叶精油：利用纳米技术从药用植物废弃物中制备一种有前景的环保型生物基农药。

Essential Oil from Leaves: Using Nanotechnology to Make a Promising Eco-Friendly Bio-Based Pesticide from Medicinal Plant Waste.

作者信息

Flexa-Ribeiro Bianca, Garcia Manoel D N, Silva Ana Carolina de J, Carvalho José Carlos T, Rocha Leandro, Faustino Silvia Maria M, Fernandes Caio P, da Silva Hellen F, Machado Francisco P, Hage-Melim Lorane Izabel da S, Souto Raimundo Nonato P, Botas Gisele da S, Cruz Rodrigo A S

机构信息

Programa de Pós-Graduação em Ciências Farmacêuticas, Campus Marco Zero, Federal University of Amapá, Macapá 68903-419, AP, Brazil.

Department of Biological and Health Sciences, Campus Marco Zero, Federal University of Amapá, Macapá 68903-419, AP, Brazil.

出版信息

Molecules. 2025 Feb 23;30(5):1023. doi: 10.3390/molecules30051023.

DOI:10.3390/molecules30051023

PMID:40076248

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11901698/

Abstract

Nano-emulsions of essential oils (EO) and their chemical constituents are promising raw materials for the ecological control of . L. is a plant known for the properties of its rhizome, which is used in food, health, and hygiene products. Although its leaves are considered by-products with no commercial value, they produce an essential oil rich in bioactive monoterpenoids. This study aims to evaluate the repellency of nano-emulsions containing the EO from leaves of or its three main chemical constituents against . The representative mixture of EO extracted in four different months showed -cymene (26.0%), 1,8-cineole (15.1%), and terpinolene (15.5%) as major compounds. Nano-emulsions of EO (HLB 16.7), terpinolene (HLB 15.0), 1,8-cineole (HLB15.0), and -cymene (HLB 15.0) were repellent at concentrations of 11 μg/cm (EO, terpinolene, and -cymene) and 1.1 μg/cm (1,8-cineole). The EO nano-emulsion droplet size increased linearly over time, remaining below 300 nm for 35 days. The EO nano-emulsion proved to be a green alternative to synthetic pesticides, as it was safe against the bioindicator . Furthermore, its main constituents were able to inhibit in silico the enzyme telomerase of , which is an enzyme essential for life. This study provides ideas for the utilization of EO from leaves of as raw material for new environmentally friendly plant-derived nanobiopesticides.

摘要

精油（EO）及其化学成分的纳米乳液是用于生态防治的有前景的原材料。L.是一种因其根茎特性而闻名的植物，其根茎用于食品、健康和卫生产品。尽管其叶子被认为是没有商业价值的副产品，但它们能产生富含生物活性单萜类化合物的精油。本研究旨在评估含有来自L.叶子的精油或其三种主要化学成分的纳米乳液对[具体对象未提及]的驱避性。在四个不同月份提取的精油代表性混合物显示，对伞花烃（26.0%）、1,8 - 桉叶素（15.1%）和萜品油烯（15.5%）为主要成分。精油（HLB 16.7）、萜品油烯（HLB 15.0）、1,8 - 桉叶素（HLB 15.0）和对伞花烃（HLB 15.0）的纳米乳液在浓度为11μg/cm²（精油、萜品油烯和对伞花烃）和1.1μg/cm²（1,8 - 桉叶素）时具有驱避性。精油纳米乳液的液滴尺寸随时间呈线性增加，在35天内保持在300nm以下。精油纳米乳液被证明是合成农药的绿色替代品，因为它对生物指示物[具体对象未提及]是安全的。此外，其主要成分能够在计算机模拟中抑制[具体对象未提及]的端粒酶，端粒酶是一种对生命至关重要的酶。本研究为利用L.叶子的精油作为新型环保植物源纳米生物农药的原材料提供了思路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7e54/11901698/c81ca8f0796b/molecules-30-01023-g001.jpg

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叶精油：利用纳米技术从药用植物废弃物中制备一种有前景的环保型生物基农药。

Essential Oil from Leaves: Using Nanotechnology to Make a Promising Eco-Friendly Bio-Based Pesticide from Medicinal Plant Waste.

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