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)

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

Bicarbonate stimulation of hepatic mitochondrial ATPase activity decreased in rats subjected to intense physical training and reached minimum values at the end of the third week. The stimulatory effect of bicarbonate on mitochondrial heart ATPase remained unaffected under equal conditions. ATPase stimulation by dinitrophenol and sensitivity to oligomycin, both in mitochondria from rat liver or heart, were not affected by physical training. Results suggest that stimulation by dinitrophenol and bicarbonate might be due to effects on separate sites of the enzyme.
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PMID:Bicarbonate stimulation of mitochondrial ATPase. Effect of physical training. 14 Apr 43

Treatment of either beef heart or rat liver mitochondrial ATPase with the arginine reagent, 2,3-butanedione, resulted in enzyme inactivation. The reaction followed pseudo-first order kinetics until 90 to 95% of the enzyme had been inactivated, and prolonged incubation with butanedione resulted in complete inactivation. When the modification reaction was performed in the presence of ATP, the rate of inactivation was significantly decreased. The kinetics of inactivation indicates that the reaction of 1 molecule of reagent per active site of beef heart mitochondrial ATPase is necessary for inactivation. The loss of ATPase activity was also observed when submitochondrial particles were treated with butanedione. Studies with beef heart mitochondrial ATPase indicated that the inactivation was not due to enzyme dissociation into subunits. Kinetic studies with partially inactivated enzyme demonstrated that the Km values of ITP and of ATP in the presence of HCO3-were similar to the same constants for the control enzyme. When ATP was used as the substrate in the absence of anion activator, the partially inactivated enzyme still exhibited negative cooperativity. Inactivation was also observed when beef heart mitochondrial ATPase was treated with another arginine reagent, phenylglyoxal. The loss of ATPase activity was analyzed in terms of [14C]phenylglyoxal incorporation. From the present studies it is concluded that arginyl residues play an essential role in mitochondrial ATPase, probably at the hydrolytic site.
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PMID:Essential arginyl residues in mitochondrial adenosine triphosphatase. 17 62

We report the finding of mitochondrial ATP-synthase deficiency in a child with persistent 3-methylglutaconic aciduria. The child presented in the neonatal period with severe lactic acidosis, which was controlled by Na-HCO3 and glucose infusions. During the 1st y of life, there were several episodes of lactic acidosis precipitated by infections or prolonged intervals between meals. The excretion of lactate in urine was variable, but there was a persistent high excretion of 3-methylglutaconic acid. The activity of 3-methylglutaconyl-CoA hydratase in fibroblasts was normal. The child had a hypertrophic cardiomyopathy and magnetic resonance images revealed hypoplasia of corpus callosum. The gross motor and mental development was retarded, but there were no other neurologic signs. Investigation of muscle mitochondrial function at 1 y of age revealed a severe mitochondrial ATP-synthase deficiency (oligomycin-sensitive, dinitrophenol-stimulated Mg2+ ATPase activity: 27 nmol x min-1 x (mg protein)-1, control range 223-673 nmol x min-1 x (mg protein)-1. The mitochondrial respiratory rate was low and tightly coupled. The respiratory rate was normalized by the addition of an uncoupler. Low Mg2+ ATPase activity was also demonstrated by histochemical methods. Morphologic examination revealed ultrastructural abnormalities of mitochondria. There was no deletion of mitochondrial DNA. The sequences of the ATP synthase subunit genes of mitochondrial DNA were in accordance with published normal sequences.
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PMID:Mitochondrial ATP-synthase deficiency in a child with 3-methylglutaconic aciduria. 128 64

This study examined the inhibition of azide as a probe of the magnesium regulation of beef heart mitochondrial ATPase (F1) catalysis. Azide elicited a slow hysteretic effect on both ATP and ITP hydrolysis of F1. This hysteretic effect was shown to be due to the consecutive binding of magnesium and azide, and to be independent of catalytic turnover. The azide binding site was also shown to be separate from the anion binding HCO3- site on F1. The results presented indicate that metal binding is important in the inhibition of the hydrolytic activity and regulation of F1. A model is presented which is consistent with the hysteretic inhibition of F1 by azide, in which there is a slow equilibration between free enzyme and the enzyme-magnesium-azide complex.
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PMID:Interaction of azide with beef heart mitochondrial ATPase. 285 51

The native tonoplast and the mitochondrial H+-ATPase from oat roots were compared to determine whether the two enzymes have similar mechanisms. H+ pumping in low-density microsomal vesicles reflected activity from the tonoplast-type ATPase, as ATPase activity and ATP-dependent H+ pumping (quinacrine fluorescence quenching) showed similar sensitivities to inhibition by N-ethylmaleimide, N,N'-dicyclohexylcarbodiimide, 4,4'-diisothiocyano-2,2'-stilbene disulfonate, nitrate, quercetin, or 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole. The tonoplast-type ATPase was stimulated by C1-,Br- greater than HCO3- whereas the mitochondrial ATPase was stimulated by HCO3- much greater than C1-,Br-. Both enzymes hydrolyzed ATP preferentially and were inhibited competitively by AMP or ADP. Apart from resistance to azide, the tonoplast-type ATPase was strikingly similar in its inhibitor sensitivities to the mitochondrial ATPase. The insensitivity to vanadate of both enzymes suggests the reaction mechanisms do not involve a covalent phosphoenzyme. Inhibition by 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole and N-ethylmaleimide and protection by ATP suggests tyrosine and cysteine residues are in the catalytic site of the tonoplast ATPase. The mitochondrial ATPase was 100 times more sensitive to N,N'-dicyclohexyl-carbodiimide inhibition than the tonoplast H+-ATPase. These results suggest the tonoplast and the mitochondrial H+-ATPases share common steps in their catalytic and vectorial reaction mechanisms, yet sufficient differences exist to indicate they are two distinct ATPases.
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PMID:Similarities and differences between the tonoplast-type and the mitochondrial H+-ATPases of oat roots. 286 67

Lysosomal H+-translocating ATPase (H+-ATPase) was solubilized with lysophosphatidylcholine and reconstituted into liposomes (Moriyama, Y., Takano, T. and Ohkuma, S. (1984) J. Biochem. (Tokyo) 96, 927-930). In this study, the sensitivities of membrane-bound, solubilized and liposome-incorporated ATPase to various anions and drugs were measured in comparison with those of similar forms of mitochondrial H+-ATPase (mitochondrial F0F1-ATPase) with the following results. (1) Bicarbonate and sulfite activated solubilized lysosomal H+-ATPase, but not the membrane-bound ATPase or ATPase incorporated into liposomes. All three forms of mitochondrial F0F1-ATPase were activated by these anions. (2) All three forms of both lysosomal H+-ATPase and mitochondrial F0F1-ATPase were strongly inhibited by SCN-, NO3- and F-, but scarcely affected by Cl-, Br- and SO2-4. (3) The solubilized lysosomal H+-ATPase was strongly inhibited by azide, quercetin, 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole (NBD-Cl), 4-acetamido-4'-isothiocyanatostilbene-2,2'-disulfonic acid (SITS), 4,4'-diisothiocyanatostilbene-2,2'-disulfonic acid (DIDS) and oligomycin. Its sensitivity was almost the same as that of mitochondrial F0F1-ATPase. Neither membrane-bound ATPase nor ATPase incorporated into liposomes was affected appreciably by these drugs. These results indicate that the sensitivity to anions and drugs of lysosomal H+-ATPase depends on the form of the enzyme and that the sensitivity of the solubilized lysosomal H+-ATPase is very similar to that of mitochondrial F0F1-ATPase. On the other hand, the two ATPases differ in their sensitivity to N-ethylmaleimide and pyridoxal phosphate: only the mitochondrial ATPase is inhibited by pyridoxal phosphate whereas only the lysosomal ATPase is inhibited by N-ethylmaleimide.
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PMID:Similarity of lysosomal H+-ATPase to mitochondrial F0F1-ATPase in sensitivity to anions and drugs as revealed by solubilization and reconstitution. 286 82

1. ATPase natural inhibitor interacted in a mixed non-competitive manner with compounds affecting hydrolytic activity. 2. Ka's for DNP, HCO3- and free ATP, and Ki's for SCN- and ADP became smaller as inhibitor peptide concentration increased, reflecting an increase in affinity of F1-ATPase for these compounds induced by the peptide. 3. Activators increased the peptide inhibitory effect, whereas inhibitors decreased it. 4. A two-step model for the peptide-enzyme interaction is suggested in which ATP hydrolysis is a key factor.
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PMID:Interaction of F1-ATPase and its inhibitor peptide. Effect of dinitrophenol, nucleotides and anions. 290 84

To determine whether kidney membrane fractions contain an extramitochondrial anion-stimulated ATPase, we compared the pharmacological and kinetic properties of HCO3-ATPase activities in mitochondrial and microsomal fractions prepared from rabbit kidney cortex and outer medulla. The results indicated that this activity differed markedly in each type of fraction. Microsomal HCO3-ATPase was less sensitive than mitochondrial ATPase to azide, oligomycin, DCCD and thiocyanate, but was more sensitive to filipin and displayed different dependency towards ATP, magnesium and pH. Microsomal ATPase activity was stimulated by sulfite much more strongly than by bicarbonate, whereas mitochondrial activity was stimulated by both these anions to a similar extent. These results demonstrate the presence of an extramitochondrial HCO3-ATPase in kidney membrane fractions. HCO3-ATPase was also measured in single microdissected segments of the rabbit nephron using a radiochemical microassay previously developed for tubular Na, K-ATPase activity. An enzyme with the pharmacological and kinetic properties of the microsomal enzyme was detected in both proximal tubule, distal convoluted tubule and collecting duct, but the thick ascending limb was devoid of any detectable activity. Long-term DOCA administration markedly increased HCO3-ATPase activity in the distal convoluted and collecting tubule. The insensitivity of microsomal HCO3-ATPase to vanadate indicates that it belongs to the F0-F1 class of ATPases, and might therefore be involved in proton transport. This hypothesis is also supported by the localization of tubular HCO3-ATPase activity at the sites of urinary acidification.
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PMID:Presence of an extramitochondrial anion-stimulated ATPase in the rabbit kidney: localization along the nephron and effect of corticosteroids. 293 49

The effects of adenylylimidodiphosphate (AMP-PNP) and guanylylimidodiphosphate (GMP-PNP) on the kinetics of MgATP, MgITP and MgGTP hydrolysis by mitochondrial ATPase (EC 3.6.1.3) from human placenta were studied. AMP-PNP is a noncompetitive inhibitor of hydrolysis of all substrates used, both in the presence and in the absence of the activating HCO3- anion. At least two binding sites for AMP-PNP are present in the F1. Unlike AMP-PNP, GMP-PNP was shown to be a competitive inhibitor of hydrolysis of all substrates used. The results of the kinetic experiments presented support the alternating three-site mechanism of ATP hydrolysis by mitochondrial ATPase.
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PMID:Mitochondrial adenosine triphosphatase from human placenta--effects of adenylyl and guanylyl imidodiphosphate. 315 4

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