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)

ATPase was detected in the membranes of a motile Streptococcus. Maximal enzymic activity was observed at pH 8 and ATP/Mg2+ ratio of 2. Mn2+ and Ca2+ could replace Mg2+ to some extent. Besides ATP, GTP and ITP were substrates. The enzyme was inhibited by N,N'-dicyclohexylcarbodiimide but not by sodium azide, uncouplers or bathophenanthroline. An electrochemical gradient of protons, which was artificially imposed across the membranes of Streptococcus cells by manipulation of either the K+ diffusion potential or the transmembrane pH gradient, led to ATP synthesis. ATP synthesis was abolished by proton conductors, an inhibitor of the ATPase or an increase in the extracellular K+ concentration. A comparison between the phosphate potential and the electrochemical proton gradient showed that the data found are in agreement with a stoichiometry of 2 protons translocated per molecule ATP synthesized.
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PMID:Hydrolysis and synthesis of ATP by membrane-bound ATPase from a motile Streptococcus. 3 Nov 47

The membrane-bound adenosine triphosphatase (ATPase) activity of Acholeplasma laidlawii B differs in many respects from the common (Mg2+, Ca2+)-ATPase activity of higher bacteria, most notably in that it is specifically activated by Mg2+ and strongly and specifically stimulated by Na+ (or Li+). Various inhibitors diminish the ATPase activity with a concentration dependence which suggests that a single enzyme species is responsible for all of the observed ATP hydrolytic activity (both basal and Na+ stimulated). The Km for ATP is influenced by temperature but not by membrane lipid fatty acid composition. Vmax is influenced by both of these factors, showing a break in Arrhenius plots which falls below the lipid phase transition midpoint but well above the lower boundary when a phase transition occurs within the temperature range studied. The apparent energy of activation for Vmax is strongly influenced by lipid fatty acid composition both above and below the break. When whole cells of A. laidlawii B are incubated in KCl or NaCl buffers, they rapidly swell and lyse if deprived of an energy source or treated with ATPase inhibitors at concentrations which significantly inhibit enzyme activity in isolated membranes, whereas in sucrose or MgSO4 buffers of equal osmolarity, the cells are stable under these conditions. These results suggest that the membrane ATPase of A. laidlawii B is intimately associated with the membrane lipids and that it functions as a monovalent cation pump which regulates intracellular osmolarity as the (Na+, K+)-ATPase does in eucaryotes.
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PMID:Physiological role and membrane lipid modulation of the membrane-bound (Mg2+, na+)-adenosine triphosphatase activity in Acholeplasma laidlawii. 3 51

Frozen sections of the pectoral, gastrocnemius and cardiac muscles from seven different species of birds were stained for myofibrillar ATPase and for succinic dehydrogenase. Several methods of myofibrillar ATPase were used including different pre-incubation treatments. Myofibrillar ATPases were also measured biochemically and the pH profile of the activity was compared with the histochemical staining following pre-incubation at different pH. Myofibrils from the different muscles were also subjected to sodium dodecyl sulphate acrylamide gel electrophoresis in order to separate the low molecular weight components of myosin. The results demonstrated that histochemical methods can be applied, with a reasonable degree of confidence, to classifying fibres in avian muscles although the classification used for mammalian muscles needs to be modified. They also showed that avian muscles, particularly the pectoralis, varies considerably between species and their mode of locomotion.
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PMID:A combined histochemical and biochemical study of myofibrillar ATPase in pectoral, leg and cardiac muscle of several species of bird. 3 55

Male Sprague-Dawley rats were treated with mirex, po, at 0, 5, 10, and 50 mg/kg/day in 0.4 ml of corn oil for 3 days. Forty-eight hours after the last treatment, the biliary excretion of exogenously provided polar metabolites of 14C-imipramine was suppressed at all levels of mirex in a dose-dependent manner. Biliary excretion of phenolphthalein glucuronide was suppressed at high doses of mirex. These effects of impaired biliary excretion were accompanied by increased bile flow. Persistence of the mirex-induced biliary excretory dysfunction toward otherwise readily excretable, preformed metabolites suggests aberration of transport of these substances from the liver to bile. Whereas mitochondrial Mg++-ATPase and microsomal Na+-K+-ATPase activities were both inhibited by exposure to mirex in a dose-dependent manner, the latter activity was consistently inhibited to a higher degree. These results are suggestive of mirex-induced interference with energy production and utilization in the manifestation of hepatobiliary dysfunction.
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PMID:Possible molecular mechanism of mirex-induced hepatobiliary dysfunction. 3 23

The membrane-bound (Na+ + K+)-activated ATPase (ATP phosphohydrolase, EC 3.6.1.3) system was treated with the nonionic detergent octaethylene-glycoldodecyl ether, yielding a transparent supernatant after centrifugation. The supernatant was highly active with both ATPase and p-nitrophenylphosphatase, with initial specific activities of 2300 mumol Pi released . mg-1 protein. h-1 and 350 mumol p-nitrophenol released.mg-1 protein.h-1, respectively. The supernatant was purified to 95--100%, with respect to the 96 000 dalton and the 56 000 dalton peptides. The solubilized enzyme was gel filtered in Sepharose 4B-Cl and displayed 2 peaks, both with catalytic activity. The low molecular weight particles eluted at Kav = 0.54, corresponding to a molecular weight of approximately 500 000 daltons and the particles had a specific activity of 2100 mumol Pi.mg-1 protein.h-1. Both peaks contained phospholipid with 60 mol phospholipid bound per 300 000 g protein. The low molecular weight particles had a molecular weight of 276 000 as determined by sedimentation equilibrium analysis.
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PMID:Solubilization and molecular weight determination of the (Na+ + K+)-ATPase from rectal glands of Squalus acanthias. 3 58

The pH optimum for (Na+ + K+)-ATPase (ATP phosphohydrolase, EC 3.6.1.3) depends on the combination of monovalent cations, on the ATP concentration and on temperature. ATP decreases the Na+ concentration necessary for half maximum activation, K0.5 for Na+ (Na+ + K+ = 150 mM), and the effect is pH and temperature dependent. At a low ATP concentration a decrease in pH leads to an increase in K0.5 for Na+, while at the high ATP concentration it leads to a decrease. K0.5 for ATP for hydrolysis decreases with an increase in pH. The fractional stimulation by K+ in the presence of Na+ decreases with the ATP concentration, and at a low ATP concentration K+ becomes inhibitory, this being most pronounced at 0 degrees C. The results suggest that (a) ATP at a given pH has two different effects: it increases the Na+ relative to K+ affinity on the internal site (K0.5 for ATP at pH 7.4, 37 degrees C, is less than 10 microM); it increases the molar activity in the presence of Na+ + K+ (K0.5 for ATP at pH 7.4, 37 degrees , is 127 microM), (b) binding of the cations to the external as well as the internal sites leads to pK changes (Bohr effect) which are different for Na+ and for K+, i.e. the selectivity for Na+ relative to K+ depends both on ATP and on the degree of protonation of certain groups on the system, (c) ATP involves an extra dissociable group in the determination of the selectivity of the internal site, and thereby changes the effect of an increase in protonation of the system from a decrease to an increase in selectivity for Na+ relative to K+.
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PMID:Effects of ATP on the intermediary steps of the reaction of the (Na+ + K+)-ATPase. IV. Effect of ATP on K0.5 for Na+ and on hydrolysis at different pH and temperature. 3 59

1. Purified (Na+ + K+)-ATPase, prepared from rabbit kidney outer medulla, is incubated with the bifunctional NH2-directed reagent dimethyl 3,3'-dithiobis-propionimidate. This results in a cross-link between the subunits of the enzyme and a simultaneous reduction of the (Na+ + K+)-ATPase and K+-stimulated p-nitrophenylphosphatase activities. 2. The most abundant cross-link product is a dimer of the two different subunits of the enzyme. 3. Reduction of the disulfide cross-link by dithioerythritol results in partial recovery of the original subunit structure of the enzyme and of the (Na+ + K+)-ATPase and K+-stimulated p-nitrophenylphosphatase activities. 4. These results suggest that a free mobility of the subunits of the (Na+ + K+)-ATPase system relative to each other is essential for proper functioning of both enzyme activities.
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PMID:Reversible inactivation of (Na+ + K+)-ATPase by use of a cleavable bifunctional reagent. 3 18

The localization of gamma-glutamyltransferase activity in guinea pig liver was studied after subcellular fractionation. The enzyme activity was essentially connected with plasma membranes whereas only low activity was found in the endoplasmic reticulum. A similar activity distribution was demonstrated for 5'-nucleotidase. Highest specific activity of gamma-glutamyltransferase was found in plasma membranes enriched in bile canaliculi. In this fraction the specific activity was 35 times greater than the specific activity of the total homogenate, a value similar to the relative specific activity of (Na+,K+)-ATPase. More than 90% of the total gamma-glutamyltransferase activity in guinea pig liver was connected with parenchymal cells and the enzyme seemed to have an outside orientation. Animals treated with phenobarbital showed moderate increased in gamma-glutamyltransferase activity in serum and liver, whereas high activities were found in most bile samples. No particular liver subfraction showed substantial accumulation of gamma-glutamyltransferase activity. The present findings do not support the suggested use of serum gamma-glutamyltransferase measurements as a direct index of "microsomal enzyme induction".
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PMID:Subcellular localization of gamma-glutamyltransferase activity in guinea pig liver. Effect of phenobarbital on the enzyme activity levels. 3 6

Mechanisms of Li+ stimulation of proline transport were studied in cells of Escherichia coli 7 and NR70, a mutant of strain 7 lacking adenosine triphosphatase (EC 3.6.1.3). An electrochemical potential difference of Li+ induced in an inward direction of energy-depleted cells caused a transient uptake of proline depending on the driving force provided. When proline was added to unbuffered cell suspensions under anaerobic conditions, the medium was found to be acidified only in the presence of Li+ but not in the presence of Na+ or K+. This acidification was abolished by the addition of a permeant anion, SCN-, to the medium containing Li+, but this was not demonstrated with cells of a mutant strain deficient in a carrier protein specific for proline. These results support the assumption that proline is taken up by a mechanism of Li+-proline cotransport in E. coli.
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PMID:Role of lithium ions in proline transport in Escherichia coli. 3 40

Bioflavonoids are potent inhibitors of lactate transport in Ehrlich ascites tumor cells. The most effective bioflavonoids have four to five hydroxyl groups. Sugar substitution at carbon three, or reduction of the double bond between carbons two and three, decreases their inhibitory activity. Quercetin, the most extensively studied of these compounds, inhibits lactate efflux by 50% at 0.1 micrograms/mg of protein. On addition of quercetin to glycolyzing Ehrlich ascites tumor cells, lactate accumulates inside the cell and the intracellular pH drops. Total lactate production is also inhibited. Nigericin prevents the internal acidification that occurs in the presence of quercetin and also reduces the inhibition of glycolysis. Thus, it appears that inhibition of lactate efflux can affect glycolysis through a lowering of the intracellular pH. The inhibitory effect of quercetin on glycolysis can be explained by its effect on lactate efflux and its previously reported effect on the Na+--K+ ATPase [Suolinna, E.--M., et al. (1974) J. Natl. Cancer Inst. 53, 1515].
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PMID:Inhibition of lactate transport and glycolysis in Ehrlich ascites tumor cells by bioflavonoids. 3 32

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