Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.1.4 (deaminase)
 5,113 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Protein C is a vitamin K-dependent protein, which exists in bovine plasma as a precursor of a serine protease. In this study, protein C was isolated to homogeneity from human plasma by barium citrate adsorption and elution, ammonium sulfate fractionation, DEAE-Sephadex chromatography, dextran sulfate agarose chromatography, and preparative polyacrylamide gel electrophoresis. Human protein C (M(r) = 62,000) contains 23% carbohydrate and is composed of a light chain (M(r) = 21,000) and a heavy chain (M(r) = 41,000) held together by a disulfide bond(s). The light chain has an amino-terminal sequence of Ala-Asn-Ser-Phe-Leu- and the heavy chain has an aminoterminal sequence of Asp-Pro-Glu-Asp-Gln. The residues that are identical to bovine protein C are underlined. Incubation of human protein C with human alpha-thrombin at an enzyme to substrate weight ratio of 1:50 resulted in the formation of activated protein C, an enzyme with serine amidase activity. In the activation reaction, the apparent molecular weight of the heavy chain decreased from 41,000 to 40,000 as determined by gel electrophoresis in the presence of sodium dodecyl sulfate. No apparent change in the molecular weight of the light chain was observed in the activation process. The heavy chain of human activated protein C also contains the active-site serine residue as evidenced by its ability to react with radiolabeled diisopropyl fluorophosphate. Human activated protein C markedly prolongs the kaolin-cephalin clotting time of human plasma, but not that of bovine plasma. The amidolytic and anticoagulant activities of human activated protein C were completely obviated by prior incubation of the enzyme with diisopropyl fluorophosphate. These results indicate that human protein C, like its bovine counterpart, exists in plasma as a zymogen and is converted to a serine protease by limited proteolysis with attendant anticoagulant activity.
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PMID:Human plasma protein C: isolation, characterization, and mechanism of activation by alpha-thrombin. 46 91

Inhibition of the esterase and amidase activities of bovine alpha- and beta-thrombin in the presence of antithrombin III and heparin has been studied. It was found that both the esterase and amidase activities of alpha-thrombin were inhibited by antithrombin III and the reactions were accelerated by heparin. The inhibition of amidase and esterase activities of beta-thrombin by antithrombin III has also been demonstrated. Heparin however did not increase the rate of inactivation of the enzyme.
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PMID:Inhibition of esterase and amidase activities of alpha- and beta-thrombin in the presence of antithrombin III and heparin. 57 Apr 23

The syntheses are described of p-guanidino-L-phenylalanine and some of its derivatives. alpha-N-(p-Toluenesulphonyl)-p-guanidino-L-phenylalanine methyl ester is an excellent substrate of bovine trypsin (EC 3.4.21.4) (Km 57 micron; kcat. 320s-1 at pH 7.4-8.0) and a very poor substrate of human thrombin (EC 3.4.21.5) (Km 190 micron, kcat. 0.2s-1) and bovine chymotrypsin (EC 3.4.21.1). The ester inhibits thrombin clotting activity. It also inhibits the amidase and esterase activities of human thrombin, this inhibition being of the mixed type. The inhibition constant, K1, of the order of 1 micron, increases with increasing inhibitor concentration. This suggests that the enzyme binds the inhibitor at multiple sites. The importance of the residue at the P1 position [notation of Berger & Schechter (1970) Philos. Trans. R. Soc. London Ser. B 257, 249-264] in determining the selectivity of a substrate or quasi-substrate among trypsin-like enzymes is borne out. p-Guanidino-L-phenylalanine may have a use in the synthesis of selective peptide inhibitors of thrombin.
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PMID:The interaction of alpha-N-(p-toluenesulphonyl)-p-guanidino-L-phenylalanine methyl ester with thrombin and trypsin. 62 42

The amidase activity of human gamma-thrombin has been studied in the pH range 6-10 as a function of NaCl concentration and temperature. As recently found for human alpha-thrombin [Di Cera, E., De Cristofaro, R., Albright, D.J., & Fenton, J.W., II (1991) Biochemistry 30, 7913-7924], the Michaelis-Menten constant, Km, shows a bell-shaped dependence over this pH range with a minimum around pH 7.9 in the presence of 0.1 M NaCl at 25 degrees C. The catalytic constant, kcat, has a bell-shaped pH dependence with a maximum around pH 8.6. A thermodynamic analysis of these parameters has enabled a characterization of the linkage between proton and substrate binding, its dependence on NaCl concentration, and the relevant entropic and enthalpic contributions to binding and catalytic events. Three groups seem to be responsible for the control of gamma-thrombin amidase activity as a function of pH. One of these groups has pK values that are significantly different from those found for alpha-thrombin, and all groups show slightly perturbed enthalpies of ionization. The dependence of gamma-thrombin amidase activity on NaCl concentration is different from that of alpha-thrombin. Increasing NaCl concentration always decreases the substrate affinity for the enzyme in the case of alpha-thrombin, regardless of pH. In the case of gamma-thrombin, such an effect is observed only in the pH range 7.5-9, and a reversed linkage is observed at pH less than 7 and greater than 9.5.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Linkage between proton binding and amidase activity in human gamma-thrombin. 131 Apr 21

Some biological and neurochemical properties of the venom of stonefish (Syanceja horrida) were investigated. The venom exhibited oedema-inducing, haemolytic, hyaluronidase, thrombin-like, alkaline phosphomonoesterase, 5' nucleotidase, acetylcholinesterase, phosphodiesterase, arginine esterase, and arginine amidase activities. Recalcification clotting time, prothrombin, and kaolin-cephalin clotting times were increased 1.7-2.3- and 2.4-fold respectively. The LD50 (i.v. mouse) was 300 micrograms/Kg. Its effects on uptake and stimulation of neurotransmitter synthesis and release were observed in rat brain synaptosomes. In the presence of 100 micrograms venom, uptake of [methyl-3H] choline in rat brain synaptosomes was inhibited 70%, while that of 4-amino-n-[U-14C] butyric acid was inhibited 20%. The toxin also stimulated the release of [3H]-acetylcholine from the synaptosomes.
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PMID:Biological activities of Synanceja horrida (stonefish) venom. 136 68

alpha-N-acetyl-L-lysine methyl ester (NALME) is a lysine analogue that reportedly binds to low-affinity lysine binding sites in plasmin(ogen) and miniplasmin(ogen). In the studies presented here, we show that NALME has antifibrinolytic activity; however, unlike the therapeutic agents epsilon-amino-n-caproic acid (epsilon ACA) and tranexamic acid (TEA), the activity of NALME is based on inhibition of the plasmin active site. NALME (0.1-10 mM) significantly inhibited the amidase activity of plasmin, miniplasmin, and streptokinase-plasmin complex without affecting alpha-thrombin or tissue plasminogen activator. epsilon ACA and TEA (0.1-10 mM) did not affect the amidase activity of plasmin or miniplasmin. A kinetic analysis showed that NALME is a competitive inhibitor of D-Val-L-Lys-p-nitroanilide HCl (S-2251) hydrolysis by plasmin; NALME binding to plasmin completely prevented S-2251 binding. The Kl for the plasmin-NALME interaction was 0.4 mM. epsilon ACA and TEA inhibited fibrin monomer digestion by plasmin and miniplasmin without binding to the active site of either enzyme. This result suggests that epsilon ACA and TEA function as antifibrinolytics by disrupting the noncovalent association of fibrin monomer with a domain common to both plasmin and miniplasmin (probably kringle 5). NALME inhibited fibrin monomer digestion principally by decreasing amidase activity. NALME was the only lysine analogue that prevented fragment X formation; TEA and epsilon ACA primarily inhibited the formation of fragments Y and D. When plasmin was incubated simultaneously with alpha 2-antiplasmin and alpha 2-macroglobulin, epsilon ACA increased the fraction of plasmin reacting with alpha 2-macroglobulin; NALME had no effect on the plasmin distribution.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Antifibrinolytic activities of alpha-N-acetyl-L-lysine methyl ester, epsilon-aminocaproic acid, and tranexamic acid. Importance of kringle interactions and active site inhibition. 137 8

The amidase activity of human alpha-thrombin has been studied at steady state as a function of the concentration of several chloride salts, at a constant ionic strength I = 0.2 M. All kinetic steps of the catalytic mechanism of the enzyme have been solved by studies conducted as a function of relative viscosity of the solution. Among all monovalent cations, Na+ is the most effective in activating thrombin catalysis. This effect is observed with different amide substrates and also with gamma-thrombin, a proteolytic derivative of the native enzyme which has little clotting activity but retains amidase activity toward small synthetic substrates. The specific effects observed as a function of Na+ concentration are indicative of a binding interaction of this monovalent cation with the enzyme. The basis of this interaction has been explored by measurements of substrate hydrolysis collected in a three-dimensional matrix of substrate concentration, relative viscosity, and Na+ concentration, keeping the ionic strength constant with an inert cation such as choline or tetraethylammonium. The data have globally been analyzed in terms of a kinetic linkage scheme where Na+ plays the role of an allosteric effector. The properties of the enzyme change drastically upon binding of Na+, with substrate binding and dissociation, as well as deacylation, occurring on a time scale which is 1 order of magnitude faster. The apparent association constants for Na+ binding to the various intermediate forms of the enzyme have all been resolved from analysis of experimental data and are in the range of 50-100 M-1 at 25 degrees C. Studies conducted at different temperatures, in the range 15-35 degrees C, have revealed the enthalpic and entropic components of Na+ binding to the enzyme. The results obtained from steady-state measurements are supported by independent measurements of the intrinsic fluorescence of the enzyme as a function of Na+ concentration at a constant ionic strength I = 0.2 M, over the temperature range 15-35 degrees C. These measurements are indicative of a drastic conformational change of the enzyme upon Na+ binding to a single site. The energetics of Na+ binding derived from analysis of fluorescence measurements agree very well with those derived independently from steady-state determinations. It is proposed that thrombin exists in two conformations, slow and fast, and that the slow-->fast transition is triggered by binding of a monovalent cation. The high specificity in thrombin activation found in the case of Na+ is the result of its higher affinity compared to all other monovalent cations.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Thrombin is a Na(+)-activated enzyme. 144 7

Kinetic studies of the inhibition of thrombin amidase activity by recombinant hirudin have been conducted as a function of salt concentration in the range 0.05 to 1 M, using NaCl, KCl, NaBr and KBr. At the same ionic strength, the value of KI for thrombin-hirudin interaction is found to be different with different salts. The slope d ln KI/d ln a+/-, where a+/- is the mean ion activity, is constant in the range 0.05 to 0.5 M, is sensitive to the particular salt present in solution and is equal to 1.07 +/- 0.09 (NaCl), 0.92 +/- 0.10 (KCl), 1.37 +/- 0.10 (NaBr) and 0.56 +/- 0.10 (KBr). These results indicate that specific ion effects are involved in the modulation of thrombin-hirudin interaction in the form of ion release, as recently found in the case of thrombin interaction with its natural substrate fibrinogen. The linkage hierarchy for ion release found in the case of thrombin-fibrinogen interaction also applies in the case of thrombin-hirudin interaction, with the number of released ions decreasing in the order NaBr greater than NaCl greater than KCl greater than KBr. It is proposed that the process of bridge-binding to the fibrinogen recognition site and the catalytic pocket of the enzyme, as seen in the case of fibrinogen and hirudin, is linked to ion release and controlled by modulation of the association rate constant.
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PMID:Modulation of thrombin-hirudin interaction by specific ion effects. 161 55

A model-independent (phenomenological) characterization of the clotting curve is proposed. Three parameters are used to encapsulate the main features of the increase in absorbance observed at 350 nm due to the reaction of thrombin with fibrinogen that leads to clot formation: (1) the maximum increase in absorbance per unit time, delta Am, at the inflection point of the clotting curve; (2) the time needed to reach the maximum increase in absorbance, tm; and (3) the clotting time, tc, obtained from extrapolation of the slope at tm to the zero absorbance baseline. Clotting curves at low fibrinogen concentrations (0.125 divided by 0.250 microM), well below the Km, where thrombin amidase activity is rate-limiting with respect to the subsequent aggregation process, have been measured under a wide variety of experimental conditions, (i.e., as a function of thrombin concentration, pH and temperature) in order to explore the basic response of each parameter to changes in solution conditions. Under all conditions examined in this study we have observed that tm and tc are linked through a linear relationship that appears to be an important invariant property of the clotting curve, regardless of experimental conditions. No such clear relationship exists between delta Am and tc, with tc being associated with several possible values of delta Am and vice versa, depending upon solution conditions. It is proposed that tc is strictly dependent on thrombin amidase activity, while delta Am reflects properties of the aggregation process leading to clot formation. The clotting time shows a pH and temperature dependence that closely resembles that of Km/Vm for synthetic amide substrates. Furthermore, tc changes linearly with either the inverse thrombin concentration and the concentration of competitive inhibitors of fibrinogen binding to thrombin, as expected for the ratio Km/Vm. We show how the analysis of clotting curves obtained at different thrombin and inhibitor concentrations yields a quantitative measure of KI that is in excellent agreement with the value determined independently from steady-state measurements of thrombin amidase activity.
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PMID:Phenomenological analysis of the clotting curve. 179 5

The amidase activity of human alpha-thrombin has been studied at steady state in the pH range 6-10, as a function of NaCl concentration from 1 mM to 1 M and temperature from 10 to 40 degrees C. The Michaelis-Menten constant, Km, shows a bell-shaped dependence over this pH range with a minimum around pH 7.5 in the presence of 0.1 M NaCl at 25 degrees C. The catalytic constant, kcat, also has a bell-shaped pH dependence with multiple inflection points that are more evident at low NaCl concentrations and a maximum around pH 8.2 in the presence of 0.1 M NaCl at 25 degrees C. A detailed analysis of the results in terms of a general linkage scheme has allowed a thorough characterization of the linkage between proton and substrate binding and its dependence on NaCl concentration, as well as the relevant entropic and enthalpic contributions to binding and catalytic events. Formulation of detailed partition functions for each enzyme intermediate involved in the catalytic cycle suggests that (at least) three groups are responsible for the control of thrombin amidase activity as a function of pH. One group is to be identified with the active site His, due to its pK values in the free enzyme and the adduct and its enthalpy of ionization. The effect of NaCl concentration on amidase activity seems to be extremely specific. Comparative steady-state measurements carried out in the presence of NaCl, NaBr, NaI, KCl, and MgCl2 show that human alpha-thrombin is capable of discriminating among different cations and anions. This suggests that small ions participate as allosteric effectors in the regulation of thrombin activity. The linkage with NaCl is strongly pH dependent and increases with decreasing pH. The present results provide information on the basic aspects of human alpha-thrombin activity and regulation and enable a rigorous thermodynamic approach to other important regulatory interactions in human alpha-thrombin and its structurally perturbed derivatives.
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PMID:Linkage between proton binding and amidase activity in human alpha-thrombin: effect of ions and temperature. 186 67


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