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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)

From transient kinetic studies of the Mg2+-dependent adenosine triphosphatase of myosin subfragment 1, prepared from rabbit skeletal muscle, a seven-step mechanism has been proposed. Features of this mechanism include two-step processes for ATP and ADP binding in which the binary complex isomerizes in addition to a rapid nucleotide association step. In the case of ATP a large negative standard free energy change is associated with the isomerization. An overall rate-limiting isomerization of the myosin-product complex prior to product release has been identified. Studies on the mechanism of cleavage of ATP bound to the active site indicate the process is readily reversible and can account for the observation that more than one oxygen of the product phosphate arises from water. This proposal has been substantiated by the finding that the oxygen atoms of the gamma-phosphoryl group of bound ATP also undergo extensive exchange with water.
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PMID:Transient kinetic and isotopic tracer studies of the myosin adenosine triphosphatase reaction. 17 37

Electron paramagnetic resonance spectroscopy and water proton relaxation rate (PRR) measurements were used to characterize a complex formed at the myosin subfragment 1 (S1) ATPase site with stoichiometric amounts of Mn(II) and ADP. In the absence of nucleotide, Mn(II) binding at the active site is very weak, although two other classes of sites for Mn(II) on subfragment 1 were identified which are not directly involved in the ATPase reaction. A high affinity Mn(II) site (termed L-site with KL = 3 muM) is associated with a region of the molecule which is susceptible to proteolysis (probably the LC2 light chain subunit) since its stoichiometry depends on the conditions employed for the preparation of subfragment 1 during the papain treatment of myosin. In addition there are a number of weak sites for Mn(II) (termed N-sites) probably associated with anionic groups on the surface of the molecule. In order to study the properties of Mn(II) and ADP bound at the active site by magnetic resonance techniques, subfragment 1 preparations virtually free of the L-site were used, since such an ancillary site competes for the available Mn(II). MnADP binds to subfragment 1 with an apparent dissociation constant, KT, of about 4 muM at 25 degrees. The resultant complex, S1-MnADP, has a low PRR enhancement factor (1.7 at 24.3 MHZ), and its frequency (magnetic field) dependence indicates that this is because there are no readily exchangeable water molecules within the first coordination sphere of Mn(II. Relaxation of the bulk solvent is mediated by protons bound transiently within the outer spheres (4 to 7 A) of the Mn(II). A nitroxide spin label attached to the reactive thiol group of subfragment 1 enhances the solvent PRR, and this property is sensitive to the binding of MgADP to the active site. However, no dipolar spin-spin interaction was detected between the nitroxide group and Mn(II) in the S1-MnADP complex, indicating that the metal ion and thiol group are well separated.
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PMID:Investigations of equilibrium complexes of myoxin subfragment 1 with the manganous ion and adenosine diphosphate using magnetic resonance techniques. 17 50

Rats were made to drink D2O mixed water (30: 70) for 6 weeks in order to study the biological effects of orally administered D2O on the liver. Heavy water administration results in gradual decrease in the body weight whereas the liver showed marginal increase in weight throughout the experimental period. Phosphatases and dehydrogenases were analyzed biochemically. Acid phosphatase, glucose-6-phosphatase and adenosine triphosphatase registered fall in contrast to alkaline phosphatase, SDH and LDH, all of which showed a definite increase. Lipids, nucleic acids and proteins, estimated biochemically, gradually decreased throughout the experimental period in response to D2O feeding.
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PMID:Biologic effects of orally administered deuterium oxide on rat liver. 19 33

The distribution of enzymes, viz., alkaline phosphatase, acid phosphatase, adenosine monophosphatase and adenosine triphosphatase was studied by histochemical methods in the accessory respiratory organs of two fresh-water fishes (Clarius batrachus and Heteropneustes fossilis). Enzymes have been used as markers to differentiate between functional and non-functional cells of the dendritic organ of Clarius and of the air chamber of Heteropneustes. The variations in the enzyme activities have been correlated with the functional capacity of each respiratory organ. It is attempted to understand the physiological role of these enzymes in the process of aerial breathing.
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PMID:Phosphatases in the accessory respiratory organs of two fresh-water fishes. 20 22

An isotopic shift of the (31)P nuclear magnetic resonance due to (18)O bonded to phosphorus of 0.0206 ppm has been observed in inorganic orthophosphate and adenine nucleotides. Thus, the separation between the resonances of (31)P(18)O(4) and (31)P(16)O(4) at 145.7 MHz is 12 Hz and, in a randomized sample containing approximately 50% (18)O, all five (16)O-(18)O species are resolved and separated from each other by 3 Hz. Not only does this yield the (18)O/(16)O ratio of the phosphate but, more important, the (18)O-labeled phosphate in effect can serve as a double label in following phosphate reactions, for oxygen in all cases and for phosphorus, provided the oxygen does not exchange with solvent water. Thus, it becomes possible to follow labeled phosphorus or labeled oxygen continuously as reactions proceed. Rate studies involving (i) phosphorus and (ii) oxygen are illustrated by continuous monitoring of the exchange reactions between (i) the beta phosphate of ADP and inorganic phosphate catalyzed by polynucleotide phosphorylase and (ii) inorganic orthophosphate and water catalyzed by yeast inorganic pyrophosphatase. In the ADP-P(i) exchange, the P(i) ((18)O(4)) yielded an alpha P((16)O(3) (18)O) and a beta P((18)O(4)), proving that bond cleavage occurs between the alpha P and the alpha-beta bridge oxygen. Among the many additional potential uses of this labeling technique and its spectroscopic observation are: (i) different labeling of each phosphate group of ATP, (ii) to follow rate of transfer of (18)O from a nonphosphate compound such as a carboxylic acid to a phosphate compound, and (iii) to follow the rate of scrambling (for example, of the beta-gamma bridge oxygen of ATP to nonbridge beta P positions) and simultaneously the rate of exchange of the gamma P nonbridge oxygens with solvent water in various ATPase reactions.
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PMID:Isotopic (18O) shift in 31P nuclear magnetic resonance applied to a study of enzyme-catalyzed phosphate--phosphate exchange and phosphate (oxygen)--water exchange reactions. 20 29

The kinetics of CO binding by the cytochrome c oxidase of pigeon heart mitochondria were studied as a function of membrane energization at temperatures from 180 to 280 degrees K in an ethylene glycol/water medium. Samples energized by ATP showed acceleration of CO binding compared to those untreated or uncoupled by carbonylcyanide p-trifluoromethyoxyphenylhydrazone but only at relatively low temperatures and high CO concentrations. Experiments using samples in a "mixed valency" (partially oxidized) state showed that the acceleration of ligand binding is not due to the formation of a partially oxidized state via reverse electron transport. It is concluded that in the deenergized state one CO molecule can be closely associated with the cytochrome a3 heme site without actually being bound to the heme iron; in the energized state, two or more ligand molecules can occupy this intermediate position. The change in the apparent ligand capacity of a region near the heme iron in response to energization is evidence for an interaction between cytochrome oxidase and the ATPase system. Furthermore, these results suggest a control mechanism for O2 binding.
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PMID:The effect of mitochondrial energization on cytochrome c oxidase kinetics as measured at low temperatures. I. The reaction with carbon monoxide. 20 2

Two weeks after 75 percent nephrectomy in rats fed a normal diet glomerular filtration rate was found to be reduced by 2/3 and there was no hyperkalemia. Normal K balance was maintained by a threefold increase of fractional urinary potassium excretion. When infused with 0.5 M KCl solution, both normal and 75 percent nephrectomized rats increased their fractional excretion, while normal rats kept on a very high K-diet did not further increase their fractional potassium excretion. Adaptation of fractional excretion to infused KCl was blunted in 75 percent nephrectomized rats given a low K diet.Addition of 0.1 M KCl to the drinking water resulted in a three- to fourfold increase of potassium intake in normal rats: within 7 days, the Na-K-ATPase in the outer medulla of the kidney rose by 30 percent but no change occurred in the cortex. Further increases in dietary K load induced an increase of Na-K-ATPase activity, both in outer medulla and cortex, but not in other tissues. After 75 percent nephrectomy, specific Na-K-ATPase activity increased by 20-25 percent in the outer medulla and in the cortex.Dietary K loading, in normal rats, also resulted in a large increase of net potassium secretion into the perfused colon and of specific Na-K-ATPase activity of the colonic mucosa. These effects of potassium loading were not abolished by adrenalectomy and were accompanied by an increase of transmural PD. It was concluded that chronic potassium loading may enhance secretion of potassium into lower nephron tubular fluid and into colonic contents by primarily stimulating the synthesis of Na-K-ATPase and the resulting increase of the number of pumping sites. 75 percent nephrectomy may induce similar changes in the remaining nephrons.
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PMID:Potassium adaptation after reduction of nephron population. 21 63

The activity of the electrolyte transport enzyme, sodium, potassium-activated adenosine triphosphatase (Na+,K+-ATPase), in the gills of the pinfish, Lagodon rhomboides, increased markedly following transfer of fish from brackish water to seawater. Cytochemical localization of Na+,K+-ATPase via its potassium-dependent phosphatase (K+-NPPase) activity in the branchial epithelium of pinfish adapted to seawater demonstrated that chloride cells are the major sites for the enzyme. Subcellularly, the heaviest depositions of reaction product were observed lining the cytoplasmic membrane surfaces of the labyrinth of anastomosing plasma membrane tubules that ramifies throughout the chloride cell cytoplasm. Enzyme activity was demonstrated also on the cytoplasmic surface of the apical crypt membrane and on the cytoplasmic surfaces of vesicles in the cytoplasm subjacent to the crypt. Deletion of potassium from the cytochemical incubation medium or inclusion of 10 mM ouabain abolished the reaction products associated with these membranes. The significance of these cytochemical results is discussed with reference to current hypotheses of chloride cell function.
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PMID:Ultracytochemical localization of Na+,K+-activated ATPase in chloride cells from the gills of a euryhaline teleost. 21 85

There are three techniques for the localization of intraepithelial Na+, K+-ATPase (usually equated with the Na+-pump) that offer reasonable specificity and resolution: the nitrophenylphosphatase assay of Ernst, the immunoferritin procedure of Kyte, and the radioautographic localization of tritiated ouabain as developed by Stirling. These have now been applied to a wide range of epithelia covering the four classes of interest here: isotonic and hypertonic absorbers and isotonic and hypertonic secretors. A review of published results reveals that in every case (except for the choroid plexus) the enzyme is preferentially located on the basolateral surface of the transporting epithelial cells so that a simple correlation of structure and function in terms of the Koefoed-Johnsen and Ussing hypothesis does not seem possible. With little dispute that this enzyme is, nonetheless, the probable site for conversion of metabolic energy to transport-related work, we summarized as well the more macroscopic structural characteristics of epithelia which serve to typify each of the four classes in terms of the direction and tonicity of transported fluid. The apparently systematic differences in cell shape and cell-cell junctions that are summarized here may well be an important consideration for the development of a useful holistic theory with which to explain the transepithelial transport of salt and water.
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PMID:Distribution of Na+-pump sites in transporting epithelia. 21 89

Inhibition of adenosinetriphosphatase (ATPase) by vanadium pentoxide (dissolved in water or in sodium hydroxide solution) was studied in microsomal fractions and tissue homogenates of kidney, brain, and heart of several species, including humans (kidney only). In some preparations vanadium was found to be the most potent inhibitor of Na+ + K+ATPase activity so far reported. Concentrations of vanadium causing 50 percent inhibition of Na+ + K+ATPase activity ranged from 6 x 10(-8) to 5 x 10(-7) M in microsomal fractions and from 2 x 10(-7) to 1 x 10(-6) M in tissue homogenates. Renal and cardiac enzymes were more sensitive to vanadium than the brain enzyme, a phenomenon independent of enzyme specific activity. The enzyme in tissue homogenates was more resistant to vanadium than the microsomal enzyme derived from the same tissues, suggesting a presence in tissues of protective agents. Mg2+ ATPase, which contaminated the enzyme preparations to a variable degree, was 1,000-10,000 times more resistant to vanadium than was Na+ + K+ATPase. More detailed studies on the mechanism of inhibition were performed with dog and human kidney enzymes. The reversible nature of the inhibition was suggested by the fact that fractional inactivation of Na+ + K+ATPase by vanadium was independent of enzyme protein concentrations. The inhibitory effect was reduced by Na+ and increased by K+ or Mg2+. ATP alone, but not MgATP, antagonized the inhibition. This could mean that vanadium inhibits the Na+ + K+ATPase at the site activated by Na+, and that ATP protects the enzyme either by binding vanadium or by competing for a mutual receptor on the enzyme. The inhibition was reduced by bovine serum albumin, probably binding vanadium. The inhibition was also diminished by reducing agents, ascorbic acid and citric acid.
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PMID:Inhibition by vanadium of sodium and potassium dependent adenosinetriphosphatase derived from animal and human tissues. 21 60


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