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)

Treatment with cadmium chloride (40mg/kg body wt/day) for three days led to a marked inhibition of Mg2(+)-ATPase activity in rat liver nuclear membrane, whereas it stimulated the enzyme in renal nuclear membrane. On 30 days treatment (15 mg/kg body wt/day) the effect was totally different i.e. stimulation of enzyme activity in the liver and inhibition in the kidney tissue. Arrhenius plot analysis of the enzyme activity showed significant increase in phase transition temperature only in liver tissue of rats subjected to acute treatment. Lineweaver Burk plots also showed differential effect of cadmium toxicity on the enzyme activity, i.e. while both Km and Vmax were changed in the liver, there was change only in Km of enzyme from kidney.
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PMID:Differential response of cadmium toxicity towards Mg2(+)-ATPase activity in hepatic and renal nuclear membrane in rats. 214 49

Reversal of the cycle of sarcoplasmic reticulum ATPase starts from ATPase phosphorylation by Pi, in the presence of Mg2+, and leads to ATP synthesis. We show here that ATP can also be synthesized when Ca2+ replaces Mg2+. In the absence of a calcium gradient and in the presence of dimethyl sulfoxide, ATPase phosphorylation from Pi and Ca2+ led to the formation of an unstable phosphoenzyme. This instability was due to a competition between the phosphorylation reaction induced by Pi and Ca2+ and the transition induced by Ca2+ binding to the transport sites, which led to a conformation that could not be phosphorylated from Pi. Dimethyl sulfoxide and low temperature stabilized the calcium phosphoenzyme, which under appropriate conditions, subsequently reacted with ADP to synthesize ATP. Substitution of Co2+, Mn2+, Cd2+, or Ni2+ for Mg2+ induced ATPase phosphorylation from Pi, giving phosphoenzymes of various stabilities. However, substitution of Ba2+, Sr2+, or Cr3+ produced no detectable phosphoenzymes, under the same experimental conditions. Our results show that ATPase phosphorylation from Pi, like its phosphorylation from ATP, does not have a strict specificity for magnesium.
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PMID:Reversal of the sarcoplasmic reticulum ATPase cycle by substituting various cations for magnesium. Phosphorylation and ATP synthesis when Ca2+ replaces Mg2+. 214 62

Certain heavy metal actions such as Cd2+ and Pb2+ mimic Ca2+ effectively in stimulating calmodulin (CaM). We now show that these cations also activate skeletal muscle troponin C (TnC), a Ca2(+)-binding protein highly homologous to CaM. Like Ca2+, these cations allow TnC to alter its electrophoretic mobility on polyacrylamide gels, and to bind to phenyl-Sepharose. Moreover, they activate TnC to stimulate myofibrillar ATPase. When TnC was removed from the skeletal myofibrils by treatment with trans-1,2-cyclohexanediamine-N,N,N',N'-tetraacetic acid (CDTA), the ATPase activity was no longer stimulated by the cations. However, after reconstitution of CDTA-treated skeletal myofibril with TnC, the response of ATPase to Ca2+, Cd2+ or Pb2+ was restored. These findings suggest that the activation of myofibrillar ATPase by Cd2+ and Pb2+ is mediated through TnC. The ability of the heavy metals to stimulate TnC-supported ATPase activity correlated quite well with the ability to increase the extent of the myofibrillar superprecipitation. The activation of TnC by Cd2+ or Pb2+ could constitute a possible molecular basis for their toxicity.
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PMID:Activation of troponin C by Cd2+ and Pb2+. 214 67

A (H+ + K+)-ATPase-enriched membrane fraction derived from the fundic portion of hog gastric mucosa was obtained by a combination of differential and repeated 7% Ficoll gradient centrifugation. The microsomal membrane fraction isolated by repeated 7% Ficoll gradient centrifugation was free of ouabain-sensitive (Na+ + K+)-ATPase, 5'-nucleotidase and succinate dehydrogenase; and it was highly enriched in (H+ + K+)-ATPase and K(+)-stimulated p-nitrophenylphosphatase (p-NPPase). The (H+ + K+)-ATPase had a pH optimum of 7.4 and was stimulated by Tl+, K+, Rb+ and NH4+ with Ka values of 0.0667, 0.526, 0.667 and 3.03 mM, respectively, at this pH. On the other hand, monovalent cations such as Na+, Li+ and (CH3)4N+ as well as divalent cations such as Cu2+, Ca2+, Ba2+, Sr2+ and Cd2+ inhibited this enzyme activity concentration-dependently. Ouabain and oligomycin had no effect, whereas omeprazole, a specific (H+ + K+)-ATPase inhibitor, inhibited this enzyme activity in a pH-dependent manner. Sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis showed a major band (greater than or equal to 90% of protein) at 97,400 daltons, which was phosphorylated in the presence of Mg2+ and [gamma-32P]-ATP and dephosphorylated in the presence of K+. The present method was very simple, and the (H+ + K+)-ATPase activity of the microsomal fraction obtained by this method was much higher compared with those obtained by other methods such as free-flow electrophoresis.
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PMID:Purification and characterization of (H+ + K+)-ATPase from hog gastric mucosa. 215 97

The chronic effects of cadmium on specific activities of oligomycin-sensitive (OS) and -insensitive Mg2+ ATPase, Na(+)-K+ ATPase, lipid peroxidation, and uptake of catecholamines in brain synaptosomes of rats treated daily for 2 or 4 months were studied. Cadmium significantly decreased the specific activities of OS-Mg2+ ATPase, Na(+)-K+ ATPase, and uptake of [3H]-dopamine (3H-DA) and [3H]norepinephrine (3H-NE) and increased the lipid peroxidation.
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PMID:Effects of chronic treatment with cadmium on ATPases, uptake of catecholamines, and lipid peroxidation in rat brain synaptosomes. 217 95

In cardiac muscle isolated from most mammalian species, an elevation of extracellular K+ concentration decreases developed tension. This is explained from stimulation of the Na pump. In rat myocardium, however, developed tension increased when K+ concentration was raised from 3.5 to 9.5 mM, seemingly inconsistent with the above explanation. Activation of isolated Na+,K+-adenosinetriphosphatase by K+ was not different in rat and guinea pig heart. The K+-induced increase in developed tension observed in left atrial muscle preparations obtained from rat heart was not blocked by phentolamine and propranolol or by reserpine pretreatment but attenuated by stimulation at higher frequency, incubation at a lower temperature, or by veratridine, all of which have been shown to increase Na+ loading of myocardial cells. K+ slightly prolonged action potential duration and partially depolarized resting membrane potential; however, K+-induced changes in electrophysiological parameters or possible inactivation of early outward current observed in myocytes isolated from rat heart are unlikely to be the primary cause of the positive inotropic effect. Caffeine or Cd2+ eliminated the inotropic effect of K+ but ryanodine was ineffective. An increase in extracellular K+ from 1 to 3.5 mM decreased developed tension. These results indicate that K+ has dual effects on developed tension in rat myocardium: a negative inotropic effect resulting from Na pump stimulation and a positive inotropic effect. The latter effect is due to a process that is either unique or more strongly expressed in the rat myocardium and masks the former effect in the range of physiological K+ concentrations.
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PMID:Paradoxical positive inotropic effect of K+ in the rat heart. 243 7

Divalent cations are divided into two groups in relation to their ability to promote ATP synthase catalyzed reactions. In the presence of Mg2+, the following pattern rules: (i) uncoupler-stimulated ATP hydrolysis of Rhodospirillum rubrum chromatophores which shows an optimum concentration of the divalent cation; (ii) ATP-induced proton pumping in chromatophores; (iii) light-induced ATP synthesis in chromatophores; (iv) no or very low ATPase activity of purified F1-ATPase unmasked by diethylstilbestrol or n-octyl beta-D-glucopyranoside. In the presence of Ca2+, the following pattern occurs: (i) no stimulation of the ATP hydrolysis in chromatophores by carbonyl cyanide p-(trifluoromethoxy)phenylhydrazone; (ii) no ATP-induced proton pumping; (iii) no light-induced ATP synthesis; (iv) a high ATPase activity of the purified F1-ATPase which is inhibited by diethylstilbestrol and n-octyl beta-D-glucopyranoside. Co2+, Mn2+, and Zn2+ are members of the "Mg2+-group", whereas Cd2+ is suggested to fall between the two groups. Intrinsic uncoupling of the membrane-bound ATP synthase has been suggested to account for the effect caused by Ca2+ in chloroplasts [Pick, U., & Weiss, M. (1988) Eur. J. Biochem. 173, 623-628]. Such an interpretation is consistent with our results on chromatophores. The uncoupling cannot occur at the level of the membrane since neither light-induced nor Mg-ATP-induced proton pumping is affected by Ca2+. A conformational change is suggested to be the reason for this intrinsic uncoupling, and it is proposed to be controlled by the diameters of the divalent cations (Ca2+ greater than Cd2+ greater than Mn2+ greater than Co2+ greater than Zn2+ greater than Mg2+).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Division of divalent cations into two groups in relation to their effect on the coupling of the F0F1-ATPase of Rhodospirillum rubrum to the protonmotive force. 248 79

Bacterial plasmids have genes that confer highly specific resistances to As, Bi, Cd, Cu, Cr, Hg, Pb, Te, Zn, and other toxic heavy metals. For each toxic cation or anion, generally a different resistance system exists, and these systems may be "linked" together on multiple resistance plasmids. For Cd2+, AsO2-, AsO4(3)-, Hg2+, and organomercurials, DNA sequence analysis has supplemented direct physiological and biochemical experiments to produce sophisticated understanding. The cadA ATPase of S. aureus plasmids is a 727 amino acid membrane ATPase that pumps Cd2+ from the cells as rapidly as it is accumulated. This polypeptide is related by sequence to other cation translocating ATPases, including the membrane K+ ATPases of Escherichia coli and Streptococcus faecalis, the H+ ATPases of yeast and Neurospora, the Na+/K+ ATPases of vertebrate animals, and the Ca2+ ATPases of rabbit muscle. The conserved residues include the aspartyl residue that is phosphorylated, the lysine involved in ATP binding, and the proline within a membrane translocating region. The arsenate and arsenite translocating ATPase consists of 3 polypeptides (from DNA sequence analysis), including a recognizable ATP binding protein (arsA), an integral membrane protein (arsB gene), and a substrate specificity subunit (arsC gene). Inorganic mercury and organomercurial degradation is carried out by a series of about 6 polypeptides, including 2 soluble intracellular enzymes (organomercurial lyase and mercuric reductase). The latter is related by sequence and function to glutathione reductase and lipoamide dehydrogenase of prokaryotes and eukaryotes. These enzymes are dimeric, FAD-containing, NAD(P)H-dependent oxidoreductases. Other recognizable polypeptides in the mer system include a DNA-binding regulatory protein from the merR gene and a Hg2+ transport system consisting of a periplasmic Hg2(+)-binding protein (merP gene) and a membrane protein (merT gene) in gram negative systems.
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PMID:DNA sequence analysis of bacterial toxic heavy metal resistances. 248 81

Intermolt adult crayfish P. clarkii were used for this work. After acclimatization to laboratory conditions crayfish were exposed to sublethal concentrations of cadmium, mercury, and lead for 96 h. Gills of control and exposed crayfish were removed and ATPase activity and oxygen uptake rate were determined. Structural damage of gill filaments was also observed. Gill tissue respiration rates were measured for individual crayfish using a Gilson differential respirometer. Lead causes a decrease of gill oxygen uptake, but neither cadmium nor mercury seems to affect it at the concentrations employed. Although all metals studied alter gill filament structure, lead damage is the most apparent. In the same way, significant differences in gill ATPase activity owing to metal exposure were only observed in lead treated crayfish.
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PMID:Cadmium, mercury, and lead effects on gill tissue of freshwater crayfish Procambarus clarkii (Girard). 248 11

The F1 moiety of the rat liver mitochondrial ATP synthase/ATPase complex contains as isolated 2 mol Mg2+/mol F1, 1 mol of which is nonexchangeable and the other which is exchangeable (N. Williams, J. Hullihen, and P.L. Pedersen, (1987) Biochemistry 26, 162-169). In addition, the enzyme binds 1 mol ADP/mol F1 and 3 mol AMP.PNP, the latter of which can bind in complex formation with divalent cation and displace the Mg2+ at the exchangeable site. Thus, in terms of ligand binding sites the fully loaded rat liver F1 complex contains 3 mol MgAMP.PNP, 1 mol ADP, and 1 mol Mg2+. In this study we have used several metal ATP complexes or analogs thereof to gain further insight into the ligand binding domains of rat liver F1 and the mechanism by which it catalyzes ATP hydrolysis in soluble and membrane bound form. Studies with LaATP confirmed that MgATP is the most likely substrate for rat liver F1, and provided evidence that the enzyme may contain additional Mg2+ binding sites, undetected in previous studies of F1-ATPases, that are required for catalytic activity. Thus, F1 containing the thermodynamically stable LaATP complex in place of MgATP requires added Mg2+ to induce ATP hydrolysis. As Mg2+ cannot readily displace La2+ under these conditions there appears to be a catalytically important class of Mg2+ binding sites on rat liver F1, distinct from the nonexchangeable Mg2+ site and the sites involved in binding MgATP. Additional studies carried out with exchange inert metal-nucleotide complexes involving rhodium and the Mg2+ and Cd2+ complexes of ATP beta S and ATP alpha S imply that the rate-limiting step in the ATPase reaction pathway occurs subsequent to the P gamma-O-P beta bond cleavage steps, perhaps at the level of Mg(ADP)(Pi) hydrolysis or MgADP release. Evidence is presented that Mg2+ remains coordinated to the leaving group of the reaction, i.e., the beta phosphoryl group. Finally, in contrast to soluble F1, F1 bound to F0 in the inner mitochondrial membrane failed to discriminate between the Mg2+ complexes of the ATP beta S isomers. This indicates that a fundamental difference may exist between the catalytic or kinetic mechanism of F1 and the more physiologically intact F0F1 complex.
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PMID:Investigation of the substrate structure and metal cofactor requirements of the rat liver mitochondrial ATP synthase/ATPase complex. 252 40

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