液相色谱法分离纯化烟草疫霉菌激发子

利用阴离子交换色谱和疏水相互作用色谱从烟草疫霉菌培养液中分离了一种新的９０ＫＤ激发子蛋白,他阴离子交换色谱流动相的最佳ｐＨ值,建立了疏水相互作用色谱,硫酸铵与三羟甲基氨基甲烷（Ｔｒｉｓ）缓冲液／水洗脱模式,简化了纯化步骤和活性损失的危险。     

二维色谱分离纯化90 kD激发子受体蛋白

利用DEAE阴离子交换色谱和疏水/反相二维色谱,从烟草叶片中获得了90kD激发子受体,经SDS聚丙烯酰胺凝胶电泳证实,该蛋白是均匀单一,分子量为32kD,该蛋白具强的疏水性。用ELISA方法证实该蛋白与激发子能特异结合。     

咪唑键合硅胶液相色谱固定相的反相色谱行为

采用嫁接法制备了一种新型高效液相色谱固定相.考察了固定相的液相色谱保留行为,发现该键合相具有很强的阴离子交换作用,还同时存在反相疏水作用.利用其疏水作用,可以对一些简单的有机化合物进行分离.     

涂覆柱的离子色谱及淋洗液选择的研究

离子色谱分析中，影响离子交换选择性的因素颇多［１］。除固定相的基本结构外，尚有两个最重要的因素，即固定相上的离子交换功能活性基团结构和淋洗条件。近年来利用静态涂覆液态离子交换剂的阴离子分离柱，我们研究了不同结构季铵型和季　型阴离子交换剂对阴离子交换选择性的影响［２，３］，结果表明，它们皆具有相当不同的离子交换选择性的分离效果［４］。为进一步研究交换剂结构效应和选择优化淋洗条件，本文报道以疏水性更大氮杂三芳稠环结构的季铵化合物，即Ｎ－十六烷基－β－萘喹啉溴化　盐为交换剂涂覆于国产ＮＧＷ－０４苯乙烯－二乙烯苯共聚体白球上，制备了阴离子色谱分离柱，选择九种有机酸及其盐配制的淋洗液进行离子色谱性能研究，着重讨论了它们的分离效应。     

基于超大孔聚合物微球的混合色谱模式层析介质的制备

以甲基丙烯酸缩水甘油酯与乙二醇二甲基丙烯酸酯共聚的超大孔聚合物微球为基质,采用聚乙烯亚胺和丁基缩水甘油醚先后衍生微球的表面,制备成兼具阴离子交换与疏水相互作用的混合色谱模式层析介质。考察离子交换基团、疏水配基密度对蛋白载量、回收率的影响,结果表明,在离子交换容量0.2~0.5 mol/mL范围内,随着介质离子交换容量的增大,蛋白载量及回收率均呈增加趋势,蛋白载量最高值达40 mg/mL,回收率大于90%。当疏水配基的密度大于0.03 mol/mL时,介质开始表现疏水相互作用。此超大孔混合模式色谱介质在大于2000 cm/h 的流速下依然能保持低于2 MPa 的柱背压,同时在高流速下(2880 cm/h)纯化人血清中的抗体应用中表现良好的分辨率。此介质在高通量分离纯化应用方面具有巨大潜力。     

重组灵芝免疫调节蛋白的纯化及其性质

采用超滤浓缩、强阴离子交换、疏水作用和凝胶色谱等方法, 对毕赤酵母表达的rGlip进行分离和纯化, 对离子交换色谱中rGlip与固相结合的最佳pH值进行了考察, 并对纯化产物的活性进行了鉴定. rGlip在215 nm处有强的紫外吸收, 经激光解析电离时间飞行质谱鉴定其相对分子量为12722, 经反相液相色谱鉴定纯度≥97%. 设计rGlip的疏水作用色谱, 有效地去除色素. 凝血实验结果表明, rGlip可以凝集绵羊血红细胞, 但对人血A, B, AB和O型等红细胞无凝集作用, 有类似凝集素的生物学活性.     

分离蛋白质的高效离子交换色谱填料的研究（Ⅳ）：强阴离子交换色…

含环氧基的硅与二乙胺或聚乙烯亚胺反应，其产物再与碘甲烷或氯化苄反应，得到含季铵离子的强阴离子交换色谱填料，该埴料可用于蛋白质和生物工程产品（如基因重组人干扰素γ，粒细胞－巨噬细胞集落刺激因子和人绒毛膜促性腺素等）的分离纯化，其中，环氧基硅胶与二乙胺加成后再用氯化季铵化的产物是较好的强阴离子交换色谱填料。     

使用疏水作用色谱研究蛋白质的构象变化

研究了高效疏水作用液相色谱中(HIC)色谱条件改变对蛋白质构象的影响。发现固定相配体的疏水性、温度及流动相中盐的阴离子、阳离子和pH值都影响蛋白质的构象。     

弱阳离子交换色谱中疏水作用对蛋白保留的影响

选取了四种常用的弱阳离子交换(WCX)商品柱以研究标准蛋白在其上的色谱保留行为。发现在疏水色谱(HIC)模式下,蛋白在这四种WCX商品柱上也有不同程度的保留特征,且洗脱曲线呈现出保留值随盐浓度变化的"U"型。从分子力学角度定性解释了因疏水相互作用力的存在影响了蛋白在WCX色谱柱上洗脱顺序的改变。运用计量置换理论(SDT)中的两组线性方程进一步证实了WCX和HIC中蛋白与固定相间相互作用力的性质,在HIC中为非选择性作用力,而在离子交换色谱(IEC)中为选择性作用力。这四种色谱柱中的两种事实上可在WCX和HIC两种模式下,对标准蛋白进行分离且有较好的分离效果,有可能作为二维色谱柱来使用。     

螯合物离子色谱

螯合物离子色谱是一种利用螯合物进行不同方式分离和检测的离子色谱模式，目前已经被痕量金属分析广泛采用，本文对一些螯合物阳离子交换色谱、螯合物色谱、阴离子交换色谱和离子对色谱最新进展进行了综述，并采用基本螯合物化学理论（金属螯合物稳定性、金属原子有效电荷、螯合剂能力等）对保留和分离机理进行了讨论。     

Preparation of a weak anion exchange/hydrophobic interaction dual‐function mixed‐mode chromatography stationary phase for protein separation using click chemistry

In this study, 3‐diethylamino‐1‐propyne was covalently bonded to the azide‐silica by a click reaction to obtain a novel dual‐function mixed‐mode chromatography stationary phase for protein separation with a ligand containing tertiary amine and two ethyl groups capable of electrostatic and hydrophobic interaction functionalities, which can display hydrophobic interaction chromatography character in a high‐salt‐concentration mobile phase and weak anion exchange character in a low‐salt‐concentration mobile phase employed for protein separation. As a result, it can be employed to separate proteins with weak anion exchange and hydrophobic interaction modes, respectively. The resolution and selectivity of the stationary phase were evaluated in both hydrophobic interaction and ion exchange modes with standard proteins, respectively, which can be comparable to that of conventional weak anion exchange and hydrophobic interaction chromatography columns. Therefore, the synthesized weak anion exchange/hydrophobic interaction dual‐function mixed‐mode chromatography column can be used to replace two corresponding conventional weak anion exchange and hydrophobic interaction chromatography columns to separate proteins. Based on this mixed‐mode chromatography stationary phase, a new off‐line two‐dimensional liquid chromatography technology using only a single dual‐function mixed‐mode chromatography column was developed. Nine kinds of tested proteins can be separated completely using the developed method within 2.0 h.     

柱状假丝酵母脂肪酶同工酶的一种高效液相色谱分离新方法

建立一种“疏水界面亲和色谱”分离柱状假丝酵母脂肪酶同工酶的高效液相色谱新方法。将商品化的CRL经离子交换色谱分离为两个同工酶组分 (CRLA和CRLB) ,在极低离子强度下 ,根据同工酶活性中心周围处于“开放”构象的疏水腔具亲疏水界面的特性 ,用疏水界面亲和色谱在NucleosilC4 (10 μ ,3 0 0 ,2 5 0× 4.60mm)柱上将CRLA和CRLB都分离为 4种同工酶组分。疏水界面亲和色谱非常适用于分离这种结构差异轻微的同工酶组分     

Dicationic imidazolium ionic liquid modified silica as a novel reversed‐phase/anion‐exchange mixed‐mode stationary phase for high‐performance liquid chromatography

A dicationic imidazolium ionic liquid modified silica stationary phase was prepared and evaluated by reversed‐phase/anion‐exchange mixed‐mode chromatography. Model compounds (polycyclic aromatic hydrocarbons and anilines) were separated well on the column by reversed‐phase chromatography; inorganic anions (bromate, bromide, nitrate, iodide, and thiocyanate), and organic anions (p‐aminobenzoic acid, p‐anilinesulfonic acid, sodium benzoate, pathalic acid, and salicylic acid) were also separated individually by anion‐exchange chromatography. Based on the multiple sites of the stationary phase, the column could separate 14 solutes containing the above series of analytes in one run. The dicationic imidazolium ionic liquid modified silica can interact with hydrophobic analytes by the hydrophobic C₆ chain; it can enhance selectivity to aromatic compounds by imidazolium groups; and it also provided anion‐exchange and electrostatic interactions with ionic solutes. Compared with a monocationic ionic liquid functionalized stationary phase, the new stationary phase represented enhanced selectivity owing to more interaction sites.     

Advances in native high‐performance liquid chromatography and intact mass spectrometry for the characterization of biopharmaceutical products

The characterization of biotherapeutics represents a major analytical challenge. This review discusses the current state‐of‐the‐art in analytical technologies to profile biopharma products under native conditions, i.e., the protein three dimensional conformation is maintained during liquid chromatographic analysis. Native liquid‐chromatographic modes that are discussed include aqueous size‐exclusion chromatography, hydrophobic interaction chromatography, and ion‐exchange chromatography. Infusion conditions and the possibilities and limitations to hyphenate native liquid chromatography to mass spectrometry are discussed. Furthermore, the applicability of native liquid‐chromatography methods and intact mass spectrometry analysis for the characterization of monoclonal antibodies and antibody–drug conjugates is discussed.     

Solid-phase extraction (SPE) assays to ascertain the mechanisms of retention of antimony species in several stationary phases

Liquid chromatography is the most suitable technique for antimony speciation in several types of samples. However, efficiency can be poor for some of these peaks, especially Sb(III) and Me₃SbCl₂ (TMSb). Weak and strong anion exchange stationary phases are mainly used for antimony speciation in several chromatographic conditions. The present study examines the possible contribution of the interaction between antimony species (Sb(III), Sb(V) and TMSb) and stationary phase support to the overall retention mechanism in their chromatographic separation. Several SPE cartridges, selected from those mainly used as support in anion exchange columns, were assayed. Sb (V) was quantitatively eluted from the PSDVB (polystyrene divinylbenzene) and SiO₂ phases, showing the absence of interaction. Sb (III) showed some interaction with the PSDVB phase; TMSb showed strong retention with all the cartridges studied and it was only eluted from the PSDVB phase.