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 Ca2+-Mg2+-dependent adenosine triphosphatase activity of isolated skeletal muscle sarcoplasmic reticulum was studied in the presence of the lanthanide ion, Gd3+. This ion is a powerful inhibitor, producing half maximal effect at approximately 100 micronM Gd3+. Electron microscopy of the isolated vesicles incubated with 100 micron Gd3+ reveal that electron dense depositis of Gd3+ is taken up within the vesicle's interior. This visualization of Gd3+ is apparently dependent on two factors: (i) the presence of ATP, ADP being ineffective; (ii) sufficient time for most of the ATP to be hydrolysed. Since Gd3+ has about the same ionic radius as Ca2+, and since Ca2+ is normally transported across the sarcoplasmic reticulum membrane and accumulated within the vesicle, it is concluded that the increased charge density of the lanthanide ions is critical to the ion transport mechanism, resulting in their localization at the ATPase site and failure to be transported across the membrane.
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PMID:Lanthanide ions and skeletal muscle sarcoplasmic reticulm. I. Gadolinium localization by electron microscopy. 14 Aug 64

1. DL-8-Methyldihydrolipoate was shown to be a potent inhibitor of mitochondrial oxidative phosphorylation and ATP-driven energy-linked reactions. 2. ADP-stimulated respiration utilizing pyruvate + malate and succinate in both ox heart and rat liver mitochondria is inhibited; oxidative phosphorylation using pyruvate + malate, succinate and ascorbate + NNN'N'-tetramethyl-p-phenylenediamine as substrates is also inhibited; uncoupler-stimulated respiration is unaffected regardless of the substrate used. 3. Mitochondrial oligomycin-sensitive adenosine triphosphatase is inhibited in both the membrane-bound form and the purified detergent-dispersed preparation. 4. ATP-driven transhydrogenase and the ATP-driven energy-linked reduction of NAD+ by succinate in ox heart submitochondrial particles are inhibited, whereas the respiratory-chain-driven transhydrogenase is unaffected. 5. DL-8-Methyl-lipoate has no immediate effect on the above reactions, demonstrating the requirement for the reduced form for inhibition. 6. The inhibitory properties of DL-8-methyldihydrolipoate are analogous to those of oligomycin and provide further evidence of a role for lipoic acid in oxidative phosphorylation.
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PMID:Studies of energy-linked reactions. Inhibition of oxidative phosphorylation by DL-8-methyldihydrolipoate. 14 82

The association of adenosine triphosphatase and ADP/ATP isotope-exchange activities with chromaffin-granule membranes was shown by sucrose-density-gradient centrifugation. The two activities were solubilized, and separated by differential sedimentation.
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PMID:Adenosine triphosphatase and adenosine diphosphate/adenosine triphosphate isotope-exchange activities of the chromaffin-granule membrane. 14 21

1. Citreoviridin was a potent inhibitor of the soluble mitochondrial ATPase (adenosine triphosphatase) similar to the closely related aurovertins B and D. 2. Citreoviridin inhibited the following mitochondrial energy-linked reactions also: ADP-stimulated respiration in whole mitochondria from ox heart and rat liver; ATP-driven reduction of NAD+ by succinate; ATP-driven NAD transhydrogenase and ATPase from ox heart submitochondrial particles. 3. The dissociation constant (KD) calculated by a simple law-of-mass-action treatment for the citreoviridin--ATPase complex was 0.5--4.2micron for ox-heart mitochondrial preparations and 0.15micron for rat liver mitochondria. 4. Monoacetylation of citreoviridin decreased its inhibitory potency (KD=2--25micron, ox heart; KD=0.7micron, rat liver). Diacetylation greatly decreased the inhibitory potency (KD=60--215micron, ox heart). 5. Hydrogenation of citreoviridin monoacetate diminished its inhibitory potency considerably. 6. No significant enhancement of fluorescence was observed when citreoviridin interacted with the mitochondrial ATPase.
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PMID:Citreoviridin, a specific inhibitor of the mitochondiral adenosine triphosphatase. 14 74

A new mutant strain of Escherichia coli in which phosphorylation is uncoupled from electron transport was isolated. A genetic-complementation analysis, using partial diploid strains, showed that the new mutant allele, uncD409, is in a gene distinct from the other previously identified genes uncA, uncB and uncC. A strain carrying the uncd409 allele has no Mg2+ ion-stimulated adenosine triphosphatase activity and is therefore phenotypically similar to strains carrying the uncA401 mutant allele. Complementation between the uncA401 and the uncD409 alleles occurred, as indicated by growth of partial diploid strains on succinate and their growth yields on limiting concentrations of glucose. Complementation was confirmed by using membranes prepared from the above partial diploids. Such membranes were found to have Mg2+-stimulated adenosine triphosphatase activity, ATP-dependent transhydrogenase activity ADP-induced atebrin-fluorescence quenching and low but significant amounts of oxidative phosphorylation.
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PMID:Genetic complementation between two mutant unc alleles (unc A401 and unc D409) affecting the Fl portion of the magnesium ion-stimulated adenosine triphosphatase of Escherichia coli K12. 14 75

Vibrio succinogenes, an anaerobic bacterium, obtains its energy for growth from H2 or formate oxidation coupled to the reduction of fumarate to succinate. Membrane preparations have been obtained from this organism that catalyze the synthesis of ATP during H2 oxidation coupled to fumarate reduction. Esterification of orthophosphate is dependent on electron transfer, as evidenced by the requirement for both H2 and fumarate. Phosphorylation is also dependent on ADP and is destroyed by boiling the membrane preparations. H2 utilized for fumarate reduction and succinate formed are stoichiometric. The phosphorylation is markedly uncoupled by pentachlorophenol and gramicidin, but to a lesser extent by dinitrophenol and methyl viologen. 2-n-Heptyl-4-hydroxyquinoline-N-oxide causes severe inhibition of H2 oxidation as well as phosphorylation, but oligomycin or antimycin A has no demonstrable effect. Among several electron acceptors tested, significant phosphorylation is observed only with fumarate. A Mg2+-dependent adenosine triphosphatase activity is present in both the membrane and soluble protein fractions. Highest activity is obtained with ATP as the substrate, and considerably less activity is obtained with other nucleoside triphosphates. The possibility that phosphorylation during "fumarate respiration" may play an important physiological role in the growth of many anaerobic and facultatively anaerobic bacteria is discussed.
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PMID:Electron transport phosphorylation coupled to fumarate reduction by H2- and Mg2+-dependent adenosine triphosphatase activity in extracts of the rumen anaerobe Vibrio succinogenes. 14 14

1. The naturally occurring ATPase (adenosine triphosphatase)-inhibitor protein, from bovine heart mitochondria, was obtained as a single pure protein. It was not identical with any of the five subunits (alpha-epsilon) of the isolated ATPase, and appeared to be a single polypeptide chain. 2. The inhibitor combined with the ATPase in a 1:1 molar ratio, producing a completely inhibited ATPase molecule. The affinity of the ATPase for its inhibitor is high; the K(d) is of the order of 10(-8)m. 3. The enthalpy of the ATPase-inhibitor complex-formation is positive, the value of K(d) decreasing as the temperature is raised. This suggests that the forces involved are largely hydrophobic in nature. 4. Hydrolysis of a nucleoside triphosphate promoted formation of the ATPase-inhibitor complex, although the equilibrium position was almost unaffected by the rate of hydrolysis. At low salt concentration, less than 200 turnovers of the ATPase suffice for the ATPase to combine with the inhibitor protein. At higher salt concentrations, a larger number of turnovers is required. It is suggested that the inhibitor binds to a form of the ATPase that is produced transiently during hydrolysis. 5. In the presence of 75mm-K(2)SO(4), the rates of association and dissociation are slow enough to allow their kinetics to be studied. Association is first-order in inhibitor concentration, but fractional order in ATPase concentration. Dissociation is first-order in ATPase-inhibitor complex concentration. The temperature coefficients of the ;on' and ;off' processes were also measured. 6. A simple kinetic model for the ATPase-inhibitor interaction is proposed that can be extended to take into account release of inhibitor protein under energized conditions on the membrane. 7. The isolated ATPase is inhibited by preincubation with Mg(2+), reversible by subsequent addition of EDTA, and by ADP, reversible by subsequent addition of ATP. These effects are not found on the membrane-bound ATPase. The mechanism of these effects is discussed.
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PMID:A thermodynamic analysis of the interaction between the mitochondrial coupling adenosine triphosphatase and its naturally occurring inhibitor protein. 15 88

The steady state kinetics of ATP hydrolysis by partially purified adenosine triphosphatase preparations of sarcoplasmic reticulum was investigated at 0 degrees C and pH 7.0 in 2.0 mM MgCl2, 20 microM [gamma-32P]ATP, 20 microM CaCl2, and various concentrations of KCl in the presence and absence of 12% dimethyl sulfoxide. The steady state phosphoenzyme formed under these conditions could be resolved kinetically into ADP-sensitive and ADP-insensitive forms. These steady state kinetic data were analyzed according to a scheme in which the ADP-sensitive and ADP-insensitive phosphoenzymes occur sequentially, and Pi is derived from the latter. The KCl-dependent turnover rate of the ADP-insensitive phosphoenzyme that was estimated according to this scheme was in good agreement with the directly measured hydrolysis rate constant of the ADP-insensitive phosphoenzyme. In addition, the time course of the decomposition of the total amount of phosphoenzyme, measured after a steady state level was reached in 20 mM KCl and further phosphorylation was prevented by addition of excess ethylene glycol bis(beta-aminoethyl ether)N,N,N',N'-tetraacetic acid, was also in agreement with that calculated according to this scheme using values of the rate constants estimated from the amounts of the ADP-sensitive and ADP-insensitive phosphoenzymes and the rate of ATP hydrolysis. These results, together with our previous findings, support the view that this scheme describes the mechanism of ATP hydrolysis in the presence of KCl.
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PMID:On the mechanism of Ca2+-dependent adenosine triphosphatase of sarcoplasmic reticulum. Occurrence of two types of phosphoenzyme intermediates in the presence of KCl. 15 97

Mixed anhydrides of nucleoside triphosphates and mesitylenecarboxylic acid inhibit soluble mitochondrial ATPase (adenosine triphosphatase), but do not inhibit ATPase of submitochondrial particles. Inhibition of soluble mitochondrial ATPase by the mixed anhydride of epsilon-ATP and mesitylenecarboxylic acid is followed by the covalent binding of one nucleotide residue to a molecule of the protein. It is suggested that this covalent binding occurs in the catalytic site of the mitochondrial ATPase. The mixed anhydride of ADP and mesitylenecarboxylic acid inhibits the ATPase activity of submitochondrial particles and has no effect on the activity of soluble mitochondrial ATPase. After separation of the submitochondrial particles from the mixed anhydride of ADP and mesitylenecarboxylic acid, their ATPase activity is restored to its original value (half-time of reactivation 3--4 min). Incubation of submitochondrial particles or soluble mitochondrial ATPase with the mixed anhydride of ADP and mesitylenecarboxylic acid results in AMP formation.
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PMID:Mixed anhydrides of nucleotides and mesitylenecarboxylic acid as new specific inhibitors of mitochondrial adenosien triphosphatase. 15 22

A plasma-membrane fraction was isolated from a post-nuclear extract of human neutrophils by centrifugation through a linear sucrose density gradient. This fraction exhibited a Ca2+-dependent adenosine triphosphatase (ATPase) activity that could be differentiated from mitochondrial or myosin ATPase and from plasma-membrane Mg2+-dependent ATPase. When assayed in the presence of [gamma-32P]ATP, the Ca2+-dependent ATPase reaction resulted in the formation of an acid-resistant hydroxylamine-sensitive bond between the gamma-[32P] phosphate group and a membrane protein subunit with an apparent mol.wt. of 135000. Half-maximal activating effect of Ca2+ was found at 82nM and 0.18 microM for the ATPase and the formation of the 32P-membrane complex respectively. Generation of the phosphorylated product attained the steady state at 0 degrees C by about 30s, and was rapidly reversed by ADP. These results suggest that the Ca2+-activated ATPase reaction occurs through the formation of a phosphoprotein intermediate, similar to that described for some Ca2+-dependent ATPase enzymes associated with Ca2+ transport. The possibility thus exists that the neutrophil Ca2+-dependent ATPase catalyses a process of Ca2+ extrusion from the cell, thereby participating in the regulation of several Ca2+-dependent neutrophil functions.
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PMID:Calcium ion-dependent adenosine triphosphatase activity and plasma-membrane phosphorylation in the human neutrophil. 16 Feb 22


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