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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)

Steady and uniform streamings (SUS) of HMM solutions were set up in the presence of Mg-ATP in a circular slit, on both side-walls of which a Millipore filter was fixed; F-actin filaments from rabbit skeletal muscle were bound onto the Millipore filter by cyanogen bromide in the flow. The direction of the SUS was specificially determined by that of the flow during the fixing of F-actin and was independent of the direction of the initial velocity applied externally to the HMM solutions. The SUS continued for about 90 min with a velocity of about 20 mum/s at 20 degrees C. There was a strong correlation between the acto-HMM ATPase activity and the velocity of SUS when the salt concentration was varied. Moreover, this was also the case when the ATPase activity was controlled by Ca2+, when native tropomyosin was bound to F-actin in the circular slit. Careful examination led to the conclusions that F-actin filaments are fixed on the Millipore filter with a specific polarity and that a chemo-mechanical system had been successfully reconstituted in our "stream cells," in which chemical energy from ATP is converted to the mechanical energy of streaming.
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PMID:Studies of the chemo-mechanical conversion in artificially produced streamings. I. Reconstruction of a chemo-mechanical system from acto-HMM of rabbit skeletal muscle. 15 79

A 20-residue peptide analog of the actomyosin ATPase inhibitory region of rabbit skeletal troponin I (Tn-I) has been synthesized by the solid phase method. The analog exhibited biological activity similar to both Tn-I and a 21-residue cyanogen bromide fragment of Tn-I. At ionic strengths where the inhibition of the actomyosin ATPase due to tropomyosin alone is low, the synthetic peptide in the presence of tropomyosin inhibits 90% of the original ATPase activity. In the absence of tropomyosin, the inhibition due to the peptide is much reduced. In contrast, salmine, a basic protein also known to inhibit the actomyosin ATPase, shows less inhibition in the presence of tropomyosin than it does in its absence. Gel electrophoresis data showed that the enhancement of the analog's inhibition by tropomyosin may be related to the analog's promotion of tropomyosin binding to F-actin similar to that reported for Tn-I and that the reduction of salmine inhibition by tropomyosin may be due to the binding of salmine by tropomyosin. At ionic strengths where binding and inhibition of tropomyosin is significant, the analog enhanced inhibition in a manner similar to that reported for whole Tn-I.
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PMID:Synthesis and biological activity of an icosapeptide analog of the actomyosin ATPase inhibitory region of troponin I. 15 93

We described previously the existence of a soluble ATPase activity in rat liver mitochondria [1]. The purification and catalytic properties have been described [2]. In a continuation of these experiments, we have studied the immunologic and structural properties of one molecular form of this enzyme : ATPase I. We have prepared the antiserum anti-ATPase I and demonstrated the purity of our enzyme preparation by immunodiffusion and immunoelectrophoresis. An immunohistochemical method also confirmed the localization of ATPase I in the soluble fraction of mitochondria. The molecular weight of ATPase I was measured by G 100 Sephadex gel filtration and was found to be 18,400; electrophoresis on polyacrylamide gels gave a value of 18,600. The pHi of ATPase I was found to be 7,2. Amino acid analysis showed high amounts of aspartic acid, glutamic acid, serine and glycine. The molecular weight calculated from the total amino acid residues was found to be 17,000. Alanine is the NH2 terminal amino acid. The peptide maps obtained after degrading ATPase I with cyanogen bromide or trypsin are in accordance with the methionine, lysine and arginine residues we found in the ATPase I molecule. ATPase I does not appear to be a glycoprotein.
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PMID:Studies of soluble rat liver mitochondrial acid ATPases. II. Structural and immunological properties of ATPase 1. 15 69

Resting and active-state respiratory velocities, respiratory control, high amplitude volume changes, and latent ATPase activities were examined in hepatic mitochondria from rats fed 3'-methyl-4-dimethylaminoazobenzene (3'MeDAB) for production of liver tumors and from rats in three phases of liver regeneration subsequent to subtotal hepatectomies. Tetrabutylammonium bromide, a lipophilic probe capable of selectively inhibiting phosphorylating oxidation or uncoupling oxidation from phosphorylation, was used to detect subtle alterations in lipophilicity characteristics of the organelles and it was concluded that mitochondria from pre-hyperplastic, hyperplastic, and neoplastic tissues had a higher than normal degree of membrane lipophilicity at specific functional sites. Control of respiration by ADP was markedly augmented in all experimental groups; this behavior, plus depressed sensitivity to swelling agents and energized contraction, were similar in mitochondria from hepatomas and from 3-day regenerating livers. These mitochondrial functions were even more pronounced, however, in cells in pre-hyperplastic states (6 and 16 h subsequent to partial hepatectomy). Many forms of liver damage result in mitochondrial alterations which elevate the capacity for oxidative phosphorylation. Such changes associated with induction of azo dye oncogenesis are mimicked by the degree of hyperplasia in the tissue following the first mitotic wave of regeneration; implications relevant to hepatocarcinogenesis are discussed.
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PMID:Mitochondrial functional changes during hepatic hyperplasia and azo dye carcinogenesis. 17 55

The interactions between the mitochondrial and nucleocytoplasmic systems required for mitochondriogenesis have been investigated at several different levels. Those involved in the formation of functional enzyme complexes have been studied using cytochrome oxidase: this multimeric (2 X 7 and 2 X 6 subunits for enzymes from yeast and beef heart respectively) has been resolved, and the mitochondrial contribution has been shown to be dispensible for catalytic function proper. Using novel mutants, with a mitochondrial mode of inheritance, a mitochondrial gene product localized in the oligomycin-sensitive ATPase has been implicated in the assembly not only of this complex, but of cytochrome oxidase as well. Interactions required for the genetic competence of the mitochondrial system have become apparent as a result of studies in the mechanism of action of the highly effective mitochondrial mutagen ethidium bromide. This agent first becomes covalently inserted into mitochondrial DNA and, after its excision, eventually results in extensive degradation of the macromolecule. The excision reaction has now been shown to be performed by a complex between the oligomycin-sensitive ATPase and a DNA-binding protein presumably involved in recognizing the damage. On the level of replication and expression of the mitochondrial genome studies using thermolabile mutants have demonstrated that these processes appear independent of the replication of nuclear DNA but not of its expression.
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PMID:Integration and regulation of mitochondrial assembly in yeast. 19 97

Mitochondria were isolated from the cellular slime mold. Dictyoostelium discoideum, and partially purified by sucrose density gradient fractionation. The most purified mitochondrial fraction from the gradient contained essentially no contaminating lysosomes and minimal amounts of contaminating peroxisomes as determined by the marker enzymes N-acetyl-glucosaminidase and catalase. A mitochondrial fraction with the same amount of lysosomal and peroxisomal contamination was also isolated from cells which had been treated with ethidium bromide for 5 days. The most purified mitochondrial fraction from control and ethidium bromide-treated cells had an identical buoyant density of 1.181 to 1.182 g per ml, suggesting that treatment with the drug does not result in any drastic structural changes in the mitochondrial membrane which would affect its density. In the purified mitochondria from ethidium bromide-treated cells, the content of cytochromes a-a3 was decreased over 80% and that of cytochrome oxidase and oligomycin sensitive ATPase were reduced approximately 50%. By contrast, the specific activities of NADH and succinate dehydrogenases were identical in the purified mitochondria from control and ethidium bromide-treated cells. Previously, we had reported that the specific activities of these two enzymes had nearly doubled in whole cells maintained in ethidium bromide for a time equivalent to six or seven generations after growth had stopped (Stuchell, R. N., Weinstein, B. I., and Beattie, D. S. (1973) Fed. Eur. Biochem. Coc Lett. 37, 23-26). These results suggest that continued formation of new mitochondrial membranes, with an identical complement of succinate and NADH dehydrogenases, must occur despite the cessation of cell growth which occurs as a result of the ethidium bromide induced loss of mitochondrial enzymes. Consequently, the amount of mitochondria, or mitochondrial protein per cell, calculated from the activity of NADH and succinate dehydrogenases has increased nearly 50%. Possible models to explain the control of mitochondrial biogenesis are discussed to explain these results.
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PMID:Effects of ethidium bromide on the respiratory chain and oligomycin-sensitive adenosine triphosphatase in purified mitochondria from the cellular slime mold Dicyostelium discoideum. 23 33

In Paramecium cells a synchronized discharge of trichocysts (which involves only the final exocytosis steps of membrane fusion, content discharge and membrane resealing) was achieved with ATPase-blockers, Ca2+-ionophores, lipid solvents (including lysolecithin), polyethyleneglycol, anaesthetics (Dibucain) and cationic detergents (cetyltrimethylammonium bromide (CTMAB) and cetylpyridinium chloride (CPC). Only Dibucain--and to some extent cationic detergents--can trigger exocytosis independently of extracellular Ca2+, possibly by mobilizing intracellular Ca2+. The internal free [Ca2+] necessary for exocytosis can be estimated to be greater than 10(-6) to 10(-4) M. Membrane-free trichocyst contents were isolated by density gradient centrifugation; they are converted from the contracted to the expanded state by Dibucain, CTMAB and CPC, and also by exogenous ATPase (Apyrase). Thus, it is possible to de-couple the discharge (stretching) process from membrane-related phenomena. Since only the latter are inhibited by low temperature (0 degrees C), membrane lipids probably have to be in a fluid state for exocytosis to occur. At least 2 steps appear to be involved: when membrane fusion is initiated, an independent matrix-bound system is activated for the synchronized stretching process. The energy requirement for one discharge event is estimated to be about 14 X 10(6) ATP molecules.
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PMID:Adenosinetriphosphate, calcium and temperature requirements for the final steps of exocytosis in Paramecium cells. 70 6

Cells of the human line VA2-B in suspension culture have been treated with very low concentrations of ethidium bromide for the purpose of reducing the amount of mitochondrial DNA (mit-DNA) per cell. Cells maintained in the presence of 5 ng/ml ethidium bromide grew at a normal rate for three days; thereafter, their doubling time gradually increased to a stable value of about 60 h. In these cells, the rate of 3H thymidine incorporation into mit-DNA decreased very rapidly to approximately 60% of the normal, and remained thereafter at this level, while the amount of mit-DNA per cell stabilized around a level of 70--80% of the control. In cells long-term treated with 5 ng/ml ethidium bromide, the rate of mitochondrial protein synthesis was about 35% of the normal, and the cytochrome c oxidase activity about 50% of the control. Cells treated with 20 ng/ml of the drug underwent 3--4 cell doublings at control rates, then gradually stopped growing, and eventually died. In these cells, the rate of incorporation of 3H thymidine into mit-DNA was reduced to 50% of the control value after 10 min treatment with ethidium bromide, and became barely detectable after three cell doublings. At this time, the cells had on the average less than 10% of the control amount of mit-DNA, the rate of mitochondrial protein synthesis was reduced to 3% of the normal, and the specific activities of cytochrome c oxidase and rutamycin-sensitive ATPase were less than 20% of the control values. In spite of these marked changes, the cells exhibited only a 20--30% loss in cell viability, as estimated by cloning efficiency, after three days of exposure to the drug. Cells treated with ethidium bromide at 20 ng/ml for three days, and then transferred to drug-free medium, recovered a near-to-normal growth rate and cloning efficiency and a near-to-normal rate of synthesis and amount of mit-DNA in about five days.
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PMID:Reversible tenfod reduction in mitochondria DNA content of human cells treated with ethidium bromide. 73 78

Escherichia coli transcription termination factor rho is an RNA-dependent ATPase, and ATPase activity is required for all its functions. We have characterized the binding of ATP to the physiologically relevant hexameric association state of rho in the absence of RNA and have shown that there are six ATP binding sites per rho hexamer. This stoichiometry has been verified by a number of different techniques, including ultracentrifugation, ultrafiltration, and fluorescence titration studies. We have also shown that ATP can bind to isolated monomers of rho when the hexamer is dissociated with the mild denaturant myristyltrimethylammonium bromide, demonstrating that each promoter of rho carries an ATP binding site. The six binding sites that we observe in the rho hexamer are not equivalent; the hexamer contains three strong (Ka approximately 3 x 10(6) M-1) and three weak (Ka approximately 10(5) M-1) binding sites for ATP. The binding constant of the weak binding site is just the reciprocal of the enzymatic Km for ATP as a substrate; thus these weak sites, as well as the strong sites, can, in principle, take part in the catalytic cycle. The asymmetry induced (or manifested) by ATP binding reduces the symmetry of the rho hexamer from a D3 to a pseudo-D3 state. This "breakage" of symmetry has implications for the molecular mechanism of rho, because an asymmetric structure can lead to directional helicase activity by invoking directionally distinct RNA binding and release reactions (see Geiselmann, J., Yager, T.D., & von Hippel, P.H., 1992c, Protein Sci. 1, 861-873).
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PMID:Functional interactions of ligand cofactors with Escherichia coli transcription termination factor rho. I. Binding of ATP. 130 71

The targeting of creatine kinase isoenzymes to specific sites within muscle cells provides a system for the regeneration of ATP in situ from ADP and creatine phosphate. We have recently reported the colocalization of brain-type (B) creatine kinase and the nonsarcomeric mitochondrial creatine kinase isoenzymes in the thick ascending limb of the loop of Henle in the rat kidney, suggesting that creatine kinase may regenerate ATP for sodium transport (Friedman, D.L., and Perryman, M.B. (1991) J. Biol. Chem. 266, 22404-22410). In order to test the hypothesis regarding the association of B creatine kinase with sodium transport, we examined the creatine kinase enzymes in the rectal (salt-secreting) gland of the dogfish shark which contains high levels of the Na+/K(+)-ATPase. The creatine kinase isoform composition was determined by non-denaturing electrophoresis, immunoblotting, protein purification, and amino acid sequence analysis. The results demonstrate both B creatine kinase and mitochondrial creatine kinase proteins are present in the rectal gland, an isoform composition which is the same as in the mammalian kidney. By using a combination of chromatographic techniques, shark B creatine kinase was purified to homogeneity and partial sequence data was obtained from two cyanogen bromide peptide fragments. One of these fragments contains the active site and is identical at all sequenced residues with the corresponding region from the echinoderm sperm flagellar creatine kinase, and is 96% homologous with both chicken and rat B creatine kinase subunits. The other fragment corresponds to a region near the N-terminal of mammalian creatine kinases and is 89% homologous with B creatine kinase from chicken. The localization of these isoforms was examined by immunocytochemistry using subunit specific antisera. Mitochondrial creatine kinase and B creatine kinase immunoreactivity are detected in all tubules, and is restricted to the basal region of the cells, which is the site of the Na+/K(+)-ATPase. The conservation of creatine kinase isoform expression in excretory tissue, and the localization of creatine kinase immunoreactivity in the basal region of the tubule cells, demonstrate that subcellular compartmentation of B creatine kinase may underly the functional coupling of creatine kinase activity with sodium transport.
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PMID:Purification and localization of brain-type creatine kinase in sodium chloride transporting epithelia of the spiny dogfish, Squalus acanthias. 131 Sep 91


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