced by 2-PE. This was consistent with results from assays demonstrating an increase ROS and hydrogen peroxide levels, antioxidant enzyme activities, and malondialdehyde content in treated cells. The upregulation of ATP-binding cassette transporter genes, the downregulation of major facilitator superfamily transporters genes, and the downregulation of ergosterol biosynthesis genes indicated a severe disruption of cell membrane structure and function. This was consistent with results from assays demonstrating compromised membrane integrity and lipid peroxidation. To summarize, 2-PE exposure suppressed B. cinerea growth through ROS stress and cell membrane disruption.

Topics & Concepts

Botrytis cinereaDownregulation and upregulationReactive oxygen speciesLipid peroxidationOxidative stressBiochemistryAntioxidantMalondialdehydeBiologyChemistryCell biologyGeneBotanyEssential Oils and Antimicrobial ActivityPlant Pathogens and Fungal DiseasesPostharvest Quality and Shelf Life Management
ROS Stress and Cell Membrane Disruption are the Main Antifungal Mechanisms of 2-Phenylethanol against <i>Botrytis cinerea</i> | Litcius