食品科学 ›› 2023, Vol. 44 ›› Issue (2): 1-8.doi: 10.7506/spkx1002-6630-20220428-363

• 食品化学 •    

油相结构化对大豆蛋白藻油纳米乳液氧化稳定性的影响

杨韵仪,曹沐曦,陈文荣,万芝力,方素琼,杨晓泉   

  1. (1.华南理工大学食品科学与工程学院,食物蛋白与胶体研究中心,广东省天然产物绿色加工与产品安全重点实验室,广东 广州 510641;2.仙乐健康科技股份有限公司,广东 汕头 515041)
  • 发布日期:2023-01-31
  • 基金资助:
    国家自然科学基金面上项目(32172347);广东省自然科学基金项目(2021A1515011000); 广东省重点领域研发计划项目(2019B020213001)

Effect of Oil Phase Structuring on the Formation and Oxidative Stability of Soy Protein-Based Algal Oil Nanoemulsions

YANG Yunyi, CAO Muxi, CHEN Wenrong, WAN Zhili, FANG Suqiong, YANG Xiaoquan   

  1. (1. Research Center of Food Proteins and Colloids, Guangdong Province Key Laboratory for Green Processing of Natural Products and Products Safety, School of Food Science and Engineering, South China University of Technology, Guangzhou 510641, China; 2. Sirio Pharma Co. Ltd., Shantou 515041, China)
  • Published:2023-01-31

摘要: 利用蜂蜡结构化藻油结合大豆分离蛋白-甜菊糖(soy protein isolate-stevioside,SPI-STE)复合体系的乳化特性,制备高稳态的藻油纳米乳液体系。藻油凝胶的微观结构观察、热性质测试以及流变学分析表明,当藻油中蜂蜡添加量达到4%(m/m)时,大量晶体组装成稳固的网络结构,从而构筑出稳定的油凝胶。进一步以SPI-STE为稳定剂制备藻油纳米乳液,研究了藻油结构化对纳米乳液形成及稳定性的影响。结果表明,油相中添加蜂蜡对纳米乳液的形成没有显著影响。随着藻油中蜂蜡质量分数的增大(0%~6%),乳液的物理稳定性逐渐提高;但在高蜂蜡添加量(8%)下,刚性较强的凝胶网络破坏了油滴界面层,乳液稳定性变差。热促氧化及光促氧化结果显示,蜂蜡油相结构化明显提高了纳米乳液的氧化稳定性,其中油相中含有6%蜂蜡的样品延缓氧化的效果最明显。本研究可为食品工业构建高稳态的藻油纳米乳液载体及产品提供一定技术支持。

关键词: 藻油纳米乳液;蜂蜡油凝胶;氧化稳定性;大豆蛋白;甜菊糖

Abstract: In this study, highly stable algal oil-based nanoemulsions stabilized by a combination of soy protein isolate (SPI) and stevioside (STE) were prepared by pre-structuring the oil phase. The microstructure observation, differential scanning calorimetry (DSC) test, and rheological analysis of the algal oil-based oleogels showed that in algal oil with 4% (m/m) beeswax added, a large number of crystals were connected to form a stable network structure, thereby constructing a stable oleogel. The effects of algal oil pre-structuring on the formation and stability of algal oil-based nanoemulsions were investigated. The results showed that the addition of beeswax had no significant effect on nanoemulsion formation. With increasing concentration of beeswax in algal oil (up to 6%), the physical stability of nanoemulsions gradually increased; however, at a higher concentration (8%), more rigid gel network was formed, which destroyed the interfacial layer and in turn led to deterioration of the physical stability of the nanoemulsion. The results of thermal oxidation and photooxidation tests showed that oil phase structuring significantly improved the oxidative stability of the nanoemulsion, and the sample with 6% beeswax added in the oil phase displayed the highest oxidative stability. This study can provide technical support for the preparation of highly stable nanoemulsion-based delivery systems for algal oil in the food industry.

Key words: algal oil nanoemulsion; beeswax-based oleogel; oxidative stability; soy protein isolate; stevioside

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