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)

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 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

The glutamate dehydrogenase and glutamine synthetase activities of an obligate halophyte, Suaeda maritima var. macrocarpa and a glycophyte. Phaseolus vulgaris are compared in function of salinity (increasing concentrations of NaCl) of the culturing solution. In culture, addition of NaCl stimulates glutamine synthetase activity and lowers glutamine dehydrogenase activity in the aerial organs and in the roots of Suaeda as opposed to what is observed in the glycophyte. Hence the obligatory halophily of Suaeda is related to an increase of the glutamine synthetase activity in a sal-trich medium corresponding to the stimulation of nitrate reductase and proteogenesis.
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PMID:[Comparison of glutamate dehydrogenase and glutamine synthetase activities in the roots and aerial organs of an obligate halophyte: Suaeda maritima var. macrocarpa and a glycophyte: Phaseolus vulgaris, grown in presence of different concentration of NaCl]. 4 95

Chronic ammonia toxicity in experimental mice was induced by exposing them for 2 and 5 days to 5 % (v/v) ammonia solution. The enzymes concerned with glutamate metabolism (aspartate-, alanine- and tyrosine aminotransferases, glutamate dehydrogenase and glutamine synthetase) and (Na+ + K+)-ATPase were estimated in the three regions of brain (cerebellum, cerebral cortex and brain stem) and in liver. Glutamate, aspartate, alanine, glutamine and GABA, RNA and protein were also estimated in the three regions of brain and liver. A significant rise in the activity of (Na+ + K+)-ATPase in all the three regions of brain along with a fall in the activity of alanine aminotransferase was noticed. Changes in the activities of other enzymes were also observed. A significant increase in alanine and a decrease in glutamic acid was observed while no change was observed in the content of other amino acids belonging to the glutamate family. As a result of this, changes in the ratios of glutamate/glutamine and glutamate + aspartate/GABA was observed. The results indicated that the brain was in a state of more depression and less of excitation. Under these conditions the liver tissue was showing a profound rise in the activity of the enzymes of glutamate metabolism. The results are further discussed.
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PMID:Chronic metabolic effects of ammonia in mouse brain. 9 19

The influence of concentration of nitrogenous matters (N-matters) and urea supplement in diet for broilers was studied, as exerted on the activities of the enzymes glutamate dehydrogenase (GLDH) and glutamine synthetase (GS) in liver, kidney, tissue and contents of the cecum. If 2% urea had been substituted for a portion of N-matters, no significant differences in the activities of both enzymes in liver and cecum were found. Higher levels of GLDH were recorded in the kidney of broilers given diets with the urea supplement of 17 and 19% N-matters concentrations. The GLDH and GS activities were significantly high in the contents of the cecum, the GLDH activity being the highest with the diet of 19% N-matters concentration. No significant changes in the GLDH activity depending on the concentration of N-matters in the diet were observed in the liver. The GS activity increased moderately with the higher concentration of N-matters.
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PMID:[Effect of dietary nitrogen compounds and urea on the GLDH and DS activities in broilers]. 10 69

A comparative study of glutamate dehydrogenase (GLDH 1.4.1.2) and glutamine synthetase (GS 6.3.1.2.) activity in liver, kidney and spleen homogenates from cattle, sheep, pigs and chickens showed that chicken liver contained on an average 3.5%, pig liver 8.3% and bovine liver 45.6% of the glutamate dehydrogenase activity present in sheep liver. Relatively low trace activity was found in the spleen and kidneys, except for the renal cortex of cattle (32% of activity in the liver). GS activity was the highest in chicken liver; in pigs it amounted to 33.40%, in cattle to 24.2% and in sheep to 19.7% of this activity. No marked interspecies differences were found in the values in the kidneys and spleen. It can be concluded from the results that the relatively high GLDH activity in the liver of ruminants compared with pigs and chicken is associated with the greater ability of ruminants to utilize ammonia. The higher GS activity and lower GLDH activity in chicken liver can be attributed to higher uric acid synthesis from ammonia via glutamine and purine bases and the lower ability of birds to utilize ammonia for protein synthesis. The presence of alanine dehydrogenase was not demonstrated in chicken liver, where the maximum oxidation of NADH after the addition to pyruvate and ammonia substrate was found.
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PMID:Glutamate dehydrogenase and glutamine synthetase activity in some organs of ruminants and monogastric animals. 14 73

1)The time course of changes in concentration of renal metabolites in response to a non-toxic load of NH4 as NH4 Cl or NH4HCO3 were measured in fasted rats. 2) Following a NH4Cl load, decrease of renal concentration of 2-oxoglutarate occurs but this change is delayed in relation to the peak of the blood ammonia concentration and persists after disappearance of the hyperammoniemia. 3) Following a NH4HCO3 load, the oxoglutarate concentration changes are less marked and more transient. 4) No close relationship between the mitochondrial free NAD/NADH ratio calculated from the glutamate dehydrogenase and the 3-hydroxybutyrate dehydrogenase systems were seen during alteration of the ammonia concentration. 5) Contrary to the observations in the liver under similar circumstances (BROSNAN, J.T. et al.: Biochem.J. 138, 453, 1974), no increase in kidney tissue or renal venous blood alanine or aspartate concentration are seen. 6) A constant infusion of NH4HCO3 resulted only in an increase in tissue and renal venous blood glutamine concentration. 7) The infusion of NH4 together with a carbon source (malate) resulted in a similar increase in tissue glutamine concentration and more striking increase in renal venous glutamine concentration. No accumulation of aspartate nor alanine were seen. 8) In vitro studies indicate that the net flux through both the aspartate aminotransferase and the glutamate dehydrogenase reactions is dependent on the concentration of the reactants as expected for a near-equilibrium system. 9) It is concluded that the kidney response to an ammonia load differs from that of the liver despite the existence of a similar network of near-equilibrium reactions of (1) a lack of local availability of oxaloacetate, (2) a lower activity of alanine aminotransferase, (3) a greater in vivo activity of glutamine synthetase.
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PMID:Effect of an ammonia load on the kidney near-equilibrium systems in the rat in vivo. 18 80

The enzymes involved in the assimilation of ammonia by free-living cultures of Rhizobium spp. are glutamine synthetase (EC. 6.o.I.2), glutamate synthase (L-glutamine:2-oxoglutarate amino transferase) and glutamate dehydrogenase (ED I.4.I.4). Under conditions of ammonia or nitrate limitation in a chemostat the assimilation of ammonia by cultures of R. leguminosarum, R. trifolii and R. japonicum proceeded via glutamine synthetase and glutamate synthase. Under glucose limitation and with an excess of inorganic nitrogen, ammonia was assimilated via glutamate dehydrogenase, neither glutamine synthetase nor glutamate synthase activities being detected in extracts. The coenzyme specificity of glutamate synthase varied according to species, being linked to NADP for the fast-growing R. leguminosarum, R. melitoti, R. phaseoli and R. trifolii but to NAD for the slow-growing R. japonicum and R. lupini. Glutamine synthetase, glutamate synthase and glutamate dehydrogenase activities were assayed in sonicated bacteroid preparations and in the nodule supernatants of Glycine max, Vicia faba, Pisum sativum, Lupinus luteus, Medicago sativa, Phaseolus coccineus and P. vulgaris nodules. All bacteroid preparations, except those from M. sativa and P. coccineus, contained glutamate synthase but substantial activities were found only in Glycine max and Lupinus luteus. The glutamine synthetase activities of bacteroids were low, although high activities were found in all the nodule supernatants. Glutamate dehydrogenase activity was present in all bacteroid samples examined. There was no evidence for the operation of the glutamine synthetase/glutamate synthase system in ammonia assimilation in root nodules, suggesting that ammonia produced by nitrogen fixation in the bacteroid is assimilated by enzymes of the plant system.
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PMID:Ammonia assimilation by rhizobium cultures and bacteroids. 23 5

The activities of the following enzymes were studied in connection with dinitrogen fixation in pea bacteroids: glutamine synthetase(L-glutamate: ammonia ligase (ADP-forming)(EC 6.3.1.2)(GS); glutamate dehydrogenase (NADP+)(L-glutamate: NADP+ oxidoreductase (deaminating)(EC 1.4.1.4)(GDH); glutamate synthase (L-glutamine: 2-exeglutarate aminotransferase (NADPH-oxidizing))(EC 2.6.1.53)(GOGAT). GS activity was high throughout the growth of the plant and GOGAT activity was always low. It is unlikely that GDH or the GS-GOGAT pathway can account for the incorporation of ammonia from dinitrogen fixation in the pea bacteroid,
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PMID:Enzymes of ammonia assimilation in Rhizobium leguminosarum bacteroids. 23 31

A positive selection procedure has been devised for isolating mutant strains of Salmonella typhimurium with altered glutamine synthetase activity. Mutants are derived from a histidine auxotroph by selecting for ability to grow on D-histidine as the sole histidine source. We hypothesize that the phenotype may be based on a regulatory increase in the activities of the D-histidine racemizing enzymes, but this has not been established. Spontaneous glutamine-requiring mutants isolated by the above selection procedure have two types of alterations in glutamine synthetase activity. Some have less than 10% of parent activity. Others have significant glutamine synthetase activity, but the enzyme have an altered response to divalent cations. Activity in mutants of the second type mimics that of highly adenylylated wild-type enzyme, which is believed to be in-active in vivo. Glutamine synthetase from one such mutant is more heat labile than wild-type enzyme, indicating that it is structurally altered. Mutations in all strains are probably in the glutamine synthetase structural gene (glnA). They are closely linked on the Salmonella chromosome and lie at about min 125. The mutants have normal glutamate dehydrogenase activity.
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PMID:Mutations affecting glutamine synthetase activity in Salmonella typhimurium. 23 35

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