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)

A flow injection chemiluminometric assay for urea has been developed based on a minicolumn bioreactor packed with immobilized enzyme-bearing glass beads. The reactor contains immobilized urease, L-glutamate dehydrogenase and L-glutamate oxidase, aligned in this order (upstream to the downstream). When the sample is introduced into the bioreactor, urea is first hydrolysed by urease to produce ammonia, which is then converted into L-glutamate by L-glutamate dehydrogenase. L-Glutamate is finally oxidized by L-glutamate oxidase to produce hydrogen peroxide, which is quantified by measuring chemiluminescence emitted upon admixing with luminol and potassium ferricyanide. One assay cycle is completed within 1 minute. The method is sensitive (detection limit 0.5 nmol) and is linear in the range 0-30 mmol/l. It can be readily applied to the determination of urea in human serum, and requires no blank corrections for ammonia and/or L-glutamate present in serum samples.
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PMID:A chemiluminometric method for the determination of urea in serum using a three-enzyme bioreactor. 321 92

Thirty strains were isolated from pasteurized soil samples by enrichment culture in aerobiosis at 32 degrees C in a minimal medium containing one of the following compounds as sole source of carbon and energy: quinate, p-hydroxybenzoate, phthalate, isophthalate or trimellitate. These bacteria were rods (0.8 X 2-7 micron), motile by peritrichous flagella. Endospores were oval (1.4-1.8 X 2 micron) and distinctly swelled the sporangia. The Gram reaction was variable but the Gram type was positive. Colonies were smaller on peptone (0.4%) agar than on minimal salts-glucose (0.2%) agar. The following characters were always present: growth in the presence of lysozyme, cytochrome c oxidase, catalase, nitrate assimilation, urease, amylase and L-glutamate dehydrogenase. The cells contained glycogen. In anaerobiosis, glucose was not fermented and nitrate was not used as a respiratory acceptor of electrons. Of 215 substrates tested, 31 (including 9 aromatic compounds) were used as sole carbon and energy sources by all 30 strains, and 38 substrates (including 13 aromatic compounds) were used by only some of them; 146 substrates (including 49 aromatic compounds) were not used by any of the 30 strains. No amino acid could be used as sole carbon and energy source. Numerical analysis of the 30 strains showed an aggregate cluster made of 5 phena. The mean G + C content of the DNA was 55 +/- 0.6 mol %. The described bacteria are clearly different from the 2 known species of the second morphological group which cannot ferment carbohydrates: Bacillus brevis and B. azotoformans. Strain Q1 (ATCC 29948) is the holotype of Bacillus gordonae sp. nov.
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PMID:[Bacillus gordonae sp. nov., a new species belonging to the second morphological group, degrading various aromatic compounds]. 367 81

A spectrophotometric method for the determination of arginase (EC 3.5.3.1) is presented. Arginase is coupled to urease and glutamate dehydrogenase and the decrease in absorbance at 340 nm due to the oxidation of NADPH is followed. The method is rapid, is sensitive, is economical and permits continuous monitoring. The initial velocities were directly proportional to the enzyme concentrations between 0.06 and 0.30 units per 0.5 ml. The Lineweaver-Burk plot yielded positive allosteric behavior for the tetrameric enzyme. The K' and the Hill coefficient, n, calculated from Hill plot were found to be 4.7 mM and 1.26 (r = 1.00), respectively. These values are in good agreement with the literature.
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PMID:A new enzyme-coupled spectrophotometric method for the determination of arginase activity. 401 34

Activities of the oligomeric enzymes urease and l-glutamate dehydrogenase were measured after exposure as dry preparations to various doses of electron radiation. Inactivation curves were exponential. ;Target sizes' deduced from these were small compared with the molecular weights of the whole enzyme molecules, but accorded well with independent estimates of the sizes of functional subunits. It was concluded that, when these were in associated from, there could be no transfer of absorbed energy between subunits.
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PMID:Radiation-target molecular weights of urease and of L-glutamate dehydrogenase, and their relevance to the size of the functional subunits. 512 63

In Pseudomonas aeruginosa the formation of urease, histidase and some other enzymes involved in nitrogen assimilation is repressed by ammonia in the growth medium. The key metabolite in this process appears to be glutamine or a product derived from it, since ammonia and glutamate did not repress urease and histidase synthesis in a mutant lacking glutamine synthetase activity when growth was limited for glutamine. The synthesis of these enzymes was repressed in cells growing in the presence of excess glutamine. High levels of glutamine were also required for the derepression of NADP-dependent glutamate dehydrogenase formation in the glutamine synthetase-negative mutant.
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PMID:Nitrogen control in Pseudomonas aeruginosa: a role for glutamine in the regulations of the synthesis of nadp-dependent glutamate dehydrogenase, urease and histidase. 611 86

Urease and glutamine synthetase activities in Selenomonas ruminantium strain D were highest in cells grown in ammonia-limited, linear-growth cultures or when certain compounds other than ammonia served as the nitrogen source and limited the growth rate in batch cultures. Glutamate dehydrogenase activity was highest during glucose (energy)-limited growth or when ammonia was not growth limiting. A positive correlation (R = 0.96) between glutamine synthetase and urease activities was observed for a variety of growth conditions, and both enzyme activities were simultaneously repressed when excess ammonia was added to ammonia-limited, linear-growth cultures. The glutamate analog methionine sulfoximine (MSX), inhibited glutamine synthetase activity in vitro, but glutamate dehydrogenase, glutamate synthase, and urease activities were not affected. The addition of MSX (0.1 to 100 mM) to cultures growing with 20 mM ammonia resulted in growth rate inhibition that was dependent upon the concentration of MSX and was overcome by glutamine addition. Urease activity in MSX-inhibited cultures was increased significantly, suggesting that ammonia was not the direct repressor of urease activity. In ammonia-limited, linear-growth cultures, MSX addition resulted in growth inhibition, a decrease in GS activity, and an increase in urease activity. These results are discussed with respect to the importance of glutamine synthetase and glutamate dehydrogenase for ammonia assimilation under different growth conditions and the relationship of these enzymes to urease.
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PMID:Regulation of urease and ammonia assimilatory enzymes in Selenomonas ruminantium. 611 7

Mutants were isolated from Pseudomonas aeruginosa that were impaired in the utilization of a number of nitrogen sources. In contrast to the wild-type strain, these mutants appeared to be unable to derepress the formation of glutamine synthetase and urease under nitrogen-limited growth conditions, whereas NADP-dependent glutamate dehydrogenase became derepressed. This GlnR- phenotype appeared to be caused by a mutation located in the early region of the P. aeruginosa PAO chromosomal map, close to hisIV59. Partial suppression of the GlnR- phenotype due to a mutation located close to hisII4 was observed. These revertants were different from both the wild-type strain and the GlnR- mutant with respect to the regulation of the synthesis of glutamine synthetase, urease, and NADP-dependent glutamate dehydrogenase (GlnRc phenotype). Also the regulation of glutamine synthetase activity by adenylylation/deadenylylation was altered in the revertants. The results suggest the presence of a regulatory gene that plays a role in the regulation of enzyme formation in response to the availability of ammonia.
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PMID:Nitrogen control in Pseudomonas aeruginosa: mutants affected in the synthesis of glutamine synthetase, urease, and NADP-dependent glutamate dehydrogenase. 612 99

Measurement of urinary urea excretion has been suggested as a means of estimating nitrogen balance in hospitalized patients who are malnourished. Because proficiency-testing surveys show gross variations in mean urea as determined by various automated methods and extremely poor precision occasionally, we compared urinary urea measurements and ammonia interference in three widely used methods. The coupled urease/glutamate dehydrogenase method (used in the DuPont aca) showed positive interference from ammonia, as expected; with the diacetylmonoxime (Technicon (12/60) and the urease conductivity (Beckman ASTRA) methods we saw no such interference. Generally, interference by ammonia is less than 10%, but (rarely) it may exceed 25%. However, if urine specimens are properly diluted and potential sources of interference recognized, all three methods appear capable of providing clinically useful data.
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PMID:Urinary urea: are currently available methods adequate for revival of an almost abandoned test? 708 63

The purpose of this paper is to investigate the specific metabolism of the protein and amino acid during pregnancy from a standpoint of urea nitrogen recycling hydrolyzed by intestinal bacterial urease of pregnant rat. For this purpose, the activity of urease of the intestinal flora, and L-glutamate dehydrogenase (GDH) in liver mitochondria, the concentration of free ammonia and urea in the intestinal tract, portal vein and right ventricle of the rat were discussed. The results were: 1) The activity of urease moderately increased during pregnancy with the peak on 19th gestational day. 2) The concentration of free ammonia in the intestinal tract elevated slightly, and markedly elevated in portal vein, but seemed to be no specific change in right ventricle. The peak showed on 19th gestational day. 3) The activity of GDH increased markedly during pregnancy, and the protein synthesis was thought to be accelerated. 4) Urea concentration in intestinal tract and blood stream seemed somewhat increased. This results revealed that the urea recycling system and protein synthesis accelerated during pregnancy because of high urease and GDH activity. This phenomenon adapted the pregnant to nutrient of the fetus for growing and development, and introduced a new concept of maternal-fetal unit of nutrition, especially in protein metabolism.
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PMID:[Studies on entero hepatic circulation of urea nitrogen in pregnant rat (author's transl)]. 724 Aug 47

The authors compared three urea nitrogen methods using six instruments: (1) the diacetyl monoxime method used with a continuous flow analyzer Sequential Multiple Analyzer Model 4 + 2; (2) the diacetyl monoxime method used with an older continuous flow analyzer (Sequential Multiple Analyzer Model 6/60; (3) the diacetyl monoxime method used with a third continuous flow system, AutoAnalyzer Model I; (4) the urease-conductivity method performed on the Beckman System I; (5) the urease-glutamate dehydrogenase method performed on the DuPont Automatic Clinical Analyzer; (6) the urease-glutamate dehydrogenase method done on a centrifugal analyzer, CentrifiChem. We evaluated each method for the following: (1) within-run precision; (2) between-day precision; (3) linearity of the relationship between concentration and instrument output; (4) specificity; (5) carry-over; (6) comparison of urea nitrogen values for samples from patients.
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PMID:Evaluation of three methods for the measurement of urea nitrogen in serum as used on six instruments. 736 15

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