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)

1. Isolated F1 (mitochondrial ATPase) binds to urea-treated submitochondrial particles suspended in sucrose/Tris/EDTA with a dissociation constant of 0.1 muM. 2. About one-third of the F1 and the oligomycin-sensitivity conferring protein (OSCP) are lost during preparation of submitochondrial particles prepared at high pH (A particles). None is lost from particles treated with trypsin (T particles). 3. After further treatment with alkali of urea-treated particles, binding of F1 requires the addition of OSCP. Maximum binding is reached when both OSCP and Fc2 are added. The concentration of F1-binding sites in the presence of both OSCP and Fc2 is about the same as that in TU particles. 4. After further extraction with silicotungstate of urea- and alkali-treated particles, OSCP no longer induces binding of F1, unless Fc2 is also present. Fc2 induces binding in the absence of OSCP but with a lower binding constant and, in contrast to results under all the other conditions studied in this paper, the ATPase activity is oligomycin insensitive. 5. It is tentatively concluded that OSCP is the binding site for F1 and Fc2 is the binding site for OSCP.
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PMID:Proteins required for the binding of mitrochondrial ATPase to the mitochondrial inner membrane. 13 85

1. Stimulation of the Escherichia coli ATPase activity by urea and trypsin shows that the ATPase activity both in the membrane-bound and the solubilized form is partly masked. 2. A protein, inhibiting the ATPase activity of Escherichia coli, can be isolated by sodium dodecyl sulphate polyacrylamide gel electrophoresis of purified ATPase. The inhibitor was identified with the smallest of the subunits of E. coli ATPase. 3. The molecular weight of the ATPase inhibitor is about 10,000, as determined by sodium dodecyl sulphate polyacrylamide gel electrophoresis and deduced from the amino acid composition. 4. The inhibitory action is independent of pH, ionic strength or the presence of Mg2+ or ATP. 5. The ATPase inhibitor is heat-stable, insensitive to urea but very sensitive to trypsin degradation. 6. The Escherichia coli ATPase inhibitor does not inhibit the mitochondrial or the chloroplast ATPase.
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PMID:Isolation and characterization of an inhibitory subunit of the Mg2+--Ca2+-ATPase of Escherichia coli. 13 64

The membrane ATPase (EC 3.6.1.3) of Bacillus subtilis can be solubilized by a shock-wash process. Two procedures for purifying the solubilized enzyme are reported. A protease inhibitor, phenylmethane sulfonylfluoride, was introduced in the solubilization and purification step. The resultant ATPase purified by density gradient centrifugation has a molecular weight of 315 000, an s20,w of 13,4 and an amino acid composition very similar to bacterial ATPases already studied. After exposure to polyacrylamide gel electrophoresis in presence of sodium dodecyl sulphate (SDS), or 8 M urea or SDS-urea, the purified ATPase can be dissociated in two non-identical subunits of molecular weights 59 000 (alpha) and 57 000 (beta) with different charges. Kinetic studies showed that Ca2+ or Zn2+ are required for ATPase activity, although Mg2+ was uneffective. At optimal Ca2+ concentration, the Mg2+ has an inhibitory effect. The Km for ATP is 1.3 mM. Inhibitors of the oxydative phosphorylation, of the mitochondrial ATPase and of the (Na+ + K+)-ATPase are studied.
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PMID:Membrane ATPase of Bacillus subtilis. I. Purification and properties. 14 10

Partial digestion of the native beta subunit of F1-ATPase from the thermophilic Bacillus strain PS3 by three different proteases produced a limited number of peptide fragments. In most cases, the peptides remained associated, and the gross structure of the beta subunit was not destroyed. Furthermore, most peptides were able to reassociate into the form of the beta subunit after denaturating urea treatment. Therefore, the cleaved sites are most likely located in water-exposed loop regions in the tertiary structure of the protein. Almost all peptides were analyzed, and 17 cleaved sites were determined. From the analysis of the distribution of cleaved sites and deletions or insertions in the multiple amino acid sequence alignment of proteins homologous to the beta subunit, locations of five loops and four candidate loops in the beta subunit are suggested. There are two large loops in the central region of the beta subunit sequence, and dicyclohexylcarbodiimide-reactive Glu190 is located in one of them. Tyr341, involved in putative catalytic ATP binding, is also found in one of the loops. Then, taking cleaved sites as a reference, two kinds of expression plasmids, each of which carried genes of two complementary peptide fragments, 1-193 and 198-473 or 1-284 and 285-473, were constructed and expressed in Escherichia coli. For each plasmid, two peptides were coexpressed, associated into a stable beta subunit form in E. coli cells, and purified without dissociation. When these beta subunits were denatured by urea and applied to polyacrylamide gel without denaturant, a protein band with the same mobility as that of the beta subunit appeared, indicating that reassociation of peptide fragments into the form of the beta subunit occurred upon removal of urea. These beta subunits retained the ability to reconstitute the alpha 3 beta 3 gamma complexes even though the efficiency of reconstitution and the recovered ATPase activities were decreased. These complexes were stable at high or low temperature, and ATPase activities were sensitive to inhibition by N3-.
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PMID:Molecular dissection of the beta subunit of F1-ATPase into peptide fragments. 138 3

A study is presented on the role of F0 and F1 subunits in oligomycin-sensitive H+ conduction and energy transfer reactions of bovine heart mitochondrial F0F1 H(+)-ATP synthase. Mild treatment with azodicarboxylic acid bis(dimethylamide) (diamide) enhanced oligomycin-sensitive H+ conduction in submitochondrial particles containing F1 attached to F0. This effect was associated with stimulation of the ATPase activity, with no effect on its inhibition by oligomycin, and depression of the 32Pi-ATP exchange. The stimulatory effect of diamide on H+ conduction decreased in particles from which F1 subunits were partially removed by urea. The stimulatory effect exerted by diamide in the submitochondrial particles with F1 attached to F0 was directly correlated with a decrease of the original electrophoretic bands of a subunit of F0 (F0I-PVP protein) and the gamma subunit of F1, with corresponding formation of their cross-linking product. In F0 liposomes, devoid of gamma subunit, diamide failed to stimulate H+ conduction and to cause disappearance of F0I-PVP protein, unless purified gamma subunit was added back. The addition to F0 liposomes of gamma subunit, but not that of alpha and beta subunits, caused per se inhibition of H+ conduction. It is concluded that F0I-PVP and gamma subunits are directly involved in the gate of the F0F1 H(+)-ATP synthase. Data are also presented indicating contribution to the gate of oligomycin-sensitivity conferral protein and of another protein subunit of F0, F6.
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PMID:Role of F0 and F1 subunits in the gating and coupling function of mitochondrial H(+)-ATP synthase. The effect of dithiol reagents. 138 61

We established a bacterial system for high-level over-expression of the spinach chloroplast atpB gene which encodes the ATP synthase beta subunit. Upon induction, atpB was expressed as at least 50% to 70% of total cell protein. Although the over-expressed beta polypeptide formed insoluble inclusion bodies, more than fifty percent of it was restored to a functional form by solubilizing the inclusion bodies with 4 M urea and slowly removing the urea by stepwise dialysis. The resulting beta subunit exhibited specific and selective nucleotide binding properties identical to those of the native beta subunit.
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PMID:Over-expression and refolding of beta-subunit from the chloroplast ATP synthase. 153 62

The dissociation of mitochondrial F1-ATPase with 3 M LiCl at 0 degrees C, followed by reconstitution, has been analysed. FPLC over a gel filtration column in the dissociation buffer revealed the presence of two protein moieties, an alpha 3 gamma delta epsilon complex and single beta-subunits. When the dissociation and chromatography is performed at pH 6.2, the former protein moiety still contains some adenine nucleotides. Reconstitution of the dissociated complex is not possible any more after FPLC, probably due to the loss of residual adenine nucleotides. After a single column centrifugation step one nucleotide per F1 still remains bound. For reconstitution, additional ATP, or a suitable analog, is required. 2-Azido-ATP, but not 8-azido-ATP or ITP, can replace ATP during the reconstitution. F1, reconstituted in the presence of 2-azido-ATP, contains three tightly bound nucleotides, similar to freshly isolated F1, of which in this case one is an adenine nucleotide and two are azido-adenine nucleotides. One of the latter can be rapidly exchanged and is bound to a catalytic site. Covalent binding (at a beta-subunit) of the other tightly bound 2-azido-ATP by ultraviolet illumination does not result in inhibition of the enzyme. Digestion of F1 with trypsin, followed by HPLC, showed that the label is not bound to the fragment containing Tyr-368, nor to the fragment containing Tyr-345. This result was confirmed by CNBr digestion, followed by SDS-urea PAGE. We conclude that during dissociation of F1 one tightly bound nucleotide (ADP) remains bound at an alpha/beta interface site and that for reconstitution binding of ATP to a (non-catalytic) beta-site is required. The conformation of this site differs from that of the two catalytic beta-sites.
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PMID:Characteristics of the non-exchangeable nucleotide binding sites of mitochondrial F1 revealed by dissociation and reconstitution with 2-azido-ATP. 153 23

This report describes the first isolation and molecular characterization of the mitochondrial F1-ATPase from Trypanosoma brucei. The isolation procedure utilized is a modified chloroform extraction procedure. In contrast to earlier reports on the F1-ATPase from other trypanosomatids, the F1-ATPase we have isolated from the procyclic form of T. brucei a complex composed of five distinct subunits. Apparent molecular weights of these subunits are 55,000 [alpha], 42,000 [beta], 32,000 [gamma], 22,000 [delta], and 17,000 [epsilon]. The F1 moiety which possesses the active site of the H(+)-ATPase has an ATPase activity in the standard Tris-HCl coupled enzyme assay with a Vmax of 22.96 mumol min-1 (mg protein)-1 and a Km value of 0.60 mM. This ATPase activity is cold labile and is not susceptible to oligomycin inhibition as is the membrane bound enzyme. Upon reconstitution with F1-ATPase depleted membranes (urea particles) the ATPase regains oligomycin sensitivity to the same extent as that found in the intact inner membrane vesicles. ATP synthesis is also restored to these particles upon reconstitution with F1. These results indicate that this F1-ATPase as isolated is intact with respect to all the critical H(+)-ATPase functions.
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PMID:The mitochondrial ATP synthase of Trypanosoma brucei: isolation and characterization of the intact F1 moiety. 214 43

Oligomycin sensitivity-conferring protein (OSCP) is a water-soluble subunit of bovine heart mitochondrial H(+)-ATPase (F1-F0). In order to investigate the requirement of OSCP for passive proton conductance through mitochondrial F0, OSCP-depleted membrane preparations were obtained by extracting purified F1-F0 complexes with 4.0 M urea. The residual complexes, referred to as UF0, were found to be deficient with respect to OSCP, as well as alpha, beta, and gamma subunits of F1-ATPase, but had a full complement of coupling factor 6 as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western blotting techniques. These UF0 complexes had no intrinsic ATPase activity and were able to bind nearly the same amount of F1-ATPase in the presence of either OSCP or NH4+ ions alone, or a combination of the two. However, the preparations exhibited an absolute dependency on OSCP for conferral of oligomycin sensitivity to membrane-bound ATPase. The passive proton conductance in UF0 proteoliposomes was measured by time-resolved quenching of 9-amino-6-chloro-2-methoxyacridine or 9-aminoacridine fluorescence following a valinomycin-induced K(+)-diffusion potential. The data clearly establish that OSCP is not a necessary component of the F0 proton channel nor is its presence required for conductance blockage by the inhibitors oligomycin or dicyclohexylcarbodiimide. Furthermore, OSCP does not prevent or block passive H+ leakage. Comparisons of OSCP with the F1-F0 subunits from Escherichia coli and chloroplast lead us to suggest that mitochondrial OSCP is, both structurally and functionally, a hybrid between the beta and delta subunits of the prokaryotic systems.
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PMID:ATP synthase complex from bovine heart mitochondria. Passive H+ conduction through F0 does not require oligomycin sensitivity-conferring protein. 215 6

We have studied the import into isolated yeast mitochondria of three hydrophobic passenger proteins attached to the N-terminal cleavable presequence of mitochondrial ATPase subunit 9 from Neurospora crassa. One natural precursor (pN9) contained N. crassa subunit 9; two chimaeric precursors, N9L/Y8-1 and N9L/Y9-2, respectively contained yeast mitochondrial ATPase subunits 8 and 9. In the absence of urea, pN9 and N9L/Y8-1 are imported efficiently but N9L/Y9-2 is not imported. After pretreatment of precursors in 4 M urea, binding of pN9 to mitochondria is marginally affected while its import is substantially inhibited; the binding to mitochondria of chimaeric proteins, N9L/Y8-1 and N9L/Y9-2, is greatly enhanced but no import is observed. This behaviour of import precursors containing hydrophobic passenger proteins is contrasted with that of a hydrophilic chimaeric precursor pCOXIV-DHFR, whose binding and import are enhanced by pretreatment with a high concentration of urea (8 M). The import of N9L/Y8-1 is very sensitive to the presence of low concentrations of urea in the import reaction mixture, and is abolished above 0.5 M urea although precursor binding to mitochondria is increased. By contrast, neither the import nor binding of pCOXIV-DHFR is affected directly by urea up to 0.8 M. These deleterious effects of urea on import of the chimaeric precursors N9L/Y8-1 and N9L/Y9-2 are interpreted in terms of a non-productive binding of these precursors to mitochondria, brought about by exposure of their hydrophobic domains resulting from urea unfolding. The generalization that membrane translocation of mitochondrial import precursors is enhanced by their prior unfolding in urea thus does not apply in the case of these precursors containing hydrophobic passenger proteins.
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PMID:Import into mitochondria of precursors containing hydrophobic passenger proteins: pretreatment of precursors with urea inhibits import. 216 55

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