Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The activity of adenosine triphosphatase activated by sodium and potassium ions is greatly increased in the gill and pseudobranch of the euryhaline killifish, Fundulus heteroclitus, after its adaptation to seawater. Adenosine triphosphatase activity in gills of fish in salt water is reduced by hypophysectomy. The data suggest that this enzyme is involved in the excretion of sodiumions by the gill and that the adaptive increase which occurs in seawater is influenced by the hypophysis.
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PMID:Sodium- and potassium-activated adenosine triphosphatase of gills: role in adaptation of teleosts to salt water. 422 98

1. At low ionic strength, when turbidity and viscosity measurements indicated dissociation of acto-heavy-meromyosin, its adenosine triphosphatase was strongly activated by Mg(2+) and Ca(2+). 2. The characteristics of the adenosine triphosphatase of dissociated acto-heavy-meromyosin in the presence of Mg(2+) were similar to those reported for myofibrils and actomyosin. 3. In the presence of Ca(2+) the adenosine-triphosphatase activity was much less sensitive to ionic strength than was the case with Mg(2+). 4. At low ionic strength Mg(2+) was more effective in maintaining the dissociation of acto-heavy-meromyosin in the presence of ATP than was Ca(2+). This difference was not apparent when ATP was replaced by ITP. 5. Although the recovery of viscosity was complete on reassociation of acto-heavy-meromyosin the turbidity did not return to the original value. 6. The general implications of Mg(2+) activation of acto-heavy-meromyosin when classical interpretation indicates dissociation of the complex are discussed.
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PMID:The adenosine-triphosphatase activity of dissociated acto-heavy-meromyosin. 422 76

Peptides obtained from pepsin digestion of the phosphorylated and nonphosphorylated forms of a preparation of brain microsomal sodium-potassium-activated adenosine triphosphatase were treated at pH 5.4 with N-(n-propyl-2,3-(3)H) hydroxylamine of high specific activity, then separated by column chromatography, and further digested with pronase. A compound isolated in higher amounts from the phosphorylated enzyme than from the nonphosphorylated enzyme migrated with authentic L-glutamyl-gamma-propylhydroxamate in four chromatographic systems and on electrophoresis on paper at three different pH's. The acyl phosphate "intermediate" in the phosphorylated form of the adenosine-triphosphatase therefore appears to be an L-glutamyl-gamma-phosphate residue.
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PMID:Sodium-potassium adenosine triphosphatase: acyl phosphate "intermediate" shown to be L-glutamyl-gamma-phosphate. 422 45

1. A simple procedure involving repeated washings of actomyosin, extracted as the complex from myofibrils (natural actomyosin) at ionic strength less than 0.002, is described for the preparation of a desensitized actomyosin. 2. The Mg(2+)-activated adenosine triphosphatase of natural actomyosin was markedly inhibited by ethylenedioxybis(ethyleneamino)tetra-acetic acid, whereas that of the desensitized actomyosin was unaffected. 3. The activity of the Ca(2+)-activated adenosine triphosphatase of natural actomyosin was generally lower than that of the Mg(2+)-activated adenosine triphosphatase, whereas in the desensitized actomyosin the difference between the activities was considerably less. In both natural and desensitized actomyosin the adenosine-triphosphatase activities in the presence of Mg(2+) were similar. 4. The conversion of the natural into the desensitized actomyosin was accompanied by the removal of a protein fraction containing the factors responsible for the sensitivity to ethylenedioxybis(ethyleneamino)tetra-acetic acid and for modifying the Ca(2+)-activated adenosine triphosphatase. When added to a desensitized actomyosin this fraction effected a reversal to the natural form. The recombination was facilitated by increasing the ionic strength of the medium. The two factors showed different stabilities to heat and tryptic digestion.
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PMID:The adeonosine-triphosphatase activity of desensitized actomyosin. 422 11

1. The purification of an adenosine triphosphatase present in aqueous extracts of acetone-dried ox-heart mitochondria is described. 2. No evidence was found for the presence of more than one protein having adenosine-triphosphatase activity in these extracts. 3. The enzyme is less stable at 0 degrees than at 25 degrees but is stabilized by glycerol. 4. The activity is dependent on the presence of Mg(2+) or certain other bivalent metal cations. 5. The adenosine-triphosphatase activity of the Mg(2+)-activated enzyme is enhanced by 2,4-dinitrophenol. 6. The kinetics of Mg(2+) activation indicate that the ATP-Mg(2+) complex is the important substrate: free ATP and Mg(2+) are inhibitory. 7. This preparation of mitochondrial adenosine triphosphatase has many properties in common with the adenosine triphosphatase coupling factor from mitochondria (Racker, 1961).
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PMID:Preparation and general properties of a soluble adenosine triphosphatase from mitochondria. 422 55

1. Adenosine triphosphatase activities of dispersions prepared from bovine cerebral cortex that had been frozen, were greater than those of dispersions prepared from fresh tissue. The subcellular distribution of components of the dispersion was not altered by freezing the tissue and a microsomal fraction enriched in Na(+)+K(+)-stimulated adenosine triphosphatase activity was prepared. 2. The bovine cerebral microsomes were further treated with a 2m-sodium iodide reagent to obtain a particulate preparation with minimal Na(+)+K(+)-independent adenosine triphosphatase activity. Na(+)+K(+)-stimulated activity was increased by the sodium iodide treatment and this preparation was shown to be enriched in lipid constituents. 3. Density-gradient centrifugation of the sodium iodide treated preparation gave three main subfractions each containing approximately equal amounts of phospholipid and protein. Further exposure of the sodium iodide-treated preparation to the 2m-sodium iodide reagent altered the distribution of protein and phospholipid among the fractions obtained by density-gradient centrifugation. Dissociation of phospholipids from protein in the sodium iodide-treated preparation was brought about also by high concentrations of arginine. Concentrated solutions of arginine and sodium thiocyanate brought about dissociation of phospholipids from protein of the microsomal preparation. 4. Many amino acids were found to inhibit Na(+)+K(+)-stimulated adenosine triphosphatase activity when present in high concentrations. The inhibition was complex but resulted, in part at least, from diminished affinity for ATP and Na(+) in the presence of the amino acids. 5. A non-ionic detergent, Lubrol W, solubilized up to 40% of the enzyme activity of the sodium iodide-treated preparation together with 30% of the protein and phospholipid in the preparation. Protein was released from the sodium iodide-treated preparation by pancreatic elastase but Na(+)+K(+)-stimulated adenosine triphosphatase activity of the residue was diminished. Ultrasonic treatment of the sodium iodide-treated preparation failed to release a significant proportion of Na(+)+K(+)-stimulated adenosine triphosphatase activity into a form not deposited by ultracentrifugation.
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PMID:The cerebral sodium-plus-potassium ion-stimulated adenosine triphosphatase of bovine brain and its microsomal matrix. 425 Aug 46

1. We have isolated a mutant of Escherichia coli K12 (strain AN295) that forms de-repressed amounts of Mg(2+),Ca(2+)-stimulated adenosine triphosphatase. 2. The Mg(2+),Ca(2+)-stimulated triphosphatase activity was separated from membrane preparations from strain AN295 by extraction with 5mm-Tris-HCl buffer containing EDTA and dithiothreitol, resulting in a loss of the ATP-dependent transhydrogenase activity. The non-energy-linked transhydrogenase activity remained in the membrane residue. 3. The solubilized Mg(2+),Ca(2+)-stimulated adenosine triphosphatase activity from strain AN295 was partially purified by repeated gel filtration. The addition of the purified Mg(2+),Ca(2+)-stimulated adenosine triphosphatase to the membrane residue from strain AN295 reactivated the ATP-dependent transhydrogenase activity. 4. Strain AN296, lacking Mg(2+),Ca(2+)-stimulated adenosine triphosphatase activity, was derived by transducing the mutant allele, uncA401, into strain AN295. The ATP-dependent transhydrogenase activity was lost but the non-energy linked transhydrogenase was retained. 5. The ATP-dependent transhydrogenase activity in membrane preparations from strain AN296 (uncA(-)) could not be re-activated by the purified Mg(2+),Ca(2+)-stimulated adenosine triphosphatase from strain AN295. However, after extraction by 5mm-Tris-HCl buffer containing EDTA and dithiothreitol, the ATP-dependent transhydrogenase activity could be re-activated by the addition of the purified Mg(2+),Ca(2+)-stimulated adenosine triphosphatase from strain AN295 to the membrane residue from strain AN296 (uncA(-)).
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PMID:Reconstitution of the energy-linked transhydrogenase activity in membranes from a mutant strain of Escherichia coli K12 lacking magnesium ion- or calcium ion-stimulated adenosine triphosphatase. 426 1

1. Homogenates of neural lobes of bovine pituitary glands were fractionated by differential and density-gradient ultracentrifugation and the distribution of adenosine triphosphatase (ATPase) activity was studied. It was shown that all the activity was membrane-bound. 2. On the basis of ionic requirements the ATPase activity was grouped into three categories: (a) Mg(2+)-dependent, (b) Ca(2+)-dependent and (c) Mg(2+)+Na(+)+K(+)-dependent (ouabain-sensitive) ATPases. The activity in the absence of bivalent cations was negligible. The ratio between the activities of the three ATPases varied between the different subcellular fractions. 3. Preincubation of the subcellular fractions with deoxycholate increased the activity of the Mg(2+)+Na(+)+K(+)-dependent enzyme, whereas the Mg(2+)- and Ca(2+)-activated ATPases were either unaffected or slightly inhibited. Triton X-100 solubilized the Mg(2+)- and Ca(2+)-ATPases; however, the activity of the Mg(2+)+Na(+)+K(+)-ATPase was abolished by the concentration of Triton X-100 used. 4. All the subfractions displayed unspecific nucleotide triphosphatase activity towards GTP, ITP and UTP. These substrates inhibited the hydrolysis of ATP by all three ATPases. ADP also inhibited the ATPases. 5. Polyacrylamide-gel electrophoresis of extracts containing the Mg(2+)- and Ca(2+)-dependent ATPase activity solubilized by Triton X-100 revealed the presence of two enzymes; one activated by either Mg(2+) or Ca(2+) and the other activated only by Ca(2+). 6. In sucrose density gradients the distribution of vasopressin was different from that of all three types of ATPases. It is therefore suggested that the neurosecretory granules do not possess ATPase activity.
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PMID:Adenosine triphosphatase activity in the neural lobe of the bovine pituitary gland. 428 6

The presence of adenosine triphosphate, guanosine triphosphate, cytosine triphosphate, or uridine triphosphate reduced the rate of inactivation of vaccinia when heated at 50 C. The virus-associated nucleoside triphosphate phosphohydrolases (adenosine triphosphatase, guanosine triphosphatase, cytosine triphosphatase, and uridine triphosphatase) and ribonucleic acid polymerase were also protected from heat inactivation by these compounds. These obervations are best explained by postulating that ribonucleoside triphosphates bind to enzymes in the virus particle, and that these enzyme-substrate complexes are more resistant to thermal denaturation than are the enzymes without their substrates. The kinetics of heat inactivation of the vaccinia ATP phosphohydrolase activity is biphasic, suggesting that there are two proteins in the vaccinia particle that have this enzyme activity but they have different kinetics of heat inactivation. Any of the vaccinia-associated nucleotide phosphohydrolase activities are protected from heat inactivation by the presence of any one of the respective nucleoside triphosphates. This observation suggests that there is a single enzymatic site in vaccinia that is able to react with any ribonucleoside triphosphate.
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PMID:Protection of vaccinia from heat inactivation by nucleotide triphosphates. 431 59

The study deals with the histoenzymological architecture of the rhomencephalon and mesencephalon of a fresh water turtle. Attempt has been made to see the location of phosphatases (acid and alkaline phosphatases, 5-nucleotidase, adenosine triphosphatase) in the different constituents of these brain areas. The distribution of acid phosphatase is similar to Nissl staining, hence the enzyme has been used as a marker to differentiate various nuclei in the different brain areas. Moreover, the concentration of acid phosphatase is higher in large neurons like that of Nissl substance and, therefore, all such cells are quite distinct. Alkaline phosphatase predominates in blood vessels. Neuropil and neuronal activity of this enzyme is restricted to limited nuclei, only. 5-nucleotidase is localized in all the cells as well as in the neuropil. Adenosine triphosphatase activity is quite strong in all the brain areas irrespective of their sensory and motor nature. In turtle brain it has not been possible to distinguish sensory and motor areas on the basis of phosphatases distribution as calimed in fishes and mammals by several workers. Significance of the enzymes at various locales has been brought out in the contribution.
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PMID:A comparative study of phosphatases in the rhombencephalon and mesencephalon of fresh water turtle (Lissemys punctata granosa). 609 5


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