高效逆流色谱法制备苏木中的氧化巴西木素

氧化巴西木素是苏木的主要化学成分之一,具有广泛的药理活性且常作为染色剂应用于各行各业。采用传统柱色谱法进行分离,不仅会造成色谱柱材料的污染,也会造成活性成分的损失。故采用高效逆流色谱(HPCCC)对苏木中的活性化合物氧化巴西木素进行分离纯化。苏木乙醇提取物经乙酸乙酯萃取后直接进行高效逆流色谱分离。首先利用基于薄层色谱的常用溶剂体系估算法和摇瓶法结合高效逆流色谱分析模式进行溶剂体系筛选。结果表明,最佳溶剂体系为氯仿-甲醇-水(4∶3∶2, v/v/v)。高效逆流色谱以反相模式为洗脱模式,主机转速为1600 r/min,流速为10 mL/min,分离温度为25 ℃,检测波长为285 nm,在氯仿-甲醇-水(4∶3∶2, v/v/v)溶剂体系下,从500 mg苏木乙酸乙酯萃取物中一次性分离制备得到15.2 mg纯度为95.6%的氧化巴西木素及一微量成分caesappanin C。采用高效逆流色谱分离制备氧化巴西木素,可避免苏木中的活性成分氧化巴西木素对色谱柱中的固体填充材料染色和难以洗脱等问题,并缩短分离纯化工作时间,提高工作效率。故可将高效逆流色谱应用到苏木中其他色素化合物或其他染料植物的分离制备工艺研究中。     

专利

一种逆流色谱法分离苦马豆素的方法公开号:CN103073544A公开日:2013.05.01申请人:中国科学院兰州化学物理研究所摘要本发明公开了一种逆流色谱法分离苦马豆素的方法。本发明以甲基叔丁基醚、正丁醇以及水混合后静置分层,构成逆流色谱固定相、流动相的溶剂体系;将固定相以较大流速泵入逆流色谱仪分离柱中;待柱中充满固定相后,开机,使     

《制备色谱技术及应用》(第二版)

(ISBN 978-7-122-11958-2)该书从色谱科学的角度详细地阐述了制备色谱的原理、重要的实验技术、关键性色谱分离技巧及其应用。内容包括制备色谱的基础知识、制备薄层色谱、常压柱色谱、低压及中压柱色谱、高压制备液相色谱、高速逆流色谱、模拟移动床色谱、顶替色谱、制备气相色谱、电泳以及与制备色谱技术紧密相关的生物代谢产物的提取分离技术等。本书对制备色谱技术的系统介绍具有简明、系统、全面的特点。     

逆流色谱仪器装置的研究进展

逆流色谱是一种快速、高效、无固定相载体的新型液-液分配色谱技术.综述了高速逆流色谱、双向逆流色谱、正交轴逆流色谱、pH-区带精制逆流色谱及螺线型圆盘柱式逆流色谱仪器装置的研究进展,介绍了高速逆流色谱-质谱联用技术、高速逆流色谱.蒸发光散射联用技术、高速逆流色谱.高效液相色谱联用技术及二维逆流色谱技术的发展状况.     

逆流色谱研究进展

逆流色谱(Counter-current chromatography,CCC)是以分析物在液-液两相溶剂中的分配差异为核心的快速分离技术.近年来,逆流色谱对复杂样品的分离,尤其是对天然产物的分离已获得广泛的关注.本文综述了近年来逆流色谱在仪器改进、溶剂体系筛选等领域的研究进展,并介绍了CCC在分离手性化合物中的应用前景.最后,对该领域未来的研究内容进行了展望.     

书刊征订

《制备色谱技术及应用》(第二版)(ISBN 978-7-122-11958-2)该书从色谱科学的角度详细地阐述了制备色谱的原理、重要的实验技术、关键性色谱分离技巧及其应用。内容包括制备色谱的基础知识、制备薄层色谱、常压柱色谱、低压及中压柱色谱、高压制备液相色谱、高速逆流色谱、模拟移动床色     

手性逆流色谱的研究进展

总结了手性逆流色谱的5个特点,系统地介绍了逆流色谱的手性分离以及高速逆流色谱手性分离中氨基酸衍生物、环糊精衍生物、手性有机酸、多糖衍生物、牛血清白蛋白等手性选择剂的应用。     

高速逆流色谱研究进展

综述了近年来高速逆流色谱（HSCCC）在分析、半制备和制备分离天然产物、蛋白质、抗生素、无机物等领域的研究和应用进展,总结了适用于HSCCC的溶剂体系,并展望了HSCCC与质谱联用、pH区带逆流色谱和离子对逆流色谱新技术的应用前景。     

手性配体交换色谱的研究进展

手性配体交换色谱技术将配体交换原理与色谱技术相结合,拓宽了液相色谱、电泳以及逆流色谱的应用层面,为部分难分离手性物质提供了有效的分离与检测方法。该文参考了近年来国内外的相关文献,综述了手性配体交换技术在液相色谱、电泳与逆流色谱等领域中的应用进展;总结了手性配体交换色谱技术的基本原理、影响因素、优缺点等,并对手性配体交换色谱技术的趋势进行了展望。     

离线全二维逆流色谱-液相色谱分离莪术油成分

中药挥发油成分复杂,一维色谱分离由于有限的峰容量难以完全分离中药挥发油成分,全二维气相色谱为分离挥发油成分提供了有力的方法,然而气相色谱一般无法用于天然活性成分的筛选。为建立挥发油成分全二维色谱分析新方法,研究建立以液相色谱为基础的全二维色谱分离分析方法。本文主要研究全二维逆流色谱-液相色谱分离莪术油成分的方法,并探讨两种色谱技术之间的正交性,为活性成分筛选提供新的技术支持。通过优化离线全二维逆流色谱-液相色谱分离方法,对全二维色谱峰容量、正交性和空间覆盖率进行度量。优化液相色谱分析条件并筛选逆流色谱分离两相溶剂体系,通过比色法筛选了逆流色谱两相溶剂体系并采用下相为流动相进行梯度洗脱。在290～375 min采用推挤洗脱,莪术油在第一维逆流色谱分离中达到了良好的分离。第二维反相高效液相色谱的流动相组成为乙腈(A)和水(B)。梯度洗脱程序为0～10 min, 50%A～65%A; 10～14 min, 65%A; 14～21 min, 65%A～85%A; 21～25 min, 85%A～95%A; 25～30 min, 95%A～55%A; 30～40 min, 55%A。在上述条件下...     

高速逆流色谱技术分离纯化天然产物中黄酮类化合物的研究进展

高速逆流色谱(HSCCC)技术是一种连续高效的新型液-液分配色谱技术,在中药、生化、食品、天然产物化学、环境分析等领域有着广泛的应用.本文综述了部分利用高速逆流色谱技术分离纯化已知和未知黄酮类化合物的文献报道,并介绍了几种新近发展的高速逆流色谱以及其在分离纯化黄酮类化合物和其它化合物中的应用.     

An overview of recent progress in multiple dual-mode counter-current chromatography

Counter-current chromatography is a chromatographic separation and purification technique being developed. The development of different elution modes has significantly contributed to this field. Multiple dual-mode elution is a method developed based on dual-mode elution, which consists of a series of changing cycles of the phase role and the direction by switching between normal and reverse elution modes of counter-current chromatography. This dual-mode elution method takes full advantage of the liquid nature of stationary and mobile phases of counter-current chromatography and effectively improves the separation efficiency. So, this unique elution mode has gained extensive attention for separating complex samples. This review mainly describes and summarizes in detail its development, applications, and characteristics in recent years. Meanwhile, its advantages, limitations, and future outlook also have been discussed in this paper.     

Separations of flavonoids and alkaloids in medicinal herbs by high-speed counter-current chromatography

Counter-current chromatography is a new liquid-liquid partition chromatography without using solid support. Recently, the technique has been remarkably improved in both partition efficiency and separation time. In this paper the capability of this high-speed counter-current chromatography was demonstrated on separation of two sets of samples obtained from medicinal herbs: a synthetic mixture of 3'-hydroxygenkwanin, luteolin and apigenin was separated on a two-phase solvent system composed of chloroform-methanol-water (4:3:2, v/v/v) and a crude ethanol extract from Anisodus tangulicus (Maxin) Pasch on chloroform-0.07 M sodium phosphate (pH 6.4) (1:1, v/v). In the light of chromatograms obtained from these samples, advantages of high-speed counter-current chromatography over other chromatographic methods were discussed in terms of partition efficiency, peak resolution, separation time, sample loading capacity, etc.     

Separation of alkaloids from herbs using high-speed counter-current chromatography

Alkaloids represent a most widespread group of bioactive natural products. Because of their alkalinity and structural diversity, the fractionation and purification of the alkaloids from herbs can often present a number of practical difficulties using the conventional chromatographic techniques. High-speed counter-current chromatography (HSCCC) is a liquid-liquid partition chromatography with a support-free liquid stationary phase, and is gaining more and more popularity as a viable separation technique for bioactive compounds from natural resources. In the present review, focus is placed on the separation of alkaloids by both conventional HSCCC and pH-zone-refining counter-current chromatography (CCC) techniques from herbs. The review presents the separation of over 120 different alkaloid compounds from more than 30 plant species by the conventional HSCCC and pH-zone-refining CCC. Based on the data from the literature, the proper solvent systems for the separation of alkaloids by the conventional HSCCC and pH-zone-refining CCC are also summarized.     

Preparative separation of gambogic acid and its C-2 epimer using recycling high-speed counter-current chromatography

A recycling counter-current chromatographic system was first set up with a high-speed counter-current chromatography instrument coupled with a column switching valve. This system was first successfully applied to the preparative separation of epimers, gambogic acid and epigambogic acid from Garcinia hanburyi using n-hexane-methanol-water (5:4:1, v/v/v) as the two-phase solvent system. As a result, 28.2 mg gambogic acid and 18.4 mg epigambogic acid were separated from 50 mg of mixture. Their purities were both above 97% as determined by HPLC. The chemical structures were then identified by their (1)H NMR and (13)C NMR spectra.     

Linear two-step gradient counter-current chromatography analysis based on a recursive solution of an equilibrium stage model

The implementation of gradients in continuously operated chromatographic counter-current processes has recently attracted considerable interest as a method to improve the performance of this effective separation method. If liquid mobile phases are applied it is advantageous to set the solvent strength in the desorbent stream higher than that in the feed stream. As a consequence. the components to be separated are more retained in the adsorption zones and more easily eluted in the desorption zones. Due to the additional degrees of freedom the design and the optimization of such a two-step gradient counter-current process is difficult. In this paper a steady state equilibrium stage model is used to simulate the process under linear conditions. A simple solution of the underlying model equations is presented capable to describe efficiently the unit for large stage numbers typically encountered in chromatographic columns. Due to the rapidity of the algorithm developed a broad range of operating conditions can be evaluated systematically for different types of gradients. The impact of (a) the functional dependence of the adsorption equilibrium constants on the solvent composition, (b) the number of equilibrium stages and (c) the specification of purity requirements is illustrated and discussed based on results of parametric calculations. The results achieved emphasize the potential of two-step gradient counter-current chromatography.     

Impact of adsorption isotherm parameters on the performance of enantioseparation using simulated moving bed chromatography

Often there are several chromatographic systems, i.e., combinations of mobile and stationary phases, available to solve a certain separation problem. Essential differences of these chromatographic systems are the separation factors and the efficiencies. For preparative applications in addition also the column saturation capacities and solubility limits are of importance. The impact of all these parameters appears to be rather well understood for conventional overloaded elution chromatography using a single column. In the last years the continuous simulated moving bed (SMB) process was increasingly used as a powerful alternative to batch elution since increased productivities and reduced solvent consumptions could be realised. However, the selection of suitable chromatographic systems is more sophisticated for this process. In this paper five different chromatographic systems capable of separating the enantiomers of mandelic acid are compared based on the achievable productivities using SMB chromatography. For these five systems the adsorption isotherms have been determined experimentally. Subsequently, an analysis of the SMB process was performed numerically using a well-established model.     

Effect of Coriolis force on counter-current chromatographic separation by centrifugal partition chromatography

The effect of Coriolis force on the counter-current chromatographic separation was studied using centrifugal partition chromatography (CPC) with four different two-phase solvent systems including n-hexane-acetonitrile (ACN); tert-butyl methyl ether (MtBE)-aqueous 0.1% trifluoroacetic acid (TFA) (1:1); MtBE-ACN-aqueous 0.1% TFA (2:2:3); and 12.5% (w/w) polyethylene glycol (PEG) 1000-12.5% (w/w) dibasic potassium phosphate. Each separation was performed by eluting either the upper phase in the ascending mode or the lower phase in the descending mode, each in clockwise (CW) and counterclockwise column rotation. Better partition efficiencies were attained by the CW rotation in both mobile phases in all the two-phase solvent systems examined. The mathematical analysis also revealed the Coriolis force works favorably under the CW column rotation for both mobile phases. The overall results demonstrated that the Coriolis force produces substantial effects on CPC separation in both organic-aqueous and aqueous-aqueous two-phase systems.     

Separation of solanesol in tobacco leaves extract by slow rotary counter-current chromatography using a novel non-aqueous two-phase solvent system

Non-aqueous solvent system composed of sunflower oil-ethanol was found to be suitable for the separation of lower polarity components. Employing this solvent system, 3 g of tobacco leaves extract containing 15% solanesol was separated using a slow rotary counter-current chromatograph equipped with an 1100 mL column made of 5.7 mm I.D. convoluted PTFE tube. The separation yielded 1.5 g of yellow oily product in which solanesol occupied 26.8% determined by HPLC. The tobacco tar and other main impurities in the tobacco leaves extract were removed after slow rotary counter-current chromatographic separation. The separation processing may be developed as a technique for producing a solanesol product with food grade.