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)

Adenine and adenosine metabolism has been studied in intact human erythrocytes in vitro using high performance liquid chromatography, isotopic labeling and electrophoresis. Their metabolism to nucleotides was controlled by phosphoribose diphosphate synthesis which was phosphate dependent. Adenosine formed hypoxanthine or IMP depending upon Pi concentration, but adenosine kinase and deaminase activities were not affected by P levels. Free [14C]adenine and [14C]hypoxanthine were found in cellular extracts. Rapid interconversions occurred to give a distribution for ATP : ADP : AMP of 10 : 1 : 0.1. Marked decomposition of ATP to ADP and AMP occurred during incubations in plasma and Earle's media in air on nitrogen, but ATP levels remained stable in phosphate buffers and in the presence of oxygen. At physiological Pi (1 mM) adenosine kinase activity grossly exceeded adenine phosphoribosyltransferase activity. The latter was approximately 7 fold that of hypoxanthine phosphoribosyltransferase activity. These differences decreased with increasing Pi levels. No significant increase in corresponding nucleotides was obtained by incubation with high levels (0.5 mM) of adenine, guanine or guanosine at physiological Ii, ATP increased by 10% independently of the substrate employed and significant amounts of IMP and GTP were formed adenosine and guanosine, respectively. The existence of a bound intracellular pool of ATP is suggested.
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PMID:Studies on adenine and adenosine metabolism by intact human erythrocytes using high performance liquid chromatography. 94 98

1. AMP-deaminase (AMP-aminohydrolase, EC 3.5.4.6) from rabbit skeletal muscle showed sigmoid-shaped plots of velocity versus substrate concentration at four temperatures tested between 15 degrees and 35 degrees C. In the presence of 20 mM-KCl, the plot was sigmoid only at 30 degrees C and became hyperbolic at the other temperatures tested. In the presence of 150 mM-KCl the plots were hyperbolic at all the temperatures applied. 2. The Km value depended on temperature and concentration of KCl, whereas Vmax was the same for the 20 mM- and 150 mM-KCl-activated enzyme. 3. The value of enthalpy of the enzyme-substrate complex formation was the same for both the 20 mM- and 150-mM-KCl-activated enzyme at lower temperature range (less than 38 degrees C), whereas at higher temperatures (greater than 38 degrees C) this value was much more negative in the presence of 20 mM-KCl than of 150 mM-KCl.
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PMID:Potassium-dependent thermal sensibility of AMP-deaminase from rabbit skeletal muscle. 97 34

AMP-deaminases were isolated and partially purified from subfractions of soluble mitochondrial proteins of rat liver under normal conditions and in ethanol intoxication. Repeated freezing and thawing of the mitochondrial fractions from liver of rats, which were treated with ethanol (1 ml of 32% solution daily for 7 days, intraperitoneally), liberated into the subfraction of soluble mitochondrial proteins significantly less AMP-deaminases, as compared with the control animals. The enzyme preparations obtained from intoxicated and intact animals were quite similarly inactivated by controlled heating, deaminated at similar rates AMP, ADP, FAD and some other nitrogenous compounds (but did not deaminate adenosine and some structural analogues of AMP). However, an inhibitory effect of the structural analogues of AMP and of nucleosides was significantly higher towards the AMP-deaminase from healthy rats as compared with the corresponding enzyme preparations obtained from the ethanol-treated animals. The increase in velocity of enzymatic AMP deamination in the subfraction of soluble mitochondrial proteins apparently does not represent a suitable target for possible therapeutic approaches to control the phenomenon, observed in the experimental ethanol intoxication, of stimulation of the deaminating activity in total mitochondrial fraction of rat liver.
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PMID:[Adenylate deaminase of the liver mitochondria in normal state and in alcoholic intoxication]. 103 94

Contemporary data on three enzymes of vertebrate cross-striated muscle thick filaments, such as creatine kinase, AMP-deaminase and phosphofructokinase, are reviewed. The physico-chemical, enzymatic and regulatory properties and localization of these enzymes in different zones of the thick filament are considered. The functional relevance of localization of creatine kinase, AMP-deaminase and phosphofructokinase on thick filaments is discussed in terms of the possible role of the enzyme adsorption on subcellular structures in regulation of metabolic processes.
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PMID:[Enzymes in thick filaments of vertebrate cross-striated muscles]. 129 52

Human B lymphoblast lines severely deficient in hypoxanthine-guanine phosphoribosyltransferase (HGPRT) were selected for resistance to 6-thioguanine from cloned normal and phosphoribosylpyrophosphate (PP-Rib-P) synthetase-superactive cell lines and were compared with their respective parental cell lines with regard to growth and PP-Rib-P and purine nucleotide metabolism. During blockade of purine synthesis de novo with 6-methylthioinosine or aminopterin, inhibition of growth of all HGPRT-deficient cell lines was refractory to addition of Ade at concentrations which restored substantial growth to parental cell lines. Ade-resistant inhibition of growth of parental lines by 6-methylthioinosine, however, occurred during Ado deaminase inhibition. Insufficient generation of IMP (and ultimately guanylates) to support growth of lymphoblasts lacking HGPRT activity and blocked in purine synthesis de novo best explained these findings, implying that a major route of interconversion of AMP to IMP involves the reaction sequence: AMP----Ado----Ino----Hyp----IMP. PP-Rib-P generation and purine nucleoside triphosphate pools were unchanged by introduction of HGPRT deficiency into normal lymphoblast lines, in agreement with the view that accelerated purine synthesis de novo in this deficiency results from increased availability of PP-Rib-P for the pathway. Cell lines with dual enzyme defects did not differ from PP-Rib-P synthetase-superactive parental lines in rates of PP-Rib-P and purine synthesis despite 5-6-fold increases in PP-Rib-P concentrations, excretion of nearly 50% of newly synthesized purines, and diminished GTP concentrations. Fixed rates of purine synthesis de novo in PP-Rib-P synthetase-superactive cells appeared to reflect saturation of the rate-limiting amidophosphoribosyltransferase reaction for PP-Rib-P. In combination with accelerated purine excretion, increased channeling of newly formed purines into adenylates, and impaired conversion of AMP to IMP, fixed rates of purine synthesis de novo may condition cell lines with defects in HGPRT and PP-Rib-P synthetase to depletion of GTP with consequent growth retardation.
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PMID:Regulation of purine nucleotide synthesis in human B lymphoblasts with both hypoxanthine-guanine phosphoribosyltransferase deficiency and phosphoribosylpyrophosphate synthetase superactivity. 131 6

Following earlier observations that increasing the polyunsaturated fatty-acid (PUFA) content of N1E-115 neuroblastoma cells elevated basal and adenosine (Ado)-stimulated intracellular cyclic AMP (cAMP) formation, we carried out studies to determine the mechanism(s) by which PUFA exerted their modulatory effects. Basal increases in cAMP in the PUFA-enriched (PUFA+) cells were evident with short (60 sec) exposure to a phosphodiesterase inhibitor (Ro 20-1724), and increased to a maximum at 20 min; they were not observed in the absence of Ro 20-1724. Forskolin-stimulated cAMP formation in the presence of the Ro compound was 2- to 3-fold higher in the PUFA+ cells. Basal elevations in cAMP were reduced by approximately 70% by exposing the PUFA+ cells to Ado deaminase (ADA) or to an Ado antagonist, and were further increased by inhibiting ADA, which suggested that they could be producing endogenous Ado that activated stimulatory Ado receptors. However, this did not appear to involve PUFA-mediated stimulation of 5'-nucleotidase activity or inhibition of [3H]Ado uptake. Overall, the results of this study indicated that multiple mechanisms are involved in PUFA modulation of cAMP formation.
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PMID:Further studies of the mechanism(s) of polyunsaturated-fatty-acid-mediated increases in intracellular cAMP formation in N1E-115 neuroblastoma cells. 133 37

Thick filaments in vertebrate striated muscles are composed of myosin heavy chain (MHC) and myosin light chains (MLCs) plus at least eight other proteins: C-protein, 86kD protein (birds) or H-protein (mammals), M-protein, myomesin, titin, MM-creatine kinase, skelemin, and AMP-deaminase. Except for CPK and AMP deaminase, none have well defined functions. Analysis of cDNA clones encoding chicken C-protein and 86kD protein has revealed a high degree of shared amino acid identity, particularly in the C-terminal 40kD. To identify functionally significant regions, the human counterpart of each protein was cloned, sequenced and analysed. Two human C-protein cDNAs were isolated with significant homology to chicken fast C-protein. Clone H75, with 69% identity to chicken fast C-protein, shows the same pattern of hybridization as the chicken fast C-protein in chicken muscles. The other clone, H8 with 60% identity, shows a pattern of hybridization in chicken muscles which is consistent with the expression of chicken slow C-protein. The human 86kD protein shares 66% DNA sequence identity with the chicken 86kD protein. Assuming that essential sequences would be conserved during evolution, we compared the chicken and human proteins using PALIGN. Chicken and human fast C-proteins possess 66% peptide identity over their deduced length plus 10% conservative substitutions. Human slow C-protein and chicken fast C-protein share 44% peptide sequence identity, plus 16% conservative substitutions. Chicken and human 86kD proteins are also very similar: 54% peptide identity plus 20% conservative substitutions. This high degree of sequence identity between chicken and human C- and 86kD proteins suggests selective pressure on the primary sequence. Recent primary sequence analyses of projectin and mini-titins from Drosophila, twitchin from C. elegans, C-protein, smMLCK, 86kD protein, and M-protein from the chicken, titin from the rabbit, and skelemin from the mouse reveals that all these proteins possess multiple internal repeats of approximately 100 amino acids. These repeating domains are of two types: one is homologous to the internal repeats which define the C-2 subset of the immunoglobulin superfamily, the other is related to the fibronectin type III repeat. Both human C-proteins possess comparable internal repeats and preliminary evidence suggests the presence of the same repeats in human 86kD. This duality of repeat structure is found in many extracellular proteins and is typified by the N-CAMs.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:cDNA cloning and sequence comparisons of human and chicken muscle C-protein and 86kD protein. 134 Oct 33

The contribution of 5'-nucleotidase and AMP-deaminase to adenine nucleotide degradation in human cardiomyocytes isolated from diseased or normal heart was investigated. The preparation used contained 30 to 50% of viable cells and the nucleotide degradation was stimulated by addition of deoxyglucose and oligomycin. To distinguish pathways of nucleotide degradation, adenosine deaminase was inhibited by erythro-9-(2-hydroxy-3-nonyl) adenine (EHNA). Under these conditions, ATP concentration was decreased by 60% after 45 min of incubation. Simultaneously, increases in intra- and extracellular catabolite concentrations have been observed. Adenosine was the predominant catabolite found in both the cells and in the extracellular medium accounting for more than 70% of all degradation products. Intracellular adenosine concentration rose to 300 times greater than that outside the cell. An increase in intra- and extracellular inosine was also seen. Only a small increase of IMP concentration was observed. No hypoxanthine accumulation was found. No significant change in initial adenine nucleotide concentrations were observed in isolated cells during aerobic incubation without deoxyglucose and oligomycin. In conclusion, a pathway involving adenosine production appears to be the principal route of nucleotide degradation in human cardiomyocytes.
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PMID:Adenine nucleotide catabolism and adenosine formation in isolated human cardiomyocytes. 156 34

AMP-deaminase from human kidney (cortex and medulla) was purified and the physicochemical properties were characterized. The enzyme from both portions of the kidney exhibited identical kinetics and regulatory properties. At optimal pH (6.6), the AMP-deaminase studied exhibited a distinctly sigmoidal substrate saturation kinetics, with the half-saturation parameter (S0.5) as high as 10 mM. ATP at 1 mM strongly activated the enzyme, decreasing S0.5 nearly 10-fold. The activating effect of ADP was less strong. Orthophosphate inhibited the enzyme, but the inhibition observed was weak (Ki approximately 16 mM) and had a pure competitive character. At pH 7.2, physiological for the kidney cortex, orthophosphate inhibition became even weaker and became partially competitive. Variations in the adenylate energy charge had potent effects on the activity of AMP-deaminase, depending on the size of the total adenine nucleotide pool examined. The results of gel filtration and SDS-PAGE indicated that human kidney AMP-deaminase is an oligomeric enzyme composed of four, probably identical, subunits weighing about 37 kDa each.
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PMID:Purification and properties of AMP-deaminase from human kidney. 162 54

Under the effects of 0.7 MPa of oxygen leading to a convulsive state, AMP-deaminase activity increased significantly in the rat brain mitochondrial fraction with only a tendency to increase in cytoplasmic fraction. Stimulated effects of the enzyme allosteric activator ATP is more obvious in intact animals than in hyperoxic ones. Pretreatment with AMP before hyperoxygenation exerts a protective effect preventing the alteration of monoamine oxydase catalytic properties, stabilizing membrane structure and improving the general state of the animals.
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PMID:[AMP deaminase activity in hyperoxia and the effect of AMP on animal sensitivity to oxygen under pressure]. 165 22

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