Characterizations of emulsion gel formed with the mixture of whey and soy protein and its protein digestion under in vitro gastric conditions

IF 6.2 2区 农林科学 Q1 FOOD SCIENCE & TECHNOLOGY
Yu Cheng , Aiqian Ye , Harjinder Singh
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Abstract

Partially replacing animal proteins with plant proteins to develop new products has much attention. To get knowledge of their application in emulsion gels, heat-induced composite protein emulsion gels were fabricated using the mixtures of whey protein isolate (WPI) and soy protein isolate (SPI) with the final total protein concentration of 10% (w/w). The water holding capacity (WHC), mechanical and rheological properties and microstructure of mixed protein emulsion gels prepared at different WPI to SPI ratios (100:0, 90:10, 70:30, 50:50, 30:70, 10:90, 0:100, w/w) were investigated. The ratios of WPI to SPI showed little effect on the WHC of the mixed protein emulsion gels (p > 0.05). Increasing the ratio of SPI decreased the hardness and storage modulus (G′) of mixed protein emulsion gels, whereas the porosity of mixed protein emulsion gels in the microstructure increased, as shown by CLSM. Both β-lactoglobulin and α-lactalbumin from WPI and 7 S and 11 S from SPI participated in forming the gel matrix of mixed protein emulsion gels. More protein aggregates existed as the gel matrix filler at the high soy protein levels. Interestingly, the G′ of mixed protein emulsion gels at the WPI to SPI ratio of 50:50 was higher than the sum of G′ of individual WPI and SPI emulsion gels. The whey protein network predominated the gel matrix, while soy protein predominated in the active filling effect. When subjected to an in vitro dynamic gastric digestion model, soy protein in the gels (WPI:SPI = 50:50) degraded faster than whey protein during gastric digestion. This study provided new information on the characteristics of composite protein emulsion gel fabricated with the WPI and SPI mixture.

Abstract Image

乳清蛋白和大豆蛋白混合物形成的乳状凝胶及其在体外胃条件下的蛋白质消化特性
用植物蛋白部分替代动物蛋白以开发新产品的做法备受关注。为了了解植物蛋白在乳液凝胶中的应用,研究人员使用乳清蛋白分离物(WPI)和大豆蛋白分离物(SPI)的混合物(最终总蛋白浓度为 10%(w/w))制作了热诱导复合蛋白乳液凝胶。研究了以不同的 WPI 与 SPI 比例(100:0、90:10、70:30、50:50、30:70、10:90、0:100,w/w)制备的混合蛋白乳液凝胶的持水量(WHC)、机械和流变特性以及微观结构。WPI 与 SPI 的比例对混合蛋白乳液凝胶的 WHC 影响不大(p > 0.05)。增加 SPI 的比例会降低混合蛋白乳液凝胶的硬度和储存模量(G′),而混合蛋白乳液凝胶微观结构中的孔隙率则会增加,如 CLSM 所示。WPI 中的β-乳球蛋白和α-乳白蛋白以及 SPI 中的 7 S 和 11 S 都参与了混合蛋白乳液凝胶凝胶基质的形成。大豆蛋白含量高时,凝胶基质填充物中存在更多的蛋白质聚集体。有趣的是,当 WPI 与 SPI 的比例为 50:50 时,混合蛋白乳液凝胶的 G′高于单个 WPI 和 SPI 乳液凝胶的 G′之和。乳清蛋白网络在凝胶基质中占主导地位,而大豆蛋白在活性填充效应中占主导地位。在体外动态胃消化模型中,凝胶(WPI:SPI = 50:50)中的大豆蛋白在胃消化过程中的降解速度快于乳清蛋白。这项研究为了解用 WPI 和 SPI 混合物制成的复合蛋白质乳液凝胶的特性提供了新的信息。
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来源期刊
Current Research in Food Science
Current Research in Food Science Agricultural and Biological Sciences-Food Science
CiteScore
7.40
自引率
3.20%
发文量
232
审稿时长
84 days
期刊介绍: Current Research in Food Science is an international peer-reviewed journal dedicated to advancing the breadth of knowledge in the field of food science. It serves as a platform for publishing original research articles and short communications that encompass a wide array of topics, including food chemistry, physics, microbiology, nutrition, nutraceuticals, process and package engineering, materials science, food sustainability, and food security. By covering these diverse areas, the journal aims to provide a comprehensive source of the latest scientific findings and technological advancements that are shaping the future of the food industry. The journal's scope is designed to address the multidisciplinary nature of food science, reflecting its commitment to promoting innovation and ensuring the safety and quality of the food supply.
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