逆流色谱分离中选择性试剂的应用研究进展

逆流色谱中添加选择性试剂可有效提高分离度,常用选择性试剂主要有金属离子、多糖衍生物、阴离子表面活性剂、离子对、手性试剂、p H-区带逆流色谱中酸碱试剂等6类。该文综述了国内外选择性试剂在逆流色谱分离中的应用研究进展,介绍了其基本原理,阐述了不同选择性试剂的适用范围,并展望了选择性试剂发展的新趋势。     

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.     

环糊精衍生物气相色谱手性固定相研究进展

评述近年环糊精衍生物气相色谱手性固定相的研究进展,对环糊精衍生物进行分类并总结了近年来其在GC手性分离上的应用,介绍环糊精衍生物的手性分离机制及纯度问题进展,展望环糊精衍生物作GC手性固定相的应用前景。     

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。     

手性固定相毛细管电色谱在手性药物分离中的应用研究进展

综述了多糖衍生物、蛋白质、大环类、Prikle型、配体交换和分子印迹聚合物为手性固定相在毛细管电色谱分离手性药物中的应用.分析了各类手性固定相的分离机理,引用文献62篇.     

多糖衍生物类固定相在高效液相色谱手性分离中的应用进展

评述了多糖衍生物手性固定相在高效液相色谱手性分离中的应用进展，介绍了多糖衍生物手性固定相的主要类型，阐述了手性拆分机理和影响手性拆分的因素，引用文献66篇。     

大分子键合型手性固定相的研究进展

高效液相色谱（HPLC）被广泛认为是分离制备光学纯单一对映体最有效的方法。在高效液相色谱手性拆分中,手性固定相的性能直接影响到色谱柱的手性分离能力。在众多手性固定相中,键合型手性固定相具有溶剂耐受性好,分离模式灵活等优点,是很重要的一大类手性固定相。本文主要针对大分子键合型手性固定相,包括多糖衍生物键合型手性固定相、蛋...     

高效液相色谱中的纤维素衍生物手性固定相

评述了高效液相色谱中纤维素衍生物手性固定相直接拆分对映体的进展，介绍了纤维素衍生物的主要类型，纤维素衍生物作手性固定相三种不同方式的特点以及新的纤维素衍生物手性固定相应用，并结合色谱，NMR和分子模型设计和理论计算等方法讨论了纤维素衍生物手性固定的拆分机理。     

柱前衍生化高效液相色谱手性固定相法拆分手性氰醇

利用正相高效液相色谱法在多糖衍生物手性固定相(OJ-H、OD-H、AD-H或AS-H)上成功地分离了一系列(31个)氰醇对映体的乙酰化或丙酰化衍生物,并拆分了3个脂肪族氰醇对映体的乙酰化衍生物。探讨了这些外消旋体在这四支手性柱上的色谱行为,通过考察流动相组成、流速、进样浓度和温度等因素对对映体拆分效果的影响,优化了色谱分离条件。方法已应用于脂肪酶催化转酯化拆分反应中手性氰醇衍生物的光学纯度的鉴定。     

pH区带逆流色谱研究进展

pH区带逆流色谱是在逆流色谱基础上发展起来的一种新型制备型分离技术。利用物质解离常数和疏水性的不同进行分离,具有分离量大、分离效果好等优点,应用领域比较广泛;简单介绍了该技术的分离原理及分类,并对该技术在氨基酸衍生物、肽衍生物、染料、生物碱和异构体等分离纯化中的应用及其改进方向进行了较为全面的总结,展望了其发展前景。     

Enantioseparation of acetyltropic acid by countercurrent chromatography with sulfobutyl ether‐β‐cyclodextrin as chiral selector

Acetyltropic acid is an important synthetic intermediate for preparation of tropane alkaloid derivatives, which can be used as anticholinergic drugs, deliriants, and stimulants. In the present work, acetyltropic acid was successfully enantioseparated by countercurrent chromatography using sulfobutyl ether‐β‐cyclodextrin as chiral selector. A biphasic solvent system composed of n‐butyl acetate/n‐hexane/0.1 mol/L citrate buffer at pH = 2.2 containing 0.1 mol/L of sulfobutyl ether‐β‐cyclodextrin (7:3:10, v/v) was selected, which produced a suitable distribution ratio D_S = 1.14, D_R = 2.31 and a high enantioseparation factor α = 2.03. Baseline separation was achieved for preparative enantioseparation of 50 mg of racemic acetyltropic acid. A method for chiral analysis of acetyltropic acid by conventional reverse phase liquid chromatography with hydroxylpropyl‐β‐cyclodextrin as mobile phase additive was established, and formation constants of inclusion complex were determined. It was found that different substituted β‐cyclodextrin should be selected for enantioseparation of acetyltropic acid by countercurrent chromatography and reverse phase liquid chromatography.     

Enantioseparation of 3‐phenyllactic acid by chiral ligand exchange countercurrent chromatography

3‐Phenyllactic acid is an antimicrobial compound with broad‐spectrum activity against various bacteria and fungus. The observed difference in pharmacological activity between optical isomeric 3‐phenyllactic acid necessitates a method for enantioseparation. Chiral ligand exchange countercurrent chromatography was investigated for the enantioseparation of 3‐phenyllactic acid with a synthesized chiral ligand. A two‐phase solvent system was composed of n‐butanol/hexane/water (0.4:0.6:1, v/v/v) to which N‐n‐dodecyl‐l ‐hydroxyproline was added to the organic phase as chiral ligand and cupric acetate was added in the aqueous phase as a transitional metal ion. The influence factors were optimized by enantioselective liquid–liquid extraction. Baseline enantioseparation of racemic 3‐phenyllactic acid by analytical high‐speed countercurrent chromatography was achieved. The optical purities of enantiomeric 3‐phenyllactic acid reached 99.0%, as determined by chiral high‐performance liquid chromatography.     

Chiral ligand exchange countercurrent chromatography: Enantioseparation of amino acids

This work deals with the enantioseparation of α‐amino acids by chiral ligand exchange high‐speed countercurrent chromatography using N‐n‐dodecyl‐l ‐hydroxyproline as a chiral ligand and copper(II) as a transition metal ion. A biphasic solvent system composed of n‐hexane/n‐butanol/aqueous phase with different volume ratios was selected for each α‐amino acid. The enantioseparation conditions were optimized by enantioselective liquid–liquid extractions, in which the main influence factors, including type of chiral ligand, concentration of chiral ligand and transition metal ion, separation temperature, and pH of the aqueous phase, were investigated for racemic phenylalanine. Altogether, we tried to enantioseparate 15 racemic α‐amino acids by the analytical countercurrent chromatography, of which only five of them could be successfully enantioseparated. Different elution sequence for phenylalanine enantiomer was observed compared with traditional liquid chromatography and the proposed interactions between chiral ligand, transition metal ion (Cu²⁺), and enantiomer are discussed.     

Preparative enantioseparation of loxoprofen precursor by recycling countercurrent chromatography with hydroxypropyl‐β‐cyclodextrin as a chiral selector

Recycling countercurrent chromatography was successfully applied to the resolution of 2‐(4‐bromomethylphenyl)propionic acid, a key synthetic intermediate for synthesis of nonsteroidal anti‐inflammatory drug loxoprofen, using hydroxypropyl‐β‐cyclodextrin as chiral selector. The two‐phase solvent system composed of n‐hexane/n‐butyl acetate/0.1 mol/L citrate buffer solution with pH 2.4 (8:2:10, v/v/v) was selected. Influence factors for the enantioseparation were optimized, including type of substituted β‐cyclodextrin, concentration of hydroxypropyl‐β‐cyclodextrin, separation temperature, and pH of aqueous phase. Under optimized separation conditions, 50 mg of 2‐(4‐bromomethylphenyl)propionic acid was enantioseparated using preparative recycling countercurrent chromatography. Technical details for recycling elution mode were discussed. The purities of both the S and R enantiomers were over 99.0% as determined by high‐performance liquid chromatography. The enantiomeric excess of the S and R enantiomers reached 98.0%. The recovery of the enantiomers from eluted fractions was 40.8–65.6%, yielding 16.4 mg of the S enantiomer and 10.2 mg of the R enantiomer. At the same time, we attempted to enantioseparate the anti‐inflammatory drug loxoprofen by countercurrent chromatography and high‐performance liquid chromatography using a chiral mobile phase additive. However, no successful enantioseparation was achieved so far.     

Developments in high‐speed countercurrent chromatography and its applications in the separation of terpenoids and saponins

High‐speed countercurrent chromatography is a liquid–liquid separation chromatographic technique, which has the unique feature of eliminating irreversible adsorption using liquid support medium, and is widely used in research and development of traditional Chinese medicine, biochemistry, food, environment analysis, and so on. In this review, some new developments of countercurrent chromatography, for instance cross‐axis countercurrent chromatography, dual countercurrent chromatography, foam countercurrent chromatography, and pH‐zone‐refining countercurrent chromatography are presented. Furthermore, the research and progress in high‐speed countercurrent chromatography techniques and its application in the separation and purification of terpenoids and saponins are reviewed.     

Separation of epimeric aromatic acid (−)‐menthol esters by countercurrent chromatography using hydroxypropyl‐β‐cyclodextrin as an additive

The separation of ten epimeric aromatic acid (−)‐menthol esters by countercurrent chromatography with hydroxypropyl‐β‐cyclodextrin as the mobile phase additive was investigated, and methods for the analysis of all the epimeric esters by reversed‐phase high‐performance liquid chromatography were established. A biphasic solvent system composed of n‐hexane/20–70% methanol containing 50 mmol/L of hydroxypropyl‐β‐cyclodextrin (1:1, v/v) was selected, which provided high separation factors for five of the epimeric esters, and successful separations by countercurrent chromatography were achieved. The complete separation of five pairs of epimeric ester was obtained with the purity being over 98% for each peak fractions, as determined by high‐performance liquid chromatography. The recovery of each analyte from the eluted fractions reached around 80–88%.     

Preparative mass‐spectrometry profiling of minor concentrated metabolites in Salicornia gaudichaudiana Moq by high‐speed countercurrent chromatography and off‐line electrospray mass‐spectrometry injection

Salicornia species have just been introduced to the European market as a vegetable named ‘samphire’, ‘green asparagus’, or ‘sea asparagus’. Due to its increasing attention, and associated value, minor compounds of Salicornia gaudichaudiana Moq were investigated. The use of countercurrent chromatography and mass spectrometry enabled the search for known, as well as potentially novel natural products. Their identification was achieved based on molecular weights and mass‐spectrometric fragmentation data. Low detection limits enabled the visualization of all compounds with their identification in almost real time close to the preparative countercurrent chromatography experiment. A list of known natural products from Salicornia genus guided the identification process of compounds occurring in Salicornia gaudichaudiana Moq by tandem mass spectrometry fragment comparison. The natural product classes were divided into four groups: chlorogenic acid derivatives; flavonoid derivatives; pentacyclic triterpenoid saponins; and other compounds.     

Separation of three polar compounds from Rheum tanguticum by high‐speed countercurrent chromatography with an ethyl acetate/glacial acetic acid/water system

The separation of polar compounds by high‐speed countercurrent chromatography is still regarded as a challenge. In this study, an efficient strategy for the separation of three polar compounds from Rheum tanguticum has been successfully conducted by using high‐speed countercurrent chromatography. X‐5 macroporous resin chromatography was used for the fast enrichment of the target compounds. Then, the target fraction was directly introduced into high‐speed countercurrent chromatography for separation using ethyl acetate/glacial acetic acid/water (100:1:100, v/v/v) as the solvent system. Consequently, three polar compounds including gallic acid, catechin, and gallic acid 4‐O‐β‐d ‐(6′‐O‐galloyl) glucoside were obtained with purities higher than 98%. The results showed glacial acetic acid could be such an appropriate regulator for the ethyl acetate/water system. This study provides a reference for the separation of polar compounds from natural products by high‐speed countercurrent chromatography.     

Enantioseparation of 2‐(substituted phenyl)propanoic acids by high‐speed countercurrent chromatography and investigation of the influence of substituents in enantiorecognition

This paper concentrates on the enantioseparation of racemic 2‐(substituted phenyl)propanoic acids by high‐speed countercurrent chromatography with substituted β‐cyclodextrin as the chiral selector, and an investigation of the influence of the substituent on the benzene ring in enantiorecognition between the chiral selector and enantiomer of each racemate is presented. This is an extension research of our previous work on the enantioseparation of 2‐phenyl propanoic acid derivatives, to investigate the relationship between the value of enantioseparation factor and the different substituent on the benzene ring. In total, ten racemic 2‐(substituted phenyl)propanoic acids were investigated, of which four including 2‐(4‐nitrophenyl)propanoic acid, 2‐(4‐methylphenyl)propanoic acid, 2‐(4‐hydroxyphenyl)propanoic acid, and 2‐(4‐chlorophenyl)propanoic acid, were studied by countercurrent chromatography for the first time, and two racemates were successfully enantioseparated. The distribution ratio and enantioseparation factor for all the ten racemates were determined by enantioselective liquid–liquid extraction. The results showed that an electron‐donating group on the benzene ring presents a higher enantiorecognition induced by chiral selector than that of racemates with an electron‐withdrawing group on the benzene ring.     

Chiral separation of brompheniramine enantiomers by recycling high‐speed countercurrent chromatography using carboxymethyl‐β‐cyclodextrin as a chiral selector

A recycling high‐speed countercurrent chromatography protocol was proposed for the enantioseparation of brompheniramine by employing β‐cyclodextrin derivatives as a chiral selector. The two‐phase solvent system of n‐hexane/isobutyl acetate/0.10 mol/L phosphate buffer solution with a volume ratio of 2:4:6 was selected by a series of extraction experiments. Factors that affected the distribution of the enantiomers over the two‐phase system (e.g., the type and concentration of β‐cyclodextrin derivatives = pH value of the aqueous solution, and the separation temperature) were also investigated. In addition, the theory of thermodynamics is applied to verify the feasibility of the enantioseparation process and the corresponding results demonstrate that this separation process is feasible. The optimized conditions include carboxymethyl‐β‐cyclodextrin concentration of 0.010 mol/L, pH of 7.5, and temperature of 5°C. Under the optimal conditions, the purities of both monomer molecules were over 99%, and the recovery yields were 88% for (+)‐brompheniramine and 85% for (–)‐brompheniramine, respectively.