The effect of high-temperature heat treatment and homogenization on the microstructure of set yogurt curd networks.

IF 1.6 3区 农林科学 Q2 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Journal of Dairy Research Pub Date : 2023-08-01 Epub Date: 2023-08-31 DOI:10.1017/S0022029923000523
Takefumi Ichimura, Mai Kusaka, Taku Nakamura
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引用次数: 0

Abstract

Set yogurt's physical characteristics are greatly affected by the homogenization and heat treatment processes. In our previous study, set yogurt treated at 130°C and with the fat particle size reduced to ≤0.6 μm had equivalent curd strength, less syneresis and smoother texture than yogurt treated at 95°C. When investigating the mechanisms underlying yogurt's physical properties, it is important to evaluate the yogurt's microstructure. We conducted electron microscopy evaluations to investigate the mechanisms of changes in yogurt's physical properties caused by 130°C heat treatment and by a reduction in the fat globule size. We prepared yogurt mixtures by combining heat treatment at 95 and 130°C and homogenization pressure at 10 + 5 and 35 + 5 MPa and then fermented the mixtures in a common yogurt starter. Scanning electron microscopy (SEM) and transmission electron microscopy (TEM) were used for the structural observations. Fine particles were observed on the surface of the casein micelles of the yogurt treated at 95°C, and the coalescence density between micelles was high. The surface of the yogurt treated at 130°C had few fine particles, and the coalescence density between micelles was low. The yogurt treated at 130°C with 35 + 5 MPa homogenization had low coalescence density between casein micelles, but smaller-particle-size fat globules increased the network density. Approximately 30% of the fat globules were estimated to be incorporated into the yogurt networks compared to the volume of casein micelles. We speculate that 130°C heat treatment alters the structure of whey protein on the surface of casein micelles and interferes with network formation, but reducing the size of fat globules reinforces the network as a pseudoprotein.

高温热处理和均匀化对凝固酸奶凝乳网络微观结构的影响。
凝固酸奶的物理特性在很大程度上受到均质化和热处理过程的影响。在我们之前的研究中,与95°C处理的酸奶相比,在130°C处理并将脂肪颗粒大小降至≤0.6μm的凝固酸奶具有同等的凝乳强度、更少的脱水和更光滑的质地。在研究酸奶物理特性的机制时,评估酸奶的微观结构是很重要的。我们进行了电子显微镜评估,以研究130°C热处理和脂肪球大小减少导致酸奶物理性质变化的机制。我们通过在95和130°C下进行热处理,在10+5和35+5MPa下进行均化压力,制备酸奶混合物,然后在普通酸奶发酵剂中发酵混合物。使用扫描电子显微镜(SEM)和透射电子显微镜(TEM)进行结构观察。在95°C处理的酸奶酪蛋白胶束表面观察到细小颗粒,胶束之间的聚结密度较高。在130°C下处理的酸奶表面几乎没有细颗粒,胶束之间的聚结密度较低。在130°C下用35+5MPa均匀化处理的酸奶酪蛋白胶束之间的聚结密度较低,但较小颗粒尺寸的脂肪球增加了网络密度。据估计,与酪蛋白胶束的体积相比,大约30%的脂肪球被掺入酸奶网络中。我们推测,130°C的热处理改变了酪蛋白胶束表面乳清蛋白的结构,并干扰了网络的形成,但减少脂肪球的大小加强了网络作为假蛋白的作用。
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来源期刊
Journal of Dairy Research
Journal of Dairy Research 农林科学-奶制品与动物科学
CiteScore
3.80
自引率
4.80%
发文量
117
审稿时长
12-24 weeks
期刊介绍: The Journal of Dairy Research is an international Journal of high-standing that publishes original scientific research on all aspects of the biology, wellbeing and technology of lactating animals and the foods they produce. The Journal’s ability to cover the entire dairy foods chain is a major strength. Cross-disciplinary research is particularly welcomed, as is comparative lactation research in different dairy and non-dairy species and research dealing with consumer health aspects of dairy products. Journal of Dairy Research: an international Journal of the lactation sciences.
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