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Query: UNIPROT:P20020 (adenosine triphosphatase)
3,299 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A technique for selecting mutants of Escherichia coli in which the proton-translocating sector of the adenosine triphosphatase (ATPase) complex has been inactivated is reported. The procedure uses a strain of E. coli (NR-70) lacking the extrinsic (F1) sector of the ATPase complex and which in consequently permeable to protons (B. P. Rosen, J. Bacteriol. 116:1124--1129, 1973). After growing strain NR-70 under noninducing conditions for the lac operon, cells were mutagenized and plated on minimal medium containing low concentrations of lactose. Several mutants of strain NR-70 were isolated as large colonies on these plates, apparently because they could concentrate lactose more efficiently. A description of one of the mutants, strain KW-1, is reported here. The most distinguishing difference in growth properties of the two strains was that, when transferred to medium containing low concentrations of lactose, strain KW-1 induced the lac operon with a shorter lag time than strain NR-70. The mutation in strain KW-1 leading to more rapid growth on lactose was cotransducible with the asn and unc loci, at 83 min on the E. coli genetic map. Intact cells of strain KW-1 actively transported L-proline as well as did wild-type cells, whereas cells of strain NR-70 were markedly deficient in L-proline transport. The improvement in the transport capacity of strain KW-1 correlated with a marked decrease in proton permeability relative to that of strain NR-70. Based on an acid-base pulse technique that measured the proton conductance of the membranes of intact cells, strain NR-70 was at least 10 times more permeable to protons than was the wild type, whereas strain KW-1 was only 2 times more permeable. The transport properties and proton conductance were also compared with membrane vesicles prepared by osmotic shock. With either D-lactate or ascorbate-N-methylphenazonium methosulfate as respiratory substrates, vesicles of strain KW-1 transported L-proline much more rapidly than did vesicles of strain NR-70, but still at rates less rapid than those of the wild type. The passive proton conductance of the membrane vesicles was quantitated by measuring the rate of H+ influx into vesicles in response to a valinomycin-generated K+ diffusion potential. The proton permeability of vesicles of strain KW-1 was reduced 1.5-fold relative to vesicles of strain NR-70, but these vesicles were still four times more permeable to protons than was the wild type. Vesicles of strain KW-1 corresponded to wild-type vesicles treated with 0.5 micrometer carbonylcyanide m-chlorophenylhydrazone (CCCP) and vesicles of strain NR-70 corresponded to wild-type vesicles treated with 1.4 micrometer CCCP. Treatment of wild-type vesicles with these concentrations of CCCP caused decreases in transport comparable to those observed in the mutants. Strain KW-1 lacked ATPase activity. Cross-reacting material to F1-ATPase was not found in strain KW-1 by double immunodiffusion analysis.
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PMID:Method for isolation of Escherichia coli mutants with defects in the proton-translocating sector of the membrane adenosine triphosphatase complex. 15 9

Four mutant strains of Escherichia coli which lack membrane-bound adenosine triphosphatase activity were shown by genetic-complementation tests to carry mutations in the uncA gene. A soluble inactive F1-ATPase aggregate was released from the membranes of three of the uncA mutant strains by low-ionic-strength washing, and purified by procedures developed for the purification of F1-ATPase from normal strains. Analysis of the subunit structure by two-dimensional gel electrophoresis indicated that the F1-ATPase in strains carrying the uncA401 or uncA453 alleles had a subunit structure indistinguishable from normal F1-ATPase. In contrast, the F1-ATPase from the strain carrying the uncA447 allele contained an alpha-subunit of normal molecular weight, but abnormal net charge. Membranes from strains carrying the uncA450 allele did not have F1-ATPase aggregates that could be solubilized by low-ionic-strength washing. However, a partial dipolid strain carrying both the uncA+ and uncA450 alleles formed an active F1-ATPase aggregate which could be solubilized by low-ionic-strength washing of the membranes and which contained two types of alpha-subunit, one of which was normal and the other had abnormal net charge. It is concluded that the uncA gene codes for the alpha-subunit of the adenosine triphosphatase.
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PMID:The uncA gene codes for the alpha-subunit of the adenosine triphosphatase of Escherichia coli. Electrophoretic analysis of uncA mutant strains. 15 57

Five uncoupled mutant strains of Escherichia coli carrying mutations in the uncD gene have been studied. In each of these mutant strains the beta-subunit of the F1 portion of the membrane-bound adenosine triphosphatase is abnormal. In one of the mutant strains (carrying the uncD12 allele) in F1-ATPase aggregate was formed which was purified and found to have low ATPase activity. ATPase activity was absent in the other four strains and the abnormal beta-subunits were tightly bound to the membranes. However, membranes from these strains exhibited various proton permeabilities as indicated by NADH-dependent atebrin-fluorescence quenching and bound different amounts of normal F1-ATPase. The amounts of reconstitution of energy-linked reactions after the addition of normal F1-ATPase also varied depending on the mutant allele. It is apparent that considerable phenotypic variations can occur between strains carrying mutations in the same unc gene.
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PMID:Properties of membranes from mutant strains of Escherichia coli in which the beta-subunit of the adenosine triphosphatase is abnormal. 15 58

1. Grinding of epimastigotes of Trypanosoma cruzi with glass powder in a mortar yielded a Mg2+-activated adenosine triphosphatase (ATPase) preparation which was highly sensitive to oligomycin. 2. Chloroform treatment of the particles resulted in the solubilization of an ATPase which was (a) activated by MgCl2; (b) slightly inhibited by CaCl2; (c) activated by sulphite and bisulphite; (d) had an optimum pH of 7.6; and (e) had a Km for ATP of 2.1 mM (in the presence of 4 mM MgCl2). 3. The solubilized enzyme was insensitive to oligomycin and leucinostatin, which inhibited the membrane-bound ATPase, though inhibited by efrapeptin and quercetin. 4. The results indicate that the chloroform-extracted enzyme is a soluble F1-ATPase similar to those isolated from mammalian mitochondria.
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PMID:Solubilization and some properties of the Mg2+-activated adenosine triphosphatase from Trypanosoma cruzi. 16 84

A mutant strain of Escherichia coli was isolated in which Gly-48 of the mature epsilon-subunit of the energy-transducing adenosine triphosphatase was replaced by Asp. This amino acid substitution caused inhibition of ATPase activity (about 70%), loss of ATP-dependent proton translocation and lowered oxidative phosphorylation, but did not affect proton translocation through the F0. Purified F1-ATPase from the mutant strain bound to stripped membranes with the same affinity as the normal F1-ATPase. Partial revertant strains were isolated in which Pro-47 of the epsilon-subunit was replaced by Ser or Thr. Pro-47 and Gly-48 are predicted to be residues 2 and 3 in a Type II beta-turn and the Gly-48 to Asp substitution is predicted to cause a change from a Type II to a Type I or III beta-turn. Space-filling models of the beta-turn (residues 46-49) in the normal, mutant and partial revertant epsilon-subunits indicate that the peptide oxygen between Pro-47 and Gly-48 is in a different position to the peptide oxygen between Pro-47 and Asp-48 and that the substitution of Pro-47 by either Ser or Thr restores an oxygen close to the original position. It is suggested that the peptide oxygen between Pro-47 and Gly-48 of the epsilon-subunit is involved either structurally in inter-subunit H-bonding or directly in proton movements through the F1-ATPase.
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PMID:Amino acid substitutions in the epsilon-subunit of the F1F0-ATPase of Escherichia coli. 287 66

The reaction of Trypanosoma cruzi Mg2+-stimulated adenosine triphosphatase (ATPase, coupling factor 1, or F1) with phenylglyoxal, a dicarbonylic compound, resulted in a rapid loss of its enzymatic activity. The inactivation showed pseudo-first-order kinetics with both membrane-bound and soluble F1-ATPase, the rate of the enzyme inactivation being faster in bicarbonate buffer (pH 7.9) than in borate buffer (pH 8.0). The log (pseudo-first-order rate constant) vs. log(phenylglyoxal concentration) plots obtained with the membrane-bound and soluble F1-ATPase in bicarbonate buffer, and also with F1 in borate buffer, had slopes of near 1.0 while the plot for the membrane-bound ATPase in borate buffer had a slope of 1.6. Second-order rate constants (in mM-1 X min-1) were 55 (for both ATPase preparations in bicarbonate buffer) and 34 (for the membrane-bound ATPase in borate buffer). When the reaction was performed in the presence of ATP, the rate of inactivation was significantly decreased. It is concluded that, as in the mammalian F1-ATPase, arginyl residues play an essential role in T. cruzi mitochondrial ATPase, probably at the hydrolytic site.
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PMID:Phenylglyoxal inactivation of the mitochondrial adenosine triphosphatase from Trypanosoma cruzi. 621 57

A yeast nuclear pet mutant of Saccharomyces cerevisiae lacking any detectable mitochondrial F1-ATPase activity was genetically complemented upon transformation with a pool of wild type genomic DNA fragments carried in the yeast Escherchia coli shuttle vector YEp 13. Plasmid-dependent complementation restored both growth of the pet mutant on a nonfermentable carbon source as well as functional mitochondrial ATPase activity. Characterization of the complementing plasmid by plasmid deletion analysis indicated that the complementing gene was contained on adjoining BamH1 fragments with a combined length of 3.05 kilobases. Gel analysis of the product of this DNA by in vitro translation in a rabbit reticulocyte lysate programmed with yeast mRNA hybrid selected by the plasmid revealed a product which could be immunoprecipitated by antisera against the beta subunit of the yeast mitochondrial ATPase complex. A comparison of the protein sequence derived from partial DNA sequence analysis indicated that the beta subunit of the yeast mitochondrial ATPase complex exhibits greater than 70% conservation of protein sequence when compared to the same subunit from the ATPase of E. coli, beef heart, and chloroplast. The gene coding the beta subunit (subunit 2) of yeast mitochondrial adenosine triphosphatase is designated ATP2. The utilization of cloned nuclear structural genes of mitochondrial proteins for the analysis of the post-translational targeting and import events in organelle assembly is discussed.
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PMID:Nuclear genes coding the yeast mitochondrial adenosine triphosphatase complex. Isolation of ATP2 coding the F1-ATPase beta subunit. 622 76

The mitochondrial adenosine triphosphatase of the kinetoplastid protozoon, Crithidia fasciculata, is inhibited by oligomycin, venturicidin, triethyltin sulphate, N,N'-dicyclohexylcarbodiimide, leucinostatin, Dio-9 and quercetin, but not spegazzinine or by compounds which interact with the beta-subunit of mitochondrial F1-ATPase (efrapeptin, aurovertin, citreoviridin or 4-chloro-7-nitrobenzofurazan). These results suggest that the F1 portion of the crithidial enzyme has an unusual type of beta-subunit. Further evidence for the atypical nature of this enzyme is provided by the observation that F1-inhibitor proteins from Acanthamoeba castellanii or bovine heart mitochondria do not inhibit the C. fasciculata enzyme activity.
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PMID:Effects of inhibitors on mitochondrial adenosine triphosphatase of Crithidia fasciculata: an unusual pattern of specificities. 645 44

We developed a sensitive and specific radioimmunoassay of the energy-transducing adenosine triphosphatase (F1-ATPase, EC 3.6.1.3) of Micrococcus lysodeikticus and extended the assay to the alpha-, beta- and gamma-subunits of the enzyme. We isolated these subunits and studied cross-reactions. We found the immunochemical properties of alpha- and beta-subunits to differ, and gamma-subunits showed an intermediate behaviour between that of alpha- and beta-subunits. Our findings indicate that each subunit of M. lysodeikticus F1-ATPase has its own identity and that conformational antigenic determinants and/or co-operative antigenic sites-arise from subunit assembly. Equimolecular amounts of alpha- and beta-subunits (up to three copies of each) reconstituted partially the immunochemical properties of the ATPase molecule, and addition of 2 mol of gamma-subunit per mol of alpha 3 beta 3 complex improved reconstitution. Our findings describe the first reconstitution of biological activity of this ATPase by assembly of the isolated subunits, and provide support for earlier proposals on the stoicheiometry of the alpha 3 beta 3 gamma 2 type for M. lysodeikticus F1-ATPase. The radioimmunoassay method affords opportunities to study the homologies between different energy-transducing ATPases and their constituent polypeptides before the primary structure of these complex proteins has been determined.
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PMID:Influence of the alpha-, beta- and gamma-subunits of the energy-transducing adenosine triphosphates from Micrococcus lysodeikticus in the immunochemical properties of the protein and in their reconstitution studied by a radioimmunoassay method. 645 75

Mitochondrial adenosine triphosphatase (ATPase) of the ciliate protozoon Tetrahymena pyriformis ST is completely inhibited by antiserum prepared against F1-ATPase purified from Schizosaccharomyces pombe, and by naturally occurring inhibitor proteins from this yeast and from bovine heart mitochondria. An ATPase inhibitor protein is also present in extracts of T. pyriformis. Mitochondrial ATPase of T. pyriformis is only partially inhibited by the F0-ATPase inhibitors N,N'-dicyclohexylcarbodiimide, oligomycin, leucinostatin, triethyltin sulphate and venturicidin, and (at high titres) by the F1-ATPase inhibitors Dio-9, efrapeptin, 4-chloro-7-nitrobenzofurazan and spegazzinine. Aurovertin, citreoviridin and quercetin were not inhibitory. Resistance to inhibitors distinguishes this mitochondrial ATPase from all those previously examined.
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PMID:Effects of inhibitors on mitochondrial adenosine triphosphatase of Tetrahymena pyriformis ST. 646 27

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