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Appl Microbiol Biotechnol


Title:Transcriptomics analyses and biochemical characterization of Aspergillus flavus spores exposed to 1-nonanol
Author(s):Qin YL; Zhang SB; Lv YY; Zhai HC; Hu YS; Cai JP;
Address:"School of Biological Engineering, Henan University of Technology, 100 Lianhua Street, Zhengzhou, 450001, People's Republic of China. Henan Provincial Key Laboratory of Biological Processing and Nutritional Function of Wheat, Zhengzhou, 450001, People's Republic of China. School of Biological Engineering, Henan University of Technology, 100 Lianhua Street, Zhengzhou, 450001, People's Republic of China. shbzhang@163.com. Henan Provincial Key Laboratory of Biological Processing and Nutritional Function of Wheat, Zhengzhou, 450001, People's Republic of China. shbzhang@163.com. School of Biological Engineering, Henan University of Technology, 100 Lianhua Street, Zhengzhou, 450001, People's Republic of China. hys308@126.com. Henan Provincial Key Laboratory of Biological Processing and Nutritional Function of Wheat, Zhengzhou, 450001, People's Republic of China. hys308@126.com"
Journal Title:Appl Microbiol Biotechnol
Year:2022
Volume:20220218
Issue:5-Jun
Page Number:2091 - 2106
DOI: 10.1007/s00253-022-11830-4
ISSN/ISBN:1432-0614 (Electronic) 0175-7598 (Linking)
Abstract:"The exploitation of plant volatile organic compounds as biofumigants to control postharvest decaying of agro-products has received considerable research attention. Our previous study reported that 1-nonanol, the main constituent of cereal volatiles, can inhibit Aspergillus flavus growth and has the potential as a biofumigant to control the fungal spoilage of cereal grains. However, the antifungal mechanism of 1-nonanol against A. flavus is still unclear at the molecular level. In this study, the minimum inhibitory concentration and minimum fungicidal concentration of 1-nonanol against A. flavus spores were 2 and 4 muL/mL, respectively. Scanning electron microscopy revealed that the 1-nonanol can distort the morphology of A. flavus spore. Annexin V-FITC/PI double staining showed that 1-nonanol induced phosphatidylserine eversion and increased membrane permeability of A. flavus spores. Transcriptional profile analysis showed that 1-nonanol treatment mainly affected the expression of genes related to membrane damage, oxidative phosphorylation, blockage of DNA replication, and autophagy in A. flavus spores. Flow cytometry analysis showed that 1-nonanol treatment caused hyperpolarization of mitochondrial membrane potential and accumulation of reactive oxygen species in A. flavus spores. 4',6-diamidino-2-phenylindole staining showed that treatment with 1-nonanol destroyed the DNA. Biochemical analysis results confirmed that 1-nonanol exerted destructive effects on A. flavus spores by decreasing intracellular adenosine triphosphate content, reducing mitochondrial ATPase activity, accumulating hydrogen peroxide and superoxide anions, and increasing catalase and superoxide dismutase enzyme activities. This study provides new insights into the antifungal mechanisms of 1-nonanol against A. flavus. KEY POINTS: * 1-Nonanol treatment resulted in abnormal morphology of A. flavus spores. * 1-Nonanol affects the expression of key growth-related genes of A. flavus. * The apoptosis of A. favus spores were induced after exposed to 1-nonanol"
Keywords:"Antifungal Agents/metabolism/pharmacology *Aspergillus flavus/metabolism Fatty Alcohols/metabolism Spores, Fungal *Transcriptome 1-Nonanol Antifungal mechanism Aspergillus flavus Transcriptomics analyses;"
Notes:"MedlineQin, Yu-Liang Zhang, Shuai-Bing Lv, Yang-Yong Zhai, Huan-Chen Hu, Yuan-Sen Cai, Jing-Ping eng 2019YFC1605303-04/National Key Research and Development Plan of China/ Germany 2022/02/19 Appl Microbiol Biotechnol. 2022 Mar; 106(5-6):2091-2106. doi: 10.1007/s00253-022-11830-4. Epub 2022 Feb 18"

 
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