岩黄连细胞生长与营养物质消耗的动态学研究

在岩黄连细胞悬浮培养过程中,对培养液pH值,碳源、氮源和磷酸盐含量,以及细胞生物量和生物碱含量进行测定,分析其动态变化过程。结果显示培养液pH值在培养初期降低,后逐渐升高;碳源在培养过程中逐渐被利用,磷酸盐和氮源在培养中期几乎耗尽,其中磷酸盐的消耗速率最快;悬浮细胞的生长周期为20 d左右,第18天细胞鲜重和干重达最大,而第21天脱氢卡维丁和小檗碱的含量最高,分别为8.22mg/L和4.31mg/L。结果表明营养物质(碳、氮和磷)的吸收与细胞生长以及生物碱的合成密切相关,营养元素的相对消耗速率为磷>氮>碳,推测氮和磷是影响岩黄连细胞培养的主要因素。     

放大培养对岩黄连细胞悬浮培养的影响

为了优化岩黄连细胞悬浮培养的条件,研究了在放大培养过程中,岩黄连细胞生长与主要营养成分的代谢动力学,以及生物碱的产生情况。结果表明,在不同培养体系下,细胞生长曲线均呈现"S"型。随着培养体积从50、100 mL放大到500 mL和1 L,培养液中碳源、氮源和磷源的消耗减慢,细胞生物量减少,生物碱产量降低。其中100 mL培养体系所获生物量最高,达到15.2 g/L,生物碱产量也最高,脱氢卡维丁为8.35 mg/mL,小檗碱为4.58 mg/mL。根据本文结果,提出了岩黄连细胞培养条件的优化和大规模细胞培养生产岩黄连生物碱应采取的策略。     

Application of microwave‐assisted extraction coupled with high‐speed counter‐current chromatography for separation and purification of Dehydrocavidine from Corydalis saxicola Bunting

Introduction – Dehydrocavidine is a major component of Corydalis saxicola Bunting with sedative, analgesic, anticonvulsive and antibacterial activities. Conventional methods have disadvantages in extracting, separating and purifying dehydrocavidine from C. saxicola. Hence, an efficient method should be established. Objective – To develop a suitable preparative method in order to isolate dehydrocavidine from a complex C. saxicola extract by preparative HSCCC. Methodology – The methanol extract of C. saxicola was prepared by optimised microwave‐assisted extraction (MAE). The analytical HSCCC was used for the exploration of suitable solvent systems and the preparative HSCCC was used for larger scale separation and purification. Dehydrocavidine was analysed by high‐performance liquid chromatography (HPLC) and further identified by ESI‐MS and 1H NMR. Results – The optimised MAE experimental conditions were as follows: extraction temperature, 60°C; ratio of liquid to solid, 20; extraction time, 15 min; and microwave power, 700 W. In less than 4 h, 42.1 mg of dehydrocavidine (98.9% purity) was obtained from 900 mg crude extract in a one‐step separation, using a two‐phase solvent system composed of chloroform–methanol–0.3 m hydrochloric acid (4 : 0.5 : 2, v/v/v). Conclusion – Microwave‐assisted extraction coupled with high‐speed counter‐current chromatography is a powerful tool for extraction, separation and purification of dehydrocavidine from C. saxicola. Copyright © 2009 John Wiley & Sons, Ltd.