Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P17174 (aspartate aminotransferase)
 14,872 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The substrate specificity of aspartate aminotransferase (ASAT, E.C. 2.6.1.1.) from Leishmania was examined following observations of artefacts on gels stained for alanine aminotransferase (ALAT, E.C. 2.6.1.2.) after thin-layer starch-gel electrophoresis. Leishmanial ASAT acted on L-aspartate, L-alanine, L-tryptophan and L-tyrosine. Interpretation of ALAT zymograms must thus take into account the presence of interfering ASAT bands, and the need is emphasized for rigorous controls in isoenzyme electrophoresis.
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PMID:Aspartate aminotransferase in Leishmania is a broad-spectrum transaminase. 646 33

The concept of this basic research was that monosodium L-glutamate could reveal a deficiency of vitamin B6 by the neurological reactions known as the Chinese Restaurant Syndrome. An other amino acid, tryptophan, administered to subjects, is known to reveal a deficiency of vitamin B6 by the excretory xanthurenic acid, etc. The presence and degree of a deficiency of vitamin B6 in 155 students on no supplemental B6 was determined by the differential assay of aspartate transaminase of erythrocytes which also allows each subject to be a control. Twenty-seven of 155 students had extraordinarily low basal specific activities of the transaminase, less than 0.26 mumol pyruvate/(h X 10(8) erythrocytes). These 27 were challenged with glutamate and a placebo. Twelve of 27 revealed the Chinese Restaurant Syndrome, and 15 did not. By double blind trials, the 12 "responders" were treated with pyridoxine and a placebo for twelve weeks, and then were rechallenged with glutamate and a placebo. Decoding showed 3 of 12 received placebo to pyridoxine and then revealed the symptoms of the syndrome again to glutamate; 9 of 12 received pyridoxine and then 8 of 9 failed to respond to glutamate. These results show, p less than 0.01, that the symptoms of the Chinese Restaurant Syndrome to oral glutamate fail to reoccur after treatment which pyridoxine, and that the biochemistry of vitamin B6 is basic to the cause of the Chinese Restaurant Syndrome.
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PMID:The biochemistry of vitamin B6 is basic to the cause of the Chinese restaurant syndrome. 672 32

We describe the complete purification of aromatic aminotransferase I, the enzyme responsible for the ability of Klebsiella aerogenes to use tryptophan and phenylalanine as sole sources of nitrogen, as well as the partial purification of aromatic aminotransferase IV. An examination of the properties of these enzymes revealed that aminotransferase I had much greater affinity for the aromatic amino acids than aminotransferase IV, explaining the essential role of aminotransferase I in the utilization of exogenously supplied aromatic amino acids. The properties of aminotransferase IV suggest that this enzyme is actually an aspartate aminotransferase (EC 2.6.1.1), corresponding to the product of the aspC gene of Escherichia coli.
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PMID:Purification and properties of aromatic amino acid aminotransferase from Klebsiella aerogenes. 700 15

Acute hepatic ischaemia was induced in pigs by means of a portacaval shunt with hepatic artery ligation after 24 hours. Despite significant elevation in blood ammonia, fatty acids, aspartate aminotransferase, cerebrospinal fluid glutamine and ammonia, and brain tissue glutamine, ammonia and tryptophan, the experimental animals remained awake and alert and indistinguishable from sham-operated controls. The molar ratio of branched-chain to aromatic amino acids fell sharply in the arterial blood, but showed a terminal attempt at compensation in muscle venous samples. Portal and muscle venous insulin levels were elevated, and glucagon values rose in all circulation segments in the experimental group. The failure to induce coma in these pigs, despite the presence of many of the classical biochemical features, suggests that the syndrome of encephalopathy comprises several stages, and that the pig may be an important model in which to define these.
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PMID:Acute hepatic ischaemia in the pig- the changes in plasma hormones, amino acids and brain biochemistry. 725 Aug 93

Vitamin B6 deficiency led to a decrease in aspartate: 2-oxoglutarate aminotransferase activity and to a marked increase in phenylalanine:2-oxoglutarate aminotransferase activity in rat small intestines. The increased phenylalanine aminotransferase activity was found to be due to a newly appeared aromatic aminotransferase without the aspartate aminotransferase activity in the cytosol of the small intestinal mucosa. The enzyme preparation had an isoelectric point of pH 8.5, a pH optimum near 8.0, and a molecular weight of approximately 100,000 with two identical subunits. The enzyme showed aminotransferase activities towards various aromatic L-amino acids with 2-oxoglutarate as the amino acceptor. The order of effectiveness of aromatic L-amino acids was phenylalanine > tryptophan > tyrosine > 5-hydroxytryptophan; very little activity was detected with other L-amino acids that were tested. The enzyme was specific for 2-oxoglutarate as the amino acceptor. The enzyme was not detected in other tissues (liver, kidney, heart, and brain) from both control and vitamin B6-deficient rats. The enzyme has never been described before in animal tissues.
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PMID:The appearance of a new aromatic aminotransferase in the small intestines of vitamin B6-deficient rats. 743 Jan 6

In an attempt to change the reaction and substrate specificity of aspartate aminotransferase, several apolar active-site residues were substituted in turn with a histidine residue. Aspartate aminotransferase W140H (of Escherichia coli) racemizes alanine seven times faster (Kcat' = 2.2 x 10(-4) s-1) than the wild-type enzyme, while the aminotransferase activity toward L-alanine was sixfold decreased. X-ray crystallographic analysis showed that the structural changes brought about by the mutation are limited to the immediate environment of H140. In contrast to the tryptophan side chain in the wild-type structure, the imidazole ring of H140 does not form a stacking interaction with the coenzyme pyridine ring. The angle between the two ring planes is about 50 degrees. Pyridoxamine 5'-phosphate dissociates 50 times more rapidly from the W140H mutant than from the wild-type enzyme. A model of the structure of the quinonoid enzyme substrate intermediate indicates that H140 might assist in the reprotonation of C alpha of the amino acid substrate from the re side of the deprotonated coenzyme-substrate adduct in competition with si-side reprotonation by K258. In aspartate aminotransferase I17H (of chicken mitochondria), the substituted residue also lies on the re side of the coenzyme. This mutant enzyme slowly decarboxylates L-aspartate to L-alanine (Kcat' = 8 x 10(-5) s-1). No beta-decarboxylase activity is detectable in the wild-type enzyme. In aspartate aminotransferase V37H (of chicken mitochondria), the mutated residue lies besides the coenzyme in the plane of the pyridine ring; no change in reaction specificity was observed. All three mutations, i.e. W140-->H, I17-->H and V37--H, decreased the aminotransferase activity toward aromatic amino acids by 10-100-fold, while decreasing the activity toward dicarboxylic substrates only moderately to 20%, 20% and 60% of the activity of the wild-type enzymes, respectively. In all three mutant enzymes, the decrease in aspartate aminotransferase activity at pH values lower than 6.5 was more pronounced than in the wild-type enzyme, apparently due to the protonation of the newly introduced histidine residues. The study shows that substitutions of single active-site residues may result in altered reaction and substrate specificities of pyridoxal-5'-phosphate-dependent enzymes.
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PMID:Substitution of apolar residues in the active site of aspartate aminotransferase by histidine. Effects on reaction and substrate specificity. 785 26

hisH encodes imidazole acetol phosphate (IAP) aminotransferase in Zymomonas mobilis and is located immediately upstream of tyrC, a gene which codes for cyclohexadienyl dehydrogenase. A plasmid containing hisH was able to complement an Escherichia coli histidine auxotroph which lacked the homologous aminotransferase. DNA sequencing of hisH revealed an open reading frame of 1,110 bp, encoding a protein of 40,631 Da. The cloned hisH product was purified from E. coli and estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis to have a molecular mass of 40,000 Da. Since the native enzyme had a molecular mass of 85,000 Da as determined by gel filtration, the active enzyme species must be a homodimer. The purified enzyme was able to transaminate aromatic amino acids and histidine in addition to histidinol phosphate. The existence of a single protein having broad substrate specificity was consistent with the constant ratio of activities obtained with different substrates following a variety of physical treatments (such as freeze-thaw, temperature inactivation, and manipulation of pyridoxal 5'-phosphate content). The purified enzyme did not require addition of pyridoxal 5'-phosphate, but dependence upon this cofactor was demonstrated following resolution of the enzyme and cofactor by hydroxylamine treatment. Kinetic data showed the classic ping-pong mechanism expected for aminotransferases. Km values of 0.17, 3.39, and 43.48 mM for histidinol phosphate, tyrosine, and phenylalanine were obtained. The gene structure around hisH-tyrC suggested an operon organization. The hisH-tyrC cluster in Z. mobilis is reminiscent of the hisH-tyrA component of a complex operon in Bacillus subtilis, which includes the tryptophan operon and aroE. Multiple alignment of all aminotransferase sequences available in the database showed that within the class I superfamily of aminotransferases, IAP aminotransferases (family I beta) are closer to the I gamma family (e.g., rat tyrosine aminotransferase) than to the I alpha family (e.g., rat aspartate aminotransferase or E. coli AspC). Signature motifs which distinguish the IAP aminotransferase family were identified in the region of the active-site lysine and in the region of the interdomain interface.
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PMID:Imidazole acetol phosphate aminotransferase in Zymomonas mobilis: molecular genetic, biochemical, and evolutionary analyses. 788 15

We have recorded 500-MHz 1H NMR spectra in the 10-18-ppm range for aspartate aminotransferase from Escherichia coli and for three specific mutant forms. Histidine 143 has been replaced by either alanine or asparagine. In the third mutant, tryptophan 140 has been replaced by phenylalanine. The NMR spectrum of the native enzyme is very similar to that of porcine cytosolic aspartate aminotransferase in the most downfield region. However, the resonances of the proton on the ring nitrogen of the pyridoxal 5'-phosphate (peak A) and on the His-143 imidazole ring (peak B) of the E. coli enzyme are broader and more readily lost at low pH or higher temperatures than those of the porcine enzyme. The possible role of tautomerism in promoting such broadening is discussed. In the histidine mutant proteins, peak A of the pyridoxal 5'-phosphate form is too broad to see under most conditions but is clearly present in the pyridoxamine phosphate form. Peak B is missing in the 2 histidine mutants. Observation of nuclear Overhauser effects further confirms the identity of B as the resonance of HN epsilon 2 of His-143 and that of peak D at approximately 11.8 ppm as HN epsilon 2 of His-189. The mutant spectra also provide insight into electronic interactions between groups in and near the active site which confirm and supplement conclusions drawn from spectra of porcine cAspAT. While no clear loss of a peak was observed for the Trp-140 mutant in its free form, the spectrum of the succinate complex lacked a strong band at 11.26 ppm. This may represent the Trp-140 indole NH proton which has been shifted downfield by binding to a succinate carboxylate group. While our results confirm the basic similarity of cytosolic aspartate aminotransferase and E. coli aspartate aminotransferase 1H NMR spectra, they also point out differences that may be useful in identifying resonances. A large number of mutant proteins have been prepared for the E. coli enzyme. The present results provide essential information for future study of these mutants and for study of NMR spectra of isotopically labeled enzyme.
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PMID:NMR studies of 1H resonances in the 10-18-ppm range for aspartate aminotransferase from Escherichia coli. 796 37

Serum amino acid (AA) profiles are altered in epilepsy. It is not clear whether this is due to the disease process itself or to other variables such as seizure type, seizure frequency, duration of illness, medication, or altered liver function. We investigated serum AA profiles and liver enzymes in 73 epileptic patients and 90 healthy subjects and evaluated the data by analysis of variance to discriminate between age, sex, seizure type, duration of illness, seizure frequency, antiepileptic drug (AED) and increased serum liver enzyme levels, and their putative interaction with the serum AA profile. There was no correlation between the changes in the AA profile and age, duration of illness, seizure frequency, and seizure type. Seventy-two percent of the AED-treated patients and 33% of the unmedicated patients showed an increase in one or several serum liver enzymes [alanine aminotransferase (ALT), aspartate aminotransferase (AST), and/or gamma-glutamyl transferase (gamma-GT)]; particularly gamma-GT. We observed a significant increase in serum concentrations of glutamine and glycine and decreased levels of taurine, threonine, serine, valine, methionine, isoleucine, leucine, phenylalanine, histidine, tryptophan, and arginine in AED-treated patients but not in unmedicated patients. These results show that the changes in the serum AA profiles of epileptic patients treated with AEDs occur in patients with alteration of serum liver enzymes; whether this implies a causal relation is still uncertain.
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PMID:Serum amino acids, liver status, and antiepileptic drug therapy in epilepsy. 809 92

The Schiff base formed between Lys258 of Escherichia coli aromatic amino acid aminotransferase (ArAT) and the coenzyme pyridoxal 5'-phosphate (PLP) has a pKa value of 6.65. The pH dependency of the kinetic parameters was consistent with a mechanism by which the enzymatic form with the nonprotonated Schiff base productively binds aspartate, phenylalanine, and tryptophan. The Schiff base pKa value rose by 1.7-2.1 unit on binding of substrate analogs, and this strongly suggested protonation of the Schiff base upon formation of the Michaelis complex with substrates. The protonated "internal" Schiff base in the Michaelis complex is supposed to be attacked by the deprotonated substrate amino group, and this explains excellently the mechanism of transaldimination to form the PLP-substrate Schiff base. Phenylpropionate and indolepropionate caused similar increases in the pKa value to maleate. [Arg292-->Ala] ArAT showed the same pKa value as the wild-type enzyme. Therefore, neutralization of Arg292 by omega-carboxylate of dicarboxylic ligands, which had been well documented in aspartate aminotransferase to increase the Schiff base pKa, has little effect on the protonation of the Schiff base in ArAT. Thus the structure of ArAT is deliberately organized so that the Schiff base pKa is effectively modulated by substrates having only one carboxylate group.
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PMID:Protonation state of the active-site Schiff base of aromatic amino acid aminotransferase: modulation by binding of ligands and implications for its role in catalysis. 818 25


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