Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P17174 (aspartate aminotransferase)
14,872 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of hypoxia and post-hypoxic recovery were studied in gastrocnemius muscle of young-adult and mature beagle dogs. Furthermore, the possible interference of pharmacological treatment with nicergoline was evaluated in these conditions. Muscular glycolytic fuels, intermediates and end-products (glycogen, glucose, glucose 6-phosphate, pyruvate, lactate), Kreb's cycle intermediates (citrate, alpha-ketoglutarate, succinate, malate) and related free amino acids (glutamate, alanine), ammonium ion, energy store and mediators (ATP, ADP, AMP and creatine phosphate), and the energy charge potential were evaluated. Furthermore, in the crude extract and/or mitochondrial fraction of another portion of the same gastrocnemius muscle the maximum rate (Vmax) of some muscular enzymes related to the anaerobic glycolytic pathway (hexokinase, lactate dehydrogenase), the Kreb's cycle (citrate synthase, malate dehydrogenase), the aminoacid pool related to the Krebs' cycle (glutamate dehydrogenase and aspartate aminotransferase), the electron transfer chain (cytochrome oxidase) and NAD+/NADH exchanges (total NADH cytochrome c reductase) was evaluated. Some glycolytic metabolites and Krebs' cycle intermediates were modified by acute hypoxia, while free amino acids and energy mediators remained practically unchanged. The pharmacological treatment maintained the glucose and succinate muscular concentrations within the normal range, during hypoxia. The behaviour of muscular metabolites during hypoxia and/or post-hypoxic recovery is an age-related event. In fact, only in young-adult animals did the altered values return to normal in post-hypoxic recovery. In the present experimental conditions, only minor changes were observed as far as muscular enzyme activities are concerned. In any case, some enzyme activities tested showed different Vmax in young-adult dogs in comparison with mature ones.
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PMID:Effect of hypoxia, aging and pharmacological treatment on muscular metabolites and enzyme activities. 322 9

The crucial step in enzymatic transamination is the tautomerization of aldimine/ketimine intermediates, formed between the pyridoxyl coenzyme and the amino/keto acid substrate, which is catalyzed primarily by the active site residue Lys-258 (Malcolm, B. A., and Kirsch, J. F. (1985) Biochem. Biophys. Res. Commun. 132, 915-921; W. L. Finlayson and J. F. Kirsch, in preparation). Tyr-70 is localized in close proximity to Lys-258 and, in addition, forms a hydrogen bond with the coenzyme phosphate. Tyr-70 has been postulated to have an important role in the tautomerization (Kirsch, J. F., Eichele, G., Ford, G. C., Vincent, M. G., Jansonius, J. N., Gehring, H., and Christen, P. (1984) J. Mol. Biol. 174, 497-525). This hypothesis has now been tested by the construction and analysis of a mutant Escherichia coli aspartate aminotransferase in which Tyr-70 has been changed to Phe (Y70F). Y70F retains at least 15% of the maximal activity of the wild type enzyme (WT) (kcat = 170 +/- 15 s-1 for WT versus greater than or equal to 26 +/- 3 s-1 for Y70F and shows increased Michaelis constants for both substrates (KmAsp = 2.5 +/- 0.4 mM; Km alpha Kg = 0.59 +/- 0.08 mM for WT versus KmAsp = 3.9 +/- 0.3 mM; Km alpha Kg = 2.70 +/- 0.02 mM for Y70F (where alpha Kg is alpha-ketoglutarate) ). The spectrophotometrically determined pK a values of the internal aldimines formed between pyridoxal 5'-phosphate (PLP) and Lys-258 are identical for WT and Y70F. In assays where excess L-aspartate and excess PLP are incubated with either WT or Y70F, the mutant enzyme converts the free PLP to free pyridoxamine 5'-phosphate 80-fold faster than WT (k = (3.75 +/- 0.23) X 10(-2)s-1 for Y70F versus (4.90 +/- 0.02) X 10(-4)s-1 for WT). Y70F also converts free pyridoxamine 5'-phosphate to free PLP faster than WT. Thus, Y70F dissociates coenzyme more readily than does WT. It therefore appears that the role of Tyr-70 is mainly in preventing the dissociation of the coenzyme from the enzyme. Tyr-70 does not function in an essential chemical step.
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PMID:Tyrosine 70 increases the coenzyme affinity of aspartate aminotransferase. A site-directed mutagenesis study. 330 7

The mechanism of C4 acid decarboxylation was studied in bundle sheath cell strands from Urochloa panicoides, a phosphoenolpyruvate carboxykinase (PCK)-type C4 plant. Added malate was decarboxylated to give pyruvate and this activity was often increased by adding ADP. Added oxaloacetate or aspartate plus 2-oxoglutarate (which produce oxaloacetate via aspartate aminotransferase) gave little metabolic decarboxylation alone but with added ATP there was a rapid production of PEP. For this activity ADP could replace ATP but only when added in combination with malate. In addition, the inclusion of aspartate plus 2-oxoglutarate with malate plus ADP often increased the rate of pyruvate production from malate by more than twofold. Experiments with respiratory chain inhibitors showed that the malate-dependent stimulation of oxaloacetate decarboxylation (PEP production) was probably due to ATP generated during the oxidation of malate in mitochondria. We could provide no evidence that photophosphorylation could serve as an alternative source of ATP for the PEP carboxykinase reaction. We concluded that both PEP carboxykinase and mitochondrial NAD-malic enzyme contribute to C4 acid decarboxylation in these cells, with the required ATP being derived from oxidation-linked phosphorylation in mitochondria.
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PMID:Photosynthesis in phosphoenolpyruvate carboxykinase-type C4 plants: pathways of C4 acid decarboxylation in bundle sheath cells of Urochloa panicoides. 334 40

The net production of citrate from exogenous substrates by rat ventral prostate was investigated. The preparation of isolated prostate epithelial cells was described. These cells were capable of oxidizing pyruvate (5 mmol/l) as a source of acetyl coenzyme A. The addition of aspartate + alpha-ketoglutarate (5 mmol/l) in the presence of pyruvate resulted in significant net production of citrate and excess oxalacetate. In the presence of aspartate and glutamate, the cells were capable of producing citrate without excessive oxalacetate production. Neither glucose alone nor glucose plus pyruvate resulted in net citrate production. The results demonstrated that aspartate could serve as a 4-carbon source of oxalacetate for citrate synthesis. Furthermore, the results indicate the intramitochondrial operation of a glutamate-aspartate-citrate pathway involving mitochondrial aspartate aminotransferase and glutamic dehydrogenase activities in prostate epithelial cells.
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PMID:Net citrate production by isolated prostate epithelial cells. 337 41

A spectrophotometric assay is proposed to determine the levels of aspartate aminotransferase (AAT) isoenzymes from chicken liver by a steady-state kinetic method which depends on the differential inhibition of these isoenzyme forms by high concentrations of substrate 2-oxoglutarate at pH 6.2. The use of a standard curve permits the determination of the percentage of chicken liver c-AAT and m-AAT isoenzymes. This method yields results in good correlation with those achieved by different extent adipate inhibition and by differential centrifugation.
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PMID:A kinetic method for quantification of aspartate aminotransferase isoenzymes. 343 99

A protease from Streptomyces violaceochromogenes (Murao, S., Nishino, Y., & Maeda, Y. (1984) Agric. Biol. Chem. 48, 2163-2166) is known to inactivate pig heart aspartate aminotransferase [EC 2.6.1.1]. Chemical analysis of the core proteins and peptide fragments produced upon proteolysis of the aminotransferase revealed that peptide bond cleavage occurred specifically at Leu 20 with concomitant inactivation. Neither inactivation nor peptide bond cleavage was observed with the mitochondrial isoenzyme. The proteolytically produced derivative 21-412 of the cytosolic isoenzyme retained approximately 0.1% enzymic activity for transamination with natural dicarboxylic substrates. The pyridoxal form of the derivative 21-412 was fully converted by cysteinesulfinate or alanine to the pyridoxamine form and conversely the pyridoxamine form of the derivative was also fully converted by 2-oxoglutarate or pyruvate into the pyridoxal form, indicating that the derivative was still catalytically competent. However, the rates of reaction with dicarboxylic substrates were much reduced whereas the rates with monocarboxylic substrates remained at an order of magnitude similar to that observed with the native enzyme. Thus the NH2-terminal segment appears to be an import structural component which determines the substrate specificity of aspartate aminotransferase for dicarboxylic keto and amino acids. A substantial alteration in the molecular structure accompanying the loss of the NH2-terminal 20 residues was also reflected by the decrease in heat stability and in the lowering of the pKa value for His 68, which is involved in the intersubunit interaction of this dimeric enzyme.
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PMID:Selective proteolysis of cytosolic aspartate aminotransferase by a new microbial protease. 351 98

The effect of increasing bilirubin concentrations upon the catalytic activity of a series of dehydrogenases and aminotransferases was examined. The particular enzymes were chosen to examine the effect of bilirubin upon the activity of enzymes responsible for the indirect transfer of reducing equivalents across the inner mitochondrial membrane. Malate dehydrogenase was inhibited at very low concentrations of bilirubin and showed competitive inhibition with respect to coenzyme of 2 microM, while the cytosolic form of this enzyme exhibited a 15 microM inhibition constant. Cytosolic glycerol-3-phosphate dehydrogenase was not appreciably inhibited by bilirubin. Both the mitochondrial and cytosolic forms of aspartate aminotransferase showed moderate competitive bilirubin inhibition with respect to substrates with a Ki of 30 microM with respect to 2-oxoglutarate and a Ki of 80 microM with respect to aspartate. Preincubation studies indicated that inhibition was reversible for all enzymes examined. These results are interpreted in terms of the inhibition of the malate-aspartate shuttle by relatively low concentrations of bilirubin.
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PMID:Bilirubin inhibition of enzymes involved in the mitochondrial malate-aspartate shuttle. 360 43

A method is presented for the preparation of pure phthalonic acid (PTA) in high yields. This PTA was used to determine the capacity of the malate/aspartate shuttle in pea (Pisum sativum) leaf mitochondria. The inhibition of glycine-dependent O2 uptake in the combined presence of 5 mM-aspartate and 5 mM-2-oxoglutarate (2-OG) was decreased by 55 +/- 22% (n = 13) in washed and 50 +/- 2% (n = 11) in purified mitochondria by 0.23 mM-PTA. This concentration of PTA had no effect on the oxidation of 5 mM-2-OG, suggesting that part of the observed inhibition of O2 uptake in the presence of aspartate and 2-OG was due to the production of oxaloacetate (OAA) by aspartate aminotransferase external to the mitochondrial inner membrane. Levels of external aspartate aminotransferase were estimated to be 24 +/- 1% (n = 4) and 13 +/- 1% (n = 4) of the total mitochondrial activity in washed and purified mitochondria respectively. Malate/aspartate-shuttle activity was estimated directly by measuring rates of malate efflux from isolated mitochondria and was found to match estimates of shuttle activity based on the PTA-insensitive inhibition of O2 uptake. Comparisons of malate/aspartate- and malate/OAA-shuttle activities indicated potentially similar rates of NADH export from pea leaf mitochondria under conditions in vivo. These extrapolated to whole-tissue rates of 5-11 mumol of NADH.h-1.mg of chlorophyll-1. The potential role of the malate/aspartate shuttle in the support of photorespiratory glycine oxidation in leaf tissue is discussed.
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PMID:The photorespiratory hydrogen shuttle. Synthesis of phthalonic acid and its use in the characterization of the malate/aspartate shuttle in pea (Pisum sativum) leaf mitochondria. 366 85

Analysis of Michaelis--Menten kinetics revealed that the enzyme in solution and the crystalline cytosolic aspartate aminotransferase (EC 2.6.1.1) possess a functional nonequivalence of active sites of the enzyme dimer for two substrates--aspartate and 2-oxoglutarate.
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PMID:[Catalytic properties of aspartate aminotransferase]. 373 Apr 38

beta-Sulfopyruvic acid (2-carboxy-2-oxoethanesulfonic acid) is prepared in greater than 90% yield by reaction of bromopyruvic acid with sodium sulfite. beta-[35S]Sulfopyruvate is prepared by transamination between [35S]cysteinesulfonate (cysteate) and alpha-ketoglutarate using mitochondrial aspartate aminotransferase isolated from rat liver. Following either chemical or enzymatic synthesis, the crude reaction product is conveniently purified by chromatography on Dowex 1; beta-sulfopyruvate is isolated as the stable, water-soluble dilithium salt. beta-Sulfopyruvate is shown to be an alternative substrate of mitochondrial malate dehydrogenase; in the presence of 0.25 mM NADH, beta-sulfopyruvate is reduced with an apparent Km of 6.3 mM and a Vmax equal to about 40% of that observed with oxaloacetate. This finding forms the basis of a convenient spectrophotometric assay of beta-sulfopyruvate.
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PMID:beta-Sulfopyruvate: chemical and enzymatic syntheses and enzymatic assay. 374 Apr 6


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