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)

NH+4 produced as a result of the activation of AMP deaminase (AMP aminohydrolase, EC 3.5.4.6) was utilized effectively to form glutamate from 2-oxoglutarate by the action of NADP-glutamate dehydrogenase (L-glutamate:NADP+ oxidoreductase (deaminating), EC 1.4.1.4) under in situ conditions in yeast cells: the decrease in total adenylates stoichiometrically corresponded to the production of NH+4 plus glutamate. Reducing equivalents, NADPH, for the synthesis of glutamate can be supplied by the pentose phosphate pathway. The addition of spermine, an activator of AMP deaminase without changes in glutamate dehydrogenase activity, resulted in an increase in ammonium concentration, which can enhance the formation of glutamate from 2-oxoglutarate. A close correlation of NADP-glutamate dehydrogenase with AMP deaminase activity was observed under various growth conditions. The interaction of the AMP deaminase-ammonium system with glutamate dehydrogenase as an ammonium-assimilating reaction may participate in the control of the cellular NH+4 level, which can correlate with glycolysis.
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PMID:Interaction of the AMP deaminase-ammonium system with glutamate dehydrogenase in yeast. 675 3

1. Activity of glutamate dehydrogenase and adenylate deaminase were measured in the livers of carnivores (animals characterised by intake of a high dietary protein). 2. Animals studied (ferret, cat, dog, hedgehog, rat, hamster, mouse, cow, pig and rabbit) were kept on their natural diet. 3. Glutamate dehydrogenase activity showed no variation between carnivores and non-carnivores. 4. Adenylate deaminase activity was significantly higher in carnivores than in non-carnivores. 5. In carnivores, adenylate deaminase might be the rate limiting enzyme in the terminal deamination of L-amino acids. 6. Elevation of adenylate deaminase might be due to the acidogenic effect of the diet.
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PMID:Activity of adenylate deaminase and glutamate dehydrogenase in the liver: species and dietary variation. 708 16

Changes in oxidative metabolism were studied in hepatopancreas, muscle, and hemolymph of the edible crab Scylla serrata, exposed to a sublethal concentration (2.5 ppm) of cadmium chloride. A significant decrease in glycogen, total carbohydrates, and pyruvate and an increase in lactate levels in hepatopancreas and muscle were observed. Hemolymph sugar levels were increased in experimental crabs. An increase in phosphorylase suggested increased glycogenolysis during cadmium toxicity. The decrease in lactate dehydrogenase activity and the increase in lactate content indicated reduced mobilization of pyruvate into the citric acid cycle. Krebs cycle enzymes such as succinate dehydrogenase and malate dehydrogenase were found to be decreased, suggesting impairment of mitochondrial oxidative metabolism as a consequence of cadmium toxicity. Glucose-6-phosphate dehydrogenase activity was increased, suggesting enhanced oxidation of glucose by the HMP pathway. Cytochrome-c oxidase and Mg2+ ATPase activity levels decreased, indicating impaired energy synthesis during cadmium stress. Acid and alkaline phosphatase activities increased, suggesting enhanced breakdown of phosphates to release energy in view of impaired ATPase system during cadmium exposure. A significant decrease in protein and free amino acid and an increase in ammonia, urea, and glutamine levels were observed in the tissues during exposure. An increase in protease, alanine aminotransaminase, and aspartate aminotransaminase suggested increased proteolysis and transamination of amino acids. The increase in glutamate dehydrogenase, AMP deaminase, and adenosine deaminase indicated increased ammonia production. The increased arginase and glutamine synthetase suggested the detoxification or mobilization of ammonia toward the production of urea and glutamine. These results suggest that cadmium affects oxidative metabolism and induces hyperammonemia, and crabs switch over their metabolic profiles toward compensatory mechanisms for the survivability in cadmium-polluted habitats.
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PMID:Changes in oxidative metabolism in selected tissues of the crab (Scylla serrata) in response to cadmium toxicity. 753 86

The objective was to determine the effects of persistent obesity on amino acid enzymes in white (WAT) and brown (BAT) adipose tissues. Dietary obesity was induced by feeding a cafeteria diet ad libitum for 3 months, then it was removed and the obese animals received the same diet as controls for 5 months. Dietary-induced obesity was persistent as obese rats showed a stable, higher body weight than controls (26%). Key enzymes of alpha-amino nitrogen metabolism were studied and results showed reduced activities in obese rats: glutamine synthetase (45%), AMP deaminase (52%), alanine aminotransferase (66%) and glutamate dehydrogenase (68%) in BAT, whereas WAT of obese animals only showed lower aspartate aminotransferase activity (47%) with respect to the controls. We can conclude that these adaptations in amino acid metabolism were exclusively dependent on the obese status as they were observed in an obesity model in which obese rats eat the same diet as controls.
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PMID:Brown and white adipose tissue adaptive enzymatic changes on amino acid metabolism in persistent dietary-obese rats. 791 90

Few studies examine ammonia and amino acid metabolism in response to endurance training. Trained humans generally experience less increase in plasma ammonia during either prolonged or intense exercise. This is probably a reflection of reduced ammonia production and release from the active muscle; it could be a reflection of decreased AMP deaminase activity, decreased glutamate dehydrogenase activity, and/or increased alanine and glutamine formation. Little is known regarding the associated enzyme systems in humans, but in experiments with animal models, aerobic training decreases AMP deaminase and increases the enzymes of amino acid transamination and oxidation.
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PMID:Effect of endurance training on ammonia and amino acid metabolism in humans. 914 Sep 2

Hypoglycemic coma caused by insulin injection to rats with alloxan-induced diabetes was accompanied by an increase in the concentrations of urea and uric acid and decrease in the content of free amino acids in blood plasma. Activities of glutamate dehydrogenase, AMP deaminase, glutaminase, ALT, and AST in the liver of experimental animals increased.
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PMID:Parameters of nitrogen metabolism during insulin hypoglycemia in rats with alloxan-induced diabetes. 1914 18

Acute alcohol intoxication in rats with alloxan diabetes is accompanied by the increase of urea and uric acid and by the decrease in free fatty acids in serum. In the liver of experimental animals the increase of activity of glutamate dehydrogenase, AMP deaminase, and tyrosine transaminase was found.
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PMID:[The effect of acute alcohol intoxication on some parameters of nitrogenous metabolism in rats with alloxan diabetes]. 2272 61

The concentrations of urea and uric acid increased, while the content of free amino acids decreased in blood serum from rats with alloxan-induced diabetes during acute alcohol intoxication. Activities of glutamate dehydrogenase, AMP deaminase, and tyrosine aminotransferase in the liver of experimental animals increased.
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PMID:Nitrogen metabolism in rats with experimental diabetes during acute alcohol intoxication. 2280 33

In order to gain insight into the ammonia-detoxification mechanisms in the brain and liver tissues, we have investigated the effects of hyperammonemia in rats, in vivo, on the activity levels of a number of ammonia- and glutamate-metabolizing enzymes in mitochondria and the cytosolic fractions of the cerebral cortex, cerebellum, hippocampus, striatum and liver. In general, the ammonia metabolizing enzymes - glutaminase, glutamine synthetase, glutamate dehydrogenase, AMP deaminase, adenosine deaminase, as well as aspartate aminotransferase and alanine aminotransferase - are differentially upregulated in various brain and liver regions of the hyperammonemic rats, indicating that divergent ammonia-detoxification mechanisms are involved in the various brain regions and liver in acute hyperammonemia.
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PMID:Differential up-regulation of ammonia detoxifying enzymes in cerebral cortex, cerebellum, hippocampus, striatum and liver in hyperammonemia. 2694 89


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