预聚合法制备聚丙烯酰胺毛细管凝胶柱

提出了一种温和条件下制备交联聚丙烯酸胺毛细管凝胶电泳柱的新方法──预聚合法.讨论了制备过程中的问题,获得了凝胶组成、毛细管内径及长度等不同的交联聚丙烯酸胺毛细管凝胶电泳柱.采用激光回射干涉检测技术,实现了蛋白质标准样品的毛细管凝胶电泳在柱分离检测.     

高效毛细管线性聚丙烯酰胺凝胶电泳柱的制备、柱性能表征及操作条件考察

发展一种简便快速的线性聚丙烯酰胺毛细管凝胶电泳（ＣＧＥ）柱的新型制备方法，用于分离Ｐｏｌｙ ｄＡ（４０～６０）和双链ＤＮＡ，柱效达 ６百万理论板／米。提出“筛分能力”作为 ＣＧＥ柱评价指标，对样品迁移行为随操作条件的变化规律进行考察，为毛细管凝胶电泳的理论研究和实验条件优化奠定了基础。     

溶胶-凝胶法制备开管毛细管柱的研究进展

介绍了溶胶-凝胶法制备开管毛细管柱的方法,分析了溶胶-凝胶法制备开管毛细管柱的影响因素和特点,总结了溶胶-凝胶技术在毛细管气相色谱柱、毛细管液相色谱柱、毛细管电泳柱及电色谱柱方面的应用进展。     

溶胶-凝胶法制备毛细管硅胶整体柱的研究进展

毛细管硅胶整体柱作为一种新型的分离介质,在色谱领域显示出了强大的生命力。本评述介绍了溶胶-凝胶法制备毛细管硅胶整体柱的方法,重点分析了溶胶-凝胶法制备毛细管硅胶整体柱的影响因素,总结了近几年毛细管硅胶整体柱在高效液相色谱和电色谱中的应用。     

溶胶-凝胶技术制备毛细管硅胶整体柱及其应用

采用溶胶-凝胶技术合成硅胶整体柱，研究了不同反应物配比对制备毛细管硅胶整体柱的影响，合成了具有高机械强度和化学稳定性的毛细管硅胶整体柱。通过十八烷基修饰得到反相固定相。考察了电渗流行为和电色谱性能。3种芳香胺和4种苯同系物可达到基线分离，柱效高达159000N／m。     

高效毛细管线性聚丙烯酰胺凝电泳柱的制备,柱性能表征及操作条件考察

发展一种简便快速的线性丙聚丙烯酰胺毛细管凝胶电泳柱的新型制备方法，用于分离ＰｏｌｙｄＡ（４０－６０）和双链ＤＮＡ，柱效达６百万理论板／米。提出“筛分能力”作为ＣＧＥ柱评价指标，对品迁移行为随操作条件的变化规律进行考察，为毛细管凝胶电泳的理论研究和实验条件优化奠定了基础。     

任意多阶梯度场强毛细管凝胶电泳中谱带的迁移和展宽

在自行制备的毛细管凝胶电泳柱上，通过实验考察毛细管凝胶电泳（ＣＧＥ）中场强（Ｅ）和组分迁移率（μ）的关系，发现在一般ＣＧＥ使用的场强范围内，μ随Ｅ增大而成近似线性的增加。并讨论了产生这种现象的原因。以此为基础提供了任意多阶梯度场强毛细管凝胶电泳中组分的迁移时间和距离的计算公式，用于编制计算机程序。     

毛细管凝胶电泳法测定血浆中的癌泰得

为了进行硫代反义寡核苷酸药物癌泰得的药代动力学研究,建立了毛细管凝胶电泳测定血浆中癌泰得含量的方法。样品经强阴离子交换柱除去血浆中的蛋白和油脂,通过反相C18柱脱盐,再通过渗滤膜除去残留盐分后,以长度为24个碱基的寡核苷酸作为内标,采用毛细管凝胶电泳测定血浆中癌泰得的含量。结果表明,毛细管凝胶电泳测定血浆中癌泰得含量的线性范围为12.5～400 mg/L(r=0.9998),日内、日间的相对标准偏差分别为0.398%～2.46%、2.75%～6.07%,回收率为99.53%～102.1%。毛细管凝胶电泳法用于血浆中反义硫代寡核苷酸的含量测定具有良好的准确性、稳定性和重现性。     

毛细管电泳涂层柱技术的进展

毛细管电泳涂层柱是解决蛋白质在毛细管壁吸附的最有效的方法。较为系统地综述了毛细管电泳涂层柱的几种制作方法,指出了毛细管电泳涂层柱（包括毛细管电色谱柱）的发展趋势,３９篇。     

溶胶-凝胶开管电色谱柱的制备及评价

以溶胶-凝胶（sol－gel）技术制备开管毛细管电色谱（OTCEC）柱,考察了制柱过程中盐酸pH值和凝胶溶液在毛细管内反应时间对柱性能的影响。对制得的电色谱柱进行了评价,在最佳制柱条件下,硫际、苯乙酸、萘、联苯、2,6－二甲基萘的平均柱效分别为46．6×104,52．4×104,50．2×104,47．7×104,35．8×104塔板数／m。     

Sol‐gel technique for the preparation of β‐cyclodextrin gold nanoparticles as chiral stationary phase in open‐tubular capillary electrochromatography

A novel open‐tubular capillary electrochromatography column coated with β‐cyclodextrin was prepared using the sol‐gel technique. In the sol‐gel approach, owing to the three‐dimensional network of sol‐gel and the strong chemical bond between the stationary phase and the surface of capillary columns, good chromatographic characteristics and unique selectivity in separating enantiomers were shown. The influences of capillary inner diameter, coating time, organic modifier, buffer pH, and buffer concentration on separation were investigated. The sol‐gel‐coated β‐cyclodextrin column has shown improved enantioseparation efficiency of chlorphenamine, brompheniramine, pheniramine, zopiclone in comparison with the sol‐gel matrix capillary column. The migration time relative standard deviation of the separation of the enantiomers was less than 0.89% over five runs and 2.9% from column to column. This work confirmed that gold nanoparticles are promising electrochromatographic support to enhance the phase ratio of open‐tubular capillary electrochromatography column in capillary electrochromatography.     

Factors influencing the electrokinetic injection of oligonucleotides in capillary gel electrophoresis when using laser‐induced fluorescence detection

Capillary gel electrophoresis (CGE) is a powerful tool for the analysis of oligonucleotides owing to its extraordinary resolving power. However, the only feasible injection mode for CGE, electrokinetic injection, can cause bias of the injected amount and thus reproducibility issues for CGE methods. Although the source of the bias in electrokinetic injection for analysis of small molecules by capillary zone electrophoresis has long been identified, there are very few studies on electrokinetic injection issues for biological molecules analyzed by CGE. In this study, we report three issues related to electrokinetic injection for oligonucleotides. First, the relationship between the injection amount and the sample solution resistance is not always linear for oligonucleotides, as has been observed for small molecules. Second, the injecting water prior to an oligonucleotide sample dramatically improves the reproducibility of both the injected amount and resolution through a ‘stacking‐like’ mechanism. Third, optimizing the gel concentration dramatically increases the amount of oligonucleotide that is injected into the column. Copyright © 2013 John Wiley & Sons, Ltd.     

毛细管凝胶电泳法测定硫代寡核苷酸药物癌泰得的含量

癌泰得为20碱基的抑制端粒酶催化亚基hTERT的硫代反义寡核苷酸,体内、体外抗肿瘤活性评价显示其有较好的抗肿瘤活性。采用固相合成仪分别制备了癌泰得及与其碱基百分组成基本相同的硫代寡核苷酸内标,并使用制备型阴离子交换色谱和反相高效液相色谱进行纯化。采用毛细管凝胶电泳仪和单链DNA分离试剂盒测定了癌泰得的含量。所用毛细管规格为内径100 μm,总长31 cm,有效长度20 cm;电动进样,进样电压-10 kV,进样时间1 s;分离电压-12.4 kV;柱体温度40 ℃;样品储存温度为30 ℃;缓冲溶液为pH     

A rapid method for fractionation and purification of a 92 kDa cartilage glycoprotein

Matrix glycoproteins are among the main components that contribute to the properties of cartilage. In this article we report on the development of a rapid method for the fractionation and purification of a 92 kDa glycoprotein from chick sternal cartilage. The developed procedure involves ion-exchange chromatography on DEAE-Sephacel, gel permeation chromatography on Sepharose CL-6B and semi-preparative SDS-polyacrylamide gel electrophoresis. Identification of protein was performed by western blotting using specific antibodies and purity by capillary electrophoresis. The proposed method is superior to those previously published since it eliminates the step of density gradient centrifugation.     

溶胶-凝胶法制备丙二酰胺型二氧大环多胺用作开管柱电色谱固定相的研究

开管柱毛细管电色谱（OTCEC）兼有HPLC和CE的优点^[1] 。柱内径相同时,柱效是OTLC的2倍^[2]。现在常用的直接键合法的制备步骤多,周期长,柱容量小。溶胶－凝胶（sol-gel)能在很温和的条件下使有机物附着在无机介质的表面上,经化学键合作用使涂层对基质有强烈的粘附性。与通常方法相比,sol-gel法制得的涂层有高的相比和抗水解能力。Guo等^[3]用sol-gel技术制备了高相比、高样品容量的OTCEC柱,叶明亮等6[4]用sol-gel法制备了C8开管柱电色谱柱并进行了评价。我们^[5]用sol-gel法将含羟基的冠醚涂渍固化在毛细管内,用于GC分析取得满意结果。丙二酰胺型二氧大环多胺具有大环多胺和寡肽的双重性质,用作OTCEC的固定相更有助于提高分离物的选择性。本文采用sol-gel技术制备含有丙二酰胺型二氧大环多胺的OTCEC柱,可将大环化合物键合在多孔的玻璃状基体上,使毛经表面粗糙化和固定相键合两步合二为一。用制得的OTCEC柱成功地分离了苯二酚、硝基酚、氨基酚和苯二胺的位置异构体及邻卤代苯胺和生物单胺神经递质。与键合法制得的二氧大环多胺柱子^[6,7]比较,用该法制得的柱子有较高的柱效,重现性好,迁移时间短,可进行快速分析。     

Voltage‐programming‐based capillary gel electrophoresis for the fast detection of angiotensin‐converting enzyme insertion/deletion polymorphism with high sensitivity

A voltage‐programming‐based capillary gel electrophoresis method with a laser‐induced fluorescence detector was developed for the fast and highly sensitive detection of DNA molecules related to angiotensin‐converting enzyme insertion/deletion polymorphism, which has been reported to influence predisposition to various diseases such as cardiovascular disease, high blood pressure, myocardial infarction, and Alzheimer's disease. Various voltage programs were investigated for fast detection of specific DNA molecules of angiotensin‐converting enzyme insertion/deletion polymorphism as a function of migration time and separation efficiency to establish the effect of voltage strength to resolution. Finally, the amplified products of the angiotensin‐converting enzyme insertion/deletion polymorphism (190 and 490 bp DNA) were analyzed in 3.2 min without losing resolution under optimum voltage programming conditions, which were at least 75 times faster than conventional slab gel electrophoresis. In addition, the capillary gel electrophoresis method also successfully applied to the analysis of real human blood samples, although no polymorphism genes were detected by slab gel electrophoresis. Consequently, the developed voltage‐programming capillary gel electrophoresis method with laser‐induced fluorescence detection is an effective, rapid analysis technique for highly sensitive detection of disease‐related specific DNA molecules.     

Calibration of polyacrylamide gel columns for the separation of oligonucleotides by capillary electrophoresis

Polyacrylamide-filled gel columns are used to separate oligonucleotide samples. For homopolymeric standard samples, plots of migration time versus molecular size are presented over a range of 30-160 bases. With 2.5-4% T and 3.3% C gels, good resolution over the examined mass range, with peak width at half height of 3 to 6 s, is obtained by applying electrical fields of 200-400 V/cm. The separation of heteropolymeric nucleotides by slab gel electrophoresis under routine conditions was compared with capillary gel electrophoresis. Using the same column and the same separation conditions, the plot of migration time versus base number is linear with an identical slope for three oligonucleotide samples which were examined, allowing a calibration of a gel-filled capillary for molecular mass determination.     

Use of an electrochemically labeled nucleotide terminator for known point mutation analysis

A novel single nucleotide polymorphism (SNP) assay utilizing an electrochemically tagged chain terminator is described. The system employs the single-base extension (SBE) technique coupled to capillary gel electrophoresis with end-column electrochemical detection. A redox-labeled chain terminator, ferrocene-acycloATP, is used in the SBE reaction. When the mutation site corresponds to the labeled chain terminator, the extension product is rendered electroactive. The reaction mixture is subsequently separated by capillary gel electrophoresis and the extension product detected at the separation anode with sinusoidal voltammetry. This work demonstrates the first known SNP assay utilizing redox-active chain terminators coupled to electrochemical detection. The methodology presented could lead to a fast, simple, and cost-effective SNP scoring system.     

Nonaqueous and aqueous capillary electrophoresis of synthetic polymers

In this work, the use of capillary electrophoresis (CE) to analyze synthetic polymers is reviewed including works published till February 2004. The revised works have been classified depending on the CE mode (e.g., free solution capillary electrophoresis, capillary gel electrophoresis, etc.) and type of buffer (i.e., nonaqueous, aqueous and hydro-organic background electrolytes) employed to separate synthetic macromolecules. Advantages and drawbacks of these different separation procedures for polymer analysis are discussed. Also, physicochemical studies of complex polymer systems by CE are reviewed, including drug release studies, synthetic polyampholytes, dendrimers, fullerenes, carbon nanotubes and associative copolymers.