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)

The reactivity of myosin to [14C]-labeled N-ethylmaleimide ([14C]NEM) or to tritium was determined in functionally different frog muscles. The incorporation of [14C]NEM into myosin decreased during isotonic or isometric contractions, as compared to resting muscle. The cysteine residues which were protected during contraction were not involved in the ATPase activity or the actin-binding ability of myosin. Peptide mapping revealed that several residues were protected simultaneously. The incorporation of tritium into the peptide N-H groups of myosin was also decreased during muscle activity. These data support the idea that activation and subsequent contraction of muscle are correlated with structural changes in the myosin molecule. The reactivity of myosin to [14C]NEM was increased when the muscle was stretched to 140% rest length and treated with iodoacetate to deplete ATP. Based on in vitro experiments and on literature data, it is suggested that in the resting muscle myosin contains bound MgATP which decreases the rate of incorporation of [14C]NEM into myosin and that upon the irreversible loss of ATP the rate increases. 31P nuclear magnetic resonance signals from a number of phosphates were detected in the intact frog muscle. The data indicated that the minimum concentration of ATP in the muscle is 3 mM, a value which agrees with that of chemical determination. The characteristic chemical shifts, coupling constants, and line widths of ATP in the muscle were considerably altered from that of either free ATP in aqueous solutions or ATP in perchloric acid extracts of muscle.
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PMID:Structural changes in myosin during contraction and the state of ATP in the intact frog muscle. 12 83

Ethacrynic acid (EA) was injected to rats with functional nephrectomy after a control period of steady-state bile flow sustained by taurocholate infusion. Biliary clearance of [14C]mannitol was measured in order to estimate canalicular bile flow and bile salt-independent fraction (BSIF). After EA infusion, bile flow increased by 56%; bile salt excretion rate decreased by 10%; electrolyte excretion rates all increased, principally Na+ and K+. Mannitol clearance increased in parallel with bile flow. The BSIF increased. EA was excreted into bile as a metabolite identified as the cysteine adduct of EA; its excretion rate was linearly correlated with the increment in bile flow. The results are consistent with the hypothesis that the biliary excretion of an EA derivative results in an osmotic water flow increasing the canalicular BSIF. Since EA ia a Na+-K+-ATPase inhibitor, it is necessary to reconsider the relationship between secretion of canalicular BSIF and active Na+ transport mediated by the Na+-K+-ATPase system.
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PMID:Mechanism of ethacrynic acid-induced choleresis in the rat. 12 97

Human erythrocyte membrane fragments were exposed to O3 over varying lengths of time. Ozone was found to have a deleterious effect on the ouabainsensitive ATPase (EC 3.6.1.3) in the membrane fragments. After 1 min of exposure to O3, which was generated at a rate of 4.0 mumol/min, ouabain-sensitive ATPase activity decreased to 26% of the control. Ouabain-insensitive ATPase was found to be unaffected by O3 exposure under the test conditions. Additions of ascorbic acid or cysteine, prior to O3 exposure, partially protected the enzyme from inactivation. However, the inactivating effect of O3 could not be reversed by addition of either ascorbic acid or cysteine after exposure. Superoxide dismutase or catalase did not afford significant protection. The enzyme could not be protected by Ellman's reagent. The inactivating effect of O3 on the ouabain-sensitive ATPase was also demonstrated in exposure of intact erythrocytes. No detectable change was observed in glycolytic activity in the hemolysate prepared from O3-treated erythrocytes, however. It was postulated that inactivation of the membrane ATPase by O3 may be responsible for the destructive effect of O3 on the red cell.
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PMID:Effect of ozone on erythrocyte membrane adenosine triphosphatase. 13 Sep 35

As previously reported, rho-nitrobenzenediazonium fluoroborate strongly inhibits Ca2+- ATPase of myosin [EC 3.6.1.3] without appreciable suppression of its EDTA-K+- ATPase activity, and the presence of ATP in the reaction medium reverses the pattern of alteration in both ATPase activities, i.e., causing selective inhibition of EDTA-K+ -ATPase. Spectrophotometric studies on the azo-coupling products of 17 amino acids and their derivatives revealed that the amino acid residue of myosin modified by the diazonium dye was cysteine in both the presence and absence of ATP. It is also suggested that the number of cysteinyl residues responsible for the activity changes was one mole per mole of myosin subunit.
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PMID:Thiols of myosin. III. Spectrophotometric identification of the amino acid residue of myosin modified by rho-nitrobenzenediazonium fluoroborate. 13 31

The properties of a Ca2+ activated adenosine triphosphatase shown to be present in homogenates of purified rat peritoneal mast cells were investigated. The enzyme was activated by Ca2+, Mg2+, and to a lesser extent by Mn2+ and Co2+. Ca2+ alone was necessary for full activity and the further addition of Mg2+ did not have any effect. The chelating agents EGTA (ethanedioxybis(ethylamine)tetra-acetate) and EDTA completely inhibited the reaction. The pH optimum was 7.8. Reduced glutathione, cysteine, dithiothreitol, N-ethylmaleimide, urea, ADP, NaF, increasing ionic strength and Triton X-100 all inhibited the reaction. On subcellular fractionation of mast-cell homogenates by density-gradient centrifugation, the distribution of Ca2+ activated adenosine triphosphatase resembled that of 5'-nucleotidase, but differed from that of the other markers used, suggesting localization in the plasma membrane. Further experiments indicated that the enzyme is present on the external surface of the plasma membrane.
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PMID:Characterization of calcium-ion-activated adenosine triphosphatase in the plasma membrane of rat mast cells. 13 82

A heat-stable protein has been detected in Saccharomyces cerevisiae which inhibits mitochondrial ATPase activity. The protein inhibitor has been isolated from extracts prepared by brief heat treatment of unbroken cell suspensions. The isolated inhibitor is a small basic protein (molecular weight close to 7000, isoelectric proint 9.05) devoid of tryptophan, tyrosine, and cysteine as well as proline. The NHP2-terminal amino acid is serine. The ultraviolet absorption spectrum shows the vibrational fine structure of the phenyl-alanine band. Like the ATPase inhibitor from bovine heart mitochondria the yeast inhibitor is rapidly destroyed by trypsin. It is also inactivated by the yeast proteinases A and B. Radioimmunological analysis indicates that the inhibitor is synthesized on cytoplasmic ribosomes. Its accumulation seems to be connected to the formation of the mitochondrial ATPase complex, since its specific activity is greatly reduced both in extracts obtained from the F1-ATPase-deficient nuclear mutant pet 936 and from the cytoplasmic petite mutant D 273-10B-1.
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PMID:A protein inhibitor of mitochondrial adenosine triphosphatase (F1) from Saccharomyces cerevisiae. 13 3

The reaction of bovine cardiac myosin with the site-specific purine disulfide analog of ATP, 6,6'-dithiobis (inosinyl imidodiphosphate), was studied to determine the stoichiometry of labeling and subunit location of the reactive cysteines. The analog inactivates myosin by forming a mixed disulfide between the thiopurine nucleotide and certain key cysteines. The thiopurine nucleotide was displaced quantitatively by 14CN to form the more stable thiocyanato-enzyme derivatives. In cardiac myosin, the reactive cysteines could be categorized into three classes, nonessential, critical, and noncritical. The modification of the critical cysteines (two per myosin) inactivated the EDTA and Ca2+ ATPase activities, the latter to a lesser extent. The nonessential cysteines (two to three per myosin) and the noncritical cysteines (two per myosin), differentiated by their rates of reaction, had no effect on the ATPase activities after modification. Thiocyanato-modified myosin was analyzed by sodium dodecyl sulfate gel electrophoresis to determine the distribution of 14CN in the subunits. The critical cysteines were found on the 21,000-dalton light chain (LC1) and the noncritical cysteines on the heavy chains. More specifically, the critical cysteine modified in cardiac LC1 (determined from the products after cyclization and chain cleavage at the thiocyanatoalanyl residues) was shown to be the thiol residue whose surrounding amino acid sequence is homologous to that of the single cysteine of the skeletal myosin alkali light chains, confirming the likely similar structure and function of these light chains in the two different muscle types.
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PMID:Reaction of cardiac myosin with a purine disulfide analog of adenosine triphosphate. II. Stoichiometry and subunit location of labeling. 13 84

The fluorescent sulfhydryl reagent S-mercuric-N-dansyl cysteine (Dn-Cys-Hg+) has been used to label a purified preparation of the (Na+ + K+)-ATPase obtained from the electric organ of Electrophorous electricus. The labelled (Na+ +K+)-ATPase (ATP phosphohydrolase, EC 3.6.1.3), although reversibly inhibited, was capable of undergoing conformational changes associated with the active enzyme that could be monitored fluorometrically. The presence of ligands (Na+ + Mg2+ + ATP or Mg2+ + Pi) which are known to convert the enzyme from the E-1 state to the E-2-P state brought about large (97--100%) increases in fluorescence of the dimethylaminonaphthalene sulfonyl (Dn) label. An E-2 state could be achieved by the addition of Mg2+ which caused only a 32.3% increase in fluorescence over the E-1 state. Neither AMP nor TTP with or without Mg2+ or Na+ or Pi added without Mg2+ had any effect on the Dn fluorescence. If the enzyme was denatured, no fluorescence changes were observed. Small changes in the polarization of fluorescence of the Dn moiety were observed under all the conditions used. These small polarization changes and the large increases in the fluorescence intensity suggest that the enzyme can change conformational states in the presence of appropriate ligands and these conformational changes may take place in a relatively limited region of the protein's structure.
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PMID:Conformational changes of purified (Na+ + K+)-ATPase detected by a sulfhydryl fluorescence probe. 14 67

Ultrastructural distribution of adenosine triphosphatase and thiamine pyrophosphatase in synapses of rat's cerebral cortex was studied. Adenosine triphosphatase activity in some synaptic vesicles and mitochondria, on pre- and postsynaptic membranes, as well as in the postsynaptic thickening was established. The reaction specificity was proved by means of some controls: various concentrations of ouabain, NaF, NiCl2, cysteine, substrate free medium and non-specific substrates - cocarboxylase and beta-glycerophosphate. At the thiamine pyrophatase reaction, the enzyme positive product was found on the membrane of some clear synaptic vesicles, on the singl sacs of smooth endoplasmic reticulum in the axon terminal, and bouton cell membrane. Substrate free medium, addition of cystein and substitution of orininal substrate with adenosine triphosphate and beta-glycerophosphate as controls were used. The fine structure localization of both enzymes in synaptic structures suggests their important role in the synaptic function.
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PMID:Cytochemical localization of adenosine triphosphatase and thiamine pyrophosphatase in the synapases of rat's cerebral cortex. 14 1

We purified a 400,000 molecular weight myosin, myosin-II, from Acanthamoeba castellanii. The sequence of ion exchange chromatography, actomyosin precipitation, actin extraction, and gel permeation chromatography yields per 100 g of cells about 11 mg of myosin-II which is 90 to 96% pure. ATPase activity is highest in the presence of Ca2+, but the enzyme is also active in EDTA provided high concentrations of K+ are present. The molecule consists of two 175,000 molecular weight heavy chains, one or two 17,500 molecular weight light chains, and two 16,500 molecular weight light chains. Myosin-II is rich in acidic residues and contains about 32 residues of cysteine/mol. The sedimentation coefficient is 5.9 S. Intrinsic viscosity is 126 cc/g. By equilibrium ultracentrifugation, the molecular weight averages depended upon the initial loading concentration in a way that suggested a 400,000 molecular weight species is in equilibrium with a 200,000 molecular weight species. By electron microscopy the molecule was seen to have two globular heads at one end of a tail 90 nm long. In KCl solutions of less than 0.25 M, the myosin-II tails self-associate to form the backbone of very small (6.6 x 205 nm) bipolar filaments with central bare zones 97 nm long. Myosin-II binds to actin filaments, forming periodic arrowhead-shaped complexes, but its Mg2+ ATPase activity is activated only 50% or less by actin. When radioactive myosin-II is incubated up to 90 min in unlabeled Acanthamoeba homogenates, it is not degraded into smaller fragments, such as the 190,000 molecular weight myosin-I. Our observations and the detailed enzymatic data presented by Maruta and Korn ((1977) J. Biol. Chem. 252, 6501-6509) argue that the smaller Acanthamoeba myosin-I (Pollard, T. D., and Korn, E. D. (1973) J. Biol. Chem, 248, 4682-2690) does not arise by fragmentation of myosin-II in the homogenate or extract.
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PMID:Characterization of a second myosin from Acanthamoeba castellanii. 14 36

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