Two-dimensional separations of peptides and proteins by comprehensive liquid chromatography-capillary electrophoresis

Analysis of biological samples is problematic because of their complex composition. Reversed phase liquid chromatography (RPLC), size exclusion chromatography (SEC), and, more recently, capillary zone electrophoresis (CZE) are routinely used for the analysis of these samples, but are eventually limited because they are one-dimensional (1-D) methods. As sample complexity increases, the separation efficiency necessary to resolve a large number of sample components in one dimension becomes prohibitively high. A solution to this problem has been to use a two-dimensional (2-D) approach. Each dimension in a 2-D separation relies on a different separating mechanism. By expanding the separation into two dimensions, sample components unresolved in the first dimension can often be separated in the second. This circumvents the requirement for extremely high efficiencies in either dimension. Two-dimensional slab gel electrophoresis has been used successfully in this area, but a more instrumental approach is desired. In this paper we describe three coupled-column approaches to 2-D separations. First, microcolumn SEC-CZE is explored as a means of 2-D protein analysis. Next, RPLC-CZE is investigated for analysis of peptides in tryptic maps. Finally, RPLC is coupled with fast CZE (FCZE), a unique form of CZE analysis, for fast 2-D analysis of peptides. Details of the instrumentation used in these 2-D systems will be presented along with the results of some typical 2-D analyses.     

Determination of polyamines in serum by high-performance capillary zone electrophoresis with indirect ultraviolet detection

A method for determining polyamines in serum by capillary zone electrophoresis (CZE) with indirect ultraviolet detection was established. The concentrations of polyamines in the sera of six healthy adults were determined and the results were in accordance with those obtained previously by high-performance liquid chromatography (HPLC). However, the CZE method is superior to HPLC in that it has high sensitivity, small sample consumption and easy sample pretreatment.     

Evaluation of adsorption preconcentration/capillary zone electrophoresis/nanoelectrospray mass spectrometry for peptide and glycoprotein analyses

The use of an on-line adsorption preconcentrator coupled with capillary zone electrophoresis/nanoelectrospray mass spectrometry (PC/CZE/nESMS) is described for the analysis of peptides and protein digests. The investigation was focused on the production of disposable preconcentrators made of large particle size (40 microns irregular packing), thereby eliminating the use of a retaining frit without loss of performance. These preconcentration devices were made of commercially available components which can be easily interfaced to current CZE/nESMS systems. Practical issues such as the composition of the stationary phase, the elution volume and sample breakthrough and carry-over were evaluated in order to optimize the analytical performance of this technique. Under optimized elution conditions, the PC/CZE/nESMS technique provided separation efficiencies in excess of 100,000 theoretical plates for a sample loading of 8 microliters. Sample carry-over was minimized by proper reconditioning of the preconcentrator prior to the CZE separation. Alternatively, the sample carry-over resulting from small elution volumes could be used advantageously to provide multiple analyses from a single injection of sample. The application of this technique is demonstrated for the analysis of proteolytic peptides from a Bauhinia purpurea lectin at a concentration level of 30 nM. Further structural information was obtained using on-line tandem mass spectrometry to elucidate the structure of N-linked glycans and the amino acid sequences of the glycopeptides.     

Development of a membrane oxygenator for ECMO using a novel fine silicone hollow fiber

One of the limitations of conventional silicone hollow fiber oxygenators compared with microporous membrane oxygenators is poor gas permeability. However, the silicone hollow fiber is free from plasma leakage, which is the major life limiting factor of the microporous membrane oxygenator. It has been difficult to fabricate a fine, thin hollow fiber for reduction of resistance to gas permeability because of the poor mechanical strength of conventional silicone materials. The authors developed a novel silicone material with sufficient mechanical strength, and a fine silicone hollow fiber with a diameter of 30 microns and wall thickness of 50 microns, which is approximately half that of a conventional silicone hollow fiber. Using this newly developed silicone hollow fiber, the authors developed a compact extracapillary flow membrane oxygenator. The oxygenator consists of fine silicone hollow fibers inserted in a housing made of polycarbonate. The housing is a cylindrical case, 20 cm long and 55 mm in inside diameter. The hollow fibers are cross-wound. The surface area of the membrane is 2.0 m2, and priming volume is 230 ml. Gas transfer performance of the newly developed oxygenator was evaluated by in vitro experiments. Oxygen and carbon dioxide transfer rates were 195 ml/min and 165 ml/min, at a blood flow rate 3 L/min. The novel silicone membrane oxygenator developed in this study can be used for extended duration in such applications as extracorporeal membrane oxygenation.     

Solute washout experiments for characterizing mass transport in hollow fiber immunoisolation membranes

The transport characteristics of immunoisolation membranes can have a critical effect on the design of hybrid artificial organs and cell therapies. However, it has been difficult to quantitatively evaluate the desired transport properties of different hollow fiber membranes due to bulk mass transfer limitations in the fiber lumen and annular space. An attractive alternative to existing methodologies is to use the rate of solute removal or "washout" from the annular space during constant flow perfusion through the fiber lumen. Experimental washout curves were obtained for glucose and a 10 kD dextran in two different hollow fiber devices. Data were analyzed using a theoretical model which accounts for convective and diffusive transport in the lumen, membrane, and annular space. The model was in good agreement with the experimental results and provided an accurate measure of the effective membrane diffusion coefficient for both small and large solutes. This approach should prove useful in theoretical analyses of solute transport and performance of hollow fiber artificial organs.     

Recent advances in capillary zone electrophoresis of DNA

The present minireview summarizes recent developments in the field of DNA separations by capillary zone electrophoresis (CZE), as developed by our group. Separation of antisense oligonucleotides in sieving liquid polymers in isoelectric buffers is discussed first. It is shown that the use of isoelectric buffers permits very high voltage gradients (up to 1000 V cm-1) with much reduced transit times and increased resolution of all truncated and failed sequences. Oligonucleotides can also be analysed by zone electrophoresis against a stationary pH gradient (typically a pH 6.5-10 range): if injected at the alkaline end, the sample components experience stacking and zone sharpening due to modulation of charge as the oligonucleotides move along the pH gradient. Oligonucleotides having the same length, but differing by one single nucleotide in the chain, can be separated in free solution (i.e. in the absence of a sieving matrix) at strongly acidic pH values (pH 3.0-3.3) where charge differences due to base protonation are maximized. By working in free solution, it has also been possible to measure accurately the free mobility of DNAs, shown to reach a constant value of 3.75 +/- 0.04 10(-4) cm2 V-1 s-1 at 25 degrees C and in Tris-acetate-EDTA buffer, pH 8.3, above a critical length of ca. 400 base pairs. Finally, detection of point mutations in human genomic DNA is proven to be feasible in nonisocratic CZE, by running temperature-programmed CZE. The temperature gradient is activated within the capillary lumen by voltage ramps during the run, by exploiting joule effects. This technique has been proven to work for all point mutants, from low-, to intermediate-, to high-melters and has been applied to a number of point mutants in cystic fibrosis and thalassemia.     

Study on Transfer and Interfacial Kinetics of Neodymium and Samarium in Membrane Based Extraction

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Development and validation of transient isotachophoretic capillary zone electrophoresis for determination of peptides

Although capillary zone electrophoresis (CZE) is known for its high resolution power and low mass detection limits, the concentration detection limits are rather poor when ultraviolet absorbance detection is used. To overcome this limitation, several on-column transient isotachophoresis (tITP) protocols have been developed and validated for the determination of both cationic and anionic model peptides, separately. Using this preconcentration method, up to 72% of the capillary can be filled with sample solution, without any loss in resolution. Thus, without any modification of the hardware set-up, the sensitivity is increased about two orders of magnitude. For the model cationic peptides (gonadorelin, angiotensin II) good linearity and reproducibility is observed in the 20 to 100 ng/mL concentration range. For the anionic peptides (N-t-Boc-Pentagastrin and two related peptides), a tITP method was developed using a dynamically coated capillary. The coating was prepared by adding Fluorad FC-135 to the leading electrolyte buffer. In this way a positively charged bilayer was formed on the inside of the capillary, producing an electroosmotic flow towards the outlet using reversed polarity conditions. In this way, acceptable analysis times were achieved. Using the developed tITP method, up to 72% of the capillary can be filled with sample solution as well. The anionic peptides are separated even better than when using CZE conditions. Linearity and reproducibility in the 20-100 ng/mL range proved to be excellent.     

A critical evaluation of the application of capillary electrophoresis to the detection and determination of 1,4-benzodiazepine tranquilizers in formulations and body materials

Studies of the capillary zone electrophoresis (CZE) and micellar electrokinetic capillary chromatography (MEKC) behaviour of 1,4-benzodiazepines have seen application in subject areas such as the development of pharmaceuticals, therapeutic drug monitoring and forensic toxicology. In the development of pharmaceuticals, pKa determinations by CZE can be used in preclinical studies whereas analytical data on the detection and determination of 1,4-benzodiazepines is of value primarily in raw material/formulation assay and in the analysis of body fluids in clinical studies. The capillary electrophoresis (CE) techniques, which generally have inferior limits of detection (LOD) to rival techniques such as gas chromatography (GC) and high-performance liquid chromatography (HPLC), are particularly applicable in forensic toxicology where reasonably high concentrations of these drugs can be encountered. It is anticipated that, with the interfacing of CZE and capillary electrochromatography (CEC) with mass spectrometry (MS) techniques, the excellent selectivity of CZE and particularly CEC will be effectively combined with the sensitivity of MS and the identification capabilities of tandem mass spectrometry (MS/MS) and MS hyphenated (MSn) techniques.     

Buffer additives other than the surfactant sodium dodecyl sulfate for protein separations by capillary electrophoresis

The different compounds utilized as additives to the electrolyte solutions employed in protein capillary zone electrophoresis (CZE) for minimizing protein-capillary wall interactions, for improving selectivity and resolution and for controlling the electroosmotic flow are reviewed. The dependence of the electroosmotic flow on the different variables that can be affected by the incorporation of an additive into the electrolytic solution is discussed. A list of the most effective additives employed for protein separations by CZE is reported in Appendix A.     

Separation and characterization of humic acids and metal humates by electrophoretic methods

A modified buffer for the separation of humic acids (HA) by capillary zone electrophoresis (CZE) was studied. The addition of hydroxycarboxylic acids to borate buffer makes a more efficient separation of HA possible. Two sharp peaks are obtained. Preparative isolation of these two fractions can be reached by applying the conditions used in CZE to free-flow electrophoresis (FFE). The fractions obtained were characterized by repetition of the CZE procedure. Also metal complexes of HA were investigated by electrophoretic methods. In the presence of metal cations, HA form stable complexes of different electrophoretic mobility. These complexes can be separated by free-flow isotachophoresis (FF-ITP). The different fractions are analyzed by CZE, ultraviolet-visible and atomic absorption spectrometry. Significant changes in both the ITP-pattern of the FFE and the 'humic hump' in CZE demonstrate the influence of complexation on the macromolecules.     

Micellar electrokinetic chromatography: a convenient alternative to colorimetric and high performance liquid chromatographic detection to monitor protease activity

High performance capillary electrophoresis (HPCE) has been exploited as an analytical method alternative to current procedures for the determination of proteolytic activity of elastases from different sources. Due to some drawbacks with capillary zone electrophoresis (CZE), the mode of operation employed for the assay of elastolytic activity was micellar electrokinetic chromatography (MEKC). Using a background electrolyte consisting of 35 mM sodium tetraborate, pH 9.3, containing 65 mM SDS and 15% v/v methanol, separation of intact peptide substrate from products of proteolytic reaction was easily achieved in a fused-silica capillary of 50 cm effective length x 75 microm ID. This allowed us to determine the rate of hydrolysis of substrates and to calculate the kinetic parameters Km and k(cat) of the proteases investigated. A comparison of these data with those obtained from high performance liquid chromatography (HPLC)-based experiments showed that MEKC is a convenient technique for studying protease kinetics.     

Altered mRNA expression of the neuronal nitric oxide synthase gene in Hirschsprung''s disease

Deoxyribonuclease I (DNase I) is an actin monomer-sequestering actin binding protein (ABP) that inhibits the rate and extent of actin polymerisation in vitro by forming a high affinity, stoichiometric 1:1 complex. Using capillary zone electrophoresis (CZE), we have studied the interaction between G-actin and DNase I to evaluate the capability of CZE to determine the dissociation constant (K(d) value) for this interaction. We used (i) an uncoated fused-silica capillary and ultraviolet (UV) detection at 214 nm; (ii) a hydrophilic-coated capillary with UV detection at 214 nm; and (iii) a hydrophilic-coated capillary with laser-induced fluorescence (LIF) detection. Using procedure (ii), a K(d) value of approximately 0.03 microM was obtained by simulation of binding data. We conclude that CZE combined with a LIF detector has the capacity to extend the determination of K(d) values from the micromolar range to the nanomolar range. Subsequent determination of K(d) values for other actin-binding proteins should provide information on interactions between the binding sites on actin for these proteins and their spatial relationship.     

Concentration of europium(III) with supported liquid membrane containing a xylene solution of di-2-ethyihexyl phosphoric acid

The mechanism of europium transport through a supported liquid membrane is presented. The membrane consisted of a Teflon filter membrane with xylene solution of di-2-ethylhexyl phosphoric acid (HDEHP) as a mobile carrier held within the pores by capillary forces. Interposing the liquid membrane between two aqueous solutions of different pH, europium was transported and concentrated from the high pH solution to the low pH solution across the liquid membrane. The experiments were carried out to investigate the effects of the concentration of europium in the aqueous phase and HDEHP concentration in the membrane solution on the permeation rates of europium. The experimental results have been compared with a transport model for concentrating europium across the liquid membrane. The permeation rates of europium can be explained approximately by the diffusion process of the complex formed between europium ion and HDEHP at the membrane interface through the membrane in addition to the diffusion process of europium in the aqueous film adjacent to the membrane interface. Formerly Postdoctoral Fellow, Ames Laboratory, USDOE     

Characterization and quantification of organic anions with capillary zone electrophoresis using direct and indirect detection

A comparison of the separation and quantification capabilities of capillary zone electrophoresis (CZE) using direct and indirect detection of organic anions was conducted. A conventional CZE separation (normal polarity, electroosmotic flow toward the cathode) of phenol, benzoic acid, and 2,4-dihydroxybenzoic acid utilized direct UV absorption at 215 nM. A separation of myo-inositol 1,4,5-trisphosphate and myo-inositol hexakisphosphate utilizing a reversed polarity and an electroosmotic flow modifier (flow toward the anode) was monitored by indirect UV absorption at 250 nM. The separation buffers utilized in this study consisted of 50 mM borate buffer (pH 8.3) and IonPhor Anion PMA Electrolyte Buffer (pH 7.7) (Dionex Corp., Sunnyvale, CA, U.S.A.) for studies utilizing direct and indirect detection methods, respectively. The effect of separation voltage on the theoretical plate numbers observed for the separations was linear for both the direct and indirect systems. Sample introduction parameters investigated included electromigration injection voltage and duration, and gravity injection duration. The conventional CZE separation using direct detection gave superior precision and better agreement with theoretical predictions than the separation using indirect detection. Both systems were evaluated for quantitative accuracy using electromigration, pressure, and gravity sample introduction modes. The conventional CZE system showed superior performance with regard to sensitivity and limits of detection. Accuracy and precision in the quantitation of known standards was greatest for both systems when the gravity sample introduction mode was used.     

Development of a silicone hollow fiber membrane oxygenator for ECMO application

A new silicone hollow fiber membrane oxygenator for extracorporeal membrane oxygenation (ECMO) was developed using an ultrathin silicone hollow fiber, with a 300 microm outer diameter and a wall thickness of 50 microm. The hollow fibers were mechanically cross-wound on the flow distributor to achieve equal distribution of blood flow without changing the fiber shape. The housing, made of silicone coated acryl, was 236 mm long with an inner diameter of 60 mm. The surface area was 1.0 m2 for prototype 211, and 1.1 m2 for prototype 209. The silicone fiber length was 150 mm, and the silicone membrane packing density was 43% for prototype 211 and 36% for prototype 209. Prototype 211 has a priming volume of 208 ml, and prototype 209 has a priming volume of 228 ml. The prototype 211 oxygenator demonstrates a gas transfer rate of 120 +/- 5 ml/min (mean +/- SD) for O2 and 67 +/- 12 ml/min for CO2 under 2 L of blood flow and 4 L of O2 gas flow. Prototype 209 produced the same values. The blood side pressure drop was low compared with the silicone sheet oxygenator (Avecor, 1500ECMO). These results showed that this new oxygenator for ECMO had efficiency similar to the silicone sheet oxygenator that has a 50% larger surface area. These results suggest that the new generation oxygenator using an ultrathin silicone hollow fiber possesses sufficient gas transfer performance for long-term extracorporeal lung support.     

Micellar electrokinetic capillary chromatography (MECC) of UV-absorbing constituents in normal urine: a chemometric optimisation of the separation

A micellar electrokinetic capillary chromatography (MECC) method when compared to free solution capillary electrophoresis (CZE) was shown to offer improved selectivity and resolution for the separation of UV-absorbing components of human urine. Some of the factors affecting MECC separation e.g. methanol concentration, sodium dodecyl sulphate (SDS) concentration, beta-cyclodextrin (beta-CD) concentration, voltage, pH, temperature and electrolyte additives (urea, beta-CD and Brij 35) were optimised using chemometric techniques. Three-level three-factor (3(3)) factorial designs and simplex optimisation were used to achieve optimised conditions with the goal of obtaining the maximum number of peaks in the shortest possible analysis time. Using a TSP CE2000 instrument with detection from 195-300 nm and fitted with a 75 microns x 44 cm (37 cm effective length) fused silica capillary the final optimum conditions were found to be, an electrolyte consisting of 30 mM sodium tetraborate, pH 10, containing 75 mM SDS and 10 mM beta-CD, 15 degrees C, 20 kV, 4 s hydrodynamic injection of filtered urine. These conditions were capable of separating 70 peaks from a normal human urine pool in less than 12 min. The separation of components in urine using the optimised MECC was simpler, more reproducible, faster and gave better resolution than gradient reversed-phase high performance liquid chromatography.     

含浸液膜处理低浓度SO2

研究疏水性聚丙烯中空纤维含浸液膜吸收低浓度二氧化硫的特性,重点考察膜组件操作方式、气相、液相对SO2吸收率的影响。试验表明:气体管程流动、气-液两项逆流有利于提高吸收效果;气体相中二氧化硫的浓度或者流速越大,吸收率越低;在柠檬酸盐浓度较高的条件下,液体流速对吸收没有大的影响;柠檬酸盐溶液pH越高,吸收效果越好,但是考虑到后续脱吸流程和缓冲容量的选择,pH以4.50左右为宜。