EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Intact synaptosomes isolated from the electric organ of the electric ray Torpedo marmorata contain, at their surface, enzyme activities for the hydrolysis of externally applied nucleoside phosphates. The diazonium salt of sulfanilic acid, as a low-molecular-weight, slowly permeating, covalent inhibitory agent, selectively blocks these enzyme activities and leaves intracellular lactate dehydrogenase intact. The ectoenzymes comprise both a nucleoside triphosphate and diphosphate phosphohydrolase, as well as a 5'-nucleotidase. Activity of nonspecific ectophosphatases is absent. The nucleoside triphosphatase hydrolyzes almost equally well ATP, GTP, CTP, UTP, and ITP and is activated to a similar degree by Mg2+ or Ca2+. It has a high affinity for ATP (Km for ATP in the presence of Mg2+, 75 microM; in the presence of Ca2+, 66 microM). Maximal rates in the presence of Mg2+ and Ca2+ were very similar (34.8 and 32.5 nmol of Pi/min/mg of synaptosomal protein, respectively). Either Mg-ATP or Ca-ATP can act as a true substrate. ADP inhibits hydrolysis of ATP, but AMP is without effect. The nucleoside triphosphatase is not inhibited significantly by a number of inhibitors of mitochondrial Mg2+-ATPase or of Ca2+ + Mg2+-ATPases. It is, however, considerably inhibited by filipin and quercitin. The capacity of intact synaptosomes to hydrolyze also extracellular ADP, GDP, AMP, GMP, and IMP suggests that the nucleoside triphosphatase is part of an enzyme chain that causes complete hydrolysis of the respective nucleoside triphosphate to the nucleoside. We conclude that the cholinergic nerve terminals of the Torpedo electric organ can hydrolyze ATP released on coexocytosis with acetylcholine via an ectonucleoside triphosphatase activity that is different from known endogenous nerve terminal ATPases. The final product of the hydrolysis, adenosine, can then be salvaged by the nerve terminal for resynthesis of ATP. Other possible physiological functions of the ectonucleotidases are discussed.
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PMID:Ectonucleotidase activities associated with cholinergic synaptosomes isolated from Torpedo electric organ. 301 88

The high affinity (Ca2+-Mg2+)-ATPase purified from rat liver plasma membrane (Lin, S.-H., and Fain, J. N. (1984) J. Biol. Chem. 259, 3016-3020) has been further characterized. This enzyme also possesses Mg2+-stimulated ATPase activity with K0.5 of 0.16 microM free Mg2+. However, the Vm of the Mg2+-stimulated activity is only half that of the Ca2+-stimulated ATPase activity. The effects of Ca2+ and Mg2+ on this enzyme are not additive. Both the Ca2+-stimulated ATPase and Mg2+-stimulated ATPase activities have similar affinities for ATP (0.21 mM and 0.13 mM, respectively) and similar substrate specificities (they are able to utilize ATP, GTP, UTP, CTP, ADP, and GDP as substrates); both activities are not inhibited by vanadate, p-chloromercuribenzoate, ouabain, dicyclohexylcarbodiimide, 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole, oligomycin, F-, N-ethylmaleimide, La3+, and oxidized glutathione. These properties of the Mg2+- and Ca2+-ATPases indicate that both activities reside on the same protein. A comparison of the properties of this high affinity (Ca2+-Mg2+)-ATPase with those of the liver plasma membrane ATP-dependent Ca2+ transport activity reconstituted into artificial liposomes (Lin, S.-H. (1985) J. Biol. Chem. 260, 7850-7856) suggests that this high affinity (Ca2+-Mg2+)-ATPase is not the biochemical expression of the liver plasma membrane Ca2+ pump. The function of this high affinity (Ca2+-Mg2+)-ATPase remains unknown.
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PMID:The rat liver plasma membrane high affinity (Ca2+-Mg2+)-ATPase is not a calcium pump. Comparison with ATP-dependent calcium transporter. 316 86

Purified glycolipids were tested for their ability to serve as acceptors of [14C]fucose from GDP-[14C]fucose as catalyzed by cell-free extracts and purified membrane fractions of human colorectal carcinoma cells, SW1116, cultured in serum-free medium. Purified lactotetraosyl ceramide (Gal beta 1----3GlcNAc beta 1----3Gal beta 1----4Glc-Cer or LcOse4Cer) and H-1 glycolipid (Fuc alpha 1----2Gal beta 1----3GlcNAc beta 1----3Gal beta 1----4Glc-Cer or IV2 Fuc alpha LcOse4Cer) stimulated incorporation of radioactivity into lipid-soluble glycolipid at a rate greater than ten times that of Lea glycolipid [Gal beta 1----3(Fuc alpha 1----4)GlcNAc beta 1----3Gal beta 1----4Glc-Cer or III4 Fuc alpha LcOse4Cer]. The enzymatic activities in crude and purified membrane fractions were optimized for substrate concentrations (glycolipid and GDP-fucose), detergent requirement (taurocholate), pH, time and protein. The radioactive product of H-1 fucosylation migrated as discrete and distinct bands on high-performance thin-layer chromatograms (HPTLC). Evidence for their identity with Leb fucolipid described previously [Fuc alpha 1----2Gal beta 1----3(Fuc alpha 1----4)GlcNAc beta 1----3Gal beta 1----4Glc-Cer or III4IV2 (Fuc alpha) LcOse4Cer] is presented. The radioactive product of LcOse4Cer fucosylation was mainly Lea fucolipid as determined by co-migration with authentic Lea fucolipid in three HPTLC systems as native and acetylated derivatives. Our results also indicated a low level of H-1 and Leb glycolipid synthesis from LcOse4Cer. On the basis of the optima, linearity for time, and enzyme-limiting conditions, we obtained a 12-19-fold purification of the LcOse4Cer and H-1 fucosyl transferase acceptor activities in three peaks of a sucrose gradient. The peak with the highest specific activity (peak 3) was highest in density and in Na+, K+, ATPase specific activity, although NADH-cytochrome-c reductase and UDP-GalNac transferase were also present in peak 3. The apparent Km values of LcOse4Cer acceptor activity and H-1 acceptor activity in peak 3 were significantly different (p less than 0.01) by statistical tests, 2.4 microM and 0.5 microM, respectively. These apparent Km values were much lower (10(3) X) and the pH optima were lower (4.8-5.3), than the corresponding properties reported for the alpha 1----3/alpha 1----4 fucosyl transferase purified from human milk. Our results suggest a role for the non-glycosidic moieties of the acceptors and/or the tissue-specific or primitive expression of these fucosyl transferase activities.
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PMID:Biosynthesis of Lewis fucolipid antigens in human colorectal carcinoma cells. Partial characterization of LcOse4Cer and H-1 fucolipid fucosyl transferase acceptor activities. 366 17

Presenting rats with a 0.9 per cent sodium chloride solution to drink instead of water had little or no effect on body weight gain and food intake, but resting oxygen consumption and total energy expenditure (corrected for body size) were elevated, and thermogenic responses to both noradrenaline and a meal were enhanced. Brown adipose tissue (BAT) mass and protein content were significantly elevated in saline treated rats, but mitochondrial GDP-binding capacity was depressed. Basal Na+, K+-ATPase activity was slightly increased in BAT homogenates from rats given saline, but noradrenaline-stimulated enzyme activity was much greater than control values. In rats drinking 1.8 per cent saline, energy intake, body weight gain and the efficiency of gain (g gain/MJ eaten) were all markedly depressed. BAT mass, corrected for differences in body size, was slightly greater than controls and the protein content of BAT was increased by 45 per cent. Rats allowed 0.9 per cent saline to drink for 7 d, and then presented with a palatable cafeteria diet, showed a more rapid rise in metabolic rate than cafeteria-fed animals drinking water. This difference was apparent only over the first 3-4 d of cafeteria feeding, and energy balance over 14 d was similar for both groups. These data show that increasing sodium intake with isotonic saline has very little effect on food intake or resting metabolic rate, but causes a marked increase in thermogenic capacity and responses to food or noradrenaline, probably because of an increase in active BAT mass. Changes in plasma ion concentrations or osmolarity, therefore, could be involved in the thermogenic response to food.
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PMID:Influence of sodium intake on thermogenesis and brown adipose tissue in the rat. 608 43

The binding to the ADP/ATP carrier in mitochondrial membranes of the 3'-O-(dimethylamino)naphthoyl (DAN) derivatives of AMP, ADP, and ATP was quantitatively analyzed. The sidedness of the fluorescent type binding to the "m" side only was shown comparing the mitochondrial membranes in various stages of integrity and surface orientation. In particles displacement by bongkrekate (BKA) is direct, whereas in the case of carboxyatractylate (CAT) the requirement for ADP and ATP demonstrates the transition from the "m" to the "c" state. Quantitatively the "physical" binding of [3H]DAN-AMP and fluorescence are well correlated, allowing for a little nonfluorescent binding to the c side. For DAN-AMP KD is 1.6 microM, for DAN-ADP KD is 0.8 microM, and in the Hill plot a straight line with n = 1.25 is obtained. The maximum number of binding sites for [3H]DAN-AMP (1.5 mumol/g of protein) is about equal to the sites found for [3H]BKA if the unspecific binding of both ligands is differentiated by blocking carrier sites with CAT. [3H]CAT binding is somewhat lower in accordance with the limited access of CAT to inverted vesicles. ADP is able to decrease fluorescence only by about 35% at high concentrations (10 mM) whereas GDP has virtually no effect. With ADP, DAN-AMP binding decreases by 30% of the total binding sensitive to BKA. Binding to ATPase is low because of the absence of Mg2+.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Interaction of fluorescent adenine nucleotide derivatives with the ADP/ATP carrier in mitochondria. 2. [5-(Dimethylamino)-1-naphthoyl]adenine nucleotides as probes for the transition between c and m states of the ADP/ATP carrier. 608 72

Highly purified mRNA-capping enzyme from Saccharomyces cerevisiae catalyzes (a) removal of the gamma-phosphoryl group from the 5'-end of the newly formed mRNA and (b) guanylylation of the resulting diphosphoryl end. Characteristics of the two reactions catalyzed by this enzyme are studied. Guanylyltransferase is most active at pH 7.0 in the presence of 3 mM Mg2+, and utilizes GTP as a guanylyl donor with an apparent Km of 5 microM, and ppGCC (A2, U2, G)n as a guanylyl acceptor with two Km values of 0.5 and 4 microM. It catalyzes GTP-PPi exchange in the absence of the acceptor RNA, and forms a covalent enzyme-GMP intermediate having Mr = 45,000 in sodium dodecyl sulfate gel electrophoresis. RNAs with 5'-diphosphoryl as well as 5'-triphosphoryl ends are capped, while mononucleotides such as GDP and ppGp are inert. Since guanylyltransferase can utilize ppGpC and ppGpCpC as acceptors, the presence of at least one phosphodiester bond seems to be sufficient for the acceptor activity. However, oligonucleotides of longer chain length are preferred. RNA 5'-triphosphatase associated with the purified enzyme requires Mg2+ and exhibits a broad pH optimum from 6.5 to 8.5, and an apparent Km value for pppA-terminated poly(A) is 1.4 microM. The enzyme is specific for the gamma-phosphoryl group at the 5'-terminus of RNA and does not hydrolyze ATP. It can hydrolyze the gamma-phosphoryl group of pppGp, but the RNA substrates with longer chain length are preferred.
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PMID:Messenger RNA guanlyltransferase from Saccharomyces cerevisiae. II. Catalytic properties. 609 33

Human red cell membranes have the capacity to hydrolyze enzymatically GTD to GDP. The reaction requires magnesium, is not appreciably affected by sodium, potassium or calcium, and is not inhibited by ouabain. Kinetic analysis suggests that there are two separate enzymes in membranes which cleave GTP, a 'high Km' GTPase and a 'low Km' GTPase. Both enzymes are also ATPases, with an approximately equal affinity for GTP and ATP. GTPase activity did not extract from the membrane with spectrin and was not inactivated by antispectrin antibody. Activity was partially destroyed by 0.5% Triton X-100. It seems probable that the low Km GTPase is the sodium- and potassium-independent ATPase of red cell membranes. The identity of the high Km enzyme is not clear.
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PMID:Guanosine triphosphatase activity in human erythrocyte membranes. 610 84

In the preceding article a mutant elongation factor Tu (EF-TuD2216) resistant to the action of kirromycin was found to display a spontaneous guanosine 5'-triphosphatase (GTPase) activity, i.e., in the absence of aminoacyl transfer ribonucleic acid (tRNA) and ribosome-messenger RNA. This is the first example of an Ef-Tu supporting GTPase activity in the absence of macromolecular effectors and/or kirromycin. In this study we show that this activity is elicited by increasing NH4+ concentrations. As additional effect, the mutation caused an increased affinity of EF-Tu for GTP. Ammonium dependence of the GTPase activity an increased affinity for GTP are two properties also found with wild-type EF-Tu in the presence of kirromycin [Fasano, O., Burns, W., Crechet, J.-B., Sander, G., & Parmeggiani, A. (1978) Eur. J. Biochem. 89, 557-565; Sander, G., Okonek, M., Crechet, J.-B., Ivell, R., Bocchini, V., & Parmeggiani, A. (1979) FEBS Lett. 98, 111-114]. Therefore, both binding of kirromycin to wild-type EF-Tu and acquisition of kirromycin resistance introduce functionally related modifications. Kirromycin at high concentrations (0.1 mM) does not interact with mutant EF-TuD2216.GDP but still does with EF-TuD2216.GTP in agreement with our previous finding that EF-Tu.GTP is the preferential target of the antibiotic in the wild type [Fasano, O., Bruns, W., Crechet, J.-B., Sander, G., & Parmeggiani, A. (1978) Eur. J. Biochem. 89, 557-565). The GTPase activity of mutant EF-Tu in the presence of aminoacyl-tRNA and ribosome.mRNA is much higher than with wild-type EF-Tu and also much less dependent on the presence of mRNA. Miscoding for leucine, measured as poly(U)-directed poly(phenyl-alanine/leucine) synthesis at increasing Mg2+ concentrations, is identical for both wild-type and mutant EF-Tu.
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PMID:Altered regulation of the guanosine 5'-triphosphate activity in a kirromycin-resistant elongation factor Tu. 611 13

The changes in fluorescence of 1-anilino-8-naphthalenesulfonate (ANS-) have been used to determine binding of ligands to the (Ca2+, Mg2+)-ATPase of sarcoplasmic reticulum vesicles, isolated from rabbit skeletal muscle. ANS- binds to sarcoplasmic reticulum membranes with an apparent Kd of 3.8 X 10(-5) M. The binding of ANS- had no effect on Ca2+ transport or Ca2+-dependent ATPase activity. EGTA, by binding endogenous Ca2+, increased the fluorescence intensity of bound ANS- by 10-12%. Subsequent addition of ATP, ADP, or Ca2+, in the presence or absence of Mg2+, reversed this change of fluorescence. The binding parameters, as determined by these decreases in fluorescence intensity, were as follows: for ATP, Kd = 1.0 X 10(-5) M, nH = 0.80; for ADP, Kd = 1.2 X 10(-5) M, nH = 0.89; and for Ca2+, Kd = 3.4 X 10(-7) M, nH = 1.8. The binding parameters for ITP and for the nonhydrolyzable analogue, adenyl-5'-yl-beta, gamma-methylene)diphosphate, were similar to those of ATP, but GDP, IDP, CDP, AMP, and cAMP had lower apparent affinities. Millimolar concentrations of pyrophosphate also decreased the fluorescence of bound ANS-, whereas orthophosphate caused a small (2-3%) increase in fluorescence in Ca2+-free media. Vanadate, in the presence of EGTA, decreased the fluorescence of bound ANS-with half-maximal effect at 4 X 10(-5) M. The changes of fluorescence intensity of bound ANS- appear to reflect conformational changes of the (Ca2+, Mg2+)-ATPase, consequent to ligand binding, with the low and high fluorescence intensity species corresponding to the E1 and E2 conformations, respectively. These appear to reflect similar conformational states of the (Ca2+, Mg2+)-ATPase to those reported by changes in intrinsic tryptophan fluorescence (DuPont, Y. (1976) Biochem, Biophys. Res. Commun. 71, 544-550).
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PMID:Interaction of nucleotides and cations with the (Ca2+, Mg2+)-ATPase of sarcoplasmic reticulum as determined by fluorescence changes of bound 1-anilino-8-naphthalenesulfonate. 613 8

Inactivation of the membrane-bound ATPase by tight ADP binding was studied under nonenergized conditions. The energy state of the system was controlled either by omitting MgCl2, preventing ATP hydrolysis, or by addition of an uncoupler which dissipates the delta mu H+. In the absence of Mg2+, ATP prevents the inactivation of the enzyme by ADP, in a competitive manner. This effect of ATP resembles that of GDP with Mg2+ present. In the presence of nigericin, Mg2+, and ATP, inactivation occurs after a 10-15-sec interval, during which the enzyme is able to hydrolyze ATP at a relatively rapid rate. The degree of inactivation is proportional to the level of bound ADP detected. This behavior is different from that of the coupled ATPase (no uncoupler added), where inactivation is attained only upon exhaustion of the ATP by its hydrolysis, despite the finding that ADP binds tightly to the active ATPase at all stages of the reaction. Higher levels of tightly bound ADP were detected in the presence of an uncoupler. We suggest that the interval during which the enzyme becomes inactive is that required for the enzyme to generate and bind ADP, and to change from the active to the inactive conformation. These results support the mechanism suggested previously for the modulation of the ATPase by tight nucleotide binding.
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PMID:Modulation of the chloroplast ATPase by tight ADP binding. Effect of uncouplers and ATP. 621 4

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