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)

Techniques are described for studying the labeling of ADP and ATP bound to the ATP synthase complex of beef heart submitochondrial particles catalyzing oxidative phosphorylation. These suffice for measurements of bound nucleotides during the time required for a single turnover, during steady state net ATP synthesis, or under quasiequilibrium conditions of ATP formation and hydrolysis. Results show that the "tightly bound" ATP associated with isolated submitochondrial particles does not become labeled by medium [32P]Pi rapidly enough to qualify as an intermediate in ATP synthesis. In contrast to chloroplast preparations, little or no bound [32P]Pi committed to ATP formation is present on particles during steady state synthesis. Also, highly active particles synthesizing ATP from [32P]Pi and filtered after EDTA addition have no detectable bound [32P]ATP even though several ATPs have been made per synthase complex. However, under quasiequilibrium conditions membrane-bound ADP and ATP are present whose labeling characteristics qualify them as intermediates in ATP synthesis. In addition, a hexokinase-accessibility approach shows the presence of a steady level of bound ATP. Lack of detection of bound intermediates under other conditions is regarded as reflecting the ready reversibility of oxidative phosphorylation, with consequent facile cleavage of bound ATP and release of bound Pi.
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PMID:Demonstration and quantitation of catalytic and noncatalytic bound ATP in submitochondrial particles during oxidative phosphorylation. 15 94

During the inactivation of the nucleotide-free F1-ATPase at pH 7.0, by p-fluorosulfonyl[14C]benzoyl-5'-adenosine ([14C]FSBA) in the presence of 20% glycerol, about 4.5 g atoms of 14C are incorporated/350,000 g of enzyme. Isolation of the subunits has shown: (a) over 90% of the incorporated label is associated with the alpha and beta subunits; (b) the amount of label incorporated into the alpha subunit is about 0.5 g atoms/mol which is nonspecifically associated with a number of tyrosine and lysine residues; (c) the amount of radioactivity incorporated into the beta subunit is about 0.9 g atoms/mol which correlates with the degree of inactivation of the enzyme and resides on a single tyrosine residue; (d) up to 2.2 mol of alpha subunit have been isolated from each mole of inactivated enzyme; and (e) about 2 mol of beta subunit have been isolated from each mole of inactivated enzyme. These results account for the incorporation of 4.5 g atoms of 14C which are incorporated/mol of ATPase during inactivation if there are three copies each of the alpha and beta subunit present in the enzyme. It has also been shown that 4-chloro-7-nitrobenzofurazan (NBD-Cl) and FSBA react with different tyrosine residues when they inactivate the ATPase. In addition, it has been shown that the ATPase inactivated with FSBA retains the capacity to bind up to 2.2 mol of [14C]ADP/350,000 g of enzyme.
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PMID:On the subunit stoichiometry of the F1-ATPase and the sites in it that react specifically with p-fluorosulfonylbenzoyl-5'-adenosine. 15 96

1. A study is presented of the mitochondrial NADH content during controlled (state 4) and active (state 3) pyruvate oxidation by blowfly flight-muscle mitochondria. The results confirm and extend those of an earlier study (Hansford, 1972), which indicated an increased reduction in state 3. Nicotinamide nucleotide is normally highly oxidized during state 4; however, there can be substantial reduction in the presence of carnitine or high concentrations of proline, or on lengthy incubation in the presence of either of the systems used to generate intramitochondrial tricarboxylate-cycle intermediate. 2. Omission of phosphate leads to substantial reduction and this can be reversed by adding phosphate or acetate. 3. Estimations of NAD-+ and NADH in fly thoraces show a marked increase in NADH on flight, tending to corroborate the results of mitochondrial experiments and testifying to the importance of dehydrogenase activation in this tissue. 4. Determination of intramitochondrial adenine nucleotides reveals a total of 4-5 nmol/mg of protein, and an ADP content of less than 0.1 nmol/mg during state 4 oxidation of pyruvate and proline. ATP content is found to increase slowly during state 4 and this is attributed to the net phosphorylation of AMP. 5. The uncoupling agent carbonyl cyanide p=trifluoromethoxyphenylhydrazone leads to hydrolysis of some, but not all, of the mitochondrial ATP. Studies of mitochondrial ATPase (adenosine triphosphatase), measured by external pH change, show that it is inactive unless the mitochondria are allowed to respire for several minutes in state 4 in the presence of phosphate before the addition of carbonyl cyanide p-trifluoromethoxyphenylhydrazone. It is suggested that phosphate uptake is essential for maximal ATPase activity. 6. Studies of the fluorescence of the fluorochrome 8-anilino-1-naphthalensulphonic acid suggest that the energy status of the mitochondrion is high during state 4-pyruvate oxidattion, and decrease slightly in state 3. The implications of these findings are discussed.
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PMID:The control of tricarboxylate-cycle oxidations in blowfly flight muscle. The oxidized and reduced nicotinamide-adenine dinucleotide content of flight muscle and isolated mitochondria, the adenosine triphosphate and adenosine diphosphate content of mitochondria, and the energy status of the mitochondria during controlled respiration. 16 20

To study ESR absorption of mitochondrial ATPase a special flow system was developed allowing to maintain surviving conditions for mitochondria. It has been shown that ESR free radical signal of mitochondria observed at room temperature (g-factor 2.00 and halfwidth of about 15 Gs) depends on their metabolic state. An increase of free radical content during mitochondrial energization can be associated with operation of ATPsynthetase. It is supposed that free radicals take part in the reaction of ADP phosphorylation and that a molecule of ADP itself bound in the active centre of ATPase can become a free radical to facilitate the process of inorganic phosphate incorporation.
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PMID:[Participation of free radicals in ATP synthesis]. 21 18

1. Evidence is presented which indicates that inactivation of the mitochondrial ATPase from bovine heart by the reagent 4-chloro-7-nitrobenzofurazan results from modification of one tyrosine residue per enzyme molecule. Activity can be restored by a variety of sulphydryl reagents. 2. In sodium dodecyl sulphate, the nitrogenzofurazan group on tyrosine is transfered to newly exposed sulphydryl groups on the enzyme. 3. The rate of transfer of the nitrobenzofurazan moiety from theenzyme to sulphydryl compounds is compared with that for transfer from the model compound N-acetyl-tyrosine-0(7-nitrobenzo-furazan) ethyl ester, the synthesis and properties of which are also described. 4. The ligands ATP and ADP exert a protective effect on the rate of reaction between the mitochondrial ATPase and 4-chloro-7-nitrobenzofurazan. The variation in rate of this reaction with change in pH has also been examined and a pKa of 9.5 estimated for the tyrosine residue. 5. The modification does not prevent substrate binding as judged by changes in the fluorescence of aurovertin, an antibiotic with specific affinity for mitochondiral ATPases. 6. When the ATPase activity of submitochondrial particles is inhibited by 4-chloro-7-nitrobenzo-furazan, there is a parallel decrease in the extent of the energy-linked fluorescence enhancement of 1-anilino-naphthalene-8-sulphonate induced by ATP hydrolysis. Both ATPase activity and the fluorescence enhancement are restored by sluphydryl reagents.
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PMID:The mitochondrial ATPase. Evidence for a single essential tyrosine residue. 23 39

1. When mitochondrial ATPase, which has been modified on a single tyrosine residue by 4-chloro-7-nitrobenzofurazan, is incubated at pH 9.0, the 7-nitrobenzofurazan group undergoes an intramolecular transfer to a nitrogen residue. The rate of this transfer is sensitive to the binding of adenine nucleotides to the enzyme. The resulting N-nitrobenzofurazan ATPase has little or no activity. 2. The fluorescence of the N-nitrobenzofurazan group in the modified ATPase is quenched on binding of ADP. 3. Electrophoresis of the modified enzyme in sodium dodecyl sulphate on a 10% polyacrylamide gel shows that the fluorescence of the N-nitrobenzofurazan chromophore is exclusively in the beta subunit. 4. The rate of transfer of the nitrobenzofurazan group from tyrosyl oxygen to nitrogen on the enzyme is compared with the rate of transfer between model compounds. 5. The interaction of the N-nitrobenzofurazan ATPase with aurovertin is reported.
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PMID:The mitochondrial ATPase. Selective modification of a nitrogen residue in the beta subunit. 23 40

Laser Raman spectroscopy has been used to study a phosphate transfer reaction from ATP to Pi or arsenate in dimethyl sulfoxide. The spectra support a mechanism involving Mg-2+ binding to the alpha or beta phosphates of ATP leaving the third phosphate free for the transfer reaction. The data also indicate the formation of a relatively stable intermediate which is facilitated by the presence of dimethyl sulfoxide and a dicarboxylic acid (maleate). The intermediate has a Raman spectrum with a band at 1090.5 cm- minus 1 similar to the end product ADP, but is formed much more rapidly. Since the model reaction has many features in common (e.g., activation by maleate) with the transfer reactions catalyzed by coupling factors from spinach chloroplast, Raman spectroscopy may also prove to be a useful tool in the elucidation of biological energy transfer reactions.
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PMID:Laser Raman spectroscopy as a mechanistic probe of the phosphate transfer from adenosine triphosphate in a model system. 112 86

Two catalytic structures of H(+)-motive ATP synthase (Fig. 1), the alpha 3 beta 3 oligomer (M(r) = 319,581) and alpha 1 beta 1 promoter (M(r) = 106,527) (Fig. 2), were isolated using high pressure liquid chromatography (Fig. 3) and polyacrylamide gel electrophoresis (Figs. 4 and 5). These were reconstituted from the alpha and beta subunits of thermophilic F1 (TF1), and the alpha 3 beta 3 oligomer was also crystallized. Common to both F1 and the alpha 3 beta 3 oligomer were the nucleotide specificity, the two Km values, the presence of protomer-oligomer activities, and the one-hit--one-kill phenomenon. A synchrotron experiment on the ATP hydrolysis cycle revealed the dynamic shrinkage and expansion of F1(44) that correspond, respectively, to the ATP-induced association and ADP-induced dissociation of the alpha 3 beta 3 oligomer. The oligomer, like mitochondrial F1 and TF1, exhibited two kinds of ATPase activity: one was cooperative and was inhibited by only one inhibitor per hexamer, and the other was inhibited by three inhibitors per hexamer.
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PMID:The alpha 3 beta 3 and alpha 1 beta 1 complexes of ATP synthase. 128 33

The interactions between the pyrophosphate (PPi) binding sites and the nucleotide binding sites on mitochondrial F1-ATPase have been investigated, using F1 preparations containing different numbers of catalytic and noncatalytic nucleotide-binding sites occupied by ligands. In all cases, the total number of moles of bound nucleotides and PPi per mole of F1 was less than or equal to six. F1 preparations containing either three or two filled noncatalytic sites and no filled catalytic sites (referred as F1[3,0] and F1[2,0]) were found to bind 3 mol of PPi/mol of F1. Tight binding of ADP-fluoroberyllate complexes to two of the catalytic sites of F1 converted the three heterogeneous PPi-binding sites into three homogeneous binding sites, each exhibiting the same affinity for PPi. The addition of PPi at saturating concentrations to F1 containing GDP bound to two catalytic sites (F1[2,2]) resulted in the release of 1 mol of GDP. Furthermore, the addition of PPi to F1 filled with ADP-fluoroberyllate at the catalytic sites resulted in the release of 1 mol of tightly bound ADP/mol of F1. Taken together, these results indicate that PPi binds to specific sites that interact with both the catalytic and the noncatalytic nucleotide-binding sites of F1.
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PMID:Does pyrophosphate bind to the catalytic sites of mitochondrial F1-ATPase? 131 Dec 4

The question of the possible identity of catalytic and regulatory proton pathways in the chloroplast FoF1 ATPase has been studied using different energy-transfer inhibitors. Venturicidin, a reversible inhibitor of Fo, affects neither the delta mu H(+)-dependent thiol reduction of the membrane-bound chloroplast ATPase nor its ability to be activated by the proton gradient. It seems therefore to block only the proton flow required by the catalytic function of the enzymes. Venturicidin, however, also slows down the deactivation of the thiol-reduced ATPases during uncoupled ATP hydrolysis, following a delta mu H+ activation, but phloridzin, a reversible F1 inhibitor, has the same effect. Tentoxin, an irreversible F1 inhibitor, decreases the rate of ATP hydrolysis but does not affect the rate of deactivation. These findings suggest that catalytic and regulatory H(+)-binding sites are different. No distinction can be made, if any, between protons involved in unmasking the thiol-sensitive groups of F1 and in activating the enzyme. The effect of venturicidin and phloridzin on the deactivation is consistent with an inhibitory effect of newly formed--by ATP hydrolysis--ADP molecules, which might affect the enzyme without passing through the medium. Phosphate at millimolar concentration has an effect similar to low concentrations of phloridzin and venturicidin, probably by a simple back-reaction effect.
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PMID:An attempt to discriminate catalytic and regulatory proton binding sites in membrane-bound, thiol-reduced chloroplast ATPase. 131 60

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