Development of post-column enzymic reactors with immobilized alcohol oxidase for use in the high-performance liquid chromatographic assay of alcohols with electrochemical detection

The development of a very sensitive, direct injection high-performance liquid chromatographic method, using a post-column reactor with immobilized alcohol oxidase, was undertaken with the aim of determining methanol and ethanol levels in microlitre volumes of biological samples. After reversed-phase chromatography to separate methanol and ethanol, the analytes were enzymically converted into the respective aldehydes with formation of stoichiometric amounts of hydrogen peroxide, which could be measured via electrochemical oxidation at a platinum electrode. Some problems were encountered in the development of solid-phase enzymic reactors, using a delicate enzyme, that is prone to lose activity, such as alcohol oxidase. Owing to the slightly alkaline pH required for the optimum activity of alcohol oxidase, polymeric columns seemed to be preferable for the chromatography. HEMA copolymer was chosen as the stationary phase, but the methanol and ethanol peaks eluted close together and posed severe problems of limiting post-column band spreading. Reactors based on coarse supports for enzyme immobilization gave unacceptable band spreading, causing the methanol and ethanol peaks to overlap. On the other hand high-performance liquid chromatographic packings maintained the efficiency of the chromatographic separation, quite independently of the reactor volume. Polymeric supports proved superior to silicas in maintaining the enzyme activity. However, relevant changes in the enzyme substrate specificity were observed after immobilization.     

Use of enzymatic reactors in the high performance liquid chromatographic determination of ethanol and methanol with electrochemical detection

Despite numerous applications both in industry and in analytical chemistry, immobilized enzyme technology has encountered only limited success in modern liquid chromatography. The strict requirements of enzymatic reactors for high performance liquid chromatography (HPLC) (i.e., mechanical resistance, limited void volumes, high contact surface, high binding capacity, stable enzyme-to-matrix bond without loss of enzyme activity) are not yet fully met by commercially available products. In our laboratory, the development of post-column reactors with immobilized alcohol oxidase on-line with an HPLC/EC system has been undertaken. Three home-made reactors were produced: in the first alcohol oxidase from Candida boidinii was quasi-immobilized onto an HPLC-sized anion exchange support, in the second the enzyme was bound to a silica-based support via Schiff's base formation, and in the third a covalent linkage to an epoxy-activated hydroxyalkyl methacrylate material was chosen. Chemical immobilization proved superior to the ionic binding. The importance of limiting the post-column band spreading due to the reactor void volume, by using HPLC-size supports, was confirmed.     

Simultaneous assay of hypoxanthine, xanthine and allopurinol by high-performance liquid chromatography and activation of immobilized xanthine oxidase as an enzyme reactor

A selective and sensitive assay of substrates (hypoxanthine, xanthine and allopurinol) of xanthine oxidase by reversed-phase liquid chromatography coupled with the use of immobilized enzyme reactors is described. These compounds were oxidized by immobilized xanthine oxidase and produced hydrogen peroxide, which was determined fluorometrically using immobilized peroxidase and p-hydroxyphenylacetic acid. The detection limits of hypoxanthine, xanthine and allopurinol were approximately 50, 120 and 130 pg per injection, respectively. Immobilized xanthine oxidase inhibited by oxipurinol during the assay was reactivated by 2,6-dichlorophenolindophenol and could be used for a long period without a significant activity loss. These methods were applied to plasma and urine samples.     

Evaluation and application of liquid chromatographic columns coated with "intelligent" ligands. (III). Immobilized phospholipid column.

Immobilized enzyme columns have been developed for use as high-performance liquid chromatographic enzyme reactors. Enzyme reactors were prepared by immobilizing trypsin or cytochrome-c on phospholipid columns. Dynamic coating was employed to prepare the reactors by recycling a buffer solution containing trypsin or cytochrome-c through a phospholipid-coated column, on which the enzymes were immobilized by hydrophobic binding. The immobilized trypsin column displayed hydrolytic activity which catalyzed the hydrolysis of L-amino acid esters to amino acid. The immobilized cytochrome-c column exhibited oxidation activity which catalyzed N-demethylation of N,N-dimethylaniline, codeine, and dihydrocodeine in the presence of hydrogen peroxide as an oxygenating agent. The enzyme reaction proceeded rapidly in the column; both product and substrate could be separated and detected simultaneously. The immobilized enzyme columns could be readily regenerated using the original phospholipid column by repeating the dynamic coating. These immobilized enzyme columns could be utilized as enzyme reactors in the high-performance liquid chromatographic mode. Complete hydrolysis of amino acid ester was observed with the trypsin column. Demethylation of codeine and of dihydrocodeine were observed with the cytochrome-c column.     

Post-column derivatization in liquid chromatography using immobilized enzyme reactors and amperometric detection

The advantages to be gained by conducting enzyme assays of carbohydrates in liquid chromatography are discussed. The enzymes are contained in immobilized enzyme reactors and used in the post-column mode. The product formed in the reactor is selectively detected amperometrically at a chemically modified electrode mounted in a flow-through detector. Selected examples are given to illustrate the advantages obtained.     

Selectivity of dansyl amino acids in micellar liquid chromatography with an ion-exchange-induced stationary phase

Summary The retention behavior of dansyl amino acids in micellar liquid chromatography has been examined by using ionexchange-induced stationary phases. Several parameters affected the retention of the analytes, including the type and concentration of micellar agent and modifier ion and the concentration of acetonitrile in the mobile phase. The order of elution of dansyl amino acids obtained with the micellar mobile phase was very different from that observed in conventional reversed-phase liquid chromatography. Fluorescence intensities of some dansyl amino acids were enhanced by the micellar mobile phase.     

Thin-layer chromatography of some amino acids on silica in aqueous–organic and modified micellar mobile phases

Chromatographic behavior of some amino acids in aqueous–organic and aqueous modified micellar mobile phases is studied by thin-layer liquid chromatography. Intrinsic basic laws, features, possibilities, and limitations are revealed. It is shown that the efficiency of the chromatographic separation of amino acids in the presence of electrolytes is significantly improved in micellar mobile phases.     

Characterization of immobilized enzymes by flow-injection techniques with variable forward flow

The use of variable forward flow with small packed enzyme reactors is shown to be valuable for improving the efficiency of enzymatic conversion. Designs with stopped flow, oscillating flow and variable (fast/slow/fast) flow are compared for the spectrophotometric determination of glucose with glucose oxidase and horseradish peroxidase immobilized on controlled-pore glass in the same reactor. Variable forward flow increased the sensitivity considerably without excessive time consumption. The technique is also useful for characterizing the activity of immobilized enzyme reactors, e.g., peroxidase reactors for hydrogen peroxide determinations.     

Determination of conjugated bile acids in human urine by high-performance liquid chromatography with chemiluminescence detection.

A qualitative and quantitative analysis of the conjugated 1 beta- and 6 alpha-hydroxy bile acids, including common bile acids, in human urine using high-performance liquid chromatography with chemiluminescence detection is described. After extraction of urine with C18 silica cartridges, the bile acids were separated into non-conjugated, glycine, taurine and sulphate fractions by ion-exchange chromatography on a lipophilic gel. Solvolysis of the sulphate was carried out by treatment with trifluoroethanol in acetone containing hydrochloric acid, and the liberated amino acid conjugates were fractionated again. The individual bile acids were separated on a reversed-phase C18 column (Bile Pak II), with detection by an immobilized 3 alpha-hydroxysteroid dehydrogenase enzyme reactor and chemiluminescence reaction of the generated NADH using 1-methoxy-5-methylphenazinium methylsulphate-isoluminol-microperoxidase system. The assay method showed the detection limits ranging from 8 to 250 pmol for the bile acids tested. Analysis of urine samples obtained from newborns, non-pregnant women and women in late pregnancy showed a large difference in bile acid composition and conjugation mode, suggesting that bile acid metabolism is different during fetal and neonatal periods.     

Aliphatic carboxylic acids as new modifiers for separation of 2,4-dinitrophenyl amino acids by micellar liquid chromatography

The possibilities of isocratic separation of 2,4-dinitrophenyl derivatives of 12 amino acids that considerably differ in hydrophobicity by micellar mobile phases with different organic modifiers have been discussed. For the first time aliphatic carboxylic acids have been used as modifiers of micellar eluent in micellar liquid chromatography with C18 columns. Elution strength of hybrid micellar phases on the basis of sodium dodecylsulfate and aliphatic carboxylic acids increases in sequence: acetic相似文献   

High-performance liquid chromatographic detection of L- and D-amino acids by use of immobilized enzyme electrodes as detectors

Two enzyme electrodes based on immobilized L- and D-amino acid oxidases give specific responses to L- and D-amino acids, respectively. They are used as amperometric detectors for high-performance liquid chromatography, by splitting the flow after elution from the column and detecting D-isomers in one line, L-isomers in the other. The detection limit is about 2 pmol for some amino acids (methionine, tyrosine, leucine, and phenylalanine). The procedure is useful for the specific detection of L- and D-amino acids without complicated pretreatment. The electrodes retain most of their original activities after repetitive use for one month.     

A post-column enzyme reactor for detection of oxidized cholesterols in h.p.l.c. separations

An enzyme reactor is used as a post-column detector after the h.p.l.e. separation of a mixture of cholesterol and some auto-oxidation products. The enzyme reactor contains cholesterol oxidase immobilized on controlled-pore glass. A method for purification of the enzyme is described. The properties and the solvent dependence of the reactor are discussed. A post-column system for dilution of the eluent with aqueous buffer is described.     

微柱液相色谱和电化学检测法测定鼠脑微透析液中神经传递物质

报道了使用微柱色谱和电化学检测器测定鼠脑微透析液中神经传递物质的方法。儿茶酚胺，５－羟色胺和代谢物的检测限为 ０． １～０． ５ ｐｇ。含有乙酰胆碱酯酶和胆碱氧化酶的柱后反应器使分离后的乙酰胆碱和胆碱转化成过氧化氢．再用铂电极或过氧化物酶修饰过的玻碳电极检测过氧化氢。乙酰胆碱的检测限当使用怕电极时是５０× １０－１５ｍｏｌ，当使用酶修饰电极时是１０×１０－１５ｍｏｌ。     

A strategy for screening trypsin inhibitors from traditional Chinese medicine based on a monolithic capillary immobilized enzyme reactor coupled with offline liquid chromatography and mass spectrometry

A novel strategy was successfully developed for screening trypsin inhibitors in traditional Chinese medicines based on monolithic capillary immobilized enzyme reactors combined with liquid chromatography‐tandem mass spectrometry. Organic polymer based monolithic enzyme reactors were firstly prepared by covalently bonding trypsin to a poly(glycidyl methacrylate‐co‐poly (ethylene glycol) diacrylate) monolith by the ring‐opening reaction of epoxy groups. The activity and kinetic parameters of the obtained monolithic trypsin reactors were systematically evaluated using micro‐liquid chromatography. Fourier transform infrared spectroscopy and scanning electron microscopy were also used to characterize the monolithic trypsin reactors. The resulting functional and denatured monolithic trypsin reactors were applied as affinity solid‐phase extraction columns, and offline coupled with a liquid chromatography‐tandem mass spectrometry system to construct a binding affinity screening platform. Subsequently, the proposed platform was applied for screening trypsin binders in a Scutellaria baicalensis Georgi extract. Three compounds, namely scutellarin, baicalin, and wogonoside were identified, and their inhibitory activities were further confirmed via an in vitro enzymatic inhibition assay. Additionally, molecular docking was also performed to study the interactions between trypsin and these three compounds.     

Last ten years (2008–2018) of chiral ligand‐exchange chromatography in HPLC: An updated review

Chiral ligand‐exchange chromatography is one of the elective strategies for the direct enantioresolution of small chelating compounds: amino acids, diamines, amino alcohols, diols, small peptides, etc. Unlike other methods, the interaction between chiral selector and analyte enantiomers is mediated by a cation, thus producing diastereomeric ternary complexes. Two main approaches are conventionally applied in chiral ligand‐exchange chromatography. The first relies upon chiral stationary phases where the chiral selector is either covalently immobilized or physically adsorbed onto suitable packing materials (coated phases). In the second approach, chiral molecules are added to the eluent, thus generating chiral eluent systems. Among the advantages of chiral ligand‐exchange chromatography, the generation of UV/vis‐active metal complexes, and the use of commercially available or easy‐to‐synthesize chiral selectors, in combination to rather inexpensive achiral columns for coated phases and chiral eluents, are noteworthy. Besides amino acids and amino alcohols, other species have proven suitable for chiral ligand‐exchange chromatography applications. Recently, the use of either chiral ionic liquids or micellar liquid chromatography systems as well as the successful off‐column formation of diastereomeric complexes have expanded the selectivity profiles and application fields. All of these issues are touched in the review, shedding light to the contributions appeared in the last decade.     

Mass spectrometric analysis of peptides from an immobilized lipase: focus on oxidative modifications

Liquid chromatography/tandem mass spectrometry (LC/MS/MS) was used to study the primary structure of immobilized Candida antarctica lipase B (Novozym®435) without detaching the enzyme from the carrier. The immobilized enzyme packed in a miniature column was subjected to proteolysis and the peptides released were injected into the mass spectrometer for analysis. The set‐up was utilized to determine amino acid oxidation after treatment of the biocatalyst with hydrogen peroxide. In total, sequence coverage of more than 90% was obtained, containing almost all of the amino acids sensitive to oxidation. Oxidation of methionine, tryptophan and cystine residues was observed. The flow system also allowed evaluation of the enzyme activity prior to peptide analysis. The developed method is general and should be applicable to other immobilized enzyme systems and to different treatments. Copyright © 2009 John Wiley & Sons, Ltd.     

Determination of underivatized amino acids by high-performance liquid chromatography and electrochemical detection at an amino acid oxidase immobilized CuPtCI6 modified electrode

An amperometric sensor for amino acids based on the immobilization of amino acid oxidase on the surface of a CuPtCl(6)/GC is described. The amperometric current is due to the oxidation of H2O2 liberated during the enzyme reaction on the surface of the enzyme electrode. The electrode response characteristics as well as kinetic parameters have been evaluated. The enzyme electrode was characterized as an electrochemical biosensor, which was used as detector in high performance liquid chromatography (HPLC) for the determination of a mixture of amino acids with satisfactory results.     

Bioluminescence flow system for determination of branched-chain l-amino acids in serum and urine

A continuous-flow bioluminescence method for determinations of branched-chain l-amino acids in serum and urine is described. Serum can be analyzed directly after simple filtration. Response is linear for 20-2000 pmol in the biological matrix. Leucine dehydrogenase is immobilized onto a nylon coil separated from the reactor coil containing bacterial bioluminescence enzymes. The stability of the immobilized is high (lifetime > two months) and more than 900 samples can be analyzed with the use of a few mg of enzymes. The results obtained agree well with those obtained by ion-exchange chromatography (amino acid analyzer).     

Determination of fructose using immobilized glucose isomerase in an on-line analyzer

The determination of fructose using a continuous analyzer based on analyte conversion in enzyme reactors followed by amperometric oxygen measurement is described. Two experimental setups were compared, allowing determinations in the ranges 0–180 and 0–25 mM fructose. In the former, fructose was continuously dialyzed versus a buffer stream conducting fructose to an enzyme reactor. This reactor contained two immobilized enzyme preparations, one with immobiized glucose isomerase (E.C. 5.3.1.5) that isomerized fructose to glucose and another that subsequently oxidized the former glucose by immobilized glucose oxidase (E.C. 1.1.3.4) with the consumption of dissolved oxygen. In the latter set-up, fructose was first isomerized in a glucose isomerase reactor, then glucose was continuously dialyzed and oxidized by glucose oxidase as above. This set-up was run in continuous operation for 1000 measurement cycles with a total decrease in response less than 15%.     

Enzyme based detection systems in column liquid chromatography — Extension of selectivity and sensitivity

Summary Enzyme based detection systems in column liquid chromatography are described using systems based on both enzyme reactors in conjunction with a flow through detection device and enzyme electrodes. Optimizations for making detection principles compatible with chromatographic systems and applications made in our laboratories are presented for the analysis of e.g. carbohydrates, amino acids, ethanol and catecholamines. Gel-permeation chromatography and mass spectrometry are used as complementary techniques for qualitative and quantitative analysis of complex samples.