食品科学 ›› 2023, Vol. 44 ›› Issue (8): 23-29.doi: 10.7506/spkx1002-6630-20220815-176

• 食品化学 • 上一篇    下一篇

糖基化β-伴大豆球蛋白负载提高姜黄素抗氧化及缓释特性

王梓郡, 刘慧慧, 麻志刚, 邵栋梁, 姜绍通, 郑志   

  1. (1.合肥工业大学食品与生物工程学院,安徽省农产品精深加工重点实验室,安徽 合肥 230601;2.安徽金菜地食品股份有限公司,安徽 马鞍山 243000;3.安徽国科检测科技有限公司,安徽 合肥 230041)
  • 出版日期:2023-04-25 发布日期:2023-05-06
  • 基金资助:
    “十三五”国家重点研发计划重点专项(2018YFD0400600); 安徽省科技攻关项目(202103b06020009;202003b06020017;202003b06020020); 中央高校基础研究基金项目(PA2020GDSK0058)

Enhanced Antioxidant Activity and Sustained-Release Property of Curcumin Encapsulated in Glycated Soy β-Conglycinin Nanoparticles

WANG Zijun, LIU Huihui, MA Zhigang, SHAO Dongliang, JIANG Shaotong, ZHENG Zhi   

  1. (1. School of Food and Biological Engineering, Key Laboratory for Agricultural Products Processing of Anhui Province, Hefei University of Technology, Hefei 230601, China; 2. Anhui Jincaidi Food Co. Ltd., Maanshan 243000, China; 3. Anhui Guoke Testing Technology Co. Ltd., Hefei 230041, China)
  • Online:2023-04-25 Published:2023-05-06

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摘要: 利用干法糖基化制备β-伴大豆球蛋白(soy β-conglycinin,7S)-葡聚糖共价接枝物包埋姜黄素,并研究姜黄素的抗氧化及缓释效果。结果表明,随着反应时间(0、24、48、72 h)延长,7S-葡聚糖共价复合物接枝度和褐变度逐渐增加,至72 h达到最高,分别为15.02%和0.24。通过pH值循环法诱导7S、7S-葡聚糖封装姜黄素,形成7S-姜黄素、7S-葡聚糖-姜黄素纳米复合物,发现反应时间为72 h时,7S-葡聚糖表现出最高的姜黄素负载量(129.61 μg/mg),显著高于7S(69.06 μg/mg)。荧光光谱分析表明姜黄素主要通过疏水相互作用与7S、7S-葡聚糖-72 h结合。透射电子显微镜观察到7S-姜黄素和7S-葡聚糖-72 h-姜黄素纳米复合物为球形。姜黄素质量浓度为100 μg/mL时,与游离的姜黄素相比,封装在7S-葡聚糖-72 h内的姜黄素抗氧化能力提高1.36 倍,且表现出稳定的缓释性能。7S-葡聚糖-72 h负载的姜黄素生物可利用率为66.83%,而7S负载的姜黄素和游离姜黄素生物可利用率分别为48.93%和33.06%。研究结果表明7S-葡聚糖-72 h可作为良好的姜黄素纳米载体,改善其抗氧化及缓释能力。

关键词: 糖基化;β-伴大豆球蛋白;姜黄素;pH值循环法

Abstract: Soy β-conglycinin (7S)-dextran conjugates prepared under dry-heating conditions were used to encapsulate curcumin, and the antioxidant activity and sustained-release property of encapsulated curcumin were investigated. Results showed that the grafting degree and browning index of 7S-dextran conjugates increased with increasing reaction time (0, 24, 48 and 72 h), reaching the highest values of 15.02% and 0.24 at 72 h, respectively. 7S-curcumin and 7S-dextran-curcumin nanocomplexes were fabricated by pH-shifting method. The highest curcumin loading of 129.61 μg/mg was observed in 7S-dextran conjugate obtained at 72 h of reaction time (7S-dextran-72 h), which was significantly higher than that in 7S (69.06 μg/mg). Fluorescence spectroscopy indicated that curcumin combined with 7S or 7S-dextran-72 h mainly through hydrophobic interactions. It was observed by transmission electron microscopy (TEM) that 7S-curcumin and 7S-dextran-72 h-curcumin nanocomplexes were spherical. The antioxidant activity of 7S-dextran-72 h-curcumin, which had stable sustained-release property, was approximately 2.36 times higher than that of free curcumin at 100 μg/mL. The bioavailability of curcumin encapsulated in 7S-dextran-72 h was 66.83%, while the bioavailability of curcumin encapsulated in 7S and free curcumin were 48.93% and 33.06%, respectively. 7S-dextran-72 h could be used as an outstanding nanocarrier for curcumin to enhance its antioxidant activity and sustained-release property.

Key words: glycation; soy β-conglycinin; curcumin; pH-shifting method

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