Curcumin and carvacrol co-loaded zein nanoparticles: Comprehensive preparation and assessment of biological activities in pest control

Plant Nano Biology Pub Date : 2024-04-08 DOI:10.1016/j.plana.2024.100067

Patricia Luiza de Freitas Proença , Estefânia Vangelie Ramos Campos , Tais Germano Costa , Renata de Lima , Ana Cristina Preisler , Halley Caixeta de Oliveira , Claudiane Martins da Rocha , Daniel Junior de Andrade , Kelly Cristina Goncalves , Ricardo Antonio Polanczyk , Leonardo Fernandes Fraceto

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Abstract

To address the escalating global demand for food production, it is imperative to minimize agricultural losses caused by pests, accounting for up to 40 % of the substantial worldwide losses of 70 billion USD. While conventional pesticides raise environmental concerns, environmentally friendly alternatives like curcumin and carvacrol face low biological activity due to their low solubility and premature degradation in environmental conditions, that is, degradation can occur due to solar radiation, high temperature, etc., before the active ingredients can exert its full potential. This study introduces zein-based nanocarriers encapsulating curcumin and carvacrol, exhibiting favorable characteristics. Cytotoxicity tests indicate approximately 60% viability for fibroblast cell lines compared to 20% for keratinocyte cell lines. The nanoencapsulated compounds exhibit promising biological activity against soybean pests, mites, and caterpillars, without causing phytotoxicity. Tetranychus urticae mortality rates reach 77.1 ± 11.5 %, and nanoencapsulated ingredients demonstrate higher repellency (61.1 ± 8.8%) than emulsified ones (51.1 ± 5.4 %). Nanoencapsulated ingredients exhibit significantly higher mortality rates for Spodoptera cosmioides and Spodoptera eridania, underscoring the potential of nanoencapsulation in bolstering bioactivity against specific pests and promoting sustainable agricultural practices.

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姜黄素和香芹酚共负载玉米蛋白纳米颗粒：虫害防治生物活性的综合制备与评估

在全球 700 亿美元的巨大损失中，害虫造成的损失高达 40%，为了满足全球日益增长的粮食生产需求，必须最大限度地减少害虫造成的农业损失。传统杀虫剂会引发环境问题，而姜黄素和香芹酚等环保型替代品由于溶解度低，生物活性低，在环境条件下会过早降解，即在活性成分充分发挥潜力之前，会因太阳辐射、高温等原因发生降解。本研究介绍了包裹姜黄素和香芹酚的玉米蛋白基纳米载体，它具有良好的特性。细胞毒性测试表明，成纤维细胞株的存活率约为 60%，而角质细胞株的存活率仅为 20%。纳米封装化合物对大豆害虫、螨虫和毛虫具有良好的生物活性，且不会造成植物毒性。荨麻四螨（Tetranychus urticae）的死亡率达到 77.1 ± 11.5%，纳米胶囊成分的驱避率（61.1 ± 8.8%）高于乳化成分（51.1 ± 5.4%）。纳米胶囊成分对宇宙鞘翅目和麦角鞘翅目害虫的死亡率明显较高，这突出表明了纳米胶囊化在增强对特定害虫的生物活性和促进可持续农业实践方面的潜力。

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来源期刊

Plant Nano Biology

CiteScore

2.80

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0.00%

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