EC:1.4.1.4 - FACTA Search

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Query: EC:1.4.1.4 (glutamate dehydrogenase)
4,358 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ammonia has been determined in filtrates of human plasma after precipitation of the proteins by perchloric acid. After restoration of the pH to around 7.5, addition of 2-oxoglutarate, NADH and glutamate dehydrogenase (GDH) convers the ammonia to L-glutamate with oxidation of the NADH to NAD. This latter reaction was utilised in two ways. In the first, reduction of native NADH fluorescence under the conditions of the GDH reaction provided a measure of ammonia concentration. In the second, residual NADH was destroyed by acid treatment, and the fluorescent product generated from NAD under strongly alkaline conditions was assayed. The optimal requirements for both methods were defined, their linearity and precision ascertained, and their relative merits compared. The first method was convenient for "one-off" estimations, and the second for larger batches. Ammonia concentration increased in plasma and in acid protein-free filtrates of plasma irrespective of the conditions of storage; however when the latter were neutralised, storage at -20 degrees C was effective. The distribution of plasma ammonia concentration in healthy subjects was log-normal. The range for males was 21-58 mumol/1 and for females 17-51 mumol/1; this difference was statistically significant (P less than 0.01).
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PMID:The fluorimetric determination of ammonia in protein-free filtrates of human blood plasma. 17 63

A mutation leading to partial loss of NAD-linked ("catabolic') glutamate dehydrogenase does not affect the regulation of ammonium-repressible activities in Aspergillus nidulans. This mutation has been used to show that NAD-linked glutamate dehydrogenase does not normally participate in ammonium assimilation. A mutation leading to loss of NADP-linked ("anabolic') glutamate dehydrogenase has been used to show that NADP-linked glutamate dehydrogenase is not normally involved in glutamate catabolism. Strains defective in either enzyme are useful for determining which amino acids are metabolised via transamination to yield glutamate rather than via deamination to yield ammonium.
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PMID:A mutant of Aspergillus nidulans defective in NAD-linked glutamate dehydrogenase. 17 77

Parts of the primary structure of the NAD-specific glutamate dehydrogenase [L-glutamate:NAD oxidoreductase (deaminating), EC 1.4.1.2] from Neurospora crassa are presented. Segments of the sequence representing 886 unique amino-acid residues have been determined; the largest contains 267 residues. There are only short regions of possible homology between this enzyme and the glutamate dehydrogenases of bovine liver or the NADP-specific enzyme of Neurospora. The large size of the subunit (116,000 molecular weight) of the NAD-specific glutamate dehydrogenase is unusual when compared to other known dehydrogenases.
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PMID:Partial amino-acid sequence of NAD-specific glutamate dehydrogenase of Neurospora crassa. 17 80

1. Initial rates of oxidative deamination of L-glutamate with NAD+ as coenzyme, and of reductive aminiation of 2-oxoglutarate with NADH as coenzyme, catalysed by bovine liver glutamate dehydrogenase were measured in 0.111 M-sodium phosphate buffer, pH 7, at 25 degrees C, in the absence and presence of product inhibitors. All 12 possible combinations of variable substrate and product inhibitor were used. 2. Strict competition was observed between NAD+ and NADH, and between glutamate and 2-oxoglutarate. All other inhibition patterns were clearly non-competitive, except for inhibition by NH4+ with NAD+ as variable substrate. Here the extrapolation did not permit a clear distinction between competitive and non-competitive inhibition. 3. Mutually non-competitive behaviour between glutamate and NH4+ indicates that these substrates can be bound at the active site simultaneously. 4. Primary Lineweaver-Burk plots and derived secondary plots of slopes and intercepts against inhibitor concentration were linear, with one exception: with 2-oxoglutarate as variable substrate, the replot of primary intercepts against inhibitory NAD+ concentration was curved. 5. Separate Ki values were evaluated for the effect of each product inhibitor on the individual terms in the reciprocal initial-rate equations. With this information it is possible to calculate rates for any combination of substrate concentrations within the experimental range with any concentration of a single product inhibitor. 6. The inhibition patterns are consistent with neither a simple compulsory-order mechanism nor a rapid-equilibrium random-order mechanism without modification. They can, however, be reconciled with either type of mechanism by postulating appropirate abortive complexes. Of the two compulsory sequences that have been proposed, one, that in which the order of binding is NADH, NH4+, 2-oxoglutarate, requires an implausible pattern of abortive complex-formation to account for the results. 7. On the basis of a rapid-equilibrium random-order mechanism, dissociation constants can be calculated from the Ki values. Where these can be compared with independent estimates from the kinetics of the uninhibited reaction or from direct measurements of substrate binding, the agreement is reasonable good. On balance, therefore, the results provide further support for the rapid-equilibrium random-order mechanism under these conditions.
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PMID:A product-inhibition study of bovine liver glutamate dehydrogenase. 17 78

Folates and tetrahydrofolates inhibit beef liver glutamate dehydrogenase (EC 1.4.1.2). Double reciprocal plats indicate a competitive inhibition for alpha-ketoglutarate-glutamate by folic acid and methotrexate and a complex or mixed type for NAD-NADH site. Pteroic acid is not inhibitory at the concentrations studied. The addition of up to four gamma-linked glutamyl residues to folic and tetrahydrofolic acids increases the inhibition. Further chain elongation of the gamma-peptide had no effect on the inhibitory activity. The p-aminobenzoate poly-gamma-glutamates were less inhibitory than the corresponding folyl polyglutamates.
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PMID:Folates as inhibitors of glutamate dehydrogenase. 17 72

The effects of phthalate esters on the oxidation of succinate, glutamate, beta-hydroxybutyrate and NADH by rat liver mitochondria were examined and it was found that di-n-butyl phthalate (DBP) strongly inhibited the succinate oxidation by intact and sonicated rat mitochondria, but did not inhibit the State 4 respiration with NAD-linked substrates such as glutamate and beta-hydroxybutyrate. However, oxygen uptake accelerated by the presence of ADP and substrate (State 3) was inhibited and the rate of oxygen uptake decreased to that without ADP (State 4). It was concluded that phthalate esters were electron and energy transport inhibitors but not uncouplers. Phthalate esters also inhibited NADH oxidation by sonicated mitochondria. The degree of inhibition depended on the carbon number of alkyl groups of phthalate esters, and DBP was the most potent inhibitor of respiration. The activity of purified beef liver glutamate dehydrogenase [EC 1.4.1.3] was slightly inhibited by phthalate esters.
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PMID:Effects of phthalate esters on the respiration of rat liver mitochondria. 18 66

The stereospecificity of swine renal NAD+-dependent 15-hydroxyprostaglandin dehydrogenase has been determined. It was found that the enzyme is a B-side specific dehydrogenase. (15S)-[15-3H]Prostaglandins were synthesized by stereospecific transfer of the tritium label of D-[1-3H]galactose to prostaglandins by coupling 15-hydroxyprostaglandin dehydrogenase with beta-D-galactose dehydrogenase, an enzyme of the same stereospecificity. A simple and sensitive assay for 15-hydroxyprostaglandin dehydrogenase was developed based on the stereospecific transfer of the tritium label of tritiated prostaglandins to glutamate by coupling 15-hydroxyprostaglandin dehydrogenase with glutamate dehydrogenase. The amount of prostaglandin oxidized is determined by the radioactivity of labeled glutamate present in the supernatant after charcoal precipitation of labeled prostaglandin. Concurrent assays with the present tritium release method and the thin-layer chromatography method indicated excellent correlation. The assay was employed to study some of the properties of swine renal 15-hydroxyprostaglandin dehydrogenase in crude extract and the distribution of enzyme activity in various tissues of rat. Enzyme activity was linear for the first 10 min studied and was nonlinear with increasing amounts of crude enzyme, indicating the possible presence of endogenous inhibitor(s). Apparent Km's for PGE2, PGF2alpha, and PGA2 were found to be 2.5, 12.5, and 3.9 muM, respectively. The distribution pattern indicated high levels of enzyme activity in gastrointestinal tract, lung, kidney, and spleen. The assay method may prove to be valuable for studying enzyme turnover and enzyme regulation by hormonal and pharmacological agents.
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PMID:Enzymatic synthesis of (15s)-[15-3h]prostaglandins and their use in the development of a simple and sensitive assay for 15-hydroxyprostaglandin dehydrogenase. 18 19

1. Computer averaging of multiple scans was used to refine the circular dichroism spectrum of bovine liver glutamate dehydrogenase, revealing well-defined structure in the aromatic region. 2. The circular dichroism of NAD+ bound to glutamate dehydrogenase is strongly negative at 260nm, probably owing to immobilization of the adenosine moiety. Loss of the characteristic adenine-nicotinamide interaction suggests that the coenzyme is bound in an unstacked conformation. 3. Glutarate and succinate, substrate analogues that are both inhibitors competitive with glutamate, do not significantly perturb the circular-dichroism spectrum of the enzyme in the absence of NAD+. 4. In the presence of NAD+, 150nM-succinate decreases the negative circular dichroism corresponding to bound coenzyme, but does not affect the protein circular dichroism. However, ISOmM-glutarate causes profound alternations of the circular-dichroism spectra of the bound NAD+ and of the enzyme, indicative of a protein conformational change. This direct evidence of conformational change specifically promoted by C5 dicarboxylates confirms the previous inference from protection studies. 5. The conformational change is discussed in relation to the allosteric mechanism of glutamate dehydrogenase.
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PMID:The allosteric mechanism of bovine liver glutamate dehydrogenase. Evidence from circular-dichroism studies for a conformational change in the ternary complex enzyme-(oxidized nicotinamide-adenine dinucleotide)-glutarate. 19 83

An earlier observation from this laboratory (J. Gen. Microbiol. 64, 423--427) that NAD-dependent glutamate dehydrogenase activity is modulated by rapid inactivation has been extended to show that this mechanism is completely reversible. Changes in properties of the enzyme accompany inactivation and two different forms active (a) and inactive (b) of the enzyme with distinctive properties have been isolated. Incubation of the inactive enzyme with magnesium in vitro produced a rapid increase of activity; this was accompanied by a change in the properties of the enzyme to those of the a form. This control mechanism of enzyme interconversion appears widespread among yeasts. Its probable role in modulating glutamate synthesis and degration is discussed.
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PMID:The regulation of glutamate metabolism in Candida utilis. Evidence for two interconvertible forms of NAD-dependent glutamate dehydrogenase. 20 Apr 22

1. Kinetic aspects of the reaction between crystalline bovine liver glutamate dehydrogenase and formiminoglutamate were investigated to establish the conditions under which the latter may interfere with the assay of glutamate by using glutamate dehydrogenase and to explain why formiminoglutamate accumulates in vivo after histidine loading, although it can react with glutamate dehydrogenase. The Km and Vmax. values were compared with those of the enzyme reacting with glutamate. At pH 7.4 Km for formiminoglutamate was much higher and Vmax. much lower than the values for glutamate. 2. The equilibrium constant at pH 7.0 was 0.017 micrometer with formiminoglutamate, i.e. about one two-hundredths that with glutamate. 3. In vivo the interaction between glutamate dehydrogenase and formiminoglutamate is minimal even when the concentration of the latter in the liver is greatly raised, as in cobalamine or folate deficiency after histidine loading. 4. At pH 9.3, i.e. under the conditions for the assay of glutamate by glutamate dehydrogenase, formiminoglutamate reacts readily with the enzyme.
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PMID:Reaction of formiminoglutamate with liver glutamate dehydrogenase. 20 64

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