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)

The nearest neighbor relationships between the Fo subunits of bovine mitochondrial H+-ATPase were studied by using copper-o-phenanthroline, an SH-oxidizing cross-linking reagent. The cross-linked samples of purified H+-ATPase, F1-ATPase or Fo were analyzed by sodium dodecyl sulfate/polyacrylamide gel electrophoresis (SDS-PAGE) and the disulfide cross-linked polypeptides were identified by enzyme-linked immunosorbent assay and immunoblot transfer using subunit specific antisera. SDS-PAGE of H+-ATPase showed several cross-links, although none involved subunits of Fo sector linked to those of F1. Both H+-ATPase and Fo showed formation of a 45-kDa product. Upon reduction, the 45-kDa component gave rise to a 21-kDa band, identified as oligomycin-sensitivity-conferring protein (OSCP), and a 24-kDa band. These two proteins thus appear to be near neighbors with their cysteine residues in close proximity with each other. Under the conditions of cross-linking, there was a concentration-dependent decrease in the Pi-ATP exchange activity of the intact H+-ATPase as well as of H+-ATPase reconstituted with copper-o-phenanthroline-treated Fo and untreated F1. The site of inhibition appeared to residue in the Fo sector. Loss of Pi-ATP exchange occurred at the same time as formation of the 45-kDa product. Our present data showing copper-o-phenanthroline-induced interactions of the 24-kDa protein with the OSCP and simultaneous inactivation of Pi-ATP exchange activity of the complex strengthen earlier suggestions [Hadikusumo, R.G., Hertzog, P.J. & Marzuki, S. (1984) Biochim. Biophys. Acta 765,258-267] that the 24-kDa protein may be a bona fide subunit of Fo.
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PMID:Cross-linking of bovine mitochondrial H+-ATPase by copper--o-phenanthroline. Interaction of the oligomycin-sensitivity-conferring protein with a 24-kDa protein. 286 96

The yeast nuclear gene ATP2 encodes a F1-ATPase beta-subunit protein of 509 amino acids with a predicted mass of 54,575 daltons. In contrast to the ATPase beta-subunit proteins determined previously from Escherichia coli and various plant sources, the yeast mitochondrial precursor peptide contains a unique cysteine residue within its immediate amino terminus. Expression of an in-frame deletion in ATP2 between residues 28 and 34 to eliminate this single cysteine residue located near the processing site of the matrix protease does not prevent the in vivo delivery of the subunit to mitochondria or its assembly into a functional ATPase complex. Thus, the import F1 beta-subunit into mitochondria does not require a covalent modification of the type utilized for the secretion of the major lipoprotein from E. coli. In addition, analysis of the level of the major F1-ATPase subunits in mitochondria prepared from an atp2- disruption mutant demonstrates that the in vivo import of these catalytic subunits is not dependent on each other. These data and additional studies, therefore, suggest that the determinants for mitochondrial delivery reside within the amino terminus of the individual precursors.
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PMID:Nuclear genes coding the yeast mitochondrial adenosine triphosphatase complex. Primary sequence analysis of ATP2 encoding the F1-ATPase beta-subunit precursor. 286 86

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

cDNA clones encoding the gamma-subunit of chloroplast ATP synthase were isolated from a spinach library using synthetic oligonucleotide probes. The predicted amino acid sequence indicated that the mature chloroplast gamma-subunit consists of 323 amino acid residues and is highly homologous (55% identical residues) with the sequence of the cyanobacterial subunit. The positions of the four cysteine residues were identified. The carboxyl-terminal region of the chloroplast gamma-subunit is highly homologous with those of the gamma-subunits from six other sources (bacteria and mitochondria) sequenced thus far.
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PMID:The gamma-subunit of ATP synthase from spinach chloroplasts. Primary structure deduced from the cloned cDNA sequence. 289 6

In order to assess the role of thiol groups in the Fo part of the ATP synthase in the coupling mechanism of ATP synthase, we have treated isolated Fo, extracted from beef heart Complex V with urea, with thiol reagents, primarily with diazenedicarboxylic acid bis-(dimethylamide) (diamide) but also with Cd2+ and N-ethylmaleimide. FoF1 ATP synthase was reconstituted by adding isolated F1 and the oligomycin-sensitivity-conferring-protein (OSCP) to Fo. The efficiency of reconstitution was assessed by determining the sensitivity to oligomycin of the ATP hydrolytic activity of the reconstituted enzyme. Contrary to Cd2+, incubation of diamide with Fo, before the addition of F1 and OSCP, induced a severe loss of oligomycin sensitivity, due to an inhibited binding of F1 to Fo. This effect was reversed by dithiothreitol. Conversely, if F1 and OSCP were added to Fo before diamide, no effect could be detected. These results show that F1 (and/or OSCP) protects Fo thiols from diamide and are substantiated by the finding that the oligomycin sensitivity of ATP hydrolysis activity of isolated Complex V was also unaltered by diamide. Gel electrophoresis of FoF1 ATP synthase, reconstituted with diamide-treated Fo, revealed that the loss of oligomycin sensitivity was directly correlated with diminution of band Fo 1 (or subunit b). Concomitantly a band appeared of approximately twice the molecular weight of subunit Fo 1. As this protein contains only 1 cysteine residue (Walker, J. E., Runswick, M. J., and Poulter, L. (1987) J. Mol. Biol. 197, 89-100), the effect of diamide is attributed to the formation of a disulfide bridge between two of these subunits. These results offer further evidence for the proposal, based on aminoacid sequence and structural analysis, that subunit Fo 1 of mammalian Fo is involved in the binding with F1 (Walker et al. (1987]. N-Ethylmaleimide affects oligomycin sensitivity to a lesser extent than diamide, suggesting that the mode of action of these reagents (and the structural changes induced in Fo) is different.
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PMID:ATP synthase complex from beef heart mitochondria. Role of the thiol group of the 25-kDa subunit of Fo in the coupling mechanism between Fo and F1. 290 33

The 1701-base nucleotide sequence (not including the poly(A) tail) of a cDNA for the gamma subunit of the ATP synthase from Chlamydomonas reinhardtii was determined. A start translation sequence, 23 bases in from the 5' end, initiates an 1074-base-long open reading frame. The sequence of the first 21 amino acids at the amino-terminal end of the mature gamma subunit from C. reinhardtii was determined and compared to the deduced amino acid sequence of the open reading frame. From this it was determined that the mature protein contains 323 amino acids, with the first 35 amino acids probably being part of the transit peptide. The length of the mature protein is the same as that for the mature gamma subunit from spinach, for which only a few of the amino acids of the transit peptide are known. The similarity of the two mature proteins at the nucleotide level is 56% while at the amino acid level it is 77%. In addition, the 3 cysteines, which in spinach are involved in the energy-linked catalytic functions of the ATP synthase, are conserved in the predicted amino acid sequence for the gamma subunit from C. reinhardtii. In contrast, the mature C. reinhardtii gamma subunit contains 3 additional cysteine residues not found in the spinach gamma subunit.
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PMID:cDNA sequence and predicted primary structure of the gamma subunit from the ATP synthase from Chlamydomonas reinhardtii. 290 36

Two ATPase inhibitor proteins were isolated together from bovine heart mitochondria by a new procedure; each was purified further. The one inhibitor is a Ca2+-binding protein. It was found to contain 2 cysteine residues/mol as well as threonine and proline residues, all of which the other inhibitor (first isolated by Pullman and Monroy (Pullman, M.E., and Monroy, G. C. (1963) J. Biol. Chem. 238, 3762-3769] lacks. Its minimal molecular weight was 6390 with 62 amino acid residues/mol, and its isoelectric point was 4.6. Besides differences in size, composition, and response to Ca2+, the two inhibitor proteins also differed in response to sulfhydryl compounds, pH, KCl, and cardiolipin. Inhibition by the two inhibitor proteins was additive. Both cross-reacted with mitochondrial ATPase from rat skeletal muscle. Calmodulin, with or without Ca2+, had no effect on the activity of either inhibitor protein. Antibody to the Ca2+-binding inhibitor protein did not interact with the Pullman-Monroy inhibitor or have any effect on its activity. The antibody interacted with intact submitochondrial particles that contained both inhibitor proteins but not with particles from which only the Ca2+-binding inhibitor had been removed. Clearly, the two inhibitors are distinct immunologically as well as in other properties. The two types of inhibitor protein were also isolated from rat skeletal muscle mitochondria by the new procedure.
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PMID:The calcium-binding ATPase inhibitor protein from bovine heart mitochondria. Purification and properties. 340 40

Purified F1-ATPase from Micrococcus lysodeikticus contains zinc in the amount of 1 mol/mol of enzyme. This zinc content correlates with standard values of ATPase activity (assayed with Ca2+-ATP as substrate) of the protein, i.e. 5--6 mumol substrate hydrolysed . min-1 . mg-1. Prolonged dialysis against EDTA results in a zinc-free protein which concomitantly loses its ATPase activity. Chelators such as Zincon, EDTA and L-cysteine inhibit the ATPase activity in concentration and/or time dependence related to their affinity for the metal ion involved. Reconstitution of the metallo (Zn2+) protein is demonstrated by the incorporation to the zinc-free protein of 65Zn2+ in amount near the 1 mol/mol of enzyme. This incorporation was concomitant with the regain of ATPase activity. The inhibition by EDTA and Zincon is reversed specifically by Zn2+ while the inhibition by EDTA is prevented by Zn2+ and Mn2+ and to, a minor extent, by Cd2+. Zn2+ and Ca2+ ions are involved and are probably mandatory in the ATPase activity of M. lysodeikticus F1 but their roles appear to be different and not exchangeable. Other divalent metal ions inhibit the Ca2+-ATPase activity of the Zn2+ protein by the following decreasing order; Hg2+, Fe2+, Co2+, Cd2+, Mn2+, Mg2+. M. lysodeikticus F1-ATPase is thus identified as a metallo (zinc) protein, which requires additional divalent metal ions for ATP hydrolysis.
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PMID:Identification of a bacterial energy-transducing ATPase as a metallo (Zn2+) protein. Effect of chelating agents and divalent metal ions on ATPase activity. 621 May 27

The effect of alloxan on inorganic phosphate (Pi) transport in isolated mouse liver mitochondria was studied by swelling techniques. Mitochondria preincubated with alloxan exhibited inhibition of Pi uptake assessed by NH4-Pi, K+-ionophore and acetate/Pi exchange systems, and also inhibition of Pi efflux assessed by the K+-ionophore and FCCP1-ATP systems. The effect on Pi uptake was pH dependent. Swelling in the FCCP-ATP system in the presence of alloxan and NEM was unaffected by rotenone and cysteine but was blocked by oligomycin, whereas the swelling caused by mersalyl was unaffected by rotenone, blocked by oligomycin, and reversed by cysteine. Alloxan stimulated mitochondrial ATPase activity, this effect being blocked by oligomycin. These findings suggest that alloxan causes an irreversible and pH-dependent inhibition of Pi influx and efflux in isolated mouse liver mitochondria.
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PMID:Effect of alloxan on phosphate transport in isolated mouse liver mitochondria: influence of pH, and differentiation between influx and efflux of phosphate. 621 35

Purified ATP synthase (F1F0) from Escherichia coli K12 was labeled with the hydrophobic photoreactive label 1-palmitoyl 2-(2-azido-4-nitro)benzoyl sn-glycero-3-[3H]phosphocholine in reconstituted proteoliposomes. The F0-subunit b was predominantly labeled. A very low amount of label was detected on the other F0-subunits a and c. The label in subunit b could be traced back by proteolytic digestion to the NH2-terminal fragment 1 to 53 which contains the stretch of hydrophobic amino acid residues 1 to 32. By sequencing the intact protein, the distribution of label among the amino acids in this segment was determined. Cysteine 21 was predominantly labeled. Other labeled amino acids occurred at the NH2-terminal (Asn-2) and at position 26 (tryptophan). Due to the restricted mobility of the label in the lipid bilayer, these residues are suggested to be located in or close to the polar head of the lipid bilayer. These results will be compared with predictions for the arrangement of the polypeptide b derived from the hydrophobicity profile.
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PMID:Labeling of subunit b of the ATP synthase from Escherichia coli with a photoreactive phospholipid analogue. 629 10

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