涂层技术在毛细管电泳手性分离中的应用

手性是自然界的本质属性之一。手性分离分析技术对生命科学、环境科学、生物工程和药物工程等许多学科都具有十分重要的意义。当前,对不同种类手性化合物进行拆分已成为毛细管电泳技术最具特色的研究和应用领域之一。然而,被分析物(或拆分剂)在毛细管内壁的吸附是毛细管电泳手性分离中的常见问题。涂层技术就是采用不同的方法对毛细管内壁进行改性,是抑制非特异性吸附、提高分离效率及分离重现性最简便和最有效的方法。本文主要综述了近十几年来各种涂层技术在毛细管电泳手性分离领域的应用现状,并对毛细管涂层技术今后的发展进行了展望。     

毛细管电泳在手性化合物分离中的应用

本文综述了近年来毛细管电泳在手性化合物分离中的应用情况。简要地总结和比较了手性配位体金属络合物、环糊精及其衍生物、开环多糖化合物、冠醚、大环化合物等５种典型的手性分子识别剂在毛细管电泳手性分离中的使用现状。     

毛细管电泳在手性氨基酸拆分中的研究进展

毛细管电泳(capillary electrophoresis,CE)作为一种强有力的手性分离技术,由于操作简单、试剂消耗少及柱效高等优点,受到广泛关注,是近年来手性分离领域的研究热点.氨基酸是组成蛋白质的基本单元,且大多数氨基酸具有手性中心,手性氨基酸是生命体系的一个重要特征.具有手性中心的氨基酸,其对映体间的生物活性往往存在着较大的差异,因此,氨基酸的手性拆分对了解人体及动物生命活动起着举足轻重的作用.主要总结了近5年来毛细管电泳的3种分离模式(毛细管区带电泳、胶束电动毛细管色谱、毛细管电色谱)在氨基酸手性拆分中的发展和应用.     

毛细管电泳在手性化合物分离分析中的研究进展

手性化合物的对映异构体往往表现出不同的生理活性,因此建立手性化合物的有效分离分析方法具有重要意义。毛细管电泳（CE）是一种分离效率高、分析速度快、样品用量少、分离模式灵活多样的分离分析方法,在手性化合物的分离和检测领域应用广泛。该文主要综述了2017~2019年CE在手性分离分析方面的最新进展,并对其未来的发展趋势进行了展望。     

制备苯甘氨酸和对羟苯甘氨酸反应过程中有关物质的毛细管电泳手性分析

在毛细管电泳仪上对苯海因、对羟苯海因等外消旋体进行了拆分条件的研究。建立制备苯甘氨酸和对羟苯甘氨酸过程中的反应物、中间体和产物的毛细管电泳手性分析方法。使用磷酸氢二钠 柠檬酸、磷酸 三乙醇胺电泳缓冲液 ,磺酰化β 环糊精作为手性识别试剂 ,6种化合物均获得满意的分离度     

大环抗生素--毛细管电泳手性分离中一种新的手性选择剂

两种类型的大环抗生素对很多外消旋化合物具有显著的手性选择性且手性选择性相互补充:第一种类型含ansamycin (安沙霉素) 特别适合于阳离子外消旋化合物的分离;第二种类型含glycopeptide (糖肽)最适于阴离子的分离.介绍了大环抗生素的结构特征及手性识别机理,讨论了pH值、抗生素类型和浓度、电泳电解质浓度和化学性质、有机改性剂及胶束相等不同实验条件对分离的影响,还概述了几种大环抗生素作为手性选择剂,在毛细管电泳手性分离中的研究近况.     

用环瑚精分离取代四氢—β—咔啉类手性化合物

毛细管电泳是一种分离手性化合物极为有效的工具。本文用β－环糊精作为手性选择剂在ＣＺＥ的模式下对取代四氢β－咔啉类手性化合物进行了成功的拆分。     

羧甲基聚合-β-环糊精作为选择剂应用于毛细管电泳法拆分手性化合物

提出了一种用毛细管电泳拆分3种未衍生化的氨基酸对映体(苯丙氨酸,酪氨酸,色氨酸)和一种手性药物(芬氟拉明)的方法.以水溶性羧甲基聚合-β-环糊精为手性选择荆,采用毛细管区带电泳模式,考察了手性选择剂浓度、缓冲溶液pH值、柱温及电压对分离的影响.4种手性化合物在各自优化的试验条件下,均达到基线分离.此法操作简单,可用于这4种手性化合物的质量控制.     

胶束电动毛细管色谱法分离酮康唑手性异构体

1引言胶束电动毛细管色谱法（MECC）综合了反相高效液相色谱的分配机理和毛细管区带电泳的电渗及电泳机理,实现了对电中性物的分离。由于环糊精（CD）外表面具有亲水性,当其与胶束共存时,不能进入胶束,所以溶液存在三相即：胶束相、水相和CD相。异构体通过与CD形成不同稳定常数的主-客体络合物而达到手性识别,由于十二烷基硫酸钠（SDS）的高疏水性,该方法对分离电中性和疏水性化合物具有突出的优越性。酮康华（ketoconazole）属口服咪唑类抗真菌合成药物,到目前为止,人们对其它手性药物拆分进行了较多的研究,但对酮康唑的研…     

手性离子液体在毛细管电泳手性分离中的应用

简要介绍了手性离子液体用于毛细管电泳手性分离的一般原理,系统地介绍了基于手性离子液体的毛细管电泳对映体拆分的一元手性选择体系和二元手性选择体系,并在国内外研究现状的基础上展望了手性离子液体在毛细管电泳手性分离中的应用前景。     

Azithromycin as a new chiral selector in capillary electrophoresis

In capillary electrophoresis (CE), separation of enantiomers of a chiral compound can be achieved through the chiral interactions and/or complex formation between the chiral selector and the enantiomeric analytes on leaving their diastereomeric forms with different stability constants and hence different mobilities. A great number of chiral selectors have been employed in CE and among them macrocyclic antibiotics exhibited excellent enantioselective properties towards a wide number of racemic compounds. The use of azithromycin (AZM) as a chiral selector has not been reported previously. This work reports the use of AZM as a chiral selector for the enantiomeric separations of five chiral drugs and one amino acid (tryptophan) in CE. The enantioseparation is carried out using polar organic mixtures of acetonitrile (ACN), methanol (MeOH), acetic acid and triethylamine as run buffer. The influences of the chiral selector concentration, ACN/MeOH ratio, applied voltage and capillary temperature on enantioseparation are investigated. The results show that AZM is a viable chiral selector in CE for the enantioseparation of the type of chiral drugs investigated.     

Enantioseparation of dihydrofurocoumarin derivatives by various separation modes of capillary electrophoresis

Chiral dihydrofurocoumarin compounds are currently the focus of industrial and pharmacological research. These derivatives have been shown to possess many physiological properties that could be medically beneficial. This work proposes four different chiral separation methods using capillary electrophoresis and micellar capillary electrophoresis (MCE). Several different cyclodextrin chiral selectors were examined to evaluate their effectiveness in the enantioseparation of dihydrofurocoumarins. In addition, the effects of the chiral selector concentration, the presence of an organic modifier, run buffer pH, and in two cases, the ratio between the chiral selector and an additional charged pseudophase were investigated. Overall, the best separations for this class of chiral compounds were achieved using sulfated beta-cyclodextrins at low pH in the reversed polarity mode.     

Evaluation of the enantioseparation capability of the novel chiral selector clindamycin phosphate towards basic drugs by micellar electrokinetic chromatography

To date, a series of chiral selectors have been utilized successfully in capillary electrophoresis (CE). Among these various chiral selectors, macrocyclic antibiotics have been demonstrated to represent powerful enantioselectivity towards many chiral compounds. Differing from macrocyclic antibiotics, the use of lincosamide antibiotics as chiral selectors has not been reported previously. In our recent work, clindamycin phosphate belonging to the group of lincosamides has been first used as a chiral selector in capillary zone electrophoresis (CZE). In this paper, a micellar electrokinetic chromatography (MEKC) method has been developed for the evaluation of enantioseparation capability of this novel chiral selector towards several racemic basic drugs. As observed during the course of this work, clindamycin phosphate allowed excellent separation of the enantiomers of nefopam, citalopram, tryptophan, chlorphenamine, propranolol and metoprolol, as well as partial enantioresolution of tryptophan methyl ester and cetirizine. In this MEKC chiral separation system, different types of anionic surfactants, organic additives and background electrolytes were tested, and satisfactory enantioseparations of basic drugs above-mentioned were achieved using sodium dodecyl sulfate (SDS) as the surfactant, isopropanol as the organic additive, and phosphate as the background electrolyte. Furthermore, both migration times and enantioseparation of the analytes were influenced by several experimental parameters such as pH of the BGE, clindamycin phosphate and SDS concentrations, phosphate and isopropanol concentrations, and applied voltage. Consequently, the effects of these factors on enantioseparations of the studied basic drugs were systematically investigated in order to evaluate the stereoselectivity of clindamycin phosphate in MEKC.     

Combinatorial enantiomeric separation of diverse compounds using capillary array electrophoresis

Combinatorial chiral separations were performed on a 96-capillary array electrophoresis system. A comprehensive enantioseparation protocol employing neutral and sulfated cyclodextrins as chiral selectors for common basic, neutral and acidic compounds was developed. By using only four judiciously chosen separation buffers, successful enantioseparations were achieved for 49 out of 54 test compounds spanning a large variety of pK and structures. Therefore, unknown compounds can be screened in this manner to identify the optimal enantioselective conditions in just one run.     

毛细管电泳新型手性分离体系研究进展

在现代分离科学中,手性化合物的分离分析一直是研究的重点和难点。相比于高效液相色谱（HPLC）、气相色谱（GC）等传统色谱分析方法,毛细管电泳（CE）技术凭借其高效率、低消耗、分离模式多样化等诸多优势,已经发展成为手性分离研究领域最有应用前景的分析方法之一。近年来,研究人员在CE手性分析方法的构建过程中,基于毛细管电动色谱（EKC）、配体交换毛细管电泳（LECE）、毛细管电色谱（CEC）等各种基础电泳模式,不断地对传统手性分离体系进行优化和改造,构建出了许多高性能的新型手性CE分离体系。如利用各类功能化离子液体以"手性离子液体协同拆分""手性离子液体配体交换""离子液体手性选择剂"等模式设计出多种基于离子液体的CE手性分离体系;利用纳米材料独特的尺寸效应、多样性、可设计性等特点,直接或与传统手性选择剂有机结合构建CE手性分离体系。此外,金属有机骨架材料修饰、低共熔溶剂修饰、非连续分段式部分填充等各式新颖的CE手性分离体系也都被研究人员成功开发,并表现出较大的发展潜力。该综述将对近年来（尤其是2015~2019年）此类新型CE手性分离体系的发展状况进行梳理,并结合相应的手性识别机理研究和手性CE方法实际应用情况,对该领域存在的问题及发展前景进行分析和展望。     

毛细管电泳手性分离中的协同效应

综述了毛细管电泳手性分离中的协同效应。介绍了毛细管电泳手性分离中双手性选择剂的应用情况。表明用CDs/CDs.CDs/crown组成的双选择剂及聚合环糊精衍生物,聚合手性胶束体系有可能改善难拆分的对映体物质的分离效果,展示了协同效应的毛细管电泳拆分复杂物质对映体中的应用前景。     

Simultaneous stereoselective analysis of tramadol and its main phase I metabolites by on-line capillary zone electrophoresis-electrospray ionization mass spectrometry

On-line combination of partial filling capillary electrophoresis and electrospray ionization mass spectrometry was demonstrated for the simultaneous enantioseparation of tramadol and its main phase I metabolites. The partial filling technique was efficient at avoiding MS contamination by the chiral selector. Different experimental factors were investigated, including the chiral selector nature and concentration, plug length as well as the separation temperature. The best enantioseparation of the investigated compounds was achieved with a coated polyvinyl alcohol capillary and a 40 mM ammonium acetate buffer, pH 4.0, adding sulfobutyl ether beta-cyclodextrin (2.5 mg/ml) as the chiral selector. The charged cyclodextrin not only allowed enantioseparation of tramadol and its metabolites, but also improved the selectivity of compounds with the same molecular mass. Finally, CE-electrospray ionisation-MS was successfully applied to the stereoselective analysis of tramadol and its main metabolites in plasma after a simple liquid-liquid extraction.     

A study on the chiral recognition mechanism of enantioseparation of adrenaline and its analogues using capillary electrophoresis

The purpose of this paper was to study the chiral recognition mechanism of enantioseparation of adrenaline and its analogues using capillary electrophoresis. The enantiomeric separation of adrenaline and its analogues has been developed using beta-cyclodextrins as the chiral selectors. All the tested compounds were separated under the same experimental conditions to study the chiral recognition mechanisms, using a low-pH buffer (50 mM Tris buffer at pH 2.5). By means of molecular docking the inclusion course between beta-cyclodextrins and enantiomers was investigated and thus the interaction energy was obtained by molecular mechanics calculations. The results suggest that the difference in interaction energy for the side chain part is most likely responsible for enantiomeric separation.     

Evaluation of the enantioselectivity of glycogen-based dual chiral selector systems towards basic drugs in capillary electrophoresis

Several chiral reagents including cyclodextrins (CDs) and derivatives, crown ethers, proteins, chiral surfactants and polymers have been involved in dual selector systems for enantioseparation of a series of chiral compounds by capillary electrophoresis (CE). In comparison to the chiral reagents above-mentioned, there is no report concerning the use of polysaccharides in dual chiral CE system. In this paper we first investigate the enantioselectivity of polysaccharide-based dual selector systems towards some chiral drugs. During our recent work, glycogen belonging to the class of branched polysaccharides has been used as a novel chiral selector in CE. In this study, three glycogen-based dual chiral CE systems have been established for enantiomeric separations of several racemic basic drugs consisting of duloxetine, cetirizine, citalopram, sulconazole, laudanosine, amlodipine, propranolol, atenolol and nefopam. These three dual systems combined glycogen (neutral polysaccharide) with chondroitin sulfate A (CSA, ionic polysaccharide), β-CD and HP-β-CD, respectively. It was found that the dual system of glycogen/CSA exhibited good enantioselective properties toward the tested drugs. More importantly, compared to the single selector systems, synergistic effect was observed when glycogen was used with CSA for most of the analytes. This indicated the enhancement of enantioseparation observed for these analytes in glycogen/CSA system might be due to some favorable interaction effects between glycogen and CSA. Moreover, in order to evaluate the stereoselectivity of glycogen/CSA, the influences of buffer pH and selector concentration on enantioseparation of the studied drugs were also investigated.     

Chiral Separation of Four Piperidinic Benzoxazolinone Compounds by CE and LC

Capillary electrophoresis with negatively charged cyclodextrins and high performance liquid chromatography on polysaccharide chiral stationary phases have been explored for the enantioseparation of chiral piperidinic benzoxazolinone compounds. Operational parameters such as the nature and the concentration of the chiral selectors in CE and the nature of the polysaccharide stationary phase and the composition of the mobile phase in LC were varied in order to achieve the separation of the all four concerning compounds. Limits of detection and quantification of both methods were evaluated under the optimal conditions.