Preparation, characterisation and functional effects of goat milk whey protein isolate with low lactose after heat and non‐heat treatments
IF 2.5
2区 农林科学
Q3 FOOD SCIENCE & TECHNOLOGY
引用次数: 0
Abstract
This study investigates the physicochemical and functional properties of goat milk whey with heat and non‐heat treatments (pasteurisation, high‐temperature heating, ultrasonic treatment and microwave heating) and lactose hydrolysis. The optimal lactose hydrolysis conditions were obtained through orthogonal test. The results revealed the lactose and glucose in low‐lactose goat milk whey remained largely unchanged through all four treatments, while high‐temperature and microwave treatments induced protein structure alteration. The foaming and emulsifying properties of low‐lactose whey powder were enhanced by heating and ultrasonic treatments, although foam stability decreased. Our findings provide valuable insights into exploiting more nutritional goat milk products.经过加热和非加热处理的低乳糖山羊奶乳清蛋白分离物的制备、特性和功能效果
本研究探讨了山羊奶乳清经过热处理和非热处理(巴氏杀菌、高温加热、超声波处理和微波加热)以及乳糖水解后的物理化学和功能特性。通过正交试验获得了最佳乳糖水解条件。结果表明,低乳糖山羊奶乳清中的乳糖和葡萄糖在所有四种处理方法中基本保持不变,而高温和微波处理会引起蛋白质结构的改变。加热和超声波处理增强了低乳糖乳清粉的发泡和乳化性能,但泡沫稳定性有所下降。我们的研究结果为开发更具营养价值的羊奶产品提供了宝贵的见解。
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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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