Nanoencapsulation enhances the antimicrobial and antioxidant stability of cyclic lipopeptides for controlling Fusarium graminearum

IF 4.5 1区 农林科学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Yanjie Yi , Youtian Shan , Pengyu Luan , Zhongke Sun , Xingquan Wu , Zhiwen Ning , Zhengkun Chen , Yunxiang Zhang , Shuyun Zhao , Chengwei Li
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Abstract

Fusarium graminearum not only causes Fusarium head blight (FHB) on wheat but also produces fungal toxins that pose a serious threat to food safety. Biological control is one of the safe and most effective alternative methods. In this study, cyclic lipopeptides (CLPs) produced from Bacillus mojavensis B1302 were extracted and identified by LC-MS/MS. After preparing mesoporous silica nanoparticles-NH2 (MSNsN) and encapsulating CLPs, the characterization analysis showed that the interaction between CLPs and MSNsN enhanced the crystal structure of CLPs-MSNsN. The antimicrobial activity and antioxidant capacity of CLPs-MSNsN stored at 20 °C and 45 °C were decreased more slowly than those of free CLPs with increasing storage time, indicating the enhancement of the antimicrobial and antioxidant stability of CLPs. Moreover, the field control efficacy of long-term stored CLPs-MSNsN only decreased from 78.66% to 63.2%, but the efficacy of free CLPs decreased significantly from 84.34% to 26.01%. The deoxynivalenol (DON) content of wheat grains in the CLPs-MSNsN treatment group was lower than that in the free CLPs treatment group, which showed that long-term stored CLPs-MSNsN reduced the DON content in wheat grains. Further analysis of the action mechanism of CLPs-MSNsN on F. graminearum showed that CLPs-MSNsN could disrupt mycelial morphology, cause cell apoptosis, lead to the leakage of proteins and nucleic acids, and destroy the cell permeability of mycelia. This work puts a novel insight into the antimicrobial and antioxidant stability enhancement of CLPs-MSNsN through encapsulation and provides a potential fungicide to control F. graminearum, reduce toxins and ensure food safety.

Abstract Image

纳米封装增强了环脂肽在控制禾谷镰刀菌方面的抗菌和抗氧化稳定性
禾本科镰刀菌(Fusarium graminearum)不仅会引起小麦镰刀菌头枯病(FHB),还会产生真菌毒素,对食品安全构成严重威胁。生物防治是安全有效的替代方法之一。本研究提取了莫哈维氏芽孢杆菌 B1302 产生的环脂肽(CLPs),并通过 LC-MS/MS 进行了鉴定。制备介孔二氧化硅纳米颗粒-NH2(MSNsN)并包覆 CLPs 后,表征分析表明 CLPs 与 MSNsN 之间的相互作用增强了 CLPs-MSNsN 的晶体结构。随着储存时间的延长,CLPs-MSNsN 在 20 ℃ 和 45 ℃ 储存条件下的抗菌活性和抗氧化能力比游离的 CLPs 降低得更慢,这表明 CLPs 的抗菌和抗氧化稳定性得到了增强。此外,长期储存的 CLPs-MSNsN 的田间防治效果仅从 78.66% 下降到 63.2%,而游离 CLPs 的防治效果则从 84.34% 显著下降到 26.01%。CLPs-MSNsN处理组小麦籽粒中的脱氧雪腐镰刀菌烯醇(DON)含量低于游离CLPs处理组,这表明长期储存的CLPs-MSNsN降低了小麦籽粒中的DON含量。进一步分析 CLPs-MSNsN 对禾谷镰孢的作用机理发现,CLPs-MSNsN 能破坏菌丝形态,导致细胞凋亡,导致蛋白质和核酸泄漏,破坏菌丝体的细胞通透性。这项工作为通过封装提高 CLPs-MSNsN 的抗菌和抗氧化稳定性提供了新的视角,并为控制禾谷镰孢菌、减少毒素和确保食品安全提供了一种潜在的杀菌剂。
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来源期刊
Food microbiology
Food microbiology 工程技术-生物工程与应用微生物
CiteScore
11.30
自引率
3.80%
发文量
179
审稿时长
44 days
期刊介绍: Food Microbiology publishes original research articles, short communications, review papers, letters, news items and book reviews dealing with all aspects of the microbiology of foods. The editors aim to publish manuscripts of the highest quality which are both relevant and applicable to the broad field covered by the journal. Studies must be novel, have a clear connection to food microbiology, and be of general interest to the international community of food microbiologists. The editors make every effort to ensure rapid and fair reviews, resulting in timely publication of accepted manuscripts.
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