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. Guanylate cyclase of washed particles and plasma membranes showed S-shaped progress curves when titrated with either GTP or Mn2+ ions; similar results were obtained with Triton X-100-solubilized enzyme preparation from washed particles. Hill plots of these data revealed multiple metal-nucleotide and free-metal binding sites. 2. Guanylate cyclase of supernatant fractions displayed typical Michaelis-Menten properties when enzyme required excess of (free) Mn2+ (over GTP) for maximal activities; Ka (free Mn2+) was about 0.15-0.25 mM at subsaturating concentrations of GTP. 4 MnATP, MnADP, and MnGDP were found to increase the activities of both particulate and superantant enzyme, when MnGTP concentration was below saturation and free Mn2+ ion concentration was low (less than 100 muM); MnATP (50muM-1 mM) inhibited both these activities at high free Mn2+ concentration (1.5 mM) and inhibition of the particulate enzyme was greater than that of supernatant enzyme. 5. Ca2+ ions stimulated supernatant-enzyme activity; the stimulatory concentration of Ca2+ ions depended on the concentration of Mn2+ and GTP. 6. A modest stimulation of particulate guanylate cyclase by pyrophosphate (0.02-1 mM) was observed; the pyrophosphate effect appeared to be competitive with respect to GTP. At a higher concentration (2 mM), pyrophosphate produced a marked inhibition of particulate enzyme; the nature of inhibitory effect appeared complex. 7. Inorganic salts (e.g. NaCl, KCl, LiBr, NaF) produced inhibition of particulate enzyme; the degree of inhibition of Triton X-100-stimulated activity was less than that of unstimulated activity. 9. Treatment of sarcolemmal or microsomal membranes with either phospholipase C or trypsin decreased, whereas phospholipase A increased, the activity of guanylate cyclase.
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PMID:Properties of particulate, membrane-associated and soluble guanylate cyclase from cardiac muscle, skeletal muscle, cerebral cortex and liver. 1 Aug 91

Crude preparations of secretin or pancreozymin increased and at higher concentrations decreased guanylate cyclase (GTP pyophosphate-lyase, EC 4.6.1.2) activity from soluble and particulate fractions of rat liver homogenates. Partially purified and synthetic secretin were without effect as was the biologically active octapeptide fragment of pancreozymin. The active contaminants in these preparations survived boiling, saponification, and treatment with phospholipase A, trypsin and neuraminidase C. The activity was extractable with chloroform/methanol and did not survive ashing. Eight bile salt contaminants in crude secretin were obtained with thin-layer chromatography. Two of the contaminating bile salts that increased liver particulate guanylate cyclase activity were identified as taurodeoxycholate and either glycochenodeoxycholate or glycodeoxycholate; taurocholate was inhibitory. The sodium salts of cholate, deoxycholate, chenodeoxycholate and their glycine-or taurine-conjugated forms either increased or decreased particulate and soluble rat liver guanylate cyclase activity depending upon their concentration. Thus, the previously reported stimulatory and inhibitory effects of secretin and pancreozymin preparations on guanylate cyclase activity are probable attributable to their bile salt contaminants.
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PMID:Activation of liver guanylate cyclase by bile salts and contaminants in crude secretin and pancreozymin preparations. 1 19

Guanylate cyclase activity (GTP pyrophosphate-lyase (cyclizing), EC 4.6.1.2.), measured in purified rat liver plasma membranes, was markedly increased by treatment with various purified proteases. The effect was maximal with trypsin, alpha-chymotrypsin, papain, and thermolysin (6- to 8-fold increase with 5 to 20 microgram of protease/ml) and lower with subtilisin and elastase (3- to 4-fold increase). The activation was due to an increase in the maximal velocity of the cyclizing reaction. No modification was observed either in the apparent affinity for the substrate MnGTP or in the cooperative behavior of the enzyme kinetics which displayed Hill coefficients of 1.6 for both basal and activated states. The Triton X-100-dispersed guanylate cyclase remained sensitive to papain, which suggests that the action of proteases was not restricted to an indirect action upon the membranous environment of the guanylate cyclase. In contrast, the cytosolic soluble guanylate cyclase, assayed in the presence or absence of sodium azide, was absolutely insensitive to papain. Thus, proteolysis represents a previously undescribed mechanism for activating membranous guanylate cyclase systems, which might be of importance in the physiological regulation of this enzyme.
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PMID:Activation of rat liver guanylate cyclase by proteolysis. 3 29

1. The cell-membrane ATP phosphohydrolase of vegetatively grown Clostridium pasteurianum was specifically Mg2+-dependent, but demonstrated significant activity with GTP, CTP and UTP. It displayed approximate Michaelis-Menten kinetics only in the presence of certain effectors (e.g. phosphoenolpyruvate, fructose 1,6-bis-phosphate) which decreased the Km for ATP (to below 2 mM) but also V, whilst extending to pH 5.8 the effective pH range of activity of the enzyme. 2. ATP phosphohydrolase activity of the membrane ATPase (BF0F1) was inhibited by N,N'-dicyclohexylcarbodiimide, butyricin 7423, Dio-9, 4-chloro-7-nitrobenzofurazan, efrapeptin, leucinostatin and quercetin, and to a lesser degree by aurovertin and citreoviridin. The enzyme was not inhibited by oligomycin, spegazzinine, tributyl tin, triethyl tin or venturicidin. The soluble ATPase (BF1) component differed in not being inhibited by N,N'-dicyclohexylcarbodiimide, butyricin 7423 or leucinostatin. 3. The ATPase (BF0F1) complex and its soluble (BF1) component were separately purified. 4. Dodecylsulphate/polyacrylamide gel electrophoresis separated only four polypeptide components in the purified ATPase (BF0F1), with approximate molecular weights (+/- 10%) as follows: subunit a, 65 500; subunit c, 57 500; subunit da, 43 000; subunit fa, 15 000. The soluble (BF1 component contained only the three polypeptide subunits a, c and da. These were present in the BF0F1 preparation in the ratio 2 : 1 : 2; the contribution of subunit fa could not satisfactorily be quantified. 5. Subunit a was identified as the component binding 4-chloro-7-nitrobenzofurazan and subunit fa as the component binding N,N'-dicyclohexylcarbodiimide. The ATP phosphohydrolase activity of the membrane ATPase was not activated by trypsin treatment and the ATPase (BF0F1) contained no trypsin-sensitive inhibitor protein subunit. 6. Purified ATPase (BF0F1) was incorporated into artificial proteoliposomes which demonstrated ATP-dependent enhancement of 8-anilinonaphthalene-1-sulphonate fluorescence and ATP-dependent proton influx. These reactions were abolished by proton conductors (e.g. carbonylcyanide m-chlorophenylhydrazone) by valinomycin in the presence of a high external concentration of K+, or by N,N'-dicyclohexylcarbodiimide, butyricin 7423, Dio-9, 4-chloro-7-nitrobenzofurazan or leucinostatin. Oligomycin, tributyl tin, triethyl tin and venturicidin were not inhibitory. 7. When stripped of the soluble BF1 component, such ATPase-proteoliposomes demonstrated nil ATP phosphohydrolase activity and did not display ATP-dependent enhancement of 8-anilino-naphthalene-1-sulphonate fluorescence or ATP-dependent protein influx. All of these activities were restored by incubation of the BF1-depleted proteoliposomes with a purified preparation of the soluble BF1 component.
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PMID:The proton-translocating adenosine triphosphatase of the obligately anaerobic bacterium Clostridium pasteurianum. 1. ATP phosphohydrolase activity. 3 58

Brain microtubules are found to disperse rods of skeletal muscle myosin and become decorated with amorphous aggregates of myosin. Then microtubules are partially depolymerized by myosin. Myosin shows high Mg2+-GTPase activity which is not influenced by microtubules, and induces the partial depolymerization of microtubules by exhaustion of GTP in the solution. H-meromyosin depolymerizes microtubules like myosin does. H-meromyosin is, however, contaminated with a trace amount of trypsin, which irreversibly depolymerizes microtubules.
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PMID:Depolymerization of brain microtubules by skeletal muscle myosin. 15 54

Stereospecific high-affinity binding sites for beta h-[3H]endorphin could be demonstrated in the P2 pellet of rat brain homogenate. Scatchard analysis of the binding data revealed binding sites with Kd values of 0.81 and 6.8 nM and density of 120 and 240 fmol/mg of protein. Distribution of beta h-[3H]endorphin binding in various brain regions parallels that of opiate receptor:striatum greater than thalamus greater than amygdala greater than hypothalamus, septum greater than cortex greater than midbrain, brainstem. Similar to their effect on 3H-labeled agonist binding, Na+ and other monovalent cations, GTP, trypsin, chymotrypsin, phospholipase A2, and N-ethylmaleimide all inhibited the specific binding of beta h-[3H]endorphin. In contrast to their action on alkaloid and enkephalin binding, Ca2+, Mg2+, and Mn2+ also inhibited beta h-[3H]endorphin binding. These data suggest a difference between beta h-endorphin and alkaloid/enkephalin binding sites.
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PMID:Properties and localization of beta-endorphin receptor in rat brain. 23 Apr 77

1. It is shown by limited tryptic digestion of beef liver glutamate dehydrogenase under native conditions that the amino terminus of the polypeptide chain is located at the surface of the molecule. End-group analysis after trypsin treatment yields aspartic acid as the new N-terminal amino acid while the C-terminal threonine remains unchanged. 2. NADH, especially in the presence of 2-oxoglutarate, protects the enzyme against tryptic degradation. In the absence of the coenzyme, glutamate dehydrogenase is rapidly inactivated. 3. The regulatory effects of ADP and GTP are only slightly altered by trypsin. A small shift of the pH dependence of the activation by ADP is observed. 4. The quaternary structure of the unimer of the enzyme is not affected by limited tryptic digestion indicating that the N-terminal part of the polypeptide chain is not located in the contact domains between the polypeptide chains. The association of the hexamer to large associated particles is reduced but not abolished. 5. It is shown by treatment of the enzyme with iodo[2(-14)C]acetic acid as well as with Ellman's reagent that the six - SH groups of the polypeptide chain are buried and not accessible to these reagents in phosphate buffer. In Tris buffer they become exposed and react in the order 89, 55, 197, 115, 270, 319. This together with the result that in Tris buffer the rat of inactivation caused by trypsin is higher than in phosphate buffer indicates that Tris buffer changes drastically the properties of the enzyme. 6. Cross-linking of the enzyme molecule with bifunctional reagents and subsequent dodecylsulfate-polyacrylamide electrophoresis shows that the six identical polypeptide chains are arranged in two groups of three. 7. The implications of these results for the tertiary and quaternary structure of beef liver glutamate dehydrogenase are discussed.
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PMID:Studies of glutamate dehydrogenase: analysis of functional areas and functional groups. 24 Jun 78

Phosphoenolpyruvate carboxylase from Escherichia coli W was treated with ten proteases, and the effects of the treatments on the enzyme activity and sensitivity to effectors were investigated. Proteases such as trypsin, alpha-chymotrypsin, papain, and subtilisin inactivated the enzyme, whereas elastase, carboxypeptidase Y and leucine aminopeptidase had no effect on the enzyme activity. Elastase and carboxypeptidase Y, however, inactivated the enzyme in the presence of 1 m urea. Subtilisin and alpha-chymotrypsin caused not only inactivation of the enzyme but also a significant desensitization to the effectors. DL-Phospholactate, a potent competitive inhibitor, markedly protected the enzyme from inactivation by subtilisin but did not protect it from desensitization to the effectors. Acetyl-CoA, fructose 1, 6-bisphosphate, and GTP-the allosteric activators--protected the enzyme from subtilisin inactivation, while laurate, the other allosteric activator, accelerated the inactivation. These activators did not protect the enzyme from desensitization to themselves. In contrast, modification with subtilisin in the present of l-aspartate, the allosteric inhibitor, caused an apparent transient activation of the enzyme. The enzyme modified in the presence of L-aspartate retained its sensitivity to L-aspartate, but the sensitivities to the other effectors were reduced to about one-half their initial values. Based on these results, a possible mode of desensitization of the enzyme by subtilisin modification and the possible existence of a multiplicity of conformational states of the enzyme, induced upon binding with the various effectors, are discussed.
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PMID:Phosphoenolpyruvate carboxylase of Escherichia coli. Effect of proteolytic modification on the catalytic and regulatory propties. 38 5

GTP and hormones activate, synergistically, adenylate cyclase in purified plasma membranes from rat adipocytes. Addition of chelating reagents (EDTA or ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid) or thiol-reducing reagents (dithiothreitol or 2-mercaptoethanol) results in marked inhibition of enzyme activity without altering the synergistic stimulatory effects of GTP and hormones. The inhibitory effects of the reagents required the presence of GTP, indicating that inhibition involves a GTP-dependent process. This process is separate from the GTP-dependent process responsible for activation of the enzyme since it is selectively abolished by pretreatment of fat cell membranes with trypsin. It is suggested that inhibition and activation of fat cell adenylate cyclase by GTP occur through distinct regulatory processes.
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PMID:GTP stimulates and inhibits adenylate cyclase in fat cell membranes through distinct regulatory processes. 41 Aug 10

Basal adenylate cyclase activity in rat lung homogenate was low prenatally but increased several-fold after birth and remained elevated to maturity. The results also demonstrate the appearance of some factor(s) in the lung cytoplasm at a certain age which markedly activated adenylate cyclase. During late gestation and early neonatal life, when the cytoplasmic factor(s) was low or absent, basal adenylate cyclase activity was low and norepinephrine and NaF produced maximum activation of the enzyme. However, when the cytoplasmic factor(s) appeared in the adult lungs, basal adenylate cyclase activity was elevated and both norepinephrine and NaF produced little or no activation of the enzyme. These data suggest a role for the cytoplasmic factor(s) in regulating rat lung adenylate cyclase. The cytoplasmic factor(s) appeared to be a protein since it was inactivated by trypsin digestion and by heating to 75 degrees C. Activation of adenylate cyclase was not due to small ions or other low molecular weight components of the cytoplasm as dialysis of the supernatant did not alter its activation of adenylate cyclase. The cytoplasmic factor(s) did not appear to be either GTP or calcium-dependent regulator of cyclic AMP phosphodiesterase as these did not activate the rat lung adenylate cyclase.
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PMID:Regulation of rat lung adenylate cyclase by cytoplasmic factor(s) during development. 44 79

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