EC:3.1.1.8 - FACTA Search

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Query: EC:3.1.1.8 (cholinesterase)
12,691 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cholinesterase (EC 3.1.1.8) for intravenous use has been obtained from fraction IV, a by-product of ehtanol fractionation. A four-step procedure has been developed associating precipitation by Rivanol and PEG 4000 with chromatography on DEAE-cellulose. The yield corresponds to 30--35% of the activity found in fraction IV. Vials containing 5000 U of CHE stabilized by 2.5% albumin have been prepared. The pyrogen-free product is well tolerated in the human.
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PMID:Side products of routine plasma fractionation. I. Serum cholinesterase (EC 3.1.1.8). 46 2

Human plasma cholinesterase from five different genotypes -- E1U E1U, E1U E1A, E1A E1A, E1U E1S, E1A E1S, and E1U E1U C5+ -- was purified 8,000 fold from serum by a two-step procedure involving chromatography on DEAE-cellulose and preparative disc electrophoresis. The esterases were labeled with diisopropyl-1, 3-C14-fluorophosphate (DFP) aminoethylated, and digested by trypsin. The trytic digests were subjected to high voltage electrophoresis, and the radioactive peptides were detected by radioautography. Comparison of the peptides revealed different electrophoretic mobilities of the usual and atypical (dibucaine resistant) plasma cholinesterase peptides. The results are consistent with a structural abnormality of the active center in the variant enzyme. No difference was observed an the esteratic site of the enzyme with C5 component.
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PMID:Structural difference at the active site of dibucaine resistant variant of human plasma cholinesterase. 67 27

The human serum butyrylcholinesterase was rapidly purified with an affinity technique on meta-aminophenyltrimethylammonium-agarose; the ionic strength was 0.25 and the specific elution was achieved with 9-amino-10-methylacridinium. After ion exchange on DEAE-cellulose and molecular filtration, an enzyme purified more than ten thousand times was obtained.
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PMID:[Purification of cholinesterase from human serum by affinity chromatography]. 81 47

Human thyroid monoamine oxidase from hyperfunctioning thyroids was isolated and purified by separating the mitochondria by differential centrifugation followed by ultrasonication. The suspension containing the active enzyme from the DEAE-column, on passing through a Sephadex G-200 column gave three peaks corresponding to molecular weights of approximately 220,000, 23,000 and 4000 of which the component with molecular weight 4000 showed enzyme activity. The blood of the patients was analyzed for plasma MAO, RBC cholinesterase, plasma histaminase and plasma catecholamines. Histology and histochemistry of the thyroid tissues were also done. The data are examined from the point of view of the prevalent idea of the possible existence of MAO in multiple forms.
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PMID:Isolation and characterization of monoamine oxidase from hyperfunctioning human thyroid. 82 4

The major C4 component of human serum cholinesterase was highly purified by a two-step procedure involving chromatography on DEAE-cellulose and preparative disc electrophoresis. The final product was about 8 000-fold purified with a yield of 64%. The subunit structure was determined by 8M urea polyacrylamide disc electrophoresis and by the sedimentation equilibrium centrifugation method in 5M guanidine hydrochloride. It was found that the C4 enzyme has a tetrameric structure. The subunits are equal in size and charge and a molecular weight comparable to that of the C1 enzyme from native serum. The major C4 enzyme and the minor C1 enzyme were subjected to an 'active enzyme centrifugation'. It was found that the C4 enzyme was a tetramer and the C1 enzyme was a monomer in the presence of substrate. The number of diisopropylphosphofluoridate-binding sites was measured from the molar ratio of bound diisopropylphosphate to protein. A value close to two binding sites was found for the C4 enzyme.
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PMID:Human-serum cholinesterase subunits and number of active sites of the major component. 100 25

Cholinesterase was purified from human serum by a three-stage procedure involving chromatography on DEAE-cellulose at pH4.0, an electrofocusing technique and gel filtration on Sephadex G-200. The final product was purified 13000-fold with a yield of 54%, and only one protein and one cholinesterase band could be demonstrated by polyacrylamide-disc electrophoresis. The catalytic properties appeared to be unchanged by the purification procedure. The molecular weight was determined by both ultracentrifugation in a density gradient and gel filtration, and values close to 366000 were obtained. The isoelectric point of cholinesterase was estimated to be pH3.99. The method appears suitable for the preliminary purification of the rare genetic variants of human cholinesterase.
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PMID:Purification and properties of human serum cholinesterase. 544 75

The three enzyme activities, carboxylesterase, aryl acylamidase and cholinesterase activities, have been found in rat and human sera. Rat serum carboxylesterase associated with serum aryl acylamidase activity, but not with serum cholinesterase activity, was purified by ammonium sulfate precipitation, followed by successive chromatographies on DEAE-cellulose, blue Sepharose and QAE-Sephadex, and then electrophoresis. Evidence for the identity of the two enzymes, carboxylesterase and aryl acylamidase, was their co-elution profiles and co-purification in the different steps, including electrophoresis, with constant ratios of specific activities and percentage recoveries. Human serum carboxylesterase associated with serum cholinesterase, purified earlier, was compared with the rat serum esterase. Human serum carboxylesterase and aryl acylamidase activities were inhibited by serotonin and neostigmine, whereas rat serum carboxylesterase and aryl acylamidase activities were not affected by these compounds. Tyramine activated human but not rat aryl acylamidase. Rat and human serum esterase activities were both strongly inhibited by the diisopropylfluorophosphate. Both esterases catalyzed the hydrolysis of short-chain triacylglycerols, such as tributyrin, and medium-chain monoacylglycerols, such as monocaprin, but not the hydrolysis of long-chain triacylglycerols.
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PMID:Carboxylesterases in rat and human sera and their relationship of serum aryl acylamidases and cholinesterases. 685 27

Pseudocholinesterase (ChE) (acylcholineacylhydrolase, EC 3.1.1.8) has been partially purified (about 270-fold) from sheep brain. The procedure included ammonium sulfate fractionation (20-80%), DEAE-Trisacryl M chromatography and procainamide-Sepharose 4B affinity chromatography. The molecular weight of purified ChE was found to be 290,000 by gel filtration. Kinetic properties of the enzyme have been studied using the substrate analogues choline, succinylcholine and benzoylcholine. It was shown that the inhibition was partially competitive.
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PMID:Sheep brain pseudocholinesterase: inhibition kinetics of the partially purified enzyme by some substrate analogues. 834 84

The G2 form of butyrylcholinesterase (BChE) of mucosal cells of rat intestine is a rare amphiphilic species, which is related to class II of acetylcholinesterase. Preliminary work indicated that the enzyme can bind heparin and suggested particular properties as compared to other BChEs. Ionic properties of the G2 form BChE were studied with different ionic exchangers. Heparin-Sepharose chromatography, nondenaturing electrophoresis and sucrose gradient centrifugation were used to study heparin interaction with the G2 form BChE. The enzyme structure was modified with reagents that react specifically with amino groups (p-hydroxyphenylglyoxal and 2,4,6-trinitrobenzene sulfonic acid). The G2 form was not retained by DEAE-cellulose which was generally used to isolate BChE from human serum, but was completely bound by strong cation exchanger (Dowex 50). Heparin-Sepharose quantitatively retained the enzyme which was partially eluted only by charged compounds. Nondenaturing gel electrophoresis showed a reduction in enzyme migration with increasing concentrations of heparin and chondroitin sulfate, but not with heparan sulfate. Triton X-100 dissociated the G2 form into monomers but failed to reverse the association between the enzyme and heparin. Reagents specific to amino groups indicated that arginine and lysine residues were involved in this association. In summary, these studies demonstrate that the ionic properties of the G2 form BChE are involved in the binding with heparin. Our results rule out the possibility of amphiphilic interactions in the formation of heparin-enzyme complex and indicate that amino groups are predominately involved in this association.
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PMID:Electrostatic interactions of the butyrylcholinesterase dimer of mucosal cells of rat intestine with glycosaminoglycans. 869 3

A protein separation scheme combining affinity or ion exchange sorption with hollow fiber cross-flow filtration is described. Sorptive gel particles were loaded into the shell side of a hollow fiber membrane module. In the adsorption step, crude protein mixtures were passed through the lumen and permeating proteins passed through the membrane to bind on the gel particles in the shell. During elution, a buffer of adequate ionic strength to desorb the bound proteins was passed through the lumen and permeated through the shell. The eluant was then collected at the outlet to the shell of the hollow fiber module. The concept is illustrated by two examples: the purification of butyrylcholinesterase (EC 3.1.1.7) from raw horse serum using the affinity gel procainamide-Sepharose as the packing and the separation of carboxylesterase (EC 3.1.1.1) from beef liver homogenate using DEAE-Sephadex as the packing. The technique has the advantage of high volumetric throughputs typical of hollow fiber membrane modules as well as the high capacity characteristic of chromatographic packings. In addition, cross-flow filtration of particulates, agglomerates, and debris in passing protein from lumen to shell side can help eliminate the need for extensive pretreatment.
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PMID:Simultaneous ultrafiltration and affinity sorptive separation of proteins in a hollow fiber membrane module. 1859 15

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