Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

An enzymatic method for determining plasma ammonia with the Du Pont Automatic Clinical Analyzer (aca) is described. The assay requires a sample volume of 500 muL for a kinetic ammonia measurement. The reaction is initiated with glutamate dehydrogenase and the rate of depletion of NADPH is monitored with two measurements, 17 s apart, at 340 nm. Reaction conditions have been optimized for maximum sensitivity through both one-factor-at-a-time and multiple variable response surface optimization techniques. Linearity to 1000 mumol of ammonia per liter of plasma has been achieved. No significant interferences were observed from anticoagulants or endogenous blood components, including pyruvate and oxalacetate. Use of the coenzyme NADPH (instead of NADH) in this aca procedure eliminates the lengthy pre-incubation otherwise required for endogenous dehydrogenase reactions.
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PMID:Automated enzymatic assay for plasma ammonia. 3 74

The am1 and am3 mutational variants of the Neurospora crassa NADP-specific glutamate dehydrogenase show complementation activity in hybrid hexamers. A freeze-thaw hybridization method was used to construct hybrids from purified enzymes and the products were separated into species of different monomer ratio by affinity chromatography. Hexamers with am1:am3 ratios of 1:5, 2:4, 3:3, 4:2 and 5:1 were all recovered as resolved or partially resolved peaks in quantities approximating to a binomial distribution. Reassociation of monomers during the hybridization process was random, except for some differential loss of am3 protein by precipitation and an apparent absence of reassociated am1 homohexamers. Complementation activity was shown by hybrids of all five monomer ratios, owing to activation of am3 monomers by conformational constraints arising from the intrinsically inactive am1 monomers. The activating effect of such constraints was greatest in hexamers containing only a single am1 monomer and least in the 5 am1:1am3 species. When fully activated by L-glutamate all am3 monomers were equivalent in intrinsic catalytic activity, irrespective of the number of am1 monomers per hexamer.
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PMID:Subunit ratios of separated hybrid hexamers of Neurospora NADP-specific glutamate dehydrogenase containing complementing mutationally modified monomers. 3 65

Initial-rate studies were made of the oxidation of L-glutamate by NAD+ and NADP+ catalysed by highly purified preparations of dogfish liver glutamate dehydrogenase. With NAD+ as coenzyme the kinetics show the same features of coenzyme activation as seen with the bovine liver enzyme [Engel & Dalziel (1969) Biochem. J. 115, 621--631]. With NADP+ as coenzyme, initial rates are much slower than with NAD+, and Lineweaver--Burk plots are linear over extended ranges of substrate and coenzyme concentration. Stopped-flow studies with NADP+ as coenzyme give no evidence for the accumulation of significant concentrations of NADPH-containing complexes with the enzyme in the steady state. Protection studies against inactivation by pyridoxal 5'-phosphate indicate that NAD+ and NADP+ give the same degree of protection in the presence of sodium glutarate. The results are used to deduce information about the mechanism of glutamate oxidation by the enzyme. Initial-rate studies of the reductive amination of 2-oxoglutarate by NADH and NADPH catalysed by dogfish liver glutamate dehydrogenase showed that the kinetic features of the reaction are very similar with both coenzymes, but reactions with NADH are much faster. The data show that a number of possible mechanisms for the reaction may be discarded, including the compulsory mechanism (previously proposed for the enzyme) in which the sequence of binding is NAD(P)H, NH4+ and 2-oxoglutarate. The kinetic data suggest either a rapid-equilibrium random mechanism or the compulsory mechanism with the binding sequence NH4+, NAD(P)H, 2-oxoglutarate. However, binding studies and protection studies indicate that coenzyme and 2-oxoglutarate do bind to the free enzyme.
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PMID:Kinetic studies of dogfish liver glutamate dehydrogenase. 3 53

The neuroleptics chlorpromazine, fluphenazine, triflupromazine and thioridazine seem to effect the aggregation of glutamate dehydrogenase by binding to one single site of the polypeptide chain, possibly the GTP site. This interaction could biologically be of importance for the degree of activity at high enzyme concentrations found in vivo. Amitriptyline and fluorazepam also bind to a specific single site of the polypeptide chain without effecting the aggregation of the oligomers. Because of the rather low affinity of these sites the binding of these drugs in vivo does not seem to cause a concentrating effect in the mitochondria.
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PMID:The interaction of central acting drugs with glutamate dehydrogenase. 3 69

The nitrogen source available to Diplodia maydis in vivo is reported to affect the severity of stalk rot in maize. Nitrate and (or) ammonium salts were tested for their effect on the type of nitrogen metabolism found in Diplodia maydis in vitro. The level of glutamate dehydrogenase remained essentially constant on either nitrogen salt but nitrate reductase was induced by growth on nitrate salts and was not extractable on ammonium salts. Properties of nitrate reductase reported here are similar to those reported for the higher plant and Neurospora crassa enzymes. Thr relationship of nitrogen metabolism in Diplodia maydis to Zea mays L. stalk rot is discussed.
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PMID:Nitrogen-metabolizing enzymes of Diplodia maydis, a Zea mays L. stalk rot causing fungus. 3 73

The in vivo regulation of glutamate dehydrogenase (GDH) was studied in Mucor racemosus as a function of nutritional conditions and morphological state. Both nicotinamide adenine dinucleotide (NAD) and nicotinamide adenine dinucleotide phosphate (NADP)-dependent GDH activities were found. The effect of carbon and nitrogen source on the specific activity of the NAD-dependent GDH suggests that its role is primarily catabolic. The NAD-dependent activity was generally an order of magnitude greater in mycelial cells than in yeast-phase cells grown on the same medium. During yeast-to-hyphal morphogenesis the increase in NAD-dependent activity preceded the appearance of hyphal cells both under aerobic and anaerobic conditions. Exogenous dibutyryl-cyclic AMP prevented the increase in NAD-dependent GDH concomitantly with the suppression of morphological differentiation. The NADP-dependent activity did not change appreciably during morphogenesis.
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PMID:Morphology-associated expression nicotinamide adenine dinucleotide-dependent glutamate dehydrogenase in Mucorracemosus. 3 13

We have partially characterized the biochemical parameters of glutamine synthetase from Klebsiella pneumoniae and have shown that the differential affinity of adenylylated and unadenylylated glutamine synthetase for adenosine diphosphate provides a convenient means of determining the adenylylation state. Using this assay procedure, we examined the relationship between the adenylylation state and the expression of other genes involved in nitrogen assimilation. We observed no correlation between the adenylylation state and the expression of histidase, glutamine synthetase, glutamate synthase, glutamate dehydrogenase, and urease in aerobic cultures.
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PMID:Relation between the adenylylation state of glutamine synthetase and the expression of other genes involved in nitrogen metabolism. 3 15

The regulation of the glutamate dehydrogenases was investigated in wild-type Neurospora crassa and two classes of mutants altered in the assimilation of inorganic nitrogen, as either nitrate or ammonium. In the wild-type strain, a high nutrient carbon concentration increased the activity of reduced nicotinamide adenine dinucleotide phosphate (NADPH)-glutamate dehydrogenase and decreased the activity of reduced nicotinamide adenine dinucleotide (NADH)-glutamate dehydrogenase. A high nutrient nitrogen concentration had the opposite effect, increasing NADH-glutamate dehydrogenase and decreasing NADPH-glutamate dehydrogenase. The nit-2 mutants, defective in many nitrogen-utilizing enzymes and transport systems, exhibited low enzyme activities after growth on a high sucrose concentration: NADPH-glutamate dehydrogenase activity was reduced 4-fold on NH(4)Cl medium, and NADH-glutamate dehydrogenase, 20-fold on urea medium. Unlike the other affected enzymes of nit-2, which are present only in basal levels, the NADH-glutamate dehydrogenase activity was found to be moderately enhanced when cells were grown on a low carbon concentration. This finding suggests that the control of this enzyme in nit-2 is hypersensitive to catabolite repression. The am mutants, which lack NADPH-glutamate dehydrogenase activity, possessed basal levels of NADH-glutamate dehydrogenase activity after growth on urea or l-aspartic acid media, like the wild-type strain, and possessed moderate levels (although three- to fourfold lower than the wild-type strain) on l-asparagine medium or l-aspartic acid medium containing NH(4)Cl. These regulatory patterns are identical to those of the nit-2 mutants. Thus, the two classes of mutants exhibit a common defect in NADH-glutamate dehydrogenase regulation. Double mutants of nit-2 and am had lower NADH-glutamate dehydrogenase activities than either parent. A carbon metabolite is proposed to be the repressor of NADH-glutamate dehydrogenase in N. crassa.
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PMID:Regulation of glutamate dehydrogenases in nit-2 and am mutants of Neurospora crassa. 3 17

The urea cycle enzymes, carbamoyl-P-synthetase, ornithine transcarbamylase, arginase and other enzymes related to ammonia metabolism, such as glutamate dehydrogenase, glutamine synthetase and alanine and aspartate aminotransferases,have been studied in thioacetamide-induced liver disease in rats. Urea and ammonia were determined both in serum and in liver extracts. Glutamate and aspartate were determined in liver extracts. There was a marked decrease (in brackets: fraction of control) in carbamoyl-P-synthetase (0.23), ornithine transcarbamylase (0.36) and arginase (0.62). The accumulation of ammonia (3.22) and the decreased urea level (0.80) are well known indications of liver failure. Glutamate dehydrogenase and glutamine synthetase increased respectively to 1.50 and 1.33, and the changes in glutamate and aspartate levels were respectively 1.68 and 0.92; this indicates that the metabolic route: 2-oxoglutarate leads to glutamate leads to glutamine is increased, and thereby compensates for the low rate of urea formation. Aminotransferase activities were respectively 0.43 and 0.25. No significant differences were found in serum aminotransferases, or in the concentrations of ammonia and urea.
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PMID:The effect of thioacetamide on urea cycle enzymes of rat liver. 3 82

Inactivation of the nicotinamide adenine dinucleotide phosphate-dependent glutamate dehydrogenase from Saccharomyces cerevisiae during carbon starvation occurs with a simultaneous loss of enzyme protein and enzyme activity.
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PMID:Regulation of Saccharomyces cerevisiae nicotinamide adenine dinucleotide phosphate-dependent glutamate dehydrogenase by proteolysis during carbon starvation. 3 42


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