EC:3.4.21.4 - FACTA Search

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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An enzyme isolated from Ehrlich ascites plasma and capable of cleaving trypsin active site titrant 4-nitrophenyl-p-guanidinobenzoate (Steven, F.S. and Al-Achmad, R.K. (1983) has been further investigated. The substrate hydrolysis follows Michaelis-Menten kinetics. The molecular mass of the enzyme is 50-70 kDa by gel filtration and SDS polyacrylamide gel electrophoresis. It has the mobility of albumin and coelutes with a carboxylesterase activity on a cation exchange column. (Cbz-Arg-NH)2-Rhodamine, the specific noncompetitive inhibitor of guanidinobenzoatase, also inhibits the carboxylesterase activity. Therefore, the guanidinobenzoatase activity of Ehrlich ascites plasma is a carboxylesterase (EC 3.1.1.1.) which likely originates from blood.
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PMID:The enzyme capable to cleave trypsin active site titrant as substrate is a carboxylesterase with electrophoretic mobility similar to albumin. 213 May 74

There are at least two sites on the lipase which are concerned with catalysis: the catalytic site and the hydrophobic recognition site (lipid-binding site). The recognition site may be destroyed by mild proteolytic digestion, but the catalytic site may not be changed by this treatment. Mild treatment with trypsin caused change in the catalytic properties of hepatic triglyceride lipase; the water-insoluble ester-hydrolyzing activity of hepatic triglyceride lipase decreased, whereas the water-soluble ester-hydrolyzing activity did not change. After proteolytic digestion, hepatic triglyceride lipase resembles esterase since it hydrolyzes the water-soluble substrate better than the water-insoluble substrate. Conversely, esterase was converted to lipase by treatment with phospholipid. Cardiolipin in a concentration-dependent fashion enhanced triolein-hydrolysis of human serum carboxylesterase and this effect was associated with a dose-dependent decrease in water-soluble tributyrin hydrolysis. Based on these results, we propose the hypothesis that lipase and esterase have similar catalytic sites and that addition of a hydrophobic recognition site to esterase causes conversion of esterase to lipase (Fig. 9).
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PMID:Relationship between lipase and esterase. 220 66

The suitability of eleven 4-alkylidene oxazolones for the determination of four hydrolases, alpha-chymotrypsin, trypsin, carboxylesterase and leucine aminopeptidase, was tested. The specific activities were in general low compared with those obtained with the classical substrates but the Kmapp values were also small. Hence, the kcat/Kmapp ratios of the oxazolones, the optimal indicator of activity, remained in the usual range. The high differential absorption coefficients of the oxazolones in the UV range render these substrates very suitable for the determination of active site normalities if the solubilities of the acyl enzymes and the magnitudes of the rapid bursts are sufficient. Since some of the oxazolones fluoresce, the sensitivity of the method may be increased up to 1000 x by fluorescence detection. The titrations may be carried out in organic solvents, e.g. dimethyl sulphoxide, which greatly stabilize the hydrolases. The high specificity of the oxazolones permits active site titrations in the presence of other hydrolases.
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PMID:4-alkylidene oxazolones as substrates and inhibitors for sensitive assays of the normality of active sites and the catalytic properties of hydrolases. 291 72

A simple direct spectrophotometric method for the determination of butyrylcholinesterase (EC 3.1.1.8) and arylesterase (EC 3.1.1.2) activities has been developed. New chromogenic substrates, (3-carboxypropyl)trimethylammonium iodide o-nitrophenyl ester (I) and (3-carboxypropyl)trimethylammonium iodide p-nitrophenyl ester (II), as well as new fluorogenic substrate, (3-carboxypropyl)trimethylammonium iodide 4'-methylumbelliferyl ester (III), were used in this study. Horse serum butyrylcholinesterase equally catalyzed hydrolysis of the compounds, I, II and III. Hydrolysis of these compounds by trypsin, chymotrypsin, acetylcholinesterase and carboxylesterase was negligible or quite slow. By human serum butyrylcholinesterase, however, only the compound I was preferentially hydrolyzed. The compound III, by contrast, was found to be a specific substrate for arylesterase of human serum without being affected by the butyrylcholinesterase. All these measurements were carried out readily and efficiently, by analyzing highly colored products with I and II, and highly fluorescent product with III.
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PMID:New chromogenic and fluorogenic substrates for the determination of butyrylcholinesterase and arylesterase activities. 720 43

We have cloned and sequenced a carboxylesterase from rat liver and purified the corresponding protein from rat blood. The cDNA encodes the entire mature serum esterase protein. It is apparently identical to cDNAs cloned from rat liver by several groups (Long, R. M., Satoh, H., Martin, B. M., Kimura, S., Gonzales, F. J., and Pohl, L. R. (1988) Biochem. Biophys. Res. Commun. 156, 866-873; Takagi, Y., Morohashi, K.-i., Kawabata, S.-i., Go, M., and Omura, T. (1988) J. Biochem. (Tokyo) 104, 801-806; and Robbi, M., and Beaufay, H. (1992) Biochem. Biophys. Res. Commun. 183, 836-841). However, the identification of the protein encoded by this cDNA has not been previously reported. The COOH-terminal -TEHT sequence found in the rat serum carboxylesterase does not possess retention properties and is therefore responsible for its secretion and presence in the circulation. The rat serum carboxylesterase was purified to apparent homogeneity by affinity chromatography on immobilized antibody to rat liver microsomal acyl-CoA thioesterase followed by ion exchange chromatography. The purified protein, with a M(r) of approximately 70,000, was cleaved in situ in a polyacrylamide gel with trypsin, and two peptides were isolated and sequenced. Sequence analysis showed that both peptides were identical only to the corresponding deduced amino acid sequence of the cloned cDNA. Antibodies raised to the COOH-terminal amino acid sequence deduced from the cDNA cross-reacted with the purified rat serum carboxylesterase. Changes in serum esterase activity levels followed changes in protein mass in rat serum and changes in liver mRNA levels in response to various nutritional conditions while total liver esterase activity was essentially unchanged. The above experiments confirm the identity of the protein isolated from rat sera with the cDNA cloned from rat liver and suggest a function for the serum esterase in lipid metabolism.
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PMID:Molecular cloning and identification of a rat serum carboxylesterase expressed in the liver. 800 16

Protein renaturation is of particular interest not only for the basic mechanisms of protein folding but also as a practical problem for proteins overexpressed in microorganisms, since recombinant proteins may accumulate as misfolded aggregates in "inclusion bodies" that are inactive after purification. We have established a systematic screening method to identify conditions which promote protein renaturation. A matrix of 50 different buffers, which were originally developed for protein crystallization, were found to facilitate the renaturation for eight of nine different proteins examined. The proteins tested include the adhesive protein bindin, recombinant bindin, and a variety of enzymes, including bacterial alkaline phophatase, horseradish peroxidase, lysozyme, trypsin, beta-galactosidase, rabbit carboxylesterase, and acetylcholinesterase. The total amount of activity recovered varied from 9 to 333% depending on the protein. The conditions that were found to promote renaturation are very different from the optimal conditions for enzyme activity. The finding that most of the proteins tested renatured to a significant extent in one or more of the buffers in the matrix suggests that the sparse matrix screen may be of general utility for establishing initial renaturation conditions for a wide variety of proteins. One initial renaturation conditions have been identified, the conditions may be optimized by systematically altering other parameters of the renaturation process.
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PMID:A sparse matrix screen to establish initial conditions for protein renaturation. 858 34

Organophosphorus pesticide toxicology is normally evaluated in relation to inhibition of cholinesterases (acetyl and butyryl), neuropathy target esterase, and carboxylesterases, with less attention given to other physiologically important hydrolases. This study considers the relative organophosphate sensitivities of the aforementioned serine hydrolases compared with purified blood-clotting factors (thrombin, plasmin, and kallikrein) and digestive enzymes (alpha-chymotrypsin, trypsin, and elastase), assayed under similar conditions. Inhibitors that we examined are organophosphorus insecticides or their activated metabolites (paraoxon, chlorpyrifos oxon, and profenofos) and other toxicants (phenyl saligenin cyclic phosphonate and tribufos) for comparison with values that are found in the literature for the fluorophosphonates (isoflurophate and sarin). Thrombin is the most sensitive blood-clotting factor with IC-50 values of 19 to 160 microM for tribufos, the cyclic phosphonate, isoflurophate, and profenofos; plasmin and kallikrein are less affected (IC-50 >100 microM). Alpha-Chymotrypsin, trypsin, and elastase are most sensitive to the cyclic phosphonate (IC-50 1.3-15 microM) and less so to isoflurophate, sarin, and profenofos (IC-50 values from 3.6 to greater than 100 microM). The cholinesterases, carboxylesterase, and neuropathy target esterase are the most sensitive to inhibition with IC-50 values for the insecticides of less than 0.001 to 0.6, 0.002 to 0.009, and 0.15 to 100 microM, respectively. The generally low potency of these organophosphates for blood-clotting factors and digestive enzymes suggests that associated toxic effects are unlikely at sublethal doses.
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PMID:Sensitivity of blood-clotting factors and digestive enzymes to inhibition by organophosphorus pesticides. 1056 Oct 82

The metabolism of three opioid tetrapeptides, Tyr-D-Arg-Phe-Nva-NH2, Tyr-D-Arg-Phe-Phe-NH2 and Tyr-D-Ala-Phe-Phe-NH2, was investigated in the presence of pure pancreatic enzymes (trypsin, chymotrypsin, elastase, carboxypeptidase A and carboxypeptidase B), as well as in the presence of pure carboxylesterase and aminopeptidase N. The cleavage patterns of the pure pancreatic enzymes were then compared with those found in rat and human jejunal fluid. Metabolism was also studied in homogenates from different intestinal regions (duodenum, jejunum, ileum and colon) and in enterocyte cytosol from rats. The effect of various protease inhibitors was investigated in the jejunal homogenate. The parent peptides were assayed by high-performance liquid chromatography and metabolites were identified by means of liquid chromatography-mass spectrometry. Of the pure enzymes, the quickest hydrolysis of the peptides was observed for the pancreatic enzymes chymotrypsin, trypsin and carboxypeptidase A. In most cases they formed the corresponding deamidated tetrapeptides (chymotrypsin and trypsin) or tripeptides with a missing C-terminal amino acid (carboxypeptidase A). Regional differences in intestinal metabolism rates were found for all three peptides (P < 0.001), with the highest rates observed in jejunal and/or colonic homogenates. The deamidated tetrapeptides were formed both in rat intestinal homogenates and in enterocyte cytosol. Metabolism in the jejunal homogenate was markedly inhibited by some serine and combined serine and cysteine protease inhibitors. In conclusion, the C-terminal amide of these tetrapeptides did not fully stabilise them against intestinal deamidase and carboxypeptidase activities. The significant hydrolysis of the peptides by pure chymotrypsin, trypsin and carboxypeptidase A showed that lumenal pancreatic proteases might be a clear metabolic obstacle in oral delivery even for small peptides such as these tetrapeptides.
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PMID:Investigations of the in-vitro metabolism of three opioid tetrapeptides by pancreatic and intestinal enzymes. 1093 29

Juvenile hormone esterase (JHE, EC 3.1.1.1) from whole Drosophila melanogaster prepupae has previously been purified by selective precipitations, isoelectric focussing and two column chromatography steps. JHE bands from dried silver-stained SDS-PAGE gels of that material were digested with trypsin. The masses of the tryptic digest peptides were determined by MALDI-TOF mass spectrometry. Only one predicted gene product (CG8425) from the D. melanogaster genome matches the JHE tryptic fingerprint with high confidence. This predicted JHE sequence includes features that are conserved among all active members of the serine carboxylesterase multigene family as well as features peculiar to JHEs from other species. Also we show that this JHE can be purified by an alternative method using anion exchange chromotography followed by trifluoromethylketone affinity chromatography. A cDNA encoding this JHE was isolated using 3' and 5' RACE. This sequence is in agreement with the Drosophila genome project's prediction except that the sixth predicted intron is not removed; instead there is a stop codon followed by a polyadenylation signal and a polyA tail.
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PMID:Identification of a juvenile hormone esterase gene by matching its peptide mass fingerprint with a sequence from the Drosophila genome project. 1126 90

The classical laboratory tests for exposure to organophosphorus toxicants (OP) are inhibition of acetylcholinesterase (AChE) and butyrylcholinesterase (BChE) activity in blood. In a search for new biomarkers of OP exposure, we treated mice with a biotinylated organophosphorus agent, FP-biotin. The biotinylated proteins in muscle were purified by binding to avidin-Sepharose, separated by gel electrophoresis, digested with trypsin, and identified from their fragmentation patterns on a quadrupole time-of-flight mass spectrometer. Albumin and ES1 carboxylesterase (EC 3.1.1.1) were found to be major targets of FP-biotin. These FP-biotinylated proteins were also identified in mouse plasma by comparing band patterns on nondenaturing gels stained for albumin and carboxylesterase activity, with band patterns on blots hybridized with Streptavidin Alexa-680. Two additional FP-biotin targets, AChE (EC 3.1.1.7) and BChE (EC 3.1.1.8), were identified in mouse plasma by finding that enzyme activity was inhibited 50-80%. Mouse plasma contained eight additional FP-biotinylated bands whose identity has not yet been determined. In vitro experiments with human plasma showed that chlorpyrifos oxon, echothiophate, malaoxon, paraoxon, methyl paraoxon, diazoxon, diisopropylfluorophosphate, and dichlorvos competed with FP-biotin for binding to human albumin. Though experiments with purified albumin have previously shown that albumin covalently binds OP, this is the first report of OP binding to albumin in a living animal. Carboxylesterase is not a biomarker in man because humans have no carboxylesterase in blood. It is concluded that OP bound to albumin could serve as a new biomarker of OP exposure in man.
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PMID:Albumin, a new biomarker of organophosphorus toxicant exposure, identified by mass spectrometry. 1552 94

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