EC:1.4.1.2 - FACTA Search

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Query: EC:1.4.1.2 (glutamate dehydrogenase)
4,380 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The stereospecificity of hydrogen transfer between steroid (17-hydroxyprogesterone) and both natural cofactors by bovine testicular 20 alpha-hydroxysteroid dehydrogenase (20 alpha-HSD) has been determined. Cofactors used in these studies, [4-pro-S-3H]NADH ([4B-3H]NADH) and [4-pro-S-3H]NADPH ([4B-3H]NADPH) were generated with human placental estradiol 17 beta-dehydrogenase (EC 1.1.1.62) utilizing [17 alpha-3H]estradiol-17 beta and NAD+ or NADP+, respectively. The resulting [4B-3H]NADH and [4B-3H]NADPH were purified by ion-exchange chromatography and separately incubated with molar excess of 17-hydroxyprogesterone as substrate in the presence of 20 alpha-HSD. Following incubation, steroid reactant and product were extracted, separated by HPLC and quantitated as to mass and content of tritium. The oxidized and reduced cofactors were separated by ion-exchange chromatography and quantitated as to mass and tritium content. In all incubations, equimolar amounts of 17,20 alpha-dihydroxy-4-pregnen-3-one and oxidized cofactor were obtained. Further, all recovered radioactivity remained with cofactor and none was found in the steroid product. In additional experiments, both reduced cofactors were separately incubated with glutamate dehydrogenase, an enzyme known to transfer from the B-side of the nicotinamide ring. Here radioactivity was present only in the unreacted cofactor fractions and in the product, glutamic acid. The results indicate that bovine testicular 20 alpha-HSD catalyzes transfer of the 4A-hydrogen from the dihydronicotinamide moiety of the reduced cofactor. Finally, this work described modifications that represent considerable improvement in the purification and assay of bovine 20 alpha-HSD as originally described.
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PMID:Stereospecificity of hydrogen transfer by bovine testicular 20 alpha-hydroxysteroid dehydrogenase. 261 66

A compact automated analyser which could analyse constituents in biological fluids with a small sample volume and in a short time has been developed. The instrument was composed of a flow injection analysis system equipped with chemiluminometric detection and an immobilized enzyme column reactor used in combination. Chemiluminescence has high sensitivity, and its reaction proceeds very quickly. Furthermore, an immobilized enzyme column reactor can produce a sufficient amount of hydrogen peroxide from compounds in serum in a short time. When enzymes are used as reagents for the analysis of substances in blood or blood serum, the final signals emitted by different enzyme reactions are usually not only hydrogen peroxide but also ammonia, NAD(P)H and so on. However, the practical chemiluminescence method for ammonia and NAD(P)H has not been established. We have discovered a new practical method for ammonia and NAD(P)H using an enzyme column reactor consisting of both immobilized L-glutamate dehydrogenase and L-glutamate oxidase. The determinations of glucose and uric acid in serum by chemiluminometry after production of hydrogen peroxide by the respective oxidases are presented. A newly chemiluminometric determination of ammonia, NAD(P)H and its applications to other enzymatic analyses that give ammonia and NAD(P)H as a final signal are also described.
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PMID:A chemiluminescence automatic analyser for the measurement of biological compounds. 280 Dec 37

L-Pipecolic acid oxidation was studied in the rabbit and cynomolgus monkey. Tissue homogenates from both species incubated with L-[2,3,4,5,6-3H]pipecolic acid produced a single radioactive product identified as alpha-aminoadipic acid. In the rabbit, L-pipecolic acid oxidation was greatest in kidney cortex with progressively lesser specific activities in liver, heart, and brain. When rabbit kidney cortex was fractionated by differential centrifugation or on Percoll gradients, activity paralleled that of the mitochondrial marker, glutamate dehydrogenase. In sonicated mitochondria, 92% of the activity was in the soluble fraction. Activity was inhibited by both rotenone and antimycin A and was maximal when FAD, phenazine ethosulfate, and glycerol were included in the assay; Km,app was 0.74 +/- 0.16 mM. Nipecotic acid, piperidine, and cis-2,4-piperidine dicarboxylic acid did not inhibit L-pipecolic acid oxidation, while L-proline had a Ki greater than or equal to 10 mM. D-Alanine and kojic acid, substrate and inhibitor of D-amino acid oxidase, respectively, were also not inhibitory. When monkey kidney cortex was fractionated on Percoll gradients, L-pipecolic acid oxidation activity paralleled that of the peroxisomal marker, catalase. After organellar subfractionation, the activity was membrane-associated and maximal at pH 8.5; Km,app was 4.22 +/- 0.30 mM. L-Pipecolic acid oxidation produced hydrogen peroxide, suggesting involvement of an oxidase in alpha-aminoadipic acid formation. Antimycin A did not inhibit the reaction. No specific cofactor requirements were identified and phenazine ethosulfate inhibited the reaction. D-Pipecolic acid, L-proline, and the other compounds cited above did not significantly inhibit the activity.
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PMID:L-pipecolic acid oxidation in the rabbit and cynomolgus monkey. Evidence for differing organellar locations and cofactor requirements in each species. 291 18

Proteins of known composition and structural characteristics were incubated (1.0 mg/mL) with re-suspended salivary sediment (2.5% v/v) in a lactate-salt medium with an initial pH of 5.2 for two hr at 37 degrees C. Hydrolysis of the proteins was monitored by sodium dodecyl sulfate polyacrylamide gel electrophoresis. Hydrogen ion, amines, and ammonia were measured by use of a combined pH electrode, high-performance liquid chromatography, and glutamate dehydrogenase, respectively. Of the proteins studied, the caseins alpha s1, beta, and kappa and the histones H1 and H3 were extensively hydrolyzed by the salivary-sediment bacteria. The hydrolysis of these proteins was attributed to their relative lack of tertiary (folded) structure. The only amine detected was the polyamine putrescine arising from the catabolism of arginine following the hydrolysis of the arginine-rich histone H3. None of the other proteins extensively hydrolyzed by salivary sediment, although containing arginyl and lysyl residues, served as substrates for putrescine or cadaverine production. Pre-hydrolysis of the arginine-rich histone H3 and poly-L-arginine with trypsin resulted in a marked increase in putrescine produced, suggesting that the salivary-sediment proteolytic activity was not "trypsin-like". Incubation of salivary-sediment bacteria with the caseins and the histone H3 resulted in an increase in ammonium ion concentration and an associated decrease in hydrogen ion concentration. The increase in ammonium ion concentration not attributed to arginine hydrolysis was correlated with the content of glutaminyl plus asparaginyl residues of the proteins.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Protein dissimilation by human salivary-sediment bacteria. 291 33

The glutamate dehydrogenase-NADPH-alpha-ketoglutarate complex, an active intermediate on the reaction pathway has a number of unusual properties: 1) it is the only blue-shifted natural complex of this enzyme; 2) it has an anomalously slow rate of dissociation; 3) its off-rate shows a substantial pH-independent D2O solvent isotope effect not exhibited by any other ternary complex of this enzyme; and 4) it has an unusually large enthalpy of interaction parameter. These properties must be ascribable to at least one of the two possibilities conferred on the complex by the presence of the alpha-carbonyl group of alpha-ketoglutarate; the ability to engage in carbonyl addition reactions; and/or the ability to form a specific hydrogen bond. Oxalylglycine, a competitive inhibitor of alpha-ketoglutarate in this enzyme-catalyzed reaction, provides a means of discriminating between these two modes of action. The structure of oxalylglycine provides a dicarboxylic compound which has the same intercarboxylate proton distance and has a carbonyl group in a position spatially analogous to that of alpha-ketoglutarate. Its carbonyl group, however, is that of an amide group and cannot, therefore, engage in carbonyl addition reactions, but can hydrogen bond. Therefore, any effects observed with both oxalylglycine and alpha-ketoglutarate must be ascribed to formation of specific alpha-carbonyl hydrogen bonding, whereas any effects observed with alpha-ketoglutarate alone must be due to an alpha-carbonyl addition reaction. We have used this logic to test the source of the four phenomena listed above. In each case, oxalylglycine and alpha-ketoglutarate showed the same effect. Therefore, we conclude that all four phenomena are in fact due to the formation of a specific alpha-carbonyl hydrogen bond and that the specific carbonyl addition reaction between alpha-ketoglutarate and an enzyme lysine group, postulated in one proposed catalytic mechanism, does not occur.
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PMID:The anomalous properties of the glutamate dehydrogenase-NADPH-alpha-ketoglutarate complex are not ascribable to a carbonyl addition reaction. 304 Jul 12

Cell-free extracts of proteolytic strains of Clostridium botulinum types A, B and F (group I) were found to have unusually high specific activities of NAD+-dependent L-glutamate dehydrogenase (NAD-GDH). In comparison, nonproteolytic strains of types B, E and F (group II) had low specific activities. The enzyme was purified 131-fold from C. botulinum 113B to a final specific activity of greater than 1,092 mumol x min-1 x mg protein-1. The enzyme is a hexamer of a polypeptide of Mr = 42,500, and the native molecular weight is 250,800. The apparent Km values for substrates were 5.3 mM for glutamate and 0.028 mM for NAD+ in the deamination reaction, and 7.2 mM for alpha-ketoglutarate, 243 mM for NH4+ and 0.028 mM for NADH in the reverse reaction. NADP+ did not serve as a hydrogen acceptor for the enzyme. Activity in the animation direction was inhibited by fumarate, oxalacetate, aspartate, glutamate and glutamine. The results suggest that GDH is important in group I (proteolytic) C. botulinum to generate alpha-ketoglutarate as a substrate for transamination reactions. We have also found that the high activity decreases significantly when cells are exposed to sodium chloride. Therefore GDH probably has several important physiological roles in group I proteolytic C. botulinum.
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PMID:Purification, properties, and metabolic roles of NAD+-glutamate dehydrogenase in Clostridium botulinum 113B. 306 71

A flow injection chemiluminometric assay for urea has been developed based on a minicolumn bioreactor packed with immobilized enzyme-bearing glass beads. The reactor contains immobilized urease, L-glutamate dehydrogenase and L-glutamate oxidase, aligned in this order (upstream to the downstream). When the sample is introduced into the bioreactor, urea is first hydrolysed by urease to produce ammonia, which is then converted into L-glutamate by L-glutamate dehydrogenase. L-Glutamate is finally oxidized by L-glutamate oxidase to produce hydrogen peroxide, which is quantified by measuring chemiluminescence emitted upon admixing with luminol and potassium ferricyanide. One assay cycle is completed within 1 minute. The method is sensitive (detection limit 0.5 nmol) and is linear in the range 0-30 mmol/l. It can be readily applied to the determination of urea in human serum, and requires no blank corrections for ammonia and/or L-glutamate present in serum samples.
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PMID:A chemiluminometric method for the determination of urea in serum using a three-enzyme bioreactor. 321 92

Direct transfer of NADPH between two NADP-dependent dehydrogenases, isocitrate dehydrogenase and glutamate dehydrogenase, has been investigated. These enzymes have opposite stereospecificity for hydrogen transfer to the coenzyme. In contrast with the general direct-transfer mechanism postulated for NAD-dependent dehydrogenases [Srivastava & Bernhard (1986) Science 234, 1081-1086], no evidence for direct transfer in either direction was found for these NADP-dependent dehydrogenases.
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PMID:Absence of direct coenzyme transfer in an A-B dehydrogenase system. 343 43

A chemiluminometric method for the automated flow injection analysis of ammonia is described. The essence of the invention is the use of a bioreactor consisting of both immobilized L-glutamate dehydrogenase (GLDH) and L-glutamate oxidase (GLXD), which are sequentially aligned in this order in a minicolumn measuring 2.0 X 20 mm. The unidirectional constant flow of liquid through the column reactor minimizes the reversed diffusion of the solutes so that the following sequence of reactions is ensured. Thus, ammonia to be determined is first transformed by GLDH into L-glutamate, which then produces hydrogen peroxide by GLXD. Hydrogen peroxide in the effluent from the column is then determined by its chemiluminescence upon admixing with luminol and potassium ferricyanide. The present method gives linearity of the standard curve for ammonia up to 1.0 mM. It is at least 100 times more sensitive than the conventional method for ammonia assay using ultraviolet absorption measurement.
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PMID:Use of a bioreactor consisting of sequentially aligned L-glutamate dehydrogenase and L-glutamate oxidase for the determination of ammonia by chemiluminescence. 366 33

1. When a mixture of FMN and a reducing substrate (e.g. unprotonated amine) is illuminated oxygen is consumed. 2. The rate of oxygen uptake increases as oxygen concentration falls with some substrates (type I reaction), but with other substrates (typically aromatic compounds) the rate falls as the oxygen concentration falls (type II reaction). 3. The kinetics of type I reactions with EDTA, dl-alpha-phenylglycine and diethanolamine are all consistent with a mechanism in which the rate-determining step, hydrogen abstraction by the FMN triplet, is followed by rapid reoxidation of reduced FMN by oxygen. The reaction is faster at low oxygen concentrations because oxygen quenches the triplet. 4. The sensitivity of reaction rates to substituents in dl-alpha-phenylglycine can be described by a Hammett rho value of -0.6. 5. Individual rate constants for quenching and reaction of the FMN triplet with substrate were calculated (2.4x10(8) and 2.1x10(7)m(-1)s(-1) respectively for EDTA) on the assumption that oxygen quenches the triplet in a diffusion-controlled reaction. 6. The pH-dependences of oxygen uptake rates with six natural amino acids as substrates were measured. 7. Photoinactivations of l-glutamate dehydrogenase and d-amino acid oxidase by FMN were demonstrated.
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PMID:The chemistry of flavins and flavoproteins: aerobic photochemistry. 439 39

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