酶法协同改性油莎豆淀粉的制备及其在构建淀粉基双乳液体系中的影响OA
Preparation of Enzymatic Co-modified Cyperus esculentus Starch and Its Effect on the Construction of Starch-based Double Emulsion System
为克服天然油莎豆淀粉易老化、溶解性与稳定性差等应用缺陷,本研究采用复合酶(Enzyme modifica-tion,EMD)协同介质研磨处理(Medium grinding,M-EMD)、高压均质处理(High-pressure homogenization,H-EMD)、纳米沉淀(Nanoprecipitation,N-EMD)处理改性技术对油莎豆淀粉改性处理,应用于构建淀粉基双乳液体系,分析其对双乳液体系界面张力、稳定性及负载番茄红素的体外消化的影响.结果表明,不同协同改性方式对淀粉的改性效果差异显著.其中,N-EMD 处理表现最优,制备的淀粉颗粒粒径最小(0.797 μm)、分布最均一(PDI=0.19),且具有最高的表面负电荷(Zeta 电位=-70 mV)和最强的亲水性(接触角=23.1°).结构分析表明,H-EMD与 N-EMD 处理能有效诱导淀粉分子结构重组.由 N-EMD 淀粉构建的双乳液液滴细小均一,结构规整,对番茄红素(Lycopene,Lyc)的包埋效率(88%)和装载能力(66%)最高.在储存过程中,该乳液物理稳定性最佳,且脂质氧化程度最低;在体外模拟消化中,其游离脂肪酸释放率(45%)与 Lyc 的生物利用度(48%)均显著高于其他组.综上,酶法协同纳米沉淀(N-EMD)是优化油莎豆淀粉性能及构建高效淀粉基递送体系的最有效策略.该研究为油莎豆淀粉的高值化利用开辟了新路径,并为开发性能优良的食品级活性成分递送载体提供了理论依据与技术参考.
To overcome the application limitations of natural jatropha starch,such as susceptibility to aging and poor solubility and stability,this study employed composite enzyme(EMD)synergistic medium grinding treatment(M-EMD),high-pressure homogenization treatment(H-EMD),nano-precipitation(N-EMD)modification techniques to enhance oilseed starch.The modified starch was then incorporated into starch-based double emulsion systems to evaluate its effects on interfacial tension,stability,and the in vitro digestion of lycopene-loaded emulsions.Results indicated that the modifica-tion effects of different synergistic modification methods on starch were significantly different.N-EMD treatment demon-strated optimal performance,yielding starch particles with the smallest size(0.797 μm),the most uniform distribution(PDI=0.19),the highest surface negative charge(Zeta potential=-70 mV),and the strongest hydrophilicity(contact angle=23.1°).Structural analysis revealed that both H-EMD and N-EMD treatments effectively induced starch molecular restructuring.The double emulsion droplets constructed from N-EMD starch were fine,uniform,and structurally regular,exhibiting the highest lycopene encapsulation efficiency(88%)and loading capacity(66%).During storage,this emulsion exhibited the optimal physical stability and minimal lipid oxidation.In simulated in vitro digestion,its free fatty acid release rate(45%)and Lyc bioavailability(48%)significantly surpassed other groups.In conclusion,enzyme-assisted nano-precipitation(N-EMD)represented the most effective strategy for optimizing oil palm starch properties and constructing efficient starch-based delivery systems.This study pioneers new pathways for high-value utilization of jatropha starch and provides theoretical foundations and technical references for developing high-performance food-grade delivery carriers for bioactive compounds.
刘战霞;吴洪斌;陈亚淑;张珊;金新文;贾文婷
新疆农垦科学院农产品加工研究所,新疆石河子 832000新疆农垦科学院农产品加工研究所,新疆石河子 832000中国农业科学院油料作物研究所,油料脂质化学与营养湖北省重点实验室,湖北 武汉 430062中国农业科学院油料作物研究所,油料脂质化学与营养湖北省重点实验室,湖北 武汉 430062新疆农垦科学院农产品加工研究所,新疆石河子 832000新疆农垦科学院农产品加工研究所,新疆石河子 832000
轻工纺织
油莎豆淀粉酶法协同改性淀粉基双乳液体系理化性质稳定性
Cyperus esculentus starchenzymatic synergistic modificationstarch-based double emulsion systemphysico-chemical propertiesstability
《食品工业科技》 2026 (12)
37-45,9
新疆农垦科学院院级科研项目(2024YJQN10)兵团重点领域科技攻关项目(2024AB031)兵团番茄优势特色产业集群(2410307009)油莎豆精深加工农业科技示范基地(2024YD026-26)兵团青年科学项目(2025DB023).
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