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Query: EC:3.6.1.3 (ATPase)
 65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The requirement of bovine heart mitochondrial oligomycin sensitivity conferring protein (OSCP) in conferring dicyclohexylcarbodiimide (DCCD)-sensitivity to membrane-bound F1 was investigated by using OSCP-depleted membrane fraction (UF0) of ATP synthase. The ATPase activity of UF0-F1 was completely insensitive to DCCD while that of UF0-F1-OSCP was inhibited 95% by 16 microM DCCD. Both UF0-F1 and UF0-F1-OSCP complexes bound 5 nmol [14C]DCCD/mg UF0, and all the radioactivity was found to be associated with the DCCD-binding proteolipid. The data suggest that OSCP may be necessary for transmitting not only energy-linked signals, but also signals induced by F0 inhibitory ligands in mitochondrial energy transduction.
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PMID:ATP synthase complex from bovine heart mitochondria: the oligomycin sensitivity conferring protein is essential for dicyclohexyl carbodiimide-sensitive ATPase. 183 60

Immunological studies were designed to study the structure of the oligomycin sensitivity conferring protein (OSCP) integrated in the mitochondrial ATPase-ATPsynthase complex. The monoclonal antibody 2B1B1 used in this study could bind as well to purified or membrane bound OSCP as shown previously by Protein A-gold immunocytochemistry and by competitive immunotitration. In this paper, it is shown that 2B1B1 can also immunoprecipitate the F0F1 complex from a Triton X-100 extract. This means that not only, 2B1B1 binds to the surface of OSCP but also that the binding of 2B1B1 did not destroy the interactions between F0 and F1 and further demonstrates the external location of the 2B1B1 binding site in the ATPase-ATPsynthase complex. This antigenic site was located on the N-terminal sequence of OSCP, between residues 1 and 72, as demonstrated after chemical cleavage of OSCP with formic acid, hydroxylamine and partial cleavage with cyanogen bromide. The proximity of Tyr and Arg to the epitope was suggested by the lack of 2B1B1 binding to iodinated OSCP and by the susceptibility of this binding to trypsin or to endoproteinase Arg-C treatments of OSCP, respectively. A more precise location of the epitope has been attempted by using the method of synthesis of overlapping octapeptides on solid support. It was found that 2 groups of octapeptides could bind 2B1B1. The first group contained in common the sequence Pro7-Pro8-Val9-Gln10-Ile11-Tyr12- and the second group of peptides contained the sequence Arg62-Ser63-Val64-Lys65. Another monoclonal antibody, AF4H7, which competes with 2B1B1, also recognized the first group of peptides. The possible involvement of these 2 fragments in the epitope localized at the surface of OSCP is discussed. In addition, secondary structure theoretical analysis predicts that these 2 domains should be in a beta-strand configuration.
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PMID:Epitope of OSCP oligomycin sensitivity conferring protein exposed at the surface of the mitochondrial ATPase-ATPsynthase complex. 247 97

Upon treatment of beef heart mitochondrial oligomycin sensitivity conferring protein (OSCP) with [14C]-N-ethylmaleimide ( [14C]NEM) or dithiobis(nitro[14C] benzoate), 1 mol of either SH reagent was incorporated per mol of OSCP. Radiolabeling occurred at the level of the only cysteine residue, Cys-118, present in the OSCP sequence reported by Ovchinnikov et al. [Ovchinnikov, Y. A., Modyanov, N. N., Grinkevich, V. A., Aldanova, N. A., Trubetskaya, O. E., Nazimov, I. V., Hundal, T., & Ernster, L. (1984) FEBS Lett. 166, 19-22]; it did not alter the biological activity of OSCP tested in a reconstituted F0-F1 system that catalyzed oligomycin-sensitive ATPase activity or ATP-Pi exchange. The parameters of [14C]NEM-OSCP binding to isolated beef heart mitochondrial F1 were assessed by equilibrium dialysis. Addition of trace amounts of Tween 20 prevented unspecific adsorption of OSCP. The binding curves showed that each F1 possesses a high-affinity OSCP binding site (Kd = 0.08 microM) and two low-affinity OSCP binding sites (Kd = 6-8 microM). Binding of OSCP to the high-affinity site on F1 is probably responsible for the ability of OSCP to confer oligomycin sensitivity to F1 in the ATPase complex.
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PMID:Interactions between the oligomycin sensitivity conferring protein (OSCP) and beef heart mitochondrial F1-ATPase. 1. Study of the binding parameters with a chemically radiolabeled OSCP. 285 82

The topographical organization of oligomycin sensitivity conferring protein (OSCP) in the mitochondrial adenosinetriphosphatase (ATPase)-ATP synthase complex has been studied. The accessibility of OSCP to monoclonal antibodies has been qualitatively visualized by using the protein A-gold electron microscopy immunocytochemistry or quantitatively estimated by immunotitration of OSCP in depolymerized or intact membranes. Besides, OSCP cannot be labeled by 3-(trifluoromethyl)-3-(m-[125I]iodophenyl)diazirine ([125I]TID) which selectively labels the hydrophobic core of membrane proteins. These observations demonstrate an external location of OSCP on the inner face of the inner mitochondrial membrane. The position of OSCP relative to other peptides of the complex has been analyzed by cross-linking experiments using either zero length N-(ethoxycarbonyl)-2-ethoxydihydroquinoline or 11-A span dimethyl suberimidate cross-linkers in the ATPase-ATP synthase complex. The OSCP cross-linked products were identified either by immunocharacterization with anti-alpha, anti-beta, or anti-OSCP monoclonal antibodies or by their molecular weight. OSCP was cross-linked with either the alpha- or beta-subunits of F1 or to a subunit of Mr 24 000. Other types of cross-linking were obtained by the labeling of OSCP with [cysteamine-35S]-N-succinimidyl 3-[[2-((2-nitro-4-azidophenyl)amino)ethyl]dithio]propionate ([35S]SNAP) and reconstitution of SNAP-OSCP with F1 in urea-treated submitochondrial particles. Under these conditions, OSCP is found to be adjacent to two other peptides of molecular weight close to 30 000. A comparison is made between the topology and the organization of the b-subunit of Escherichia coli and OSCP, suggesting an analogy between OSCP and the hydrophilic part of the b-subunit.
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PMID:Topography of oligomycin sensitivity conferring protein in the mitochondrial adenosinetriphosphatase-ATP synthase. 287 35

Beef heart mitchondrial oligomycin sensitivity conferring protein (OSCP) labeled with [14C]-N-ethylmaleimide ([14C]OSCP) at the only cysteine residue, Cys-118, present in the sequence [Ovchinnikov, Y. A., Modyanov, N. N., Grinkevich, V. A., Aldanova, N. A., Trubetskaya, O. E., Nazimov, I.V., Hundal, T., & Ernster, L. (1984) FEBS Lett. 166, 19-22] exhibits full biological activity in a reconstituted F0-F1 system [Dupuis, A., Issartel, J. P., Lunardi, J., Satre, M., & Vignais, P. V. (1985) Biochemistry 24, 728-733]. The binding parameters of [14C]OSCP with respect to the F0 sector of submitochondrial particles largely depleted of F1 and OSCP (AUA particles) have been explored. In the absence of added F1, a limited number of high-affinity OSCP binding sites were detected in the AUA particles (20-40 pmol/mg of particles); under these conditions, the low-affinity binding sites for OSCP were essentially not saturable. Addition of F1 to the particles promoted high-affinity binding for OSCP, with an apparent Kd of 5 nM, a value 16 times lower than the Kd relative to the binding of OSCP to F1 in the absence of particles. Saturation of the F1 and OSCP binding sites of AUA particles was attained with about 200 pmol of both F1 and OSCP added per milligram of particles. The oligomycin-dependent inhibition of F1-ATPase bound to AUA particles was assayed as a function of bound OSCP. At subsaturating concentrations of F1, the dose-effect curves were rectilinear until inhibition of ATPase activity by oligomycin was virtually complete, and maximal inhibition was obtained for an OSCP to F1 ratio of 1 (mol/mol).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Interaction between the oligomycin sensitivity conferring protein and the F0 sector of the mitochondrial adenosinetriphosphatase complex: cooperative effect of the F1 sector. 288 78

Liver mitochondria from rats fed ethanol chronically demonstrated a 35% decrease in mitochondrial ATPase activity. Moreover, the ATPase activity was inhibited only 61% by addition of oligomycin. Treatment of mitochondria from ethanol-fed rats with the detergent, Lubrol-WX, caused the release of 36% of the F1 from the resulting inner membrane particles. In comparison, only 5% of the F1 was dissociated when control mitochondria were subjected to the Lubrol treatment. However, when the units of ATPase activity from the supernatant and particles obtained after Lubrol treatment were added together, their sums were equivalent in preparations from control and ethanol-fed animals. Moreover, polyacrylamide gel electrophoresis analyses indicated equal amounts of the alpha + beta subunits of F1 in mitochondria from control and ethanol-fed rats. Reconstitution experiments with urea particles and F1 prepared from both control and ethanol mitochondria revealed a decrease in oligomycin sensitivity which could be attributed to an alteration in the functioning of either the oligomycin sensitivity conferring protein or a membrane sector subunit that interacts with oligomycin. Analysis by reconstitution also demonstrated that there were no ethanol-elicited alterations in the properties of the F1 portion of the ATP synthase complex. These observations indicate that the activity of the ATP synthase complex is altered significantly by ethanol-elicited changes in the functioning of those polypeptides involved in modulating both oligomycin sensitivity and the association of F1 with membrane sector subunits.
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PMID:Ethanol-elicited alterations in the oligomycin sensitivity and structural stability of the mitochondrial F0 . F1 ATPase. 288 57

Oligomycin sensitivity conferral protein, in the absence of coupling factor 6 (F6), is able to bind the ATPase to mitochondrial membranes with an apparent association constant of 10(6) M-1. The F6-dependent ATPase binding has an apparent association constant 1 to 2 orders of magnitude lower than that obtained with oligomycin sensitivity conferral protein. The oligomycin sensitivity conferral protein-dependent, membrane-bound ATPase activity is sensitive to rutamycin while the F6-dependent, membrane-bound ATPase activity is insensitive to rutamycin. F1-ATPase and Type II ATPase require F6 in addition to oligomycin sensitivity conferral protein and FB to reconstitute 32Pi-ATP exchange activity in silicotungstic acid particles. This F6 requirement for the 32Pi-ATP exchange is not related to the F6 effect on the ATPase binding. The Type I ATPase and therefore the 26,500-dalton subunit associated with it requires F6 and FB to reconstitute 32Pi-ATP exchange activity in silicotungstic acid particles. Oligomycin sensitivity conferral protein can be interchanged with the 26,500-dalton ATPase binding protein in the binding of the ATPase and the 32Pi-ATP exchange.
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PMID:Subunit interaction in the mitochondrial H+-translocating ATPase. The role of oligomycin sensitivity conferral protein and coupling factor 6 in ATPase binding and Pi-ATP exchange in mitochondrial membranes. 613 98

This review concerns the catalytic sector of F1 factor of the H+-dependent ATPases in mitochondria (MF1), bacteria (BF1) and chloroplasts (CF1). The three types of F1 have many similarities with respect to the structural parameters, subunit composition and catalytic mechanism. An alpha 3 beta 3 gamma delta epsilon stoichiometry is now accepted for MF1 and BF1; the alpha 2 beta 2 gamma 2 delta 2 epsilon 2 stoichiometry for CF1 remains as matter of debate. The major subunits alpha, beta and gamma are equivalent in MF1, BF1 and CF1; this is not the case for the minor subunits delta and epsilon. The delta subunit of MF1 corresponds to the epsilon subunit of BF1 and CF1, whereas the mitochondrial subunit equivalent to the delta subunit of BF1 and CF1 is probably the oligomycin sensitivity conferring protein (OSCP). The alpha beta gamma assembly is endowed with ATPase activity, beta being considered as the catalytic subunit and gamma as a proton gate. On the other hand, the delta and epsilon subunits of BF1 and CF1 most probably act as links between the F1 and F0 sectors of the ATPase complex. The natural mitochondrial ATPase inhibitor, which is a separate protein loosely attached to MF1, could have its counterpart in the epsilon subunit of BF1 and CF1. The generally accepted view that the catalytic subunit in the different F1 species is beta comes from a number of approaches, including chemical modification, specific photolabeling and, in the case of BF1, use of mutants. The alpha subunit also plays a central role in catalysis, since structural alteration of alpha by chemical modification or mutation results in loss of activity of the whole molecule of F1. The notion that the proton motive force generated by respiration is required for conformational changes of the F1 sector of the H+-ATPase complex has gained acceptance. During the course of ATP synthesis, conversion of bound ADP and Pi into bound ATP probably requires little energy input; only the release of the F1-bound ATP would consume energy. ADP and Pi most likely bind at one catalytic site of F1, while ATP is released at another site. This mechanism, which underlines the alternating cooperativity of subunits in F1, is supported by kinetic data and also by the demonstration of partial site reactivity in inactivation experiments performed with selective chemical modifiers. One obvious advantage of the alternating site mechanism is that the released ATP cannot bind to its original site.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Recent developments on structural and functional aspects of the F1 sector of H+-linked ATPases. 623 69

The purified, soluble F1-ATPase was modified by several covalently reacting inhibitors, either known or considered to bind to the active site bearing beta-subunit, to cause partial inhibition up to 99%. The modified enzyme was then reconstituted in the presence of OSCP (oligomycin sensitivity conferring protein) with submitochondrial particles (SMP) almost completely (greater than 99%) denuded of active F1-ATPase and was assayed for oligomycin-sensitive ATPase and oxidative phosphorylation activities. The inhibitors used were 1-fluoro-2,4-dinitrobenzene (FDNB), N-(ethoxycarbonyl)-2-ethoxy-1,2-dihydroquinoline (EEDQ), 1-cyclohexyl-3-(2-morpholinoethyl)carbodiimide metho-p-toluenesulfonate (CMCD), quinacrine mustard (QM), 5-(dimethylamino)-naphthalene-1-sulfonyl chloride (dansyl-Cl), 5'-[p-(fluoro-sulfonyl)benzoyl]adenosine (FSBA), and N,N'-dicyclohexylcarbodiimide (DCCD). The SMP reconstituted with unmodified F1 exhibited oxidative phosphorylation and oligomycin-sensitive ATPase (in the presence of uncouplers) activities as high as 500 nmol min-1 mg-1 and 8 mumol min-1 mg-1, respectively. The systems reconstituted with F1 modified to cause various degrees of inhibition with FDNB, EEDQ, CMCD, QM, and dansyl-Cl exhibited the same degree of inhibition of oxidative phosphorylation and oligomycin-sensitive ATPase activities as the inhibition of the ATPase activity of the modified F1 before reconstitution. The systems reconstituted with FSBA-modified F1 showed the following relative degrees of inhibition: oxidative phosphorylation greater than oligomycin-sensitive ATPase of particles greater than ATPase of soluble F1. In contrast, the systems reconstituted with DCCD-modified F1 showed much greater inhibition of oligomycin-sensitive ATPase than of oxidative phosphorylation activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibitory chemical modifications of F1-ATPase: effects on the kinetics of adenosine 5'-triphosphate synthesis and hydrolysis in reconstituted systems. 623 51

Mitochondrial ATPase inhibitor protein (IF1) reacts reversibly with complex V and inhibits up to 90% of its ATPase activity. Both the rate and extent of inhibition are pH and temperature dependent and increase as the pH is lowered from pH 8 tp 6.7 (the lowest pH examined) or as the temperature is increased from 4 to 36 degrees C. Nucleotide triphosphates plus Mg2+ ions are required for inhibition of complex V ATPase activity by IF1. In the presence of Mg2+ ions, the effectiveness order of nucleotides is ATP greater than ITP greater than GTP greater than UTP. Highly purified complex V, which requires added phospholipids for expressing ATPase and ATP-Pi exchange activities, cannot be inhibited by IF1 plust ATP-Mg2+ unless phospholipids are also added. This indicates that the active state of the enzyme is necessary for the IF1 effect to be manifested, because F1-ATPase, which does not contain nor require phospholipids for catalyzing ATP hydrolysis, can be inhibited by IF1 plus ATP-Mg2+ in the absence of added phospholipids. The IF1-inhibited complex V, but not IF1-inhibited F1-ATPase, can be reactivated by incubation at pH greater than 7.0 in the absence of ATP-Mg2+. The reactivation rate is pH dependent and is influenced by temperature and enzyme concentration. Complex V preparations contain small and variable amounts of IF1. This endogenous IF1 behaves the same as added IF1 with respect to conditions described above for inhibition and reactivation and can result in 25-50% inhibition in different complex V preparations. However, complex V lacking endogenous IF1 can be reconstituted from F0, F1, oligomycin sensitivity conferring protein, and phospholipids. Inhibition of this reconstituted preparation in the presence of ATP-Mg2+ depends entirely on addition of IF1. In general, the ATP-Pi exchange activity of complex V is more sensitive to the chemical inhibitors of F1-AtPase tha its ATPase activity. This is not so, however, for IF1. Under conditions that IF1 caused approximately 75% inhibition of ATPase activity of complex V, no more than 10% of the ATP-Pi exchange activity was inhibited.
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PMID:Mitochondrial adenosinetriphosphatase inhibitor protein: reversible interaction with complex V (ATP synthetase complex). 626 16


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