Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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 mechanism of uncoupling of oxidative phosphorylation by carbonyl cyanide p-trifluoromethoxy)phenylhydrazone (FCCP), a typical weak acid protonophore, oleic acid, a fatty acid, and chloroform, a general anesthetic, has been investigated by measuring in mitochondria their effect on (i) the transmembrane proton electrochemical potential gradient (delta mu H) and the rates of electron transfer and adenosine 5'-triphosphate (ATP) hydrolysis in static head, (ii) delta mu H and the rates of electron transfer and ATP synthesis in state 3, and (iii) the membrane proton conductance. Both FCCP and oleic acid increase the membrane proton conductance, and accordingly, they cause a depression of delta mu H [generated by either the redox proton pumps or the adenosinetriphosphatase (ATPase) proton pumps]. Although their effects on ATP synthesis/hydrolysis, respiration, and delta mu H are qualitatively consistent with a pure protonophoric uncoupling mechanism and an additional inhibitory action of oleic acid on both the ATPases and the electron-transfer enzymes, a quantitative comparison between the dissipative proton influx and the rate of either electron transfer or ATP hydrolysis (multiplied by either the H+/e- or the H+/ATP stoichiometry, respectively) at the same delta mu H shows that the increase in membrane conductance induced by FCCP and oleic acid accounts for the stimulation of the rate of ATP hydrolysis but not for that of the rate of electron transfer. Chloroform (at concentrations that fully inhibit ATP synthesis) only very slightly increases the proton conductance of the mitochondrial membrane and causes only a little depression of delta mu H.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Uncoupling of oxidative phosphorylation. 1. Protonophoric effects account only partially for uncoupling. 282 53

Phosphoinositide content was measured in erythrocyte membranes from 11 patients with cystic fibrosis (CF) and from 12 control subjects to determine whether altered levels of phosphatidylinositol-4-phosphate (Ptdlns4P) or phosphatidylinositol-4,5-bisphosphate (Ptdlns(4,5)P2) are responsible for the decrease in Ca2+-adenosine triphosphatase (Ca2+-ATPase) activity in this disorder. Isolated membranes were extracted with an acidified chloroform-methanol solvent system. The recovered lipids were separated by one-dimensional thin-layer chromatography and quantified with a colorimetric assay for phosphorus. The results are expressed in molar percent, moles of phosphoinositide times 100 divided by the total number of moles of phospholipid per membrane. The means +/- SEM of Ptdlns(4,5)P2, Ptdlns4P, and phosphatidylinositol (Ptdlns) in CF membranes (1.07 +/- 0.18, 1.02 +/- 0.22, and 2.32 +/- 0.36 molar percent, respectively) were indistinguishable from controls (0.91 +/- 0.14, 0.85 +/- 0.12, and 2.21 +/- 0.32 molar percent, respectively) (P greater than 0.20 for all three pairs). The accuracy of quantitative recovery throughout the procedure was determined by adding a radioactive internal standard, L-3-phosphatidyl[2-3H]inositol to 10 membrane preparations. Although quantitative recoveries, as determined by percent radioactivity recovered, varied from 54% to 92%, mean Ptdlns(4,5)P2, Ptdlns4P, and Ptdlns levels appropriately corrected from tracer loss were still indistinguishable between the two groups. We conclude that absolute phosphoinositide levels are not altered in cystic fibrosis erythrocyte membranes and that the differences in Ca2+-ATPase activity cannot be explained on this basis.
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PMID:Phosphoinositide content of erythrocyte membranes in cystic fibrosis. 283 Mar 55

In order to study the biological activity of endogenous digitalis-like substance (DLS) and Na-K-ATPase inhibitor (ATPI), human urine was partially purified and administered to rats, and its effects on the urinary volume, urinary Na excretion and blood pressure (BP) were determined. In addition, the effect on myocardial Na-K-ATPase activity was also measured. After the extraction of 40L of urine with a reversed phase cartridge column (S-fraction), 20 ml of chloroform was added and extraction was repeated. The chloroform layer was applied to an open silica gel column, and at a fraction with ethylacetate: methanol (60: 40, T-1 fraction), DLS and ATPI were eluted at the highest concentration. The water layer was treated with charcoal (D-1 fraction). The acute administration of K-1, T-1 fraction to rats in vivo caused significant rises in urinary volume, urinary Na excretion and BP. In chronic administration of K-1 fraction, urinary Na excretion was significantly elevated and myocardial Na-K-ATPase activity was also significantly suppressed. These results suggest that DLS and ATPI cause increase in the urinary volume and urinary Na excretion and also possess a hypertensive action; and moreover, these substance may affect the heart like cardiotonic steroids and regulate BP by increasing cardiac contractility.
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PMID:Biological activity of partially purified digitalis-like substance and Na-K-ATPase inhibitor in rats. 285 64

Plant mitochondrial ATPase has been chloroform-solubilized and purified by gel filtration from spadices of cuckoo-pint (Arum maculatum). The subunit composition of purified plant and rat liver ATPase were compared by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. The delta- and epsilon-subunits of the plant enzyme are larger than their supposed rat liver counterparts and, as such, A. maculatum mitochondrial ATPase shows structural homologies with the enzyme from Escherichia coli [Futai, Sternweis & Heppel (1974) Proc. Natl. Acad. Sci. U.S.A. 71, 2725-2729] rather than with the rat liver enzyme.
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PMID:Purification of F1-ATPase from cuckoo-pint (Arum maculatum) mitochondria. A comparison of subunit composition with that of rat liver F1-ATPase. 285 2

The enzyme complex F1-ATPase has been isolated from bovine heart mitochondria by gel filtration of the enzyme released by chloroform from sub-mitochondrial particles. The five individual subunits alpha, beta, gamma, delta and epsilon that comprise the complex have been purified from it, and their amino acid sequences determined almost entirely by direct protein sequence analysis. A single overlap in the gamma-subunit was obtained by DNA sequence analysis of a complementary DNA clone isolated from a bovine cDNA library using a mixture of 32 oligonucleotides as the hybridization probe. The alpha, beta, gamma, delta and epsilon subunits contain 509, 480, 272, 146 and 50 amino acids, respectively. Two half cystine residues are present in the alpha-subunit and one in each of the gamma- and epsilon-chains; they are absent from the beta- and delta-subunits. The stoichiometry of subunits in the complex is estimated to be alpha 3 beta 3 gamma 1 delta 1 epsilon 1 and the molecular weight of the complex is 371,135. Mild trypsinolysis of the F1-ATPase complex, which has little effect on the hydrolytic activity of the enzyme, releases peptides from the N-terminal regions of the alpha- and beta-chains only; the C-terminal regions are unaffected. Sequence analysis of the released peptides demonstrates that the N terminals of the alpha- and beta-chains are ragged. In 65% of alpha-chains, the terminus is pyrrolidone carboxylic acid; in the remainder this residue is absent and the chains commence at residue 2, i.e. lysine. In the beta-subunit a minority of chains (16%) have N-terminal glutamine, or its deamidation product, glutamic acid (6%), or the cyclized derivative, pyrrolidone carboxylic acid (5%). A further 28% commence at residue 2, alanine, and 45% at residue 3, serine. The delta-chains also are heterogeneous; in 50% of chains the N-terminal alanine residue is absent. The sequences of the alpha- and beta-chains show that they are weakly homologous, as they are in bacterial F1-ATPases. The sequence of the bovine delta-subunit of F1-ATPase shows that it is the counterpart of the bacterial epsilon-subunit. The bovine epsilon-subunit is not related to any known bacterial or chloroplast H+-ATPase subunit, nor to any other known sequence. The counterpart of the bacterial delta-subunit is bovine oligomycin sensitivity conferral protein, which helps to bind F1 to the inner mitochondrial membrane.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Primary structure and subunit stoichiometry of F1-ATPase from bovine mitochondria. 286 55

Chloroform enhances dose-dependently the number of preneoplastic foci in livers of weanling female Sprague-Dawley rats. The preneoplastic foci were induced with a single dose of 8 mg diethylnitrosamine (DEN)/kg body wt. Thereafter chloroform was applied twice weekly for 11 consecutive weeks in doses of 100, 200 and 400 mg/kg body wt, respectively. This treatment raised the number of adenosine-5'-triphosphatase (ATPase)-deficient foci up to 5-fold, that of gamma-glutamyltranspeptidase (GGTase) and glycogen-positive foci 13- and 10-fold, respectively, after 12 weeks; 25 mg caused no effect compared to DEN-treated controls. In contrast, daily doses of chloroform only, 200 and 400 mg/kg body wt for 33 days, and 800 mg/kg body wt for 20 days given to 3-4-week-old female Sprague-Dawley rats did not lead to island formation, measured after 12 weeks, indicating a promoting rather than an initiating potency.
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PMID:Dose-dependent promoting activity of chloroform in rat liver foci bioassay. 286 29

Two hydrophobic proteins have been purified to homogeneity from a mixture of about 13 proteins that are extracted from bovine mitochondria with a chloroform:methanol mixture. Sequence analysis shows that the smaller is a protein of 66 amino acids and is the product of a mitochondrial gene, A6L. The larger, a protein of 226 amino acids, is ATPase-6, a membrane component of ATP synthase, also encoded in mitochondrial DNA. The protein sequences determined establish that the genes for the two proteins overlap by 40 bases and indicate that translation of the second gene, ATPase-6, is initiated within the coding region of A6L. The A6L and the ATPase-6 proteins have also been isolated from the ATP synthase complex and so appear to be bona fide components of the enzyme. The function of A6L is unknown. However, weak structural homology suggests a functional similarity to the yeast mitochondrial protein, aapI, which is required for assembly of the fungal ATP synthase complex. Homologies between ATPase-6 and subunit a of the Escherichia coli ATP synthase complex indicate that the ATPase-6 protein has a similar role in the mitochondrial complex to its bacterial counterpart, being essential for the formation of an active proton channel.
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PMID:Two overlapping genes in bovine mitochondrial DNA encode membrane components of ATP synthase. 287 70

The H+-ATPase of Beta vacuolar membrane (tonoplast) comprises at least three functionally distinct subunits of Mr = 67,000, 57,000, and 16,000, respectively (Manolson, M. F., Rea, P. A., and Poole, R. J. (1985) J. Biol. Chem. 260, 12273-12279). The hydrophobic carboxyl reagent N,N'-dicyclohexylcarbodiimide (DCCD) inactivates the enzyme with pseudo-first order kinetics, and the concentration dependence of the reaction indicates that DCCD interacts with a single site on the enzyme to exert its inhibitory effect. The apparent pseudo-first order rate constant (k0) is reciprocally dependent on membrane protein concentration, which is expected if a large fraction of the DCCD partitions into the lipid phase. k0 has a nominal value of 1000 M-1 min-1 at a protein concentration of 250 micrograms/ml, although when phase partitioning is taken into account, the true, protein concentration-independent value of k0 is calculated to be about an order of magnitude lower. [14C]DCCD primarily labels the Mr = 16,000 polypeptide of native tonoplast vesicles. Binding is venturicidin-insensitive and occurs at a rate similar to the rate of enzyme inactivation, implying that inhibition is a direct result of covalent modification of the Mr = 16,000 polypeptide. Labeling of the containing Mr = 8,000 subunit of mitochondrial F0F1-ATPase is, on the other hand, faster by a factor of 5 and totally abolished by venturicidin. These results confirm that the Mr = 16,000 polypeptide which copurifies with tonoplast H+-ATPase activity is a subunit of the enzyme. Most of the DCCD-reactive Mr = 16,000 subunit is extracted from acetone:ethanol-washed tonoplast vesicles by chloroform:methanol. [14C]DCCD bound to the Mr = 16,000 polypeptide is enriched in the chloroform:methanol extract by 5-fold compared with native tonoplast and the specific activity (nmol of [14C]DCCD/mg of protein) can be increased a further 37-fold by chromatography on DEAE-Sephadex. It is concluded that the Mr = 16,000 subunit of the tonoplast H+-ATPase is a proteolipid.
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PMID:Purification of the N,N'-dicyclohexylcarbodiimide-binding proteolipid of a higher plant tonoplast H+-ATPase. 288 32

The inhibitor N,N'-dicyclohexylcarbodiimide (DCCD) was used to probe the structure and function of the vacuolar H+-translocating ATPase from oat roots (Avena sativa var. Lang). The second-order rate constant for DCCD inhibition was inversely related to the concentration of membrane, indicating that DCCD reached the inhibitory site by concentrating in the hydrophobic environment. [14C]DCCD preferentially labeled a 16-kDa polypeptide of tonoplast vesicles, and the amount of [14C]DCCD bound to the 16-kDa peptide was directly proportional to inhibition of ATPase activity. A 16-kDa polypeptide had previously been shown to be part of the purified tonoplast ATPase. As predicted from the observed noncooperative inhibition, binding studies showed that 1 mol of DCCD was bound per mol of ATPase when the enzyme was completely inactivated. The DCCD-binding 16-kDa polypeptide was purified 12-fold by chloroform/methanol extraction. This protein was thus classified as a proteolipid, and its identity as part of the ATPase was confirmed by positive reaction with the antibody to the purified ATPase on immunoblots. From the purification studies, we estimated that the 16-kDa subunit was present in multiple (4-8) copies/holoenzyme. The purification of the proteolipid is a first step towards testing its proposed role in H+ translocation.
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PMID:N,N'-dicyclohexylcarbodiimide-binding proteolipid of the vacuolar H+-ATPase from oat roots. 289 8

Isolation of F1-ATPase from Rhodospirillum rubrum by chloroform extraction of chromatophores, followed by purification on a glycerol gradient, results in a very pure enzyme preparation containing five subunits with high Ca2+-ATPase activity (15 mumol per min per mg protein). Furthermore, conditions are reported under which the purified F1 exhibits Mg2+-dependent ATPase activity of about 35 mumol per min per mg protein. NaHCO3 stimulates the Mg2+-activity from 1.5 mumol per min per mg protein to 5 mumol per min per mg protein giving a maximal activity at a concentration of about 60 mM NaHCO3. Lauryl dimethylamine oxide (LDAO), octyl glucoside and nonanoyl N-methylglucamide enhance the Mg2+-ATPase activity from 1.5 to 14, 22 and 35 mumol per min per mg protein, respectively, in the absence of NaHCO3, and from 5 to 34, 30 and 37 mumol per min per mg protein, respectively, in the presence of 50 mM NaHCO3. The Vmax is increased, but the Km for ATP remains the same, about 0.22 mM, both in the absence of activators and in the presence of NaHCO3, LDAO or NaHCO3 plus LDAO. Ca2+-dependent ATPase activity is slightly stimulated by NaHCO3 but strongly inhibited by octyl glucoside.
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PMID:Conversion of coupling factor 1 of Rhodospirillum rubrum from a Ca2+-ATPase into a Mg2+-ATPase. 290 Dec 72


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