EC:3.6.3.14 - FACTA Search

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Query: EC:3.6.3.14 (ATP synthase)
7,042 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mycotoxin, cyclopiazonic acid (CPA), inhibits the Ca2+-stimulated ATPase (EC 3.6.1.38) and Ca2+ transport activity of sarcoplasmic reticulum (Goeger, D. E., Riley, R. T., Dorner, J. W., and Cole, R. J. (1988) Biochem. Pharmacol. 37, 978-981). We found that at low ATP concentrations (0.5-2 microM) the inhibition of ATPase activity was essentially complete at a CPA concentration of 6-8 nmol/mg protein, indicating stoichiometric reaction of CPA with the Ca2+-ATPase. Cyclopiazonic acid caused similar inhibition of the Ca2+-stimulated ATP hydrolysis in intact sarcoplasmic reticulum and in a purified preparation of Ca2+-ATPase. Cyclopiazonic acid also inhibited the Ca2+-dependent acetylphosphate, p-nitrophenylphosphate and carbamylphosphate hydrolysis by sarcoplasmic reticulum. ATP protected the enzyme in a competitive manner against inhibition by CPA, while a 10(5)-fold change in free Ca2+ concentration had only moderate effect on the extent of inhibition. CPA did not influence the crystallization of Ca2+-ATPase by vanadate or the reaction of fluorescein-5'-isothiocyanate with the Ca2+-ATPase, but it completely blocked at concentrations as low as 1-2 mol of CPA/mol of ATPase the fluorescence changes induced by Ca2+ and [ethylenebis(oxyethylenenitrilo)]tetraacetic acid (EGTA) in FITC-labeled sarcoplasmic reticulum and inhibited the cleavage of Ca2+-ATPase by trypsin at the T2 cleavage site in the presence of EGTA. These observations suggest that CPA interferes with the ATP-induced conformational changes related to Ca2+ transport. The effect of CPA on the sarcoplasmic reticulum Ca2+-ATPase appears to be fairly specific, since the kidney and brain Na+,K+-ATPase (EC 3.6.1.37), the gastric H+,K+-ATPase (EC 3.6.1.36), the mitochondrial F1-ATPase (EC 3.6.1.34), the Ca2+-ATPase of erythrocytes, and the Mg2+-activated ATPase of T-tubules and surface membranes of rat skeletal muscle were not inhibited by CPA, even at concentrations as high as 1000 nmol/mg protein.
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PMID:Cyclopiazonic acid is a specific inhibitor of the Ca2+-ATPase of sarcoplasmic reticulum. 253 Feb 15

The membrane F0 sector of mitochondrial ATP synthase complex was rapidly isolated by direct extraction with CHAPS from F1-depleted submitochondrial particles. The preparation thus obtained is stable and can be reconstituted in artificial phospholipid membranes to result in oligomycin-sensitive proton conduction, or recombined with purified F1 to give the oligomycin-sensitive F0F1-ATPase complex. The F0 preparation and constituent polypeptides were characterized by SDS-polyacrylamide gel electrophoresis and immunoblot analysis. The functional role of F0 polypeptides was examined by means of trypsin digestion and reconstitution studies. It is shown that, in addition to the 8 kDa DCCD-binding protein, the nuclear encoded protein [(1987) J. Mol. Biol. 197, 89-100], characterized as an intrinsic component of F0 (F0I, PVP protein [(1988) FEBS Lett. 237,9-14]) [corrected] is involved in H+ translocation and the sensitivity of this process to the F0 inhibitors, DCCD and oligomycin.
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PMID:Mitochondrial F0F1 H+-ATP synthase. Characterization of F0 components involved in H+ translocation. 254 59

Cyanobacterial (Spirulina platensis) photosynthetic membranes and isolated F1 ATPase were characterized with respect to ATP activity. The following results indicate that the regulation of expression of ATPase activity in Spirulina platensis is similar to that found in chloroplasts: the ATPase activity of Spirulina membranes and isolated F1 ATPase is mostly latent, a characteristic of chloroplast ATPase activity; treatments that elicit ATPase activity in higher plant chloroplast thylakoids and isolated chloroplast coupling factor (CF1) greatly stimulate the activity of Spirulina membranes and F1, and the cation specificity of chloroplast ATPase activity, e. g., light-induced membrane activity that is magnesium dependent and trypsin-activated CF1 activity that is calcium dependent, is also observed in Spirulina. Thus, an 8- to 15-fold increase in specific activity (to 13-15 mumol Pi min-1 mg chl-1) is obtained when Spirulina membranes are treated with trypsin (CaATPase) or with methanol (MgATPase): a light-induced, dithiothreitol-dependent MgATPase activity is also found in the membranes. Purified Spirulina F1 is a CaATPase when activated with trypsin (endogenous activity increases from 4 to 27-37 mumol Pi min-1 mg protein-1) or with dithiothreitol (5.6 mumol Pi min-1 mg-1), but a MgATPase when assayed with methanol (18-20 mumol Pi min-1 mg-1). The effects of varying calcium and ATP concentrations on the kinetics of trypsin-induced CaATPase activity of Spirulina F1 were examined. When the calcium concentration is varied at constant ATP concentration, the velocity plot shows a marked sigmoidicity. By varying Ca-ATP metal-nucleotide complex concentration at constant concentrations of free calcium or ATP, it is shown that the sigmoidicity is due to the effect of free ATP, which changes the Hill constant to 1.6 from 1.0 observed when the free calcium concentration is kept constant at 5 mM. Therefore not only is ATP an inhibitor but it is also an allosteric effector of Spirulina F1 ATPase activity. At 5 mM free calcium, the Km for teh Ca-ATP metal-nucleotide complex is 0.42 mM.
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PMID:Properties of the cyanobacterial coupling factor ATPase from Spirulina platensis. II. Activity of the purified and membrane-bound enzymes. 286 95

Limited trypsin and chymotrypsin digestions were performed on the latent F1-ATPase from M. lysodeikticus, and subsequent analysis on SDS-polyacrylamide gels revealed subunit profiles with degraded alpha and delta subunits similar to those of ATPase preparations with spontaneously occurring lower degrees of latency. The ATPase obtained from M. lysodeikticus membranes after n-butanol extraction was also non-latent with similar SDS-gel patterns to the aforementioned ATPases. In addition, the sensitive technique of crossed immunoelectrophoresis was used to show that all of the above ATPases contained alpha, beta, gamma, delta and epsilon subunits but some of them were in degraded forms. Although the delta subunit was the first to be cleaved, the loss of latency can be attributed to the degradation of the alpha subunit.
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PMID:Subunit analysis of latent and non-latent F1-ATPase from Micrococcus lysodeikticus (luteus). 287 Apr 11

When beef heart mitochondrial F1-ATPase is photoirradiated in the presence of 2-azido[alpha-32P]adenosine diphosphate, the beta subunit of the enzyme is preferentially photolabeled [Dalbon, P., Boulay, F., & Vignais, P. V. (1985) FEBS Lett. 180, 212-218]. The site of photolabeling of the beta subunit has been explored. After cyanogen bromide cleavage of the photolabeled beta subunit, only the peptide fragment extending from Gln-293 to Met-358 was found to be labeled. This peptide was isolated and digested by trypsin or Staphylococcus aureus V8 protease. Digestion by trypsin yielded four peptides, one of which spanned residues Ala-338-Arg-356 and contained all the bound radioactivity. When trypsin was replaced by V8 protease, a single peptide spanning residues Leu-342-Met-358 was labeled. Edman degradation of the two labeled peptides showed that radioactivity was localized on the following four amino acids: Leu-342, Ile-344, Tyr-345, and Pro-346.
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PMID:Identification of amino acid residues photolabeled with 2-azido[alpha-32P]adenosine diphosphate in the beta subunit of beef heart mitochondrial F1-ATPase. 287 32

F1-stripped everted membrane vesicles of the ATP synthase-overproducing Escherichia coli strain KY 7485 were treated with trypsin for different lengths of time. Subsequently, the Fo complex was isolated and analyzed by sodium dodecyl sulfate-gel electrophoresis, as well as immunoblotting using antibodies raised against subunit b. By these techniques 3 degradation products with apparent molecular masses of about 16 kDa could be detected in accordance with previous findings (Perlin, D.S., and Senior, A.E. (1985) Arch. Biochem. Biophys. 236, 603-611). Labeling of isolated trypsin-treated Fo fractions with the thiol-specific reagent N-(7-dimethylamino-4-methylcoumarinyl)-maleimide, which has been demonstrated recently to specifically modify subunit b (Schneider, E., and Altendorf, K. (1985) Eur. J. Biochem. 153, 105-109) revealed that the 16-kDa digestion products were degraded into two stable fragments of 12 and 8.3 kDa. These polypeptides do not react with the anti-b antibodies. Treatment of purified liposome-integrated Fo with trypsin resulted in a similar cleavage pattern. In both cases protease digestion inhibited F1 binding while proton-translocating activity remained unaffected. However, liposomes reconstituted with Fo isolated from trypsin-treated membranes were impaired in both binding of F1 and proton translocation. These activities could be restored when reconstitution was carried out in the presence of native subunit b. From this we conclude that the C-terminal region of subunit b is necessary for proper reconstitution of Fo into liposomes.
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PMID:Fo portion of Escherichia coli ATP synthase. Further resolution of trypsin-generated fragments from subunit b. 288 81

Under appropriate conditions tight, noncovalent binding of 2-azido-adenine nucleotides to either catalytic or noncatalytic binding sites on the E. coli F1-ATPase occurs. After removal of unbound ligands, UV-irradiation results primarily in the covalent incorporation of nucleotide moieties into the beta-subunit in both catalytic and noncatalytic site labeling experiments. Minor labeling of the alpha-subunit was also observed. After trypsin digestion and purification of the labeled peptides, microsequencing studies identified two adjacent beta-subunit tryptic peptides labeled by 2-azido-ADP or -ATP. These beta-subunit peptides were labeled on tyrosine-331 (catalytic sites) and tyrosine-354 (noncatalytic sites) in homology with the labeling patterns of the mitochondrial and chloroplast enzymes.
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PMID:Catalytic and noncatalytic nucleotide binding sites of the Escherichia coli F1 ATPase. Amino acid sequences of beta-subunit tryptic peptides labeled with 2-azido-ATP. 288 23

Digestion of the F1-ATPase of Escherichia coli with trypsin stimulated ATP hydrolytic activity and removed the delta and epsilon subunits of the enzyme. A species represented by the formula alpha 1(3) beta 1(3) gamma 1, where alpha 1, beta 1 and gamma 1 are forms of the native alpha, beta and gamma subunits which have been attacked by trypsin, was formed by trypsin digestion in the presence of ATP. In the presence of ATP and MgCl2, conversion of gamma to gamma 1 was retarded and the enzyme retained the epsilon subunit. These results imply that binding of ATP to the beta subunits alters the conformation of ECF1 to increase the accessibility of the gamma subunit to trypsin. The likely trypsin cleavage sites in the alpha, beta and gamma subunits are discussed. ECF1 from the alpha subunit-defective mutant uncA401, or after treatment with N,N'-dicyclohexylcarbodiimide or 4-chloro-7-nitrobenzofurazan, was present in a conformation in which the gamma subunit was readily accessible to trypsin and could not be protected by the presence of ATP and MgCl2. In a similar manner to native E. coli F1-ATPase, the hydrolytic activity of the trypsin-digested enzyme was stimulated by the detergent lauryldimethylamine N-oxide. Since the digested enzyme lacked the epsilon subunit, a putative inhibitor of hydrolytic activity, a mechanism for the stimulation which involves loss or movement of this subunit is untenable.
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PMID:Ligand-induced conformational changes in the Escherichia coli F1 adenosine triphosphatase probed by trypsin digestion. 289 Mar 77

Trypsin cleavage has been used to probe structure-function relationships of the Escherichia coli ATP synthase (ECF1F0). Trypsin cleaved all five subunits, alpha, beta, gamma, delta, and epsilon, in isolated ECF1. Cleavage of the alpha subunit involved the removal of the N-terminal 15 residues, the beta subunit was cleaved near the C-terminus, the gamma subunit was cleaved near Ser202, and the delta and epsilon subunits appeared to be cleaved at several sites to yield small peptide fragments. Trypsin cleavage of ECF1 enhanced the ATPase activity between 6- and 8-fold in different preparations, in a time course that followed the cleavage of the epsilon subunit. This removal of the epsilon subunit increased multisite ATPase activity but not unisite ATPase activity, showing that the inhibitory role of the epsilon subunit is due to an effect on cooperativity. The detergent lauryldimethylamine oxide was found to increase multisite catalysis and also increase unisite catalysis more than 2-fold. Prolonged trypsin cleavage left a highly active ATPase containing only the alpha and beta subunits along with two fragments of the gamma subunit. All of the subunits of ECF1 were cleaved by trypsin in preparations of ECF1F0 at the same sites as in isolated ECF1. Two subunits, the beta and epsilon subunits, were cleaved at the same rate in ECF1F0 as in ECF1 alone. The alpha, gamma, and delta subunits were cleaved significantly more slowly in ECF1F0.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Structure-function relationships of the Escherichia coli ATP synthase probed by trypsin digestion. 289 50

Pyridoxal 5'-diphospho-5'-adenosine (PLP-AMP), an adenine nucleotide affinity analog, was found to bind in a saturable fashion to isolated alpha-subunit from Escherichia coli F1-ATPase with a stoichiometry of one mol/mol and a Kd approximately 150 microM. The binding was shown to be specific by the following criteria: 1) ATP reduced the binding of PLP-AMP by 80%, and 2) PLP-AMP, like ATP, induced a conformational change which increased the mobility of alpha-subunit in nondenaturing polyacrylamide gel electrophoresis and rendered alpha-subunit resistant to mild trypsin proteolysis. A stable adduct was formed between isolated alpha-subunit and [3H] PLP-AMP after reduction with NaBH4. alpha-Subunit labeled to the extent of 0.4-0.7 mol/mol was digested with trypsin and subjected to high pressure liquid chromatography purification, yielding a single labeled peptide. Automated amino acid sequencing showed that residue alpha-Lys-201 was specifically labeled. The results suggest that Lys-201 occupies a position proximate to the phosphate groups of bound ATP in the alpha.ATP complex. PLP-AMP did not support repolymerization of isolated alpha-, beta-, and gamma-subunits, consistent with previous reports that subunit repolymerization in vitro is dependent upon the presence of nucleoside triphosphate. Further, PLP-AMP-labeled alpha-subunit could not be reconstituted with isolated beta- and gamma-subunits in the presence of ATP, showing that occupation of the alpha-subunit nucleotide site by PLP-AMP impairs normal subunit-subunit interaction.
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PMID:Pyridoxal 5'-diphospho-5'-adenosine binds at a single site on isolated alpha-subunit from Escherichia coli F1-ATPase and specifically reacts with lysine 201. 289 72

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