Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Sequential treatment of the chicken liver fatty acid synthetase by trypsin and subtilisin cleaved the Mr 267,000 subunit to 6-8 polypeptides, ranging in molecular weights from 15,000 to 94,000. Fractionation of the digest by ammonium sulfate and chromatography on a Procion Red HE3B affinity column permitted the isolation of a polypeptide (Mr = 94,000) containing the beta-ketoacyl reductase activity but no other partial activities normally associated with the synthetase. The specific activity of the beta-ketoacyl reductase increased 2 to 3 times in this fraction, an increase that is within the expected range based on relative molecular weight. The kinetic parameters of this fraction towards NADPH and N-acetyl-S-acetoacetyl cysteamine were essentially the same as the beta-ketoacyl reductase component of the intact synthetase. However, the purified fragment did not catalyze the reduction of acetoacetyl-S-CoA derivative, a substrate that is readily reduced by the intact synthetase. Fluorescence measurements with etheno-NADP+ indicate the binding of about 1 mol of NADP+/94,000 daltons, a value which is in agreement with the results obtained from fluorescence measurements with NADPH and the binding of a radiolabeled photoaffinity analog of NADP+. Phenylglyoxal inhibits the beta-ketoacyl reductase activity of either the intact synthetase or the isolated fragment, suggesting the involvement of an essential arginine at or near the active site. Another fragment (Mr 36,000) containing beta-ketoacyl reductase activity was isolated from the synthetase after kallikrein/subtilisin double digestion. Previous mapping studies had shown that this fragment lies adjacent to the COOH-terminal thioesterase domain and overlaps the tryptic Mr 94,000 peptide by approximately 21 daltons. This fragment, but not the Mr 94,000 fragment, was found to contain the phosphopantetheine prosthetic group, indicating that the acyl carrier protein moiety is located in the 15,000-dalton segment that separates the beta-ketoacyl reductase from the thioesterase domain.
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PMID:The architecture of the animal fatty acid synthetase. III. Isolation and characterization of beta-ketoacyl reductase. 636 Oct 31

The thermophilic enzyme 6-phosphogluconate dehydrogenase (6-phospho-D-gluconate:NADP oxidoreductase, decarboxylating, EC 1.1.1.44) from Bacillus stearothermophilus was much more resistant to inactivation under different conditions of temperature, pH, guanidine-hydrochloride, and organic solvents (dioxane, dimethylformamide, acetone) than its mesophilic counterpart from yeast. In addition, the thermophilic enzyme largely withstands proteolysis with trypsin, chymotrypsin, and elastase when compared with the yeast enzyme. It is proposed that thermophilic enzymes are not only thermostable, but also generally more stable to most common protein denaturants than their mesophilic counterparts. Because of their remarkable stability, enzymes isolated from thermophilic microorganisms may be ideally suited for technological applications.
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PMID:General stability of thermophilic enzymes: studies on 6-phosphogluconate dehydrogenase from Bacillus stearothermophilus and yeast. 638 90

This work was done to discover how those nonphotosynthetic tissues of the Araceae that become thermogenic release, as CO2, carbon recently fixed by phosphoenolpyruvate carboxylase. Extracts of clubs of the spadix of Arum maculatum showed no activity for phosphoenolpyruvate carboxykinase and low activities of NADP malic enzyme. NAD malic enzyme activity in the above extracts and in those of thermogenic tissues of other Araceae was appreciable. Analysis of homogenates of clubs of Typhonium giraldii by differential centrifugation and sucrose gradients showed that NAD malic enzyme was confined to mitochondria. Centrifugation of mitochondria after freezing and thawing left all the NAD malic enzyme in the supernatant. NAD malic enzyme in isolated, intact mitochondria was completely latent, and was completely protected from exogenous trypsin. The responses of this latency and protection to different concentrations of Triton X-100 suggested that none of the NAD malic enzyme was accessible from either the outside or the intermembrane space of the mitochondria. Treatment of excised clubs of A. maculatum with 2-N-butylmalonate largely prevented the development of the rapid respiration responsible for thermogenesis, and severely inhibited dark fixation of 14CO2. The conclusion is that in mature clubs of the Araceae phosphoenolpyruvate is converted to malate in the cytosol by phosphoenolpyruvate carboxylase and NAD malate dehydrogenase, and that this malate then enters the mitochondrial matrix where it is converted to pyruvate by NAD malic enzyme.
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PMID:Role and location of NAD malic enzyme in thermogenic tissues of Araceae. 642 Dec 32

The amino acid sequence of the NADP+-dependent enzyme ovine 6-phosphogluconate dehydrogenase has been determined by conventional direct protein sequence analysis of peptides resulting from digestion of the protein with trypsin and chemical cleavages with cyanogen bromide, hydroxylamine, and iodosobenzoic acid. The polypeptide contains 466 amino acids and its NH2 terminus is acetylated. The Candida utilis enzyme is inactivated by reaction of pyridoxal phosphate with two lysine residues (Minchiotti, L., Ronchi, S., and Rippa, M. (1981) Biochim. Biophys. Acta 657, 232-242). These residues are conserved in the ovine enzyme. In contrast to NAD+ dehydrogenases which have weakly related sequences and spatially related folds in their nucleotide-binding sites, no significant sequence homologies were detected between 6-phosphogluconate dehydrogenase and any of three other NADP+-requiring enzymes, glutamate dehydrogenase, p-hydroxybenzoate hydroxylase, and dihydrofolate reductase. This is in accord with structural data that show no spatial relationship between NADP+-binding sites in these enzymes.
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PMID:Amino acid sequence of ovine 6-phosphogluconate dehydrogenase. 668 25

Rat liver microsomal fraction generates 14CO2 from [1(-14)C]glucose 6-phosphate in the presence of NADP+ and a detergent. The activity is mediated through an enzyme system consisting of hexose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase inherent to the microsomes, with the latter enzyme reaction being a rate-determining step. Both enzymes of the system in microsomes are extremely resistant to trypsin digestion, thereby distinguishing them from the corresponding cytosol enzymes. A stoichiometric relationship was obtained between the generations of NADPH and 14CO2 (2: 1 on a molar basis), indicating that the observed generation of NADPH in microsomes could entirely be accounted for by the action of the enzyme system. A method was devised to measure NADP(H) inside or outside the microsomal vesicles, and it was found that a considerable amount of the cofactor was present within the vesicles. Subfractionation of various intracellular fractions on sucrose density gradients confirmed the close association of NADP(H) with liver microsomes. It is suggested that both enzymes of the system function to generate the reduced form of NADP+ in the luminal space of the endoplasmic reticulum, where NADP(H) and glucose 6-phosphate are available.
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PMID:Hexose-6-phosphate and 6-phosphogluconate dehydrogenases of rat liver microsomes. Involvement in NADPH and carbon dioxide generation in the luminal space of microsomal vesicles. 681 21

Ferredoxin-NADP reductase accounts for about 50% of the NADPH diaphorase activity of spinach leaf homogenates. The enzyme is bound to thylakoid membranes, but can be slowly extracted by aqueous buffers. Ferredoxin-NADP reductase can be extracted from the membranes by a 1- to 2-min treatment with a low concentration of trypsin. This treatment completely inactivates NADP photoreduction but does not affect electron transport from water to ferredoxin. It is shown that the inactivation is due to solubilization of ferredoxin-NADP reductase: the activity can be restored by addition of a very large excess of soluble enzyme in pure form. When ferredoxin-NADP reductase is added as a soluble enzyme after extraction or inactivation (by a specific antibody) of the membrane-bound enzyme, NADP photoreduction requires a very large excess of this enzyme, and the apparent Km for ferredoxin is also increased. These observations are discussed as related to the interactions of thylakoids with ferredoxin-NADP reductase.
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PMID:Interaction of ferredoxin and ferredoxin-NADP reductase with thylakoids. 683 5

The mitochondrial nicotinamide nucleotide transhydrogenase enzyme (EC 1.6.1.1) is inhibited by treatment with dicyclohexylcarbodiimide or diethylpyrocarbonate. Both inhibitions are pseudo first order with respect to incubation time, and both reaction orders with respect to inhibitor concentration are close to unit, indicating that in each case inhibition results from the binding of one inhibitor molecule per active unit of the transhydrogenase enzyme. In the presence of either inhibitor, both the energy-linked and the nonenergy-linked transhydrogenation reactions are inhibited at about the same rate. The water-soluble carbodiimide, N-ethyl-N'-(3-dimethylaminopropyl) carbodiimide, showed no inhibition, however, NAD(H) and reduced or oxidized 3-acetylpyridine adenine dinucleotide protected the enzyme against inhibition by dicyclohexylcarbodiimide, while NADP (but not NADPH) appeared to increase the rate of inhibition. Substrates did not protect the enzyme against inhibition by diethylpyrocarbonate. [14C]dicyclohexylcarbodiimide labeled the transhydrogenase enzyme in submitochondrial particles. Treatment of labeled particles with trypsin resulted in fragmentation of the transhydrogenase enzyme and loss of a labeled polypeptide of Mr = approximately 100,000 as determined by polyacrylamide gel electrophoresis.
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PMID:Inhibition of the mitochondrial nicotinamide nucleotide transhydrogenase by dicyclohexylcarbodiimide and diethylpyrocarbonate. 726 46

Bovine heart submitochondrial particle transhydrogenase is inhibited by cations in a concentration and pH-dependent manner, and non-energy-linked transhydrogenation is inhibited to a greater extent by metals than the energy-linked reaction. The inhibition of the enzyme by Mg2+ is competitive with the NADP substrate and non-competitive with the NAD substrate. Mg2+ stimulates inactivation of the enzyme by 5,5'-dithiobis(2-nitrobenzoic acid), and protects against thermal and proteolytic inactivation. This suggests that Mg2+ binding in the NADP site alters transhydrogenase to a more thermostable conformation, which is less susceptible to attack by trypsin and more reactive with 5,5'-dithiobis(2-nitrobenzoic acid). Other cation inhibitors mimic Mg2+ in these properties. The order of effectiveness of the inhibitors tested is La3+ greater than Mn2+ greater than Ca2+ congruent to Mg2+ greater than Sr2+ greater than Na+ congruent to K+. This order is described by the Irving-Williams order for the stability of metal-ligand complexes, suggesting that carboxylates or amines may comprise the inhibitory cation binding site.
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PMID:The effect of metal ions on mitochondrial pyridine dinucleotide transhydrogenase. 735 84

In crude extract of castor bean endosperm, isocitrate dehydrogenase (NADP+) (EC 1.1.1.42) was stable at 57 degrees C at the beginning of seed germination as well as in maturing and dry seeds. The enzyme gradually became less thermostable as germination proceeded and became unstable after 4 days. Extract from 5-day-old endosperm reduced the thermostability of the thermostable enzyme. The destabilizing factor accumulated in the endosperm as germination progressed and was identified as ricinoleate. Ricinoleate destabilized the purified enzyme which was stabilized by isocitrate and Mg2+, but ricinoleate did not affect the activity of NADP+-isocitrate dehydrogenase itself. Stearate, oleate, palmitate and myristate were similar to ricinoleate in their effect on the thermostability of the enzyme. The thermolabile enzyme in the crude extract of 5-day-old endosperm was readily inactivated by trypsin and in low concentrations of buffer. The thermostable enzyme in the crude extract of 2-day-old endosperm was not affected by these treatments. The thermostable enzyme treated with ricinoleate showed the same instabilities as the thermolabile enzyme. The role of ricinoleate in the germinating castor bean endosperm is discussed.
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PMID:Changes in stability of isocitrate dehydrogenase (NADP+) during germination of castor bean seeds. 739 30

Submitochondrial particles catalyze transhydrogenation from NADPH to [14C]NADP. This transhydrogenation is energy-linked, since its rate increases several-fold when the system is energized by succinate oxidation in the presence of rotenone (inhibitable by antimycin A or uncouplers), or by ATP hydrolysis (inhibitable by rutamycin or uncouplers). As in the case of transhydrogenation reactions from NAD(P)H to 3-ace-tylpyridine adenine dinucleotide phosphate and to thionicotinamide adenine dinucleotide phosphate, transhydrogenation from NADPH to [14C]NADP is also sensitive to treatment of the particles with trypsin or the arginyl residue modifier, butanedione. However, unlike the former reactions, transhydrogenation from NADPH to [14C]NADP cannot accumulate energy in the concentrations of the products, because, except for radioactivity, the nature and concentrations of the reactants and products remain unchanged throughout the course of the reaction. Therefore, the unrecoverable energy utilization by this region could be ascribed to an entropic component of the process, very likely an enzyme conformation change necessary for facilitation of hydride ion transfer from NADPH to [14C]NADP. This interpretation is in agreement with our previous kinetic evidence for enzyme conformation change associated with energy-linked transhydrogenation from NADH to 3-acetylpyridine adenine dinucleotide phosphate and thionicotinamide adenine dinucleotide phosphate, and with our conclusions regarding the mechanism of action of the transhydrogenase enzyme (Galante, Y.M., Lee, Y., and Hatefi, Y. (1980) J. Biol. Chem. 255, 9641-9646).
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PMID:Energy-linked transhydrogenation from NADPH to [14C]NADP. 743 83


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