Physicochemical, structural, and emulsifying properties of stable blended whey and soy protein colloidal dispersion prepared by pH-shifting and ultrasound
IF 2.5
2区 农林科学
Q3 FOOD SCIENCE & TECHNOLOGY
引用次数: 0
Abstract
This study investigated physiochemical, structural, and emulsifying properties of whey and soy protein blends (4%, w/v), which were combined at various proportions by pH-shifting and ultrasound. The mixed dispersions exhibited small particle sizes (below 200 nm), with the smallest value observed at a sample with WPC to SPI ratio of 50:50. Reducing whey protein gave the blend lower surface hydrophobicity and higher α-helix structure. More soy protein resulted in larger droplet size, lower surface charge, and greater flocculation of fabricated emulsions. Emulsions with soy protein lower than 50% were acceptable due to the nano-scale size and small flocculation index.
利用 pH 值偏移和超声波制备稳定的乳清和大豆混合胶体分散体的物理化学、结构和乳化特性
本研究调查了乳清蛋白和大豆蛋白混合物(4%,w/v)的理化、结构和乳化特性。混合分散体的粒径较小(低于 200 nm),其中 WPC 与 SPI 之比为 50:50 的样品的粒径最小。减少乳清蛋白会降低混合液的表面疏水性,增加α-螺旋结构。大豆蛋白含量越高,液滴尺寸越大,表面电荷越低,乳化液的絮凝性越高。大豆蛋白含量低于 50%的乳液由于具有纳米级尺寸和较小的絮凝指数,因此是可以接受的。
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来源期刊
CiteScore
7.00
自引率
4.50%
发文量
76
审稿时长
12 months
期刊介绍:
The International Journal of Dairy Technology ranks highly among the leading dairy journals published worldwide, and is the flagship of the Society. As indicated in its title, the journal is international in scope.
Published quarterly, International Journal of Dairy Technology contains original papers and review articles covering topics that are at the interface between fundamental dairy research and the practical technological challenges facing the modern dairy industry worldwide. Topics addressed span the full range of dairy technologies, the production of diverse dairy products across the world and the development of dairy ingredients for food applications.
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