EC:3.5.1.4 - FACTA Search

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Query: EC:3.5.1.4 (deaminase)
5,113 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It is shown that the AMP-deaminase activity in leucocytes of the human peripheric blood in contrast with the enzyme from erythrocytes manifests its activity only if it is isolated in the presence of K+ or Na+ ions. Pi and GTP being inhibitors of the enzyme in different tissues including erythrocytes do not alter the AMP-deaminase activity in leucocytes. 3,3',5-triiodothyracetic acid markedly decreasing the AMP-deaminase activity of leucocytes does not affect the enzyme activity in the hemolyzate of erythrocytes. The results obtained have shown that the AMP-deaminase activity in leucocytes of the human peripheric blood possesses some regulatory properties differing from those of the enzyme in erythrocytes.
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PMID:[AMP-deaminase activity of circulating leukocytes in the human]. 394 16

The measurements of deoxyadenosine kinase, adenosine kinase, and deoxycytidine kinase were examined in human placental cytosol to achieve a valid and reliable assay linear with time and protein. Our studies confirm the need to inhibit deaminase enzymes, since deoxyadenosine and deoxycytidine undergo extensive deamination and phosphorolysis. The use of a uniformly labeled nucleoside substrate introduced an artifact because the chromatographic behavior of the deoxyribose-1-phosphate, formed during the assay, was difficult to distinguish from the deoxynucleoside phosphate product. Accurate product identification was also essential. Finally, the substitution of GTP in place of ATP as the phosphate donor, the addition of a sulfhydryl reducing agent and a monovalent cation need to be considered when an assay is optimized. The use of these methods have lead to valid assays in placental cytosol that are linear with time and protein. Consideration of these important principles are necessary when establishing a valid and reliable nucleoside kinase assay in a crude tissue preparation.
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PMID:Measurement of nucleoside kinases in crude tissue extracts. 631 76

The interaction of rabbit skeletal muscle adenylate deaminase with myosin fragments (heavy meromyosin and subfragment-2) has been studied by analytical centrifugation, gel chromatography, and stopped flow light scattering. Formation of the complex is highly cooperative with respect to addition of two molecules of adenylate deaminase/molecule of myosin fragment to form a ternary complex. Ternary complex formation is also highly pH-dependent with less complex formed at higher pH values, and the pH dependence is steeper with heavy meromyosin than with subfragment-2. At pH 6.5, the dissociation constant for the heavy meromyosin-deaminase complex is approximately 1.2 X 10(-15) M2. Over the pH range 6.5-7.0, rate constants for the formation and dissociation of both the ternary and binary complexes of adenylate deaminase with heavy meromyosin have been determined. From analysis of the time course of stopped flow light scattering, the association steps are found to be extremely rapid, while the rate constant for dissociation of the first molecule of adenylate deaminase from the ternary complex is quite slow. This rate constant increases as the pH increased, but is sufficiently low that the interacting system does not equilibrate on the time scale of mass transport experiments (sedimentation velocity and gel chromatography), and thus displays apparent "slow" behavior. The kinetic regulatory properties of adenylate deaminase are influenced by heavy meromyosin and subfragment-2, particularly with respect to inhibition by GTP. The association and dissociation of adenylate deaminase and myosin fragments and the resultant changes in kinetic properties of the adenylate deaminase can markedly alter the time course of the enzymatic reaction. The time scale over which this interaction is modulated by changes in pH may have significance in the metabolism of exercising muscle.
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PMID:Analysis of the interaction of rabbit skeletal muscle adenylate deaminase with myosin subfragments. A kinetically regulated system. 636 42

An enzyme responsible for the deacylation of beta-citryl-L-glutamate to citrate and glutamate has been characterized in rat testis. The enzyme required manganese ion for full activity and was strongly inhibited by nucleotides such as ATP or GTP. The activity was localized in the particulate fractions. The enzyme favored N-formyl-L-glutamate greater than beta-citrly-L-glutamate greater than beta-citryl-L-glutamine in a decreasing order. The amidohydrolyase activity was highest in the testis and lung, a moderate activity was detected in heart, kidney and intestine, and low in brain, thymus, stomach, skeletal muscle, spleen and liver. These findings suggest that the amidohydrolase is different from any of amidohydrolases reported so far, amidohydrolase I (EC 3.5.1.14), II (EC 3.5.1.15), III, N-acetyl-lysine deacylase (EC 3.5.1.17) and N-acetyl-beta-alanine deacetylase (EC 3.5.1.21), and various peptidases.
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PMID:A beta-citryl-L-glutamate-hydrolysing enzyme in rat testes. 641 21

The use of high-performance liquid chromatography to identify and quantitate five purine-metabolizing enzymes from a partially purified subcellular fraction of the eucaryotic microorganism Dictyostelium discoideum is described. All HPLC separations were carried out in an isocratic manner using reverse-phase C18 as the stationary phase. The mobile phase consisted of a phosphate buffer with either methanol or acetonitrile as cosolvent, and optimal separation conditions were attained by varying the organic concentration or the pH of the buffer or by employing paired-ion chromatographic techniques. Substrates and products were detected at either 254 nm for the purines or 295 nm for the formycin analogs. An adenosine kinase activity was identified, and it was demonstrated that formycin A (FoA) could be substituted for adenosine as the phosphate acceptor, yielding FoAMP as the product. With FoA as the substrate an apparent Km of 18.2 microM and an apparent Vmax of 32.4 mmol min-1 mg-1 were observed for the activity. A purine-nucleoside phosphorylase activity was found to cleave adenosine to adenine and ribosylphosphate. FoA was not found to be a substrate for this activity due to the unusual formycin C-glycosyl bond which was not hydrolyzed by enzymes or chemically with either HCl or NaOH. An adenylate deaminase activity was found to be present in the cytosolic S-100 of cells harvested during the onset of development, and this deaminase activity was greatly stimulated by ATP. With FoAMP as the substrate, an apparent Km of 236 microM and Vmax of 2.78 mumol min-1 mg-1 were observed. The deamination of FoAMP could be inhibited by the addition of the natural substrate AMP. An apparent Ki value of 136 microM was determined from initial rate data. An adenylosuccinate synthetase activity was observed to have a Km value for GTP, IMP, and aspartic acid of 23, 34, and 714 microM, respectively. The formycin analog FoIMP was not a substrate with this activity but was a competitive inhibitor of IMP. Finally hypoxanthine-guanine phosphoribosyltransferase was found to have Km and Vmax values for hypoxanthine of 55.5 microM and 34.3 nmol-1 min-1 mg-1. When guanine was used as the substrate, the rate of nucleotide formation was 50% that with hypoxanthine as the substrate. The advantages of using HPLC to examine the interconnecting activities of a multienzyme complex in subcellular fractions are discussed, including the increased sensitivity obtained by using formycin analogs in the assay procedures.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Intermediary purine-metabolizing enzymes from the cytosol of Dictyostelium discoideum monitored by high-performance liquid chromatography. 642 68

AMP-deaminase was purified from trout white muscle and some of its properties were investigated. The enzyme preparation was electrophoretically homogeneous; the molecular mass of the polypeptides was equal to 71600 +/- 550 Da, the specific activity was 200-500 U./mg of protein. Activation of the enzyme caused by acidification of the medium in the physiological range of pH was the result of reduction of Km for the substrate. ADP and ATP activated the enzyme, while GTP inhibited it. The enzyme was also inhibited by IMP (this phenomenon had never been described before). A change in pH within the physiological range of pH (6.6-7.3) had no influence on ATP, GTP or IMP effects on AMP-deaminase. The enzyme activation by ADP was sensitive to pH. The possibilities of fish muscle AMP-deaminase regulation under conditions of intensified metabolism is discussed.
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PMID:[Purification and characteristics of AMP-deaminase from trout white muscle]. 771 68

Using well-characterized mutant host cell lines, deficient in specific enzymes of energy and nucleotide metabolism, we addressed numerous questions regarding nucleotide metabolism in the obligate intracellular bacterium Chlamydia trachomatis. The results presented indicate that C. trachomatis: (i) does not absolutely depend on mitochondrial generated ATP for survival; (ii) does have a significant draw on host-cell NTP pools but does not have a detrimental effect on the ability of the host cell to maintain its energy charge; (iii) lacks the ability to synthesize purine and pyrimidine nucleotides de novo; (iv) is not capable of interconverting purine nucleotides; and (v) possesses the pyrimidine metabolic-pathway enzymes CTP synthetase and deoxycytidine nucleotide deaminase. In total our results indicate that C. trachomatis is auxotrophic for host-cell ATP, GTP and UTP. In contrast, CTP can be obtained from the host cell or it can be synthesized from UTP by the parasite.
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PMID:The obligate intracellular bacterium Chlamydia trachomatis is auxotrophic for three of the four ribonucleoside triphosphates. 836 55

Extracellular adenosine (Ado) and ATP stimulate astrocyte proliferation through activation of P(1) and P(2) purinoceptors. Extracellular GTP and guanosine (Guo), however, that do not bind strongly to these receptors, are more effective mitogens than ATP and Ado. Exogenous Guo, like GTP and 5'-guanosine-betagamma-imidotriphosphate (GMP-PNP), dose-dependently stimulated proliferation of rat cultured astrocytes; potency order GMP-PNP > GTP > or = Guo. The mitogenic effect of Guo was independent of the extracellular breakdown of GTP to Guo, because GMP-PNP, a GTP analogue resistant to hydrolysis, was the most mitogenic. In addition to a direct effect on astrocytes, Guo exerts its proliferative activity involving Ado. Exogenous Guo, indeed, enhanced the extracellular levels of endogenous Ado assayed by HPLC in the medium of cultured astrocytes. Culture pretreatment with Ado deaminase (ADA), that converts Ado into inosine, reduced but did not abolish Guo-induced astrocyte proliferation whereas erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA), that inhibits ADA activity, amplified Guo effect. Moreover, the mitogenic activity of Guo was partly inhibited by 8-cyclopentyl-1,3-dipropylxanthine and alloxazine, antagonists of Ado A(1) and A(2B) receptors, respectively. Also microglia seem to be a target for the action of Guo. Indeed, the mitogenic effect of Guo on astrocytes was: i) increased proportionally to the number of microglial cells present in the astrocyte cultures; ii) amplified when purified cultures of astrocytes were supplemented with conditioned medium deriving from Guo-pretreated microglial cultures. These data indicate that the mitogenic effects exerted by exogenous Guo on rat astrocytes are mediated via complex mechanisms involving extracellular Ado and microglia-derived soluble factors.
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PMID:Cultured astrocyte proliferation induced by extracellular guanosine involves endogenous adenosine and is raised by the co-presence of microglia. 1064 47

To study the influence of oxidative stress on energy metabolism and lipid peroxidation in erythrocytes, cells were incubated with increasing concentrations (0.5-10 mM) of hydrogen peroxide for 1 h at 37 degrees C and the main substances of energy metabolism (ATP, AMP, GTP and IMP) and one index of lipid peroxidation (malondialdehyde) were determined by HPLC on cell extracts. Using the same incubation conditions, the activity of AMP-deaminase was also determined. Under nonhaemolysing conditions (at up to 4 mM H2O2), oxidative stress produced, starting from 1 mM H2O2, progressive ATP depletion and a net decrease in the intracellular sum of adenine nucleotides (ATP + ADP + AMP), which were not paralleled by AMP formation. Concomitantly, the IMP level increased by up to 20-fold with respect to the value determined in control erythrocytes, when cells were challenged with the highest nonhaemolysing H2O2 concentration (4 mM). Efflux of inosine, hypoxanthine, xanthine and uric acid towards the extracellular medium was observed. The metabolic imbalance of erythrocytes following oxidative stress was due to a dramatic and unexpected activation of AMP-deaminase (a twofold increase of activity with respect to controls) that was already evident at the lowest dose of H2O2 used; this enzymatic activity increased with increasing H2O2 in the medium, and reached its maximum at 4 mM H2O2-treated erythrocytes (10-fold higher activity than controls). Generation of malondialdehyde was strictly related to the dose of H2O2, being detectable at the lowest H2O2 concentration and increasing without appreciable haemolysis up to 4 mM H2O2. Besides demonstrating a close relationship between lipid peroxidation and haemolysis, these data suggest that glycolytic enzymes are moderately affected by oxygen radical action and strongly indicate, in the change of AMP-deaminase activity, a highly sensitive enzymatic site responsible for a profound modification of erythrocyte energy metabolism during oxidative stress.
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PMID:Energy metabolism and lipid peroxidation of human erythrocytes as a function of increased oxidative stress. 1065 4

AMP-deaminase (AMPD) catalyzes the irreversible hydrolysis of AMP to IMP and ammonia. Being the integral enzyme of purine nucleotide cycle, AMPD participates in deamination of amino acids and their involvement into carbohydrate metabolism. This enzyme competes with 5'-nuclease for AMP it is indirectly involved in regulation of adenosine level. The role of AMPD may be supported also by the correlation between its activity and several neuromuscular and immunologic pathologies. The information on the izoforms, gene expression both in the normal and pathological states is given. Activity of AMPD is regulated by the substrate availability, adenylate pool, GTP, product of catalysed reaction IMP, ++inorganical phosphate, etc. Currently the growing scope of data is displaying the possible role of reversible phosphorylation and binding to cellular elements in regulation of the properties of AMPD under change of physiological state of organism.
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PMID:[AMP-deaminase: regulation and physiological role of the enzyme]. 1097 54

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