王丹1,代养勇1,赵路苹1,刘海燕2,丁秀臻1.大豆分离蛋白对大豆肽纳米颗粒Pickering 乳液性能的影响[J].中国油脂,2024,49(3):.[WANG Dan1, DAI Yangyong1,ZHAO Luping1,LIU Haiyan2,DING Xiuzhen1.Effects of soy protein isolate on the properties of Pickering emulsions stabilized by soy peptide nanoparticles[J].China Oils and Fats,2024,49(3):.]
大豆分离蛋白对大豆肽纳米颗粒Pickering 乳液性能的影响
Effects of soy protein isolate on the properties of Pickering emulsions stabilized by soy peptide nanoparticles
  
DOI:
中文关键词:  大豆肽纳米颗粒  乳液  大豆分离蛋白  储存稳定性
英文关键词:soy peptide nanoparticles  emulsion  soy protein isolate  storage stability
基金项目:国家自然科学基金(31901637,31872889);山东省高等学校科技计划项目(J18KA171)
作者单位
王丹1,代养勇1,赵路苹1,刘海燕2,丁秀臻1 1.山东农业大学 食品科学与工程学院山东省高校食品加工技术与质量控制重点实验室山东省粮食加工技术 工程技术研究中心山东 泰安 271018 2.青岛明月海藻生物健康科技集团有限公司山东 青岛 266400 
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中文摘要:
      为提高大豆肽纳米颗粒(SPN)Pickering乳液稳定性,以大豆肽聚集体为原料,采用超声法制备SPN,对超声时间进行了优化;在SPN体系中引入大豆分离蛋白(SPI)构建复合乳化剂,研究不同乳化剂质量浓度下SPI对SPN界面活性和乳化稳定性的影响。结果表明:选取超声时间10 min制备SPN;随着乳化剂质量浓度的增大,乳液粒径逐渐减小,当乳化剂质量浓度较低(5 mg/mL)时,乳液出现桥联,乳化剂质量浓度过高(30 mg/mL)时则出现絮凝;界面蛋白吸附率随着乳化剂质量浓度的增加呈现先升高后降低的趋势。在相同乳化剂质量浓度下,添加SPI的SPN乳液(SPI-SPN乳液)的粒径分布峰左移,其粒径、界面蛋白吸附率显著小于SPN乳液的;在储存过程中,SPN乳液粒径逐渐增大,SPI-SPN乳液粒径没有显著变化;SPI-SPN乳液的乳析指数小于相同乳化剂质量浓度的SPN乳液,当乳化剂质量浓度为30 mg/mL时,储存15 d SPI-SPN乳液未出现分层现象。综上,SPI可以提高SPN的界面活性和SPN乳液储存过程中的絮凝稳定性和分层稳定性。
英文摘要:
      In order to improve the stability of the Pickering emulsion of soy peptide nanoparticles (SPN), soy peptide aggregates were used as raw materials to prepare SPN by ultrasonic method, and the ultrasonic time was optimized. And then soy protein isolate (SPI) was introduced into the SPN system to construct a new composite emulsifier. The effects of SPI on the interface activity and emulsification stability of SPN under different emulsifier mass concentrations were studied. The results showed that SPN was prepared under the condition of ultrasonic time 10 min. With the increase of emulsifier mass concentration, the particle size of the emulsion decreased gradually. When the emulsifier mass concentration was low (5 mg/mL), the emulsion bridged, while when the emulsifier mass concentration was high (30 mg/mL), the emulsion flocculated. The adsorption rate of interfacial protein increased chiefly and then decreased with emulsifier mass concentration increasing. Under the same emulsifier mass concentration, the particle size distribution peak of the SPN emulsion with SPI (SPI-SPN emulsion) was shifted to the left, and the particle size and adsorption rate of interfacial protein were significantly smaller than the SPN emulsion. The particle size of the SPN emulsion gradually increased during storage, while the particle size of the SPI-SPN emulsion did not change significantly. The creaming index of SPI-SPN emulsion was smaller than that of SPN emulsion with the same emulsifier mass concentration. The SPI-SPN emulsion did not appear to cream after 15 d of storage when the emulsifier mass concentration was 30 mg/mL. In conclusion, SPI can improve the interfacial activity of SPN and the stability of flocculation and stratification of SPN emulsion during the storage.
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