UNIPROT:P80404 - FACTA Search

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Query: UNIPROT:P80404 (GABA transaminase)
786 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have characterized two genes of the Escherichia coli K-12 gab cluster, which encodes the enzymes of the 4-aminobutyrate degradation pathway. The nucleotide sequence of gabT, coding for glutamate:succinic semialdehyde transaminase (EC 2.6.1.19), alternatively known as 4-aminobutyrate transaminase, was determined. The structural gene consists of 1,281 nucleotides specifying a protein of 426 amino acids with a molecular mass of 45.76 kDa. The protein shows significant homologies to the ornithine transaminases from Saccharomyces cerevisiae and from rat and human mitochondria. Three functionally and structurally important amino acid residues of the transaminase were identified by sequence comparison studies, and evolutionary relationships of the aminotransferases are discussed. The gabD gene, encoding succinic semialdehyde dehydrogenase (EC 1.2.1.16), was cloned and shown to be located adjacent to the 5' end of gabT. Expression studies with subfragments of the initially cloned DNA region revealed a maximal size of 1.7 kb for gabD. Both genes are cotranscribed from a promoter located upstream of gabD.
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PMID:Molecular analysis of two genes of the Escherichia coli gab cluster: nucleotide sequence of the glutamate:succinic semialdehyde transaminase gene (gabT) and characterization of the succinic semialdehyde dehydrogenase gene (gabD). 225 72

The tetrazolium salt procedure of van Gelder (1965) for the demonstration of GABA transaminase (GABAT; the most important GABA degrading enzyme) was adapted for microphotometric measurements of GABAT activities in brain sections using the hippocampus of rats as selected brain region. The final incubation medium consisted of 50 mM GABA, 5 mM alpha-ketoglutarate, 7 mM NAD, 10 mM sodium azide, 6 mM nitroblue tetrazolium chloride, 20 mM malonate and 15% polyvinyl alcohol in 0.05 M Hepes buffer; the final pH was 8.0. There was a linear relationship between GABAT activity and section thickness up to 14 microns and between GABAT activity and reaction time at least up to 20 min (kinetic and end-point measurements). Phenazine methosulfate as an exogenous electron carrier and pyridoxal-5-phosphate as coenzyme of GABAT did not enhance the demonstrable GABAT activities, whereas sodium azide as a blocker of the respiratory chain resulted in an increase of demonstrable enzyme activities. A coreaction of succinate dehydrogenase was excluded by the use of malonate (competitive inhibitor). Using the incubation medium described GABAT activities were demonstrated via the endogenous enzymes succinic semialdehyde dehydrogenase and NADH tetrazolium reductase which were shown to be not rate limiting and seems to be similarly localized as GABAT.
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PMID:Microphotometric determination of enzymes in brain sections. II. GABA transaminase. 233 51

Pyritinol, a vitamin B6 derivative considered to have an activating effect on brain inhibited glutamate decarboxylase in concentrations of 0.05-1.0 mmol/l. This effect was not dependent on the pyridoxal-5'-phosphate concentration. An increase in the glutamate level reduced the inhibitory effect of pyritinol, but inhibition was not competitive. It is supposed that this modification of inhibition of glutamate decarboxylase by the substrate concentration might be associated with the presence of two glutamate decarboxylases with different affinities for the substrate. The inhibitory effect of pyritinol was dependent on integrity of the disulphide bond in the pyritinol molecule. Inhibition of glutamate decarboxylase increased in correlation to time--possibly in association with progressive oxidation of the SH-groups of the enzyme. Pyritinol did not influence GABA transaminase activity, but lessened the oxidation of GABA to carbon dioxide. It is assumed that succinic semialdehyde dehydrogenase activity was inhibited.
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PMID:Pyritinol and the enzymes of gamma-aminobutyric acid (GABA) synthesis and degradation. 297 3

The presence and distribution of gamma-aminobutyric acid (GABA) degradative enzyme (GABA transaminase-succinic semialdehyde dehydrogenase) activity in the rat myenteric plexus was determined histochemically using laminar preparations of the small intestine. Blue-diformazan staining resulting from reduction of the tetrazolium salt, Nitro-BT, during GABA catabolism was present in a scattered population of ileal and jejunal myenteric ganglion cells, including those resembling multipolar type II and unipolar nerve cells. Such staining was almost completely prevented under conditions of GABA-T inhibition. These results indicate that GABA is enzymically degraded at specific sites in the rat enteric nervous system where it is proposed to have a neurotransmitter function.
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PMID:The distribution of GABA-transaminase-dehydrogenase activity in the myenteric plexus of rat small intestine: a histochemical analysis. 396 Mar 92

Alterations in gamma-aminobutyric acid (GABA) metabolism have been investigated in the kindling model of epilepsy. Numerous generalized seizures were induced by amygdala-kindling stimulations in rats. One week after the last stimulation, there were no changes in GABA levels nor in the activity of enzymes responsible for the synthesis (glutamic acid decarboxylase) and catabolism (GABA transaminase and succinyl semialdehyde dehydrogenase). These results do not exclude other changes in GABA function as modifications of transport or receptors.
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PMID:Absence of modifications in gamma-aminobutyric acid metabolism after repeated generalized seizures in amygdala-kindled rats. 408 36

Metabolism of the glutamate group of amino acids--glutamic acid, gamma-amino-butyric acid, glutamine, aspartic acid and alanine--was studied in the brain of rat as a function of age. The levels of glutamic acid, glutamine and aspartic acid decreased while those of gamma-aminobutyric acid, and alanine increased with age. The results on the activity of the twelve enzymes involved in the metabolism showed that five of them (glutamate dehydrogenase, glutamine synthase, gamma-aminobutyric acid transaminase, succinic semialdehyde dehydrogenase and NAD+-isocitrate dehydrogenase) decreased, while four of them (glutaminase, glutamotransferase, glutamic acid decarboxylase, and alpha-ketoglutarate dehydrogenase) increased. The other three enzymes (aspartate aminotransferase, alanine aminotransferase and NADP+-isocitrate dehydrogenase) did not show any significant change in activity. An age-related increase was seen in alpha-ketoglutarate and ammonia, the intermediates involved in the metabolism of these amino acids. The changes in the level of these amino acids are discussed in relation to the altered energy metabolism during aging.
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PMID:Metabolism of the glutamate group of amino acids in rat brain as a function of age. 614 62

The hypothesis that the brain GABA level increase which is induced by a sodium dipropyl acetate treatment arises either through inhibition of succinic semialdehyde dehydrogenase (SSADH), or through inhibition of GABA transaminase by succinic semialdehyde (SSA), has been considered. It appeared that in vivo brain GABA level increase cannot be attributed to SSADH inhibition, and that SSA is not a GABA precursor. It has been shown that SSA is neither in vivo nor in vitro a GABA-transaminase inhibitor. 4-hydroxybenzaldehyde, a potent SSADH inhibitor did not increase GABA level at a dosage which induces a 99% inhibition of SSADH.
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PMID:[Mechanism of action of an anticonvulsant, sodium dipropylacetate]. 645 31

Succinic semialdehyde dehydrogenase deficiency has been demonstrated in a fourth patient with 4-hydroxybutyric aciduria. Lysates of freshly isolated lymphocytes and cultured lymphoblasts of the patient had much lower than control activity in the conversion of U-14C-4-aminobutyric acid to 14C-succinic acid in an assay designed to estimate succinic semialdehyde dehydrogenase utilizing endogenous 4-aminobutyrate transaminase. Lymphocyte and lymphoblast lysates of the patient accumulated U-14C-succinic semialdehyde when incubated with U-14C-4-aminobutyric acid and NAD+ whereas none could be detected in controls. Assays using U-14C-succinic semialdehyde as substrate for succinic semialdehyde dehydrogenase in lysates of cultured lymphoblasts characterized the patient as having a severe deficiency of succinic semialdehyde dehydrogenase. The data indicate that defective activity of succinic semialdehyde dehydrogenase is responsible for 4-hydroxybutyric aciduria.
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PMID:Defective succinic semialdehyde dehydrogenase activity in 4-hydroxybutyric aciduria. 648 77

The influence of neonatal beta-estradiol treatment on the development of GABA-degradative enzymes (GABA transaminase and succinic semialdehyde dehydrogenase) within rat cerebellar cortex has been studied using a semiquantitative histochemical technique. Both enzymatic activities were stimulated following beta-estradiol treatment. In particular, the granule and Purkinje cells were the most influenced cerebellar components. The findings seem to suggest that granule and Purkinje cells may represent the principal target of the cerebellar cortex for sex hormones.
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PMID:Stimulatory effect of beta-estradiol treatment on GABA-degradative enzymes within rat cerebellar cortex. 663 52

The distributions of glutamate decarboxylase (EC 4.1.1.15), gamma-aminobutyric acid transaminase (EC 2.6.1.19), and succinate semialdehyde dehydrogenase (EC 1.2.1.24) were determined in monkey retina. The decarboxylase was almost restricted to the inner plexiform layer. The transaminase was also highest in this layer, but activities were 40% as high in the adjacent third of the inner nuclear layer and in the ganglion cell and fiber layers. Succinate semialdehyde dehydrogenase was distributed very differently. Although it also showed a peak of activity in the inner plexiform layer, there was a second equal peak in the photoreceptor inner segment layer and a smaller peak in the outer plexiform layer, regions where both gamma-aminobutyric acid transaminase and glutamate decarboxylase were essentially absent.
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PMID:Distribution of three enzymes of gamma-aminobutyric acid metabolism in monkey retina. 670 30

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