食品科学 ›› 2019, Vol. 40 ›› Issue (20): 81-86.doi: 10.7506/spkx1002-6630-20180815-152

• 食品化学 • 上一篇    下一篇

脂质体水凝胶结构变化与形成机理

刘玮琳,孔有余,许贤康,郑凌艺,柳叶霏,韩剑众   

  1. (浙江工商大学食品与生物工程学院,浙江 杭州 310018)
  • 出版日期:2019-10-25 发布日期:2019-10-25
  • 基金资助:
    浙江省自然科学基金项目(LY18C200005);浙江省“2017协同创新中心”国际合作研究暨学术交流与培养计划项目(2017SICR103);2018年浙江省科协育才工程项目(2018YCGC004)

LIU Weilin, KONG Youyu, XU Xiankang, ZHENG Lingyi, LIU Yefei, HAN Jianzhong

LIU Weilin, KONG Youyu, XU Xiankang, ZHENG Lingyi, LIU Yefei, HAN Jianzhong   

  1. (School of Food Science and Biotechnology, Zhejiang Gongshang University, Hangzhou 310018, China)
  • Online:2019-10-25 Published:2019-10-25

摘要: 通过明胶和壳聚糖为原料制备互穿聚合物网络结构(interpenetrating polymer network,IPN)水凝胶,采用质构考察不同比例配方和交联剂转谷氨酰胺酶(microbial transglutaminase,mTG)质量浓度对IPN水凝胶的影响,同时研究将脂质体包埋进IPN水凝胶后形成的脂质体水凝胶结构及胶联机理。结果表明:明胶与壳聚糖按质量比4∶1混合、mTG质量浓度10 mg/mL条件下,制备的脂质体水凝胶可成胶且质构性质表现最优,硬度可达到18.68 g;通过膨胀系数、傅里叶变换红外光谱、差热分析及交联率分析等可知,脂质体与水凝胶通过化学方式进行联接,同时存在氢键的作用,且脂质体被包裹入凝胶内部网状结构。脂质体水凝胶的研究多以包埋缓释为主,较少有针对其结构和交联方式的报道。本研究结果对开发新型脂质体和脂质体水凝胶等运载体系并将其应用于食品营养物的包埋、缓释提供新思路。

关键词: 凝胶包埋脂质体, 凝胶结构, 交联机理

Abstract: In this study, interpenetrating polymer network (IPN) hydrogels based on chitosan and gelatin using microbial transglutaminase (mTG) as the cross-linker were prepared and characterized. The formation of hydrogels was confirmed by intrinsic viscosity measurement. The structure and cross-linking mechanism of liposome immobilized IPN hydrogels (lips-in-gels) were examined. The results showed that lips-in-gels formulated from a mixture of gelatin and chitosan (4:1, m/m) and 10 mg/mL mTG had the best texture (18.68 g hardness). Moreover, swelling test, Fourier transform infrared spectroscopy, differential scanning calorimetry and cross-linking degree measurement suggested that the cross-linking of liposome immobilized hydrogels may be achieved through chemical linkages together with hydrogen bonding, and the liposome was located inside of the gel network. Hydrogels are attractive for a diverse range of applications in the protection, delivery and controlled release of liposomes; however, limited studies have been focused on the structure and cross-linking of lip-in-gels. It is expected that this liposome immobilized hydrogel will have potential as a new nutrient delivery system for application in biomedical and food industries.

Key words: liposome immobilized interpenetrating polymer network hydrogels, structure, cross-linking mechanism

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