Chlorpromazine as permeabilizer and reagent for detection of microbial peroxidase and peroxidaselike activities

Chlorpromazine was used to perform a test for the detection of microbial peroxidase activities. The compound acts as both a cell permeabilizer and a reagent in the procedure developed which allows the detection of peroxidase and peroxidase like reactions both semiquantitatively in whole cell determinations and quantitatively in cell-free supernatants.     

Label-free electrochemical aptasensor for thrombin detection with platinum nanoparticles and blocking reagent horseradish peroxidase as enhancers

A sensitive label-free electrochemical aptasensor was successfully fabricated for thrombin detection with platinum nanoparticles (Pt) and blocking reagent horseradish peroxidase (HRP) as enhancers. A Nafion?-graphene-coated electrode was first modified with an electrochemical probe of methylene blue (MB) through electrostatic interaction. Then Pt was electrodeposited onto an electrode for immobilization of the thrombin aptamer (TBA). Subsequently, HRP served as blocking reagent instead of bovine serum albumin (BSA). With the synergistic effect between Pt and HRP, the prepared aptasensor showed a superior catalytic efficiency toward H(2) O(2) in the presence of MB. After the combination of target thrombin on electrode surface, the TBA-thrombin complex made a barrier for electrocatalysis of Pt and HRP and inhibited the electrotransfer, resulting in a greater decrease in MB signals. As a result, the proposed approach showed a high sensitivity and a much wider linearity to thrombin in the range from 0.005 to 50 nM with a detection limit of 1 pM.     

Lectin-bound alcohol and lactic dehydrogenases as a reagent for the visual detection of glycoproteins.

Alcohol and lactic dehydrogenases were covalently bound to concanavalin A. The conjugates obtained retained their ability to bind glycoprotein as well as to carry out NAD⁺-oxidoreduction in the presence of the appropriate substrates. The dual capacity renders these protein conjugates as a useful reagent for the location of glycoprotein bands on polyacrylamide gels. Visualization of the conjugates absorbed to the glycoprotein is made by precipitation of formazan dye produced as the result of dehydrogenase activity. It is suggested that the present method and its variations may provide a useful analytical tool for histochemical and other detection procedures for glycoconjugates.     

A note on the estimation of microbial glycosidase activities by dinitrosalicylic acid reagent

 In the estimation of glycosidase activity by dinitrosalicylic acid (DNS) reagent, the stoichiometry of DNS reduction was reported to increase proportionately with the increase in the number of glycosidic linkages present in oligosaccharides liberated by the enzyme. The relationship between increases in DNS reduction and increases in the number of glycosidic bonds was found to be represented by a part of a rectangular hyperbola. The increase was optimum with disaccharide and insignificant when the degree of polymerization (DP) was ≥10. The difference did not arise as a result of the DNSA discriminating between mono- and oligosaccharide oxidation. The relationship stemmed from the acidity of the hydroxyl group adjacent to the reducing group, which repressed DNS reduction. The acidity is likely to decrease with an increase in oligosaccharide chain length. It is suggested that DNS reduction is actually optimum and uniform for all oligosaccharides of DP ≥ 10 and that it is minimum for monosaccharide. Thus the introduction of rectification factors in the estimation of glycosidase activities by the DNS method appears to be justified. Received: 18 January 1999 / Received revision: 7 December 1999 / Accepted: 19 December 1999     

微生物检测用培养基、试剂质量控制方法研究

全面分析微生物检测用培养基、试剂质量控制方法,从培养基的购置、验收、储存、使用等方面进行分类研究,明确培养基的质量控制方法途径,对微生物实验室培养基质量控制工作提供系统指导,提高微生物检测结果的准确性.     

DPNH peroxidase: effector activities of DPN.

At suboptimal H₂O₂ concentrations, DPNH inhibits the peroxidase activity of the flavoprotein, DPNH peroxidase, by converting the enzyme to an unstable intermediate that decays slowly to inactive enzyme. It is postulated that at concentrations of DPNH that are saturating for peroxidase activity, this unstable intermediate is responsible for most of the DPNH oxidation that is supported by alternate electron acceptors, such as O₂ and menadione. DPN⁺ behaves as an activator by reversing the equilibria that lead to the unstable intermediate, thus converting the enzyme to the kinetically active complex that reduces H₂O₂. The data show that DPN⁺ binding will stimulate the peroxidase activity (by lowering the K_m for H₂O₂) and simultaneously lead to strong inhibition of both the rate of enzyme inactivation and the rate at which DPNH is oxidized by alternate electron acceptors.     

Development of a bi-specific monoclonal antibody for simultaneous detection of rabbit IgG and horseradish peroxidase: use as a general reagent in immunocytochemistry and enzyme-linked immunosorbent assay

We describe the development of bi-specific monoclonal antibodies (MAb) capable of simultaneous recognition of rabbit immunoglobulin G (IgG) and horseradish peroxidase (HRP) for use in a variety of immunobased techniques. This bi-specific antibody, named McC8, was produced by fusion of the aminopterin-sensitive mouse hybridoma MAP.Ag.1, which secretes MAb against HRP, and splenocytes from a mouse previously immunized with whole rabbit IgG. The resultant hybrid-hybridoma co-dominantly expresses and secretes the immunoglobulin chains, i.e., IgG1 and IgG2b, of its respective parents, as determined by radial immunodiffusion. The binding sites on rabbit IgG for McC8 were determined on Western blots and in competition solid-phase enzymatic immunoassays with the use of allotype-specific rabbit sera. Both these techniques demonstrated that McC8 recognizes the light chain of the rabbit IgG molecule with preferential binding to the B4 kappa light-chain allotype. McC8 was successfully used in two-step immunocytochemistry for localization of calcitonin gene-related peptide (CGRP) in fibers of the superficial layers of the spinal trigeminal nucleus of the rat, as well as for localization of glial fibrillary acidic protein (GFAP)-immunoreactive sites in primary rat septal cell cultures, thus demonstrating its potential as a general developing reagent in conventional immunocytochemistry. McC8 compared favorably with peroxidase-antiperoxidase immunocytochemistry with respect to sensitivity. However, the bi-specific developing reagent proved superior to the conventional peroxidase-antiperoxidase procedure when both were employed in a similar fashion in tissues prone to display high background staining. Finally, McC8 was also employed as a developing reagent in a competitive ELISA designed for quantitation of CGRP with the use of a rabbit anti-CGRP primary antibody. The sensitivity of this quantitative ELISA (190 pg or 50 fmol CGRP per well) renders this bi-specific antibody suitable for use in quantitative immunoassays for detection of relevant peptides in biological systems.     

BSA-stabilized Au clusters as peroxidase mimetics for use in xanthine detection

In this paper, we demonstrated that bovine serum albumin (BSA) stabilized Au clusters exhibited highly intrinsic peroxidase-like activity. Unlike nature enzymes, the BSA-Au clusters have strong robustness and can be used over a wide range of pH and temperature. Because of ultra-small size, good stability and high biocompatibility in water solution compare with other kinds of nanoparticles as peroxidase mimetics, such as Fe(3)O(4), FeS or graphene oxide, it is more competent for bioanalysis. Furthermore, we make use of the novel properties of BSA-Au clusters as peroxidase mimetics to detect H(2)O(2). The as-prepared BSA-Au clusters were used to catalyze the oxidation of a peroxidase substrate 3,3,5,5-tetramethylbenzidine (TMB) by H(2)O(2) to the oxidized colored product, and which provides a colorimetric detection of H(2)O(2). As low as 2.0 × 10(-8)M H(2)O(2) could be detected with a linear range from 5.0 × 10(-7) to 2.0 × 10(-5)M via this method. More importantly, a sensitive and selective method for xanthine detection was developed using xanthine oxidase (XOD) and the as-prepared BSA-Au clusters. The detection limit of this assay for xanthine was 5 × 10(-7)M and the proposed method was successfully applied for the determination of xanthine in urine and human serum sample.     

Chlorpromazine and serotonin: conformational similarities correlating with activities

The prediction of the preferred conformations of chlorpromazine and haloperidol reveal preferences for extended side-chains. In these conformations, the molecules do not resemble dopamine but contain structural features more like complimentary features in serotonin. The possible significance of this relationship is discussed in terms of the biological activities.     

苎麻生物脱胶助剂研究

通过添加N/P营养、酶激活剂、表面活性剂和螯合剂等来研究化学助剂对菌群RAMCD407脱除苎麻韧皮胶质的影响,结果表明:单独添加0.2%的MgSO_4(酶激活剂)、1%的EDTA(螯合剂)及0.1%的油酸钠(表面活性剂)可使脱胶时间分别缩短2 h、6 h和3 h,但是添加NH_4HCO_3和K_2HPO_4形式的N/P营养对脱胶效果没有明显影响,而"0.1%MgSO_4-0.7%EDTA二钠-0.05%油酸钠"组合助剂可将脱胶时间由18 h缩短到7 h。     

Lecithin agar for detection of microbial phospholipases.

Lecithin agar was developed on which phospholipase C produced turbid zones and phospholipase A produced clear zones. Reactions on lecithin agar agreed 74% of the time with reactions in egg yolk broth. On lecithin agar, interpretation was easier, phospholipase A was detectable, and opaque zones were visible 1 or 2 days earlier than on egg yolk agar. All constituents of the medium can be autoclaved.     

Amperometric detection of lignin-degrading peroxidase activities from Phanerochaete chrysosporium

An amperometric enzyme sensor for rapid and simultaneous detection of the lignin-degrading peroxidase activities secreted by Phanerochaete chrysosporium was developed, using H₂O₂, hydroquinone and veratryl alcohol as substrates. In the amperometric measurement, samples of culture filtrate with different lignin-degrading peroxidase activities measured by spectrophotometry were placed into electrochemical cells. The slope of the current increase (Δ_current/Δ_time) upon the addition of H₂O₂ into the culture filtrate solution containing hydroquinone was used as the index for total activity of lignin peroxidase and manganese peroxidase. Then a specific detection of lignin peroxidase was achieved by the addition of veratryl alcohol, which led to current decrease due to the redox competition between veratryl alcohol and hydroquinone. A good linear correlation was found between the electrochemical response and lignin peroxidase activity, manganese peroxidase activity in the range of 8.14–29.79 U l⁻¹ and 0.085–1.37 U l⁻¹, respectively. A regression model was established describing the relationship. The amperometric sensor described here is more rapid, sensitive and precise than conventional spectrophotometric assays, free from interference of turbidity and UV–vis-light-absorbing substances. In this paper, it was also applied in the detection of lignin-degrading peroxidases in compost bioremediation using P. chrysosporium, showing considerable advantages.     

Cytochemical detection of mannose-specific receptors for glycoproteins with horseradish peroxidase as a ligand

Summary Horseradish peroxidase (HRP), a glycoprotein rich in mannose groups, was used as a ligand to detect receptors for glycoproteins in formalinfixed, frozen sections of rat liver. Specific binding of HRP occurred to surface membranes of sinusoidal cells but not to those of parenchymal cells. The binding sites were visualized after the peroxidatic reaction in erythrocytes had been suppressed by methanol-H₂O₂ and phenylhydrazine, the latter reagent also decreasing the nonspecific background adsorption of HRP. Several factors influencing the reaction were studied systematically. The specific binding of HRP to sinusoidal cells was greatly decreased or abolished when tissue blocks were fixed for longer than 1–2 h in a cold 4% formaldehyde solution and the frozen sections subsequently treated for 30 min in cold methanol. The specific binding of HRP increased when the concentration of HRP in the medium was increased from 10 g/ml to 40 g/ml, when the time of incubation with HRP was increased from 1 h to 4 h, or when the temperature of incubation with HRP was increased from 4°C to 22°C, or from 22°C to 37°C. The specific binding of HRP also increased when the pH of the incubation medium was increased from 7.0 to 10.0. Little or no specific binding of HRP was observed in the absence of added Ca⁺⁺. The binding of HRP was suppressed by 10 mM mannose or 0.004% mannan whereas the suppression of the binding reaction by galactose or galactan required 30–40 times higher concentrations.This work was supported by the Morris A. Kaplan Fund     

Aluminon: its limited application as a reagent for the detection of aluminum species

The triammonium salt of aurin tricarboxylic acid, commonly referred to as aluminon, forms a dye that has been used for the colorimetric determination of Al(III) species. We have reviewed the pertinent literature on the reaction of aluminon with respect to the metallic species that form colored aluminon complexes. The effects of experimental variables, such as time, temperature, and pH, upon the color development of the aluminon complex are also presented. Organic and inorganic species, particularly Be(II) and Fe(III), which can affect color formation, are described. The use of aluminon as a histochemical staining agent for the detection of aluminum requires verification by atomic absorption spectrophotometric analysis or other quantitative techniques.     

Harnessing microbial activities for environmental cleanup

Human activities have released large amounts of toxic organic and inorganic chemicals into the environment. Toxic waste streams threaten dwindling drinking water supplies and impact terrestrial, estuarine and marine ecosystems. Cleanup is technically challenging and the costs based on traditional technologies are exceeding the economic capabilities of even the richest countries. Recent advances in our understanding of the microbiology contributing to contaminant transformation and detoxification has led to successful field demonstrations. Hence, harnessing the activity of naturally occurring bacteria, particularly the power of anaerobic reductive processes, is a promising approach to restore contaminated subsurface environments, protect drinking water reservoirs and to safeguard ecosystem health.     

The use of fluorescamine as a detection reagent in protein microcharacterization

With recent advances in protein microchemistry, compatible methods for the preparation and quantitation of proteins and peptides are required. Fluorescamine, a reagent which reacts with primary amino groups has been used successfully to detect amino acids, peptides, and proteins in various micromethods. This article discusses these methods which include (1) amino acid analysis of protein and peptide hydrolysates with postcolumn fluorescamine derivatization; (2) purification and characterization of proteins and peptides by reversed-phase HPLC with postcolumn fluorescamine derivatization; (3) purification of peptides by two-dimensional chromatography and electrophoresis on thin-layer cellulose with fluorescamine staining; and (4) electroblotting of protein bands from SDS-PAGE to glass fiber filters and polyvinylidene difluoride (PVDF) membranes with fluorescamine staining. In addition, this article also compares a postcolumn fluorescamine detection system with a UV detection system in the applications of amino acid analysis and reversed-phase HPLC protein/peptide analysis.