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)

Genetic manipulation of nitrogenase and key glutamate-forming enzymes can provide mutants that excrete fixed N2 as NH4+. A derepressed N2 fxation mutant (SK-24) has been isolated , which excretes up to 20.2 mumol of fixed N2 as NH4+ per mg of cell protein in 24 hr at room temperature. Biochemical analysis shows that this mutant, which requires glutamate for growth, releases fixed N2 as NH4+ into the environment because of (i) constitutive synthesis of nitrogenase and (ii) genetic blocks resulting in losses of glutamate synthase [L-glutamine:2-oxoglutarate aminotransferase (NADPH oxidizing), EC 2.6.1.53] and glutamate dehydrogenase [L-glutamate:NADP oxidoreductase (deaminating), EC 1.4.1.4] activities, enzymes essential for NH4+ assimilation into cell material. The parent strain (asm-1), missing only glutamate synthase activity, also actively excretes NH4+ during early phases of its growth but eventually reutilizes the NN4+. A miximum yield of 4.0 mumol of NH4+/ml per 24 hr has been noted for asm-1 only during the growth period. Biosynthesis of NH4+ PROCEEDS AT THE EXPENSE OF A Variety of fermentable sugars, such as sucrose or glucose, with a maximum energy conversion efficiency of about 5 glucose degraded per NH4+ formed. The use of microbes for production of NH4+ fertilizer is discussed.
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PMID:Microbial production of ammonium ion from nitrogen. 109 Sep 30

Glomeruli from adult normal male Wistar rats were obtained by teasing a cortex slice with stainless steel needles. The enzyme content and the morphologic aspect of these glomeruli were assessed as a preliminary step to further metabolic studies. Robinson's medium appeared to be the most suitable medium. There was no loss of glutamic dehydrogenase, glucose-6-phosphate dehydrogenase or acid phosphatase. Lactate dehydrogenase was lost to about 50%. Electron microscopy showed morphologic signs of damage in the podocytes. The glomerular oxygen uptake was measured with the help of the Cartesian diver technique, using approximately 20 glomeruli per assay. The endogenous respiratory rate was linear for at least three hours. The endogenous respiratory rate was linear for at least three hours. The mean dry wt of lyophilized glomeruli was determined for 13 rats for which the glomerular oxygen uptake had been measured, and these data showed a glomerular Q-02 of 4 mul/hr/mg of dry wt. The following substances were tested for their influence on the oxygen uptake: acetate, alpha-oxoglutarate, citrate, oxalacetate, glutamate, alanine, all 10 mM; succinate, 2.5, 5 and 10 mM; glucose, 5, 10 and 20 mM; fructose 10 and 20 mM; and palmitate. Citrate increases the O-2 uptake/hr/glomerulus by 30%; glucose, 20 mM, by 30%; and succinate, 2.5 mM by 50% and 10 mM by 190%. In a Robinson's medium containing 35 mg of albumin/ml, the endogenous respiration is not different from that obtained in the inorganic medium but the oxygen uptake is increased 26% by glucose, 10 mM. From these data, it can be concluded that the oxygen uptake of the glomerulus is small. This fact explains its resistance to anoxia. The systematic investigation of possible substrates indicate that glucose, citrate and succinate may play a role in supporting this small oxidative metabolism.
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PMID:Oxidative metabolism of the normal rat glomerulus. 111 53

The realtionship between growth rate and the metabolic activity of certain liver enzymes was studied using two strains of White Plymouth Rock chickens which had been selected in divergent directions for eight-week body weight. The activities of hexokinase, glucokinase, phosphofructokinase, glucose-6-phosphate dehydrogenase, citrate synthase, glycogen synthetase, glutamate dehydrogenase and aspartate transaminase were measured at 4, 8 and 20 weeks of age. The mean percentage rate of growth of the birds selected for high eight-week body weight exceeded that of the birds selected for low eight-week body weight only during the early growth period. Thereafter, and until sexual maturity, the low-line birds grew at a faster rate, relative to body size. The mature body weight of the high-line birds exceeded that of the low-line birds by a factor of approximately 1.5. A close similarity was noted between the metabolic activity of certain liver enzymes and the growth rate (relative to body size) of the birds studied. At four and eight weeks of age, the faster-growing birds (whether high- or low-line) generally exhibited a greater capacity for glucose phosphorylation and glycolysis, but a poorer capacity for glycogen synthesis, than the slower-growing birds. At twenty weeks, growth rate and metabolic activity were similar in both strains.
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PMID:Activity of certain liver enzymes in fast- and slow-growing lines of chickens. 118 17

In parenchymal cells from starved mice L-tryptophan is a potent inhibitor of gluconeogenesis from substrates giving rise to oxaloacetate. Quinolinate yields a different pattern of inhibition and is generally much less effective. Tryptamine, indole 3-acetaldehyde and indole 3-acetate are equally as effective as tryptophan. Tryptamine inhibition alone may be overcome by pargyline; serotonin does not prevent the inhibition due to tryptophan. In kidney slices from starved rats, however, tryptophan has no effect on gluconeogenesis. Indole 3-acetate is also relatively ineffective, but quinolinate is signficiantly more potent than in liver; at 0.1mM, glucose production from lactate is 50% inhibited. Quinolinate is less effective with citric acid cycle substrates; the pattern of inhibition is consistent with a direct action on phosphoenolpyruvate carboxykinase. There is no evidence that glutamate dehydrogenase is simultaneously inhibited.
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PMID:Effect of tryptophan and its metabolites on gluconeogenesis in mammalian tissues. 124 97

The in vivo incorporation of radioactivity from [U-14C]glucose was reduced in undernourished rat pups at ages 6, 10, and 17 days for brain lipids, and at age 10 days for brain amino acids. Brain glucose concentrations were lower at age 20 days (controls 1.58 +/- 0.26 vs. test 1.14 +/- 0.07 mumol/g) but other alterations in brain glucose, glycogen, ATP, or phosphocreatine concentrations were not found. Brain mitochondrial glutamate dehydrogenase activity was 21% and 30% lower in undernourished animals at ages 10 and 20 days, respectively. Brain mitochondrial and supernatant isocitrate dehydrogenase activities and pyruvate kinase activity were similar for undernourished and control animals. Brain glycogen levels were 2-4 times higher in late fetal and newborn control animals (13.6 and 15.3 mumol/g) than in older animals (4.2-5.7 mumol/g). Brain glucose, ATP, and phosphocreatine levels increased from the 15-day fetus to the newborn, but thereafter showed no further increase.
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PMID:Brain glucose utilization in undernourished rats. 124 66

In extension of a previous study with yeast glucose-6-P dehydrogenase (Kawaguchi, A., and Bloch, K. (1974) J. Biol. Chem. 249, 5793-5800), the structural changes accompanying the inhibition of glutamate dehydrogenase and several malate dehydrogenases by palmitoyl-CoA and by sodium dodecyl sulfate have been investigated. Palmitoyl-CoA converts liver glutamate dehydrogenase to enzymatically inactive dimeric subunits (Mr = 1.2 X 10(5)) and tightly binds to the dissociated enzyme. Removal of the inhibitor from the palmitoyl-CoA-dimer complex fails to regenerate enzyme activity. The Ki values for palmitoyl-CoA inhibition of malate dehydrogenases (oxalacetate reduction) are, for the enzyme from pig heart mitochondria, 1.8 muM, 500 muM from pig heart supernatant, and 10 muM from chicken heart supernatant. These inhibitions are readily reversible. Palmitoyl-CoA does not alter the quaternary structure of any of the malate dehydrogenases and binds only weakly to these enzymes. Mitochondrial malate dehydrogenase assayed in the direction malate to oxalacetate is much less sensitive to palmitoyl-CoA, with Ki values of 50 muM at pH 10 and greater than 50 muM at pH 7.4. While the differences in palmitoyl-CoA sensitivity in the forward and backward reactions catalyzed by mitochondrial dehydrogenase are unexplained, a physiological rationale for these differential effects is offered. Sodium dodecyl sulfate dissociates the various dehydrogenases to monomeric subunits in contrast to the more selective effects of palmitoyl-CoA.
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PMID:Inhibition of glutamate dehydrogenase and malate dehydrogenases by palmitoyl coenzyme A. 125 73

The influence of potassium on ethanol production by Saccharomyces cerevisiae wild type and AR5 cells carrying the plasmid pCYG4 was investigated. This plasmid carries the glutamate dehydrogenase gene conferring an 11-fold higher level of expressed enzyme activity over the wild type cells. All experiments were carried out in batch culture with medium supplemented to different potassium concentrations up to 180 mM. Maximum ethanol production rate was observed in the AR5 cells grown in medium supplemented with 3.5 mM of potassium ions. Glucose uptake rate increased with increasing potassium up to 60 mM, but higher concentrations depressed glucose uptake rate in both strains. Furthermore, the wild type cells showed higher growth rate, ethanol production, and glucose consumption rate than the AR5 cells. These lower rates in the AR5 cells could be explained by repression of potassium uptake by an enhancement of ammonium feeding, and greater energy requirements by these cells due the presence of the plasmid.
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PMID:Effects of potassium on the ethanol production rate of Saccharomyces cerevisiae carrying the plasmid pCYG4 related with ammonia assimilation. 128 12

The levels of aspartase, NADP- and NAD-requiring glutamate dehydrogenases (GDHs) in Pseudomonas fluorescens grown under various nutritional conditions were determined. NADP-GDH showed the highest value on glucose-ammonium sulfate medium and markedly lower values on amino-acid and casamino-acids media, while the reverse was found for the NAD-GDH, as in the case of other microorganisms with two GDHs. Aspartase did not show a marked variation between the media examined. Glucose nutritionally induced NADP-GDH but suppressed NAD-GDH; and it had no effect on aspartase, which was slightly induced by casamino acids. Transfer of the cells grown on glucose-ammonium sulfate medium to casamino-acids medium clearly increased the levels of NAD-GDH and aspartase, while addition of chloramphenicol to the media abolished the increases, suggesting that the increases were due to de novo synthesis of the enzyme proteins. These results indicate that the aspartase of this microorganism has a different function from those in others, including Escherichia coli.
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PMID:Possible physiological roles of aspartase, NAD- and NADP-requiring glutamate dehydrogenases of Pseudomonas fluorescens. 133 Oct 36

1. The main forage for camels in northern Djibouti (mangrove with Avicennia marina) is very poor in nitrogen and energy. In a trial, 32 young camels (less than 2 years old) were used in four groups of eight each. 2. All the camels received mangrove as basal diet ad lib. 3. After 1 month, the camels received mineral supplementation in copper and zinc (groups 1 and 3) or/and a concentrate rich in protein and energy (groups 2 and 3) or continued with the basal diet (controls). 4. Any supplementation was stopped after 2 months for 1 month. 5. Growth performance was 550 g/day (concentrate-supplemented camels) and 570 g/day (concentrate+mineral-supplemented camels). 6. The growth was negative for the two others groups (-260 g/day). 7. Food intake of mangrove was slightly more important with mineral supplementation only and with mineral+concentrate supplementation. 8. The changes in metabolic profiles have shown an important catabolism in non-supplemented animals, an increase of urea and free fatty acid concentrations in plasma and a decrease of glucose concentrations. 9. Three camels died in the control group with symptoms of starvation and signs of liver damage (increase of liver enzymes glutamate dehydrogenase and gamma-glutamyl transferase).
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PMID:The influence of high dietary protein, energy and mineral intake on deficient young camel (Camelus dromedarius)--I. Changes in metabolic profiles and growth performance. 135 89

Corynebacterium callunae (NCIB 10338) grows faster on glutamate than ammonia when used as sole nitrogen sources. The levels of glutamine synthetase (GS; EC 6.3.1.2) and glutamate synthase (GOGAT; EC 1.4.1.13) of C. callunae were found to be influenced by the nitrogen source. Accordingly, the levels of GS and GOGAT activities were decreased markedly under conditions of ammonia excess and increased under low nitrogen conditions. In contrast, glutamate dehydrogenase (GDH; EC 1.4.1.4) activities were not significantly affected by the type or the concentration of the nitrogen source supplied. The carbon source in the growth medium could also affect GDH, GS and GOGAT levels. Of the carbon sources tested in the presence of 2 mM or 10 mM ammonium chloride as the nitrogen source pyruvate, acetate, fumarate and malate caused a decrease in the levels of all three enzymes as compared with glucose. GDH, GS and GOGAT levels were slightly influenced by aeration. Also, the enzyme levels varied with the growth phase. Methionine sulfoximine, an analogue of glutamine, markedly inhibited both the growth of C. callunae cells and the transferase activity of GS. The apparent Km values of GDH for ammonia and glutamate were 17.2 mM and 69.1 mM, respectively. In the NADPH-dependent reaction of GOGAT, the apparent Km values were 0.1 mM for alpha-ketoglutarate and 0.22 mM for glutamine.
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PMID:The effect of various culture conditions on the levels of ammonia assimilatory enzymes of Corynebacterium callunae. 135 48

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