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)

Mammalian cells differ considerably in the duration of anoxia which they can tolerate despite the fact that dramatic bioenergetic changes occur rapidly. Previous studies indicate that the ability to tolerate anoxia is at least partly due to an endogenous signal transduction system that senses O2 deficiency and signal altered ion transport functions in the mitochondria. The responses included inhibition of ATP synthase, ADP/ATP exchange, inorganic phosphate uptake, mitochondrial swelling, and loss of the mitochondrial proton-motive force. An important distinction between KCN toxicity and anoxia is that KCN does not elicit these protective mechanisms. Thus, the ability of a compound to elicit these mechanisms in KCN-treated cells provides an assay for potential agonists of the endogenous protective mechanisms.
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PMID:Protective effect of dicalciphor during mitochondrial failure. 150 61

Energy-dependent activation of the chloroplast ATP synthase (CF0CF1) has been elucidated by investigating the conformational changes, the ADP effect, and the catalytic cooperativity of ATP hydrolysis. Conformational change was observed by measuring the reactivity of Lys-109 of the epsilon subunit of chloroplast coupling factor 1 with pyridoxal 5'-phosphate. In the postillumination dark, the Lys-109 reactivity decreased biphasically with half-times of less than 1 and 17 s. NH4Cl accelerated the slow phase decrease. Addition of ADP (0.2 microM) in the postillumination dark inactivated CF0CF1 (0.05 microM) with a half-time of 12 s. At high concentration of CF0CF1 (1.2 microM), inactivation occurred without exogenously added ADP with a half-time of 12 s. Accompanying the inactivation, the positive catalytic cooperativity of ATP hydrolysis decreased. Addition of 10 mM NH4Cl before ADP (0.2 microM) decelerated the ADP-induced inactivation to a half-time of 64 s. Throughout this inactivation, the positive catalytic cooperativity was maintained at a high level. These results suggest three distinct conformations of CF0CF1, EH, EM, and EL, and their ADP binding forms EM-ADP and EL-ADP. EH, EM, and EL have a low affinity for ADP, a high affinity for ADP, and low accessibility to ADP, respectively. EM and EL exhibit highly cooperative ATP hydrolysis. ATP hydrolysis catalyzed by EM-ADP exhibits no cooperativity. EL-ADP is inactive.
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PMID:Energy-dependent changes in conformation and catalytic activity of the chloroplast ATP synthase. 153 Nov 39

The nuclear mutant AB1-4A/8/100, a respiratory-competent strain altered in the regulation of ATP synthesis, has been shown to be modified in the relative stoichiometry of the mtDNA-encoded proteolipids of the F0 sector of ATP synthase: the ratios mutant/wild type of the proteolipids were equal to 0.4/0.7/1 for Su8/Su6/Su9, respectively. This defect results from the simultaneous presence of two nuclear genes which promote a cryosensitive phenotype on a nonfermentable carbon source. Measurements of mitochondrial protein synthesis carried out "in vivo" and "in organello" evidenced a specific defect in the synthesis of subunits 6 and 8. Measurements of the steady state levels of mitochondrial mRNA showed that the defect in subunits 6 and 8 was correlated with a modification of the expression of a cotranscript ATP8-ATP6. This cotranscript is matured at a unique site to give two cotranscripts of 4600 and 5200 bases in length. In mutant mitochondria, the ratio between both cotranscripts, 5200/4600, was lowered. In parallel, expression of the whole mitochondrial transcription unit supporting the genes COXI, ATP8, ATP6, and RF3 was enhanced. However, despite this over expression, the amount of the long cotranscript ATP8-ATP6 remained lower than in wild type mitochondria.
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PMID:Regulation by nuclear genes of the mitochondrial synthesis of subunits 6 and 8 of the ATP synthase of Saccharomyces cerevisiae. 153 Nov 41

The a subunit is a membrane component of the F1F0-ATP synthase from Escherichia coli. Regions of a which appear important for membrane insertion or F0 assembly have been identified by analysis of both deletion mutants and fusion proteins which link the mutant a subunits to alkaline phosphatase. This analysis suggests the hydrophilic, amino-terminal domain of a is required for proper membrane targeting and/or insertion of the nascent polypeptide. In addition, the subcellular fractionation of four different a subunit-beta-galactosidase fusion proteins suggests this domain is localized to the periplasm, in agreement with a proposed topological model of the protein (Lewis, M.J., Chang, J.A., and Simoni, R.D. (1990) J. Biol. Chem. 265, 10541-10550). Deletions within the next three putative loops of a appear to have no significant effect on membrane targeting or insertion. Rather, they seem to interfere with the subsequent assembly of a functional enzyme.
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PMID:Deletions in hydrophilic domains of subunit a from the Escherichia coli F1F0-ATP synthase interfere with membrane insertion or F0 assembly. 153 41

The cDNA for subunit d of rat mitochondrial H(+)-ATP synthase was cloned from a brain cDNA library. The protein contains internally repeat structures that have sequences similar to those of other ATP-related proteins. The antibodies raised against the protein A-subunit d fusion protein expressed in E. coli specifically recognized only the protein in the mitochondria. The Na2 CO3 fractionation followed by immunoblotting analyses suggest that at least a part of the protein is inserted into the membrane.
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PMID:cDNA cloning for and preparation of antibodies against subunit d of H(+)-ATP synthase in rat mitochondria. 153 50

Two types of cDNA clones encoding a precursor of the delta-subunit of the human mitochondrial F0F1 ATP synthase complex (EC 3.6.1.34) have been isolated from a human cDNA library. Both clones contain a 504 basepair open reading frame that encodes a polypeptide with a presequence 22 amino acids in length and a mature protein 146 residues in length. The difference between the two types of cDNA clones is the presence of a 296 basepair insert in the 3' untranslated region of the delta-subunit cDNA in one of the types.
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PMID:Molecular cloning of an import precursor of the delta-subunit of the human mitochondrial ATP synthase complex. 153 33

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

In order to better understand why higher eukaryotic membrane proteins, in contrast to soluble proteins, are not readily expressed in Escherichia coli, the gene encoding the liver mitochondrial phosphate transporter (H+/Pi symporter) (Ferreira, G. C., Pratt, R. D., and Pedersen, P. L. (1989) J. Biol. Chem. 264, 15628-15633), was subcloned into a plasmid (pFOG402) containing the alkaline phosphatase promoter and leader sequence. Although this system is highly efficient in overexpressing soluble mitochondrial proteins in E. coli, e.g. alpha and beta subunits of the liver ATP synthase, it fails to express the H+/Pi transporter. Expression is not obtained by truncation of the transporter gene from either the 3' or 5' end, by fusing the mature transporter gene to genes encoding either the alpha or beta ATP synthase subunits, or by using different expression plasmids. Significantly, the H+/Pi transporter is overexpressed in E. coli provided its cDNA is first truncated at the 3' end (carboxyl-terminal end) and fused to a cDNA fragment derived from the ATP synthase alpha subunit gene. In fact, progressive deletions from the 3' end of the transporter cDNA produce a ladder of increasingly overexpressed fusion proteins which account from the largest to the smallest for approximately 2.5-14% of the total bacterial cell protein. The minimal truncation necessary from the 3' end is 192 base pairs corresponding to 64 COOH-terminal amino acids. This corresponds to 20% of the transporter and involves removal of one of the six predicted membrane-spanning segments. In a variety of additional experiments designed to define the molecular basis for E. coli's inability to express the complete liver H+/Pi transporter, problems related to cell toxicity and transcription were ruled out. However, in vitro transcription-translation assays revealed that the complete transporter is readily expressed when eukaryotic, but not prokaryotic, ribosomes are present. Significantly, the fused transporter gene (i.e. Pi transporter cDNA truncated at the 3' end + ATP synthase alpha subunit cDNA) is expressed when prokaryotic ribosomes are present. These results support the view that the difficulty in expressing higher eukaryotic membrane proteins in bacteria may be related in some cases to a problem at the level of translation.
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PMID:Overexpression of higher eukaryotic membrane proteins in bacteria. Novel insights obtained with the liver mitochondrial proton/phosphate symporter. 153 83

The F1-ATPase from Micrococcus lysodeikticus is isolated in the absence of exogenous nucleotides. After removing loosely bound nucleotides from the isolated enzyme by gel permeation chromatography, analysis for tightly bound nucleotides revealed in 14 experiments 0.4 +/- 0.1 mol ADP, 0.5 +/- 0.2 mol GDP, and 0.8 +/- 0.2 mol ATP per mol of F1. Incubation of the isolated enzyme with Mg2+ or Ca2+ did not alter the endogenous nucleotide composition of the enzyme, indicating that endogenous ATP is not bound to a catalytic site. Incubation of the enzyme with P(i) decreased the amount of tightly bound ADP and GDP but did not effect the ATP content. Hydrolysis of MgATP in the presence of sulfite raised the tightly bound ADP and lowered tightly bound GDP on the enzyme. In the reciprocal experiment, hydrolysis of MgGTP in the presence of sulfite raised tightly bound GDP and lowered tightly bound ADP. Turnover did not affect the content of tightly bound ATP on the enzyme. These results suggest that endogenous ADP and GDP are bound to exchangeable catalytic sites, whereas endogenous ATP is bound to noncatalytic sites which do not exchange. The presence of endogenous GDP on catalytic sites of isolated F1 suggests that the F0F1-ATP synthase of M. lysodeikticus might synthesize both GTP and ATP under physiological conditions. In support of this hypothesis, we have found that plasma membrane vesicles derived from M. lysodeikticus synthesize [32P]GTP from [32P]P(i) using malate as electron donor for oxidative phosphorylation.
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PMID:Significant quantities of endogenous GDP and ADP are present on catalytic sites of the F1-ATPase isolated from M. lysodeikticus in the absence of added nucleotides. 153 27

The role of the C-terminal part of yeast ATP synthase subunit 4 (subunit b) in the assembly of the whole enzyme was studied by using nonsense mutants generated by site-directed mutagenesis. The removal of at least the last 10 amino-acid residues promoted mutants which were unable to grow with glycerol or lactate as carbon source. These mutants were devoid of subunit 4 and of another F0 subunit, the mitochondrially encoded subunit 6. The removal of the last eight amino-acid residues promoted a temperature-sensitive mutant (PVY161). At 37 degrees C this strain showed the same phenotype as above. When grown at permissive temperature (30 degrees C) with lactate as carbon source, PVY161 and the wild-type strain both displayed the same generation time and growth yield. Furthermore, the two strains showed identical cellular respiration rates at 30 degrees C and 37 degrees C. However, in vitro the ATP hydrolysis of PVY161 mitochondria exhibited a low sensitivity to F0 inhibitors, while ATP synthesis displayed the same oligomycin sensitivity as wild-type mitochondria. It is concluded that, in this mutant, the assembly of the truncated subunit 4 in PVY161 ATP synthase is thermosensitive and that, once a functional F0 is formed, it is stable. On the other hand, the removal of the last eight amino-acid residues promoted in vitro a proton leak between the site of action of oligomycin and F1.
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PMID:The C-terminal region of subunit 4 (subunit b) is essential for assembly of the F0 portion of yeast mitochondrial ATP synthase. 153 52

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