EC:3.6.3.14 - FACTA Search

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Query: EC:3.6.3.14 (ATP synthase)
7,042 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of sodium salicylate (SS), phenazone (Ph) and aminophenazone (APh) on mitochondrial respiration respiration and oxidative phosphorylation were studied in vitro, SS inhibited state 3 but stimulated state 4 of respiration, if alpha-ketoglutarate and succinate were used as the substrates. The inhibition of state 3 of respiration was not reversed by 2,4-dinitrophenol (DNP). Ph and APh inhibited the respiratory state 3 without affecting the state 4 in the presence of the same substrates, and the produced inhibition in state 3 was reversible by DNP. Studies on ATP synthesis have revealed that SS was the only antypyretic tested that exerted an uncoupling action. SS stimulated the mitochondrial ATPase activity but inhibited it after uncoupling of oxidative phosphorylation with DNP. The mitochondrial ATPase activity remained uninfluenced by Ph or APh. The only similar action of all the drugs investigated was the inhibition of oxidation in the respiratory state 3.
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PMID:The effects of antipyretics on metabolism processes in rat liver mitochondria. Part I. The action of sodium salicylate, and pyrazolones on the reaction of respiratory chain. 0 75

(1) The mitochondrial ATPase (EC 3.6.1.3) Ehrlich ascites cell mitochondria, was inhibited by D-glucose under physiological concentrations of ATP. The generation of ADP by the mitochondrial bound hexokinase, seems to be the reason for the D-glucose inhibitory effect. Reversal of the inhibitory effect of ADP on Ehrlich ascites cell mitochondria ATPase by an ATP-regenerating system was achieved. (2) Dissociation of mitochondrial bound hexokinase from the mitochondria eliminated the inhibitory effect of D-glucose. Rebinding of the hexokinase to the mitochondria regenerated the D-glucose inhibitory effect on Ehrlich ascites cell mitochondria ATPase. (3) Bioflavonoids such as quercetin inhibit the mitochondrial hexokinase activity, but do not change the mitochondrial ATPase activity of isolated Ehrlich ascites tumor cell mitochondria. (4) The inhibitory effect of bioflavonoids on mitochondrial bound hexokinase activity is shown to be dissociable from the ascites tumor cell mitochondria and seems to be associated with regulatory rather than catalitic sites of the enzyme.
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PMID:Bioflavonoid regulation of ATPase and hexokinase activity in Ehrlich ascites cell mitochondria. 1 95

Beef heart mitochondrial ATPase (F1) exhibited a single binding site for Pi. The interaction with Pi was reversible, partially dependent on the presence of divalent metal ions, and characterized by a dissociation constant at pH 7.5 of 80 micronM. A variety of substances known to influence oxidative phosphorylation or the activity of the soluble ATPase (F1) also influenced Pi binding by the enzyme. Thus aurovertin, an inhibitor of oxidative phosphorylation, which was bound tightly by F1 and inhibited ATPase activity, enhanced Pi binding via a 4-fold increase in the affinity of the enzyme for Pi (KD = 20 micronM) but did not alter binding stoichiometry. Anions such as SO4(2-), SO3(2-), chromate, and 2,4-dinitrophenolate, which stimulated ATPase activity of F1, also enhanced Pi binding. Inhibitors of ATPase activity such as nickel/bathophenanthroline and the protein ATPase inhibitor of Pullman and Monroy (Pullman, M. E., and Monroy, G. C. (1963) J. Biol. Chem. 238, 3762-3769) inhibited Pi binding. The adenine nucleotides ADP, ATP, and the ATP analog adenylyl imidodiphosphate as well as the Pi analog arsenate, also inhibited Pi binding. The observations suggest that the Pi binding site was located in or near an adenine nucleotide binding site on the molecule.
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PMID:Reversible binding of Pi by beef heart mitochondrial adenosine triphosphatase. 1 6

We have compared the adenosine triphosphatase (ATPase) activity of mitochondria prepared from wild-type Neurospora crassa and from poky, a maternally inherited mutant known to possess defective mitochondrial ribosomes and reduced amounts of cytochromes aa3 and b. poky contains two distinct forms of mitochondrial ATPase. The first is normal in its Km for ATP, specificity for nucleotides and divalent cations, pH optimum, cold stability, and sensitivity to inhibitors (oligomycin, N,N-dicyclohexyl carbodiimide, and adenylyl imidodiphosphate). The fact that membrane-bound, cold-stable, oligomycin-sensitive ATPase activity is present in poky (with an activity of 1.93 +/- 0.03 mumol/min-mg of protein compared with 1.33 +/- 0.07 mumol/min-mg of protein in the wild-type strain) and also in chloramphenicol-grown wild-type cells suggests that products of mitochondrial protein synthesis play only a limited role in the attachment of the mitochondrial ATPase to the membrane in Neurospora. poky also contains a second form of mitochondrial ATPase, which has an activity of 1.5 +/- 0.2 mumol/min-mg of protein, is oligomycin sensitive but cold labile, and presumably is attached less firmly to the mitochondrial membrane. The two forms, added together, represent a substantial overproduction of mitochondrial ATPase by poky.
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PMID:Mitochondrial adenosine triphosphatase of wild-type and poky Neurospora crassa. 2 38

Effects of various compounds on Mg-dependent ATPase activity of chloroplast coupling factor--CF1--were studied. It was shown that the stimulating effect of compounds is increased with the increase in their hydrophobicity. Under given experimental conditions all compounds under study readily accept and donate protons. The maximal efficiency is reached when pH of the medium is close to the pK value of conjugated acid. It is assumed that the stimulating effects of compounds on Mg-dependent chloroplast ATPase consist in the increase of the rate of the limiting step of enzyme induced proton translocation coupled to the catalytic step of ATP hydrolysis.
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PMID:[Stimulation mechanism of soluble ATPase from chloroplasts (CF1)]. 2 72

5-Hydroxy-1,2-naphthalenedicarboxylic anhydride is closely related to its precursor dibasic acid which is a metabolite of the carcinogenic polynuclear hydrocarbon dibenz[a,h]anthracene. The anhydride inhibited respiration of coupled mitochondria. This inhibition was relieved by 2,4-dinitrophenol. Several mitochondrial volume change processes energized by ATP were also inhibited by the anhydride. Both the mitochondrial ATPase activity induced by 2,4-dinitrophenol and the ATPase activity of submitochondrial particles induced by magnesium ion were inhibited by the anhydride. The spectrum of inhibitory activity was not associated with acetic anhydride, succinic anhydride, or phthalic anhydride. The data indicate that 5-hydroxy-1,2-naphthalenedicarboxylic anhydride inhibits the machinery of oxidative phosphorylation in a manner similar to rutamycin. 5-Hydroxy-1,2-naphthalenedicarboxylic anhydride is the first molecule derived from a carcinogen with such inhibitory properties.
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PMID:A new inhibitor of coupled oxidative phosphorylation, 5-hydroxynaphthalenedicarboxylic anhydride, a derivative of a carcinogenic polynuclear hydrocarbon. 5 70

The lipid-free particulate preparations of the mitochondrial ATPase require phospholipid for activity and can be inhibited by oligomycin, as has been demonstrated previously. In this communication a steady state analysis of the activation of a particulate preparation of the ATPase by phospholipids and its subsequent inhibition by oligomycin has been carried out. The relative affinity of the ATPase for purified phospholipids has been determined by measuring the Km for activation (Ka) for several phospholipids. The Ka values varied from 30 to 100 mum. The Vmax in the presence of phosphatides varies from 0.29 to 1.11 mumol ATP hydrolyzed/min/mg of protein; no correlation is noted between the relative affinity of the enzyme for a phospholipid and the V max value. Higher V max values are noted with the more acidic phospholipids, however. Sodium dodecyl sulfate and monoolein also activate with Ka values of 25 and 800 mum, respectively. Diglycerides, however, do not activate. With all lipids the ATPase activity stimulated is oligomycin-sensitive. The Ki values for oligomycin range from 0.1 to 0.6 mum. Oligomycin is a competitive inhibitor with respect to all the phospholipids tested except phosphatidylethanolamine and phosphatidyglycerol. It is also competitive with respect to sodium dodecyl sulfate (k-i equals 0.94 mum). In reciprocal plots of activity versus ATP concentration, with and without oligomycin, an intercept consistent with either mixed or partial noncompetitive inhibition kinetics is noted. Comparable K-i values for oligomycin are obtained when calculated assuming either mixed or partial noncompetitive inhibition. The Km for ATP is the same in the unactivated and the lipid activated particulate ATPase; the value obtained is slightly lower than the Km for ATP in the solubilized, purified ATPase. Using a spectrophotometric assay the time required for activation with phospholipid and inhibition with oligomycin has also been determined. This investigation suggests the possibility that activation of the ATPase is due a position to interact with the water-soluble substrate. Consistent with the above suggestion is the supposition that the lipids do not necessarily confer inhibitor sensitivity to the ATPase, but rather allow an oligomycin-sensitive activity to be expressed.
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PMID:The relationship between the bovine heart mitochondrial adenosine triphosphatase, lipophilic compounds, and oligomycin. 12 47

1. The bound nucleotides of the beef-heart mitochondrial ATPase (F1) are lost during cold inactivation followed by (NH4)2SO4 precipitation. The release of tightly bound ATP parallels the loss of ATPase activity during this process. 2. During cold inactivation, the sedimentation coefficient (s20, w) of the ATPase first declines from 12.1 S to 9 S, then to 3.5 S. (NH4)2SO4 precipitation of the 9-S component also leads to dissociation into subunits with s20, w of 3.5 S. 3. The 9-S component still contains the bound nucleotides, which are removed when it dissociated into smaller subunits. 4. Reactivation of cold-inactivated ATPase by incubation at 30 degrees C is increased by the presence of 25% glycerol. ATP, however, does not have any clearcut effect on the degree of reactivation in the presence of glycerol. 5. ADP is an inhibitor of the reactivation, probably because it exchanges during reactivation for bound ATP giving rise to an inactive 12-S component. 6. The exchange of tightly bound nucleotides with added adenine nucleotides is more extensive and faster with cold-inactivated ATPase than with the native enzyme. During reactivation up to 1.6 moles of ATP and 1.0 mole ADP can exchange per mole enzyme. 7. Incubation with GTP, CTP or inorganic pyrophosphate induces an increased activity of the ATPase, which, however, soon declines in the presence of ATP. It also disappears on precipitation of GTP-treated enzyme with (NH4)2SO4.
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PMID:Nucleotide-binding properties of native and cold-treated mitochondrial ATPase. 12 64

1. The effects of phosphate and electron transport on the ATPase induced in rat-liver mitochondria by the uncoupler carbonyl cyanide m-chlorophenylhydrazone have been measured at different uncoupler concentrations and compared with those of ATP, oligomycin and aurovertin. 2. The inhibitory action of respiratory-chain inhibitors on the ATPase activity, which is independent of the actual inhibitor used, is greatly delayed or prevented by the presence of uncoupler, and, in the case of rotenone, can be reversed completely by the subsequent addition of succinate (in the absence of uncoupler). These results can be explained on the basis of the proposal previously made by others that coupled electron transfer causes a structural change in the ATPase complex that results in a decreased affinity of the ATPase inhibitor for the mitochondrial ATPase. 3. Inorganic phosphate specifically stimulates the ATPase activity at high uncoupler concentrations (greater than 0.2 muM), but has no effect at low concentrations. The stimulation is prevented or abolished by sufficiently high concentrations of aurovertin. 4. Aurovertin prevents the inhibition of the uncoupler-induced ATPase by high uncoupler concentrations. 5. It is proposed that the steady-state concentration of endogenous P-i may be an important regulator of the turnover of the ATPase in intact mitochondria and that the inhibition of ATPase activity by high concentrations of uncoupler is at least partially mediated via changes in the concentration of endogenous P-i.
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PMID:The effects of phosphate and electron transport on the carbonyl cyanide m-chlorophenylhydrazone-induced ATPase of rat-liver mitochondria. 12 70

Investigations have been made of the kinetic effects of the antibiotic aurovertin on the ATPase and ITPase activity of isolated rat liver mitochondrial ATPase. Unusual patterns of inhibition, decreasing slope, and increasing y-intercept values of double reciprocal plots, were observed with Mg-ATP as the substrate under various conditions. Under specified conditions, aurovertin stimulated hydrolysis of MgATP. The inhibition of MgITP hydrolysis was uncompetitive. Aurovertin eliminated the HCO3-minus stimulation of MgATP hydrolysis. The implications of these findings for the mechanism of mitochondrial ATPase are briefly discussed.
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PMID:Influence of aurovertin on mitochondrial ATPase activity. 12 77

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