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. Isolated F1 (mitochondrial ATPase) binds to urea-treated submitochondrial particles suspended in sucrose/Tris/EDTA with a dissociation constant of 0.1 muM. 2. About one-third of the F1 and the oligomycin-sensitivity conferring protein (OSCP) are lost during preparation of submitochondrial particles prepared at high pH (A particles). None is lost from particles treated with trypsin (T particles). 3. After further treatment with alkali of urea-treated particles, binding of F1 requires the addition of OSCP. Maximum binding is reached when both OSCP and Fc2 are added. The concentration of F1-binding sites in the presence of both OSCP and Fc2 is about the same as that in TU particles. 4. After further extraction with silicotungstate of urea- and alkali-treated particles, OSCP no longer induces binding of F1, unless Fc2 is also present. Fc2 induces binding in the absence of OSCP but with a lower binding constant and, in contrast to results under all the other conditions studied in this paper, the ATPase activity is oligomycin insensitive. 5. It is tentatively concluded that OSCP is the binding site for F1 and Fc2 is the binding site for OSCP.
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PMID:Proteins required for the binding of mitrochondrial ATPase to the mitochondrial inner membrane. 13 85

Uremia was induced in rats and rabbits by unilateral nephrectomy and partial resection of the contralateral kidney. The effectiveness of the procedure was checked by determining serum urea levels that 7 days after operation were found to be more than twice as high in the operated than in the sham operated animals. Serum electrolytes at this time did not show significant alterations. In the cardiac sarcolemma from both kinds of animals the specific (Na+,K+)-ATPase activity was significantly decreased in the uremic animals. The basic, Mg2+-dependent ATPase was not affected.
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PMID:Transport ATPases of cardiac sarcolemma in experimental uremia. 13 89

1. Stimulation of the Escherichia coli ATPase activity by urea and trypsin shows that the ATPase activity both in the membrane-bound and the solubilized form is partly masked. 2. A protein, inhibiting the ATPase activity of Escherichia coli, can be isolated by sodium dodecyl sulphate polyacrylamide gel electrophoresis of purified ATPase. The inhibitor was identified with the smallest of the subunits of E. coli ATPase. 3. The molecular weight of the ATPase inhibitor is about 10,000, as determined by sodium dodecyl sulphate polyacrylamide gel electrophoresis and deduced from the amino acid composition. 4. The inhibitory action is independent of pH, ionic strength or the presence of Mg2+ or ATP. 5. The ATPase inhibitor is heat-stable, insensitive to urea but very sensitive to trypsin degradation. 6. The Escherichia coli ATPase inhibitor does not inhibit the mitochondrial or the chloroplast ATPase.
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PMID:Isolation and characterization of an inhibitory subunit of the Mg2+--Ca2+-ATPase of Escherichia coli. 13 64

1. The fluorescence and circular dichroism of four homogeneous preparations of ATPase (adenosine triphosphatase) from Micrococcus lysodeikticus differing in molecular structure and enzymic properties were examined at pH 7.5 and 25 degrees. Emission was maximum at 325 and 335 nm and the relative intensities at these wavelengths may be used to characterize the different ATPase preparations. The circular-dichroism spectra exhibited negative extrema at 208 and 220 nm, and the relative value of the molar ellipticity at these wavelengths was also different for each molecular form of the enzyme. 2. The four preparations undergo two consecutive major unfolding transitions in guanidinium chloride (midpoints at 0.94 and 1.5 M denaturant), with concomitant destruction of the quaternary structure of the protein. A comparatively minor alteration in the ATPase structure also occurred in 0.05-0.2M-guanidine and led to complete inactivation of the enzyme. The inactivation and the first unfolding transition were reversible by dilution of the denaturant; the transition with midpoint at 1.5M-guanidine was irreversible. 3. Similar results were obtained in urea, except that the successive transitions had midpoints at concentrations of denaturant of 0.4, 2.0 and 4.5M. Low concentrations of urea caused a noticeable activation of the enzyme activity and alterations of the electrophoretic mobility of the ATPase. 4. A model is proposed in which one of the major subunits, alpha, is first dissociated and unfolded reversibly by the denaturants, followed by the irreversible unfolding and dissociation of the other major subunit, beta, from subunit delta and/or the components of relative mobility 1.0 in dodecyl sulphate/polyacrylamide-gel electrophoresis (rho).
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PMID:Optical properties and denaturation by guanidinium chloride and urea of the adenosine triphosphatase of Micrococcus lysodeikticus. A comparison of four molecular forms of the enzyme. 13 87

The effects of ionic strength, urea, calcium and fluorine ions, ouabain and cholinesterase inhibitors on the changes in the ionization equilibrium of an erythrocyte suspension under heating were studied. Proton release by erythrocytes was compared to a release of potassium ions and hemoglobin from the cells. The proton release under heating is mainly determined by the physico--chemical properties of superficial structures of erythrocytes and does not depend on the activity of cholinesterase, ATPase and glycolytic processes.
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PMID:[Changes in the ionization equilibrium of erythrocyte suspension under heating]. 13 48

Uremic serum fractions obtained by Amicon XM-10 hollow fiber and membrane filtration was investigated using cytotoxicity in tissue culture by Rose's circumfusion system and by monolayer culture. The cytotoxic fraction was investigated with Elphor-Va 4, IR spectrometry, mass spectrometry, and NMR spectrometry for analysis of the true form of the substance. Remarkable cytotoxicity was observed in the small molecular fraction. Of the substances which may be surmised as uremic toxins, such as urea methylguanidine (MG), guanidinosuccinic acid, etc., only MG presented a similar cytotoxicity to this fraction. From the result of mass spectrometry, infrared spectrometry, and NMR spectrometry, it appeard that the electropositive substance included in the small molecular fraction was intimately associated with MG or one of its derivatives. The middle molecular fraction showed an inhibitory effect on cultured mouse liver glucokinase and human erythrocytic Na-K-dependent ATPase.
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PMID:Studies on uremic toxins: the identification and the determination of toxic effect by tissue culture method. 14 39

1. Five subunits (alpha, beta, gamma, delta, and epsilon) of an ATPase from a thermophilic bacterium PS3 were purified in the presence of 8 M urea by ion exchange chromatography. Then the ATPase activity was reconstituted by mixing the subunit solutions and incubating them at 20-45 degrees, at pH 6.3 to 7.0. 2. Mixtures containing beta + gamma or alpha + beta + delta regained ATP-hydrolyzing activity, but mixtures of alpha + beta and beta + delta did not. Combinations not including beta were all inactive. 3. The ATPase activity reconstituted from alpha + beta + delta was thermolabile and insensitive to NaN3, whereas the activities obtained from mixtures containing beta and gamma were thermostable and sensitive to NaN3, like the native ATPase. 4. The assemblies containing both beta and gamma subunits had the same mobility as the native ATPase molecule on gel electrophoresis, those without the gamma subunit moved more rapidly toward the anode. 5. Subunits epsilon and delta did not inhibit the ATPase activity of either the assembly (alpha + beta + gamma) or the native ATPase.
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PMID:Reconstitution of adenosine triphosphatase of thermophilic bacterium from purified individual subunits. 14 Aug 72

The effect of guanidine, lisine, arginine, acetamide and urea on the activity of the preparations of Na, K-ATPase from guinea pig kidney was studied. It was established that the enzymatic activity of the preparations can be lowered by 50% by the following concentrations of the substances examined: guanidine--0.07 M, argine--0.12 M, lisine--0.30 M, acetamide--0.95 M, urea--1.05 M. There correlation among the inhibitory ability of these substances and their basis properties.
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PMID:[Effect of various organic substances on the activity of the membrane preparations of Na, K-ATPase]. 14 26

Hydrophobic agents, e.g. methanol, ethanol, isopropanol, acetone and dioxane were shown to induce irreversible inactivation of Na+, K+-adenosine triphosphatase beginning with their concentrations of 20 to 35%, whereas dimethyl sulphoxide exerted similar effect only at concentration of 50% and higher. Urea also irreversibly inactivated Na+, K+-adenosine triphosphatase, beginning with a concentration of about 20%. It was found that, dimethyl sulphoxide contrary to the other hydrophobic agents studied, protected Na+, K+-adenosine triphosphatase against the inactivating (denaturing) action of urea. The highest stabilizing effect of dimethyl sulphoxide was displayed at concentrations from 20 to 30%.
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PMID:[Stabilization of Na+, K+-adenosine triphosphatase by dimethyl sulfoxide under inactivation by urea]. 14 22

1. Photophosphorylation was studied in spinach chloroplasts on illumination, from the dark state, with saturating short ("single turnover") flashes of light. 2. At rapid flash rates (100 Hz), phosphorylation began within the first five flashes. The ATPase inhibitor protein appeared to be displaced from its inhibitory site on the ATPase also within five flashes, as deduced from the flash-induced ATPase activity. 3. At slower flash rates, or if the rate of electron transfer were reduced with 3-(3,4-dichlorophenyl)-1,1-dimethyl urea (DCMU), phosphorylation began only after a larger number (50--60) of flashes. The displacement of the ATPase inhibitior protein was similarly delayed. 4. Partial displacement of the inhibitor protein from its inhibitory site on the ATPase (by pretreatment with dithioerythritol) allowed phosphorylation to proceed without a perceptible lag, even in the presence of DCMU. It was concluded that the ATPase inhibitor protein must be displaced on the ATPase before phosphorylation can begin, and that this process is energy dependent. 5. During the flash regime used, release of inhibitor from its inhibitory site seemed to be governed largely by the membrane potential. The light-induced pH gradient seemed to have little effect under these conditions. Our results are not compatible with a direct conformational interaction between the electron transfer chain and the ATPase causing displacement of the inhibitor. 6. The maximal rate of photophosphorylation induced by less than 200 flashes was 0.12--0.15 mol ATP made/mol ATPase per flash. This rate seemed to be limited not be the supply of energy to the ATPase molecules, nor by the maximal turnover capacity of the ATP synthesising system, but by the number of ATPase molecules which were active in synthesis, i.e., which lacked the inhibitor protein. 7. The bound nucleotides of the coupling ATPase exchanged with added nucleotides during single turnover flashes. At high flash rates, exchange began within 5 flashes. The average amount of nucleotide exchanged per flash over 100 flashes was about one tenth the amount of ATP synthesised in each flash. 8. It is concluded that, during phosphorylation, a steady state level of active coupling ATPases is set up. The energy-dependent displacement of the inhibitor protein, and its (energy-independent) relaxation back on to the inhibitory site are the two opposing factors involved in this steady state.
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PMID:The initial stages of photophosphorylation. Studies using excitation by saturating, short flashes of light. 14 4

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