作 者:邓利[1] 孙猛[1] 谭天伟[1] 王芳[1] Janson Jan Christer
机构地区:[1]北京化工大学生命科学与技术学院 [2]Surface Biotechnology Centre,Uppslal University,Sweden
出 处:《中草药》2004年第10期1105-1109,共5页Chinese Traditional and Herbal Drugs
基 金:国家自然科学基金资助项目(29976004);��北京自然科学基金博士点基金资助项目(2032013);��教育部优秀青年教学科技奖励基金资助;��霍英东奖励基金资助
摘 要:目的 考察以β-环糊精(β-CD)为键合固定相的色谱柱分离纯化银杏叶提取物和银杏黄酮的影响因素。方法 以色谱图中色谱峰的个数和目标物为离度为指标,采用低压液相色谱技术对银杏叶提取物和银杏黄酮进行分离纯化。同时比较固定相、流动相、缓冲液、pH值、洗脱速度和上样体积对分离结果的影响。结果 氯代环氧丙烷偶联β-CD-Superose 12 pg键合相能够较好地分离银杏叶提取物和银杏黄酮,优于葡聚糖凝胶Sephardex LH-20。结论 β-环糊精键合固定相适用于银杏叶提取物和银杏黄酮的分离与纯化。Object Study on the effect factors of chromatographic column bonded by β-cyclodextrin(β-CD)-Superose 12 pg for separation and purification of Ginkgo biloba leaf extract (GBLE) and Ginkgo biloba flavone (GBF). Methods Nomuber of chromatographic peaks and resolution of desired peak as indexes, low pressure column chromatography was carried out to separate and purify GBLE and GBF. The separation conditions including stationary phase, mobile phase, buffer, pH value, eluotropic rate, and loading capacity were analyzed. Results Column bonded byβ-CD-Superose 12 pg has better efficiency than Sephadex LH-20 to separate and purify GBLE and GBF. Conclusion The new chromatographic stationary phase is suitable to isolation and purification of GBLE and GBF.
关 键 词:β-环糊精键合固定相 银杏叶提取物 银杏黄酮 分离纯化
分 类 号:R286.02[医药卫生—中药学]
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