Transcriptomic and metabolomic analyses provide evidence on the biocontrol mechanism responsible for the inhibition of Botrytis cinerea and Alternaria alternata by Bacillus velezensis in kiwifruit

IF 7.4 Q1 FOOD SCIENCE & TECHNOLOGY Food frontiers Pub Date : 2024-08-20 DOI:10.1002/fft2.459
Shixian Zeng, Xiaojiao Li, Jinsong Leng, Michael Wisniewski, Mingrong Chen, Yong Wang, Jia Liu
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Abstract

Botrytis cinerea and Alternaria alternata are major pre- and postharvest plant pathogens of kiwifruit and responsible for significant economic losses. Although synthetic fungicides are the main source of controlling these pathogens, their use can lead to pathogen resistance, pollution of the environment, and their residues on agricultural produce can represent a health risk to humans. Bacillus velezensis is an ecofriendly bacterium with biocontrol potential. The objectives of the present study were to determine the efficacy of B. velezensis against B. cinerea and A. alternata, both of which are pre- and postharvest pathogens of kiwifruit, and investigate the mechanisms responsible for its biocontrol activity using transcriptomic and metabolomic methodology. Dual cultures of B. velezensis and either B. cinerea or A. alternata versus single cultures were used to conduct a transcriptomic and metabolomic analyses to provide insight into the mechanism by which B. velezensis inhibits B. cinerea and A. alternata. A total of 2499 and 3248 differentially expressed genes (DEGs) were identified in the B. velezensis/B. cinerea and B. velezensis/A. alternata comparisons, respectively. Genes related to sporulation, virulence, and hydrolase activity were downregulated in B. cinerea and A. alternata. Genes associated with MAPK signaling and the TCA cycle were also downregulated. Our study provides new insights into mechanism underlying the inhibition of B. cinerea and A. alternata by B. velezensis. Our results also demonstrate the potential of B. velezensis as a biocontrol agent against these two major pathogens of kiwifruit.

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转录组和代谢组分析为韦氏芽孢杆菌抑制猕猴桃灰霉病和交替孢霉的生物防治机制提供了证据
灰霉病菌(Botrytis cinerea)和交替花叶病毒(Alternaria alternata)是猕猴桃采前和采后的主要植物病原体,造成了巨大的经济损失。虽然合成杀菌剂是控制这些病原体的主要来源,但使用这些杀菌剂会导致病原体产生抗药性,污染环境,而且其在农产品上的残留物会对人类健康造成威胁。韦氏芽孢杆菌是一种具有生物防治潜力的生态友好型细菌。本研究的目的是确定 B. velezensis 对猕猴桃采前和采后病原体 B. cinerea 和 A. alternata 的功效,并利用转录组学和代谢组学方法研究其生物防治活性的机制。利用 B. velezensis 和 B. cinerea 或 A. alternata 的双重培养物与单一培养物进行转录组和代谢组分析,以深入了解 B. velezensis 抑制 B. cinerea 和 A. alternata 的机制。在 B. velezensis/B. cinerea 和 B. velezensis/A. alternata 的比较中,分别发现了 2499 和 3248 个差异表达基因(DEGs)。在 B. velezensis 和 A. alternata 中,与孢子、毒力和水解酶活性有关的基因下调。与 MAPK 信号转导和 TCA 循环相关的基因也出现了下调。我们的研究为 B. velezensis 抑制 B. cinerea 和 A. alternata 的机制提供了新的见解。我们的研究结果还证明了 B. velezensis 作为生物防治剂防治猕猴桃这两种主要病原体的潜力。
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