摘要
从黄连中高效提取小檗碱等生物活性物质对于中药资源有效利用具有重要意义。然而,黄连中异喹啉类生物碱具有较为相近的化学结构和理化性质,导致高效提取难度增大。离子液体作为优异的反应介质在天然活性物质提取中显示出良好的前景。同时,微波作为新型辅助手段有利于天然植物中药物活性组分的提取和分析研究。以黄连为研究对象,采用离子液体-微波辅助联合方法,提取药用植物中的有效成分小檗碱,实现过程强化与高效提取。研究以离子液体-水溶液为溶剂的微波辅助法,重点考察提取过程中离子液体种类以及固液比、溶液pH、微波时间、微波加热温度、微波功率等工艺条件对提取收率的影响。此外,基于现代密度泛函理论的分子模拟计算,研究微波外场和不同离子液体在小檗碱提取过程中的作用,从分子尺度上揭示离子液体与小檗碱相互作用的物理本质。
The efficient extraction of berberine and other biologically active substances from Coptis chinensis is of great significance for the effective utilization of traditional Chinese medicine resources.However,the isoquinoline alkaloids in Coptis chinensis have relatively similar chemical structures and physicochemical properties,resulting in increased difficulty in efficient extraction.Ionic liquids as excellent reaction media exhibit good prospects in the extraction of natural active substances.At the same time,microwave as a new type of auxiliary method is beneficial to the extraction and analysis of pharmaceutical active components in natural plants.In this study,berberine,an effective component in medicinal plants,was extracted by ionic liquid and microwave co-assisted method to achieve the strengthened processes and high-efficient extraction.The effects of ionic liquid species,solid-liquid ratio,solution pH,microwave heating time,microwave temperature and microwave power on extraction yield wereinvestigated in details.In addition,by using the molecular simulation calculations based on modern density functional theory,the effects of microwave and different ionic liquids on the extraction of berberine were studied.The physical nature of the interaction between ionic liquids and berberine was revealed at the molecular scale.
作者
吴玉花
丁欣
李小露
高红凤
冯炜
白红存
郭庆杰
WU Yuhua;DING Xin;LI Xiaolu;GAO Hongfeng;FENG Wei;BAI Hongcun;GUO Qingjie(State Key Laboratory of High-efficiency Utilization of Coal and Green Chemical Engineering,National Demonstration Center for Experimental Chemistry Education,College of Chemistry and Chemical Engineering,Ningxia University,Yinchuan 750021,Ningxia,China)
出处
《化工学报》
EI
CAS
CSCD
北大核心
2020年第7期3123-3131,共9页
CIESC Journal
基金
宁夏大学自然科学基金项目(ZR1316)
宁夏高等学校一流学科建设项目(NXYLXK2017A04)。
关键词
离子液体
浸取
药物
微波
小檗碱
ionic liquids
leaching
pharmaceuticals
microwave
berberine