UNIPROT:P17174 - FACTA Search

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

Kadazans, the largest indigenous group in Sabah, northern Borneo, were surveyed for glyoxalase I, phosphoglucomutase I, red cell acid phosphatase, esterase D, adenosine deaminase, soluble glutamate pyruvate transaminase, soluble glutamate oxaloacetate transaminase, 6-phosphogluconate dehydrogenase, uridine monophosphate kinase, adenylate kinase, peptidase B and D, superoxide dismutase, C5, group specific component, haptoglobin and transferrin. Kadazans were found to be polymorphic for GLO I, PGM I, RCAP, esterase D, ADA, s-Gpt, 6PGD, UMPK, Gc, C5, haptoglobin and peptidase B. Rare variants were found for transferrin and peptidase D. No variant was found for s-Got, SOD and AK.
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PMID:Biochemical genetic markers in the Kadazans of Sabah, Malaysia. 28 26

Because of the difficulties in drawing blood for clinical chemistry in small laboratory animals there exist many methods for sampling blood and the preparation of serum, none of which is generally accepted or well standardised. It was the aim of this study to investigate the effects of sampling techniques on normal values of enzyme activities in the serum of rat and mouse. The activities of the following enzymes were determined: sorbitol dehydrogenase, lactate dehydrogenase, malate dehydrogenase, glutamate dehydrogenase, aspartate aminotransferase, alanine aminotransferase, pyruvate kinase, creatine kinase, myokinase, alkaline phosphatase and leucine aminopeptidase. In addition plasmaproteins, urea and inorganic phosphorus were measured. In rats blood was obtained from the following sites: retroorbital venous plexus, jugular vein, heart and ventral aorta. In mice blood was sampled from the jugular vein and the ventral aorta. Shifts of water from the interstitial to the intravascular space due to hypovolemia occurring during the experimental procedure were followed up by measuring the hematocrit and the distribution of radioiodide labelled albumin. In rats the activities of lactate dehydrogenase, malate dehydrogenase, aspartate aminotransferase, pyruvate kinase, creatine kinase and myokinase found in blood serum obtained from the retroorbital venous plexus and the ventral aorta were too high compared to the other sampling sites. Activities of alkaline phosphatase and alanine aminotransferase were slightly elevated when blood was sampled from the punctured retroorbital venous plexus. Small differences in plasmaproteins and hematocrit values were found to be due to acute shifts of water within the extracellular space. In mice the activities of lactate dehydrogenase, malate dehydrogenase, aspartate aminotransferase and myokinase were found to be too high in blood serum obtained from the ventral aorta. Efflux of enzymes from damaged cells and the interstitial space ive caused erroneous results too, but only to a minor extent. The most reliable method for blood sampling in rat and mouse is the cannulation of the jugular vein. The heart puncture can be recommended too. Attention should be paid, however, to the possibility of aspirating disrupted muscle cells through the inserted needle.
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PMID:[Effects of blood sampling on enzyme activities in the serum of small laboratory animals (author's transl)]. 108 84

1. The effects of protein concentration and ionic strength on the adsorption of the individual glycolytic enzymes to F-actin and F-actin--trypomyosin--troponin have been studied. 2. Appreciable association was demonstrated under conditions of physiological ionic strength and high protein concentration, and tropomyosin--troponin established as an important and generalized component of these interactions. 3. Phosphofructokinase, aldolase, pyruvate kinase, lactate dehydrogenase, glyceraldehyde-3-phosphate dehydrogenase and glucose-6-phosphate isomerase were strongly bound under these conditions, while triosephosphate isomerase, phosphoglycerate kinase, phosphoglycerate mutase, enolase and hexokinase displayed less adsorption to the structural proteins. 4. The influence of a number of parameters on the adsorption phenomena was examined. Ca2+ and fructose 1,6-diphosphate increased the adsorption of aldolase, lactate dehydrogenase and pyruvate kinase, while decreasing the adsorption of the enzymes of the constant-proportion group. 5. Of the other major enzymic components of skeletal muscle, creatine kinase, adenylate kinase and malate dehydrogenase showed no adsorption to F-actin--tropomyosin--troponin under the experimental conditions. Some adsorption was evident, however, in the case of aspartate aminotransferase, (NADP) isocitrate dehydrogenase and alpha-glycerolphosphate dehydrogenase. 6. These results have been discussed in relation to their functional significance and the roles of enzyme compartmentation in the cell.
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PMID:On the association of glycolytic enzymes with structural proteins of skeletal muscle. 111 88

Most chromosome aberrations in gliomas are numerical, resulting in either gains or deficiencies of whole chromosomes. In tumors of low malignancy, the karyotype is frequently normal or exhibits a loss of sex chromosome and a gain of chromosome 7. These two anomalies may not be directly related to malignancy. In the highly malignant cases, the two most frequent aberrations are the gain of chromosome 7 and the loss of chromosome 10, other anomalies such as losses or deletions of chromosomes, 9, 22, 6, 13 and 14 being detected at various frequencies. Several of these chromosomes carry important genes of adenine metabolism: AK1 and AK3 (adenylate kinase) and MTAP (methylthioadenosine phosphorylase) for chromosome 9; ADK (adenosine kinase) and mitochondrial ATPase for chromosome 10; ADSL (adenylosuccinate lyase) for chromosome 22, NP (nucleoside phosphorylase) for chromosome 14. We performed the corresponding assays of enzyme activity on both fresh tumors and tumors grafted on nude mice, which showed that these enzymes had a relatively low activity although the tumors were proliferating. However, chromosome losses do not seem to directly cause the metabolic alterations by gene dosage effect. Interestingly, chromosome 10, frequently deficient, also carries genes of importance for glycolysis (hexokinase) and glutamate metabolism (glutamate dehydrogenase and glutamate oxaloacetate transaminase). The deficiency for these genes could be taken into account for a better type of chemotherapy by antimetabolics.
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PMID:[Chromosome abnormalities and adenine metabolism in human glial tumors]. 144 60

We have previously shown that the rapid clearance of intravenously injected lactate dehydrogenase M4 from plasma is mainly due to endocytosis by macrophages in liver, spleen, and bone marrow. We have now studied endocytosis of lactate dehydrogenase M4 in detail, using freshly isolated rat liver macrophages (Kupffer cells) in vitro. 125I-lactate dehydrogenase M4 rapidly accumulated in the cells and was subsequently degraded to trichloroacetic acid-soluble material. Degradation was inhibited by leupeptin, an inhibitor of lysosomal proteases. Breakdown of the protein was also greatly diminished by treatment of the cells with chloroquine, a weak base which inhibits proteolysis by raising the pH in endosomes and lysosomes. High concentrations of chloroquine inhibited uptake. Lactate dehydrogenase M4 was not endocytosed by liver endothelial cells, although, under the same conditions, these cells were shown to accumulate horse radish peroxidase via a mannose-specific receptor. Uptake of lactate dehydrogenase M4 by Kupffer cells was strongly reduced after pretreatment of the cells with low concentrations of proteases. Endocytosis of lactate dehydrogenase M4 exhibited saturation kinetics (Km = 0.8 microM) and was competitively inhibited by mitochondrial and cytosolic malate dehydrogenase, alcohol dehydrogenase, adenylate kinase, and creatine kinase MM, enzymes which are rapidly cleared in vivo. Enzymes with long half-lives in plasma, namely lactate dehydrogenase H4, alanine aminotransferase, and cytosolic aspartate aminotransferase did not compete at concentrations up to 10 microM. Our results indicate that Kupffer cells contain a receptor that is involved in the clearance of lactate dehydrogenase M4 and a number of other tissue-derived enzymes from plasma. Uptake of lactate dehydrogenase M4 does not occur via a receptor that recognizes carbohydrate residues, for the enzyme is not a glycoprotein.
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PMID:Receptor-mediated endocytosis of lactate dehydrogenase M4 by liver macrophages: a mechanism for elimination of enzymes from plasma. Evidence for competition by creatine kinase MM, adenylate kinase, malate, and alcohol dehydrogenase. 282 Sep 61

Six Leishmania isolates from 3 indigenous Kenyans (2 isolates from one patient) and 2 Canadian visitors in Kenya were characterized by cellulose acetate electrophoresis. The isolates were compared among themselves and with reference strains of Leishmania donovani, L. aethiopica, L. major, L. tropica, and L. arabica using 9 enzymes: malate dehydrogenase (MDH), malic enzyme (ME), phosphogluconate dehydrogenase (6PGD), glucose-6-phosphate dehydrogenase (G6PD), aspartate aminotransferase (ASAT), adenylate kinase (AK), mannose phosphate isomerase (MPI), glucose phosphate isomerase (GPI), and phosphoglucomutase (PGM). Enzyme migration patterns of isolates from the 3 indigenous Kenyans were indistinguishable from those of 2 L. tropica reference strains. The isolates from the 2 Canadians yielded migration patterns of 7 enzymes that were indistinguishable from those of 2 L. tropica reference strains. However, migration patterns of 2 enzymes, PGM and ME, differed from all migration patterns of the 10 reference strains. Balb/c mice were inoculated with stationary phase promastigotes cultured from 3 stabilates from the lesions of 2 of the Kenyan patients. The mice developed no gross pathological lesions in 6 months time. All of the study patients developed cutaneous leishmaniasis while living in or visiting districts in Central and Rift Valley Provinces, Kenya. This is the first report of human cutaneous leishmaniasis caused by L. tropica indigenous to Africa south of the Sahara.
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PMID:Indigenous human cutaneous leishmaniasis caused by Leishmania tropica in Kenya. 317 40

The enzymes of 35 adult Paragonimus uterobilateralis were analysed using thin-layer starch gel electrophoresis. From a total of 21 enzyme systems studied, 15 proved to be useful for the description and recognition of this species. All individuals were identical concerning 11 enzymes. In four remaining enzymes, alanine aminotransferase (ALAT, hexokinase, aspartate aminotransferase and phosphogluconate dehydrogenase, two or three variants, also being partly typical for this species were observed. In a comparison involving seven different enzymes, there were no differences between the electrophoretic patterns of 35 adult and 24 juvenile P. uterobilateralis. Additional examinations of 30 adult P. uterobilateralis with isoelectric focusing on ultrathin-layer polyacrylamide gels revealed clearer separations of enzymes. The method showed corresponding results or identiy of all individuals tested with three representative enzymes (ALAT, glucosephosphate isomerase and adenylate kinase).
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PMID:Isoenzymes of the lung fluke Paragonimus uterobilateralis from Liberia. 344 38

The high degree of constancy of enzyme catalytic activity in the plasma of a given individual is regulated by a complex system of flux equilibria consisting of eight basic processes. Some of these processes are of primarily theoretic importance. Enzymes from all tissues of the body, including the liver, are released via a continuous physiological process into the interstitial space and get into the intravascular space by way of lymphatic transport. The release of enzymes from tissues directly into the intravascular space is of secondary importance as is the exchange of enzyme molecules across capillary membranes from the intravascular to the interstitial space and vice versa. In contrast, enzymes from circulating blood cells are transported directly into the intravascular space. Enzymes are removed from the intravascular space at rates which vary greatly between both enzymes and species. In a review of the literature, half-lives of diagnostically important enzymes in plasma of man, dogs and rats were given and the striking differences in the results for a given enzyme are discussed from a methodological point of view. In a mathematical analysis, data for lymphatic transport of enzymes from dogs and rats (Lindena et al. (1986) this J. 24, 19-33) and of enzyme efflux from in vivo ageing erythrocytes (Lindena et al. (1986) this J. 24, 49-59) into the plasma are related to the elimination rate constants of enzymes from the plasma. The contribution of lymphatically transported enzymes to the basal catalytic activity in plasma (Lindena & Trautschold (1986) this J. 24, 11-18) amounts to 55-80% for lactate dehydrogenase and malate dehydrogenase, 80-90% for adenylate kinase and phosphohexose isomerase, 90-95% for aspartate aminotransferase and aldolase and 99% for creatine kinase. A model of Ca2+ -mediated vesicular transport of enzymes out of ageing erythrocytes is proposed. The importance of lymphatically transported enzymes to total plasma catalytic activity in dogs and rats argues for a similar contribution of lymph transport in man.
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PMID:Kinetic of adjustment of enzyme catalytic concentrations in the extracellular space of the man, the dog and the rat. Approach to a quantitative diagnostic enzymology, V. Communication. 351 20

In previous experiments we have shown that the rapid clearance in rats of alcohol dehydrogenase, lactate dehydrogenase M4, and the mitochondrial and cytosolic isoenzymes of malate dehydrogenase is largely due to endocytosis by macrophages in liver, spleen and bone marrow. Competition experiments indicated that the dehydrogenases as well as adenylate kinase and creatine kinase MM are endocytosed via the same receptor. We suggested that this receptor contains a group with affinity for the nucleotide-binding sites of the enzymes. We now demonstrate that competition also occurs between mitochondrial malate dehydrogenase and mitochondrial aspartate aminotransferase, which does not require a nucleotide for its activity. At low doses, mitochondrial aspartate aminotransferase was cleared following first-order kinetics (half-life: 19 min). Simultaneous injection of a high dose of mitochondrial malate dehydrogenase strongly retarded the clearance of the aminotransferase. These results make unlikely the hypothesis that a nucleotide-binding site is involved in recognition of enzymes by macrophages.
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PMID:Plasma clearance of mitochondrial aspartate aminotransferase in the rat: competition with mitochondrial malate dehydrogenase. 357 76

The activity of serum enzymes, such as, creatine kinase (CK), pyruvate kinase (PK), aldolase (ALD), lactate dehydrogenase (LDH), sorbitol dehydrogenase (SbDH), malate dehydrogenase (MDH), glutamate-aspartate aminotransferase (AST), glutamate-alanine aminotransferase (ALT), myokinase (MK), glucosephosphate isomerase (GPI), alkaline phosphatase (AlkP), pseudocholinesterase (PsCHE) isocitrate dehydrogenase and gamma-glutamyltranspeptidase (gamma-GTP), was determined in 256 patients with progressing myodystrophy (PMD) (Duchenne's form in 125, Becker's form in 14, pelvicohumeral form in 36, humeroscapulofacial form in 19, ocular form in 10, other rare forms in 34, and nonidentified forms in 13 patients). In the control group (64 men, 56 women and 50 children), the activity of the enzymes was found to depend on the patients' sex and age. With regard to both parameters, i. e. the degree of the enzyme activity rise and the frequency of the pathological values the most informative were CK, then PK and ALD, and then all the other enzymes. Of all the PMD forms the enzymatic activity appeared to be the highest in patients with the pseudohypertrophic malignant form. By determining the activity of five enzymes (CK, ALD, LDH, AST and ALT) and taking into consideration the patient's age, the onset and the duration of the disease one can distinguish between sick and healthy subjects, as well as between various forms of PMD.
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PMID:[Serum enzyme dynamics in progressive muscular dystrophies]. 703 17

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