现代生物工程分离提取技术在海洋生物资源开发上的应用

本文综述了在海洋资源开发上应用的现代生物工程分离技术。介绍了最新的分离提取技术如制备型和生产型色谱技术、超临界萃取技术、膜分离技术、毛细管电泳技术、酶工程技术等。从海洋生物资源中提取有用的生物活性物质,需要符合特定要求的现代生物工程技术。其中柱层析技术和超临界萃取技术是海洋生物活性物质分离提取技术中的主要部分。     

正交试验法优选薯蓣皂苷元萃取条件研究

目的:为明确薯蓣皂苷元的最佳提取工艺,我们采用超临界CO2萃取技术,通过正交试验优化穿山龙中薯蓣皂苷元的提取工艺。方法:探讨萃取压力、萃取温度、分离Ⅰ压力、分离Ⅰ温度等因素对薯蓣皂苷元收率的影响。确定了薯蓣皂苷元的最佳萃取条件。结果:穿山龙中薯蓣皂苷元超临界萃取的最佳条件为萃取压力30 MPa,萃取温度50℃,分离Ⅰ压力13 MPa,分离Ⅰ温度40℃。结论:超临界CO2萃取法提取薯蓣皂苷元工艺简单,安全有效。     

沙蚕毒素的等温加湿超临界CO_2-萃取法研究

本文研究了用等温加湿超临界ＣＯ２从海洋蠕虫状动物沙蚕体腔细胞中,提取沙蚕毒素的萃取条件（温度、压力、时间）对萃取过程的影响。探讨了等温加湿超临界ＣＯ２萃取法与传统提取方法比较的最佳选择分离方法。     

超临界CO2提取甘草地上部分总黄酮

采用单因素试验对甘草地上部分(茎叶)的超临界CO2提取工艺进行了研究。实验考察了压力、萃取时间、温度及CO2流量对甘草地上部分总黄酮提取率的影响,以总黄酮提取率和含量为指标,系统的研究了超临界二氧化碳萃取法提取甘草地上部分总黄酮的提取效果。得出的最佳工艺参数为:采用40-60目原料,80%乙醇为夹带剂,萃取时间:1.5 h;萃取压力:30.0 MPa;萃取温度:50℃;CO2流量:10 kg.h-1;分离压力:5.8 MPa;分离温度:40℃。实验结果表明超临界二氧化碳萃取甘草总黄酮的提取率2.09%,含量5.42%,工艺具有提取率高,纯度高的特点,为规模化生产甘草总黄酮的提取提供了研究基础。     

反胶束萃取酶蛋白的研究进展

反胶束萃取是一项新的分离技术,不仅具有高选择性,而且不易使酶蛋白失活,在提取纯化生物活性物质方面具有巨大的工业应用潜力。本文综述了近年来该方面研究的新进展。     

现代分离技术在抗生素提取中的应用*

详细介绍了膜分离技术在抗生素分离提取中的应用进展,并简单阐明了高效毛细管电泳技术、双水相技术和反胶束萃取技术在抗生素提取中的应用情况。对这些现代分离技术的发展前景作了简要探讨。     

现代分离技术在抗生素提取中的应用

详细介绍了膜分离技术在抗生素分离提取中的应用进展,并简单阐明了高效毛细管电泳技术、双水相技术和反胶束萃取技术在抗生素提取中的应用情况。对这些现代分离技术的发展前景作了简要探讨。     

超临界CO2提取甘草地上部分总黄酮

采用单因素试验对甘草地上部分（茎叶）的超临界CO₂提取工艺进行了研究。实验考察了压力、萃取时间、温度及CO₂流量对甘草地上部分总黄酮提取率的影响,以总黄酮提取率和含量为指标,系统的研究了超临界二氧化碳萃取法提取甘草地上部分总黄酮的提取效果。得出的最佳工艺参数为：采用40~60目原料,80%乙醇为夹带剂,萃取时间：1.5 h;萃取压力：30.0 MPa;萃取温度：50℃;CO₂流量：10 kg·h^-1;分离压力: 5.8 MPa;分离温度: 40℃。实验结果表明超临界二氧化碳萃取甘草总黄酮的提取率2.09%,含量5.42%,工艺具有提取率高,纯度高的特点,为规模化生产甘草总黄酮的提取提供了研究基础。     

超临界CO2萃取百合花挥发油的工艺研究

本文介绍了超临界CO2萃取百合花中挥发油的提取分离工艺,重点研究了超临界CO2萃取压力、温度、时间对出油率的影响。正交试验结果表明：影响超临界CO2萃取的主要因素为C3〉A2〉B2（A为萃取压力,B为萃取温度,C为萃取时间）;最佳工艺参数：SC-CO2萃取压力为18MPa,温度为50℃,时间为90min,流量为25L／min,所得百合花挥发油的出油率高达2．92％。     

天然植物多糖分离纯化技术研究现状和进展

植物多糖因具有抗肿瘤、增强免疫、抗氧化等功效而备受关注,多糖的分离纯化是多糖结构和生物活性研究的首要前提。本文系统介绍了传统的水提醇沉法以及酶提取法、超声波辅助提取法、超临界流体萃取法、超高压提取技术微波辅助提取法和双水相萃取等新技术,对其分离原理、处理方式和效果进行分析比较和综述;从物理分离方式、分子间作用力及化学性质分离的角度,综述植物粗多糖分离和纯化方法及途径,为天然植物中多糖的分离纯化和综合利用提供参考。     

Evaluation of reversible and irreversible models for the determination of the enantiomerization energy barrier for N-(p-methoxybenzyl)-1,3,2-benzodithiazol-1-oxide by supercritical fluid chromatography

It has been found that the interconversion of enantiomers on a chromatographic column during the separation process can be studied by the first-order kinetic equations derived both for reversible and irreversible reactions in a stationary system if the extent of interconversion is not too high. The equation derived for irreversible reactions gives, however, results also for higher degrees of enantiomerization while that derived for reversible interconversion failed. The irreversible equation was used to determine the enantiomerization barrier of N-(p-methoxybenzyl)-l,3,2-benzodithiazol-l-oxide enantiomers by supercritical fluid chromatography. The racemate of N-(p-methoxybenzyl)-l,3,2-benzodithiazol-l-oxide was separated by supercritical fluid chromatography on the (R,R)-Whelk-Ol column with supercritical carbon dioxide containing 20% methanol as a mobile phase. Peak areas of enantiomers prior to and after the separation used for the calculation of the enantiomerization barrier were determined by computer-assisted peak deconvolution of peak clusters registered on chromatograms using commercial software.     

Applications of supercritical fluid extraction and chromatography in forensic science

Supercritical fluid technology is a rapidly expanding analytical technique. Here we give a brief insight into the background of supercritical fluid technology and how supercritical fluid extraction and supercritical fluid chromatography work in analysis. The applications of these two techniques in forensic science are known to be important. The main area of forensic use of supercritical fluid technology is in the sample preparation and separation of drugs of abuse particularly opiates, cannabinoids, cocaine and sedatives. Supercritical fluid technology can be used for both time-of-death-related drug analysis and for obtaining information relating to long term drug abuse. We also give a review of the use of supercritical fluids in two other major forensic areas, fingerprinting and the extraction and separation of explosives from both bombing events and gunshot residues. Overall we show that supercritical fluid technology is fast becoming a major part of forensic investigations and that it is an invaluable analysis technique.     

Separation of drugs by packed-column supercritical fluid chromatography

Packed-column supercritical fluid chromatography (pSFC) has been expected to analyze various kinds of compounds. Many researchers have expected a new chromatographic technique that overcomes the limitations of other techniques, HPLC and GC. In pharmaceutical development, chromatography plays an important role in the evaluation of safety and efficacy of a new compound. This article provides an overview of the separation of drugs by pSFC. The effects of the chromatographic parameters were studied for the separation of steroids. In chiral separation, the successful results were shown and compared with HPLC.     

Chiral separation principles in chromatographic and electromigration techniques

Almost half of the drugs in use today are chiral. It is well established that the pharmacological activity is mostly restricted to one of the enantiomers (eutomer). There can be qualitative and quantitative differences in the activity of the enantiomers. In many cases, the inactive enantiomer (distomer) shows unwanted side effects or even toxic effects. Even if the side effects are not that drastic, the distomer has to be metabolized and this represents an unnecessary burden for the organism. Therefore, the development of methods for the separation of enantiomers, both on analytical and preparative scale, has become increasingly important. Chromatographic techniques such as thin layer chromatography (TLC), gas chromatography (GC), supercritical fluid chromatography (SFC), and above all high-performance liquid chromatography (HPLC) have been used for enantiomer separation for about two decades. More recently, electromigration techniques, such as capillary electrophoresis and capillary electrochromatography, have been shown to be powerful alternatives to chromatographic methods. This review gives a short overview of different chiral separation principles and their application. Several new developments are discussed.     

Simulated moving bed chromatography with supercritical fluids for the resolution of bi-naphthol enantiomers and phytol isomers

The combination of the simulated moving bed (SMB) technique with supercritical fluid chromatography (SFC) leads to a process with unique features. Besides the known advantages of the SMB process, the use of supercritical carbon dioxide as the mobile phase offers the advantages of reduction in organic solvents and an easy eluent/solute separation. Because of the low viscosity and high diffusion coefficients of supercritical fluids, a high efficiency is possible. The steps of process development for SMB SFC are presented using the separations of the bi-naphthol enantiomers and phytol isomers as examples. The development of a packed column SFC method at an analytical scale is shown for the separation of the bi-naphthol enantiomers on a chiral stationary phase and CO(2) with a modifier as the mobile phase. The influence of the modifier, modifier content, and column configuration on productivity of the SMB SFC process was investigated by simulation. The first set of experiments was performed in the SMB separation of phytol isomers at low concentration to test the feasibility of the SMB SFC high purity separation of the binary mixtures. In the second set of experiments, the productivity of the process was increased by increasing the feed concentration up to 54 grams feed per liter stationary phase (SP) and hour (g(feed)/l(SP) h).     

抗癌药物紫杉醇的提取与分离纯化技术

本对紫杉醇的提取与分离纯化技术,包括柱层析法、薄层色谱法、沉淀法、胶束动电毛细管色普法、膜分离法、树脂吸附分离法、高速逆流色谱法、化学反应法和药理作用靶点法进行了较全面的综述。     

Separation methods for antibacterial and antirheumatism agents in plant medicines

Traditional oriental medicines (TOM), with a very long history and many remarkable features, are very popular in Asian countries, especially in China, Japan and Korea. With the development of advanced analytical techniques, the modernization of traditional medicine has become a hot area in recent years and some herbal medicines have been increasingly accepted in western countries. Separation and determination of active components in various herbal medicines are considered to be critical for the modernization process. Antibacterial and antirheumatism agents are widely distributed in many medical plants and commonly used in clinical treatment. Therefore, the development of effective separation methods for the quality control of herbal medicines is absolutely important. In this article, the separation methods for the analysis of antibacterial and antirheumatism compounds in TOM were reviewed, including thin layer chromatography (TLC), gas chromatography (GC), supercritical fluid chromatography (SFC), high-performance liquid chromatography (HPLC), capillary electrophoresis (CE) and related hyphenation techniques. Sample preparation procedures and further development of these methods were also discussed.     

Analysis of kavalactones from Piper methysticum (kava-kava)

The chemical analysis and quality control of both Piper methysticum G. Forster (kava-kava) and extracts obtained by aqueous acetone or aqueous methanol as well as supercritical fluid extraction are reviewed. In the last two decades various procedures concerning the separation and detection of kavalactones have been routinely carried out by gas chromatography (without previous derivatization of kavalactones) and high performance liquid chromatography but most of them are not validated or only partially validated. Recently, analyses by supercritical fluid chromatography and micellar electrokinetic chromatography have also been reported. Both gas chromatography and high performance liquid chromatography can be used for the analysis of kavalactones with some advantages and disadvantages for each method. Using gas chromatography analysis, methysticin and yangonin, which are two of the major components, are generally not separated. In addition, the high temperature of the injection port caused the decomposition of methysticin. Concerning high performance liquid chromatography analyses, the reversed-phase is generally better because highly reproducible with a very low detection limit for all compounds even if the quantitative analysis of the kavalactones by liquid chromatography needs to be carried out in the absence of light to prevent the cis/trans isomerisation of yangonin.     

Enantioselective separation of (±)‐β‐hydroxy‐1,2,3‐triazoles by supercritical fluid chromatography and high‐performance liquid chromatography

This paper reports the enantioseparation of β‐hydroxy‐1,2,3‐triazole derivatives, which present a broad range of biological properties, by supercritical fluid chromatography (SFC) and high‐performance liquid chromatography techniques (HPLC). Polysaccharide‐based chiral columns (cellulose and amylose) were used to evaluate the separation in SFC and HPLC. Time of analyses, consumption of solvent, and parameter optimization were reduced using SFC technique. The columns based on cellulose chiral stationary phase using 2‐propanol and ethanol as modifiers showed the best results for the enantioresolution of the (±)‐β‐hydroxy‐1,2,3‐triazoles by SFC analyses. These techniques were applied to evaluate the selectivity of biocatalytic reduction of β‐keto‐1,2,3‐triazoles by marine‐derived fungus Penicillium citrinum CBMAI 1186 to obtain the (±)‐β‐hydroxy‐1,2,3‐triazoles.     

芦荟多糖、芦荟油、芦荟素的提取及应用

本文总结了国内外芦荟产品的开发和研究发展趋势 ,概述了芦荟多糖、芦荟油、芦荟素的应用 ,分析了膜分离技术 ,超临界流体CO2 萃取技术、制备性色谱分离技术在芦荟产品分离和提纯中的应用