乳清分离蛋白-大豆油体乳液递送植物甾醇体系构建及其体外模拟消化特性OA
Construction of Whey Protein Isolate-Soybean Oil Body Emulsion for Phytosterol Delivery and Its in Vitro Digestibility Characteristics
为了提高植物甾醇生物利用率,探讨大豆油体在疏水性生物活性物质递送系统中的作用,本研究以乳清分离蛋白(Whey protein isolate,WPI)和大豆油体(Soybean oil bodies,SOBs)作为界面颗粒,制备乳清分离蛋白-大豆油体乳液(Whey protein isolate-soybean oil body emulsion,WOE)递送植物甾醇.考察不同pH和盐离子浓度对WOE粒径、电位和流变特性的影响,以及WOE在模拟消化过程中微观结构的变化、游离脂肪酸释放率和植物甾醇生物利用率.结果表明:WOE是由WPI和大豆油体吸附在油水界面形成的水包油乳液.在pH为 4时,WOE电位接近于 0,表明WOE的等电点接近 4,且WOE在碱性条件下更稳定.流变学结果表明,WOE在不同pH和NaCl条件下,均呈现非牛顿流体性质,在频率 0.1~100 Hz时,G'均大于G",WOE具有弹性为主的凝胶性质.在体外模拟消化阶段,随着消化时间的延长,WOE中的大脂滴数量逐渐减少.在模拟肠液消化过程中,胰酶降解乳液液滴内脂肪并释放出游离脂肪酸,WOE的脂肪滴尺寸由 16.85 μm逐渐减小至 7.25 μm,90 min以内游离脂肪酸释放量达 75.45 μmol/mL,植物甾醇生物利用率持续增加至 72.23%,高于纯大豆油组游离脂肪酸释放量(38.45 μmol/mL)和植物甾醇生物利用率(48.08%),说明WOE具有良好的消化特性,并且提高了植物甾醇生物利用率.本研究可以为疏水性生物活性物质递送系统提供理论参考,同时为新型乳液体系在食品、膳食补充剂和药物输送中的应用提供依据.
To enhance the bioavailability of phytosterols and investigate the role of soybean oil bodies in hydrophobic bioactive compound delivery systems,this study utilized whey protein isolate(WPI)and soybean oil bodies(SOBs)as interfacial particles to prepare whey protein isolate-soybean oil body emulsions(WOE)for phytosterol delivery.The effects of varying pH and ionic concentrations on the particle size,Zeta potential,and rheological properties of WOE were investigated systematically,as well as the changes in microstructure,free fatty acid release rate,and phytosterol bioavailability of WOE during the simulated digestion process.The results demonstrated that WOE was an oil-in-water emulsion formed by adsorption of WPI and SOBs at the oil-water interface.At pH4,the Zeta potential of WOE approached 0,indicating that the isoelectric point of WOE was close to 4.WOE exhibited greater stability under alkaline conditions.The rheological results showed that WOE exhibited non-Newtonian fluid properties at different pH and NaCl conditions,and G'was larger than G"at frequencies from 0.1 to 100 Hz,and WOE had an elastic-dominated gel property.During the simulated digestion phase in vitro,the number of large lipid droplets in the WOE gradually decreased as the digestion time increased.During the simulated intestinal fluid digestion,trypsin degraded the fat within the emulsion droplets and released free fatty acids,and the fat droplet size of WOE gradually decreased from 16.85 μm to 7.25 μm,and the release of free fatty acids reached 75.45 μmol/mL in less than 90 min,and the phytosterol bioavailability consistently increased to 72.23%,which was higher than that of free fatty acid release(38.45 μmol/mL)and phytosterol bioavailability(48.08%)in the pure soybean oil group,indicating that WOE had good digestive properties and improved phytosterol bioavailability.This study provides a theoretical reference for hydrophobic bioactivities delivery systems,as well as a basis for the application of novel emulsion systems in food,dietary supplements and drug delivery.
孙婕;杨卓凡;尹国友;刘亦菲;张莹莹
河南城建学院生命科学与工程学院,河南 平顶山 467036河南城建学院生命科学与工程学院,河南 平顶山 467036河南城建学院生命科学与工程学院,河南 平顶山 467036河南城建学院生命科学与工程学院,河南 平顶山 467036河南城建学院生命科学与工程学院,河南 平顶山 467036
轻工纺织
乳液大豆油体乳清分离蛋白植物甾醇体外消化
emulsionsoybean oil bodies(SOBs)whey protein isolate(WPI)phytosterolin vitro digestion
《食品工业科技》 2026 (5)
71-79,9
河南省重点研发与推广专项(科技攻关)项目(232102110087)平顶山市科技创新杰出人才计划项目(2017010(10.4))河南省高等学校重点科研项目资助计划项目(25B550022).
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