EC:3.1.1.7 - FACTA Search

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Query: EC:3.1.1.7 (acetylcholinesterase)
28,390 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Studies have been made on substrate specificity of acetylcholinesterase (AChE;EC 3-1-1-7) from the electric organ of the ray T. marmorata with respect of choline and thiocholine esters, as well as on the effect of pH, salts and organophosphorus inhibitors (OPI) on the activity of the enzyme. Acetylcholine (ACh), propionycholine (PrCh) acetyl-beta-methylcholine (MeCh), acetylthiocholine ((ATCh) and propionylthiocholine (PrTCh) were hydrolyzed by the enzyme studied at the following relative rates-100: 28.8: 18.3: 87.2: 18.9 correspondingly. In all the cases, inhibition of the enzyme by high concentrations of the substrate was observed. As compared to other AChE, the enzyme from T. marmorata exhibits the highest affinity to ACh. For all the substrates studied, pH dependence of AChE activity followed the curve with maximum 7.5 for ACh and PrCh, 8.0-8.5 for ATCh and MeCh and 7.5-8.5 for PrTCh. Various salts (MgCl2), KCl, NaCl, NaBr, KI) increased AChE activity, the increase being the highest with MgCl2 (3.3 times) and NaCl (2.5X). Biomolecular rate constants ((k) II) for the interaction of AChE investigated with OPI containing cationic group-methylsulfomethylates, O-ethyl-S-(beta-ethylmercapto) ethylmethylthiophosphonate and O,O-diethyl-S-(beta-ethylmercapto) ethylthiophosphate, as well as methyl iodide O,O-disopropyl-S-(beta-phenylmethylamino) ethylphosphate-were significantly higher as compared with k(II) values for corresponding compounds without the cation. The value of k(II) sharply decreased with the increase in the size of the acyl radicals at phosphorus atom in the molecule of OPI.
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PMID:[Acetylcholinesterase from the electric organ of the ray Torpedo marmorata]. 0 75

Acetylcholinesterase (AChE, EC 3.1.1.7) of rat retina was studied with respect to its kinetic and other properties, and a comparison was made with the enzyme from brain. The subcellular distribution of the retinal AChE showed that the enzyme was concentrated in the synaptosomal-mitochondrial fraction although in the brain the AChE was distributed more evenly between the fractions studied. The enzyme from both retina and brain was easily solubilised and exhibited a Km of the order of 10(-4) M. The pH optimum was 8.3-8.6 for the AChE from both tissues for both the soluble and particulate enzyme.
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PMID:Some properties of acetylcholinesterase from rat retina. 0 85

Axonal transport of choline acetyltransferase (ChAc, E.E.:2.3.1.6) and acetyl cholinesterase (AChE, E.C.:3.1.1.7) was studied in the peroneal fascicles of rabbit sciatic nerves. The accumulation of ChAc in the central nerve stump proceeded 5 times more slowly than that of AChE and occurred at a distanct of 2-4 mm proximally from the end, whereas AChE accumulated in the last 2 mm of the stump. In double-ligated segments of the nerve in situ the activity of ChAc decreased at the proximal and increased at the distal end; the activity of AChE rose at both ends, The increase of ChAc activity did not cease until 22 h, whereas that of AChE stopped before 10 h. The intensity of ChAc transport is considerably diminished in the part of axon separated from the nerve cell body. Differences between the behavior of ChAc and AChE are interpreted by the assumption that the axonal transport of ChAc is slow, unidirectional, concerns all of the enzyme in the nerve, and that most of the transported enzyme is not associated with intraaxonal organelles. In contrast to ChAc, the transport of AChE is fast, bidirectional, and concerns a minor proportion of enzyme in the nerve; the transported enzyme is associated with organelles. The rate of proximodistal transport of ChAc is estimated at 4 mm/day (based on the assumption that 100% of the enzyme moves proximo-distally) and that of AChE at 480 mm/day (based on the extimate that 5% of enzyme moved proximo-distally in the present experiments).
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PMID:Transport of choline acetyltransferase and acetylcholinesterase in the central stump and isolated segments of a peripheral nerve. 4 69

The intrinsic innervation of the kidney in Rattus rattus rufescens (Indian black rat) has been studied by cholinesterase technique, under various temperatures, incubation periods and different pH values. The percentage of myelinated nerves was rather high in the medulla region, whereas the non-myelinated nerves dominated in association with the uriniferous tubules and their branches, glomerulus and renal vein in the cortex region. Periarterial AChE-positive ganglia were recorded in the medulla region. The perivenous and periglomerulus plexuses were formed by the non-myelinated nerves and their branches.
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PMID:Neurohistological observations on the kidney of Rattus rattus rufescens (Indian black rat) as revealed by cholinesterase technique. 8 95

An investigation was undertaken to study the nerve endings in the pancreas of Rattus rattus rufescens and Gallus domesticus by cholinesterase technique. Bulb-like nerve ending in the connective tissue (negatively stained) and dot-like nerve ending in the lobular cells were recorded in Rattus. Dot-like nerve ending on the periphery of the lobular cells and bulb like nerve endings connected with nerve bundle, were recorded in Gallus. Nerve endings were AChE-positive in nature in both Rattus and Gallus.
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PMID:Study on the nerve endings in the pancreas of Rattus rattus refescens and Gallus domsticus as revealed by the cholinesterase technique. 8 Aug 95

Sheep were studied for the possibility of treatment after parenteral (intramuscular) intoxication with EDMM (methylthiophosphorous acid O-ethyl-S-2-dimethylamino-ethylester) and with EDIM (methylthiophosphorous acid O-ethyl-S-2-diisopropyl-aminoethylester). In both cases of intoxication, the therapy was based on a system of an anticholinergic and cholinesterase reactivator administered singly at a time of the maximum development of the clinical signs of poisoning and maximum inhibition of both erythrocytic (AChE, E.C.3.1.1.7.) and plasma (BChE, E.C.3.1.1.8.) cholinesterase. The optimum therapeutic system requires the administration of 20.0 mg atropine s. c. pro toto and 10.0 mg trimedoxim per kg 1. w. i. v. In both cases of poisoning with doses = LD50 in i. m. administration, the mentioned system was actually positive. In a single administration irrespective of the doses of the used drugs, the system does not guarantee survival after ingestion of anticholinesterasic doses above LD50.
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PMID:[Therapy of domestic animals affected by alkylphosphates]. 11 93

In clinical anaesthesia, galanthamine hydrobromide (Nivalin), an alkaloid of galanthus nivalis (common snowdrop) is used to reverse the neuromuscular blocking effect of curare-type muscle relaxants. A comparative study of the inhibition by galanthamine of acetylcholinesterase (AChE; PH 7,2; substrate; acetylthiocholine) and of pseudocholinesterase (ChE; ph 7,7; substrate: butyrylthiocholine) was carried out by means of a colorimetric assay technique at 25 degrees C. AChE (pI50 = 5.5; Ki = 5.2 X 10(-8) M) has an approximately 100-fold higher affinity to galanthamine than has ChE (pI50 = 3.7; Ki = 2.9 X 10(-6) M). The kinetic analysis of the inhibition which is instantaneously reversible upon dilution revealed a pure competitive mechanism of action for both enzymes. Supported by a calculation of the change in free binding energy (AChE: delta F = 9.9 kcal X mole-1; ChE: delta F = -7.6 kcal X mole-1), galanthamine is thought to decrease the rate of hydrolysis by a reversible binding to the anionic site of the active centre ("prosthetic inhibitor") thus impairing the formation of the enzyme-substrate complex.
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PMID:[On the molecular mechanism of action of galanthamine, an antagonist of nondepolarizing muscle relaxants (author's transl)]. 13 19

An investigation was undertaken to study the Neuro-muscular spindles in the tongue (Rattus rattus rufescens and Suncus murinus) by cholinesterase technique, under maintained pH of 5.2, incubation period 20 h., and temperature 38 degrees C (Rattus) and 39 degrees C (Suncus). Neuro-muscular spindles were observed frequently distributed from anterior to posterior of the tongue and took a little darker stain than the ordinary muscle fibres (negatively stained) while the nerve fibres and ganglia took still darker stain. Nerve fibres (myelinated, non-myelinated and tortuous) were seen penetrating and embracing the muscle spindles and most of them ran parallel to the spindles. Ganglia of various shapes (oval, irregular, elongated and rounded) and sizes (large, Rattus and medium and small, Suncus) were AChE-positive. Ganglia small and medium in size, rounded and elongated in shape were arranged in chain-like fashion on the muscle spindles in Suncus (Fig. 9, 10). The blood vessels (artery, vein, and capillary) were recorded either in close association with the muscle spindles or lying parallel to it. In all cases they were closely related and deeply associate either with the nerve fibres of the plexus of the muscle spindles or with the nerve fibres of the neural network of vessel. Perivascular and perimuscular ganglia with pre- and postganglionic nerve fibres were closely related to each other. Nerve endings, dot-like (Rattus) and bulb-like (Suncus) were occasionally recorded. AChE activity was found randomly in the muscle spindles (Fig. 2, 5.) and in the form of dark brown patches in the ordinary muscle fibres.
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PMID:A histochemical study of the neuro-muscular spindles in the tongue of some rodents. 16 Jan 47

The possible role of displaced neurotransmitter acetylcholine (ACHh) in dysautoregulation was examined after experimental regional cerebral infarction was produced by occluding the middle cerebral artery (MCA) in babons. Regional cerebral blood flow (rCBF) was measured after intracarotid injection of 133Xenon using the gamma camera. Autoregulation was tested with metaraminol or angiotensin infusion and the autoregulation index (A.I.) was calculated. Acetylcholinesterase (ACHhE) was measured in brain tissue of noninfarcted and infarcted hemispheres. Cerebral arteriovenous (A-V) differences for cholinesterase (ChE) were also measured. Regional dysautoregulation was found in infarcted gray matter and correlated with increased AChE levels in the same zones of cortex and basal ganglia. The time course of onset of dysautoregulation correlated with increased ChE uptake by the brain. Intravenous infusion of the cholinergic neurotransmitter blocker, scopolamine, restored autoregulation to the ischemic zones. Autoregulation appears to be a myogenic reflex, influenced by neurogenic and metabolic mechanisms.
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PMID:Disordered cholinergic neurotransmission and dysautoregulation after acute cerebral infarction. 16 7

The activity of acetylcholinesterase (AChE 3.1.1.7.) was determined in skeletal muscle homogenates in frogs at various time intervals (15--24 days) after denervation. At the same time changes in AChE activity were compared with morphological changes of neuromuscular end plates in these muscles. Muscle denervation caused initially, within 30 hours, a rise in AChE activity by about 30% in relation to control muscles, followed by its fall to the control values after 4--6 days. The activity decreased further reaching lowest values 15 days after denervation, when it amounted to about 65% of the value of control muscles. After that time, when regeneration of nerves set in, the activity of AChe rose again returning to the control values after 24 hours. In the initial period of denervation no correlation was found between AChE activity and morphological changes in end plates. It was found however in the later period when degenerative changes were most pronounced as well as when reinnervation was in progress.
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PMID:Effect of skeletal muscle denervaton on the activity of muscular acetylcholinesterase (E.C. 3.1.) in frog. 30 96

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