Department of Food Science, College of Food Science and Engineering, Jilin University, Changchun, China.
J Sci Food Agric. 2019 Jan 30;99(2):923-932. doi: 10.1002/jsfa.9264. Epub 2018 Sep 6.
Effects of pH (6-8), protein concentration (60-110, g kg ), heating temperature (70-95 °C) and time (5-30 min) on physiochemical and rheological properties of thermal-induced polymerized whey protein isolate (PWP) were systematically investigated. Degree of denaturation, particle size, zeta potential, free sulfhydryl group content, surface hydrophobicity and apparent viscosity were determined.
Heating whey protein above 75 °C at pH 7 or 8 resulted in denaturation of 80-90% whey protein. pH variation had a remarkable influence on particle size of samples (P < 0.05), whereas heating temperature and time did not generate significant changes. Zeta potential of PWP samples fell in the range of -30 to -40 mV. Free sulfhydryl group content of PWP samples decreased with increasing level regarding each factor. Surface hydrophobicity analysis showed that samples at higher pH or concentration became less hydrophobic, and increasing heating temperature or time resulted in higher hydrophobicity index. Time sweep test revealed that increasing protein concentration, heating temperature or time led to higher apparent viscosity. Flow behavior of PWP samples approached Newtonian character as protein concentration, heating temperature or time decreased.
Systematic data may provide helpful information in designing a heating process for dairy products and application of PWP in the food industry. © 2018 Society of Chemical Industry.
系统研究了 pH 值(6-8)、蛋白质浓度(60-110,g kg)、加热温度(70-95°C)和时间(5-30 分钟)对热诱导聚合乳清蛋白分离物(PWP)的理化和流变性质的影响。测定了变性程度、粒径、Zeta 电位、游离巯基含量、表面疏水性和表观黏度。
在 pH 值为 7 或 8 时将乳清蛋白加热至 75°C 以上会导致 80-90%的乳清蛋白变性。pH 值的变化对样品粒径有显著影响(P<0.05),而加热温度和时间没有产生显著变化。PWP 样品的 Zeta 电位在-30 至-40 mV 范围内。PWP 样品的游离巯基含量随各因素水平的增加而降低。表面疏水性分析表明,较高 pH 值或浓度的样品变得疏水性降低,而升高的加热温度或时间导致更高的疏水性指数。时间扫描测试表明,增加蛋白质浓度、加热温度或时间会导致更高的表观黏度。随着蛋白质浓度、加热温度或时间的降低,PWP 样品的流动行为接近牛顿特性。
系统数据可为设计乳制品加热工艺和 PWP 在食品工业中的应用提供有价值的信息。© 2018 化学工业协会。
