Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.1.8 (cholinesterase)
 12,691 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The developmental changes in the distribution of acetylcholine receptors (AChRs) and cholinesterase (ChE) were investigated in the posterior latissimus dorsi (PLD) muscle of chick embryos by double staining with rhodamine-labeled erabutoxin b (TMR-Eb) for AChRs and Karnovsky's method for ChE. During the development, the TMR-Eb and ChE positive areas changed in their shapes and sizes. In early stages, the TMR-Eb positive areas appeared as fine fluorescent dots of about 0.3 micrometer in diameter or small aggregates of such dots. These areas then became enlarged and exhibited the following sequential changes in their configuration: spindle-, round-, ring-, C- and finally tree-shaped. The transformation in the configuration of the areas appeared to be caused by the changes of the fluorescent dots in their number and distribution. Simultaneous staining with ChE revealed that at early stages the TMR-Eb positive areas were not stained with ChE, but then they were stained later. The ChE deposits usually accumulated at the borders of the TMR-Eb positive areas and thereby outlined them. Electron microscopy using horseradish peroxidase-labeled erabutoxin b revealed that the fluorescent dots represent the discrete regions of high AChR concentration at the muscle membrane.
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PMID:Acetylcholine receptors and cholinesterase in developing chick skeletal muscle fibers. 713 47

A choline oxidase-peroxidase coupled enzyme procedures is proposed for the determination of cholinesterase activity in human serum. This system is not only kinetic and colorimetric but is also relatively quick and simple to perform. The initial comparisons suggest that this method correlates well with a commonly used propionylthiocholine-dinitrobis-(nitro-benzoic acid) technique. Large amounts of bilirubin in the sample appear to have only minor deleterious effects on the assay. Since there are only two reagents that may be premixed, the procedure appears to be amenable to automation. The use of a mixture of sodium 2-hydroxy-3,5-dichlorobenzenesulfonate and 4-aminoantipyrene in the peroxidase catalyzed indicator reaction provides for a marked increase in sensitivity over previously reported 4-aminoantipyrene-phenol systems. This augmented sensitivity provides for a relatively large reagent to sample ratio. In addition, the reagents lend themselves toward lyophilization or "dry-fill".
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PMID:A procedure for the kinetic colorimetric determination of serum cholinesterase activity. 713 38

Acetylcholinesterase has an action in the central nervous system, independent of hydrolysis of acetylcholine. This study explored the possible interaction between the two molecules: the effects of acetylcholinesterase on the autoxidation of the catecholamine were tested, and, in turn, modification of the catalytic activity of the enzyme by products of dopamine oxidation were studied. Acetylcholinesterase selectively inhibited the speed of quinone production from dopamine as well as accumulation of hydrogen peroxide, whilst the rate of generation of superoxide was increased. Analysis of absorption spectra revealed the formation of a new product, which appeared after mixing acetylcholinesterase and dopamine in neutral pH. In all cases, butyrylcholinesterase was ineffective. Incubation of acetylcholinesterase in the presence of dopamine resulted in a significant decrease in the catalytic activity of the enzyme. The effects of application of preparations modifying autoxidation of dopamine (SOD, catalase, peroxidase) suggested that inactivation of the enzyme occurred as a result of the direct interaction of a quinone and/or semiquinone oxidation product with enzyme, as opposed to any effects of reactive oxygen species. Because acetylcholinesterase and dopamine are co-released from the neurons degenerating in Parkinson's disease, a direct chemical interaction between these two molecules could have significance both for the normal functioning of the substantia nigra and for related pathological states.
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PMID:A possible interaction between acetylcholinesterase and dopamine molecules during autoxidation of the amine. 774 5

2-Naphthyl acetate acts as a pro-enhancer of the luminol-H2O2-horseradish peroxidase reaction. Cholinesterase hydrolyses the bound acetyl group and produces 2-naphthol, and this compound is an enhancer of the chemiluminescent reaction. We studied the kinetics of chemiluminescent emission and the influence of 2-naphthyl acetate and cholinesterase enzyme concentrations. The cholinesterase concentration versus chemiluminescence intensity maximum was linear for cholinesterase between 0 and 181 microU/mL, with a detection limit of 8 microU/mL and a relative standard deviation of 9.5% (n = 3), for a sample containing 90.67 microU/mL of cholinesterase.
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PMID:Assay of cholinesterase using a pro-enhancer of the luminol-H2O2-horseradish peroxidase reaction. 853 10

A potentiometric method for cholinesterase inhibitor analysis based on mediatorless bioelectrocatalysis has been developed. The method includes coimmobilization of three enzymes, butyrylcholinesterase, choline oxidase and peroxidase, on composite carbon electrodes. Catalytic hydrolysis of butyrylcholine and subsequent catalytic oxidation of choline result in the formation of hydrogen peroxide leads to a shift in the electrode potential. The detection limit for trichlorfon analysis is 2 x 10(-13) M. Electrodes remain stable for at least 4 weeks when stored at 277 K.
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PMID:Potentiometric biosensors for cholinesterase inhibitor analysis based on mediatorless bioelectrocatalysis. 868 64

To determine the basal acetylcholine level in the dialysate of rat frontal cortex, a horseradish peroxidase-osmium redox polymer-modified glassy carbon electrode (HRP-GCE) was employed instead of the conventional platinum electrode used in high-performance liquid chromatography-electrochemical detection (HPLC-ED). In initial experiments, an oxidizable unknown compound interfered with the detection of basal acetylcholine release on HPLC-HRP-GCE. An immobilized peroxidase-choline oxidase precolumn (pre-reactor) was included in the HPLC system, to eliminate the interference from the unknown compound. This combination could detect less than 10 fmol of standard acetylcholine and basal acetylcholine levels in the dialysate from a conventional concentric design microdialysis probe, without the use of cholinesterase inhibitor, and may facilitate physiological investigation of cholinergic neuronal activity in the central nervous system.
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PMID:Detection of basal acetylcholine release in the microdialysis of rat frontal cortex by high-performance liquid chromatography using a horseradish peroxidase-osmium redox polymer electrode with pre-enzyme reactor. 883 37

A method of DNA immobilization on cellulose nitrate films has been developed. Modified films of uniform and stable surface have been used to devise two variants of solid-phase enzyme immunoassays of antibodies. The co-immobilization of enzyme label (cholinesterase) and the DNA molecules makes it possible to carry out the procedure of solid-phase enzyme immunoassay without any separation of components. Thus, it takes only 15 min to diagnose an autoimmune disease (Aleutian disease of minks) with the immunoenzyme amperometric sensor, with a lower detection limit for antibodies of 0.5 x 10(-10) M. For scaled diagnosing, solid-phase enzyme immunoassay on DNA-modified films with prior separation of components and spectrophotometric registration of peroxidase activity has been developed. The time for determination was 30 min, with a lower detection limit of 7.4 x 10(-12) M.
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PMID:New variants of enzyme immunoassay of antibodies to DNA. 891 84

Selective amperometric enzyme microsensors for monitoring low micromolar concentrations of choline in extracellular fluid of rat brain have been developed. Preparation of the choline microsensors involved the modification of carbon fiber microcylinder electrodes (10 microns diameter, 300-400 microns long) with a cross-linked redox-active gel containing horseradish peroxidase and choline oxidase. Rejection of the noise recorded from the choline microsensors implanted in living brain tissue improved the in vivo detection capabilities of the sensors. The microsensors and a differential detection scheme were used to estimate the basal concentration of choline in striatal tissue at 6.6 +/- 2.9 microM and to measure changes in choline concentrations of 6.1 +/- 2.7 microM in vivo. The microsensors were also used to monitor choline produced following the injections of acetylcholine in vivo. Coinjections of neostigmine and acetylcholine significantly lowered the choline response recorded with the microsensors, confirming that the response following the injections of acetylcholine alone was due to the activity of endogenous acetylcholinesterase. Comparison of the maximal rate of decrease in choline concentration following the injections of 1 mM choline and 1 mM acetylcholine was used to estimate the rate of acetylcholine clearance from extracellular fluid through cholinesterase activity at approx. 2.5 microM/min.
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PMID:Amperometric microsensors for monitoring choline in the extracellular fluid of brain. 898 84

Lactoperoxidase, when incubated with increasing amounts of promethazine (P) and promethazine sulfoxide (PO) catalyzes the formation of promethazine sulfoxide accompanied by oxygen consumption. An intermediate radical of PO can be detected by electron spin resonance (ESR). Catalase or superoxide dismutase do not inhibit the reaction while dopamine does. The lactoperoxidase-catalyzed formation of dopaminochrome in the presence of hydrogen peroxide is inhibited by P. Both P and PO inhibit acetyl- and butyrylcholinesterase. Purified enzymes were used throughout the study and horseradish peroxidase but not myeloperoxidase had an activity similar to that of lactoperoxidase.
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PMID:A peroxidase-catalyzed sulfoxidation of promethazine. 951 66

Potentiometric choline electrodes were developed on the basis of the mediator-free bioelectrocatalysis. The electrodes made of a composite carbon-polymer material contain choline oxidase and peroxidase coimmobilized on the surface of the electrode. The rate of the potential increase was shown to be proportional to the choline concentration within a broad range of variation. Coupling of choline-sensitive electrodes with butyrylcholinesterase makes possible both the direct detection of butyrylcholine and analysis of butyrylcholinesterase inhibitors.
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PMID:[Potentiometric electrodes for determining choline, butyrylcholine and cholinesterase inhibitors]. 964 13


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