Co-encapsulation of β-D-Galactosidase and Ascorbic Acid in the Milk Protein-Based Microcapsules: Optimization and Characterization

IF 2 3区 农林科学 Q3 FOOD SCIENCE & TECHNOLOGY
Mahmoud Hosseinnia, Mohammad Alizadeh Khaledabad, Hadi Almasi
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Abstract

This research is aimed at preparing the β-galactosidase (βg) and vitamin C (VC) cocapsules stabilized by milk proteins. The effect of different independent parameters including core-coating ratio (10-100%), whey protein isolate (0 : 1), sodium caseinate (0 : 1), and ultrasound power (50-150 W) on physicochemical properties of microcapsules was investigated. The response surface methodology (RSM) defined the optimal conditions. Increasing the WPI values had different effects on the particle size and polydispersity index (PDI). The zeta potential values decreased by decreasing SC values. The βg had better encapsulation efficiency in comparison to VC. Increasing the core-coating ratio showed a negative effect on the enzyme activity. Among the test parameters, the core-coating ratio was effective on the viscosity of microcapsules. Two optimum conditions for co-encapsulation were determined as WPI, SC, core-coating ratio, and ultrasound power of 0, 1, 100%, and 79.4 W and 0.2, 0.8, 100%, and 75 W for microcapsules I and II, respectively. In the next step, the structural and morphological properties of the optimum samples were analyzed. The heterogeneous morphology of microcapsules was observed by SEM analysis. The formation of new interactions between wall materials, βg, and VC was confirmed by FT-IR analysis. XRD analysis revealed that the WPI-coated sample had a higher crystallinity index. Generally, the successful co-encapsulation of βg and VC exhibited the potential of the resultant microcapsules for the industrial production of VC fortified and lactose-free milk.

牛奶蛋白基微胶囊中β-D-半乳糖苷酶和抗坏血酸的共包囊:优化与表征
本研究旨在制备由牛奶蛋白稳定的β-半乳糖苷酶(βg)和维生素C(VC)胶囊。研究了不同独立参数对微胶囊理化性质的影响,包括包芯率(10-100%)、分离乳清蛋白(0 : 1)、酪蛋白酸钠(0 : 1)和超声功率(50-150 W)。响应面方法(RSM)确定了最佳条件。增加 WPI 值对粒度和多分散指数(PDI)有不同的影响。随着 SC 值的降低,zeta 电位值也随之降低。与 VC 相比,βg 的封装效率更高。增加包芯比对酶活性有负面影响。在测试参数中,包芯比对微胶囊的粘度有影响。微胶囊 I 和微胶囊 II 的两个最佳共包囊条件分别为 WPI、SC、包芯比和超声功率,其中 WPI 为 0、1、100% 和 79.4 W,包芯比为 0.2、0.8、100% 和 75 W。接下来,分析了最佳样品的结构和形态特性。通过扫描电镜分析观察到了微胶囊的异质形态。傅立叶变换红外分析证实了壁材料、βg 和 VC 之间形成了新的相互作用。XRD 分析表明,WPI 包覆的样品具有更高的结晶度指数。总体而言,βg 和 VC 的成功共包覆表明,所制得的微胶囊具有工业化生产 VC 强化乳和无乳糖牛奶的潜力。
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来源期刊
CiteScore
5.30
自引率
12.00%
发文量
1000
审稿时长
2.3 months
期刊介绍: The journal presents readers with the latest research, knowledge, emerging technologies, and advances in food processing and preservation. Encompassing chemical, physical, quality, and engineering properties of food materials, the Journal of Food Processing and Preservation provides a balance between fundamental chemistry and engineering principles and applicable food processing and preservation technologies. This is the only journal dedicated to publishing both fundamental and applied research relating to food processing and preservation, benefiting the research, commercial, and industrial communities. It publishes research articles directed at the safe preservation and successful consumer acceptance of unique, innovative, non-traditional international or domestic foods. In addition, the journal features important discussions of current economic and regulatory policies and their effects on the safe and quality processing and preservation of a wide array of foods.
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