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)

The Ca(2+)-stimulated adenosine 5'-triphosphate-orthophosphate (ATP in equilibrium with 32Pi) exchange reaction was studied using a vesicular preparation derived from plasma membrane of kidney proximal tubules. With native inside-out vesicles, ATP in equilibrium with 32Pi was stimulated by micromolar Ca2+ concentrations. Treatment of the vesicles with the Ca2+ ionophore A23187 that abolished Ca2+ accumulation, strongly inhibited ATP in equilibrium with 32Pi. When Ca(2+)-ATPase was solubilized with the nonionic detergent octaethylene glycol mono n-dodecyl ether, maximal activation of ATP in equilibrium with 32Pi required millimolar Ca2+ concentrations. These Ca2+ concentrations inhibited ATP hydrolysis. ATP in equilibrium with 32Pi exhibited a Michaelian dependence on Pi and Mg2+, was stimulated by ATP, and depended on the ATP/ADP ratio. ATP in equilibrium with 32Pi was modified by the osmolytes urea, trimethylamine-N-oxide, and sucrose, which are representative of the methylamines and polyols that normally accumulate in renal tissue. These compounds did not modify the apparent affinity for Pi; they affected the response to ADP in the same fashion as the overall rate of ATP in equilibrium 32Pi, and their effects depended on medium pH. These data show that the Ca(2+)-ATPase from plasma membrane kidney proximal tubules can operate simultaneously in forward and backward directions. They also show that ATP in equilibrium with 32Pi is modulated by the ligands Ca2+, ATP, ADP, Pi, Mg2+, and H+, and by organic solutes found in renal tissue.
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PMID:ATP in equilibrium with 32Pi exchange catalyzed by plasma membrane Ca(2+)-ATPase from kidney proximal tubules. 182 70

Five deletion mutants of the D/E linker region of the troponin C central helix were tested for conformational and functional differences from wild-type troponin C. The mutants were in the region 87KEDAKGKSEEE97: dEDA, dKG, dKGK, dKEDAKGK, and dSEEE, designed to change the length of the central helix and the orientation of the Ca(2+)-binding domains relative to each other [Dobrowolski, Z., Xu, G.-Q., & Hitchcock-DeGregori, S.E. (1991) J. Biol. Chem. 266, 5703-5710]. Previous work showed that all mutants except dSEEE are partially defective in one part of the Ca2+ switch or the other. All mutants undergo Ca(2+)-dependent conformational changes as detected by changes in electrophoretic mobility, alpha-helix content, and hydrophobic exposure. Deletions of the central helix do not extensively alter the thermal stability of troponin C, as determined by temperature-dependent loss of alpha-helix. There are differences among the mutants that do not correlate with function. All troponin C mutants show Ca(2+)-dependent interaction with troponin I and T in polyacrylamide gels. Troponin I-troponin C interaction was also analyzed by Ca(2+)-dependent increase in the monomer/excimer ratio of tropinin I and relief of inhibition of the actomyosin S1 ATPase. While all mutants retain basic function, dKGK, dKEDAKGK, and dEDA have altered interaction with troponin I in the absence of Ca2+. dSEEE differs in conformation from wild type, but it is normal in functional assays. This conserved region of the D/E linker is not required for interaction with troponin I in the presence or absence of urea.
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PMID:Analysis of the regulatory and structural defects of troponin C central helix mutants. 183 Feb 16

The paper examines the relationship between the clinical manifestations of pyelonephritis and the functional activity of enzymes of cation transmembrane erythrocyte transport (Mg(2+)-, N(+)-K(+)-, Ca(2+)-ATPases). An individual analysis ascertained that the patients who showed a low Ca(2+)-ATPase activity had marked signs of inflammation in the body, as evidenced by ESR, seromucoid and fibrinogen concentrations. These patients had more significantly depressed immune defense mechanisms as reflected by the levels of immunoglobulins, T-lymphocytes, complement, the neutrophil phagocytosis, and urinary IgA concentrations). Variations were also found in examining the excretion of a number of metabolites. There was a substantial decrease in urea, creatinine, titrated acid, phosphorus excretions in patients with deficient Ca(2+)-ATPase activity than in those with its high activity. It was concluded that there was a relationship between some clinical manifestations of pyelonephritis and the functional activity of enzymes of cation transmembrane transport. To treat metabolic disorders, membrane-protective agents are recommended to include into combined therapy.
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PMID:[The enzyme function of cationic transmembrane transport and its relationship to the homeostatic indices of patients with chronic pyelonephritis]. 183 Apr 30

The PIF1 gene is involved in repair and recombination of mitochondrial DNA (mtDNA). In this study, the PIF1 gene product, which cannot be identified in normal yeast cells, has been overproduced from the GALI promoter to detectable protein levels. Location of PIF1 in mitochondria has been shown by immunoelectron microscopy and in vivo import experiments using ts mas1 mutants deficient in the mitochondrial matrix-localized processing protease. Overproduction of PIF1 protein in pif1 mutants restores mtDNA recombination proficiency but is toxic to yeast cells as observed by slower growth. The overproduced PIF1 protein, which is firmly associated with insoluble mitochondrial structures, has been partially purified in a mitochondrial nuclease deficient nuc1 strain by a procedure including solubilization by urea and renaturation by dialysis at alkaline pH. PIF1 is a single-stranded (ss) DNA-dependent ATPase and a DNA helicase which unwinds partially DNA duplexes in a 5' to 3' direction with respect to the ss DNA on which it binds first.
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PMID:PIF1: a DNA helicase in yeast mitochondria. 184 81

The effect of chronic high plasma corticosteroids' concentration upon renal function was studied in rats bearing a transplantable pituitary mammotropic tumor which produces large quantities of ACTH and prolactin (MtTF4S). Kidney splanchnomegaly and degenerative changes of renal cortex, particularly in proximal tubules, as well as cytolysis and appearance of vacuoles were noticed in tumor bearing rats. (Na+ + K+)-ATPase activity in renal plasma membranes decreased 67% in rats with a tumor secreting ACTH and prolactin, and 64% in rats with a tumor secreting growth hormone and prolactin when compared with controls. After adrenalectomy of MtTF4S rats, kidney weight as well as plasma concentrations of urea, sodium, chloride and phosphate ions were normalized indicating the involvement of adrenal glands in the development of disturbances in renal function.
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PMID:Kidney damage in rats bearing an adrenocorticotropin and prolactin secreting tumor. 196 5

The bovine heart F0F1-ATPase preparation (Serrano, R., Kanner, B., and Racker, E. (1976) J. Biol. Chem. 251, 2453-2461) has been further delipidated. The lipid-deficient preparation contained 2.5 mol of cardiolipin, 1 mol of phosphatidylcholine (PC), and 1 mol of phosphatidylethanolamine (PE) per mol of F0F1. When reconstituted with asolectin the delipidated preparation exhibited an activity of 13 mumol of ATP hydrolyzed/min/mg of protein which was 88% oligomycin-sensitive. The phospholipids in this preparation were analyzed by 31P NMR spectroscopy to determine if they were immobilized by the enzyme (rendered NMR-invisible). The PC and PE were below the limits of detection under the conditions utilized and the cardiolipin was NMR-invisible until the enzyme was denatured by addition of either 1% sodium dodecyl sulfate or 8 M urea. Addition of cardiolipin to the delipidated preparation and subsequent analysis by NMR spectroscopy revealed that approximately 4 mol of cardiolipin were immobilized per mol of F0F1 ATPase. The enzyme appears to have high affinity for cardiolipin exclusively, since PC (a prominent inner membrane lipid), phosphatidyl serine (an acidic phospholipid), and phosphatidyl glycerol (the precursor to cardiolipin) were not immobilized (rendered NMR-invisible) when added to the delipidated preparation.
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PMID:Tightly associated cardiolipin in the bovine heart mitochondrial ATP synthase as analyzed by 31P nuclear magnetic resonance spectroscopy. 214 80

This report describes the first isolation and molecular characterization of the mitochondrial F1-ATPase from Trypanosoma brucei. The isolation procedure utilized is a modified chloroform extraction procedure. In contrast to earlier reports on the F1-ATPase from other trypanosomatids, the F1-ATPase we have isolated from the procyclic form of T. brucei a complex composed of five distinct subunits. Apparent molecular weights of these subunits are 55,000 [alpha], 42,000 [beta], 32,000 [gamma], 22,000 [delta], and 17,000 [epsilon]. The F1 moiety which possesses the active site of the H(+)-ATPase has an ATPase activity in the standard Tris-HCl coupled enzyme assay with a Vmax of 22.96 mumol min-1 (mg protein)-1 and a Km value of 0.60 mM. This ATPase activity is cold labile and is not susceptible to oligomycin inhibition as is the membrane bound enzyme. Upon reconstitution with F1-ATPase depleted membranes (urea particles) the ATPase regains oligomycin sensitivity to the same extent as that found in the intact inner membrane vesicles. ATP synthesis is also restored to these particles upon reconstitution with F1. These results indicate that this F1-ATPase as isolated is intact with respect to all the critical H(+)-ATPase functions.
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PMID:The mitochondrial ATP synthase of Trypanosoma brucei: isolation and characterization of the intact F1 moiety. 214 43

Troponin was isolated from the abdominal muscle of the American lobster (Homarus americanus) by essentially the same method as used for akazara scallop troponin [J. Biol. Chem. 261, 16749-16754 (1986)]. The thus isolated troponin together with lobster tropomyosin confers high Ca2(+)-sensitivity to rabbit reconstituted actomyosin. The troponin consists of components having Mr of about 42,000, 32,000, 30,000, and 17,000, but not the Mr 52,000-59,000 component previously reported to be present in several crustacean troponins. These troponin components were separated from each other by DEAE-Toyopearl column chromatography in the presence of 6 M urea. The Mr 17,000 component was further separated into one major and two minor components by the same chromatography, but each of them was confirmed to be a Ca2+ binding component, TnC. The Mr 32,000 and 30,000 components were both regarded as inhibitory subunits, TnIs, since the Mg-ATPase activity of actomyosin in the presence of tropomyosin was strongly inhibited by the addition of the components, and the inhibition was reversed by the further addition of TnC. Finally, the Mr 42,000 component was regarded as TnT, since this component formed stoichiometic complex with TnC and TnI, and was indispensable for Ca2+ regulation of the actomyosin-tropomyosin system.
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PMID:American lobster troponin. 214 56

Abalone myosin contains two kinds of light chain, regulatory light chain (LC2) and essential light chain (LC1) according to SDS-PAGE. Three distinct light chain bands were observed on polyacrylamide gel electrophoresis of purified abalone myosin in the presence of urea (urea-PAGE). The slower two components showed had mobility on SDS-PAGE and they also showed regulatory activity as the regulatory light chain. They were termed LC2-a and LC2-b in order of increasing mobility on urea-PAGE and isolated by DE-32 ion exchange column chromatography in the presence 8 M urea. The ratio of LC2-a and LC2-b in the central portion of adductor muscle of abalone (LC2-a: LC2-b = 7:3) was different from that (1:1) in the peripheral portion. These results suggest that the two light chains are isoforms of the regulatory light chain. The amino acid compositions of LC2-a and LC2-b were very similar to each other except for the Cys content. The UV absorption spectra were also quite similar, as were the UV difference absorption spectra induced by Ca2+. Phosphorylation was not detectable with the myosin light chain kinase of chicken gizzard. The Ca2+ concentration dependencies of Mg-ATPase activity of LC2-a or LC2-b hybridized abalone myosin (a-myosin, b-myosin) were similar to each other in the absence of rabbit F-actin, but differed in the presence of actin. The b-myosin had a higher maximum value of actomyosin ATPase activity and a lower apparent binding constant of actin and myosin than a-myosin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Two isoforms of regulatory light chain of abalone smooth muscle myosin. 215 May 17

Oligomycin sensitivity-conferring protein (OSCP) is a water-soluble subunit of bovine heart mitochondrial H(+)-ATPase (F1-F0). In order to investigate the requirement of OSCP for passive proton conductance through mitochondrial F0, OSCP-depleted membrane preparations were obtained by extracting purified F1-F0 complexes with 4.0 M urea. The residual complexes, referred to as UF0, were found to be deficient with respect to OSCP, as well as alpha, beta, and gamma subunits of F1-ATPase, but had a full complement of coupling factor 6 as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western blotting techniques. These UF0 complexes had no intrinsic ATPase activity and were able to bind nearly the same amount of F1-ATPase in the presence of either OSCP or NH4+ ions alone, or a combination of the two. However, the preparations exhibited an absolute dependency on OSCP for conferral of oligomycin sensitivity to membrane-bound ATPase. The passive proton conductance in UF0 proteoliposomes was measured by time-resolved quenching of 9-amino-6-chloro-2-methoxyacridine or 9-aminoacridine fluorescence following a valinomycin-induced K(+)-diffusion potential. The data clearly establish that OSCP is not a necessary component of the F0 proton channel nor is its presence required for conductance blockage by the inhibitors oligomycin or dicyclohexylcarbodiimide. Furthermore, OSCP does not prevent or block passive H+ leakage. Comparisons of OSCP with the F1-F0 subunits from Escherichia coli and chloroplast lead us to suggest that mitochondrial OSCP is, both structurally and functionally, a hybrid between the beta and delta subunits of the prokaryotic systems.
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PMID:ATP synthase complex from bovine heart mitochondria. Passive H+ conduction through F0 does not require oligomycin sensitivity-conferring protein. 215 6

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