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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)

Evidence is presented for a direct interaction of the intrinsic membrane protein 5'-nucleotidase (5'-ribonucleotide phosphohydrolase, EC 3.1.3.5) purified from avian smooth muscle (chicken gizzard) and the cytoskeletal component actin. Two different modes of interaction can be discerned: firstly, an immediate inhibitory effect of preferentially filamentous actin (F-actin) on the enzymic (i.e., AMPase) activity of 5'-nucleotidase and a direct binding of this enzyme to immobilized F-actin. Since these effects are suppressed by the addition of myosin subfragment 1, binding of 5'-nucleotidase appears to occur along the F-actin filament axis. Secondly, a time- and 5'-nucleotidase concentration-dependent transformation of also preferentially F-actin into a form unable to inhibit the enzymic activity of deoxyribonuclease I (DNAase I). This desensitization of actin versus DNAase I is not due to a denaturation process and was found to be reversible after addition of ATP. Furthermore, it does not seem to effect the ability of actin to bind to DNAase I. The transformation is accompanied by the hydrolysis of actin-bound nucleotide into adenosine, which remains bound to actin. Therefore, the desensitization of actin versus DNAase I appears to be due to a nucleotide-dependent conformational change of actin. An unidentified contamination of the 5'-nucleotidase preparations to a varying degree with ADPase and ATPase activities appears to be responsible for the desensitization process, although a synergistic role of these activities and 5'-nucleotidase cannot be excluded.
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PMID:The interaction of 5'-nucleotidase purified from chicken gizzard and actin, and the reversible loss of the inhibitory capacity of actin on deoxyribonuclease I. 298

Ouabain-sensitive (Na+ + K+)-ATPase activity in the rat myometrial microsome fraction could only be determined following detergent treatment. The (Na+ + K+)-ATPase activity manifested by detergent treatment proved very stable even to high concentrations of NaN3, in contrast Mg+-ATPase activity was reduced to about 30 percent of the control. The major part of the Mg2+-ATPase in the myometrial membrane preparation was found to be identical with the NaN3-sensitive ATP diphosphohydrolase capable of ATP and ADP hydrolysis. This monovalent-cation-insensitive ATP hydrolysis could be extensively reduced by DMSO. Furthermore DMSO prevented the inactivation of the (Na+ + K+)-ATPase activity. 10-100 microM Ca2+ inhibited the (Na+ + K+)-ATPase activity obtained in the presence of SDS by 15-50 percent. The Ca2+ sensitivity of the enzyme was considerably decreased if the proteins solubilized by the detergent had been separated from the membrane fragments by ultracentrifugation. The inhibitory effect could be regained by combining the supernatant with the pellet. Ca2+ sensitivity of the (Na+ + K+)-ATPase activity was preserved even after removal of the solubilized proteins provided that DMSO had been applied. It appears that a factor in the plasma membrane solubilized by SDS may be responsible for the loss of Ca2+ sensitivity of the (Na+ + K+)-ATPase activity, the solubilization of which can be prevented by DMSO.
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PMID:Myometrial (Na+ + K+)-activated ATPase and its Ca2+ sensitivity. 299 86

The adenosine diphosphatase (ADPase) activity of rat lung has been investigated. Subcellular fractionation of lung tissue homogenates by sucrose density gradient centrifugation has shown the ADPase activity to be associated with the plasma membrane. ADPase was solubilised from the membranes and fractionated by ammonium sulphate precipitation to separate a specific, low-Km ADPase from non-specific alkaline phosphatase activity. The solubilised ADPase has a Km of 50 microM at pH 7.5 and appears to be distinct from ATPase.
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PMID:Demonstration of plasma-membrane adenosine diphosphatase activity in rat lung. 300 36

The time course of the extracellular reaction sequence ATP----ADP----AMP----adenosine has been examined during recirculation of substrate solutions over cultured pig aortic endothelial cells attached to polystyrene beads. This permits the study of reactions at volume to cell surface ratios approaching those of small blood vessels. When endothelial cells were presented with an initial bolus of ATP, high concentrations of the intermediates ADP and AMP developed before significant conversion of AMP to adenosine occurred. Further, the higher the initial ATP concentration, the slower the conversion of AMP to adenosine. Kinetic constants for each reaction were estimated by fitting simulated reaction curves to observed time courses. Apparent Km values estimated in this way agreed well with those reported for initial velocity measurements (ATPase = 300 microM; ADPase = 240 microM; and 5'-nucleotidase = 26 microM). The ratio of maximum velocities was ATPase:ADPase:AMPase = 6:1.5:1, with absolute values varying among cell batches. The data could only be fitted if the model incorporated inhibition of 5'-nucleotidase by ATP or ADP, and satisfactory fitting was achieved with a Ki value for ADP of 5 microM. These kinetic properties maximize the time separation of the intermediate pools. In vivo, at sites of platelet degranulation, they would create a time gap proportional to the size of the initial release between release of ADP (a proaggregatory milieu) and the appearance of adenosine (an anti-aggregatory milieu).
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PMID:The hydrolysis of extracellular adenine nucleotides by cultured endothelial cells from pig aorta. Feed-forward inhibition of adenosine production at the cell surface. 302 20

The relationship between phosphorylation ratio [( ATP])/[ADP][Pi], phosphocreatine (PCr)/Pi, and ATPase activity was determined for isolated rat heart mitochondria, and the use of phosphorylation ratio and/or PCr/Pi as bioenergetic indices (Chance, B., Eleff, S., Leigh, J. S., Sokolow, D., and Sapega, A. (1981) Proc. Natl. Acad. Sci. U.S.A. 78, 6714-6718) was evaluated. Isolated rat heart mitochondria were suspended at low concentration (0.5-2.0 mg of protein/ ml) in oxygenated KCl/sucrose/4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid medium at 25 degrees C and pyruvate, malate, PCr, ATP, Pi, and Mg2+ were added. Changes in extramitochondrial phosphorus compounds were followed by 31P NMR. The ATPase activity was varied by the addition of potato apyrase. It was found that the logarithm of steady state PCr/Pi decreased linearly with increasing ATPase rate with a PCr/Pi intercept of 32.8 at 0 ATPase rate. The log phosphorylation ratio was also linearly related to the ATPase rate with an extrapolated maximum value of 6.87 at 0 ATPase rate, corresponding to a phosphorylation ratio of 7.41 X 10(6) M(-1) and a delta GATP of -16.3 kcal. The phosphorylation ratio in these experiments (for state 4 respiration) was greater by 1 or 2 orders of magnitude than previously reported for either isolated mitochondria or for whole tissue.
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PMID:Bioenergetic studies of mitochondrial oxidative phosphorylation using 31phosphorus NMR. 315 50

The membranes of Sulfolobus, a thermoacidophilic archaebacterium showed two types of ATP hydrolyzing activity. One was that of a neutral ATPase at an optimum pH around 6.5. This enzyme was activated by 10 mM sulfate with a shift of optimum pH to 5. In these respects, the enzyme was similar to membrane-bound ATPase of Thermoplasma, another thermoacidophilic archaebacterium, reported by Searcy and Whatley [1982) Zbl. Bakt. Hyg., I. Abt. Orig. C3, 245-257). The enzyme hydrolyzed ATP and other NTPs, but not ADP or AMP. It was highly thermostable, but irreversibly inactivated in 0.1 M HCl. The other activity was that of an acidic apyrase at an optimum pH around 2.5. This enzyme was extremely stable toward high temperature and acid and inhibited by sulfate. Both of these ATP hydrolyzing enzymes were resistant to N,N'-dicyclohexylcarbodiimide (DCCD), azide, oligomycin, N'-ethylmaleimide, p-chloromercuribenzoate, orthovanadate, or ouabain. Sulfolobus ATPases differ from F1 and other transport ATPases so far described.
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PMID:Membrane-bound ATPase of a thermoacidophilic archaebacterium, Sulfolobus acidocaldarius. 315 31

Extracellular nucleotide degradation was studied in intact human B and T lymphocyte subpopulations and in lymphoblastoid cell lines. Cells of B lymphocyte lineage showed high nucleotide degrading activity, whereas T lymphocytes were unable to degrade extracellular nucleotides. The external surface of B cells contained active sites of ecto-triphosphonucleotidase (ecto-ATPase), ecto-diphosphonucleotidase (ecto-ADPase), and ecto-monophosphonucleotidase (ecto-AMPase). The expression of all three ectoenzyme activities seemed closely associated with B cell development. ATPase and ADPase activities increase continuously during B cell maturation, ecto-AMPase activity, on the other hand, reaches maximal activity in late pre-B cells. These results combined with our previous studies of intracellular ATP catabolism (Barankiewicz, J., and Cohen, A. (1984) J. Biol. Chem. 259, 15178-15181) provide evidence that extracellular ATP catabolism may represent exclusive source for adenosine in lymphocytes. It is suggested that adenosine may serve as a means of communication between B and T cells in lymphoid organs, B lymphocytes being the sole producers of adenosine and T lymphocytes being the recipients of this signal.
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PMID:Extracellular nucleotide catabolism in human B and T lymphocytes. The source of adenosine production. 325 29

The role of the endothelium was examined in the response to aggregating platelets in cerebral arteries from normal and hypercholesterolemic animals. Male Yorkshire pigs were fed either a normal diet or a 2% high-cholesterol diet for 10 weeks. Endothelium-dependent responses were examined in vitro. In rings of basilar arteries from control animals aggregating platelets caused endothelium-dependent relaxations, which were significantly inhibited by apyrase, an adenosine diphosphatase and triphosphatase, but were augmented by methiothepin, a combined S1- and S2-serotonergic blocker. In quiescent rings platelets induced contractions that were inhibited by the presence of the endothelium; these contractions were significantly inhibited by methiothepin, but not by ketanserin (an S2-serotonergic blocker) or dazoxiben (a thromboxane-synthetase blocker) in the presence or absence of SQ29548 (a thromboxane-receptor blocker). Adenosine diphosphate but not serotonin caused endothelium-dependent relaxations. In cholesterol-fed animals the endothelium-dependent relaxations in response to aggregating platelets and adenosine diphosphate were impaired. These experiments indicate that 1) the endothelium inhibits the vasoconstrictor effect of aggregating platelets in porcine cerebral arteries; 2) platelet-induced relaxations are achieved mainly by a purinergic mechanism, while platelet-induced contractions are mediated by activation of S1-serotonergic receptors with little contribution of thromboxanes; and 3) hypercholesterolemia impairs the endothelium-dependent relaxations in response to aggregating platelets due to the impaired responses to adenosine diphosphate.
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PMID:Endothelium-dependent relaxation to aggregating platelets in isolated basilar arteries of control and hypercholesterolemic pigs. 340 91

Magnesium transport across sarcoplasmic reticulum (SR) vesicles was investigated in reaction mixtures of various composition using antipyrylazo III or arsenazo I to monitor extravesicular free Mg2+. The half-time of passive Mg2+ efflux from Mg2+-loaded SR was 100 s in 100 mM KCl, 150 S in 100 mM K gluconate, and 370 S in either 100 mM Tris methanesulfonate or 200 mM sucrose solutions. The concentration and time course of Mg2+ released into the medium was also measured during ATP-dependent Ca2+ uptake by SR. In reaction mixtures containing up to 3 mM Mg2+, small changes in free magnesium of 10 microM or less were accurately detected without interference from changes in free Ca2+ of up to 100 microM. Three experimental protocols were used to determine whether the increase of free [Mg2+] in the medium after an addition of ATP was due to Mg2+ dissociated from ATP following ATP hydrolysis or to Mg2+ translocation from inside to outside of the vesicles. 1) In the presence of ATP-regenerating systems which maintained constant ATP to ADP ratios and normal rates of active Ca2+ uptake, the increase of Mg2+ in the medium was negligible. 2) Mg2+ released during ATP-dependent Ca2+ uptake by SR was similar to that observed during ATP hydrolysis catalyzed by apyrase, in the absence of SR. 3) In SR lysed with Triton X-100 such that Ca2+ transport was uncoupled from ATPase activity, the rate and amount of Mg2+ release was greater than that observed during ATP-dependent Ca2+ uptake by intact vesicles. Taken together, the results indicate that passive fluxes of Mg2+ across SR membranes are 10 times faster than those of Ca2+ and that Mg2+ is not counter-transported during active Ca2+ accumulation by SR even in reaction mixtures containing minimal concentrations of membrane permeable ions that could be rapidly exchanged or cotransported with Ca2+ (e.g. K+ or Cl-).
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PMID:Magnesium permeability of sarcoplasmic reticulum. Mg2+ is not countertransported during ATP-dependent Ca2+ uptake by sarcoplasmic reticulum. 393 Apr 82

Solubilized Ca(++) + Mg(++)-dependent adenosinetriphosphatase (EC 3.6.1.3; ATP diphosphohydrolase) from sarcoplasmic reticulum increased bimolecular lipid membrane (oxidized cholesterol) conductance several hundred-fold. The relative conductance change and the relative permeability elicited by this material has the following sequence: Ba(++) > Ca(++) > Sr(++) > Mg(++) > Mn(++) > Zn(++), Na(+), K(+), Cs(+), Li(+), and Rb(+). Zn(++) and Na(+) strongly inhibit the increase in Ca(++) conductance obtained with solubilized Ca(++) + Mg(++)-dependent adenosinetriphosphatase. The Ca(++)-ionophore is an integral part of the Ca(++) + Mg(++)-dependent adenosinetriphosphatase enzyme and may function as a Ca(++)-carrier in the overall Ca(++)-pump of sarcoplasmic reticulum.
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PMID:A Ca++-dependent and -selective ionophore as part of the Ca++ plus Mg++-dependent adenosinetriphosphatase of sarcoplasmic reticulum. 427 8


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