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)

1. The myosin content of myofibrils was found to be 51% by SDS-gel electrophoresis. 2. The initial burst of Pi liberation of the ATPase [EC 3.6.1.3] of a solution of myofibrils in 1 M KCl was measured in 0.5 M KCl, and found to be 0.93 mole/mole of myosin. 3. The amount of ADP bound to myofibrils during the ATPase reaction and the ATPase activity were measured by coupling the myofibrillar ATPase reaction with sufficient amounts of pyruvate kinase [EC 2.7.1.40] and PEP to regenerate ATP. The maximum amount of ADP bound to myofibrils in 0.05M KCl and in the relaxed state was about 1.5 mole/mole of myosin. On the other hand, the ATPase activity exhibited substrate inhibition, and the amount of ATP required for a constant level of ATPase activity was smaller than that required for the maximum binding of ADP to myofibrils. 4. The maximum amount of ADP bound to myofibrils in 0.5 M KCl was about 1.9 mole/mole of myosin. When about one mole of ADP was found to 1 mole of myosin in myofibrils, the myofibrillar ATPase activity reached the saturated level, and with further increase in the concentration of ATP one more mole of ADP was found per mole of myosin.
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PMID:Structure and function of the two heads of the myosin molecule. I. Binding of adenosine diphosphate to myofibrils during the adenosinetriphosphatase reaction. 13 77

F-Actin (FA) and pyruvate kinase (PK) [EC 2.7.1.40] were immobilized on PAB-cellulose. HMM-Subfragment-1 (S-1) was applied to a column of immobilized FA and PK, and eluted with 1-1.5 muM ATP and 1 mM PEP in 50 mM KCl, 2 mM MgCl2, and 10 mM Tris-HCl at pH 7.8 and 4 degrees. The size of the initial burst of Pi liberation of S-1 applied to the column was 0.5 mole/mole S-1. The burst size of S-1 decreased with increase in the fraction number, and S-1 in later fractions showed a burst size of 0.1-0.3 mole/mole. On the other hand, the rate of the ATPase [EC 3.6.1.3] reaction in the steady state was almost independent of the burst size, and increased slightly with increase in the fraction number. The ATPase activity of S-1 with a burst size of less than 0.2 mole/mole was scarcely activated by FA. Usually, the dependence on the burst size of S-1 of its ATPase activity in the presence of FA was sigmoidal, and marked activation by FA was observed when the burst size was larger than 0.3-0.4 mole/mole. Similar results were obtained with S-1 fractions separated by the ultracentrifugation method described in our previous paper ((1976) J. Biochem. 79, 419-434).
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PMID:Structure and function of the two heads of the myosin molecule. II. Separation of the two fractions of subfragment-1 of myosin by affinity column chromatography on immobilized F-actin: direct evidence for acceleration by F-actin of the decomposition of the reactive enzyme-phosphate-ADP complex formed on head B of myosin. 13 78

The kinetic influence of bound creatine kinase (CK) on the Ca(2+)-activated myosin ATPase was evaluated. ATPase rates were measured from 0.8 microM to 3.2 mM MgATP. Under control conditions, the apparent KmATP was 79.9 +/- 13.3 microM. In contrast, the addition of 12.2 mM phosphocreatine (PCr) decreased the apparent KmATP to a value of 13.6 +/- 1.4 microM. To determine if this reduction was merely the result of an ATP maintenance system, ATP was regenerated using either phosphoenolpyruvate and pyruvate kinase (PEP-PK), or PCr and soluble bovine cardiac CK. Data obtained with PEP + PK indicated an apparent KmATP of 65.5 +/- 7.3 microM. To study the effects of exogenous CK, the endogenous CK was irreversibly inhibited with 1 mM iodoacetamide. The kinetics of the ATPase were then examined by adding soluble CK to the incubation medium. Under these conditions, the KmATP was 56.4 +/- 0.86 microM. Therefore, these two ATP regeneration systems could not duplicate the effects of endogenous CK. The reduction of the apparent KmATP by endogenous CK was not the result of an altered inhibition by MgADP. MgADP inhibition was determined to be non-competitive, with a Ki of 5.0 +/- 0.1 mM. These data suggest that the observed kinetic effects reflect the proximity of the enzymes in the myofibrillar bundle, thus emphasizing the importance of bound CK for the localized regeneration of MgATP utilized by the myosin ATPase.
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PMID:Specific enhancement of the cardiac myofibrillar ATPase by bound creatine kinase. 153 Nov 42

Mutations that cause loss of acidity in the vacuole (lysosome) of Saccharomyces cerevisiae were identified by screening colonies labeled with the fluorescent, pH-sensitive, vacuolar labeling agent, 6-carboxyfluorescein. Thirty nine vacuolar pH (Vph-) mutants were identified. Four of these contained mutant alleles of the previously described PEP3, PEP5, PEP6 and PEP7 genes. The remaining mutants defined eight complementation groups of vph mutations. No alleles of the VAT2 or TFP1 genes (known to encode subunits of the vacuolar H(+)-ATPase) were identified in the Vph- screen. Strains bearing mutations in any of six of the VPH genes failed to grow on medium buffered at neutral pH; otherwise, none of the vph mutations caused notable growth inhibition on standard yeast media. Expression of the vacuolar protease, carboxypeptidase Y, was defective in strains bearing vph4 mutations but was apparently normal in strains bearing any of the other vph mutations. Defects in vacuolar morphology at the light microscope level were evident in all Vph- mutants. Strains that contained representative mutant alleles of the 17 previously described PEP genes were assayed for vacuolar pH; mutations in seven of the PEP genes (including PEP3, PEP5, PEP6 and PEP7) caused loss of vacuolar acidity.
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PMID:Genes required for vacuolar acidity in Saccharomyces cerevisiae. 162 5

Fluoride inhibition of carbohydrate metabolism by the acidogenic plaque microflora is well-established, although it has not always been appreciated that oral bacteria vary considerably in their susceptibility to fluoride. Early studies demonstrated that the F-induced reduction in acid production was due, in part, to the inhibition of the glycolytic enzyme, enolase, which converts 2-P-glycerate to P-enolpyruvate. The decreased output of PEP in the presence of F, in turn, results in the inhibition of sugar transport via the PEP phosphotransferase system (PTS). Bacterial accumulation of fluoride involves the transport of HF, a process requiring a transmembrane pH difference or pH gradient, which is generated only by metabolically active cells. The uptake of HF into the more alkaline cytoplasm results in the dissociation of HF to H+ and F- and, if allowed to continue, the accumulation of protons acidifies the cytoplasm, causing a reduction in both the proton gradient and enzyme activity. Current information indicates that in addition to enolase, F- also inhibits the membrane-bound, proton-pumping H+/ATPase, which is involved in the generation of proton gradients through the efflux of protons from the cell at the expense of ATP. Thus, fluoride has the dual action of dissipating proton gradients and preventing their generation through its action on H+/ATPase. The collapse of transmembrane proton gradient, in turn, reduces the ability of cells to transport solutes via mechanisms involving proton motive force. In spite of these known effects on the bacterial cell, there is no general agreement that the anti-microbial effects of F contribute to the anti-caries effect of fluoride.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Biochemical effects of fluoride on oral bacteria. 217 27

Mutational and gene fusion studies have identified localization signals that target proteins to the yeast lysosome-like vacuole. Genetic analyses have also identified groups of genes (VPS and PEP) whose products are required for recognition of these signals, and sorting and transport of proteins to the vacuole. One of the components involved in protein sorting has been shown to be the vacuolar H+-ATPase, presumably via its role in vacuolar acidification.
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PMID:Protein targeting to the yeast vacuole. 252 76

The purpose of the present work was to evaluate the clinical efficacy and the mechanism of Yi-qi Huo-xue Injection (YHI) in treatment of coronary heart disease. YHI consists of Ginseng, Astragalus and Angelicae Sinensis. The 10% dextrose serves as a placebo. The results were as follows: 1. the frequency and severity of angina episodes were reduced by 90.63%; 2. the ischemic ST-T in ECG was improved in 56.25% of cases; 3. the tolerance to treadmill exercise was increased from 348.50 to 503.50 M.; 4. the left ventricular function was strengthened, PEP/LVET ratio reduced from 0.45 to 0.36, the activity of (Na(+)-K+) ATPase in myocardial cell membrane of rats inhibited by 19.2%; 5. the blood viscosity and erythrocyte electrophoretic time lowered; 6. the adhesion and aggregation of platelet in patients with CHD were inhibited by 27% and 59.4% respectively; 7. the plasma TXB2 level in CHD was reduced from 260.28 +/- 164.4 to 139.29 +/- 57.01 pg/ml; 8. the plasma 6-keto-PGF1 alpha level in CHD was increased from 33.45 +/- 22.5 to 57.48 +/- 13.1 pg/ml, and in rats from 185.77 to 366.33 pg/ml. The differences were all statistically significant (P less than 0.05-0.01) in comparison with the placebo group.
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PMID:Clinical and experimental studies of coronary heart disease treated with yi-qi huo-xue injection. 261 56

The amounts of ATP and ADP bound to 21S dynein during the ATPase reaction were measured in the presence of 2.83 mg/ml 21S dynein, 2 mM PEP, 4 mg/ml PK, 0.1 M KCl, 5 mM MgCl2, 1 mM DTT, 0.1 mM PMSF, 50% [2-3H]glycerol, and 20 mM imidazole at pH 7.0 and 0 degrees C. The maximum amounts of ATP and ADP bound to 21S dynein were 0.29 and 0.55 mol/(10(6) g protein), respectively. The dissociation constants of ATP for the ATP and ADP binding (4 microM) were almost equal to the Km value (3.7 microM) of dynein-ATPase in the steady state. The amount of bound ADP during the initial phase showed an overshoot, which reached 0.6-0.8 mol/10(6) g protein at 5 s, then decreased to the steady state level within 20 s. Furthermore, the rate of TCA-Pi liberation during the initial 5 s was 6 times the steady-state rate. The apparent Pi-burst size, estimated by extrapolating the steady-state Pi liberation to zero time, was 1.33 mol/(10(6) g protein). The true Pi-burst size was calculated to be 1.56 mol/(10(6) g protein) by correcting for the effect of Pi liberation at steady state. All these findings could be explained quantitatively by the following reaction scheme for 21S dynein ATPase in the presence of glycerol: (formula; see text) where K1 = 25.5 microM, and k2, k3, and k4 were 0.39, 0.21, and 0.11 s-1, respectively.
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PMID:Reaction mechanism of 21S dynein ATPase from sea urchin sperm. II. Formation of reaction intermediates. 622 79

One of the first problems encountered by primitive cells was that of volume regulation; the continuous entry of ions, (eg, NaCl) and water in response to the internal colloid osmotic pressure threatening to destroy the cell by lysis. We propose that to meet this environmental challenge cells evolved an ATP-driven proton extrusion system plus a membrane carrier that would exchange external protons with internal Na+. With the appearance of the ability to generate proton gradients, additional mechanisms to harness this source of energy emerged. These would include proton-nutrient cotransport, K+ accumulation, nucleic acid entry, and motility. A more efficient system for the uptake of certain carbohydrates by vectorial phosphorylation via the PEP-phosphotransferase system probably appeared rather early in the evolution of anaerobic bacteria. The reversal of the proton-ATPase reaction to give net ATP synthesis became possible with the development of other types of efficient proton transporting machinery. Either light-driven bacterial rhodopsin or a redox system coupled to proton translocation would have served this function. Oxidation of one substrate coupled to the reduction of another substrate by membrane-bound enzymes evolved in such a manner that protons were extruded from the cell during the reaction. The progressive elaboration of this type of redox proton pump permitted the use of exogenous electron acceptors, such as fumarate, sulfate, and nitrate. The stepwise growth of these electron transport chains required the accretion of several flavoproteins, iron-sulfur proteins, quinones, and cytochromes. With modifications of these four basic components a chlorophyll-dependent photosynthetic system was subsequently evolved. The oxygen that was generated by this photosynthetic system from water would eventually accumulate in the atmosphere of the earth. With molecular oxygen present, the emergence of cytochrome oxidase would complete the respiratory chain. The proton economy of membrane energetics has been retained by most present-day microorganisms, mitochondria, chloroplasts, and cells of higher plants. A secondary use of the energy stored as an electrochemical difference of Na+ for powering membrane events probably also evolved in microorganisms. The exclusive age of the Na+ economy is distinctive of the plasma membrane of animal cells; the Na+-K+ ATPase sets up an electrochemical Na+ gradient that provides the energy for osmoregulation, Na+-nutrient co-transport, and the action potential of excitable cells.
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PMID:Evolution of membrane bioenergetics. 645 55

Glycerinated single fibres from the dorsal longitudinal muscle of Lethocerus maximus were isometrically contracted in MgATP-salines (10 microM Ca2+; 1.5 mM Mg2+; pH 6.7; 22 degrees C and 20 mM PEP; 100 U/ml pyruvate kinase). The ratio of ATPase activity to tension decreased by a factor of 2 after reducing the ATP-concentration from 15 to 0.5 mM. At all ATP-concentrations (0.5-15 mM), the fibres showed tension adjustments in response to small step changes in length characteristic to an actively contracting muscle: i) an elastic phase which did not depend on ATP-concentration ii) a quick phase of stress relaxation with at least two exponential components; iii) a phase of delayed tension generation. An increase in size of the length step and/or a decrease of ATP-concentration slowed the quick phase and the delayed phase. Similar results have been obtained with skinned cardiac muscle (pig right ventricle). To see, how the isolated contractile system is affected by an increase in the light chain phosphorylation, tension transients were studied in skinned right ventricular muscle fibres before and after incubation with ATP gamma S (2 mM), pure myosin light chain kinase (9 micrograms/ml), Calmodulin (1 microM) and Ca2+ (0.8 microM). While isometric tension development elicited by 20 microM Ca2+ in the ATP salt solution was barely affected in presence of the enzyme, the ATPase activity was decreased by about 25% of the control. There was also a marked decrease (about 50%) in the contraction velocity as determined by the recovery of tension following a quick release. Quick stretches cause an immediate increase in tension followed by a rapid fall and a subsequent rise in tension. The velocity of this tension rise decreased by approximately 30% after incubation with myosin light chain kinase.
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PMID:Tension transients in skinned muscle fibres of insect flight muscle and mammalian cardiac muscle: effect of substrate concentration and treatment with myosin light chain kinase. 661 Oct 37

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