EC:3.6.1.3 - FACTA Search

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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)

A highly effective procedure for fragmenting the Neurospora crassa plasma membrane H+-ATPase and purifying the resulting peptides is described. The enzyme is cleaved with trypsin to form a limit digest containing both hydrophobic and hydrophilic peptides, and the hydrophobic and hydrophilic peptides are then separated by extraction with an aqueous ammonium bicarbonate solution. The hydrophilic peptides are fractionated by Sephadex G-25 column chromatography into three pools, and the individual peptides in each pool are purified by high-performance liquid chromatography. The hydrophobic peptides are dissolved in neat trifluoroacetic acid (TFA), diluted with chloroform-methanol (1:1), and the hydrophobic peptide solution thus obtained is then fractionated by Sephadex LH-60 column chromatography in chloroform-methanol (1:1) containing 0.1% TFA. The recoveries in all of the above procedures are greater than 90%. The N-terminal amino acid sequences of three of the hydrophobic H+-ATPase peptides purified by this methodology have been determined, which establishes the position of these peptides in the 100,000 Da polypeptide chain by reference to the published gene sequence, and documents the sequencability of the hydrophobic peptides purified in this way. This methodology should facilitate the identification of a variety of amino acid residues important for the structure and function of the H+-ATPase molecule. Moreover, the overall strategy for working with the protein chemistry of the H+-ATPase should be applicable to other amphiphilic integral membrane proteins as well.
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PMID:Protein chemistry of the Neurospora crassa plasma membrane H+-ATPase. 290 97

The ATP synthase (F1F0) of Propionigenium modestum has been purified to a specific ATPase activity of 5.5 units/mg of protein, which is about 6 times higher than that of the bacterial membranes. Analysis by SDS gel electrophoresis indicated that in addition to the five subunits of the F1 ATPase, subunits of Mr 26,000 (a), 23,000 (b), and 7500 (c) have been purified. The ATPase activity of F1F0 was specifically activated about 10-fold by Na+ions. The enzyme was strongly inhibited by dicyclohexylcarbodiimide, venturicidin, tributyltin chloride, and azide. After incubation with [14C]dicyclohexylcarbodiimide, about 3-4 mol of the inhibitor was bound per 500,000 g of the enzyme. The radioactive label was specifically bound to submit c. These subunits form stable aggregates which resist dissociation by SDS at 100 degrees C. The monomer is formed upon heating with SDS to 121 degrees C or by extraction of the membranes with chloroform/methanol. The ATP synthase was incorporated into liposomes by a freeze-thaw-sonication procedure. The reconstituted proteoliposomes catalyzed the transport of Na+ions upon ATP hydrolysis. The transport was completely abolished by dicyclohexylcarbodiimide. Whereas monensin prevented the accumulation of Na+ions, the uptake rate was stimulated 4-5-fold in the presence of valinomycin or carbonyl cyanide m=chlorophenylhydrazone. These results indicate an electrogenic Na+ transport and also that it is a primary event and not accomplished by a H+-translocating ATP synthase in combination with a Na+/H+ antiporter.
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PMID:Characterization of the ATP synthase of Propionigenium modestum as a primary sodium pump. 290 67

The stoichiometry and dissociation constants for the interaction of tetracaine with chloroform-released ATPase prepared from beef heart mitochondria were determined from the enhancement of tetracaine fluorescence intensity that occurs upon binding. There is a single class of approximately 60 thermodynamically equivalent binding sites on ATPase for tetracaine; these have a microscopic dissociation constant of 4.9 X 10(-4) M at 25 degrees C under solvent conditions that are similar to those used for enzyme assay. Analysis of enzyme kinetic data according to a partial noncompetitive scheme gave an inhibitor constant for tetracaine of 4.8 X 10(-4) M. The numerical agreement between the dissociation constant and the inhibitor constant shows that the filling of the same class of sites is probably responsible for both the enzyme inhibition and the fluorescence enhancement. The sites are hydrophobic, as evidenced by the blue shift and the magnitude of the fluorescence enhancement that occur upon binding.
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PMID:Stoichiometry and dissociation constants for interaction of tetracaine with mitochondrial adenosinetriphosphatase as determined by fluorescence. 294 56

Chloroform-released ATPase prepared from beef heart mitochondria is inhibited by tetracaine and dibucaine over the entire temperature range in which the enzyme is active. The temperature of maximal activity is at 60 degrees C in the absence of anesthetic and is shifted upward by 2-3 degrees C by the addition of 0.3 mM dibucaine. Local anesthetics protect ATPase from irreversible cold inactivation. The kinetics of this protective effect are analyzed by a thermodynamic model in which the associated/dissociated subunit equilibrium is shifted toward the associated state by the preferential binding of anesthetic to the associated state. The accessibility of buried sulhydryl groups to reaction with 5,5'-dithiobis(2-nitrobenzoic acid) is increased by local anesthetics; this is interpreted to mean that the anesthetics increase the conformational flexibility of the protein. It is proposed that the hydrophobic moieties of local anesthetics and related compounds bind to numerous hydrophobic sites or crevices on ATPase; this binding induces a perturbation of the protein conformation, which in turn causes a decrease of enzyme activity. This model is sufficiently general to encompass the diversity of molecules which have similar anesthetic-like effects, and since it relates to common fundamental features of protein structure, it may also be the mechanism of the nonspecific effects of these molecules on other proteins.
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PMID:Temperature dependence and mechanism of local anesthetic effects on mitochondrial adenosinetriphosphatase. 296 35

The mechanism of uncoupling of oxidative phosphorylation by carbonyl cyanide p-(trifluoromethoxy)phenylhydrazone (FCCP), oleic acid, and chloroform is further investigated by measuring in the presence of a certain concentration of each type of uncoupler (i) the mitochondrial P/O and respiratory control ratios upon progressive inhibition of the redox pumps and (ii) delta mu H and the rate of either electron transfer or adenosine 5'-triphosphate (ATP) hydrolysis in static head upon progressive inhibition of either the redox or the adenosine triphosphatase (ATPase) proton pumps. Chloroform exhibits in all the experiments a behavior very different from that of FCCP and oleic acid. For example, upon addition of antimycin to chloroform-supplemented mitochondria, the respiratory control ratio remains unchanged and the P/O ratio slightly increases (in a certain range of inhibition) instead of decreasing as expected for an increased membrane conductance (and as indeed measured in the presence of either FCCP or oleic acid). From the kinetic model of chemiosmotic free energy coupling described by Pietrobon and Caplan [Pietrobon, D., & Caplan, S.R. (1986) Biochemistry 25, 7690-7696] all the results can be simulated by making the assumptions that (i) chloroform acts specifically at the level of the proton pumps and intrinsically uncouples electron transfer and ATP hydrolysis/synthesis from proton translocation and (ii) FCCP and oleic acid have a mixed behavior and act both as protonophores and as intrinsic uncouplers of the redox pumps (but not of the ATPases). The consistency of the results with the alternative hypothesis that the three agents interfere either with localized energy coupling sites or with a direct interaction between proton pumps is discussed.
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PMID:Uncoupling of oxidative phosphorylation. 2. Alternative mechanisms: intrinsic uncoupling or decoupling? 296 36

Oligomycin-sensitive particulate ATPase (MB ATPase) from L. donovani promastigotes was solubilized by chloroform treatment. Polyacrylamide gel electrophoresis revealed several protein bands, with the major one possessing ATPase activity. The solubilized enzyme had Mg2+-ATPase and Ca2+-ATPase but no K+-dependent alkaline phosphatase activity. The Mg2+-ATPase activity was stimulated by monovalent cations and was not sensitive to oligomycin. Hence it is referred to as F1 ATPase. It had optimum activity at pH 7.6 and 30 degrees C. The Arrhenius plot for MB ATPase was biphasic with activation energies (Ea) of 16.2 and 3.4 kcal mol-1, while F1 ATPase exhibited a linear plot with Ea = 10.1 kcal mol-1. Lineweaver-Burk plots were biphasic with Km values of 0.17 and 1.25 mM for MB ATPase and 0.18 and 1.33 mM for F1 ATPase. The enzyme could be preserved at -15 degrees C in Tris-SO2-(4)-EDTA-ATP-glycerol (t1/2 = 20 days).
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PMID:Solubilization and kinetic characterization of mitochondrial adenosine triphosphatase from Leishmania donovani promastigotes. 297 May 89

An IgG fraction prepared from an antiserum against a holoenzyme preparation of (Na+ + K+)-ATPase precipitated a single antigen when samples of holoenzyme were subjected to crossed immunoelectrophoresis but precipitated an additional, immunochemically-related antigen when a plasma membrane-enriched fraction was subjected to crossed immunoelectrophoresis under the same conditions. The immunochemically-related antigen could be extracted from the plasma membrane fraction with CHCl3:CH3OH.
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PMID:Partial immunochemical identity between (Na+ + K+)-ATPase and a membrane component extractable with chloroform: methanol. 301 45

Some physicochemical properties of partially purified hypothalamic material from the spontaneously hypertensive rat, and of plasma from man and the rat, have been characterized using a validated cytochemical bioassay which measures the ability of biological fluids to stimulate fresh guinea-pig kidney glucose-6-phosphate dehydrogenase (G6PD) after 2 min of exposure to the test substance, as an indication of their ability to inhibit Na+/K+ adenosine triphosphatase (Na+/K+-ATPase) after 4-6 min of exposure. The G6PD-stimulating activity of both hypothalamic extract and plasma is soluble in water and insoluble in chloroform. During electrophoresis the activity from both sites appears in the same fractions and travels considerably further than lysine. After high-pressure liquid chromatography the activity of hypothalamic extract appears in a discreet fraction which does not absorb u.v. light. The activity of both the hypothalamic extract and plasma survives boiling and acid hydrolysis, but is substantially inhibited by prior incubation with digoxin antibody. From ultrafiltration studies, the substance responsible for the ability to stimulate G6PD appears to have a molecular weight of less than 500. The G6PD-stimulating activity of hypothalamic extracts was destroyed by ashing and by base hydrolysis. The ability of plasma of high activity to stimulate G6PD is considerably increased by incubating at 37 degrees C for 15 min and destroyed by incubation for 45 min. It is concluded that these and several other previously noted similarities suggest that the cytochemically assayable Na+/K+-ATPase-inhibiting/G6PD-stimulating activity in the plasma and hypothalamus may be due to the same ouabain-like substance.
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PMID:Extraction and characterization of a cytochemically assayable Na+/K+-ATPase inhibitor/glucose-6-phosphate dehydrogenase stimulator in the hypothalamus and plasma of man and the rat. 302 64

Endoxin is an endogenous substance known to participate in the regulation of the sodium balance and hypertension. Its chemical nature remains elusive. Based on its capacity to specifically bind to Na-K ATPase receptors we describe a receptor assay for its measurement in human urine. The endoxin was extracted by methanol and desalted on a silicagel column with a mixture of chloroform-ethanol. Calibration curves have been established by the transformation of the weight of crude extract in actual content of active material expressed in nmol/l as calculated from Scatchard plots analysis. Normal values are given for subjects on regular salt diet. Changes in endoxin urinary elimination after an oral salt load are outlined.
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PMID:A receptor binding assay for endoxin in human urine. 303 Feb 91

Germinating spores of Streptomyces viridochromogenes excreted a substance into the surrounding medium which inhibited germination of another sample of the spores. The germination inhibitor (GI) was produced during submerged culture after exponential growth had ceased. The GI was purified 51-fold following extraction from growth liquor with chloroform. It was soluble in alcohol and water and had a molecular weight of less than 1000. The GI blocked growth and respiration of some Gram-positive bacteria and was an inhibitor of the membrane bound, but not solubilized, calcium-dependent ATPase of germinated spores and mycelia of the producing organism. Several sodium-potassium activated ATPases were also inhibited. All four activities (respiration, growth, germination inhibition, ATPase) co-purified during column and thin-layer chromatography. The GI activities released during germination and produced during growth were identical. A role for the GI antibiotic in regulation of dormancy of spores of the producing organism is discussed.
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PMID:Properties of the germination inhibitor of Streptomyces viridochromogenes spores. 315 76

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