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)

Specific mitochondrial enzyme activities, mitochondrial DNA copy number, and mRNA levels were measured in heart, brain, and liver tissues of a group of alcohol-fed rats and compared with a control group. The results show a significant increase in mitochondrial enzyme activities (citrate synthase, complex IV, complex III, complex I, and complex V), as well as an increase in mitochondrial DNA in the cardiac tissue of the alcohol-fed animals. These data are indicative of an increase in mitochondrial number in the cardiac tissue that may occur as the result of an adaptive response to the alcoholic insult. However, in the liver and brain of the alcohol-treated rat, specific mitochondrial activities were decreased, in particular, complex III and ATP synthase, whereas levels of other mitochondrial enzymes (e.g., citrate synthase, specific mitochondrial transcripts, and mitochondrial DNA levels) do not seem to be affected. These data suggest that a tissue-specific response to alcohol exists that may have a common molecular mechanism in brain and liver, but is different in the heart.
Alcohol Clin Exp Res 1995 Dec
PMID:Heart mitochondria response to alcohol is different than brain and liver. 874 11

Specific mitochondrial enzyme activities and mRNA levels were measured in the heart, brain, and liver tissues of a group of 1-day-old neonatal rats whose mothers were alcohol-fed during pregnancy and compared with a control group. The results show a significant decrease in mitochondrial ATP synthase activity in both the brain and liver, as well as a decrease in complex III activity in the liver of rats exposed to alcohol. Other mitochondrial enzymes activities (e.g., citrate synthase, cytochrome c oxidase, and complex I), as well as specific mitochondrial transcript levels, were not significantly affected. Heart mitochondrial enzyme activities were not significantly affected. These data reveal that a tissue-specific response occurs after fetal exposure to alcohol and may explain some of the cellular events occurring in fetal alcohol syndrome resulting in abnormal growth and neurological development.
Alcohol Clin Exp Res 1996 Sep
PMID:Mitochondrial dysfunction after fetal alcohol exposure. 889 23

We have shown that OSCP, a subunit of yeast mitochondrial ATP synthase, can be incorporated into the intact enzyme as a fusion protein representing OSCP fused at its C-terminus to the green fluorescent protein (GFP) of Aequorea victoria. The relevant fusion OSCP-GFP-h6 additionally contains a hexahistidine tag at the C-terminus. Expression of OSCP-GFP-h6 in yeast cells lacking endogenous OSCP led to the efficient restoration of growth of cells on the non-fermentable substrate, ethanol. Confocal laser scanning microscopy revealed fluorescence due to GFP in mitochondria of cells expressing OSCP-GFP-h6. Use of immobilised metal ion affinity chromatography enabled the recovery of assembled ATP synthase complexes which contained OSCP-GFP-h6 identified by its mobility on SDS-PAGE and immunoreactivity to anti-OSCP and anti-GFP antibodies. The successful isolation of the assembled multisubunit ATP synthase containing GFP fused to one of the essential subunits of the complex widely expands the potential applications of GFP. In principle, these include the spatial and temporal monitoring of ATP synthase complexes in vivo, and the exploration of interactions involving ATP synthase subunits by fluorescence resonance energy transfer (FRET).
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PMID:A novel fluorescent marker for assembled mitochondria ATP synthase of yeast. OSCP subunit fused to green fluorescent protein is assembled into the complex in vivo. 924 50

The mgi1-4 and mgi2-1 mutants of the petite-negative yeast Kluyveromyces lactis have mutations in the beta- and alpha-subunits of the mitochondrial F1-ATPase, respectively. The mutants are respiratory competent but can form petites with deletions in mitochondrial DNA. In this study a cryptic nuclear mutation (lipB-1) was identified which, in combination with the mgi alleles, displays a synergistic respiratory-deficient phenotype on glycerol medium. The gene defined by the mutation was cloned and shown to encode a polypeptide of 332 amino acids with an N-terminal sequence characteristic of a mitochondrial targeting signal. The deduced protein shares 27% sequence identity with the product of the Escherichia coli lipB gene, which encodes a lipoyl-protein ligase involved in the attachment of lipoyl groups to lipoate-dependent apoproteins. A K. lactis strain carrying a disrupted lipB allele is severely compromised for growth on glycerol medium. The growth defect cannot be rescued by addition of lipoic acid, but cell growth can be restored on medium containing ethanol plus succinate. In addition, it was observed that lipB mutants of K. lactis, unlike the wild-type, are unable to utilize glycine as sole nitrogen source, indicating that activity of the glycine decarboxylase complex (GDC) is also affected. Taken together, these findings suggest that LIPB is the main determinant of the lipoyl-protein ligase activity required for lipoylation of enzymes such as alpha-ketoacid dehydrogenases and GDC.
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PMID:Cloning and characterization of the lipoyl-protein ligase gene LIPB from the yeast Kluyveromyces lactis: synergistic respiratory deficiency due to mutations in LIPB and mitochondrial F1-ATPase subunits. 926 25

We have generated the mutation T168S in the beta subunit of the chloroplast ATP synthase complex of Chlamydomonas reinhardtii by site directed mutagenesis and chloroplast transformation. CF1 and the alpha3beta3gamma complex of this mutant strain were isolated and their enzymatic activities were characterized and compared to those of the corresponding wild type complexes. Without activation the mutant CF1 exhibits MgATPase activity with at least 10 times higher rates than the wild type enzyme. The MgATPase activity could be stimulated to some extent by methanol, but less by ethanol and octylglucoside. The alpha3beta3gamma complex had an even higher MgATPase activity, which was only slightly enhanced by ethanol or methanol. The ATPase activities of the mutant complexes, like those of the wild type complexes, displayed a sharp concentration optimum for Mg2+. Free ADP inhibited neither the mutant nor the wild type ATPase significantly. Azide, which strongly inhibited the ATPase activity of the wild type enzyme, inhibited the mutant enzyme only at an about 30 times higher concentration suggesting that the mutation T168S prevents trapping of a tightly bound MgADP by a catalytic site that regulates chloroplast ATPase activity. The mutant cells grew photoautotrophically at a growth rate of about 50%. Similar to the wild type the cells survived on minimal medium in the dark. Under heterotrophic conditions with acetate as energy and carbon source the mutant cells grew much faster than the wild type cells, but the chlorophyll content per cell decreased dramatically.
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PMID:The C. reinhardtii CF1 with the mutation betaT168S has high ATPase activity. 946 41

The F1 moiety of ATP synthase complexes consists of five subunit types in the stoichiometric ratio alpha 3, beta 3, gamma, delta epsilon. Of these, the delta subunit has received very little attention in the study of F1 preparations from eukaryotic cells. Although recently shown to associate tightly with the beta subunit [Pedersen, P. L., Hullihen, J., Bianchet, M., Amzel, L. M., and Lebowitz, M. S. (1995) J. Biol. Chem. 270, 1775-1784], the delta subunit is not resolved in the X-ray structure of either the rat liver or bovine heart enzyme. For these reasons, the novel studies reported here were designed both to provide a molecular description of the rat liver delta subunit and to gain insight into the nature of its interaction with F1. The rat liver delta subunit was cloned from a lambda gt11 library, sequenced, overexpressed in Escherichia coli (E. coli) in fusion with the maltose binding protein, and, after cleavage of the latter protein, purified to homogeneity. The purified delta subunit (MW = 14.7 kDa) was shown by circular dichroism spectroscopy to be highly structured and to exhibit about 25% sequence identity to the chloroplast and E. coli epsilon subunits, frequently regarded as homologues of higher eukaryotic delta subunits. Significantly, and in contrast to the chloroplast and E. coli epsilon subunits, which are readily removed from their parent F1 moieties after treatment respectively with ethanol and lauryldimethylamine oxide, the rat liver delta subunit remained tightly bound to F1 under these relatively mild conditions. For the above reasons, four types of experiments were carried out on rat liver F1 in order to (1) determine the accessibility of the delta subunit to both specific antibodies and to proteases, (2) establish the effect of nucleotides on this subunit's accessibility, (3) identify in cross-linking studies with disuccinimidyl glutarate this subunit's most reactive neighbor, and (4) determine whether this subunit can be dissociated from F1 by using ionic detergents while leaving the remaining complex intact. The data derived from this detailed set of studies (a) supports the view that the rat liver F1-delta subunit is in very close proximity to the gamma subunit near the bottom of the F1 molecule but does not penetrate deeply into the central core, (b) shows that within F1 the delta subunit's N-terminus is exposed while its C-terminus is masked, (c) indicates that access to the delta subunit is shielded in part by the alpha, beta, and gamma subunits and changes during the catalytic cycle of F1, and (d) implicates the delta subunit as important for the structural stability of the F1 unit. These novel findings on a higher eukaryotic F1-delta subunit are discussed in relationship to earlier studies on the related epsilon subunits from both chloroplasts and E. coli.
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PMID:Delta subunit of rat liver mitochondrial ATP synthase: molecular description and novel insights into the nature of its association with the F1-moiety. 957 78

Changes in the kinetics and regulation of oxidative phosphorylation were characterized in isolated rat liver mitochondria after 2 months of ethanol consumption. Mitochondrial energy metabolism was conceptually divided into three groups of reactions, either producing protonmotive force (Deltap) (the respiratory subsystem) or consuming it (the phosphorylation subsystem and the proton leak). Manifestation of ethanol-induced mitochondrial malfunctioning of the respiratory subsystem was observed with various substrates; the respiration rate in State 3 was inhibited by 27+/-4% with succinate plus amytal, by 20+/-4% with glutamate plus malate, and by 17+/-2% with N,N,N',N'-tetramethyl-p-phenylenediamine/ascorbate. The inhibition of the respiratory activity correlated with the lower activities of cytochrome c oxidase, the bc(1) complex, and the ATP synthase in mitochondria of ethanol-fed rats. The block of reactions consuming the Deltap to produce ATP (the phosphorylating subsystem) was suppressed after 2 months of ethanol feeding, whereas the mitochondrial proton leak was not affected. The contributions of Deltap supply (the respiratory subsystem) and Deltap demand (the phosphorylation and the proton leak) to the control of the respiratory flux were quantified as the control coefficients of these subsystems. In State 3, the distribution of control exerted by different reaction blocks over respiratory flux was not significantly affected by ethanol diet, despite the marked changes in the kinetics of individual functional units of mitochondrial oxidative phosphorylation. This suggests the operation of compensatory mechanisms, when control redistributes among the different components within the same subsystem.
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PMID:Kinetics and control of oxidative phosphorylation in rat liver mitochondria after chronic ethanol feeding. 1088 Mar 51

Cultured mouse heart-derived myocardial and non-muscle cells were exposed to ethanol, stained with cell-permeant fluorescent vital probes, JC-1 (5,5',6,6'-tetrachloro-1,1',3,3'-tetraethylbenzimidazolyl-carbocyanine iodide) and oxidation-sensitive dihydrorhodamine 123, and analyzed by flow cytometry to elucidate ethanol-induced time-wise alterations in the mitochondrial membrane potential (DeltaPsim) and the production of reactive oxygen species (ROS). Ethanol (50 and 200 mM) not only hyperpolarized DeltaPsim of both types of cells but also dose-dependently increased ROS production at 24 h, although a 200-mM dose reduced the production until 3 h. These cell pathophysiological reactions suggest the depression of mitochondrial ATPase and mitochondrial respiratory chain. However, differences between these cells appeared after a 24-h exposure to 200 mM ethanol: the increase in ROS production was approximately twice as large for myocardial cells as for non-muscle cells; and the side-scatter parameter of light scattering significantly increased for myocardial cells, but not for non-muscle cells. All these myocyte-specific alterations indicate an increase in the mitochondrial fraction in a cell. This reaction might be a countermeasure against ethanol-induced dysfunction of mitochondrial respiration that is needed to meet the energy requirements of spontaneous myocardial contractions.
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PMID:Ethanol hyperpolarizes mitochondrial membrane potential and increases mitochondrial fraction in cultured mouse myocardial cells. 1647 59

Effects of several membrane ATPase inhibitors on light-induced phase shifting of the circadian conidiation rhythm in Neurospora crassa were examined using mycelial discs in liquid culture. Suppression of phase shifting by the inhibitors was strongly dependent on the pH of the liquid medium in which the discs were cultured during the time from light-dark transition (beginning of free-run) to light irradiation. When discs were cultured in pH 6.7 medium, azide, the inhibitors of plasma membrane ATPase (diethylstilbestrol and N, N'-dicyclohexylcarbodiimide), and ethanol completely suppressed the effect of light on the clock. In contrast, mycelial discs cultured in pH 5.7 medium were fully phase-shifted by light in the presence of the same and even higher concentrations of the chemicals. However, sensitivity to light of the discs cultured in relatively acidic medium was eight times higher than that of the discs cultured at neutral pH. Oligomycin and venturicidin, inhibitors of mitochondrial ATPase, did not suppress phase shifting by light at either pH.
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PMID:Effects of Membrane ATPase Inhibitors on Light-Induced Phase Shifting of the Circadian Clock in Neurospora crassa. 1666 60

The isolation of the chloroplast ATP synthase complex (CF(0)-CF(1)) and of CF(1) from Dunaliella bardawil is described. The subunit structure of the D. bardawil ATPase differs from that of the spinach in that the D. bardawil alpha subunit migrates ahead of the beta subunit and epsilon-migrates ahead of subunit II of CF(0) when separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The CF(1) isolated from D. bardawil resembles the CF(1) isolated from Chladmydomonas reinhardi in that a reversible, Mg(2+)-dependent ATPase is induced by selected organic solvents. Glycerol stimulates cyclic photophosphorylation catalyzed by D. bardawil thylakoid membranes but inhibits photophosphorylation catalyzed by spinach thylakoid membranes. Glycerol (20%) also stimulates the rate of ATP-P(i) exchange catalyzed by D. bardawil CF(0)-CF(1) proteoliposomes but inhibits the activity with the spinach enzyme. The ethanol-activated, Mg(2+)-ATPase of the D. bardawil CF(1) is more resistant to glycerol inhibition than the octylglucoside-activated, Mg(2+)-ATPase of spinach CF(1) or the ethanol-activated, Mg(2+)-dependent ATPase of the C. reinhardi CF(1). Both cyclic photophosphorylation and ATP-P(i) exchange catalyzed by D. bardawil CF(0)-CF(1) are more sensitive to high concentrations of NaCl than is the spinach complex.
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PMID:Purification and Characterization of a Glycerol-Resistant CF(0)-CF(1) and CF(1)-ATPase from the Halotolerant Alga Dunaliella bardawil. 1666 7

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