UNIPROT:P20020 - FACTA Search

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Query: UNIPROT:P20020 (adenosine triphosphatase)
3,299 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adenosine triphosphatase activity of U. urealyticum is an integral membrane-bound protein which cannot be detached from the membrane by mild treatment with EDTA in low-ionic strength media nor by ionic detergents which rapidly inactivated the enzyme. The enzyme was Mg++ dependent; Mn++ and Co++ could replace Mg++ to some extent. A slight stimulatory effect was also exerted by sodium and lithium. The enzyme showed a nucleotide triphosphatase activity, but ADP was hydrolyzed at close to 40% the rate of ATP and other nucleotide monophosphatase were hydrolyzed at a very slow rate. Oubain and oligomycin did not inhibit the adenosine triphosphatase activity, whereas DCCD, NBD-Cl and several sulfhydryl-blocking reagents strongly reduced its activity. The enzyme could not be stimulated by trypsin pretreatment. It seems that the complex enzyme is tightly linked to the lipid bilayer of the membrane and differs in many aspects from the F0-F1 (Mg++, Ca++)-ATPase of bacteria.
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PMID:Adenosine triphosphatase activity of Ureaplasma urealyticum. 628 75

Loss of appetite, strongly reduced feed intake, and stop in weight gain are characteristic signs of alimentary zinc deficiency. The present paper investigates some parameters of the energy metabolism of Zn-deficient rats in order to obtain information on possible disturbances. The blood of Zn-deficient rats showed an increased activity of adenosine triphosphatase (ATPase) in comparison to ad-libitum- and pair-fed control animals. Therefore the concentration of adenosine triphosphate (ATP) was reduced and the concentration of adenosine diphosphate (ADP) increased in deficient animals. As a consequence, the ratio ATP/ADP was strongly reduced in Zn-deficient rats compared with both control groups. The concentration of adenosine monophosphate (AMP) was reduced in the blood of Zn-deficient rats. The levels of c-AMP in serum and urine were markedly increased in Zn-deficient rats in comparison with both control groups. Key enzymes of energetic utilization of carbohydrates such as fructose-1.6-biphosphatase and glucose-6-phosphate dehydrogenase were reduced in their activities in livers and kidneys of Zn-deficient animals. The results show that alimentary Zn deficiency impairs some parameters of the energy metabolism. The problems of reduced feed intake in Zn deficiency still remain unsolved.
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PMID:[Effect of zinc deficiency on 3',5'-cyclic-AMP content and parameters of energy metabolism in the rat]. 630 19

The gene product of the pleiotropic lon (also called capR) locus in Escherichia coli, the CapR protein, is an ATP hydrolysis-dependent protease and a nonspecific nucleic acid-binding protein. We demonstrated that it is also a DNA-stimulated adenosine triphosphatase (ATPase). This new activity is distinct from the protease-associated ATPase activity and occurs in the absence of proteolytic substrate. The reaction requires the presence of a divalent cation and has a pH optimum of 8.0. The products of the reaction are ADP and inorganic phosphate. No adenylation or phosphorylation of the DNA or proteins was detected. The maximum rate of ATP hydrolysis occurs in the presence of supercoiled (form I) DNA. Relaxed circles (form II), double-stranded DNA, and single-stranded DNA are less effective in promoting ATPase activity, whereas RNA is inactive. The DNA-stimulated ATPase activity is inhibited by a mutationally altered form of the CapR protein called the CapR9 protein. The interaction of the CapR and CapR9 subunits suggests that this enzymatic activity of the CapR protein is oligomeric in the presence of DNA. Our in vitro experiments indicate a possible role for nucleic acids in the regulation of all lon (capR) activity.
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PMID:DNA-stimulated ATPase activity on the lon (CapR) protein. 632 86

The catalytic and allosteric sites of proton translocating adenosine triphosphatase (ATPase) were studied by measuring the binding of nucleotides to the ATPase, and its alpha and beta subunits purified from thermophilic bacterium PS3, with a circular dichroic spectrometer. In contrast to mesophilic ATPases, this thermophilic enzmye contained no tightly bound nucleotides, and its subunits were stable after their purification. These properties were advantageous for analyzing both catalytic and allosteric sites. The former site showed rapid and loose binding, but the latter slow (t 1/2 = 1 h, for ADP) and tight binding. When a nucleotide was bound, the beta subunits showed a negative ellipticity at 275 nm corresponding to a tyrosyl residue, while the alpha subunits showed an ellipticity change corresponding to the absorption curve of the bound nucleotide. This difference enabled us to distinguish the binding sites in ATPase. At a low concentration, ADP selectively bound to alpha subunits in the ATPase, while at a high concentration, it bound to both subunits. This finding suggests that the tight binding sites are located in the alpha subunits. Although ADP and ATP bound to both the purified alpha and beta subunits, CTP did not bind to beta but only to alpha subunits, and ITP bound to beta but hardly to alpha. These nucleotide specificities also supported the idea that the catalytic sites are located in the beta subunits and the allosteric sites are located in the alpha subunits.
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PMID:Nucleotide binding to isolated alpha and beta subunits of proton translocating adenosine triphosphatase studied with circular dichroism. 644 45

We have found that when the ATP hydrolysis activity of beef heart mitochondrial adenosine triphosphatase (F1) is eliminated by either cold treatment or chemical modification, the enzyme attains the ability to catalyze the Pi in equilibrium ATP exchange reaction. The ATP hydrolysis activity of isolated F1 was lost upon chemical modification by phenyglyoxal, butanedione, or 7-chloro-4-nitrobenzene-2-oxa-1,3-diazole. The F1 thus chemically modified was able to catalyze an ADP-dependent Pi in equilibrium ATP exchange reaction. In addition F1 that had been cold-treated to eliminate ATP hydrolysis activity, also catalyzed the Pi in equilibrium ATP exchange reaction. The Pi in equilibrium ATP exchange catalyzed by modified F1 was shown to be totally inhibited by the F1-specific antibiotic efrapeptin. We have previously shown that isolated beef heart mitochondrial ATPase will catalyze the formation of a transition state analog of the ATP synthesis reaction (Bossard, M. J., Vik, T. A., and Schuster, S. M. (1980) J. Biol. Chem. 255, 5342-5346). While the F1-catalyzed ATP hydrolysis activity was lost rapidly upon chemical modification or cold treatment, the ability of the enzyme to produce Pi . adenosine 5'-diphosphate (chromium(III) salt) from phosphate and monodentate adenosine 5'-diphosphate (chromium(III) salt) was unimpaired. The implications of these data with regard to the mechanism of ATP synthesis are discussed.
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PMID:Catalysis of partial reactions of ATP synthesis by beef heart mitochondrial adenosine triphosphatase. 645 Jul 58

The ribose-modified nucleotides 2',3'-O-(2,4,6-trinitrophenyl) adenosine 5'-triphosphate (TNP-ATP) and TNP-ADP were used to probe the catalytic sites on soluble beef heart mitochondrial adenosine triphosphatase (F1). Both compounds were potent competitive inhibitors of ATP hydrolysis catalyzed by F1, Ki = 5.5 and 10 nM, respectively, and by submitochondrial particles, Ki (TNP-ATP) = 21 nM. Both compounds also were potent competitive inhibitors of ATP synthesis during oxidative phosphorylation (Ki = 1300 nM). Both analogs inhibited the 32Pi-ATP exchange reaction and the ATP-dependent reduction of NAD+ by succinate, catalyzed by submitochondrial particles. TNP-ATP and TNP-ADP were bound by F1. The presence of two binding sites on the enzyme for TNP-adenine nucleotides was determined by titrations of difference absorbance spectra, of the increase in fluorescence of the analog which occurred upon interaction with protein, and by titrations with the centrifuge column method using 32P-labeled TNP-adenine nucleotides. The first binding site bound the analogs with an affinity too high to be measured. The Kd for analog binding by the second site was 20 to 80 nM. In the presence of Mg2+, the 2 sites were filled with the TNP-ATP at a rate too rapid to be resolved by the procedure used. TNP-[gamma-32P]ATP was hydrolyzed by F1, Km = 0.2 microM, Vmax = 1.1 mol of 32Pi formed/mol of F1/s. It was shown, using the isotope trap technique as well as the inhibitor efrapeptin, that the 2 binding sites for TNP-ATP on F1 are hydrolytic sites.
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PMID:The presence of two hydrolytic sites on beef heart mitochondrial adenosine triphosphatase. 645 54

An enzyme histochemical and cytochemical study of normal dermal microvasculature showed that respiratory enzymes, lipase and non-specific esterase occurred in all vascular segments. Lysosomal enzymes were also widely distributed and acid phosphatase activity was localized in lysosomes, Golgi apparatus and small portions of endoplasmic reticulum of both endothelial cells and pericytes. Alkaline phosphatase activity, however, was confined to the arterial side and tip of the capillary loop where it occurred in vesicles along the luminal surface of the endothelium and in junctions between endothelial cells. The localization of nucleoside phosphatase activity within the endothelium varied according to substrate; with adenosine triphosphate as substrate, the reaction product occurred in vesicles distributed throughout the endothelial cells; with adenosine diphosphate it was limited to vesicles along the luminal surface; and with adenosine monophosphate, activity was mostly localized to the lateral surfaces of endothelial cells. These findings suggest functional variation between different vascular segments and between various components of the endothelium. Attempts to demonstrate a specific Na+K+ adenosine triphosphatase (transport ATPase) within the endothelium were not successful.
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PMID:Human dermal microvasculature: II. Enzyme histochemical and cytochemical study. 723 11

D-myo-inositol 1,4,5-trisphosphate [Ins(1,4,5)P3] inhibits human red blood cell (RBC) Ca(2+)-stimulable, Mg(2+)-dependent adenosine triphosphatase (Ca(2+)-ATPase) activity in vitro. Because we have previously shown that adrenergic receptors exist on the human mature RBC membrane and can modulate Ca(2+)-ATPase activity, we examined the possibility that a guanine nucleotide regulatory protein (G protein) mediated the Ins(1,4,5)P3 effect. Guanosine 5'-O-(3-thiotrisphosphate) (GTP gamma S) 10(-4) mol/L also inhibited RBC Ca(2+)-ATPase activity. Pertussis toxin 200 ng/mL blocked the effects of both Ins(1,4,5)P3 and GTP gamma S on Ca(2+)-ATPase activity. In separate studies, pertussis toxin-catalyzed adenosine diphosphate (ADP) ribosylation was shown to occur in RBC membranes under conditions in which measurements of Ca(2+)-ATPase activity were performed. When Ins(1,4,5)P3 10(-7) mol/L and GTP gamma S 10(-6) mol/L were added to membranes concurrently, their inhibitory actions on the enzyme were additive. At greater concentrations of Ins(1,4,5)P3 (10(-6) to 10(-5) mol/L) and GTP gamma S (10(-4) mol/L), the inositol phosphate reversed the inhibitory effect of GTP gamma S. These observations indicate that the novel effect of Ins(1,4,5)P3 on the activity of a plasma membrane Ca(2+)-ATPase depends at least in part on the action of a pertussis toxin-susceptible G protein.
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PMID:Inositol phosphates modulate human red blood cell Ca(2+)-adenosine triphosphatase activity in vitro by a guanine nucleotide regulatory protein. 761 44

1. Binding of a P2x receptor specific radioligand, [3H]-alpha,beta-methylene adenosine triphosphate ([3H]-alpha,beta-MeATP) to sections of rat brain was reversible and association/dissociation parameters indicated that it consisted of two saturable components. Non-specific binding was very low (< 7% at 10 nM ligand concentration). 2. The binding was completely inhibited by suramin (IC50 approximately 14-26 microM) but none of the ligands specific for P2y receptors such as 2-methylthio-adenosine triphosphate (2-methyl-S-ATP) and 2-chloro-adenosine triphosphate (2-C1-ATP) nor 2-methylthio-adenosine diphosphate (2-methyl-S-ADP) a ligand for the P2 receptor on blood platelets ('P2T' type) produced strong inhibitions except for P1,P4-di(adenosine-5')tetraphosphate (Ap4A). 3. Inhibitors of Na+,K(+)-dependent adenosine triphosphatase (ATPase) ouabain, P1-ligand adenosine and an inhibitor of transport of, respectively, adenosine and cyclic nucleotides, dilazep, had no effect. 4. The highest density of P2x binding sites was found to be in the cerebellar cortex but the binding sites were present in all major brain regions, especially in areas known to receive strong excitatory innervation.
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PMID:Autoradiography of P2x ATP receptors in the rat brain. 767 Jul 31

The Escherichia coli chaperonins GroEL and GroES facilitate protein folding in an adenosine triphosphate (ATP)-dependent manner. After a single cycle of ATP hydrolysis by the adenosine triphosphatase (ATPase) activity of GroEL, the bi-toroidal GroEL formed a stable asymmetric ternary complex with GroES and nucleotide (bulletlike structures). With each subsequent turnover, ATP was hydrolyzed by one ring of GroEL in a quantized manner, completely releasing the adenosine diphosphate and GroES that were tightly bound to the other ring as a result of the previous turnover. The catalytic cycle involved formation of a symmetric complex (football-like structures) as an intermediate that accumulated before the rate-determining hydrolytic step. After one to two cycles, most of the substrate protein dissociated still in a nonnative state, which is consistent with intermolecular transfer of the substrate protein between toroids of high and low affinity. A unifying model for chaperonin-facilitated protein folding based on successive rounds of binding and release, and partitioning between committed and kinetically trapped intermediates, is proposed.
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PMID:Dynamics of the chaperonin ATPase cycle: implications for facilitated protein folding. 791 55

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