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)

There is correlative evidence that one mechanism of cellular thermoresistance is an increased level of membrane cholesterol. The hypothesis that cholesterol protects membrane proteins from thermal inactivation was tested using Ca-ATPase as a model. The intracellular Ca2+- and Mg2+-dependent ATPase from muscle sarcoplasmic reticulum was reconstituted into lipid mixtures containing different amounts of cholesterol [cholesterol/phospholipid molar ratio (C/PL) = 0.1 or 0.3]. The rate of thermal inactivation of calcium uptake activity of the reconstituted vesicles with C/PL = 0.3 was found to be significantly lower than those with C/PL = 0.1 in the temperature range 43-47 degrees C where hyperthermic cell killing occurs. At 43 degrees C, this is equivalent to a 3 degrees C temperature shift. ATP hydrolysis of Ca-ATPase was found to be substantially heat resistant in reconstituted vesicles with C/PL = 0.1 or 0.3. Glycerol (10%) protects while ethanol (2.5%) and the local anesthetics dibucaine, tetracaine, and procaine sensitize the thermal inactivation of calcium uptake. To investigate the molecular mechanisms of thermal inactivation and cholesterol protection, the responses of the physical state of the lipid and protein conformation to hyperthermic sensitizers and protector were monitored using fluorescent and spin label probes and circular dichroism, respectively. The calcium uptake inactivation appears to be due to a direct thermotropic conformational change (denaturation) of the protein. Cholesterol raises the temperature of inactivation, as does glycerol, while ethanol and the local anesthetics lower it.
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PMID:Protection of the membrane calcium adenosine triphosphatase by cholesterol from thermal inactivation. 294 27

The characteristics of glycerol-induced inhibition of the dynein ATPase extracted from Tetrahymena cilia were investigated. Fifty percent inhibition was observed at about 15% (v/v) glycerol with the 22S dynein Mg-ATPase. Ethylene glycol was equally inhibitory, while sucrose, a kind of polyol, was less effective. The glycerol-induced inhibition of the 22S dynein Mg-ATPase was not influenced by pH or by raising the ionic strength of the assay solution. An aqueous glycerol solution treated with anion or cation exchanger or charcoal was equally inhibitory to a non-treated solution. The inhibition was most likely to be due to glycerol or ethylene glycol itself, not to a contaminant. The inhibition of the 22S dynein Mg-ATPase was apparently noncompetitive: only the Vmax was reduced without a significant change in the apparent Km. The dynein ATPase is known to be inhibited potently by vanadate. Glycerol reduced the sensitivity of the dynein ATPase to the vanadate-induced inhibition. Glycerol exhibited a decelerating effect on the rate of the oxygen exchange between phosphate and water catalyzed by 22S dynein in the presence of ADP and Mg2+. If it is assumed that the rate constants of the ATP hydrolysis step are not affected by glycerol, it may be implied that the phosphate release from the E.ADP.P1 intermediate was decelerated by glycerol and that the deceleration of the phosphate release paralleled the reduction of the overall ATPase activity over a wide range of glycerol concentration.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Steady-state kinetic study on the inhibition of the adenosinetriphosphatase activity of dynein from Tetrahymena cilia by glycerol. 296 49

Thin-spread glycerol-extracted Physarum plasmodia were treated with N-ethylmaleimide (NEM) to block myosin-ATPase and contractility. After supplementing the models with purified plasmodial myosin, they could be reactivated and contracted upon addition of ATP. Fluorescently labeled actomyosin fibers ruptured during contraction, resulting in beaded or rod-like contraction centers. Glycerol-extracted plasmodia lose their negative Ca++-dependence during extraction. Reconstitution of NEM-treated models with plasmodial myosin partly restored this Ca++-sensitivity. Thus, either myosin or a factor associated with it seems to be involved in the Ca++-dependent regulation of cytoplasmic actomyosin contraction in Physarum. NEM-blocked models reconstituted with skeletal muscle myosin were not reactivated by ATP. The same plasmodia subsequently incubated with plasmodial myosin were able to contract.
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PMID:Reactivation of cell-free models of Physarum plasmodia after myosin reconstitution. 297 75

Glycerol-induced tubulin polymerization supported by non-guanine nucleotides was examined. The electrophoretically homogeneous tubulin was devoid of nucleoside diphosphate kinase activity and 95% saturated with exchangeable GDP and nonexchangeable GTP. All purine ribonucleoside 5'-triphosphates were active but no polymerization occurred with CTP or UTP. All polymerization reactions, as a function of nucleotide concentration, were similar: above a minimum (threshold) concentration, as the amount of nucleotide increased the reaction became progressively more rapid and extensive with a progressively shorter nucleation period. Threshold concentrations of ATP, XTP, ITP and GTP were 0.6 mM, 0.3 mM, 30 microM and 7 microM, respectively. Most ribose- and polyphosphate-modified ATP analogs also supported polymerization at high concentrations, but the activity of these analogs relative to ATP was very similar to the activity of cognate GTP analogs relative to GTP. Polymerization with ATP was associated with an ATPase reaction. ATP hydrolysis was potently inhibited by GDP and GTP and altered by antimitotic drugs in parallel with the effects of these agents on GTP hydrolysis. Substantial amounts of [8-14C]GDP bound in the exchangeable site of tubulin were displaced during polymerization with GTP or ATP, but much higher concentrations of ATP were required for equivalent displacement of the tubulin-bound GDP. Polymerization with GTP or ATP was inhibited in a qualitatively similar manner by GDP, with increasing concentrations of GDP causing a progressive prolongation of the nucleation period and reduction in reaction rate and extent. However, complete inhibition of polymerization required that GDP:GTP much greater than 1, but that GDP:ATP much less than 1. Inhibition appeared to be primarily competitive, since with higher triphosphate concentrations higher GDP concentrations were required for comparable inhibition. We conclude that ATP effects on tubulin polymerization are mediated through a feeble interaction at the exchangeable GTP site.
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PMID:Tubulin polymerization with ATP is mediated through the exchangeable GTP site. 300 97

The membrane-bound ATPase of Mycoplasma gallisepticum selectively hydrolyzed purine nucleoside triphosphates and dATP. ADP, although not a substrate, inhibited ATP hydrolysis. The enzyme exhibited a pH optimum of 7.0 to 7.5 and an obligatory requirement for divalent cations. Dicyclohexylcarbodiimide at a concentration of 1 mM inhibited 95% of the ATPase activity at 37 degrees C, with 50% inhibition occurring at 22 microM dicyclohexylcarbodiimide. Sodium or potassium (or both) failed to stimulate activity by greater than 37%. Azide (2.6 mM), diethylstilbestrol (100 micrograms/ml), p-chloromercuribenzoate (1 mM), and vanadate (50 microM) inhibited 50, 91, 89, and 60%, respectively. The ATPase activity could not be removed from the membrane without detergent solubilization. Although most detergents inactivated the enzyme, the dipolar ionic detergent N-dodecyl-N,N-dimethyl-3-ammonio-1-propanesulfonate (0.1%) solubilized approximately 70% of the enzyme with only a minor loss in activity. The extraction led to a twofold increase in specific activity and retention of inhibition by dicyclohexylcarbodiimide and ADP. Glycerol greatly increased the stability of the solubilized enzyme. The properties of the membrane-bound ATPase are not consistent with any known ATPase. We postulate that the ATPase functions as an electrogenic proton pump.
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PMID:Characterization and solubilization of the membrane-bound ATPase of Mycoplasma gallisepticum. 316 71

The p30 antigen from Rauscher leukemia virus (R-MuLV) was separated into two fractions by chromatography on either phosphocellulose or DEAE-cellulose. The p30-I and p30-II were indistinguishable immunologically or by isoelectrofocusing and gel electrophoresis. An ATPase activity was tightly associated with p30-II that could not be separated by ion-exchange chromatography, isoelectrofocusing, or glycerol velocity gradient sedimentation. The ATPase hydrolyzed the gamma phosphate from only ATP or dATP. Immunoglobulin directed against R-MuLV p30 completely inhibited the p30-II associated ATPase. Glycerol velocity gradient analysis showed that p30-I sedimented as a 30-kDa species while the p30-II and its associated ATPase sedimented as a 60-kDa species. The p30-II was converted entirely to a 30-kDa form by treatment with 0.2% (w/v) lithium dodecyl sulfate, suggesting that it represented a complexed species of p30. Finally, p30-II was found to stimulate the activity of R-MuLV reverse transcriptase, but p30-I had no effect on the activity of the enzyme. These results suggested the existence of at least two different forms of p30 in R-MuLV.
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PMID:Characterization of a p30 fraction from Rauscher leukemia virus which has an associated ATPase activity. 620 91

The effects of methanol, butanol, glycerol, glucose, sucrose and inorganic anions on the activity of soluble ATPase from mouse liver mitochondria were studied. Glycerol inhibited, while methanol stimulated the enzyme activity uncompetitively with respect to ATP and competitively with respect to each other. Glycerol-induced inhibition of ATPase was competitive with respect to sulphite; methanol competed with thiocyanate for the enzyme activity. The Arrhenius plots for ATPase revealed bends at 20 degrees and 30 degrees C in the presence of sulphite, chlorine, thiocyanate, glycerol and methanol. It was assumed that all the compounds tested influenced soluble ATPase by changing the nucleophilic activity of H2O.
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PMID:[Mechanism of glycerol and methanol action on soluble ATPase of mitochondria]. 622 18

In the reaction of sarcoplasmic reticulum membranes with excess 5,5'-dithiobis(2-nitrobenzoate) (DTNB) some new features were observed: The Ca2+-dependent ATPase activities of increasingly modified preparations were considerably enhanced during the initial stage of thiol blockage. A maximum (130-160% of the control activity) was reached when about 1.5-2 mol thiol groups per 10(5) g vesicular protein had reacted, in the absence of ATP and detergent. At higher extents of modification inactivation occurred. Purified ATPase behaved principally similar to native sarcoplasmic vesicles. In the presence of Mg2+ and ATP the activity maximum (up to 180% of control) was broadened and shifted towards a higher degree of thiol blockage. Concomitantly the modification and inactivation rates were considerably reduced. Glycerol (10-30%, v/v) slightly enhanced the ATPase activity maximum and reduced the rate of inactivation essentially only by decreasing the DTNB modification rate. In the presence of sufficient myristoylglycerophosphocholine for solubilization no activation was observed. The steady state level of phosphoprotein from ATP was raised to about 150% of the control level 10 s after addition of DTNB (about 1/2 thiol blocked), followed by a linear decrease with the number of thiols labeled, while the Ca2+-dependent ATPase activity of preparations modified under equivalent conditions (10(-4) M Ca2+ and 2 X 10(-3) M Mg2+ present) showed a broader maximum corresponding to 1.5 thiols blocked.
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PMID:Transient activation of the Ca2+-ATPase from sarcoplasmic reticulum during thiol modification by 5,5'-dithiobis(2-nitrobenzoate). 622 71

The effect of some organic solvents, in particular dimethyl sulfoxide, on oxidative phosphorylation, the Pi-ATP exchange reaction, and ATP hydrolysis has been studied in submitochondrial particles from bovine heart. The three reactions are inhibited by dimethyl sulfoxide, but with a different sensitivity. Oxidative phosphorylation takes place at considerable rates in the presence of concentrations of dimethyl sulfoxide that completely inhibit the Pi-ATP exchange reaction. The sensitivity of the Pi-ITP exchange reaction to dimethyl sulfoxide measured in the presence of electron transport is also higher than that of oxidative phosphorylation. Dimethyl sulfoxide inhibits an electrochemical H+ gradient-dependent stimulating effect of inorganic phosphate on ATP hydrolysis which is linked to the Pi-ATP exchange reaction. In the absence of phosphate or in the presence of phosphate plus uncoupler, dimethyl sulfoxide does not inhibit hydrolysis. These findings, together with the observation that electron transport increases the rate of the Pi-ITP exchange reaction, suggest that electrochemical H+ gradients modify the kinetic characteristics of particulate Fi-ATPase. Glycerol and methanol, but not dimethylformamide, induce effects similar to those of dimethyl sulfoxide on oxidative phosphorylation and the Pi-ATP exchange reaction. This suggests that the described effects of solvents could be due to alterations of water structure.
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PMID:Oxidative phosphorylation and the Pi-ATP exchange reaction of submitochondrial particles under the influence of organic solvents. 674 56

The purpose of this study was to examine proximal and distal tubular function in rats with nonoliguric, myohemoglobinuric acute renal failure (ARF). ARF was induced with glycerol (50%, 10 ml/kg of body wt, i.m.), and renal function was studied 24 hours after glycerol or saline (controls) injection. Glycerol injection caused a 50 to 90% depression in GFR and a significant rise in blood urea nitrogen concentration. Animals with ARF exhibited glycosuria with normal blood sugar levels and a striking depression in tubular glucose reabsorption per milliliter of GFR. The capacity to reabsorb (mEq/liter GFR) was intact at normal blood bicarbonate levels, but was markedly depressed when blood bicarbonate was raised. The tubular maximum for para-aminohippurate (PAH) secretion and the renal extraction fraction of PAH were strikingly depressed in rats with ARF. Distal acidification as assessed by the urine-to-blood gradient of PCO2 (UB PCO2) was normal both during maximal alkalinization of the urine with bicarbonate (urine pH, approximately 7.8) or during neural phosphate infusion (urine pH, approximately 7.0). Net acid excretion per milliliter GFR and minimal urine pH (less than 5.5) following 3 days of ammonium chloride ingestion was similar in control and ARF animals. Potassium excretion was intact in maximal urinary osmolality were significantly altered in animals with ARF. Cortical and outer medullary Na-K-ATPase specific activities were significantly depressed in ARF rats. This occurred as a consequence of enzyme loss and not secondary to alterations in enzyme kinetics of absolute tubular sodium reabsorption. Light and electron microscopy showed diffuse proximal tubular damage, whereas glomeruli and distal tubules were intact. These data demonstrate that glycerol injection produces a diffuse proximal tubular transport defect associated with histologic and enzymatic alterations.
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PMID:Renal tubular function in glycerol-induced acute renal failure. 678 13

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