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)

A deoxyribonuclease was purified approx. 800-fold from crude extracts of the bacterium Alcaligenes faecalis. The enzyme requires ATP and Mn2+; ATP could be replaced by any other ribo- or deoxyribo-nucleoside triphosphate, and Mn2+ could be replaced by Mg2+ in 0.1 M-Tris/HCl, pH 8.0 at 37 degrees C. The enzyme could degrade linear duplex or denaturated DNA, but was inactive with closed-circular duplex DNA from bacteriophase PM-2. In the course of nucleolytic activity, ATP was hydrolysed. We have measured deoxyribonuclease and adenoxine triphosphatase activity in the presence of various salts, and found that the amount of ATP hydrolysis associated with a given amount of deoxyribonuclease activity was decreased in the presence of tetraethylammonium ions. Since these ions decrease the stability of the DNA helix, we conclude that one function of the ATP hydrolysis is to unwind the DNA.
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PMID:An adenosine triphosphate-dependent deoxyribonuclease from Alcaligenes faecalis. 14 25

Isotonic Tris-HCl containing 10 mM LaCl3 at 4 degrees C effectively removed extracellular ions in 30 min while preventing loss of intracellular ions. Intracellular Ca and Na increased during the contraction in the presence of 10 mM ouabain and then decreased during relaxation. Intracellular Na increased again during the latter part of the relaxation phase when K loss became apparent. Mg levels remained essentially constant. Ouabain responses were rapidly lost in Ca-free medium indicating that they were dependent on extracellular Ca. A 5.5-fold increase in the normal levels of extracellular K did not reduce the contraction to a submaximal dose of ouabain. A full phasic response to high K (60 mM) was observed after a 10-min exposure of the tissue to ouabain, at which time the ouabain response had returned to basal tension. The contraction to ouabain appears to be dissociated from inhibition of the Na,K-ATPase at the K site. The changes in intracellular ions indicated that ouabain contracted the muscle by increasing the plasma membrane permeability to Ca and Na and later decreased the K and Na concentration gradients, probably by inhibition of the Na,K-ATPase.
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PMID:The effect of ouabain on the guinea pig ileum longitudinal smooth muscle: 2. Intracellular levels of Ca, Na, K, and Mg during the ouabain response and the dependence of the response on extracellular Ca. 14 51

1. Preincubation of MgATP submitochondrial particles with EDTA or Tris.HCl liberated a measurable amount of ATPase inhibitor that could be rapidly purified using only trichloroacetic acid precipitation and heat treatment. 2. In spite of the emergence of high ATPase activity, a considerable amount of ATPase inhibitor was left in the particles. Comparative analysis of other submitochondrial preparations indicated that only AS-particles were effectively depleted. 3. The high ATPase activity of inhibitor-deficient particles, was labile at low temperature provided that the exposure to cold was done in the presence of MgATP. Other nucleotides could not substitute for ATP. Glycerol inhibited and salts enhanced the cold inactivation of membrane-bound F1-ATPase. Isolation of F1-ATPase from cold-inactivated particles yielded a soluble preparation of correspondingly lower activity. 4. It is concluded that together with the increase of ATPase activity, the ATP-dependent cold lability of membrane-bound F1-ATPase and the dislocation of ATPase inhibitor at non operative sites reveal the extent of ATPase complex disorganization.
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PMID:Cold lability of membrane-bound F1-ATPase. 14 42

Daily administration of d,l isoproterenol-HCl (5 mg/kg) in rats for periods of 14-21 days results in marked cardiac hypertrophy and a decrease in cardiac actomyosin ATPase activity. Actomyosin suspensions (ionic strength 0.08) from right and left ventricles showed average decreases in ATPase activity of 37.1% (p less than 0.005) and 35.7% (p less than 0.05), respectively, for animals treated with isoproterenol for 14 days. Isolated myofibrils from combined ventricular muscle of another group of animals that received the same isoproterenol treatment showed an average decrease in ATPase of 36.4% (p less than 0.0025). The later experiments also demonstrated that the decrease in ATPase activity was not Ca++ sensitive suggesting the lack of involvement of a change in the calcium regulatory factors (tropomyosin-troponin complex). In contrast to these findings, purified myosin from treated animals and actomyosin assayed under conditions which essentially reflect myosin ATPase activity uninfluenced by actin interaction (actomyosin in solution, ionic strength 0.6), did not demonstrate a change in ATPase from controls. It was concluded that the decrease in cardiac actomyosin ATPase in isoproterenol treated rats involved primarily a defect in actin or the interaction of actin with other components of the contractile protein complex.
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PMID:Characterization of the decreased ATPase activity of rat cardiac actomyosin in isoproterenol-induced cardiac hypertrophy. 15 67

Inhibition of the myosin ATPase by vanadate ion (Vi) has been studied in 90 mM NaCl/5 mM MgCl2/20 mM Tris-HCl, pH 8.5, at 25 degrees C. Although the onset of inhibition during the assay is slow and dependent upon Vi concentration (kapp approximately 0.3 M-1 s-1), the final level of inhibition approaches 100%, provided the Vi concentration is in slight excess over the concentration of ATPase sites. Inhibition is not reversible by dialysis or the addition of reducing agents. The source of this irreversible inhibition consists of the formation of a stable, inactive complex with the composition M . ADP . Vi (where M represents a single myosin active site). The complex has been isolated, and its mechanism of formation from M, ADP, and Vi has been studied. Omission of ATP increases the rate of formation by about 35-fold (kapp approximately 11 M-1 s-1), yet this rate is still low in comparison with the rates of simple protein-ligand association reactions. This slowness is interpreted in terms of a rate-limited isomerization step that follows the association of M+, ADP, and Vi: M+ . ADP . Vi leads to M+. ADP . Vi (+ indicates the inactive product of the isomerization). The properties of M.ADP.Vi are compared with those of the ATPase intermediate M**.ADP . Pi, and the possible role of Vi as an analog of Pi is discussed.
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PMID:Inhibition of myosin ATPase by vanadate ion. 15 22

1. Starting from the spectrophotometric method of Ballard optimal reaction conditions for measurements of galactokinase in piglet liver were systematically studied. These are (final conc. in the test): 100 mM triethanolamine-HCl buffer, 33 mM KCl, 16.5 mM NaF (inhibiting ATPase), 5 mM cysteine hydrochloride, 0.33 mM NADH2, 1 U pyruvate kinase and lactic dehydrogenase, 0.5 mM phosphoenolpyruvate, 1.5 mM galactose, 0.5 mM ATP and 1 mM MgCl2, final pH 7.5. 2. An optimal substrate concentration, a Mg: ATP-ratio of 2:1, pH-stability and addition of activators are important for the determination of galactokinase activity in the supernatant fraction of pig liver. 3. Using the optimized method galactokinase activity of pig liver in dependence on age, with particular reference to the perinatal period, was determined. 4. Galactokinase activity of liver of newborn piglets is 7 times that of adult pigs. In the suckling period the activity remains relatively constant at this high level and decreases remarkably immediately after weaning. 5. Galactokinase of liver of newborn piglets differs in kinetic properties (lower Km of ATP, higher maximal reaction velocity) from the enzyme of adult pigs, which is still insufficient to make sure the existence of two different forms of the enzyme.
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PMID:[Determination, proprerties and postnatal development of galactokinase in the swine liver]. 20 76

The single-stranded DNA-dependent ribonucleoside triphosphatase activity of the Escherichia coli dnaB gene product was characterized. Purine ribonucleoside triphosphates were the preferred substrates, but all ribonucleoside triphosphates were cleaved at the gamma position to yield ribonucleoside diphosphates and Pi. The enzyme required Mg2+, which could be replaced by Mn2+ but with lower activity. The pH optimum was 7.5 in either Tris-HCl or phosphate buffer. The Km for MgATP was 0.59 mM and the Vmax was 8.7 nmol/min/microgram of protein at 30 degrees. The DNA requirement was best satisfied with either fd or phiX174 single-stranded DNA (Km 0.033 mM nucleotides); maximal rate of nucleoside diphosphate formation occurred with 1 dnaB molecule/fd or phiX174 single-stranded DNA molecule. The dnaB gene product was found to have hysteretic properties and the hysteresis appeared to be due to a dissociation and reassociation of the enzyme.
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PMID:The dnaB gene product of Escherichia coli. II. Single stranded DNA-dependent ribonucleoside triphosphatase activity. 20 60

1. Purified pig kidney ATPase was incubated in 30--160 mM Tris-HCl with various monovalent cations. 130 mM LiCl stimulated a ouabain-sensitive ATP hydrolysis (about 5% of the maximal (Na+ + K) activity), whereas 160 mM Tris-HCl did not stimulate hydrolysis. Similar results were obtained with human red blood cell broken membranes. 2. In the absence of Na+ and with 130 mM LiCl, the ATPase activity as a function of KCl concentration showed an initial slight inhibition (50 micrometer KCl) followed by an activation (maximal at 0.2 mM KCl) and a further inhibition, which was total at mM KCl. In the absence of LiCl, the rate of hydrolysis was not affected by any of the KCl concentrations investigated. 3. The lithium-activation curve for ATPase activity in the absence of both Na+ and K+ had sigmoid characteristics. It also showed a marked dependence on the total LiCl + Tris-HCl concentration, being inhibited at high concentrations. This inhibition was more noticeable at low LiCl concentrations. 4. In the absence of Na+, 130 mM Li+ showed promoted phosphorylation of ATPase from 1 to 3 mM ATP in the presence of Mg2+. In enzyme treated with N-ethylmaleimide, the levels of phosphorylation in Li+-containing solutions, amounted to 40% of those in Na+- and up to 7 times of those in K+-containing solutions. 5. The total (Na+ + K+)-ATPase activity was markedly inhibited at high buffer concentrations (Tris-HCl, Imidazole-HCl and tetramethylammonium-HEPES gave similar results) in cases when either the concentration of Na+ or K+ (or both) was below saturation. On the other hand, the maximal (Na+ + K+)-ATPase activity was not affected (or very slightly) by the buffer concentration. 6. Under standard conditions (Tris-HCl + NaCl = 160 mM) the Na+-activation curve of Na+-ATPase had a steep rise between 0 and 2.5 mM, a fall between 2.5 and 20 mM and a further increase between 20 and 130 mM. With 30 mM Tris-HCl, the curve rose more steeply, inhibition was noticeable at 2.5 mM Na+ and was completed at 5 mM Na+. With Tris-HCl + NaCl = 280 mM, the amount of activation decreased and inhibition at intermediate Na+ concentrations was not detected.
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PMID:Activation by lithium ions of the inside sodium sites in (Na+ + K+)-ATPase. 21 14

We have screened various alkyl- and arylguanidinium derivatives as possible competitors of Na+ or Rb+ for the cation sites on renal Na+,K(+)-ATPase. Alkyl-monoguanidinium or alkylbisguanidinium (BisG) compounds (chain lengths of C3 to C10) competitively inhibit the occlusion of Rb+ and Na+ with an order of affinities C10 greater than C8 greater than C6 greater than C4 greater than C3. BisG compounds are approximately twice as effective as the equivalent alkylmonoguanidinium compounds. In media of high ionic strength, affinities of tens of micromolar are observed, e.g. 26 microM for BisG 8. m-(mXBG)- and p-xylylenebisguanidinium were synthesized and were found to compete with Rb+ or Na+ with intrinsic affinities of 7.7 and 8.2 microM, respectively. The hydrophobicity rather than the degree of proximity of the guanidinium groups in all BisG compounds appears to determine the binding affinity. A systematic search has been made of conditions in occlusion assays for which the inhibitor affinities are highest. When the pH is raised from 7.0 to 8.5, a 5-fold increase in affinity is observed, suggesting that the guanidinium derivatives compete with protons at sites of pKa approximately 7.5. Replacing Tris-HCl with choline chloride-containing media raised apparent affinities approximately 2-fold. All guanidinium derivatives stabilize the E1 conformation of fluorescein-labeled Na+,K(+)-ATPase, acting as competitive Na+ analogues. In media containing only 1 mM Tris-HCl, pH 8.55, very high affinities were observed for binding to the fluorescein-labeled enzyme (e.g. 0.08 microM for mXBG). In very low ionic strength medium, the inhibition was still competitive with Rb+ ions. However, there was also evidence for nonspecific adsorption to the membranes. The following findings show that mXBG, a typical guanidinium derivative, behaves as a Na(+)-like antagonist. (a) It inhibits Na+,K(+)-ATPase activity, competing strongly with Na+ but only weakly with K+ ions. (b) It inhibits phosphorylation from ATP, competing with Na+ ions. (c) Like Na+ ions, it blocks phosphorylation from inorganic phosphate. Based on these results, we propose that the guanidinium group binds to a relatively wide vestibule at the cytoplasmic surface; but, unlike Na+ or K+ ions, it cannot pass into a narrower region of the cation transport path within the membrane. Therefore, it blocks the occlusion and active transport of cations. In the future, high affinity guanidinium derivatives may serve the purpose of locating cation-binding domains of the pump protein after being converted to reactive affinity or photoaffinity covalent labels.
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PMID:Guanidinium derivatives act as high affinity antagonists of Na+ ions in occlusion sites of Na+,K(+)-ATPase. 130 63

The mechanisms by which administration of the H+,K(+)-ATPase inhibitor B 831-78 or intragastric perfusion with NaHCO3 induces plasma gastrin release were studied in the rat. Experiments were performed after a washout of residual intragastric contents in fasted animals provided with chronic gastric fistulae. Acute and chronic administration of B 831-78 elevated plasma gastrin dose-dependently up to 5-6 times above control levels, while the increase was only twofold with intragastric NaHCO3 infusion despite similar neutralization of gastric acidity. The profound hypergastrinaemia induced by the H+,K(+)-ATPase inhibitor, after both acute and chronic treatment, was completely prevented or reversed by intragastric perfusion with physiological amounts of acid (0.15 N HCl, 2.5 ml/h). The hypergastrinaemia was, however, largely resistant to high doses of atropine (4.3 mumol/kg) and of the M1 selective muscarinic antagonist telenzepine (10 mumol/kg). In contrast, the modest increase in plasma gastrin induced by gastric perfusion with NaHCO3 was completely suppressed by the high atropine dose and was attenuated by small doses of atropine or telenzepine (0.01 mumol/kg and 1 mumol/kg). These results demonstrate that, in the rat, blockade of the H+,K(+)-ATPase can potently induce gastrin release in the absence of a meal. Moreover, they suggest that interruption of the negative feedback between acid and gastrin release is the main mechanism through which this class of drugs releases gastrin in the rat. Since a similar degree of gastrin release cannot be achieved by alkalinization of gastric contents, additional hormonal or neural regulatory factors may contribute to the drug-induced hypergastrinaemia.
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PMID:Effect of acute and chronic acid suppression on plasma gastrin release in the rat. 131 89

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