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)

Earlier work has shown that mitochondrial proteins synthesized in the cytosol are initially made as larger precursors which are then transferred into the organelles and processed to their mature size in the absence of protein synthesis. It is now demonstrated that depletion of the mitochondrial matrix ATP in intact yeast spheroplasts by various combinations of inhibitors and mutations prevents the processing of precursors to the three largest subunits of the mitochondrial F1-ATPase and two subunits of the cytochrome bc1 complex. These polypeptides are all synthesized outside the mitochondria and transported to the mitochondrial matrix or inserted into the mitochondrial inner membrane. In contrast, depletion of the matrix ATP does not inhibit processing of the precursor to cytochrome c peroxidase; this enzyme is located in the mitochondrial intermembrane space which is freely accessible to ATP made in the cytosol. The processing of extramitochondrially made precursors or the transfer of these precursors across the mitochondrial inner membrane is thus dependent on ATP.
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PMID:Energy-dependent processing of cytoplasmically made precursors to mitochondrial proteins. 38 40

Antibodies against isolated beef-heart ubiquinol--cytochrome c reductase (complex III) have been characterized. Antibodies to complex III react strongly with isolated beef heart complex III and intact beef heart mitochondria, as shown by immunodiffusion and rocket electrophoresis experiments. The complex III content of intact mitochondria can be quantitated with rocket electrophoresis using isolated complex III as a standard. Antibodies to complex III also react with beef liver mitochondria and with both heart and liver mitochondria from rats. The latter are very weak antigens compared to beef heart material. Antibodies to complex III do not react with respiratory chain complexes I and IV, or F1-ATPase from beef heart mitochondria, but gives a slight, but variable, reaction with complex II and the membrane fraction isolated from complex V (oligomycin-sensitive ATPase). Antigenic sites are located on at least five of the seven peptides of complex III. These peptides are presumably lacking in respiratory chain complexes which do not react with antibodies to complex III, and are assumed to be uniquely located in complex III. Antiserum against complex III inhibitis duroquinol--cytochrome c reductase activity in isolated complex III and in complex III incorporated into phospholipid vesicles. Oxidation of NADH and succinate is not affected in submitochondrial particles treated with 6-times more antibody than required for complete inhibition of enzyme activity in free complex III or in complex III-phospholipid vesicles.
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PMID:Immunological studies on beef-heart ubiquinol--cytochrome c reductase (complex III) 41 53

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

A spin-labeled photoaffinity ATP analog, 2-N3-2',3'-SL-ATP (2-N3-SL-ATP) was specifically loaded at catalytic (exchangeable) or noncatalytic (nonexchangeable) nucleotide-binding sites on nucleotide-depleted mitochondrial F1-ATPase. Photolysis of the enzyme complexes resulted in the specific modification of beta-Tyr-345 when the catalytic sites were occupied and beta-Tyr-368 when noncatalytic sites were filled. These are the same amino acid assignments that were made previously using 2-N3ATP. The results demonstrate that the attachment of a spin label moiety to the ribose ring does not prevent proper binding of the analog at both types of nucleotide sites on F1-ATPase and suggest that the probe can be used for investigations of the nucleotide-binding sites using ESR spectroscopy. Enzyme that is in complex with the 2-N3-SL-ATP exhibits an ESR spectrum that is typical for highly immobilized nitroxyl radicals both in the dark or after photolysis. Additional peaks in the high- and low-field regions arise due to dipolar spin interactions most likely involving a pair of catalytic and noncatalytic sites. The two sites are calculated to be approximately 15 A apart. This distance, obtained through ESR spectroscopy, combined with the finding that the 2 labeled amino acids are only 23 residues apart from each other, further supports an adenylate kinase-like arrangement of nucleotide binding sites on F1-ATPase where catalytic and noncatalytic sites are in close proximity (Vogel, P. D., and Cross, R. L. (1991) J. Biol. Chem. 266, 6101-6105).
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PMID:Nucleotide binding sites on mitochondrial F1-ATPase. Electron spin resonance spectroscopy and photolabeling by azido-spin-labeled adenine nucleotides support an adenylate kinase-like orientation. 131 7

The bovine heart mitochondrial F1-ATPase (MF1) is inactivated by 5'-p'-fluorosulfonylbenzoyl-8-azidoadenosine (8-N3-FSBA) with an apparent Kd of 0.47 mM at pH 8.0 and 23 degrees C in the absence of light. Irradiation of dark-inactivated enzyme with long-wavelength UV light produced cross-linked dimers and, to a lesser extent, trimers made up of alpha and beta subunits. Two major radioactive peptides were resolved by high-performance liquid chromatography from tryptic digests of MF1 which had been inactivated with 8-N3-FSB[3H]A at pH 8.0 in the dark. Sequence analysis revealed that one contained Tyr-beta 368 and the other contained His-beta 427 which were labeled in the ratio of 18:15. Sequence analysis of radioactive tryptic peptides isolated from digests of irradiated MF1 derivatized with 8-N3-FSB[3H]A showed that photolysis induced cross-linking of His-427 to Tyr-345 within the same beta subunit in high yield. When MF1 derivatized with 8-N3-FSB[3H]A was irradiated in the presence of beta-mercaptoethanol, alpha-beta cross-links were eliminated, whereas those between His-beta 427 and Tyr-beta 345 were unaffected. Analysis of radioactive peptides in tryptic digests of MF1 derivatized with 8-N3-FSB[3H]A and then irradiated in the presence or absence of beta-mercaptoethanol showed that the nitrene generated from reagent attached to Tyr-beta 368 participates in formation of alpha-beta cross-links in the absence of beta-mercaptoethanol. Therefore, the nitrene generated from reagent tethered to His-beta 427 is shielded from solvent and reacts with the side chain of Tyr-beta 345. In contrast, the nitrene generated from reagent attached to Tyr-beta 368 is exposed to solvent, but in the absence of scavengers reacts with side chains present in the alpha subunit. Irradiation of MF1, partially inactivated with 8-N3-FSBA, led to loss of residual ATPase activity without affecting residual ITPase activity. The amount of photoinactivation was greater when partial dark inactivation was performed at pH 6.9, where modification of His-beta 427 predominates, than when performed at pH 8.0, where modification of Tyr-beta 368 predominates. This suggests that cross-linking of His-beta 427 to Tyr-beta 345, and not cross-linking of alpha and beta subunits, is responsible for the augmented inactivation induced by irradiation.
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PMID:Irradiation of the bovine mitochondrial F1-ATPase previously inactivated with 5'-p-fluorosulfonylbenzoyl-8-azido-[3H]adenosine cross-links His-beta 427 to Tyr-beta 345 within the same beta subunit. 132 8

Thyroid hormone is one of the few known physiological regulators of mammalian mitochondrial biogenesis. Although it exerts a global effect on biogenesis, it does so by regulating the expression of a limited number of unidentified mitochondrial proteins. We have investigated these hormone-regulated proteins in rat liver. Hormone injection induced a 30-fold increase in the levels of cytochrome-c1 mRNA after 3 d. In addition, the mRNA for the growth-activated adenine-nucleotide translocator, ANT2, was increased 13-fold and that for the ATPase N,N'-dicyclohexylcarbodiimide-binding protein increased 4-5-fold. Mitochondrial transcripts of cytochrome-oxidase subunit I also increased. No changes were found in the mRNA levels for the F1-ATPase beta-subunit or cytochrome oxidase IV. A single low dose of triiodothyronine induces rapid increases in cytochrome-c1 and ANT2 mRNA species which parallel changes in the activity of the hormone-responsive malic enzyme, but are earlier than other mitochondrial biogenetic events. These data strengthen the view that thyroid hormone regulates synthesis of specific components within each respiratory-chain complex and that these products apparently play key roles in inner-membrane biogenesis and assembly. The significance of ANT2 induction is also discussed with respect to the rapid respiratory response induced by thyroid hormone.
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PMID:Transcript levels for nuclear-encoded mammalian mitochondrial respiratory-chain components are regulated by thyroid hormone in an uncoordinated fashion. 132 Oct 44

Purified nicotinamide nucleotide transhydrogenase from beef heart was investigated with respect to labeling and subsequent sequence analysis of a nicotinamide nucleotide-binding site. A photo-activated azide derivative, 8-azidoadenosine 5'-monophosphate, was used as an active-site-directed photoaffinity label, which was shown to be specific for the NAD(H)-binding site in the dark. Light-activated incorporation of the label in transhydrogenase was accompanied by an inactivation, which approached 100% at the incorporation of about 1 mol label/mol transhydrogenase monomer. As expected from the assumed site-specificity of the label. NADH prevented both labeling and inactivation to some extent. However, NADPH also prevented labeling and inactivation marginally. The oxidized substrates NAD+ and NADP+ were inhibitory by themselves under these conditions, and the substrate analogs 5'-AMP and 2'-AMP were also poor protectors. The NAD(H)-site specificity of the azido compound was thus largely lost upon illumination and covalent modification. Radioactive labeling of transhydrogenase with 8-azido-[2-3H]-adenosine 5'-monophosphate followed by protease digestion, isolation of labeled peptides and amino-acid sequence analysis showed that Tyr 1006 in the sequence 1001-1027 close to the C-terminus was labeled. This sequence shows homologies with nucleotide-binding sequences in, e.g., F1-ATPase. On the basis of sequence homologies with other NAD(P)-dependent enzymes it is proposed that transhydrogenase contains 4 nucleotide-binding sites, of which 2 constitute the adenine nucleotide-binding domains of the catalytic sites for NAD(H) and NADP(H) close to the N- and C-terminals, respectively. Each of these domains has an additional vicinal nucleotide-binding sequence which may constitute a non-catalytic nucleotide-binding site or the nicotinamide nucleotide-binding domain of the catalytic site. The present results indicate that 8-azidoadenosine 5'-monophosphate is kinetically specific for the catalytic NAD(H)-binding site, but reacts covalently with Tyr 1006 of the putative non-catalytic site or nicotinamide nucleotide-binding domain formed by the 1001-1027 amino acid sequence of the catalytic NADP(H)-binding site. Interactions between the catalytic NAD(H) and NADP(H) binding sites, and the assumed non-catalytic sites, may be facilitated by a ligand-triggered formation of a narrow pocket, which normally allows an efficient hydride ion transfer between the natural substrates.
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PMID:Energy-linked transhydrogenase. Characterization of a nucleotide-binding sequence in nicotinamide nucleotide transhydrogenase from beef heart. 132 29

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.
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PMID:Isolation and characterisation of a functional alpha beta heterodimer from the ATP synthase of Rhodospirillum rubrum. 132 70

Mitochondria contain a nuclear-encoded heat shock protein, HSP60, which functions as a chaperonin in the post-translational assembly of multimeric proteins encoded by both nuclear and mitochondrial genes. We have isolated and sequenced full-length complementary DNAs coding for this mitochondrial chaperonin in Arabidopsis thaliana and Zea mays. Southern-blot analysis indicates the presence of a single hsp60 gene in the genome of A. thaliana. There is a high degree of homology at the predicted amino acid levels (43 to 60%) between plant HSP60s and their homologues in prokaryotes and other eukaryotes which indicates that these proteins must have similar evolutionarily conserved functions in all organisms. Northern- and western-blot analyses indicate that the expression of the hsp60 gene is developmentally regulated during seed germination. It is also heat-inducible. Developmental regulation of the (beta-subunit of F1-ATPase, an enzyme complex that is involved in the cyanide-sensitive mitochondrial electron transport system, indicates that imbibed embryos undergo rapid mitochondrial biogenesis through the early stages of germination. Based on the functional role of HSP60 in macromolecular assembly, these data collectively suggest that the presence of higher levels of HSP60 is necessary during active mitochondrial biogenesis, when the need for this protein is greatest in assisting the rapid assembly of the oligomeric protein structures.
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PMID:cDNA clones encoding Arabidopsis thaliana and Zea mays mitochondrial chaperonin HSP60 and gene expression during seed germination and heat shock. 134 37

Biogenesis of mammalian mitochondria requires the participation of both nuclear and mitochondrial genes. In order to study the expression and coordination of these two sets of genes, serum-deprived, quiescent NIH 3T3 cells were activated by serum addition. The steady-state levels of the transcripts for two growth-response genes (the mitochondrial adenine-nucleotide translocator and non-mitochondrial beta-actin), one nuclear-encoded respiratory-chain component (F1-ATPase beta-subunit) and the mitochondrial-encoded subunit I of cytochrome oxidase decreased significantly in quiescent cells and were rapidly restored with similar kinetics after addition of serum. The transcripts for two additional nuclear-encoded mitochondrial genes (cytochrome c1 and cytochrome oxidase subunit IV) did not respond to serum deprivation or growth activation. These results imply that mitochondrial biogenesis is at least partially regulated through growth-dependent mechanisms. Furthermore, the expression of nuclear genes encoding mitochondrial respiratory-chain components does not appear to be tightly coordinated, suggesting the existence of multiple control circuits.
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PMID:Differential regulation of the transcript levels of some nuclear-encoded and mitochondrial-encoded respiratory-chain components in response to growth activation. 137 2

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