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 analyzed the upstream region of the GDH2 gene, which encodes the NAD-linked glutamate dehydrogenase in Saccharomyces cerevisiae, for elements important for the regulation of the gene by the nitrogen source. The levels of this enzyme are high in cells grown with glutamate as the sole source of nitrogen and low in cells grown with glutamine or ammonium. We found that this regulation occurs at the level of transcription and that a total of six sites are required to cause a CYC1-lacZ fusion to the GDH2 gene to be regulated in the same manner as the NAD-linked glutamate dehydrogenase. Two sites behaved as upstream activation sites (UASs). The remaining four sites were found to block the effects of the two UASs in such a way that the GDH2-CYC1-lacZ fusion was not expressed unless the cells containing it were grown under conditions favorable for the activity of both UASs. This complex regulatory system appears to account for the fact that GDH2 expression is exquisitely sensitive to glutamine, whereas the expression of GLN1, coding for glutamine synthetase, is not nearly as sensitive.
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PMID:Role of the complex upstream region of the GDH2 gene in nitrogen regulation of the NAD-linked glutamate dehydrogenase in Saccharomyces cerevisiae. 168 1

The reaction mechanism of Azospirillum brasilense glutamate synthase has been investigated by several approaches. 15N nuclear magnetic resonance studies demonstrate that the amide nitrogen of glutamine is reductively transferred to 2-oxoglutarate in an irreversible manner with no release of the transferred ammonia group into the medium. Identical results were obtained using thio-NADPH and acetylpyridine-NADPH, which are shown to be less efficient substrates of the enzyme than NADPH. Similarly, no exchange of the ammonia group being transferred with exogenous ammonium ion was observed during catalysis. The glutamate formed as the product of the iminoglutarate reduction was determined to be in the L configuration. The enzyme was also found to catalyze, under anaerobic conditions, the exchange of the 4proS H of NADPH with solvent both in the absence and in the presence of 2-oxoglutarate and glutamine. The reductive half-reaction is therefore a reversible segment of the overall irreversible amidotransferase reaction. 15N NMR studies also showed that the enzyme does not catalyze glutamate dehydrogenase/oxidase reactions or any observable glutaminase activity under neutral (pH 7.5) conditions. Glutaminase activity was also not observable with the reduced enzyme alone or in the presence of D-glutamate (a competitive inhibitor of glutamate synthase with respect to 2-oxoglutarate, with a Ki of about 11 microM) or with the oxidized enzyme in the presence of 2-oxoglutarate, D-glutamate, or NADP+. These data confirm species-dependent differences of A. brasilense glutamate synthase with respect to the enzyme from other sources.
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PMID:Mechanistic studies on Azospirillum brasilense glutamate synthase. 168 91

Two pathways serve for assimilation of ammonia in Paracoccus denitrificans. Glutamate dehydrogenase (NADP+) catalyzes the assimilation at a high NH4+ concentration. If nitrate serves as the nitrogen source, glutamate is synthesized by glutamate-ammonia ligase and glutamate synthase (NADPH). At a very low NH4+ concentration, all three enzymes are synthesized simultaneously. No direct relationship exists between glutamate dehydrogenase (NADP+) and glutamate-ammonia ligase in P. denitrificans, while the glutamate synthase (NADPH) activity changes in parallel with that of the latter enzyme. Ammonia does not influence the induction or repression of glutamate dehydrogenase (NADP+). The inner concentration of metabolites indicates a possible repression of glutamate dehydrogenase (NADP+) by the high concentration of glutamine or its metabolic products as in the case when NH4+ is formed by assimilative nitrate reduction. No direct effect of the intermediates of nitrate assimilation on the synthesis of glutamate dehydrogenase (NADP+) was observed.
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PMID:Assimilation of ammonia in Paracoccus denitrificans. 168 63

Chlorella sorokiniana possesses ammonium-inducible, chloroplastic, NADP-specific glutamate dehydrogenase (NADP-GDH) homo- or heterohexamers composed of alpha- and/or beta-subunits which were previously shown to derive from precursor protein(s) of identical size. From the present studies, data are consistent with these two subunits being encoded by a single nuclear gene. The NADP-GDH gene is greater than 7 kb in length due to the presence of at least 21 introns, an unusually large number for a eukaryotic microorganism. The exons, identified by comparison with sequences of NADP-GDH cDNA clones, include a region which is highly conserved among NADP-GDH genes. This region in the C. sorokiniana gene is 77% and 73% identical to the corresponding regions in the Escherichia coli and Neurospora crassa NADP-GDH genes, respectively. Seventeen independent NADP-GDH cDNA clones were analyzed by restriction mapping and partial sequencing, and no differences were detected among them. The longest cDNA was fused in frame with lacZ in a Bluescript vector and was expressed in E. coli as NADP-GDH antigen. During a 240 min induction period, under conditions in which both types of subunits were synthesized, only a single (2.2 kb) NADP-GDH mRNA band was detected on northern blots using cDNA probes from the highly conserved and 3'-untranslated regions. Collectively, these results are consistent with a single mRNA encoding a precursor-protein which is differentially processed to yield either an alpha- or beta-subunit.
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PMID:A nuclear gene with many introns encoding ammonium-inducible chloroplastic NADP-specific glutamate dehydrogenase(s) in Chlorella sorokiniana. 171 78

We established a simple and rapid enzymatic method for measuring potassium ion in serum by using tryptophanase (EC 4.1.99.1) purified from Escherichia coli K12 strain (E. coli K12 IFO 3301). The presence of pyridoxal 5-phosphate promotes this enzymatic reaction, and potassium and (or) ammonium ions further accelerate it, with ammonium and potassium ions providing equivalent acceleration. We eliminated endogenous ammonium ion by using glutamate dehydrogenase (GLDH; EC 1.4.1.4), then produced ammonium ion in the presence of tryptophanase, tryptophan, and pyridoxal 5-phosphate. The concentration of formed ammonium ion, which was proportional to that of potassium ion in sample, was determined by adding GLDH to produce NADP+ in the presence of 2-oxoglutarate and NADPH; we then read the change of absorbance at 340 nm. The standard curve was linear for potassium ion concentrations up to 7.00 mmol/L. The within-assay variation (CV) was 0.89% at 5.51 mmol/L and 1.32% at 3.37 mmol/L. The day-to-day CVs were 0.99% at 6.85 mmol/L and 1.71% at 3.52 mmol/L. Analytical recoveries ranged from 98.7% to 108.9%. The correlation coefficient between values obtained with this enzymatic assay (y) and by flame photometry (x) was 0.995: y = 0.984x + 0.091 mmol/L (Sy.x = 0.105, n = 100). The presence of hemoglobin, bilirubin, or other cations little affects this system.
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PMID:New enzymatic method with tryptophanase for determining potassium in serum. 173 5

Pregnant rats of 19th and 21st days were given an acute nitrogen overload produced by an infusion of either 0.2 M ammonium acetate or 0.2 M glutamine. Metabolic adaptations to nitrogen excess were studied measuring--in fetomaternal unit--non-protein nitrogen content and the activities of enzymes related with ammonia metabolism. Maternal and fetal plasma urea levels were increased by ammonium acetate treatment. Glutamine overload increased more the amino acid content in the mothers than in conceptus. As response to ammonium acetate treatment, glutamate dehydrogenase activity in liver was more sensitive in pregnant than in nonpregnant rats, suggesting more nitrogen incorporation into amino acids in pregnancy. Regarding glutamine synthetase activity, both treatments had an opposite effect except in kidney. The adenylate deaminase activity of pregnant rats was inhibited similarly to nonpregnant rats by nitrogen overloads, but stronger after glutamine infusion. Placenta and fetal metabolism were adjusted, as the dams, to lack of ammonia production by nitrogen overloads and to glutamine synthesis by ammonium acetate infusion.
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PMID:Metabolic adaptations to nitrogen excess in late gestation in rat. 177 94

The enzymes of the assimilation pathways in cultures of S. hygroscopicus grown in the presence of various nitrogen sources were investigated. No assimilation activity of glutamate dehydrogenase (GDH) was observed. Activities of alanine dehydrogenase (ADH), GDH, glutamine: 2-oxoglutarate aminotransferase (GOGAT) and glutamate synthetase (GS) were studied. High concentrations of ammonium and alanine induced ADH formation. The levels of GS remained low in media with NH4Cl. Various nitrogen sources had no impact on the activity of GOGAT which suggested the involvement of constitutive synthesis. ADH was likely to play an alternative role. Determination of the quantitative and qualitative composition of the free amino acids confirmed the involvement of the GS-GOGAT pathway in nitrogen assimilation. The concentration of ammonium ions in the media with one amino acid or in the presence of several amino acids lowered the antibiotic activity while in the media with alanine and the other nitrogen compounds it increased the antibiotic activity.
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PMID:[Impact of nitrogen assimilation on regulation of antibiotic production in Streptomyces hygroscopicus 155]. 187 81

Glutamate dehydrogenase (L-glutamate:NAD(P)+ oxidoreductase, deaminating, EC 1.4.1.3.) of the extreme thermophilic archaebacterium Sulfolobus solfataricus was purified to homogeneity by (NH4)2SO4 fractionation, anion-exchange chromatography and affinity chromatography on 5'-AMP-Sepharose. The purified native enzyme had a Mr of about 270,000 and was shown to be a hexamer of subunit Mr of 44,000. It was active from 30 to 95 degrees C, with a maximum activity at 85 degrees C. No significant loss of enzyme activity could be detected, either after incubation of the purified enzyme at 90 degrees C for 60 min, or in the presence of 4 M urea or 0.1% SDS. The enzyme was catalytically active with both NADH and NADPH as coenzyme and was specific for 2-oxoglutarate and L-glutamate as substrates. With respect to coenzyme utilization the Sulfolobus solfataricus glutamate dehydrogenase resembled more closely the equivalent enzymes from eukaryotic organisms than those from eubacteria.
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PMID:Purification and properties of an extreme thermostable glutamate dehydrogenase from the archaebacterium Sulfolobus solfataricus. 189 41

The unicellular cyanobacterium Synechocystis sp. PCC 6803 presents a hexameric NAD-specific glutamate dehydrogenase with a molecular mass of 295 kDa. The enzyme differs from the NADP-glutamate dehydrogenase found in the same strain and is coded by a different gene. NAD-glutamate dehydrogenase shows a high coenzyme specificity, catalyzes preferentially glutamate formation and presents Km values for ammonium, NADH and 2-oxoglutarate of 4.5 mM, 50 microM and 1.8 mM respectively. An animating role for the enzyme is discussed.
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PMID:An NAD-specific glutamate dehydrogenase from cyanobacteria. Identification and properties. 190 12

The NAD-dependent glutamate dehydrogenase (GDH) from Dictyostelium discoideum was purified 1101-fold with a yield of 23.4%. The enzyme has an apparent Mr of 356 kDa, determined using Sephacryl S400, and a subunit molecular weight of 54 kDa on SDS-polyacrylamide gel electrophoresis. The Kms for alpha-ketoglutarate, NADH, and NH4+ are 0.36 +/- 0.03 mM, 16.0 +/- 0.1 microM, and 34.5 +/- 2.7 mM, respectively. The purified enzyme has a pH optimum of pH 7.25-7.5. At 0.1 mM, ADP and AMP stimulate GDH activity 25 and 102%, respectively. Half-maximal activity in the presence of 0.1 mM AMP for alpha-ketoglutarate, NADH, and NH4+ is reached at 2.3 +/- 0.1 mM, 71.4 +/- 5.5 microM, and 27.9 +/- 3.6 mM, respectively.
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PMID:The NAD-dependent glutamate dehydrogenase from Dictyostelium discoideum: purification and properties. 195 36

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