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

The activity of the lipid-depleted, oligomycin-sensitive mitochondrial ATPase has been measured in the presence of liposomes prepared from mixtures of phosphatidylglycerol and phosphatidylglycerol lysine. Enzyme activity increased linearly with an increase in the negative charge of liposomes prepared from the phosphatidylglycerol-phosphatidylglycerol lysine mixtures. The electrophoretic mobility and activating capacity of liposomes of several other phospholipids were determined. A linear relationship between electrophoretic mobility of the liposomes and oligomycin-sensitive activity was again apparent. These observations demonstrate that the activity of the ATPase is directly proportional to the ionic charge on phospholipid activators if the acyl chain composition of the phosphoglycerides is relatively constant.
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PMID:Ionic charge on phospholipids and their interaction with the mitochondrial adenosine triphosphatase. 15 65

A heat-stable protein has been purified from rat liver mitochondria which inhibits the ATP hydrolytic activity of both the soluble and membrane-bound mitochondrial F1-ATPase. The overall purification is about 2400-fold with the major purification step consisting of Sephadex "affinity" chromatography. The purified rat liver inhibitor is homogeneous as assessed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis with an apparent molecular weight of 12,300. Amino acid analysis reveals a high content of glutamic acid, lysine, and arginine and the absence of cysteine, proline and methionine. Whether tested with the rat liver or bovine heart ATPase, the liver inhibitor is equally as potent and specific as the heart inhibitor preparation of Pullman and Monroy (Pullman, M.E., and Monroy, G.C. (1963) J. Biol. Chem. 238, 3762-3769). Although the results presented show that the rat liver ATPase inhibitor resembles closely the ATPase inhibitors from other tissues with respect to specific activity and reaction specificity, it is important to note that the rat liver inhibitor is almost 2000 daltons larger than the bovine heart inhibitor, about 5000 daltons larger than ATPase inhibitors of yeast, and contains significantly more lysine residues than both the bovine heart and yeast inhibitors.
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PMID:A protein inhibitor of the mitochondrial adenosine triphosphatase complex of rat liver. Purification and characterization. 15 68

During the inactivation of the nucleotide-free F1-ATPase at pH 7.0, by p-fluorosulfonyl[14C]benzoyl-5'-adenosine ([14C]FSBA) in the presence of 20% glycerol, about 4.5 g atoms of 14C are incorporated/350,000 g of enzyme. Isolation of the subunits has shown: (a) over 90% of the incorporated label is associated with the alpha and beta subunits; (b) the amount of label incorporated into the alpha subunit is about 0.5 g atoms/mol which is nonspecifically associated with a number of tyrosine and lysine residues; (c) the amount of radioactivity incorporated into the beta subunit is about 0.9 g atoms/mol which correlates with the degree of inactivation of the enzyme and resides on a single tyrosine residue; (d) up to 2.2 mol of alpha subunit have been isolated from each mole of inactivated enzyme; and (e) about 2 mol of beta subunit have been isolated from each mole of inactivated enzyme. These results account for the incorporation of 4.5 g atoms of 14C which are incorporated/mol of ATPase during inactivation if there are three copies each of the alpha and beta subunit present in the enzyme. It has also been shown that 4-chloro-7-nitrobenzofurazan (NBD-Cl) and FSBA react with different tyrosine residues when they inactivate the ATPase. In addition, it has been shown that the ATPase inactivated with FSBA retains the capacity to bind up to 2.2 mol of [14C]ADP/350,000 g of enzyme.
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PMID:On the subunit stoichiometry of the F1-ATPase and the sites in it that react specifically with p-fluorosulfonylbenzoyl-5'-adenosine. 15 96

The beta-subunit of the mitochondrial ATP synthase complex comprises the bulk, if not all, of the catalytic nucleotide binding site on the enzyme. A region of homologous sequence rich in glycines (G) and containing a basic lysine (K) and a threonine (T) is found in the beta-subunit as well as many other purine nucleotide binding proteins. The consensus sequence of this region is Gx4GKT, where x represents any amino acid, and is called the A region or glycine-rich loop. The related function of these proteins implies that the glycine-rich loop is directly involved in nucleotide binding. Here we directly test the involvement of the beta-subunit's glycine-rich region in adenine nucleotide binding using two independent approaches. A synthetic fifty amino acid peptide, PP-50, containing the glycine-rich region and the surrounding sequence was assessed for secondary structure and interaction with potential ligands. Circular dichroism spectropolarimetry indicates that PP-50 assumes a predominantly beta-sheet conformation in solution. Significantly, the peptide precipitates from solution when ATP, ADP, GTP, ITP, and pyrophosphate are added, but not when AMP or phosphate are included. Magnesium is not required for the interaction with the purine nucleotides. Complimentary to these studies, the sequence around the Gx4GKT motif was deleted from a recombinant rat liver beta-subunit overexpressed in E. coli. While the wild type beta-subunit showed specificity for the tri- and diphosphonucleotides, the deletion mutant bound tri-, di-, and monophosphate nucleotides with equal affinity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mitochondrial F-type ATPases: the glycine-rich loop of the beta-subunit is a pyrophosphate binding domain. 133 55

beta Lys-155 in the glycine-rich sequence of the beta subunit of Escherichia coli F1-ATPase has been shown to be near the gamma-phosphate moiety of ATP by affinity labeling (Ida, K., Noumi, T., Maeda, M., Fukui, T., and Futai, M. (1991) J. Biol. Chem. 266, 5424-5429). For examination of the roles of beta Lys-155 and beta Thr-156, mutants (beta Lys-155-->Ala, Ser, or Thr; beta Thr-156-->Ala, Cys, Asp, or Ser; beta Lys-155/beta Thr-156-->beta Thr-155/beta Lys-156; and beta Thr-156/beta Val-157-->beta Ala-156/beta Thr-157) were constructed, and their properties were studied extensively. The beta Ser-156 mutant was active in ATP synthesis and had approximately 1.5-fold higher membrane ATPase activity than the wild type. Other mutants were defective in ATP synthesis, had < 0.1% of the membrane ATPase activity of the wild type, and showed no ATP-dependent formation of an electrochemical proton gradient. The mutants had essentially the same amounts of F1 in their membranes as the wild type. Purified mutant enzymes (beta Ala-155, beta Ser-155, beta Ala-156, and beta Cys-156) showed low rates of multisite (< 0.02% of the wild type) and unisite (< 1.5% of the wild type) catalyses. The k1 values of the mutant enzymes for unisite catalysis were lower than that of the wild type: not detectable with the beta Ala-156 and beta Cys-156 enzymes and 10(2)-fold lower with the beta Ala-155 and beta Ser-155 enzymes. The beta Thr-156-->Ala or Cys enzyme showed an altered response to Mg2+, suggesting that beta Thr-156 may be closely related to Mg2+ binding. These results suggest that beta Lys-155 and beta Thr-156 are essential for catalysis and are possibly located in the catalytic site, although beta Thr-156 could be replaced by a serine residue.
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PMID:Effects of mutations of conserved Lys-155 and Thr-156 residues in the phosphate-binding glycine-rich sequence of the F1-ATPase beta subunit of Escherichia coli. 140 Mar 77

We introduced mutations to test the function of the conserved amino-terminal region of the gamma subunit from the Escherichia coli ATP synthase (F0F1-ATPase). Plasmid-borne mutant genes were expressed in an uncG strain which is deficient for the gamma subunit (gamma Gln-14-->end). Most of the changes, which were between gamma Ile-19 and gamma Lys-33, gamma Asp-83 and gamma Cys-87, or at gamma Asp-165, had little effect on growth by oxidative phosphorylation, membrane ATPase activity, or H+ pumping. Notable exceptions were gamma Met-23-->Arg or Lys mutations. Strains carrying these mutations grew only very slowly by oxidative phosphorylation. Membranes prepared from the strains had substantial levels of ATPase activity, 100% compared with wild type for gamma Arg-23 and 65% for gamma Lys-23, but formed only 32 and 17%, respectively, of the electrochemical gradient of protons. In contrast, other mutant enzymes with similar ATPase activities (including gamma Met-23-->Asp or Glu) formed H+ gradients like the wild type. Membranes from the gamma Arg-23 and gamma Lys-23 mutants were not passively leaky to protons and had functional F0 sectors. These results suggested that substitution by positively charged side chains at position 23 perturbed the energy coupling. The catalytic sites of the mutant enzymes were still regulated by the electrochemical H+ gradient but were inefficiently coupled to H+ translocation in both ATP-dependent H+ pumping and delta mu H+ driven ATP synthesis.
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PMID:F0F1-ATPase gamma subunit mutations perturb the coupling between catalysis and transport. 140 Mar 98

Energy-dependent activation of the chloroplast ATP synthase (CF0CF1) has been elucidated by investigating the conformational changes, the ADP effect, and the catalytic cooperativity of ATP hydrolysis. Conformational change was observed by measuring the reactivity of Lys-109 of the epsilon subunit of chloroplast coupling factor 1 with pyridoxal 5'-phosphate. In the postillumination dark, the Lys-109 reactivity decreased biphasically with half-times of less than 1 and 17 s. NH4Cl accelerated the slow phase decrease. Addition of ADP (0.2 microM) in the postillumination dark inactivated CF0CF1 (0.05 microM) with a half-time of 12 s. At high concentration of CF0CF1 (1.2 microM), inactivation occurred without exogenously added ADP with a half-time of 12 s. Accompanying the inactivation, the positive catalytic cooperativity of ATP hydrolysis decreased. Addition of 10 mM NH4Cl before ADP (0.2 microM) decelerated the ADP-induced inactivation to a half-time of 64 s. Throughout this inactivation, the positive catalytic cooperativity was maintained at a high level. These results suggest three distinct conformations of CF0CF1, EH, EM, and EL, and their ADP binding forms EM-ADP and EL-ADP. EH, EM, and EL have a low affinity for ADP, a high affinity for ADP, and low accessibility to ADP, respectively. EM and EL exhibit highly cooperative ATP hydrolysis. ATP hydrolysis catalyzed by EM-ADP exhibits no cooperativity. EL-ADP is inactive.
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PMID:Energy-dependent changes in conformation and catalytic activity of the chloroplast ATP synthase. 153 Nov 39

Treatment of isolated, latent chloroplast ATPase with pyridoxal-5-phosphate (pyridoxal-P) in presence of Mg2+ causes inhibition of dithiothreitol-activated plus heat-activated ATP hydrolysis. The amount of [3H]pyridoxal-P bound to chloroplast coupling factor 1 (CF1) was estimated to run up to 6 +/- 1 pyridoxal-P/enzyme, almost equally distributed between the alpha- and beta-subunits. Inactivation, however, is complete after binding of 1.5-2 pyridoxal-P/CF1, suggesting that two covalently modified lysines prevent the activation of the enzyme. ADP as well as ATP in presence of Mg2+ protects the enzyme against inactivation and concomittantly prevents incorporation of a part of the 3H-labeled pyridoxal-P into beta- and alpha-subunits. Phosphate prevents labeling of the alpha-subunit, but has only a minor effect on protection against inactivation. The data indicate a binding site at the interface between the alpha- and beta-subunits. Cleavage of the pyridoxal-P-labeled subunits with cyanogen bromide followed by sequence analysis of the labeled peptides led to the detection of Lys beta 359, Lys alpha 176 and Lys alpha 266, which are closely related to proposed nucleotide-binding regions of the alpha- and beta-subunits.
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PMID:Inactivation of chloroplast H(+)-ATPase by modification of Lys beta 359, Lys alpha 176 and Lys alpha 266. 183 78

The three beta subunits of the isolated Escherichia coli F1-ATPase react independently with chemical reagents (Stan-Lotter, H. and Bragg, P.D. (1986) Arch. Biochem. Biophys. 284, 116-120). Thus, one beta subunit is readily cross-linked to the epsilon subunit, Another reacts with N,N'-dicyclohexylcarbodiimide (DCCD), and the third one is modified on a lysine residue by 4-chloro-7-nitrobenzofurazan (NbfCl). The binding site for the ATP analog, 2-azido-ATP, was not associated with a specific type of beta subunit (Bragg, P.D. and Hou, C. (1989) Biochim. Biophys. Acta 974, 24-29). We now show that this binding site is a catalytic site as opposed to a noncatalytic nucleotide-binding site. NbfCl reacted with a tyrosine residue on the DCCD-reacting beta subunit in contrast to the different subunit location of the lysine residue labeled by the reagent. Thus, O to N transfer of the Nbf group in the free F1-ATPase involves transfer between subunits. The chemical labelling pattern of membrane-bound F1-ATPase differed from that of free F1. The strict asymmetry of labeling of the free F1-ATPase was not observed. Thus, double labeling of beta subunits by several reagents was found. This suggests that the asymmetry was not induced by chemical modification, but is inherent in the structure of the ATPase.
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PMID:Reaction of membrane-bound F1-adenosine triphosphatase of Escherichia coli with chemical ligands and the asymmetry of beta subunits. 213 13

In a model proposed for the structure of the a-subunit of the Escherichia coli F0F1-ATPase (Howitt, S.M., Gibson, F. and Cox, G.B. (1988) Biochim. Biophys. Acta 936, 74-80), a cluster of charged residues, including one arginine and four aspartic acid residues, lie on the periplasmic side of the membrane. On the cytoplasmic side, three pairs of lysine residues and an arginine residue are present. Site-directed mutagenesis was used to investigate the roles of these residues. It was found that none was directly involved in the proton pore. However, the substitutions of Asp-124 or Asp-44 by asparagine or Arg-140 by glutamine had similar effects in that the membranes from such mutants from which the F1-ATPase was removed were proton-impermeable. A combination of the Asp-44 mutation with either the Asp-124 or Arg-140 mutations in the same strain resulted in complete loss of oxidative phosphorylation. It was tentatively concluded that Asp-124 and Arg-140 form a salt bridge, as did Asp-44 with an unknown residue, and these salt bridges were concerned with the maintenance of correct a-subunit structure. Further support for this conclusion was obtained when second site revertants of a Glu-219 to histidine mutant were found to have either histidine or leucine replacing Arg-140. Thus, the lack of the Asp-124/Arg-140 salt bridge might enable repositioning of the helices of the a-subunit such that His-219 becomes a functional component of the proton pore.
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PMID:Mutational analysis of the function of the a-subunit of the F0F1-APPase of Escherichia coli. 213 15


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