偶合反应伏安酶联免疫分析测定人血清乙型肝炎E抗体的研究

本文提出用竞争性抑制偶合反应伏安酶联免疫分析法测定人血清乙型肝炎Ｅ抗体（ＨＢｅＡｂ）方法基于酶标ＨＢｅＡｂ辣根过氧化物酶（ＨＲＰ）催化Ｈ２Ｏ２氧化邻联甲苯胺（ＯＴ）的反应与邻联甲苯胺氧化产物在电极上的还原反应相偶合，测定标记在ＨＢｅＡｂ上ＨＲＰ量，以求得抑制免疫反应的乙型肝炎Ｅ抗体含量本法测定酶标ＨＢｅＡｂＨＲＰ及ＨＢｅＡｂ的灵敏度均高于经典的ＥＬＩＳＡ光度法方法用于病人血清样品分析，与ＥＬＩＳＡ光度法对照，其相关性很好     

From cofactor to enzymes. The molecular evolution of pyridoxal-5'-phosphate-dependent enzymes

The pyridoxal-5'-phosphate (vitamin B(6))-dependent enzymes that act on amino acid substrates have multiple evolutionary origins. Thus, the common mechanistic features of B(6) enzymes are not accidental historical traits but reflect evolutionary or chemical necessities. The B(6) enzymes belong to four independent evolutionary lineages of paralogous proteins, of which the alpha family (with aspartate aminotransferase as the prototype enzyme) is by far the largest and most diverse. The considerably smaller beta family (tryptophan synthase beta as the prototype enzyme) is structurally and functionally more homogenous. Both the D-alanine aminotransferase family and the alanine racemase family consist of only a few enzymes. The primordial pyridoxal-5'-phosphate-dependent protein catalysts apparently first diverged into reaction-specific protoenzymes, which then diverged further by specializing for substrate specificity. Aminotransferases as well as amino acid decarboxylases are found in two different evolutionary lineages, providing examples of convergent enzyme evolution. The functional specialization of most B(6) enzymes seems to have already occurred in the universal ancestor cell before the divergence of eukaryotes, archebacteria, and eubacteria 1500 million years ago. Pyridoxal-5'-phosphate must have emerged very early in biological evolution; conceivably, metal ions and organic cofactors were the first biological catalysts. To simulate particular steps of molecular evolution, both the substrate and reaction specificity of existent B(6) enzymes were changed by substitution of active-site residues, and monoclonal pyridoxal-5'-phosphate-dependent catalytic antibodies were produced with selection criteria that might have been operative in the evolution of protein-assisted pyridoxal catalysis.     

An alternative explanation for the catalytic proficiency of orotidine 5'-phosphate decarboxylase.

Orotidine 5'-phosphate decarboxylase (ODCase) is the most proficient enzyme known, enhancing the rate of decarboxylation of orotidine 5'-phosphate (OMP) by a factor of 10(17), which corresponds to a DeltaDeltaG++ of approximately 24 kcal/mol. Ground-state destabilization through local electrostatic stress has been recently proposed as the basis of catalytic rate enhancement for a mechanism that is the same as in solution. We have carried out gas-phase ab initio quantum mechanical calculations combined with a free energy method, a continuum solvent model, and molecular dynamics simulations to assess an alternative mechanism. Although we are not able to reproduce the experimentally observed DeltaDeltaG++ quantitatively, we present evidence that this DeltaDeltaG++ is very large, in the range found experimentally. We thus conclude that the preferred mechanism may well be different from that in solution, involving an equilibrium pre-protonation of OMP C5 by a catalytic lysine residue that greatly reduces the barrier to subsequent decarboxylation.     

Synthesis and structure-activity relationships of o-sulfonamido-arylhydrazides as inhibitors of LL-diaminopimelate aminotransferase (LL-DAP-AT)

Recently, LL-diaminopimelate aminotransferase (LL-DAP-AT), a pyridoxal-5'-phosphate (PLP)-dependent enzyme, was reported to catalyze a key step in the biosynthesis of L-lysine in plants and Chlamydia. Previous screening of a 29,201-compound library against LL-DAP-AT identified an o-sulfonamidoarylhydrazide as a reversible inhibitor with IC(50)～ 5 μM. Structure-activity relationship (SAR) studies based on this lead compound identified key structural features essential for enzyme inhibition and led to slightly improved inhibitors. Preliminary studies on the mode of inhibition of LL-DAP-AT by this class of compounds are also reported.     

Eliminating absorbing interference using the H-point standard addition method: case of Griess assay in the presence of interferent heme enzymes such as NOS

Standard calibration methods used to determine trace analytes usually yield significant deviations from the actual analyte value in the presence of interferents in the assay media. These deviations become of particular concern when the concentration of the analyte is low, and when the results are used to draw mechanistic or kinetic conclusions, for instance in enzyme structure-function studies. In these circumstances, the H-point standard addition method (HPSAM) provides superior precision and accuracy. This method is developed here for the case of the spectrophotometric Griess assay used to determine nitrite in various enzymology investigations, such as nitrite determination in studies of nitrite reductases (NiR), or when determining nitrite as a breakdown product of nitric oxide synthesized by NOS enzymes. The results obtained by HPSAM are contrasted with those of the traditional calibration method.Electronic Supplementary Material Supplementary material is available for this article at     

Optimization of a direct spectrophotometric method to investigate the kinetics and inhibition of sialidases

Backgrounds

Streptococcus pneumoniae expresses three distinct sialidases, NanA, NanB, and NanC, that are believed to be key virulence factors and thus, potential important drug targets. We previously reported that the three enzymes release different products from sialosides, but could share a common catalytic mechanism before the final step of product formation. However, the kinetic investigations of the three sialidases have not been systematically done thus far, due to the lack of an easy and steady measurement of sialidase reaction rate.

Results

In this work, we present further kinetic characterization of pneumococcal sialidases by using a direct spectrophotometric method with the chromogenic substrate p-nitrophenyl-N-acetylneuraminic acid (p-NP-Neu5Ac). Using our assay, the measured kinetic parameters of the three purified pneumococcal sialidase, NanA, NanB and NanC, were obtained and were in perfect agreement with the previously published data. The major advantage of this alternative method resides in the direct measurement of the released product, allowing to readily determine of initial reaction rates and record complete hydrolysis time courses.

Conclusion

We developed an accurate, fast and sensitive spectrophotometric method to investigate the kinetics of sialidase-catalyzed reactions. This fast, sensitive, inexpensive and accurate method could benefit the study of the kinetics and inhibition of sialidases in general.     

Supramolecular Tandem Assay for Pyridoxal-5′-phosphate by the Reporter Pair of Guanidinocalix[5]Arene and Fluorescein

Guanidinocalix[5]arene and fluorescein reporter pair has been chosen to set up a supramolecular tandem assay principle based on the differential recognition of pyridoxal-5′-phosphate (the substrate of alkaline phosphatase, ALP), pyridoxal (the product of ALP) and phosphate (the product of ALP). This supramolecular tandem assay system offers an opportunity to monitor the activity of ALP in a label-free, continuous, and real-time manner. More importantly, a calibration curve can be given for selective and quantitative detection of pyridoxal-5′-phosphate (biomarker for several diseases).     

A new spectrophotometric method for determining the extraction constant of quaternary complexes

A new spectrophotometric method for determining the extraction constants of quaternary complexes is described. The method has been applied to a study of the distribution between water and toluene in the V(V)-salycylhydroxamic acid-nitrate-trioctyl methyl ammonium system, determining its conditional extraction constant in toluene for several pH values.     

High-throughput assay of (<Emphasis Type="Italic">R</Emphasis>)-phenylacetylcarbinol synthesized by pyruvate decarboxylase

A novel assay has been developed for the detection of ( R)-phenylacetylcarbinol, ( R)-PAC, a chiral intermediate in the industrial synthesis of ephedrine. It is the product of a biotransformation of benzaldehyde catalysed by the enzyme pyruvate decarboxylase. The assay, using 2,3,5-triphenyltetrazolium chloride, enables high-throughput photometric analysis of the activity of the enzyme thus avoiding time-consuming chromatographic procedures.     

Radical stabilization is crucial in the mechanism of action of lysine 5,6-aminomutase: role of tyrosine-263α as revealed by electron paramagnetic resonance spectroscopy

Adenosylcobalamin- and pyridoxal-5'-phosphate-dependent lysine 5,6-aminomutase utilizes free radical intermediates to mediate 1,2-amino group rearrangement, during which an elusive high-energy aziridincarbinyl radical is proposed to be central in the mechanism of action. Understanding how the enzyme participates in stabilizing any of the radical intermediates is fundamentally significant. Y263F mutation abolished the enzymatic activity. With isotope-edited EPR methods, the roles of the Tyr263α residue in the putative active site are revealed. The Tyr263α residue stabilizes a radical intermediate, which most likely is the aziridincarbinyl radical, either by acting as a spin-relay device or serving as an anchor for the pyridine ring of pyridoxal-5'-phosphate through aromatic π-stacking interactions during spin transfer. The Tyr263α residue also protects the radical intermediate from interception by molecular oxygen. This study supports the proposed reaction mechanism, including the aziridincarbinyl radical, which has eluded detection for more than two decades.     

Mass spectrometric kinetic analysis of human tyrosylprotein sulfotransferase-1 and -2

Protein tyrosine O-sulfation, a widespread post-translational modification, is mediated by two Golgi enzymes, tyrosylprotein sulfotransferase-1 and-2. These enzymes catalyze the transfer of sulfate from the universal sulfate donor 3′-phosphoadenosine-5′-phosphosulfate (PAPS) to the hydroxyl group of tyrosine residues to form tyrosine O-sulfate ester and PAP. More than 60 proteins have been identified to be tyrosine sulfated including several G protein-coupled receptors, such as CC-chemokine receptor 8 (CCR8) that is implicated in allergic inflammation, asthma, and atherogenesis. However, the kinetic properties of purified tyrosylprotein sulfotransferase (TPST)-1 and −2 have not been previously reported. Moreover, currently there is no available quantitative TPST assay that can directly monitor individual sulfation of a series of tyrosine residues, which is present in most known substrates. We chose an MS-approach to address this limitation. In this study, a liquid chromatography electrospray ionisation mass spectrometry (LC/ESI-MS)-based TPST assay was developed to determine the kinetic parameters of individual TPSTs and a mixture of both isozymes using CCR8 peptides as substrates that have three tyrosine residues in series. Our method can differentiate between mono-and disulfated products, and our results show that the K_m,app for the monosulfated substrate was 5-fold less than the nonsulfated substrate. The development of this method is the initial step in the investigation of kinetic parameters of the sequential tyrosine sulfation of chemokine receptors by TPSTs and in determining its catalytic mechanism.     

Enzymatic Regeneration of 3′-Phosphoadenosine-5′-Phosphosulfate Using Aryl Sulfotransferase for the Preparative Enzymatic Synthesis of Sulfated Carbohydrates

A cost-efficient preparative enzymatic sulfation of oligosaccharides has been developed. Starting from adenosine 3′5′-diphosphate (PAP), the sulfate donating and highly expensive cofactor 3′-phosphoadenosine-5′-phosphosulfate (PAPS, 1 ) can be regenerated by using a recombinant aryl sulfotransferase and p-nitrophenyl sulfate. This system averts product inhibition by PAP and can serve as a continuous spectrophotometric assay for the activity of any sulfotransferase enzyme.     

Analysis of Monophenol Oxidase Activity Using High Pressure Liquid Chromatography with Electrochemical Detection

Abstract

A very sensitive, specific and reliable quantitative assay was developed for measuring the rate of hydroxylation of tyrosine by mushroom tyrosinase using high pressure liquid chromatography with electrochemical detection (HPLC-ED). The assay employs N-acetyldopamine (NADA) as cofactor and ascorbate as a reducing agent. The product of the reaction, L-dopa (3,4-dihydroxyphenylalanine), was readily separated by HPLC-ED from the remaining interacting components. The reaction was linear with time and proportional to the amount of enzyme present. The amount of ascorbate gradually decreased during the hydroxylation of tyrosine, but as long as ascorbate was present in the reaction mixture the levels of L-dopa and NADA were not altered. The data     

Supramolecular tandem enzyme assays for multiparameter sensor arrays and enantiomeric excess determination of amino acids

The coupling of an enzymatic transformation with dynamic host-guest exchange allows the unselective binding of macrocycles to be used for highly selective analyte sensing. The resulting supramolecular tandem enzyme assays require the enzymatic substrate and its corresponding product to differ significantly in their affinity for macrocycles, for example, cation receptors, and to show a differential propensity to displace a fluorescent dye from its host-guest complex. The enzymatic transformation results in a concomitant dye displacement that can be accurately followed by optical spectroscopy, specifically fluorescence. By exploiting this label-free continuous enzyme assay principle with the fluorescent dye Dapoxyl and the macrocyclic host cucurbit[7]uril, a multiparameter sensor array has been designed, which is capable of detecting the presence of amino acids (e.g. histidine, arginine, lysine, and tyrosine) and their decarboxylases. Only in the presence of both, the particular amino acid and the corresponding decarboxylase, is the amine or diamine product formed. These products are more highly positively charged than the substrate, have a higher affinity for the macrocycle and, therefore, displace the dye from the complex. The extension of the high selectivity and muM sensitivity of the tandem assay principle has also allowed for the accurate measurement of D-lysine enantiomeric excesses of up to 99.98 %, as only the L-enantiomer is accepted by the enzyme as a substrate and is converted to the product that is responsible for the observed fluorescence signal.     

Multiplex inhibitor screening and kinetic constant determinations for yeast hexokinase using mass spectrometry based assays

An electrospray ionization mass spectrometry based assay was developed for kinetic measurements and inhibitor screening of yeast hexokinase. There is considerable discrepancy in the literature as to the accuracy of kinetic data obtained for hexokinase. In the assay described herein, the product, glucose 6-phosphate was directly monitored by ion trap mass spectrometry and quantified using an internal standard, 2 deoxy-glucose 6-phosphate. The kinetic parameters, K(M) and V(max) for the two substrates were determined without using a coupling enzyme as is normally employed in the traditional spectrophotometric assay for systems lacking a chromophore. In addition, hexokinase was successfully immobilized onto an amino-link gel, and a mock library was screened against the immobilized enzyme for the identification of possible inhibitors. After comparing the mass spectra of the library before and after incubation, trehalose 6-phosphate, ADP, and oxidized glutathione were differentiated from other weak or non-inhibitors. Inhibition behavior of ADP with respect to ATP was further evaluated with the ESI-MS assay and the value of K(i) was determined. This ESI-MS assay was demonstrated to be both accurate and precise for determining kinetic constants and for identifying enzyme inhibitors.     

Active Site Titration of Horse Liver Alcohol Dehydro-Genase by Dual Wavelength Specthophotomethy

Abstract

A simple dual wavelength spectrophotometric method for determining the active site concentration of horse liver alcohol dehydrogenase is described. The method is rapid, sensitive, accurate and requires minute amounts of enzyme. A comparison between this new application of the dual wavelength technique and the conventional methods, ordinary photometry and spectrofluorometry is furthermore discussed.     

反相高效液相色谱法分离测定酪胺

建立了分离酪胺与酪氨酸及其它杂质的反相键合相高效液相色谱法 ,讨论了流动相添加剂对色谱分离的影响和离子相互作用的分离机理。在 C8烷基键合相分离柱上 ,以含 Tris-高氯酸盐 ( 2 0 mmol/L Tris,用 HCl O4调节 p H为 7.9,并添加 KCl O4,使总高氯酸盐浓度为 30 mmol/L )的甲醇 -水溶液 (体积比为 4 0∶ 60 )作为流动相 ,以对甲苯磺酰胺为内标物 ,测定了 p-酪氨酸脱羧工艺产物——酪胺的质量分数。酪胺样品质量分数测定的准确度和重现性数据为 ( 96.4 0± 0 .633) ( n=11,RSD=0 .66 ) ,加样回收率为 99.33～ 10 0 .38。方法可用于工艺条件的选择和酪胺产品质量的检测     

Spectrophotometric technique for determining simultaneously present formaldehyde and formic acid

A precise sensitive spectrophotometric method was developed for determining formaldehyde in aqueous solutions. The possibility of joint determination of formaldehyde and formic acid was examined.     

PAP-H2O2-HRP伏安酶联免疫分析新体系测定人血清总甲状腺素

目前临床检测中测定总甲状腺素(T₄)的常用方法有间接血凝试验、琼脂双扩散及ELISA等方法^[1].其中ELISA法是目前较为流行的检测方法,但灵敏度不高.伏安酶联免疫分析法具有广阔的应用前景^[2,3].     

Spectrophotometric and spectrofluorimetric methods for the determination of pregabalin in bulk and pharmaceutical preparation

Two new, sensitive and selective spectrofluorimetric and spectrophotometric methods have been developed for the determination of the gamma-amino-n-butyric acid derivative pregabalin (PGB) in bulk drug and capsule. Pregabalin, as a primary amine compound, reacts with 7-chloro-4-nitrobenzofurazon (NBD-Cl) which is a highly sensitive fluorogenic and chromogenic reagent used in many investigations. According to this fact, spectrophotometric and spectrofluorimetric methods for the determination of pregabalin in capsules were developed for the first time. The relation between the absorbance at 460 nm and the concentration is rectilinear over the range 0.5-7.0 microg mL(-1). The reaction product was also measured spectrofluorimetrically at 558 nm after excitation at 460 nm. The fluorescence intensity was directly proportional to the concentration over the range 40-400 ng mL(-1). The method was applied successfully to the determination of this drug in pharmaceutical dosage form. The mean recovery for the commercial capsules was 99.93% and 99.96% for spectrophotometric and spectrofluorimetric study, respectively. The suggested procedures could be used for the determination of PGB in pure and capsules being sensitive, simple and selective.