高效液相色谱讲座（Ⅵ）化学键合固定相色谱（下）

6—4 反相色谱 反相色谱通常是指以具有非极性表面的担体为固定相,以比固定相极性更强的溶剂系统为流动相的色谱分离。一个典型的例子就是在十八烷基硅烷键合相上用甲醇/水混合溶剂冲洗。“反相色谱”是相对于“正相色谱”而言的,在后一种情况下,使用极性固定相(如硅胶)和非或弱极性的流动相     

液相色谱柱的快速再生法

液相色谱柱随着使用日期的增加,柱效逐渐下降,这是由于在使用过程中有微量不洁杂质在色谱柱中形成堆积的缘故,为此我们采用快速再生法,使柱效恢复,收到很好的效果。 一、反相柱的快速再生法 用极性洗脱剂洗柱,按下列顺序渐进,每种溶剂用30ml,即可达到彻底清洗柱子的目的。 纯水→0.5mol/L磷酸或0.1mol/L乙二胺四乙酸钠盐     

真空溶剂蒸发全二维液相色谱接口及其应用

以正相色谱(NPLC)为第一维,反相色谱(RPLC)为第二维,建立了真空溶剂蒸发接口的全二维液相色谱系统(VEI-C2DLC)。样品首先在第一维(CN色谱柱)进行正相分离,第一维洗脱产物被交替存储到十通阀上的两个定量环中,与此同时对切割到定量环内的第一维组分进行在线真空蒸发,被分析样品组分保留在定量环内壁内,而溶剂被蒸发除去。十通阀切换后保留在该定量环内的样品组分被洗脱到第二维进行反相分离,如此反复循环使第一维组分完全转移到第二维。采用标准样品和天然植物蛇床子提取液对该全二维液相系统进行了评价。     

高温正相色谱/反相色谱(HTNPLC/RPLC)二维联用系统的构建与应用

为解决含水正相色谱与反相色谱联用过程中的谱带展宽问题,以高温正相色谱(HTNPLC)为第一维,室温反相色谱(RPLC)为第二维,分别建立了切割模式的二维液相色谱(HTNPLC-μRPLC)和全二维液相色谱(HTNPLC×RPLC)系统.样品首先在第一维(CN色谱柱)进行正相分离,第一维洗脱产物选择性地或者交替存储在十通阀上的定量环中,然后切换十通阀将定量环内存储的样品组分转移到第二维(C18色谱柱)进行反相分离.该系统降低了第一维切割组分在第二维柱头的扩散,提高了分离度以及分离效率.采用多环芳烃混合物和天然植物甘草提取液对该二维液相色谱系统进行了评价.     

配位色谱法从葛根素浸膏中分离纯化葛根素

建立了采用配位色谱柱从葛根素浸膏中分离纯化葛根素的方法。以铜离子为中心离子,制备了中心离子含量为7%的配位色谱柱。样品上样于配位色谱柱后,以氯仿-甲醇（体积比为10∶1）混合溶剂洗脱,得到了较纯的葛根素,较之用传统的硅胶色谱柱纯化,纯度提高了11%,回收率提高了12%,且柱容量提高了两倍。配位色谱改变了葛根素在传统硅胶柱上的洗脱顺序,对目标物质的分辨率比传统硅胶色谱柱高。     

硅胶色谱柱的亲水作用保留机理及其影响因素

亲水作用色谱（HILIC）是替代反相色谱（RPLC）分离强极性及亲水性化合物的另一色谱模式,其分离机理与RPLC有很大不同,具有和RPLC互补的选择性。在HILIC模式中,采用正相色谱（NPLC）中的极性固定相及含高浓度有机溶剂（通常为乙腈）的水溶液为流动相。硅胶是开发最早、研究最为深入及应用最为广泛的HILIC固定相,本文介绍了硅胶色谱柱的HILIC保留机理,详细概述了操作条件如硅胶柱类型、流动相组成及柱温对HILIC分离的影响,并对硅胶填料色谱柱的HILIC模式的发展方向与应用前景进行了展望。     

高效液相色谱实验室的良好规范（GLP）

3.替换溶剂 3．1缓冲溶液与冲洗／储存溶剂 确保缓冲溶液与冲洗／储存溶剂互溶。如果不能互溶，首先要用水含量相对较高的溶剂冲洗系统和色谱柱，然后再用冲洗／储存溶剂替换。     

O8肽的HPLC分析与制备研究

系统建立了化学合成小分子肽(08肽)的反相HPLC分离分析方法．考察了色谱填料种类、流动相组成及梯度条件对样品分离的影响．通过从分析型到半制备型分离线性放大过程中分离条件与分离效果的关系的探讨．建立了等度洗脱条件下较大规模地分离制备该小肽的方法试验结果表明：硅胶基质的色谱柱比聚合物基质的色谱柱更适合于分离该小肽,而粒径(5μm．10μm)对分离的影响不大;较缓的梯度条件可以明显改善分离,但所需分离时间延长一在制备分离中应综合考虑分离效果与运行时间的关系。     

大孔硅胶反相色谱填料的高温溶剂法合成及其在蛋白质分离上的应用

报道利用高温溶剂法在Ｓｉｎｏｐａｋ－Ｓ大孔硅胶上键合十八烷基，得到阿用于蛋白质分离的高效反相色谱填料，合成时间缩短为３－５ｈ。用萘，萘，菲及苯胺评价了该反相柱，其理论塔板数达每米３到５万，能有效地用于蛋白和多肽混合物的分离。     

十八烷基键合硅胶整体柱的制备及其色谱性能评价

选用十八烷基二甲基氯硅烷作为硅烷化试剂,制备十八烷基反相键合硅胶整体柱,并用元素分析进行了表征。以苯、甲苯、联苯、萘、菲混合物作为测试溶质,在以甲醇和水为二元流动相的反相色谱条件下评价了该键合整体柱的色谱性能,考察了该整体柱适用的pH范围,以及柱压降、柱效与流速的关系。结果表明,该硅胶整体柱键合效果良好,具有较好的反相色谱性能,且在pH 2~8之间稳定性好,柱压降、柱效受流速影响较小,对5种心血管系统用药可以达到快速、有效的分离。     

Subcritical solvent regeneration of contaminated HPLC columns used for separating biomolecules

The regeneration of contaminated chromatography columns using subcritical mobile phases is presented. The method employs minimal amounts of organic solvents (pressurized and heated above their boiling point) to clean strongly retained sample components from hydrophobic stationary phase particles. The process lasts approximately 1 h and is demonstrated to restore the performance of polymeric and bonded-phase columns. The technique is simple to apply and widely accessible, requiring only common laboratory equipment. Results indicate that this could be a beneficial alternative approach for cleaning contaminated columns either directly or in cases in which conventional methods have been unsuccessful.     

Use of polymeric reversed-phase columns for the characterization of polypeptides extracted from human pancreata. I. Effect of the mobile phase

The high-performance liquid chromatographic (HPLC) behaviour of two different styrene-divinyl-benzene-based reversed-phase (RP) columns was evaluated using crude acetic acid extracts from normal and diabetic human pancreata as samples. Acetic acid gradients in water and acetonitrile gradients in triethylammonium phosphate (TEAP) and trifluoroacetic acid (TFA) were used as mobile phases, and comparisons were made with a silica-based C4 column. When two different polymeric RP columns were eluted with acetic acid gradients in water, surprisingly similar HPLC profiles of the pancreatic extracts were obtained. Elution of the polymer-based columns with acetonitrile gradients in TFA or TEAP resulted in changes in the polypeptide selectivity of these columns, in parallel with that of a silica-based C4 column eluted under similar conditions, indicating the general usability of polymeric columns for RP-HPLC of peptides and proteins. The pronounced difference in composition between normal and diabetic samples, which also was demonstrated after size-exclusion chromatography (SEC) on a silica-based and an agarose-based high-performance SEC column, was found to be related to the different ischaemia times for the two types of pancreata.     

Comparison of theoretical and experimental models for characterizing solvent properties using reversed phase liquid chromatography

Theoretical and experimental quantitative structure–retention relationships (QSRR) models are useful for characterizing solvent properties and column selectivity in reversed phase liquid chromatography (RPLC). The chromatographic behavior of a model analyte, the herbicide atrazine, in a system derived from nine organic solvents and three chromatographic columns was used for developing QSRR models. Multiple linear regression (MLR) and partial least squares regression (PLSR) were used as statistical approaches. The similarities and differences between linear solvation energy relationships (LSER), and semi-empirical and theoretical molecular models were demonstrated. QSRR models show high predictive power, and can successfully predict retention factor (log k) for new solvents. The models are useful for solvent optimization and reducing time for method development in RPLC. The herbicide atrazine can be readily analyzed at a low level, and all three columns provided good resolution, high-performance and symmetrical peaks. The method is suitable for analysis of atrazine in water samples.     

System maps for retention of neutral organic compounds under isocratic conditions on a reversed-phase monolithic column

The solvation parameter model is used to create systems maps for the separation of neutral organic compounds on a Chromolith Performance RP-18e octadecylsiloxane-bonded silica-based monolithic column for water-acetonitrile and water-methanol mobile phase compositions from 10 to 70% (v/v) organic solvent. These results demonstrate that the retention properties of the monolithic column are similar to those of conventional octadecylsiloxane-bonded silica particle-packed columns. It is further shown that the selectivity for the monolithic column falls within the selectivity range for typical particle-packed columns at two mobile phase compositions for which a direct comparison is possible.     

Use of polymeric reversed-phase columns for the characterization of polypeptides extracted from human pancreata. II. Effect of the stationary phase

The potential value of eight commercial available polymer-based reversed-phase (RP) columns for peptide and protein separations was evaluated using crude acetic acid extracts of normal and diabetic human pancreata and mixtures of pure polypeptides as samples. All columns were characterized with acetic acid gradients in water as mobile phase, and different chromatographic profiles were obtained depending on the type of polymer column (bare or derivatized) and the type of ligand. Some of the columns were virtually free from effects related to the polymer skeleton whereas in others the separation was influenced by both the ligand and the polymeric backbone. Two selected polymeric RP columns were, together with a silica-based C4 column, further characterized with acetonitrile gradients in trifluoroacetic acid (TFA), and the separation temperature was found to have a drastic effect on the separation efficiency for proteins with mol. wt. greater than 6000 dalton. No such effect was seen for polypeptides with mol. wt. less than 6000 dalton. Mixtures of pure peptides and proteins were separated using acetic acid gradients in water, acetonitrile or isopropanol, and normally the highest efficiency was found with the use of acetonitrile as mobile phase modifier. Isopropanol was less suitable as an organic modifier. The separation of the beta-lactoglobulin A- and B-chains may be used to give a rapid estimate of the chromatographic usability of polymer-based RP-columns for peptide and protein separations in acetic acid gradients in water and in acetonitrile gradients. Recoveries for insulin, proinsulin, growth hormone, ovalbumin and human serum albumin were measured for several polymer-based RP columns eluted with acetic acid gradients in water and with acetonitrile-based mobile phases. The highest recoveries of serum albumin and ovalbumin were found after elution with acetic acid gradients in water.     

Combined effects of mobile phase composition and temperature on the retention of homologous and polar test compounds on polydentate C8 column

Combined effects of temperature and mobile phase on the reversed phase chromatographic behavior of alkylbenzenes and simple substituted benzenes were investigated on a Blaze C₈ polydentate silica-based column, showing improved resistance against hydrolytic breakdown at temperatures higher than 60 °C, in comparison to silica-based stationary phases with single attachment sites. For better insight into the retention mechanism on polydentate columns, we determined the enthalpy and entropy of the transfer of the test compounds from the mobile to the stationary phase. The enthalpic contribution dominated the retention at 80% or lower concentrations of methanol in the mobile phase. Entropic effects are more significant in 90% methanol and in acetonitrile–water mobile phases. Anomalies in the effects of mobile phase on the enthalpy of retention of benzene, methylbenzene and polar benzene derivatives were observed, in comparison to regular change in enthalpy and entropy of adsorption with changing concentration of organic solvent and the alkyl length for higher alkylbenzenes. The temperature and the mobile phase effects on the retention are practically independent of each other and – to first approximation – can be described by a simple model equation, which can be used for optimization of separation conditions.     

A Rapid Isolation of Human Chorionic Gonadotropin and Its Subunits by Reversed-Phase High Performance Liquid Chromatography

Abstract

A rapid isolation of human chorionic gonadotropin and its subunits from a commercially available concentrate of human urine has been achieved using reversed-phase high performance liquid chromatography. With μBondapak C₁₈ columns and a gradient employing aqueous trifluoroacetic acid as one solvent and dilute trifluoroacetic acid in acetonitrile as the other, complete separation can be accomplished in one day whereas standard column chromatographic procedures take about two weeks. Specific radioimmunoassays, polyacrylamide gel electrophoresis, and amino acid analyses were used to identify and characterize chromatographic peaks.     

On-line multidimensional chromatography using supercritical carbon dioxide

A two-dimensional chromatographic separation is described which makes use of the unusual properties of supercritical carbon dioxide mobile phase. This solvent has the property of giving a separation of polycyclic aromatic hydrocarbons (PAH) on amine-bonded columns similar to that given by usual normal-phase solvents, and on octadecylsilane-bonded columns similar to that given by usual reversed-phase solvents. Packed columns were used, arranged so that they could be switched in or out of the solvent flow. Polycyclic aromatic hydrocarbon mixtures isolated from coal tar were fractionated according to number of aromatic carbon atoms on an amine-bonded column, and these fractions were trapped on an octadecysilane-bonded column. They were subsequently eluted according to the polarity of the individual compounds. Separations from fractions containing 16 and 18 aromatic carbon atoms are shown.     

Hybrid organic-inorganic phenyl monolithic column for capillary electrochromatography

A novel hybrid organic-inorganic silica-based monolithic column possessing phenyl ligands for reversed-phase (RP) capillary electrochromatography (CEC) is described. The monolithic stationary phase was prepared by in situ co-condensation of tetraethoxysilane (TEOS) with phenyltriethoxysilane (PTES) via a two-step catalytic sol-gel procedure to introduce phenyl groups distributed throughout the silica matrix for chromatographic interaction. The hydrolysis and condensation reactions of precursors were chemically controlled through pH variation by adding hydrochloric acid and dodecylamine, respectively. The structural property of the monolithic column can be easily tailored through adjusting the composition of starting sol solution. The effect of PTES/TEOS ratios on the morphology of the created stationary phases was investigated. A variety of neutral and basic analytes were used to evaluate the column performance. The CEC columns exhibited typical RP chromatographic retention mechanism for neutral compounds and had improved peak shape for basic solutes.     

Reversed-phase liquid chromatography testing. Role of organic solvent through an extended set of columns

Column testing is a primary concerns for analysts. It is of use not only for the choice of set of development columns with different behaviors, but also for a substitution column in a validated method or as a quality control of new batches of stationary phase. A validated chromatographic procedure for column testing was applied to 42 commercially available columns, including alkyl, polar embedded and Aqua type stationary phases. This procedure was based on the use of two different solvents: MeOH and MeCN; and two different solvent/aqueous buffer fractions. Principal component analysis has been combined to hierarchical cluster analysis to provide both rational and objective classifications. The solvent effects were then studied on the obtained representations, revealing the necessity for considering both the solvent nature and its fraction in RPLC column testing. Differences observed depending on the solvent nature and fractions revealed quite different chromatographic behaviors according to these parameters.