The mechanistic insights of essential oil of Mentha piperita to control Botrytis cinerea and the prospection of lipid nanoparticles to its application

IF 6.1 1区 生物学 Q1 MICROBIOLOGY
Juan Mauricio Fuentes , Ignacio Jofré , Gonzalo Tortella , Adalberto Benavides-Mendoza , María Cristina Diez , Olga Rubilar , Paola Fincheira
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Abstract

Botrytis cinerea is the phytopathogenic fungus responsible for the gray mold disease that affects crops worldwide. Essential oils (EOs) have emerged as a sustainable tool to reduce the adverse impact of synthetic fungicides. Nevertheless, the scarce information about the physiological mechanism action and the limitations to applying EOs has restricted its use. This study focused on elucidating the physiological action mechanisms and prospection of lipid nanoparticles to apply EO of Mentha piperita. The results showed that the EO of M. piperita at 500, 700, and 900 μL L−1 inhibited the mycelial growth at 100 %. The inhibition of spore germination of B. cinerea reached 31.43 % at 900 μL L−1. The EO of M. piperita decreased the dry weight and increased pH, electrical conductivity, and cellular material absorbing OD260 nm of cultures of B. cinerea. The fluorescence technique revealed that EO reduced hyphae width, mitochondrial activity, and viability, and increased ROS production. The formulation of EO of M. piperita loaded- solid lipid nanoparticles (SLN) at 500, 700, and 900 μL L−1 had particle size ∼ 200 nm, polydispersity index < 0.2, and stability. Also, the thermogravimetric analysis indicated that the EO of M. piperita-loaded SLN has great thermal stability at 50 °C. EO of M. piperita-loaded SLN reduced the mycelial growth of B. cinerea by 70 %, while SLN formulation (without EO) reached 42 % inhibition. These results supported that EO of M. piperita-loaded SLN is a sustainable tool for reducing the disease produced by B. cinerea.

薄荷精油控制灰葡萄孢菌的机理认识及其脂质纳米颗粒的应用前景
是一种植物病原真菌,是影响全球农作物的灰霉病的罪魁祸首。精油(EOs)已成为减少合成杀菌剂不良影响的一种可持续工具。然而,有关其生理机制作用的信息很少,而且精油的应用也受到限制。本研究的重点是阐明环氧乙烷的生理作用机理,并对应用环氧乙烷的脂质纳米颗粒进行研究。 结果表明,500、700 和 900μLL 的环氧乙烷对菌丝生长的抑制率均为 100%。在 900μLL 时,对孢子萌发的抑制率达到 31.43%。荧光技术表明,环氧乙烷降低了菌丝宽度、线粒体活性和活力,并增加了 ROS 的产生。负载型环氧乙烷固体脂质纳米颗粒(SLN)的粒度为 500、700 和 900μLL,粒径约为 200nm,多分散指数小于 0.2,稳定性好。此外,热重分析表明,负载 SLN 的环氧乙烷在 50 °C 下具有很高的热稳定性。负载型 SLN 的环氧乙烷可使菌丝生长减少 70%,而 SLN 配方(不含环氧乙烷)的抑制率仅为 42%。这些结果表明,载脂 SLN 的环氧乙烷是一种可持续的工具,可用于减少由......引起的疾病。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Microbiological research
Microbiological research 生物-微生物学
CiteScore
10.90
自引率
6.00%
发文量
249
审稿时长
29 days
期刊介绍: Microbiological Research is devoted to publishing reports on prokaryotic and eukaryotic microorganisms such as yeasts, fungi, bacteria, archaea, and protozoa. Research on interactions between pathogenic microorganisms and their environment or hosts are also covered.
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