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Characterization of coacervation behavior between whey protein isolate and propylene glycol alginate: A morphology, spectroscopy, and thermodynamics study.乳清分离蛋白与海藻酸丙二醇酯之间的凝聚行为表征:形态学、光谱学及热力学研究
Food Chem X. 2022 Jul 26;15:100402. doi: 10.1016/j.fochx.2022.100402. eCollection 2022 Oct 30.
2
In vitro digestion of sodium alginate/pectin co-encapsulated Lactobacillus bulgaricus and its application in yogurt bilayer beads.体外消化海藻酸钠/果胶共包埋保加利亚乳杆菌及其在酸奶双层珠中的应用。
Int J Biol Macromol. 2021 Dec 15;193(Pt B):1050-1058. doi: 10.1016/j.ijbiomac.2021.11.076. Epub 2021 Nov 16.
3
Microencapsulation of Oils: A Comprehensive Review of Benefits, Techniques, and Applications.油脂的微胶囊化:益处、技术及应用的全面综述
Compr Rev Food Sci Food Saf. 2016 Jan;15(1):143-182. doi: 10.1111/1541-4337.12179. Epub 2015 Nov 13.
4
Functional exploration of free and encapsulated probiotic bacteria in yogurt and simulated gastrointestinal conditions.酸奶及模拟胃肠道环境中游离和包封益生菌的功能探究
Food Sci Nutr. 2019 Nov 7;7(12):3931-3940. doi: 10.1002/fsn3.1254. eCollection 2019 Dec.
5
Physiochemical properties, microstructure, and probiotic survivability of nonfat goats' milk yogurt using heat-treated whey protein concentrate as fat replacer.以热处理乳清蛋白浓缩物作为脂肪替代品的脱脂山羊奶酸奶的理化性质、微观结构及益生菌存活率
J Food Sci. 2015 Apr;80(4):M788-94. doi: 10.1111/1750-3841.12834. Epub 2015 Mar 21.
6
Microencapsulation of Bifidobacterium bifidum F-35 in whey protein-based microcapsules by transglutaminase-induced gelation.利用转谷氨酰胺酶诱导凝胶化作用将双歧杆菌 F-35 微胶囊化在乳清蛋白基微胶囊中。
J Food Sci. 2012 May;77(5):M270-7. doi: 10.1111/j.1750-3841.2012.02673.x.
7
Textural and sensory characteristics of whole and skimmed flavored set-type yogurt during long storage.全脂和脱脂调味凝固型酸奶在长期储存期间的质地和感官特性。
J Dairy Sci. 2004 Dec;87(12):4033-41. doi: 10.3168/jds.S0022-0302(04)73544-4.

通过乳化技术调制对F-35进行微囊化及其对凝固型酸奶流变稳定性的机械影响。

Microencapsulation of F-35 via modulation of emulsifying technique and its mechanical effects on the rheological stability of set-yogurt.

作者信息

Mousa Ahmed H, Korma Sameh A, Ali Abdelmoneim H, Abdeldaiem Ahmed M, Bakry Ibrahim A, Liu Xiao-Ming, Zhang Hao, Abed Sherif M, Bakry Amr M

机构信息

Food Science and Technology Department, Faculty of Environmental Agricultural Science, Arish University, Egypt El-Arish.

State Key Laboratory of Food Science and Technology, School of Food Science and Technology, Jiangnan University, Wuxi, 214122 China.

出版信息

J Food Sci Technol. 2023 Dec;60(12):2968-2977. doi: 10.1007/s13197-023-05812-1. Epub 2023 Aug 26.

DOI:10.1007/s13197-023-05812-1
PMID:37786598
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10542085/
Abstract

Microencapsulation of F-35 was carried out through emulsification technique in order to increase the microbial load while maintaining the rheological functions of set-yogurt. To produce single-layer (SL) microcapsules of whey protein, the pH was adjusted to 6.4 within Transglutaminase-induced gelation. Sodium alginate was processed as the external layer using calcium-induced gelation (pH 5.5) to produce the double-layer (DL) microcapsule. Scanning electron microscopy revealed that SL and DL microcapsules had sizes of 10 and 280 μm, respectively. The highest microbial load was clearly visible in the DL sample. According to texture profile analysis, the DL sample had the highest levels of gumminess, chewiness, and adhesiveness. The free sample outperformed the encapsulated samples in terms of springiness and cohesiveness. Although the SL sample had the highest viscosity, it produced a deformed gel when firmness was measured. In terms of firmness, the DL sample performed quite well. The viability of encapsulated F-35 in DL was higher than SL microcapsules during storage. Microencapsulation of F-35 with whey protein and sodium alginate is a promising technique that could improve the rheological properties of set-yogurt as a popular vehicle for bioactive ingredients.

摘要

为了在保持凝固型酸奶流变学功能的同时增加微生物负荷,采用乳化技术对F-35进行了微囊化处理。为了制备乳清蛋白单层(SL)微胶囊,在转谷氨酰胺酶诱导的凝胶化过程中将pH值调节至6.4。使用钙诱导凝胶化(pH 5.5)将海藻酸钠作为外层处理,以制备双层(DL)微胶囊。扫描电子显微镜显示,SL和DL微胶囊的尺寸分别为10和280μm。在DL样品中可以清楚地看到最高的微生物负荷。根据质地剖面分析,DL样品的胶黏性、咀嚼性和黏附性水平最高。在弹性和内聚性方面,游离样品优于包封样品。虽然SL样品的粘度最高,但在测量硬度时它产生了变形的凝胶。在硬度方面,DL样品表现相当出色。在储存期间,DL中包封的F-35的活力高于SL微胶囊。用乳清蛋白和海藻酸钠对F-35进行微囊化是一种很有前景的技术,它可以改善凝固型酸奶作为生物活性成分常用载体的流变学性质。