EC:2.6.1.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.6.1.1 (aspartate aminotransferase)
21,665 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Transaminative metabolism of L-cysteine was investigated using homogenates of guinea pig liver and kidney. L-Cysteine was transaminated in the presence of 2-oxoglutarate and the homogenate of either liver or kidney. S-(2-Hydroxy-2-carboxyethylthio)cysteine (HCETC) (3-mercaptolactate-cysteine disulfide) was formed by liver homogenate, but the amount was very small. On the other hand, a relatively large amount of HCETC was formed in the presence of kidney homogenate. Transamination between 3-mercaptopyruvate and certain amino acids was catalyzed actively by both liver and kidney homogenates in the presence of L-glutamate. However, more half-cysteine was formed by liver than kidney, and more HCETC was produced by kidney than liver. L-Glutamate was the most potent amino donor, and L-aspartate strongly inhibited the reaction. Results indicate that L-cysteine can be transaminated both in liver and kidney of the guinea pig, and that kidney is more active than liver. 2-Oxoglutarate is the most active 2-oxo acid for cysteine transamination. Oxaloacetate (and aspartate in the reverse reaction) is inhibitory to the reaction. These results are in agreement with the previous conclusion that cysteine aminotransferase is identical with aspartate aminotransferase.
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PMID:Transaminative metabolism of L-cysteine in guinea pig liver and kidney. 649 71

Resynthesis of aspartate via glutamate was decreased 6-8-fold in rat brain spinal cord tissues due to distinct inhibition of aspartate aminotransferase in acute alcohol intoxication. Consumption of glutamic acid was distinctly increased 1.5-2-fold in tissues of the central nervous system but its metabolism was altered. Normalization occurred within 12-24 hrs after the intake of alcohol. In the state of chronic alcohol intoxication the enzymatic activity was marked increased in brain and spinal cord; in this case the response to a single alcohol administration was altered as compared with acute alcohol intoxication.
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PMID:[Aspartate aminotransferase activity in the brain and spinal cord in acute and chronic alcoholic intoxication]. 719 5

The changes in both the levels of some free amino acids and their metabolism in the rat brain during the first 24 hr of postnatal life were studied. The content of glutamic acid decreased for the first 2 hr; it remained at the lowest level for the next 4 hr, when it began to increase. The content of alanine decreased for the first 6 hr and approached the adult level. Oxygen consumption, glucose oxidation, and pyruvate formation in the cerebral slices of the 24-hr-old rats were as much as 150% of that of the 19-day-old fetus. The distribution profile of radioactivity incorporated into the cerebral amino acids from the subarachnoid-injected [U-14C]glucose was also changed. In the 2- and 6-hr-old rats, 50% of the total radioactivity recovered in the free amino acids was in alanine. Its rate decreased to 30% in the 24-hr-old and was 2% in the adult, while the radioactivity incorporated into glutamic acid increased. Alanine aminotransferase activity started to increase at birth and had the highest level at 24 hr after birth. It then decreased and finally reached the same level as shown at birth. However, aspartate aminotransferase increased during the first 6 hr after birth and did not change until the end of the first day of life.
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PMID:Perinatal changes in amino acid metabolism of rat brain, especially alanine and glutamic acid. 746 80

It is shown by fluorescence spectroscopy that the post-activated form of neocarzinostatin chromophore (NCSi-glu) can form stable complexes with single-site oligonucleotides (SSOs) featuring sequences known to be involved in double stranded (AGC.GCT, AGT.ACT, AGA.TCT, ACA.TGT) or single stranded (AGG.CCT) cleavage (attacked residues in bold). Furthermore, the same SSOs form cleavage productive complexes with native neocarzinostatin chromophore (NCS chrom) over a similar concentration range. The productive complexes yield damage similar to that observed if the same sequence is part of a longer DNA piece. Previously identified double stranded site sequences ATT.AAT and TAT.ATA are shown to contain overlapping attack sites. Binding order preference derived from fluorescence quenching experiments for NCSi-glu is consistent with constants derived by quantitative cleavage affinity binding experiments with NCS chrom. This confirms the similarity in interactions between the NCSi-glu and NCS chrom and justifies the use of NCSi-glu as a stable analog of NCS chrom.
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PMID:Binding and cleavage characteristics of the complexes formed between the neocarzinostatin chromophore and single site containing oligonucleotides. 758 49

L-Glutamate is the immediate precursor of the inhibitory transmitter GABA, and considered to be supplied from alpha-ketoglutarate through a transamination reaction or from glutamine through a glutaminase reaction. In the present study, the localization of aspartate aminotransferase and glutaminase in GABAergic neurons was investigated in the rat neocortex by a double immunofluorescence method. Immunoreactivities for both soluble and mitochondrial aspartate aminotransferases were detected in more than 90% of GABA-positive neurons, whereas glutaminase immunoreactivity was not found in GABA-positive neurons. All neocortical neurons with soluble aspartate aminotransferase immunoreactivity were immunopositive for GABA, but none for glutaminase. Neurons with mitochondrial aspartate aminotransferase immunoreactivity showed either glutaminase or GABA immunoreactivity. Under confocal laser scan microscopy, immunoreactivity for soluble aspartate aminotransferase was observed in many axons and axon terminals showing immunoreactivity for glutamic acid decarboxylase, whereas immunoreactivity for mitochondrial aspartate aminotransferase was seen in only a few axons displaying immunoreactivity for glutamic acid decarboxylase. The present results indicate that soluble aspartate aminotransferase is selectively localized to cell bodies and axon terminals of GABAergic non-pyramidal neurons in the cerebral neocortex. This suggests that glutamate is supplied from alpha-ketoglutarate via transamination and works as the immediate precursor for GABA in axon terminals of GABAergic neurons. The absence of glutaminase immunoreactivity in GABAergic neurons indicates that glutamine is a "metabolically remote" precursor for GABA. Mitochondrial aspartate aminotransferase was located in perikarya, rather than in axon terminals of GABAergic neurons, suggesting a transmitter-irrelevant role of this enzyme in neurons.
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PMID:Glutamate-synthesizing enzymes in GABAergic neurons of the neocortex: a double immunofluorescence study in the rat. 783 83

Phosphorylation of the region containing Thr-494, Thr-495 and Thr-497, present in the catalytic domain of protein kinase C alpha (PKC alpha), is a preliminary event necessary for subsequent PKC activation [Cazaubon and Parker (1993) J. Biol. Chem. 268, 17559-17563]. To define the essential residues in this region, various combinations of alanine substitutions for threonine residues 494, 495 and 497 have been tested. These mutations yielded expressed polypeptides of 76 and 80 kDa in ratios that vary from 100% 80 kDa (wild-type kinase, active) to 100% 76 kDa (AAA mutant, inactive) with the hierarchy being wild-type PKC alpha (TTT), ATT, AAT, TTA, ATA, TAA, AAA (the nomenclature indicates the location of alanine residues substituted for Thr-494, Thr-495 and Thr-497 respectively). Only the mutants retaining Thr-497 displayed kinase activity in vitro. The results overall indicate that Thr-497 plays the dominant role in the regulation of PKC alpha activity but that in the wild-type protein, Thr-495 may also be important. Consistent with the need for phosphorylation in this region, an intrinsically active PKC alpha could be produced in bacteria by exchanging Thr-495 for a glutamic acid residue.
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PMID:Threonine-497 is a critical site for permissive activation of protein kinase C alpha. 804 86

Pathophysiological concentrations of ammonia, both in vivo and in vitro, suppressed the oxidation of glutamate by rat cerebellar mitochondria. The transport of glutamate into mitochondria was either unaltered or enhanced during hyperammonemic states. Activities of mitochondrial enzymes, aspartate aminotransferase, alanine aminotransferase, glutamate dehydrogenase, glutaminase, and GABA-transaminase were suppressed during hyperammonemic states. Suppression of 14CO2 production with (aminooxy)acetic acid but not with glutamic acid diethyl ester indicated that transamination but not oxidative deamination of glutamate plays a major role in glutamate oxidation during normal and hyperammonemic states.
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PMID:Transport and metabolism of glutamate by rat cerebellar mitochondria during ammonia toxicity. 810 3

In a chronic toxicity study in the rat, bidisomide administered as a dietary admixture produced a dose-related lowering of reticulocytes and leucocytes. Plasma alanine aminotransferase activity was increased at 300 mg/kg and decreased at 900 mg/kg. The potential mechanisms of these effects were investigated by comparing the responses in groups of male Sprague-Dawley rats receiving a control diet, or 300 or 1200 mg/kg/day bidisomide. Subsets of these groups were co-treated subcutaneously with folinic acid or with a vitamin B1, B6, B12 complex. Subsets of control and 300 mg/kg groups were maintained on a 20-25% feed restriction regimen for 3 months, to mimic the depression in body weight gain observed in animals receiving 1200 mg/kg. Body weight gains were significantly reduced at 1200 mg/kg and in all feed-restricted animals. Plasma and liver alanine aminotransferase (ALT) and plasma aspartate aminotransferase (AST) levels were also reduced at this dose level. At 300 mg/kg, plasma transaminases, glutamate dehydrogenase (GLDH) and sorbitol dehydrogenase (SDH) activities were increased. These changes were prevented in animals receiving folinic acid supplementation. Plasma glucose, triglycerides, and unsaturated and total iron binding capacities were decreased, while plasma iron levels tended to increase, mainly at the high dose. Vitamin supplementation prevented a decrease in reticulocyte counts at 300 mg/kg. Bidisomide increased urinary formimino-glutamic acid (FIGLU) excretion but did not affect methylmalonic acid (MMA) or taurine excretion. The effect on FIGLU at 1200 mg/kg was prevented by folinic acid co-treatment. Absolute liver weight was lowered at both dose levels and in feed-restricted animals. However, the relative liver weights were unaffected. Thymidine kinase and thymidylate synthase activity of the bone marrow cells were not altered by the bidisomide treatment. Except for the increase in plasma transaminase, GLDH and SDH levels at 300 mg/kg, changes in clinical chemistry parameters are considered to result mainly from nutritional restrictions. Changes in hematologic parameters appear to be related to the combination of decreased feed consumption (leukocytes) and decreased availability or utilization of folates (reticulocytes). This alteration, however, did not affect DNA synthesis in bone marrow. The prevention by folinic acid, but not by feed restriction, of the elevation of liver enzymes at 300 mg/kg is an intriguing, yet unexplained finding. There was no evidence that bidisomide affected B6 and B12 availability.
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PMID:Effect of folate supplementation on clinical chemistry and hematologic changes related to bidisomide administration in the rat. 858 20

The protective effect of dietary L-glutamine against the hepatotoxic action of D-galactosamine (GaIN) was investigated by model experiments with rats. Rats fed with 20% casein diets containing 10% free amino acids were injected with GaIN, and the serum aspartate aminotransferase, alanine aminotransferase and lactate dehydrogenase activities and the hepatic glycogen content were assayed 20 hours after the injection. These enzyme activities in the group fed with 10% L-glutamine diet for 8 days were lower than those in the groups fed with the control, 10% L-glutamic acid and 10% L-alanine diets for 8 days. The more prolonged the feeding period with the 10% L-glutamine diet was, the more the serum activity levels of such enzymes were decreased. Although neomycin also lowered these enzyme activities, its simultaneous ingestion with neomycin did not show any additive or synergistic effect. The hepatic glycogen content in the 10% glutamine group still remained high after the GaIN treatment. It is therefore assumed that the effectiveness of glutamine intake would have been mediated by glycogen metabolism rather than by uridine metabolism.
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PMID:Effect of dietary L-glutamine on the hepatotoxic action of D-galactosamine in rats. 898 89

The activity of aspartate aminotransferase, glutamate dehydrogenase in the liver of rats in 1, 7 and 15 days after gamma irradiation effect of the dose of 0.5 Gy on the background of consumption by animals of sodium nitrate, sodium nitrite and nitrosodiethylamine was studied. The combined influence of chemical agents and gamma irradiation modified the effects of nitro compounds-xenobiotics on processes of the synthesis and dissociation of the glutamic acid as well as the intensity of transamination of the reamination by aspartate aminotransferase.
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PMID:[The combined action of ionizing radiation and nitro compounds on the activity of the basic enzymes of glutamic acid metabolism]. 968 35

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