大孔及涂敷硅球作基质的组氨酸拟亲和色谱纯化人免疫球蛋白G

研究用分子组氨酸和配体、大孔硅球为基质的拟亲和色谱分离纯化人免疫蛋白Ｇ（ＩｇＧ），认为键合组氨酸具有半抗原体质而与ＩｇＧ发生免疫亲和作用，以色谱组份重新进样验证了色谱柱对ＩｇＧ亲和专一性，并用包敷Ｄｅｘｔｒａｎ大孔硅球作基质的拟亲和色谱纯化人血清中的ＩｇＧ，减少了色谱峰拖尾，缩短了分离时间。     

Three novel high performance affinity chromatographic media for the separation of antithrombin III from human plasma.

Novel monodisperse, non-porous, cross-linked poly (glycidyl methacrylate) beads (PGMA) were employed as the support for high performance affinity chromatography. Heparin was covalently attached to PGMA beads by three different coupling methods. Heparin-PGMA-I was prepared by directly coupling amino-groups of heparin with PGMA. Heparin-PGMA-II and III were prepared by the coupling of heparin to amino-PGMA, which was obtained by amination of PGMA. Heparin-PGMA-II was prepared by coupling the carboxyl groups of heparin to amino-PGMA by using water-soluble carbodiimide as coupling reagent, and heparin-PGMA-III was prepared by the reductive amination of heparin and amino-PGMA with sodium cyanoborohydride. The heparin contents of heparin-PGMA-I, II and III were 1.6, 10.2 and 1.0 mg/g beads, respectively. Their affinity capacities for antithrombin III were investigated. Their binding activity to antithrombin III was not proportional to the content of heparin immobilized, and heparin-PGMA-I was the most efficient affinity medium for antithrombin III. The resultant affinity media presented minimal non-specific interaction with other proteins and can be used in a wide pH range. All the three heparin-PGMA beads were exploited for the separation of antithrombin III from human plasma. The purity of antithrombin III obtained was higher than 90%, which was confirmed by high performance size exclusion chromatography.     

Effect of antigen size on optimal ligand density of immobilized antibodies for a high-performance liquid chromatographic support

The antigen binding capacities for purified polyclonal antibodies immobilized onto a silica-based high-performance liquid chromatographic (HPLC) affinity support are described for three serum proteins over a range of antibody ligand densities. The rate of decline in the specific activity of the immobilized antibodies with respect to increasing ligand density was found to increase with the molecular weights of the antigens. The antibodies used were purified from whole antiserum using high-performance affinity chromatography and were examined using HPLC on an SCX stationary phase. Conditions are also described for efficient coupling of the ligand to the support.     

Comparison of affinity membranes for the purification of immunoglobulins

The purification of immunoglobulins was studied by comparing 10 different affinity membranes, prepared by coupling various affinity ligands to different microfiltration membranes. Membranes carrying the synthetic peptide TG19318, histidine, the thiophilic ligand and iminodiacetic acid complexed with Zn(II) showed a weak affinity for human IgG, as expressed by apparent association constants (K_A) in the order of 10⁵ M⁻¹. Human IgM and rat IgG bound with high affinity to TG19318 membranes, thus, demonstrating the potential of this sorbent for the purification of immunoglobulins other than human IgG. When carrying Protein-A ligands, membranes based on Nylon 66 coated with low-molar-mass dextran or poly(vinylalcohol), as well as commercial pre-activated polysulfone (Ultrabind^®) and regenerated cellulose (Sartobind^®) membranes, showed high affinity for human IgG (K_A≈10⁶ M⁻¹). In contrast, a nylon membrane coated with high-molar-mass dextran yielded only K_A≈10⁵ M⁻¹, which was attributed to a low accessibility of the immobilized ligand. Besides the high association constants, Protein-A adsorbers based on polysulfone and regenerated cellulose membranes showed several other advantages, such as enhanced charge-to-charge consistency, simpler preparation procedure, membrane sterilisability, good selectivity for IgG purification from cell culture supernatant and good stability throughout repeated adsorption–elution cycles.     

Microstructured layers of spherical biofunctional core-shell nanoparticles provide enlarged reactive surfaces for protein microarrays

Nanostructured core-shell particles with tailor-made affinity surfaces were used to generate microstructured affinity surfaces by microspotting the particles to form densely packed amorphous nanoparticle layers. These layers provided a large reactive surface for the specific binding of protein ligands from aqueous solution. Biofunctional core-shell particles were synthesized for this purpose that consisted of a silica core with a diameter of 100 nm and an organic shell a few nm thick. The nanoparticle core was prepared by sol-gel chemistry and the shell formed in suspension by organosilane chemistry. The shell provided amino groups or carbonyl groups at its outer surface for subsequent covalent immobilization of streptavidin, rabbit IgG antibodies or goat IgG antibodies. AlexaFluor 647-conjugated and biotinylated cytochrome C and CyDye-labeled anti-rabbit IgG and anti-goat IgG were probed as model analytes. The core-shell nanoparticles were spotted using a pin-ring micro-arrayer onto microscope glass slides that were coated with a polycation monolayer by dip-coating prior to nanoparticle deposition. Amorphous particle layers of well-defined thicknesses in the range of 100 nm to 2 microm were obtained by printing aqueous particle suspensions containing 5-500 mg/mL (0.5-50 wt%) of silica particles. The specific affinity of the plotted nanoparticulate capture surface was demonstrated by binding Cy3-labeled donkey anti-rabbit IgG and Cy5-labeled mouse anti-goat IgG to immobilized rabbit IgG and goat IgG particles. The signal intensity per spot increased for any given analyte concentration when the amount of particles per spot was augmented. This was attributed to the increasing integration of receptor molecules per surface footprint, which shifted the binding equilibrium towards the formation of the receptor-ligand complex. Additionally, the locally-increased supply of receptor molecules at the nanoparticulate microchip surface resulted in a wide dynamic range of 4 fM-20 nM (covering six orders of magnitude).     

Cyanogen bromide activation and coupling of ligands to diol-containing silica for high-performance affinity chromatography optimization of conditions

To obtain silica supports for high-performance affinity chromatography, a method of preparing CNBr-activated diol-silica under anhydrous conditions was developed. Activation of the silane-derived hydroxyls with cyanogen bromide and triethylamine was optimized and demonstrated to efficiently couple several amino ligands (tryptophan, 6-aminohexyl-Cibacron Blue, and DNA). Sonication and vacuum degassing, a procedure used to remove air from the silica beads, increased activation. Coupling of an amino ligand under slightly basic conditions (pH 8.0) gave the highest yield. The linkage between the immobilized ligands and silica was stable from pH 2-10. Anhydrous acetone was the most effective solvent for activation but dimethylformamide and 2-propanol were also good choices. The high-performance affinity chromatography columns obtained by coupling sequence-specific DNA binding sequences for Lac repressor-beta-galactosidase fusion protein were compared to affinity columns obtained by coupling the same DNA element to Sepharose beads; 5 microm silica gave the best performance.     

Protein A tangential flow affinity membrane cartridge for extracorporeal immunoadsorption therapy.

Tangential flow affinity membrane cartridge (TFAMC) is a new model of immunoadsorption therapy for hemoperfusion. Recombinant Protein A was immobilized on the membrane cartridge through Schiff base formation for extracorporeal IgG and immune complex removal from blood. Flow characteristics, immunoadsorption capacity and biocompatibility of protein A TFAMC were studied. The results showed that the pressure drop increased with the increasing flow rate of water, plasma and blood, demonstrating reliable strength of membrane at high flow rate. The adsorption capacities of protein A TFAMC for IgG from human plasma and blood were measured. The cartridge with 139 mg protein A immobilized on the matrix (6 mg protein A/g dry matrix) adsorbed 553 mg IgG (23.8 mg IgG/g dry matrix) from human plasma and 499.4 mg IgG (21.5 mg IgG/g dry matrix) from human blood, respectively. The circulation time had a major influence on IgG adsorption capacity, but the flow rate had little influence. Experiments in vitro and in vivo confirmed that protein A TFAMC mainly adsorbed IgG and little of other plasma proteins, and that blood cell damage was negligible. The extracorporeal circulation system is safe and reliable.     

白蛋白在以染料为配基的醋酸纤维滤棒上的等温吸附行为(英文)

 以醋酸纤维滤棒为基质 ,染料CibacronBlueF3GA为配基 ,合成了一种新的染料亲和介质 ;分别以牛血清白蛋白 (BSA)和人血清白蛋白 (HSA)为对象 ,用静态法进行了吸附实验 ,得到了相应的亲和等温吸附曲线 ;对曲线按Langmuir模型和Freundlich模型分别进行拟合 ;结果表明 ,醋酸纤维滤棒染料亲和介质对BSA和HSA的等温吸附遵循Freundlich模型。采用该亲和介质装柱并分离实际样品人血浆 ,可得到纯化的人血清白蛋白。     

Interactions between an amphipathic di‐histidine peptide and a metal affinity chromatographic resin derived from a bis(tacn)butane chelating ligand

The interactive behavior of an amphipathic peptide with the Cu²⁺, Ni²⁺, and Zn²⁺ complexes of 1,4‐bis(triazacyclonon‐1‐yl)butane), bis(tacn)^but, immobilized onto Sepharose CL‐4B, has been investigated. The effects of incubation time, as well as the incubation buffer pH and ionic strength, have been examined. The binding data have been interrogated using Langmuir, Langmuir‐Freundlich, bi‐Langmuir, and Temkin isothermal models and Scatchard plots. These results confirm that this amphipathic peptide binds with relatively high capacities to the immobilized Cu²⁺‐ and Ni²⁺‐1,4‐bis(triazacyclonon‐1‐yl)butane)‐Sepharose CL‐4B sorbents via at least two discrete sites. However, the corresponding immobilized Zn²⁺‐sorbent had low binding capacity. Moreover, the magnitude of the binding capacities of these sorbents was dependent on the pH and ionic strength of the incubation buffer. These results are relevant to the isolation of E. coli expressed recombinant proteins that incorporate this and related amphipathic peptide tags, containing two or more histidine residues, located at the N‐ or C‐terminus of the recombinant protein, and the co‐purification of low abundance host cell proteins of diverse structure, by immobilized metal ion affinity chromatographic methods.     

Heterogeneous Heck reaction catalysed by silica gel-supported 1,2-diaminocyclohexane–Pd complex

A 1,2-diaminocyclohexane–Pd complex was immobilized onto the surface of silica gel and investigated as a catalyst for Heck coupling reactions. The immobilized catalyst exhibited high catalytic activity in the coupling of activated and nonactivated aryl substrates with various acrylates. Moreover, the catalyst was air-stable that could be recycled and reused without significant loss of catalytic activity.     

Application of new high-performance liquid chromatography and solid-phase extraction materials to the analysis of pesticides in human urine

A method for the simultaneous determination of diuron and linuron pesticides in human urine was developed, using both solid-phase extraction (SPE) and high-performance liquid chromatography (HPLC) phases made in our own laboratory. These materials were prepared by sorption of polysiloxanes onto a silica surface, followed by immobilization. The HPLC columns were prepared from poly(methyloctylsiloxane), PMOS, immobilized onto silica with microwave radiation while the SPE cartridges where made with poly(methyloctadecylsiloxane), immobilized thermally. Method validation was performed for diuron and linuron for three fortification levels. The recoveries obtained were 85-103%, the inter- and intra-assay precisions were less than 1.6 and 1.8%, respectively. The limits of quantitation and detection for diuron were 2.4 and 8.0 microg/l and for linuron were 5.0 and 12 microg/l, respectively.     

Prepation of poly(N-isopropylacrylamide)-grafted silica gel and its temperature-dependent interaction with proteins

Poly(N-isopropylacrylamide) oligomer was immobilized onto a silica gel surface. The gel adsorbed a hydrophobic protein γ-globulin (IgG) at 37°C, however, did not adsorb IgG at 24°C. The adsorbed IgG at 37°C was adsorbed by lowering the temperatue, No adsorption of a hydrophilic protein bovin serum albumin (BSA) onto this matrix was observed at 37°C nor 24°C.     

Artificial immunoglobulin G-binding protein mimetic to staphylococcal protein A. Its production and application to affinity purification of immunoglobulin G.

Staphylococcal protein A consists of a single polypeptide with five immunoglobulin G (IgG)-binding domains, which are linked as E-D-A-B-C in this order from the amino terminal. The DNA coding domains A-B were polymerized one to six times linearly, taking advantage of the non-palindromic nucleotide sequence of the AccI recognition site and the resultant DNAs were inserted in pTRP vector carrying trp promoter. The artificial IgG-binding proteins [pA(AB)1-6], which had been expressed in Escherichia coli JM109, were purified by methods involving IgG-Sepharose affinity chromatography. Among pA(AB)1-6 immobilized on cyanogen bromide-Sepharose, pA(AB)4-Sepharose was the highest in IgG-binding capacity at the same level of mg protein per ml gel, about 30% higher than protein A-Sepharose. At 8 mg protein per ml gel, it bound and eluted about 24 mg of IgG from rabbit serum. Its IgG-binding capacities were the highest with porcine, rabbit, human and guinea pig sera, intermediate with bovine, horse and sheep sera and the lowest with mouse, goat, rat and chicken sera.     

Development of an affinity silica monolith containing alpha1-acid glycoprotein for chiral separations

An affinity monolith based on silica and containing immobilized alpha(1)-acid glycoprotein (AGP) was developed and evaluated in terms of its binding, efficiency and selectivity in chiral separations. The results were compared with data obtained for the same protein when used as a chiral stationary phase with HPLC-grade silica particles or monoliths based on a copolymer of glycidyl methacrylate (GMA) and ethylene dimethacrylate (EDMA). The surface coverage of AGP in the silica monolith was 18% higher than that obtained with silica particles and 61% higher than that measured for a GMA/EDMA monolith. The higher surface area of the silica monolith gave materials that contained 1.5- to 3.6-times more immobilized protein per unit volume when compared to silica particles or a GMA/EDMA monolith. The retention, efficiency and resolving power of the AGP silica monolith were evaluated by injecting two chiral analytes onto this column (i.e., R/S-warfarin and R/S-propranolol). In each case, the AGP silica monolith gave higher retention plus better resolution and efficiency than AGP columns containing silica particles or a GMA/EDMA monolith. The AGP silica monolith also gave lower back pressures and separation impedances than these other materials. It was concluded that silica monoliths can be valuable alternatives to silica particles or GMA/EDMA monoliths when used with AGP as a chiral stationary phase.     

Immobilization of Chymotrypsin on Silica Beads Based on High Affinity and Specificity Aptamer and Its Applications

Aptamers with high affinity and specificity to targets, bring new approaches to immobilizing proteins or enzymes. In this work, a group of single-stranded DNA aptamers specific for chymotrypsin were obtained by SELEX method in vitro. After investigation and characterization of all aptamers, AptC.1 (abbreviation for the aptamer with the highest affinity for chymotrypsin) was selected and grafted onto silica matrix with the help of glutaraldehyde as linker, and used subsequently to immobilize chymotrypsin. Specifically, it is shown in experiment that, 12.65 µg of chymotrypsin could be immobilized on 10 mg of AptC.1-Silica in 10 mM pH 8.0 borate solutions, and the activity of immobilized enzyme was not inhibited. Bovine serum albumin, myoglobin and cytochrome c were introduced to investigate the enzymatic performance of prepared immobilized chymotrypsin reactor. All these results demonstrated that aptamer could serve as a potential medium for the immobilization of proteins or enzymes.     

New alpha-amino phenylalanine tetrazole ligand for immobilized metal affinity chromatography of proteins

A new chelating compound has been developed for use in the immobilized metal affinity chromatographic (IMAC) separation of proteins. The bidentate ligand, alpha-amino phenylalanine tetrazole, 4, was synthesized via a five-step synthesis from N-fluorenylmethoxycarbonyl phenylalanine and then immobilized onto silica through the epoxide coupling procedure. The binding behavior of the resulting IMAC sorbent, following chelation with Zn2+ to a density of 183 micromol Zn2+ ions/g silica, was characterized by the retention of proteins in the pH range of 5.0-8.0, and by the adsorption behavior of lysozyme with frontal chromatography at pH 6.0 and 8.0. The prepared column showed the separation ability to four test proteins and the retention time of these proteins increased with an increase in pH. From the derived isotherms, the adsorption capacity, qm, for the binding of lysozyme to immobilized Zn2+-alpha-amino phenylalanine tetrazole-silica was found to be 1.21 micromol/g at pH 6.0 and 1.20 micromol/g sorbent at pH 8.0, respectively, whilst the dissociation constants KD at these pH values were 5.22x10(-6) and 3.49x10(-6) M, respectively, indicating that the lysozyme was retained more stable under alkaline conditions, although the binding capacity in terms of micromole protein per gram sorbent remained essentially unchanged.     

蛋白A连续床亲和毛细管色谱柱的制备及性能考察

人免疫球蛋白 G(HIg G)是一种重要的生物大分子 ,是人血浆中的主要成分之一 ,通常采用免疫学的方法测定 .蛋白 A(Protein A)与免疫球蛋白 (HIg G)的 Fc区之间具有很强的特异性亲和作用 ,因而固载蛋白 A的亲和介质可用于免疫球蛋白及单克隆抗体的分离、纯化和分析测定[1～ 3 ] .根据固定相存在形式的不同 ,毛细管色谱柱主要有开管、填充和连续床柱 3种方式 .连续床具有相比高、易制备 (一步合成 )、孔径易控制、不需烧塞子和易改性等优点 .连续床与其它常用的亲和介质 (如球型凝胶颗粒、灌流色谱基质 [4、 5] 、膜介质 [6,7] 等 )相比具…     

Preparation and properties of silica gel with immobilized formazan group

A new sorption material, silica gel with covalently immobilized formazan group, was suggested and characterized. The material was prepared by coupling the immobilized aryldiazonium salt with benzaldehyde phenylhydrazone. The equilibrium and kinetic characteristics of the sorption of Cu(II), Co(II), Ni(II), and Cd(II) from solutions onto the modified silica gel were determined. The material proved to efficiently concentrate Cu(II) from multicomponent solutions. The coordination surrounding of Cu(II) in the complex on the sorbent surface was determined by ESR.     

New synthetic methods for the formation of basic,polyvalent, hyperbranched grafts

A practical synthetic route to polybasic, polyamine, hyperbranched grafts using commercially available polyethyleneimine (PEI) and cyanuric chloride as a coupling agent is described. The grafting process was followed by XPS spectroscopy, TGA analysis, ATR‐IR spectroscopy, acid–base titration, and by ¹³C CP‐MAS NMR spectroscopy. In the case of silica gel, thermal gravimetric analyses showed that a 35 wt % loading of graft could be obtained. Acid–base titration of hyperbranched PEI grafts on silica gel and oxidized polyethylene powder showed the ion‐exchange capacities of these PEI‐grafted substrates were 1.00 and 0.17 mmol of base/g of solid, respectively. Although the focus of the paper is on grafting on silica gel, the influence of the kind of support and solvent on the grafting process and the ion‐exchange capacity was examined. Water was a good solvent for PEI grafting onto silica gel, but a more hydrophobic polyethylene support required the use of dichloromethane as a solvent for PEI graft synthesis. © 2005 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 43: 4654–4665. 2005     

A preliminary study for isolation of catalytic antibodies by histidine ligand affinity chromatography as an alternative to conventional protein A/G methods

Catalytic autoimmune antibodies from the sera of lupus patients were purified using histidyl-aminohexyl-Sepharose gel and compared with the antibodies purified with protein A and protein G affinity chromatography. The IgG preparations from the histidine affinity column had a much higher catalytic activity in hydrolyzing the peptide substrate Pro-Phe-Arg-methyl-coumarinamide compared to the antibodies obtained by the conventional protein A/G method. This preservation of catalytic activity is attributed to the gentle buffer conditions used in the histidine ligand method that allowed the integrity of three-dimensional structure of purified catalytic antibodies. Thus, histidine affinity offer a superior method for isolating autoimmune catalytic antibodies.