Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

It is possible to prepare liposomal vesicles by solubilization of total bacterial membranes with n-heptyl beta-D-thioglucoside followed by reconstitution into proteoliposomes by a freeze-thaw-sonication procedure with soybean phospholipids. The resulting proteoliposomes from total membrane fraction of sufficiently aerated cells of the thermophilic bacterium PS3 containing cytochrome aa3 showed a reasonable H+ pumping activity upon addition of reduced cytochrome c. On the other hand, the proteoliposomes reconstituted from air-limited PS3 cells containing cytochrome o and those from Nitrobacter agilis cells containing cytochrome aa3 did not show H+ pumping upon addition of reduced cytochrome c, although the vesicles showed "respiratory control"; 3-4-fold stimulation of oxygen consumption took place upon addition of an uncoupler. In proteoliposomes prepared from PS3 membranes by this method, H+-translocating ATPase (F0 X F1) was successfully reconstituted as well, suggesting that this method has wide applicability for investigation of enzymes catalyzing transmembrane processes.
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PMID:Measurement of proton pump activity of the thermophilic bacterium PS3 and Nitrobacter agilis at the cytochrome oxidase level using total membrane and heptyl thioglucoside. 288 79

Vesicles from yeast plasma membrane were prepared according to Franzusoff and Cirillo [1983) J. Biol. Chem. 258, 3608), with slight modifications. When Mg-ATP was added, this preparation was able to generate a membrane potential, that was sensitive to inhibitors of the yeast H+-ATPase and uncouplers, and could be decreased by the addition of permeant anions, as measured by the fluorescence changes of the dye oxonol V. The addition of ATP could also generate a pH gradient, detectable by the fluorescence changes of the monitor aminochloromethoxyacridine. This gradient was sensitive to inhibitors of ATPase and uncouplers, and could be increased by the addition of permeant anions to the incubation mixture. When the vesicles were loaded with KCl, an increased rate of K+ efflux was produced upon the addition of ATP. Cytochrome oxidase from bovine heart could be reconstituted into the vesicles and was shown to generate a membrane potential difference, negative inside, evidenced by the fluorescence quenching of the cyanide dipropylthiacarbocyanine and the uptake of tetraphenylphosphonium. Besides, in these vesicles, K+ and Rb+, but not Na+ or NH+4 could decrease the quenching of fluorescence and the uptake of tetraphenylphosphonium produced when the electron-donor system was present. In the vesicles in which cytochrome oxidase was incorporated, upon the addition of cytochrome c and ascorbate, the uptake of 86Rb+ could be demonstrated also. This uptake was found to be saturable and inhibited by K+, and to a lesser degree by Na+. The results obtained indicate that these vesicles are reasonably sealed and capable of generating and maintaining a membrane potential. The membrane potential could be used to drive ions across the membrane of the vesicles, indicating the presence and functionality of the monovalent cation carrier. The vesicles, in general terms seem to be suitable for studying transport of ions and metabolites in yeast.
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PMID:Electrochemical potential and ion transport in vesicles of yeast plasma membrane. 288 94

The effects of sublethal heat pulses on cell division have provided insights into possible molecular mechanisms. Thus Zeuthen's findings of 'set-backs' up to a transition point provides the basis for the idea that the continuous accumulation of a compound needed for cell division spans a major portion of the cell cycle. The accumulating substance is a 'division protein' which forms part of a structure which is unstable until completely assembled at the transition point. Experiments showing phase resetting of mammalian cells by temperature perturbation indicate limit-cycle oscillator control of the cell cycle with a phase-response curve with a repeat interval equal to the period of the clock. As well as providing a method for establishing synchronized cultures these observations have found application in the selective effects of hyperthermia as an antitumour agent. Circadian rhythms display several unique features distinguishing them from other periodic processes. Only recently has it been recognized that some of these characteristics may be properties of ultradian rhythms as well. The probably most striking feature of circadian timekeeping, i.e. independence of ambient temperature, was found for ultradian rhythmicity even at the level of the unicellular organization. Synchronous cultures of some lower eukaryotes were prepared by centrifugal size selection methods. Experiments with asynchronous control cultures substantiated the view that the conditions employed were such as to minimize any perturbative effects: most importantly the organisms were never removed from their culture medium. Whereas the control cultures showed smoothly increasing respiration rates, total RNA, total protein, enzyme activities and enzyme protein (e.g. for cytochrome aa3, ATPase, catalase), in synchronous cultures all these parameters showed oscillatory behaviour. Different periods were observed in different organisms: thus in Acanthamoeba castellanii the period was about 70 min, in Tetrahymena pyriformis strain ST it was about 50 min, in T. pyriformis AII it was 30 min, and in Candida utilis it was about 30 min (all measurements at 30 degrees C). In A. castellanii the periods of both the oscillations in rate of respiration and the total cell protein were hardly affected by the temperature of growth over the range 20 to 30 degrees C. The oscillations show no damping during experiments lasting 12 h: these properties suggest that we are observing temperature-compensated endogenous rhythms which presumably serve a timekeeping function in cells undergoing growth and division.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:A temperature-compensated ultradian clock explains temperature-dependent quantal cell cycle times. 333 82

Experiments in 16-week old male Wistar strain rats showed that deficiency of thyroid hormones caused a decrease of cytochrome aa3, RNA, myofibrillar and sarcoplasmic protein contents in m. quadriceps femoris, Mg2+ activated actomyosin ATPase activity and physical working capacity of untrained and trained animals also reduced. Physical activity the intensity of which corresponded to metabolic power output of 190%. Vo2max stimulated thyroid function, elicited a significant elevation of blood thyroxine level, oxidative potential and intensity of protein synthesis in m. quadriceps femoris, the character of these changes depending on the type of muscle fibers. The stimulation of thyroid function caused an elevation of muscle content of cytochrome aa3 and content of RNA, especially in the glycolytic fibers of hypothyroid rats.
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PMID:[Role of the thyroid gland in skeletal muscle adaptation to increased motor activity]. 616 66

Cell lines resistant to ethidium bromide have been developed from cultured mammalian BHK21/C13 cells and these same cells transformed by Rous sarcoma virus (C13/B4). Cells resistant to 2 micrograms ethidium bromide per milliliter have been cloned. One clone of the control and one of the virus-transformed cell lines has been employed for characterization. The resistant cells, in the presence of 2 micrograms ethidium bromide/ml, grow at approximately the same rate as the untreated parental cells. The control cells possess a "normal" karyotype (44 chromosomes), while the corresponding ethidium bromide mutant has a reduced chromosome number of 41 and a number of translocations. The mitochondria displayed morphological alterations compared to the parental lines during the transition phase prior to the isolation of the ethidium bromide-resistant cells. The mitochondria of the ethidium bromide-resistant mutants appear somewhat enlarged with a normal morphology. The effect of ethidium bromide on selected respiratory enzymes in normal and virus-transformed ethidium bromide-resistant baby hamster kidney cells was determined. Ethidium bromide-resistant cells exhibited a depressed level of cytochrome aa3. This depression could not be reversed by growth in ethidium bromide-free media. Ethidium bromide-resistant cells possessed the same cytochrome b, c, and c1 levels per cell as their corresponding parental lines. Purified mitochondria isolated from virus-transformed ethidium bromide-resistant cells exhibited a depression in cytochrome oxidase-specific activity, while the ethidium bromide-resistant control cells did not. All cell lines studied showed a depression in NADH-ferricyanide and NADH-cytochrome c reductase-specific activities relative to their parental BHK21/C13 cells. No increase was observed in virus-transformed ethidium bromide-resistant cells. Ethidium bromide-resistant control cells exhibited a two-fold increase in oligomycin-insensitive adenosine triphosphatase activity relative to their parental cells. All of the cell lines studied possessed equivalent oligomycin-sensitive adenosine triphosphatase-specific activity except for the virus-transformed, dye-resistant mutant, whose activity was increased.
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PMID:Control and virus-transformed baby hamster kidney cells resistant to ethidium bromide. I. Characterization and the respiratory enzymes. 625 Oct 98

1. Two oligomycin-resistant strains of Saccharomyces cerevisiae have been isolated and shown to have mutations in the oli2 region of the mitochondrial DNA. On solid media containing a non-fermentable energy source, the mutant strains were able to grow only slowly at 28 degrees C and not at all at 18 degrees C or 36 degrees C. 2. When grown in a glucose-limited chemostat at 28 degrees C, the mutant strains were almost completely defective in oxidative metabolism. The mutant mitochondria contained significant levels of all respiratory enzymes, and an active, oligomycin-sensitive ATPase, but the ATP-32Pi exchange activity and P : O ratio were very low. 3. The mutations in these strains are genetically closely linked to mit mutations which have been shown to affect a 20 000-dalton ATPase subunit (Roberts, H., Choo, W.M., Murphy, M., Marzuki, S., Lukins, H.B. and Linnane, A.W. (1979) FEBS Lett. 108, 501-504). Since the mitochondrial ATPase in these mutant strains appears to be fully assembled, the defect in the coupling mechanism is probably a result of a small alteration in the structure of the 20 000-dalton ATPase subunit. 4. When the mutant strains were grown at 18 degrees C, the mitochondria had very low cytochrome oxidase activities, and reduced levels of cytochrome aa3. The largest subunit (Mr 40 000) of this enzyme was not synthesized.
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PMID:Biogenesis of mitochondria. oli2 Mutations affecting the coupling of oxidation to phosphorylation in Saccharomyces cerevisiae. 625 66

Staphylococcus aureus can be protected by unsaturated unesterified fatty acids against the growth inhibitory effects of miconazole and ketoconazole observed at concentrations greater than 10(-6) M and greater than 10(-5) M, respectively. Miconazole's fungicidal activity is partly antagonized by oleic acid. However, the effect of ketoconazole on the viability of Candida albicans was not affected by this fatty acid. Cytochrome oxidase and ATPase activities are more sensitive to miconazole (10(-5) M) than to ketoconazole (greater than 10(-4) M) and also liposomes are more susceptible to lysis induced by miconazole. Using differential scanning calorimetry it is shown that high concentrations of miconazole shift the lipid transition temperature of multilamellar vesicles to lower values without affecting the enthalpy of melting. Ketoconazole induces a broadening of the main transition peak only. It is suggested that miconazole changes the lipid organization without binding to the lipids, whereas ketoconazole is localized in the multilayer without having an important direct effect on the lipid organization. The results indicate that miconazole, and to a lesser extent ketoconazole, at doses that can be reached by topical application only, interfere with a third target (the two others are ergosterol synthesis and fatty acid elongation plus desaturation). It is hypothesized that the induced change in lipid organization may play some role in miconazole's topical antibacterial and fungicidal activity, whereas it does not seem to play a significant role in ketoconazole's activities.
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PMID:The interaction of miconazole and ketoconazole with lipids. 629 39

Analysis of gene order and orientation in the circular 18.9 kbp mitochondrial DNA molecule of Torulopsis glabrata has shown that the eight large genic sequences have the same orientation and that a five gene cluster which runs--cytochrome b, cytochrome oxidase subunit 1, ATPase subunits 6 and 9 and cytochrome oxidase subunit 2--is common to this DNA and Saccharomyces exiguus mtDNA (see accompanying paper).
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PMID:Analysis of a five gene cluster and unique orientation of large genic sequences in Torulopsis glabrata mitochondrial DNA. 631 62

Proximal tubules were isolated in highly pure form from rabbit cortices by a mechanical procedure that is known to preserve the structural and metabolic aspects of the tubular cells. Postnuclear supernates prepared from the isolated tubules were subjects to isopycnic centrifugation in linear sucrose gradients. The enzyme activities associated with the plasma membrane (gamma-glutamyl transpeptidase, amino-peptidase M, alkaline phosphatase, Na-K-ATPase, and phosphodiesterase I) exhibited sharp unimodal frequency-density profiles with a median density near 1.16 g/ml, which shifted to a heavier density when treated with digitonin. The lysosomal enzymes, N-acetyl-beta-glucosaminidase, alpha-mannosidase, and cathepsin B, and the peroxisomal enzyme catalase exhibited particle-associated activity near a density of 1.22 g/ml. Disruption of these particles by freezing and thawing resulted in these activities appearing in the rho = 1.10 g/ml region of the gradient where the soluble cytosolic enzyme, phosphoglucomutase, exhibited activity. Cytochrome oxidase activity typical of mitochondria gave a sharp unimodal profile at rho = 1.18 g/ml. Microsomal glucose-6-phosphatase and NADPH: cytochrome c reductase activities gave median densities near 1.16 g/ml, which did not change after incubation with digitonin. Galactosyl transferase activity gave a skewed profile at rho = 1.16 g/ml and showed a slight shift to heavier density after digitonin. This study of the enzymatic activities and density gradient distribution of the components of the proximal tubule cells provides the methodology for the further study of the cellular processing of endogenous and exogenous substances by this vital cell type.
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PMID:Analytical cell fractionation of isolated rabbit renal proximal tubules. 730 Jan 16

Various authors have suggested that nitric oxide (.NO) exerts cytotoxic effects through the inhibition of cellular respiration. Indeed, in intact cells .NO inhibits glutamate-malate (complex I) as well as succinate (complex II)-supported mitochondrial electron transport, without affecting TMPD/ascorbate (complex IV)-dependent respiration. However, experiments in our lab using isolated rat heart mitochondria indicated that authentic .NO inhibited electron transport mostly by reversible binding to the terminal oxidase, cytochrome a3, having a less significant effect on complex II- and no effect on complex I-electron transport components. The inhibitory action of .NO was more profound at lower oxygen tensions and resulted in differential spectra similar to that observed in dithionite-treated mitochondria. On the other hand, continuous fluxes of .NO plus superoxide (O.(2)(-)), which lead to formation of micromolar steady-state levels of peroxynitrite anion (ONOO-), caused a strong inhibition of complex I- and complex II-dependent mitochondrial oxygen consumption and significantly inhibited the activities of succinate dehydrogenase and ATPase, without affecting complex IV-dependent respiration and cytochrome c oxidase activity. In conclusion, even though nitric oxide can directly cause a transient inhibition of electron transport, the inhibition pattern of mitochondrial respiration observed in the presence of peroxynitrite is the one that closely resembles that found secondary to .NO interactions with intact cells and strongly points to peroxynitrite as the ultimate reactive intermediate accounting for nitric oxide-dependent inactivation of electron transport components and ATPase in living cells and tissues.
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PMID:Differential inhibitory action of nitric oxide and peroxynitrite on mitochondrial electron transport. 864 9


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