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)

1. The reactivities of phenylglyoxal (PGO), glyoxal (GO), and/or methylglyoxal (MGO) with several proteins, including ribonuclease A [EC 3.1.4.22] and its derivatives, alpha-chymotrypsin [EC 3.4.21.1], trypsin [EC 3.4.21.4], lysozyme [EC 3.2.1.17], pepsin [EC 3.4.23.1], rennin [EC 3.4.23.4], thermolysin, and insulin and its B chain, have been examined. From analyses of the reaction products, PGO was shown to be the most specific for arginine residues. GO and MGO also reacted rapidly with arginine residues, but they also reacted with lysine residues to a significant extent. A side reaction with N-terminal alpha-amino groups was observed with each of these reagents. 2. Two arginine residues out of four in ribonuclease A, two out of three in alpha-chymotrypsin, one out of two in trypsin, one out of two in pepsin, and one out of five in rennin appeared to react with PGO fairly rapidly, indicating a difference in the relative accessibility of these residues by the reagent. Extensive modification of the arginine residues by PGO occurred with RCM-derivatives of ribonuclease A and insulin B chain. The N-terminal isoleucine residues of alpha-chymotrypsin and trypsin appeared to be unreactive with PGO because of salt bridge formation with an aspartyl residue. The activity of alpha-chymotrypsin toward N-benzoyl-L-tyrosine ethyl ester and the lytic activity of lysozyme were lost rapidly on treatment with PGO, as in the case of ribonuclease A. Pepsin and rennin were only partially inactivated by reaction with PGO.
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PMID:Further studies on the reactions of phenylglyoxal and related reagents with proteins. 32 41

Cell extracts of culture forms of Trypanosoma cruzi are capable of hydrolysing substances belonging to 4 different groups of protease substrates: (a) substrates for trypsin-like enzymes: benzoyl-arginine-p-nitroanilide and benzoylarginine-naphtylamide; (b) substrates for aminopeptidases: leucyl, lysl and glutamyl-beta-naphtylamide; (c) a substrate fochymotrypsin-like enzymes: carbobenzoxy-L-tyrosine-p-nitorphenylester, and (d) a nonspecific substrate for a broad range of proteases: azocasein. Some physico-chemical characteristics of each enzymic reaction were studied. They were found to be distint enought to allow attributing each hydrolytic activity to a separate enzyme.
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PMID:Proteolytic activites in cell extracts of Trypanosoma cruzi. 34 Jun 78

Both low- and high-molecular-weight inhibitors of serine proteases were found to inhibit chemotaxis by human polymorphonuclear leukocytes totally at widely varying concentrations. Synthetic low-molecular-weight substrates with trypsin-like or chymotrypsin-like specificity were also shown to be potent inhibitors of chemotaxis. Chemotactic inhibition was reversible except with a titrant for the active site of a serine protease. N-acetyl-L-tyrosine ethyl ester was found to be a suitable substrate for measuring protease activity of polymorphonuclear leukocyte. Concentrations of the various protease inhibitors that caused 100% chemotactic inhibition caused 80%-100% inhibition of protease activity of polymorphonuclear leukocytes.
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PMID:The effect of some protease substrates and inhibitors on chemotaxis and protease activity of human polymorphonuclear leukocytes. 39 41

Potassium thiocyanate inhibited the activities of trypsin and chymotrypsin. The inhibition was mixed type on both enzymes with casein as substrate and on trypsin with tosyl-L-arginine methyl ester as substrate, but was uncompetitive on chymotrypsin with benzoyl-L-tyrosine p-nitroanilide as substrate.
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PMID:Modes of inhibition of activities of trypsin and chymotrypsin by potassium thiocyanate. 51 Feb 80

Properties of carboxypeptidase A of cultured skin fibroblasts from control and cystic fibrosis patients were studied using alpha-N-carbobenzoxy-L-glutamyl-L-tyrosine as substrate. Carboxypeptidase A was inhibited by thiomersal, cyanide, iodoacetate and N-ethylmaleimide in a similar manner for control and cystic fibrosis fibroblasts. Both trypsin and dithiothreitol treatment activated the enzyme, but 1,10-phenanthroline inhibited only in the presence of dithiothreitol. Both Zn2+ and Co2+ reversed this inhibition. Trypsin treatment of carboxypeptidase A produced a form of the enzyme having a higher KM value for both control and cystic fibrosis fibroblasts. Dithiothreitol treatment of control fibroblasts resulted in a form with similar properties to the trypsin activated form, but cystic fibrosis fibroblasts yielded a variant form with even higher KM and Vmax values. Since other properties were similar, it seems likely that this difference reflected binding of a molecule to the enzyme rather than of a defect in the enzyme.
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PMID:Carboxypeptidase A activity of cultured skin fibroblasts and relationship to cystic fibrosis. 66 47

Two porcine pancreatic zymogens can be separated by free electrophoresis on a sucrose gradient. After activation by trypsin, both enzymes can hydrolyze completely the fibrous protein elastin. One of the two proteins, proelastase B, has, in addition, an esterolytic activity towards N-acetyl-L-tyrosine ethyl ester. The other, proelastase A, does not possess it. The activation products of the zymogens have been tagged with radioactive diisopropylfluro-phosphonate and separated by polacrylamide-gel electrophoresis. Proelastase A gives only one active species, pancreatopeptidase E, but three distinct proteins can be obtained from proelastase B. Elastases A and B exhibit an important synergism when acting together upon a purified elastin lacking microfibrils. Trypsin has considerably less synergistic activity, and chymotrypsin has practically none.
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PMID:Electrophoretic characterization of porcine pancreatic (pro)elastases A and B. 112 26

Activation of acetylated chymotrypsinogen with trypsin leads to catalytically active acetylated delta-chymotrypsin containing NH2-terminal isoleucine. The importance of the cationic terminus to the control of the active conformation of acetylated delta-chymotrypsin has been demonstrated (Oppenheimer, H. L., Labouesse, B., and Hess, G. P. (1966) J. Biol. Chem. 241, 2720). Later studies appeared to suggest that the modification of isoleucine-16 of delta-chymotrypsin is not accompanied by the loss of catalytic activity as measured by the hydrolysis of N-acetyl-L-tyrosine ethyl ester (Agarwal, S. P., Martin, C. J., Blair, T. T., and Marini, M.A. (1971)Biochem. Biophys. Res. Commun. 43, 510; Blair, T. T., Marini, M. A., Agarwal, S. P., and Martin, C. J. (1971) FEBS Lett. 1486) or by the loss of active site content (Ghelis, C., Garel, J. R., and Labouesse, J. (1970) Biochemistry 9, 3902). In the present studies, controlled acetylation of the terminal alpha-aminogroup of acetylated delta-chymotrypsin with acetic anhydride led to a progressive loss of active sites of the enzyme. Determination of the catalytic and kinetic properties of the modified enzyme with the specific ester substrate N-acetyl-L-tyrosine ethyl ester or the nonspecific substrates p-nitrophenyl acetate and cinnamyol imidazole gave nearly identical results. With N-acetyl-L-tyrosine ethyl ester as substrate, the Km (app) values for acetylated delta-chymotrypsin (1.0 plus or minus 0.1 mM) and the modified enzyme (0.67 plus or minus 0.05 mM) are nearly identical and the kcat value is reduced to about 25% in the latter enzyme species. This value correlates well with about 20% of the active sites in this enzyme as measured by the rapid initial liberation of p-nitrophenol. With p-nitrophenyl acetate as substrate, the acylation rate constants (0.13 plus or minus 0.04 s(-1) at pH 6.0, 25 degrees, in 3.3% acetonitrile) and the deacylation rate constants (0.01 s(-1) at pH 8.5, 25 degrees, in 3.3% acetonitrile) are identical for the acetyl isoleucine-16 and the isoleucine-16 enzymes. Furthermore, the residual enzyme activity could be correlated well with the residual NH2-terminal isoleucine content and with the moles of [1--14C]acetyl groups incorporated per mol of the enzyme. The activity associated with the modified enzyme can be attributed to the enzyme species in which isoleucine-16 of acetylated delta-chymotrypsin is not acetylated. These data are in general agreement with the studies of Ghelis et al. (1970) but are in disagreement with the results of Blair et al. (1971) and of Agarwal et al. (1971) and confirm the hypothesis that the final conformation of acetylated delta-chymotrypsin containing an acetylated NH2 terminus is catalytically inactive and resembles acetylated zymogen in many of its physical properties.
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PMID:Modification of isoleucine-16 acetylated delta-chymotrypsin. 114 Dec 36

1. Specific proteases which inactivate the apo-proteins of many pyridoxal enzymes were found in skeletal muscle, liver and small intestine of rats. The protease from these three organs were purified and their properties were compared. 2. The purified proteases from liver and skeletal muscle appeared homogeneous on acrylamide gel electrophoresis. Two different proteases were separated from small intestine. A homogeneous, crystalline enzyme was obtained from the muscle layer while enzyme from the mucosa was partially purified. 3. They showed substrate specificity for pyridoxal enzymes. Their pH optima were in an alkaline region. They showed activity with the substrate of chymotrypsin, N-acetyl-L-tyrosine ethyl ester, but not with that of trypsin, p-toluenesulfonyl-L-arginine ethyl ester. They were inhibited by pyridoxal phosphate or pyridoxamine phosphate and seryl residues were involved in their active center. 4. The four enzymes differed in the following characters: (a) molecular weights; (b) patterns of elution from a CM-Sephadex column; (c) rates of inactivation of substrate enzymes; (d) rates of cleavage of N-acetyl-L-tyrosine ethyl ester; (e) reactivities with antiserum against the enzyme from the muscle layer of small intestine; (f) specific activities. 5. The amino acid composition and effect of chemical modifications of the crystalline enzyme from the muscle layer of small intestine were examined to elucidate its active sites and mode of action. Serine and histidine residues were found to be essential for protease activity. A tyrosine residue was also necessary for activity. Modifications of its sulfhydryl group, amino residues and carboxyl group had no effect on its activity.
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PMID:Studies on new intracellular proteases in various organs of rat. 1. Purification and comparison of their properties. 116 13

This paper presents a brief overview of the role that the carbohydrate moieties of biologically active glycoproteins play in the stabilization and oriented immobilization of these proteins on solid supports. The synthetic galactosylation of hydrophobic areas or their surroundings on the protein surface improves the structural stability of native proteins against inactivation by the interaction of water with hydrophobic clusters. The lowering of the degree solvation of tyrosine residues in galactosylated trypsin and the model substance N-carbobenzoxy-L-glutamyl-L-tyrosine was proved by Raman spectroscopy. D-Galactose residues can be selectively oxidized, either with periodate or enzymatically, and the aldehyde groups thus formed are used for the immobilization of glycoproteins on solid supports with hydrazide groups under mild conditions.
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PMID:Galactosylation as a tool for the stabilization and immobilization of proteins. 151 16

A number of enzymatic properties of fish pylochymopsin and bull chymopsin have been studied. Hydrolysis of synthetic ethers of N-benzoyl-L-tyrosine and N-benzoyl-L-arginine by these chymopsins depending at the time and concentration of preparations has been studied. It was found that bull chymopsin is the most active one. It was shown that concentrations of 2 to 6 micrograms/ml of bull chymopsin and of 15 to 20 micrograms/ml of fish enzyme were optimal for synthetic substrate BTME hydrolysis. The significant trypsin activity was revealed in the both preparations on a number of synthetic amides. In contrast to the bull chymopsin the treatment of fish pylochymopsin by TPCK did not completely remove the chymotryptic activity of pylochymopsin. It was shown that tryptic activity in the both preparations was completely removed with TLCK. The time and concentration dependence of the autolysis in both chymopsins has been studied. It should be noted that this process is negligible for fish pylochymopsin in contrast to bull chymopsin. Stabilization of both proteases in aqueous solution at room temperature has been studied. Stabilization of the chymopsins in solution is achieved by the addition of various protein preparations including casein and serum albumin. The degree of stabilization by these proteins was achieved at 2% concentration.
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PMID:[Enzymatic activity of chymopsin of various origin]. 151 48

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