EC:3.6.3.14 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

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

An alpha beta heterodimer of the F1-ATPase of Rhodospirillum rubrum was isolated by extraction of chromatophores with LiCl. Each alpha beta heterodimer contains one tightly bound ADP, which is released upon removal of medium Mg2+. The dimer can be reversibly dissociated by removal of Mg(2+)-ions. The alpha beta heterodimer restores both ATP-synthetic and -hydrolytic activities to LiCl-treated chromatophores, saturation being achieved at approximately 2 mmol alpha beta.mol BChl-1. The heterodimer itself hydrolyses Mg-ATP with an activity distinct from RF1, being unaffected by azide or sulphite ions. The Vmax and Km (ATP) for this Mg(2+)-dependent activity were 110 +/- 10 nmol.min-1.mg protein-1 and 100 +/- 30 microM, respectively. The Km did not differ significantly from that of RF1.
...
PMID:Isolation and characterisation of a functional alpha beta heterodimer from the ATP synthase of Rhodospirillum rubrum. 132 70

The beta-subunit of the mitochondrial ATP synthase complex comprises the bulk, if not all, of the catalytic nucleotide binding site on the enzyme. A region of homologous sequence rich in glycines (G) and containing a basic lysine (K) and a threonine (T) is found in the beta-subunit as well as many other purine nucleotide binding proteins. The consensus sequence of this region is Gx4GKT, where x represents any amino acid, and is called the A region or glycine-rich loop. The related function of these proteins implies that the glycine-rich loop is directly involved in nucleotide binding. Here we directly test the involvement of the beta-subunit's glycine-rich region in adenine nucleotide binding using two independent approaches. A synthetic fifty amino acid peptide, PP-50, containing the glycine-rich region and the surrounding sequence was assessed for secondary structure and interaction with potential ligands. Circular dichroism spectropolarimetry indicates that PP-50 assumes a predominantly beta-sheet conformation in solution. Significantly, the peptide precipitates from solution when ATP, ADP, GTP, ITP, and pyrophosphate are added, but not when AMP or phosphate are included. Magnesium is not required for the interaction with the purine nucleotides. Complimentary to these studies, the sequence around the Gx4GKT motif was deleted from a recombinant rat liver beta-subunit overexpressed in E. coli. While the wild type beta-subunit showed specificity for the tri- and diphosphonucleotides, the deletion mutant bound tri-, di-, and monophosphate nucleotides with equal affinity.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Mitochondrial F-type ATPases: the glycine-rich loop of the beta-subunit is a pyrophosphate binding domain. 133 55

F1-ATPase was treated so that it contained three tightly bound nucleotides per molecule. One of these was bound at a catalytic site and was rapidly exchangeable, the two remaining nucleotides were nonexchangeable. Incubation of this preparation with ADP in the presence of Mg2+ results in 40-45% inhibition of the ATPase activity. With 2-azido-ADP instead of ADP, the ligand was covalently bound to F1 by illumination, in the presence or absence of turnover of the enzyme, and the site of binding was determined. In this way, one site could be identified, which induces the inhibition. The attachment of the covalently bound 2-nitreno-ADP is at Tyr-368 of a beta-subunit, characterized in the literature as a non-catalytic site. A second, non-catalytic site also binds 2-azido-ADP, but this binding is partially reversed by the addition of ATP and does not cause further inhibition of the ATPase activity. It is concluded that the slowly exchangeable non-catalytic site is the site of inhibition by ADP.
...
PMID:Inhibition of mitochondrial F1-ATPase activity by binding of (2-azido-) ADP to a slowly exchangeable non-catalytic nucleotide binding site. 138 29

Escherichia coli strain AN718 contains the alpha S373F mutation in F1F0-ATP synthase which blocks ATP synthesis (oxidative phosphorylation) and steady-state F1-ATPase activity. The revertant strain AN718SS2 containing the mutation alpha C373 was isolated and shown to confer a phenotype of higher growth yield than that of the wild type in liquid medium containing limiting glucose, succinate, or LB. Purified F1 from strain AN718SS2 was found to have 30% of wild-type steady-state ATPase activity and 60% of wild-type oxidative phosphorylation activity. Azide sensitivity of ATPase activity and ADP-induced enhancement of bound aurovertin fluorescence, both of which are lost in alpha S373F mutant F1, were regained in alpha C373 F1. N-Ethylmaleimide (NEM) inactivated alpha C373 F1 steady-state ATPase potently but had no effect on unisite ATPase. Complete inactivation of alpha C373 F1 steady-state ATPase corresponded to incorporation of one NEM per F1 (mol/mol), in just one of the three alpha subunits. NEM-inactivated enzyme showed azide-insensitive residual ATPase activity and loss of ADP-induced enhancement of bound aurovertin fluorescence. The data confirm the view that placement at residue alpha 373 of a bulky amino acid side-chain (phenylalanyl or NEM-derivatized cysteinyl) blocks positive catalytic cooperativity in F1. The fact that NEM inhibits steady-state ATPase when only one alpha subunit of three is reacted suggests a cyclical catalytic mechanism.
...
PMID:F1-ATPase with cysteine instead of serine at residue 373 of the alpha subunit. 138 22

Escherichia coli F1-ATPase contained 2.9 +/- 0.1 mol of adenine nucleotide and 3.1 +/- 0.3 mol of Pi/mol of enzyme. After preincubation with ATP, the nucleotide and phosphate contents were 5.6 and 6.0 +/- 0.5 mol/mol of enzyme respectively. The F1-ATPase was induced to synthesize ATP in the presence of 30% (v/v) dimethyl sulphoxide (Me2SO). The ATP originated from endogenous bound ADP. The bound adenine nucleotide and Pi contents of the enzyme during the time course of ATP synthesis were investigated by using F1-ATPase which had been preincubated with ATP. We show that the process of ATP synthesis in Me2SO involves (i) an initial rapid loss of nucleotide from the enzyme, the process being facilitated by exogenous Pi, (ii) a rapid loss of Pi from the enzyme, at least in the absence of exogenous Pi, (iii) re-binding of a portion of the lost nucleotide, and (iv) synthesis of ATP from bound ADP and exogenous Pi. It is proposed that transfer of the F1-ATPase to the Me2SO medium induces a change in the conformation of the enzyme to a form favouring ATP synthesis.
...
PMID:Changes in the adenine nucleotide and inorganic phosphate content of Escherichia coli F1-ATPase during ATP synthesis in dimethyl sulphoxide. 138 55

The presence of ATP at non-catalytic sites of the chloroplast F1-ATPase (CF1) eliminates a considerable lag in onset of enzyme activity that otherwise occurs in the presence of bicarbonate [Milgrom, Y. M., Ehler, L. & Boyer, P. D. (1991) J. Biol. Chem. 266, 11551-11558]. Sulfite is known to be much more effective than bicarbonate in stimulating ATPase activity CF1. Results reported here show that when assayed in the presence of sulfite, CF1, with some non-catalytic sites empty or filled with GT(D)P, is able to hydrolyze both ATP and GTP. Thus, the presence of adenine nucleotides at non-catalytic sites is not necessary for catalytic turnover of CF1. However, even though CF1 with empty non-catalytic sites shows a significant initial activity, the prior binding of adenine nucleotides at non-catalytic site(s) results in further activation of MgATPase and MgGTPase activities, even at relatively high sulfite and substrate concentrations. Although extensive activation of CF1 results from the presence of sulfite, with or without nucleotide binding at non-catalytic sites, the Km remains constant, at about 50 microM for MgATP and 400 microM for MgGTP. The results obtained show that the ATPase activity of CF1 is determined by the fraction of the active enzyme. The inactive CF1.ADP.Mg2+ formed during MgATP hydrolysis can be rapidly trapped by azide to provide a measure of the fraction of inactive enzyme. Increasing the concentration of sulfite increases the fraction of active CF1 in the assay medium. Measurements with radioactively labeled nucleotides show that the presence of ATP at non-catalytic sites promotes the ATP-dependent release of inhibitory ADP from a catalytic site. The activating effect of ATP binding at non-catalytic sites results from increasing the portion of CF1 in an active state during steady-state ATP hydrolysis.
...
PMID:The mechanism of stimulation of MgATPase activity of chloroplast F1-ATPase by non-catalytic adenine-nucleotide binding. Acceleration of the ATP-dependent release of inhibitory ADP from a catalytic site. 142 75

Dimethylsulfoxide [Me2SO, 30% (v/v)] promotes the formation of ATP from ADP and phosphate catalyzed by soluble mitochondrial F1-ATPase. The effects of this solvent on the interaction of beef-heart mitochondrial F1 with the immobilized ATP of Agarose-hexane-ATP were studied. In the presence of Me2SO, F1 bound less readily to the immobilized ATP, but once bound was more difficult to elute with exogenous ATP. This suggests that not only was the binding affinity for adenine nucleotide at the first binding site affected but that adenine nucleotide binding affinity at the second and/or third sites, which interact cooperatively with the first site to release bound nucleotide, was also affected. A reduction in the binding of [3H]ADP to these sites was shown. A change in the conformation of F1 in 30% (v/v) Me2SO was demonstrated by crosslinking and by the increased resistance of the enzyme to cold denaturation.
...
PMID:Interaction of beef-heart mitochondrial F1-ATPase with immobilized ATP in the presence of dimethylsulfoxide. 142 44

1. In the accompanying paper (Duchen & Biscoe, 1992) we have described graded changes in autofluorescence derived from mitochondrial NAD(P)H in type I cells of the carotid body in response to changes of PO2 over a physiologically significant range. These observations suggest that mitochondrial function in these cells is unusually sensitive to oxygen and could play a role in oxygen sensing. We have now explored further the relationships between hypoxia, mitochondrial membrane potential (delta psi m) and [Ca2+]i. 2. The fluorescence of Rhodamine 123 (Rh 123) accumulated within mitochondria is quenched by delta psi m. Mitochondrial depolarization thus increases the fluorescence signal. Blockade of electron transport (CN-, anoxia, rotenone) and uncoupling agents (e.g. carbonyl cyanide p-trifluoromethoxy-phenylhydrazone; FCCP) increased fluorescence by up to 80-120%, while fluorescence was reduced by blockade of the F0 proton channel of the mitochondrial ATP synthase complex (oligomycin). 3. delta psi m depolarized rapidly with anoxia, and was usually completely dissipated within 1-2 min. The depolarization of delta psi m with anoxia (or CN-) and repolarization on reoxygenation both followed a time course well characterized as the sum of two exponential processes. Oligomycin (0.2-2 micrograms/ml) hyperpolarized delta psi m and abolished the slower components of both the depolarization with anoxia and of the subsequent repolarization. These data (i) illustrate the role of the F1-F0 ATP synthetase in slowing the rate of dissipation of delta psi m on cessation of electron transport, (ii) confirm blockade of the ATP synthetase by oligomycin at these concentrations, and (iii) indicate significant accumulation of intramitochondrial ADP during 1-2 min of anoxia. 4. Depolarization of delta psi m was graded with graded changes in PO2 below about 60 mmHg. The stimulus-response curves thus constructed strongly resemble those for [Ca2+]i and NAD(P)H with PO2. The change in delta psi m closely followed changes in PO2 with time. 5. The rate of rise of [Ca2+]i in response to anoxia is strongly temperature sensitive. The rate of depolarization of delta psi m with anoxia similarly increased at least two- to fivefold on warming from 22 to 36 degrees C. The change with FCCP was not significantly altered by temperature. 6. These data show that the mitochondrial membrane potential changes over a physiological range of PO2 values in type I cells. This contrasts with the behaviour in dissociated chromaffin cells and sensory neurons, in which no change was measurable until the PO2 fell close to zero.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Relative mitochondrial membrane potential and [Ca2+]i in type I cells isolated from the rabbit carotid body. 143 12

Escherichia coli F1-ATPase contained 3 mol of tightly-bound adenine nucleotide/mol enzyme. A further 3 mol could be loaded by incubation of the enzyme with ATP. The unloaded enzyme was designated as a F1[2,1] type on the basis of the ability of GTP to displace 1 mol of adenine nucleotide/mol of F1 [Kironde, F.A.S., & Cross, R.L. (1986) J. Biol. Chem. 261, 12544-12549]. The loaded enzyme was designated F1[3,3] since GTP could displace 3 of the 6 mol of bound adenine nucleotide/mol of F1. Incubation of F1[2,1], F1[2,0], and F1[3,0] with phosphate in the presence of 30% (v/v) dimethyl sulfoxide led to the synthesis of ATP from endogenous bound ADP. Hydrolysis of newly synthesized ATP occurred on transfer of the F1 from 30% (v/v) dimethyl sulfoxide to an entirely aqueous medium. Thus, synthesis and hydrolysis of ATP can occur at GTP-nonchaseable adenine nucleotide binding sites, and these sites in dimethyl sulfoxide are not necessarily equivalent to noncatalytic sites.
...
PMID:Escherichia coli F1-ATPase can use GTP-nonchaseable bound adenine nucleotide to synthesize ATP in dimethyl sulfoxide. 144 81

The kinetic properties of type-II ATP diphosphohydrolase are described in this work. The enzyme preparation from the inner layer of the bovine aorta, mostly composed of smooth muscle cells, shows an optimum at pH 7.5. It catalyzes the hydrolysis of tri- and diphosphonucleosides and it requires either Ca2+ or Mg2+ for activity. It is insensitive to ouabain (3 mM), an inhibitor of Na+/K(+)-ATPase, to tetramisole (5 mM), an inhibitor of alkaline phosphatase, and to Ap5A (100 microM), an inhibitor of adenylate kinase. In contrast, sodium azide (10 mM), a known inhibitor for ATPDases and mitochondrial ATPase, is an effective inhibitor. Mercuric chloride (10 microM) and 5'-p-fluorosulfonylbenzoyl adenosine are also powerful inhibitors, both with ATP and ADP as substrates. The inhibition patterns are similar for ATP and DP, thereby, supporting the concept of a common catalytic site for these substrates. Apparent Km and Vmax, obtained with ATP as the substrate, were evaluated at 23 +/- 3 microM and 1.09 mumol Pi/min per mg protein, respectively. The kinetic properties of this enzyme and its localization as an ectoenzyme on bovine aorta smooth muscle cells suggest that it may play a major role in regulating the relative concentrations of extracellular nucleotides in blood vessels.
...
PMID:Kinetic properties of type-II ATP diphosphohydrolase from the tunica media of the bovine aorta. 147 95

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>