多齿配体-硅胶色谱介质的制备与评价

以新型环保多齿螯合剂——亚氨基二琥珀酸(IDS)为配体,在优化条件下,合成了IDS-Silica固定相。用电位滴定法测定了固定相上IDS的键合量。考察了IDS-Silica柱的色谱特性以及金属螯合特性。使用制备柱成功地分离了标准蛋白质混合物,该制备柱展现出了典型的阳离子交换特性。用电感耦合等离子体原子发射光谱法考察了金属离子在IDS-Silica固定相上的键合特性。结果表明,金属离子在IDS-Silica固定相上键合量的变化规律与它们同该固定相螯合的强弱顺序一致。通过比较金属Cu~(2+)在4种不同氨羧类配体硅胶柱上的键合量,发现IDS对金属离子具有强的螯合能力。IDS对金属离子的强螯合特性为其今后作为固定金属亲和色谱填料奠定了基础,为缓解亲和柱在使用过程中固定金属离子的流失提供了一种有效的解决方法。     

Affinity chromatography with immobilized DNA stationary phase for biological fingerprinting analysis of traditional Chinese medicines

A stationary phase for high performance affinity chromatography with immobilization of DNA onto silica gel was prepared and characterized. The effect of the ionic strength, concentration of Mg2+, EDTA and CH3CN in the mobile phase on the retention of alkaloids were investigated. With this stationary phase, biological fingerprinting analysis of traditional Chinese medicines (TCMs) Coptis chinensis Franch and Rheum palmatum L. was performed with both one-dimensional (1-D) and two-dimensional (2-D) chromatography. The 1-D chromatography was performed with isocratic and gradient elution and 2-D chromatography was developed with immobilized DNA column combined with silica monolithic ODS column. It was found that 7 compounds in Coptis chinensis Franch including berberine, palmatine and jatrorrhizine, 14 compounds in Rheum palmatum L. including aloe-emodin, rhein, emodin, chrysophannol-8-O-glucophranoside and physionl-8-O-glucophranoside were active in binding to the immobilized DNA.     

Depletion of high-abundance proteins from human plasma using a combination of an affinity and pseudo-affinity column

Human serum albumin (HSA) and immunoglobulin G (IgG) represent over 75% of all proteins present in human plasma. These high-abundance proteins prevent the detection of low-abundance proteins which are potential markers for various diseases. The depletion of HSA and IgG is therefore essential for further proteome analysis. In this paper we describe the optimization of conditions for selective depletion of HSA and IgG using affinity and pseudo-affinity chromatography. A BIA Separations CIM (convective interaction media) Protein G disk was applied for the removal of IgG and the Mimetic Blue SA A6XL stationary phase for the removal of HSA. The binding and the elution buffer for CIM Protein G disk were chosen on the basis of the peak shape. The dynamic binding capacity was determined. It was shown to be dependent on the buffer system used and independent of the flow rate and of the concentration of IgG. Beside the binding capacity for the IgG standard, the binding capacity was also determined for IgG in human plasma. The Mimetic Blue SA A6XL column was characterized using human plasma. The selectivity of the depletion was dependent on the amount of human plasma that was loaded on the column. After the conditions on both supports had been optimized, the Mimetic Blue SA A6XL stationary phase was combined with the CIM Protein G disk in order to simultaneously deplete samples of human plasma. A centrifuge spin column that enables the removal of IgG and HSA from 20 μL of human plasma was designed. The results of the depletion were examined using sodium dodecyl sulfate polyacrylamide gel electrophoresis and two-dimensional gel electrophoresis.     

Purification of proteins specifically binding human endogenous retrovirus K long terminal repeat by affinity elution chromatography

A novel affinity elution procedure for purification of DNA-binding proteins was developed and employed to purify to near homogeneity the proteins recognizing a 21 base pair sequence within the long terminal repeat of human endogenous retroviruses K. The approach involves loading the initial protein mixture on a heparin-agarose column and elution of protein(s) of interest with a solution of double-stranded oligonucleotide containing binding sites of the protein(s). The affinity elution has several advantages over conventional DNA-affinity chromatography: (i) it is easier and faster, permitting to isolate proteins in a 1 day-one stage procedure; (ii) yield of a target protein is severalfold higher than that in DNA-affinity chromatography; (iii) it is not necessary to prepare a special affinity support for each factor to be isolated. Theaffinity elution could be a useful alternative to conventional DNA-affinity chromatography.     

Modelling of elution-extrusion counter-current chromatography using perfect replacement approach

Basing on the perfect replacement approach the equilibrium cell model is developed to describe the separation process in elution-extrusion counter-current chromatography (EECCC). As is known, EECCC consists of three steps: classical elution, sweeping elution, and extrusion. The perfect replacement approach means that during sweeping elution step, the mobile phase contained in the column moves and interacts with the "old" stationary phase in the same mode as during the classical elution step; the "new" and "old" stationary phases do not mix; and after the contacting with the mobile phase the concentration of solutes in the "old" stationary phase remains constant and this stationary phase volume is pushed ahead to the exit of the column. Equations are presented allowing the simulation of the chromatogram of solutes eluted from the column with the mobile phase during the elution period and the chromatogram of solutes pushed out of the column with the stationary phase during the extrusion period of EECCC. These equations can help to choose the optimal conditions for conducting elution-extrusion counter-current chromatography.     

高效亲和色谱法测定2种中药成分与人血清白蛋白的结合率

采用高效亲和色谱技术(HPAC)对中药成分与人血清白蛋白(HSA)的相互作用进行了研究。首先采用点击化学的方法制备了表面键合有HSA蛋白的硅胶固定相并装填成亲和色谱柱,根据药物在该色谱柱上与空白硅胶柱上的保留时间差计算得到药物与蛋白的结合率。利用该方法测得模型化合物华法令与HSA的结合率与文献中采用超滤法测得的结果基本一致,表明该方法可用于测定药物与HSA的结合率。在此基础上用该方法测定了葛根素和告依春两种中药成分与HSA的相对结合率分别为10.26%和10.20%。同时用超滤的方法测定了葛根素与HSA的结合率为14.25%。结果表明,HPAC可以作为研究药物与蛋白相互作用的一种简便可行的方法,其测定结果与超滤方法一致。     

Stationary-Phase Optimized Selectivity LC (SOS-LC): Separation Examples and Practical Aspects

Recently the principle of a novel approach was demonstrated:the stationary-phase optimized selectivity liquid chromatography (SOS-LC). In this paper some practical aspects are given and applications are presented to demonstrate the effect and possibilities of this novel procedure. Applying the same mobile phase and constant operating conditions the retention factors (k) of the model compounds have to be determined on three different single stationary phases. The optimal stationary phase combination can be predicted using serially connected columns and the principle of the ''PRISMA'' model, applied so far for mobile phase optimization. Generally the overall selectivity of this separation is better than that of any individual stationary phase. By use of different combinations the selectivity can be finely adjusted and even different elution order might be achieved. As new results of the application of SOS-LC complete separations of 7 flavonoids and 12 pesticides are demonstrated. The conclusions of the experiments dealing with the effect of the physical order of the different stationary phase segments within the serially connected column is also discussed. Finally, the SOS-LC optimization procedure is demonstrated in a form of a flow-chart.     

Reversed-phase liquid chromatographic behavior of the mycotoxins citrinin and ochratoxin A

The reversed-phase (RP) chromatographic behavior of citrinin (CT) and ochratoxin A (OA), the latter introduced as reference substance, were studied as a function of hydrophobicity and silanophilic activities of the stationary phase, pH, type of acid in the eluent, its composition as well as of the column temperature. While OA's affinity to RP materials was not influenced by phase material properties, CT showed a high affinity to hydrophobic phase materials, and its elution order, compared to OA, depended strongly on the phase material chosen. In practice, all octadecyl stationary phases under investigation allowed proper conditions for CT and OA chromatography if judicious selection of influencing parameters, especially a low pH and applying an acid with a pKa<2.3, were chosen.     

A new application of stopped-flow chiral HPLC: inversion of enantiomer elution order

A newly developed procedure to reverse the enantiomer elution order of compounds resolved on chiral stationary phases (CSPs) for HPLC is presented. The optimized analytical protocol is based on the effect of temperature on enantioselectivity and does not involve any changing in mobile phase composition or type of CSP. In essence, the approach entails variable temperature chromatography at two temperatures. The enantiomer separation is performed at a low column temperature, with stopping the flow prior to elution of the less retained enantiomer. Then, the column temperature is changed with the peaks trapped inside the column, followed by elution with the same mobile phase in reverse direction. Under these conditions, the more pronounced loss in free energy of binding for the more strongly bound enantiomer results in an inversion of the elution order. This procedure may be applied to each enantiomer pair that is separated by chiral HPLC under an appreciable enthalpy-control.     

Study of affinity supports based on reactive polymers immobilized on silica: affinity constant determination from isocratic zonal elution.

Polymers bearing benzamidine moieties have been prepared from reactive copolymer containing chloroformate functions and deposited on porous silica matrices. These high-performance affinity chromatography supports were characterized by quantitative methods, which analyse the zonal elution behaviour of trypsin in the presence of a soluble competitor (L-arginine). The column loading capacity for trypsin was measured by the zonal elution method in mass overload conditions. On the basis of a Langmuir isotherm, the influence of the protein capacity and the concentration of the soluble ligand on the elution volume was studied for the determination of the binding constants. The plate heights determined for silica supports of various porosities and particle diameters show that the strong affinity interactions between trypsin and p-aminobenzamidine are mainly responsible for the low efficiencies observed.     

Calcium-modulated conformational affinity chromatography. Application to the purification of calmodulin and S100 proteins.

The purification of proteins by affinity chromatography is based on their highly specific interaction with an immobilized ligand followed by elution under conditions where their affinity towards the ligand is markedly reduced. Thus, a high-degree purification by a single chromatographic step is achieved. However, when several proteins in the crude mixture share affinity to a common immobilized ligand, they may not be resolved by affinity chromatography and subsequent "real" chromatographic purification steps may be required. It is shown that by using properly selected gradient elution conditions, the affinities of the various proteins towards the immobilized ligand may be gradually modulated and their separation may be achieved. This is exemplified by the isolation and separation of a group of Ca(2+)-activated proteins, Calmodulin, S100a and S100b, from bovine brain extract, using a melittin-Eupergit C affinity column which is developed with Ca(2+)-chelator gradients. As expected, separation of the three proteins into individual peaks, eluted in order of increasing affinity to the matrix, was obtained. Sigmoid selectivity curves calculated from the elution volumes under different elution conditions for each of the proteins were obtained, illustrating the chromatographic behaviour of the gradient affinity separation system.     

Refolding and simultaneous purification of recombinant human proinsulin from inclusion bodies on protein‐folding liquid‐chromatography columns

Protein‐folding liquid chromatography (PFLC) is an effective and scalable method for protein renaturation with simultaneous purification. However, it has been a challenge to fully refold inclusion bodies in a PFLC column. In this work, refolding with simultaneous purification of recombinant human proinsulin (rhPI) from inclusion bodies from Escherichia coli were investigated using the surface of stationary phases in immobilized metal ion affinity chromatography (IMAC) and high‐performance size‐exclusion chromatography (HPSEC). The results indicated that both the ligand structure on the surface of the stationary phase and the composition of the mobile phase (elution buffer) influenced refolding of rhPI. Under optimized chromatographic conditions, the mass recoveries of IMAC column and HPSEC column were 77.8 and 56.8% with purifies of 97.6 and 93.7%, respectively. These results also indicated that the IMAC column fails to refold rhPI, and the HPSEC column enables efficient refolding of rhPI with a low‐urea gradient‐elution method. The refolded rhPI was characterized by circular dichroism spectroscopy. The molecular weight of the converted human insulin was further confirmed with SDS–18% PAGE, Matrix‐Assisted Laser Desorption/ Ionization Time of Flight Mass Spectrometry (MALDI‐TOF‐MS) and the biological activity assay by HP‐RPLC. Copyright © 2014 John Wiley & Sons, Ltd.     

Single nucleotide polymorphism detection method by temperature-gradient affinity chromatography using a single-stranded oligo-DNA coupled column

We developed an affinity chromatographic method for simple single nucleotide polymorphism (SNP) detection by use of a single-stranded DNA-coupled column and temperature gradient elution, utilizing the difference in thermal stability between hybridized double-stranded DNAs with and without mismatched base-pairs in the course of temperature gradient elution. We studied experimentally and theoretically the elution behavior of DNAs with and without SNPs in this chromatography and proposed a numerical calculation method based on a thermodynamic dissociation model. The effects of the column volume, flow rate of eluent and heating rate of the column on elution profiles were clarified. For designing DNA ligands, mismatched base-pair positions favorable for detection of SNPs were also explored by use of hybridized DNAs coding a part of the human TP53 gene.     

Mechanically stable porous cellulose media for affinity purification of family 9 cellulose-binding module-tagged fusion proteins

A mechanically stable cellulose-based chromatography media was synthesized to permit inexpensive affinity purification of recombinant proteins containing the family 9 carbohydrate-binding module (CBM9) fused to either the N- or C-terminus of the target protein. A second-order response surface model was used to identify optimal concentrations of the primary reactants, epichlorohydrin and dimethyl sulfoxide (DMSO), required to cross-link the starting material, Perloza MT100, a compressible but inexpensive cellulose-based chromatography resin. This resulted in a mechanically stable cross-linked affinity chromatography media capable of operating at an order-of-magnitude higher linear velocity than permitted by unmodified MT100. Moments and Van Deemter analyses were used to show that rates of solute mass transfer within the column are largely unaffected by the cross-linking reaction, while the binding capacity decreased by 20% to 7.1 micromol of protein/g resin, a value superior to most commercial affinity chromatography media. In sharp contrast to MT100, the mechanical stability and purification performance of the cross-linked media are not diminished by scale-up or repeated column use.     

Study on the degeneracy of antisense peptides using affinity chromatography

The degeneracy of antisense peptides was studied by high-performance affinity chromatography. A model sense peptide (AAAA) and its antisense peptides (CGGG, GGGG, RGGG, SGGG) were designed and synthesized according to the degeneracy of genetic codes. An affinity column with AAAA as the ligand was prepared. The affinity chromatographic behaviors of antisense peptides on the column were evaluated. The results indicated that model antisense peptides have clear retention on the immobilized AAAA affinity column. RGGG showed the strongest affinity interaction. Similar result was obtained from another experiment that Arg-substituted antisense peptide of fusion peptide (1-11) of influenza virus A was also shown the highest affinity binding to immobilized fusion peptide.     

Regeneration of tetrabutylammonium ion-pairing reagent distribution in a gradient elution of reversed phase ion-pair chromatography

The regeneration of ion-pairing reagent distribution on liquid chromatography columns after gradient elution has been well recognized as the cause for long column equilibration time, a major drawback associated with gradient elution reverse phase ion-pair chromatography. To date, the majority of studies have focused on optimizing the separation conditions to shorten the equilibration time. There is limited understanding of the ion-pairing reagent distribution process between the mobile phase and stationary phase in the course of gradient elution, and subsequent column re-equilibration. The focus of this work is to gain a better understanding of this process. An ion-pair chromatographic system, equipped with a YMC ODS C(18) column and a mobile phase containing tetrabutylammonium (TBA) hydroxide as the ion-pairing reagent, was used in the study. The TBA distribution profile was established by measuring its concentration in the eluent fractions collected during the gradient cycle using different column equilibration times with an ion chromatographic method. Furthermore, the analyte retention time was evaluated as the function of the column equilibration time and TBA concentration in the mobile phase. The column equilibration and its impact on the method robustness will also be discussed.     

Study on open tubular capillary affinity liquid chromatography

A novel mode of affinity chromatography (AC) based on an open tubular capillary column (OTAC) is demonstrated. The OTAC column is prepared by immobilizing Cibacron blue F3GA onto the inner surface of a 50-microm-i.d. capillary column. The AC experiment is performed on a capillary electrophoresis instrument by using its pressure system as the driving force. Bovine serum albumin and lysozyme (Lys) are successfully separated with stepwise gradient elution. The relative standard deviation (RSD) for the elution time of the retained Lys is 0.08%, and good repeatability of its peak area and peak height with an RSD value lower than 2.12% for 10 consecutive runs is observed. The loading capacity and detection limit for the retained Lys are approximately 36 ng and 8.6 ng, respectively. It is also found that the amount of protein adsorbed is unaffected by the flow rate of the loading buffer, and OTAC can be used for the fast determination of biopolymers. Some of the advantages of OTAC over conventional modes of open tubular capillary liquid chromatography are that the detection sensitivity and loading capacity of a sample can be greatly improved, because the relatively large inner diameter of the capillary can be adopted and the whole capillary column can be used to adsorb the solute in OTAC.     

Molecular modeling to rationalize ligand-support interactions in affinity chromatography

The development of rational design criteria for synthetic-ligand-based affinity chromatography requires a basic comprehension of all the factors influencing the binding capacity and selectivity of the stationary phase. In this work, molecular dynamics simulations are systematically used to investigate the impact of structural modifications of spacer and ligand on ligand-support interactions. The investigated ligands are characterized by a triazine core bi-functionalized with two amino acid side chains aimed at representing a range of hydrophobic/hydrophilic characters. As spacers both literature (1-2-diaminoethane and 1,4-substituted [1,2,3]-triazole) and speculative oligopeptidic molecules (Gly-[Ala]4-Gly, Gly-[Lys]4-Gly, and Gly-[Glu]4-Gly) have been considered to address the role of charges distribution, rigidity, and structural complexity. In this investigation, the spacer emerged as a key component: on the one hand, the choice of a proper spacer allows improving the hydrophilic character of the ligand-spacer adduct without compromising the structure of the affinity ligand, while on the other hand the use of structurally complex spacers induces spacer-support interactions that enhance the degree of solvation of the ligand regardless of its hydrophobic character. These findings suggest that the use of structured spacers could represent a viable pathway for tailoring the performances of affinity chromatography stationary phases.     

Preparation of a high performance liquid chromatography column based on N-(3,5-dinitrobenzoyl)-aminoundecyl silica for the resolution of liquid crystal mixtures

A bonded silica stationary phase (SP 1) was prepared by connecting N-(3,5-dinitrobenzoyl) aminoundecylsilane to silica gel. The stationary phase was applied in resolving a liquid crystal mixture with a reversed phase high performance liquid chromatography (HPLC) mode and the chromatographic resolution results were compared with those on an octadecylsilane (ODS) column. From the comparison of the resolution results on SP 1 and the ODS column, we found the new stationary phase was better than the ODS column in resolving a liquid crystal mixture and the elution orders of some liquid crystal were changed. The better resolution and the change in the elution orders on the new column might be originated from additional π–π interaction between the π-acidic 3,5-dinitrobenzoyl group of the stationary phase and the π-basic aromatic group of liquid crystals.     

Development and optimization of a single-step procedure using protein A affinity chromatography to isolate murine IgG1 monoclonal antibodies from hybridoma supernatants.

Protein A affinity chromatography is a standard method of purifying murine monoclonal antibodies (mabs), primarily because it can be performed easily and achieves high-purity levels. Because of its high concentration capacity, it lends itself particularly well to the isolation of mabs from the supernatants of hybridoma cultures. Unfortunately, murine immunoglobulin (Ig) G1 antibodies, a subclass which occurs frequently in the IgG mabs of mice, binds very poorly to protein A, leading to problems in this isolation procedure. For this reason an attempt was made to increase the effectiveness of protein A affinity chromatography in purifying mabs of this IgG subclass by optimizing the binding conditions. The influence of ionic strength, pH and temperature on the binding capacity of a protein A column was studied. The results show the significance of temperature in the binding of the murine IgG1 mab tested to protein A. Further investigations were carried out to optimize the elution conditions and to study the contamination of mab preparations obtained with non-specific bovine protein A reactive Igs originating from culture medium supplement (10% foetal calf serum). An optimized, automatic single-step procedure to obtain highly purified murine IgG1 mabs from hybridoma culture supernatants was developed.