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2
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本文引用的文献

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Essential Oil from the Leaves, Fruits and Twigs of : Chemical Composition, Antioxidant and Antibacterial Potential.叶片、果实和嫩枝精油:化学成分、抗氧化和抗菌潜力。
Molecules. 2024 Jan 17;29(2):469. doi: 10.3390/molecules29020469.
2
Pink pepper ( Raddi) essential oil: phytochemical composition and cytotoxic activity.粉红胡椒(拉迪)精油:植物化学成分与细胞毒性活性
Nat Prod Res. 2025 Apr;39(7):1910-1916. doi: 10.1080/14786419.2023.2283756. Epub 2023 Nov 22.
3
Effect of ultrasonication on emulsion formulation, encapsulation efficiency, and oxidative stability of spray dried chia seed oil.超声处理对喷雾干燥奇亚籽油乳液配方、包封率及氧化稳定性的影响
J Food Sci Technol. 2023 Jun;60(6):1761-1771. doi: 10.1007/s13197-023-05716-0. Epub 2023 Mar 14.
4
Encapsulation of Cumin ( L.) Seed Essential Oil in the Chickpea Protein-Maltodextrin Matrix.小茴香(L.)籽精油在鹰嘴豆蛋白-麦芽糊精基质中的包封。
ACS Omega. 2023 Jan 18;8(4):4156-4164. doi: 10.1021/acsomega.2c07184. eCollection 2023 Jan 31.
5
The Effects of Pectin Structure on Emulsifying, Rheological, and Digestion Properties of Emulsion.果胶结构对乳液的乳化、流变学及消化特性的影响
Foods. 2022 Oct 30;11(21):3444. doi: 10.3390/foods11213444.
6
Lemon essential oil/vermiculite encapsulated in electrospun konjac glucomannan-grafted-poly (acrylic acid)/polyvinyl alcohol bacteriostatic pad: Sustained control release and its application in food preservation.静电纺丝魔芋葡甘聚糖接枝聚丙烯酸/聚乙烯醇载柠檬精油/蛭石抗菌垫的制备及其在食品保鲜中的应用:持续控制释放。
Food Chem. 2021 Jun 30;348:129021. doi: 10.1016/j.foodchem.2021.129021. Epub 2021 Jan 8.
7
Nanoencapsulation of essential oils and their bioactive constituents: A novel strategy to control mycotoxin contamination in food system.精油及其生物活性成分的纳米封装:控制食品体系中霉菌毒素污染的新策略。
Food Chem Toxicol. 2021 Mar;149:112019. doi: 10.1016/j.fct.2021.112019. Epub 2021 Jan 27.
8
Thermal Degradation of Linalool-Chemotype Leaf Essential Oil and Its Stabilization by Microencapsulation with β-Cyclodextrin.芳樟醇型叶用精油的热降解及其用β-环糊精微胶囊化的稳定化作用。
Molecules. 2021 Jan 14;26(2):409. doi: 10.3390/molecules26020409.
9
Protein-Based Delivery Systems for the Nanoencapsulation of Food Ingredients.用于食品成分纳米包封的蛋白质基递送系统。
Compr Rev Food Sci Food Saf. 2018 Jul;17(4):920-936. doi: 10.1111/1541-4337.12360. Epub 2018 May 22.
10
Modulation of volatile release and antimicrobial properties of pink pepper essential oil by microencapsulation in single- and double-layer structured matrices.微胶囊化在单层和双层结构基质中对粉红胡椒精油挥发性释放和抗菌性能的调节。
Int J Food Microbiol. 2020 Dec 16;335:108890. doi: 10.1016/j.ijfoodmicro.2020.108890. Epub 2020 Sep 14.

鹰嘴豆蛋白/果胶复合物微胶囊化粉红胡椒精油的长期储存:挥发性释放、抗氧化和抗菌活性

Long-term storage of pink pepper essential oil microencapsulated by chickpea protein/pectin complexes: volatile release, antioxidant and antimicrobial activities.

作者信息

Moser Poliana, Lopes Nathalie Almeida, Locali-Pereira Adilson Roberto, Nicoletti Vânia Regina

机构信息

Department of Food Engineering and Technology, Institute of Biosciences, Humanities and Exact Sciences (Ibilce), São Paulo State University (Unesp), Campus São José do Rio Preto, Cristóvão Colombo 2265, São José do Rio Preto, 15054-000 Brazil.

出版信息

J Food Sci Technol. 2024 Dec;61(12):2411-2421. doi: 10.1007/s13197-024-06007-y. Epub 2024 May 27.

DOI:10.1007/s13197-024-06007-y
PMID:39431182
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11486883/
Abstract

Pink pepper essential oil was microencapsulated with chickpea protein (CP) and chickpea protein/pectin (CP-HMP) by spray drying. The reconstitution and storage properties of the powders were evaluated after drying. The impact of microencapsulation in the volatiles release, antioxidant and antimicrobial activity of oil was evaluated during 135 days of storage. CP resulted in more soluble powders (93.52%), CP/HMP resulted in denser powders (0.39 g/mL) while wall material did not influence the wettability. Free pink pepper essential oil (FEO) showed a slight loss of the predominant terpenes (α-pinene, β-pinene, β-mircene, δ-3-carene and D-limonene) after encapsulation. In general, all samples showed an increase in the volatiles release during storage. The evaluation of mass loss showed that FEO had a high release of volatiles, followed by CP and CP-HMP. The antioxidant activity of the FEO decreased (10.8 μg Trolox/mg of oil) after 135 days of storage, whereas the antioxidant activity of CP (14.9) and CP-HMP (14) increased. Both microcapsules presented antimicrobial activity against and during storage. CP microcapsules had a strong inhibitory effect against the strains tested, and this advantage was even more evident in long-term storage.

摘要

采用喷雾干燥法,用鹰嘴豆蛋白(CP)和鹰嘴豆蛋白/果胶(CP-HMP)对粉红胡椒精油进行微胶囊化处理。干燥后对粉末的复溶和储存特性进行了评估。在储存135天期间,评估了微胶囊化对精油挥发性成分释放、抗氧化和抗菌活性的影响。CP制成的粉末溶解性更高(93.52%),CP/HMP制成的粉末密度更大(0.39 g/mL),而壁材不影响润湿性。游离粉红胡椒精油(FEO)在微胶囊化后,主要萜类化合物(α-蒎烯、β-蒎烯、β-月桂烯、δ-3-蒈烯和D-柠檬烯)略有损失。总体而言,所有样品在储存期间挥发性成分的释放均有所增加。质量损失评估表明,FEO的挥发性成分释放量高,其次是CP和CP-HMP。储存135天后,FEO的抗氧化活性降低(10.8 μg Trolox/mg油),而CP(14.9)和CP-HMP(14)的抗氧化活性增加。两种微胶囊在储存期间均对[具体菌种1]和[具体菌种2]具有抗菌活性。CP微胶囊对测试菌株具有很强的抑制作用,且这种优势在长期储存中更为明显。