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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)

Activation of membrane-associated thiamin triphosphatase from rat brain requires a divalent cation (Mg2+, Ca2+, or Mn2+). The optimum concentration of Mg2+ necessary for maximal enzyme activity varies with substrate concentration; conversely, the maximal rate of hydrolysis attainbale by increasing thiamin triphosphate concentration is directly proportional to [Mg2+] for all levels of Mg2+ below that of the substrate. Under appropriate conditions, the Km of the thiamin triphosphatase for Mg2+ and for thiamin triphosphate are shown to be identical. Dissociation constants (Kd) for the binding of Mg2+ to thiamin triphosphate, thiamin diphosphate, and thiamin were determined; kinetic data re-expressed in terms of [Mg2+-thiamin triphosphate] conform to simple single substrate predictions, suggesting that the true enzyme substrate may be the Mg2+-thiamin triphosphate complex. Excess free Mg2+ inhibits thiamin triphosphatase activity competitively while excess free thiamin triphosphate in concentrations up to 10 times Km has no effect on the membrane-bound enzyme.
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PMID:Membrane-associated thiamin triphosphatase. II. Activation by divalent cations. 17 10

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

The Mn(II)-heavy meromyosin system was studied by measuring the ESR spectrum of Mn(II). The temperature dependence of the line width parameter W(1, t) of a freshly prepared sample changes at around 7-10 degrees C, where W(1, t) is the reciprocal of the peak-to-peak height of the lowest magnetic field component of the hyperfine structure. It is shown that the change in the slope of W(1, t) at 7-10 degrees C is due to a change in the structure of Mn(II)-heavy meromyosin or a change in the interaction between Mn(II) and heavy meromyosin without ATP. This result is in accord with the recently reported observations that heavy meromysin ATPase activity showed different temperature dependence above and below 10 degrees C in the presence of Mn(II). The characteristics of the spectrum of the Mn(II)-heavy meromyosin system in the liquid state between 2 degrees C and 20 degrees C are compared with those of a frozen sample of Mn(II)-heavy meromyosin in a low temperature region (-50-0 degrees C) and with those of the lyophilized material. The forbidden transitions are observed, and hence the zero field splitting parameter can be obtained. It is 115 +/- 15 gauss at -50 degrees C, and decreases with increase of the temperature to 70 +/- 15 gauss at 20 degrees C.
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PMID:An ESR study of the Mn(II)-heavy meromyosin system. 19 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

In order to study the action of the divalent cation which is essential for phosphorylation of sodium- and potassium-transport adenosine triphosphatase, magnesium ion, the normal ligand, was replaced with calcium ion, which had properties diffeerent from those of Mg2+, Mn2+, Fe2+, Co2+, Ni2+, or Zn2+. Phosphorylation of the enzyme from ATP at pH 7.4 in the presence of Na+ and Ca2+ yielded a Ca.phosphoenzyme (60% of the maximal level) with a normal rate of dephosphorylation following a chase with unlabeled Ca.ATP (PK = 0.092S-1 at 0 degrees C). In contrast, after a chase by a chelator, namely ethylenediaminetetraacetic acid, 1,2-cyclohexylenedinitrilotetraacetic acid, or ethylene glycol bis-(beta-aminoethyl ether)N,N'-tetraacetic acid, dephosphorylation slowed within 5 s and half of the initial phosphoenzyme remained with a stability about 5-fold greater than normal. Three states of the phosphoenzyme were distinguished according to their relative sensitivity to ADP or to K+ added during a chase. Normally prepared Mg.phosphoenzyme was sensitive to K+ but not to ADP; Ca.phosphoenzyme was sensitive either to ADP or to K+; and the stabilized phosphoenzyme prepared from Ca.phosphoenzyme by addition of a chelator was sensitive neither to ADP nor to K+ nor to both together. Addition of Ca2+ to the stabilized phosphoenzyme restored the reactivity to that of Ca.phosphoenzyme. Addition of Mg2+ to the stabilized phosphoenzyme changed the reactivity to that of Mg.phosphoenzyme. Therefore, this unreactive, stabilized state of the phosphoenzyme appeared to be a divalent cation-free phosphoenzyme. With respect to sensitivity to ouabain, Ca.phosphoenzyme was as sensitive as Mg.phosphoenzyme but calcium-free phosphoenzyme was much less sensitive. It was concluded that the divalent cation required for phosphorylation normally remains tightly bound to the phosphoenzyme and is required for normal reactivity. Calcium ion was almost unique in dissociating relatively easily from the phosphoenzyme. Strontium ion appeared to act similarly to Ca2+.
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PMID:Binding of divalent cation to phosphoenzyme of sodium- and potassium-transport adenosine triphosphatase. 21 Nov 32

The adenosine 3",5"-monophosphate (cAMP)-dependent ATPase (ATP phosphohydrolase, EC 3.6.1.3) activity of cAMP-dependent protein kinase (ATP:protein phosphotransferase, EC 2.7.1.37) from bovine heart is characterized. That the ATPase activity is intimately associated with the catalytic subunit of the enzyme is suggested by the following: (i) the similar dependences of ATPase and protein kinase activities on cAMP; (ii) the dissociation of ATPase activity from the holoenzyme on addition of cAMP and its co-elution with the catalytic subunit on gel filtration chromatography; (iii) the similarity of the relative effectiveness of divalent metal ions in ATPase and protein kinase catalysis; and (iv) the correspondence of kinetically determined Km(MgATP) and Ki(MgADP) values with thermodynamic dissociation constants determined by equilibrium dialysis. The hydrolysis of ATP is stimulated 10- to 20-fold by cAMP in the holoenzyme. The molar specific activity of the catalytic subunit ATPase is approximately 0.7 min-1 with Km(MgATP) = 5 muM. MgADP is a competitive inhibitor of the reaction with a Ki value of approximately muM. The order of the relative effectiveness of metal ions for both ATPase and peptide kinase activities is Mg2+ greater than Mn2+ greater than Ca2+. A possible interpretation of these observations is that the role that the metal ion plays is more directly manifested in bond-breaking than in bond-forming.
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PMID:Cyclic AMP-dependent ATPase activity of bovine heart protein kinase. 21 18

ESR spectra of nitroxyl derivative labelling with parachlormercury benzoate bound with SH-groups of Ca, Mg-dependent ATPase in the presence of Mn2+ ions are studied. It has been concluded from the saturation curves of ESR spectra that Mn2+ is localized at the distance approximately 40 A from the SH-group of the enzyme active centre. Platinum compound (K2PtCl4) changes the spectrum of ESR 1 due to the displacement of the label from the enzyme SH-groups and disintegration of the sarcoplasmic reticulum structure. Palladium compound (Pd(NH3)4Cl2) produced no effect on the ESR 1 spectrum.
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PMID:[Study of sarcoplasmic reticulum Ca-ATPase by the paramagnetic label--paramagnetic probe method]. 22 72

The nucleoside triphosphatase activities of the nuclear envelopes from rat liver, pig liver and simian-virus-40-transformed mouse-embryo 3T3 cells were shown to exhibit similar parperties. All three preparations hydrolyse ATP, 2'-dATP, 3'-dATP, GTP, CTP and UTP in the presence of Mg2+, Ca2+, Mn2+ and Co2+ with a pH optimum of 8.0, are sensitive to inhibition by mercurials, arsenicals, quercetin, proflavin and adenosine 5'-[gamma-thio]triphosphate and are partially inactivated by exposure to high ionic strength. The kinetic behaviour is similar for all substrates irrespective of the source of material. The typical Eadie-Hofstee plot, which is concave upwards at pH 8.0 when the ionic strength is 20mM, becomes linear when the pH is increased to 8.5 or the ionic strength to 160mM. The overall evidence, particularly the labelling of only one polypeptide by [gamma-32P]ATP, suggests that under the conditions of preparation and assay used only one class of nucleoside triphosphatase active sites is detectable in nuclear envelopes. The importance of these results for an understanding of the role of the enzyme in vivo is discussed.
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PMID:Properties of mammalian nuclear-envelope nucleoside triphosphatase. 22 21

Adenosine triphosphatase (ATPase) from Thiobacillus ferrooxidans was purified 55-fold. Polyacrylamide gel electrophoresis of the most purified fraction showed only one major band; histochemical analysis showed that the ATPase activity was associated with this band. The pH optimum is 9-10. The enzyme hydrolyzed ATP stoichiometrically to ADP and inorganic phosphate, the Km for this substrate being 7.75 times 10-3 M. GTP and ITP are alternate substrates, the Km values for these being 6.71 times 10-3 M and 3.12 times 10-3 M, respectively. ADP is slightly hydrolyzed. Magnesium, manganese, and calcium can serve as cofactors; Km values for these are 2.0 times 10-3 M, 9.4 times 10-4 M, and 8.0 times 10-4 M, respectively. The enzyme activity was not activated by either sodium or potassium, but a combination of the two ions were inhibitory. Azide and p-hydroxymercuribenzoate strongly inhibited the enzyme activity, whereas cyanide, dinitrophenol, and N,N'-dicyclohexylcarbodiimide (DCCD) were without effect. The enzyme was cold labile at 0 degrees-C, but was more stable at 18-24 degrees-C.
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PMID:The soluble adenosine triphosphatase of Thiobacillus ferrooxidans. 23 78

1. A stable ATPase complex with sensitivity to dicyclohexylcarbodiimide (TFo-F1) was purified from the membranes of the thermophilic aerobic bacterium PS3, by ion exchange chromatography in the presence of Triton X-100. 2. The ATPase of TFo-F1 was maximal at 70 degrees at pH 8.6 and was stable after monomerization in 4 M urea and 0.5% Triton X-100 at 25 degrees. The activity was dependent on Mg2+, Co2+, or Mn2+, and it became insensitive to dicyclohexylcarbodiimide when Ca2+ or Cd2+ was added instead. 3. TFo-F1 required P-lipids of this bacterium contained branched fatty acyl groups but no unsaturated groups and were stable against oxidation and heat. 4. Studies by electron microscopy, gel electrophoresis, and use of anti-ATPase antibody and [3H]acetyl-ATPase indicated that the TFo-F1 complex was composed of an ATPase moiety (TF1, five different subunits) and a hydrophobic moiety (TFo, three different subunits. TFo conferred TF1 with sensitivity to dicyclohexylcarbodiimide. 5. Vesicles catalyzing 32Pi-ATP exchange and ATP-driven enhancement of fluorescence of anilinonaphthalene sulfonate were reconstituted by dialyzing pure TFo-F1 and P-lipids together, and were active even at 50-75 degrees. The vesicles reconstituted from TFo-F1 and bacterial P-lipids were more stable than those reconstituted from TFo-F1 and soybean P-lipids.
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PMID:Purification and properties of a dicyclohexylcarbodiimide-sensitive adenosine triphosphatase from a thermophilic bacterium. 24 Aug 43


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