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)

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

The predicted amino acid sequence of the alpha subunit of the rat liver mitochondrial ATP synthase has been obtained by sequencing a cDNA for the alpha subunit. Analysis of the sequence shows that it contains the A and B consensus sequences found in many nucleotide-binding proteins. Twelve amino acids of the rat liver alpha subunit differ from the sequence of the bovine heart alpha subunit; four of these involve differences in charge. The rat liver alpha subunit, from arginine 15 to the C-terminal proline 510, has been overexpressed in Escherichia coli using the alkaline phosphatase promoter (phoA) and leader peptide to direct the export of the expressed protein to the bacterial periplasm. By treating the cells with lysozyme, osmotic shock, and alkaline pH washes, the alpha subunit can be extracted in high yield (greater than 25 mg/liter) and in a high state of purity. The expressed alpha subunit remains soluble at pH 9.5 or greater and precipitates when treated with Mg2+ ions at low millimolar concentration. The bacterially expressed alpha subunit interacts with 2'(3')-O-(2,4,6-trinitrophenyl)adenosine 5'-triphosphate (TNP-ATP), resulting in a marked fluorescence enhancement upon binding. An enhancement of fluorescence is also observed upon the interaction of the alpha subunit with TNP-ADP. Preincubating the alpha subunit with 1.5 mM ATP significantly reduces the fluorescence enhancement seen with TNP-ATP. The alpha subunit binds TNP-ATP with an apparent Kd in the low micromolar range (1-5 microM) and binds TNP-ADP with an affinity at least 10-fold lower. This work shows that the rat liver alpha subunit can be overexpressed in E. coli to yield a large amount of functional protein. With the acquisition of the overexpressed alpha subunit, it is now possible to test the reconstitution of ATPase activity from a mixture of recombinant and rat liver-derived subunits and to test the formation of complexes by the overexpressed alpha and beta subunits of the rat liver F1-ATPase.
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PMID:Mitochondrial ATP synthase. cDNA cloning, amino acid sequence, overexpression, and properties of the rat liver alpha subunit. 213 25

An endogenous ATPase inhibitor protein has been identified and isolated for the first time from plant mitochondria. The inhibitor protein was isolated from potato (Solanum tuberosum) tuber mitochondria and purified to homogeneity. The isolated inhibitor is a heat-stable, trypsin-sensitive, basic protein, with a molecular mass approximately 8.3 kDa. Amino acid analysis reveals a high content of glutamic acid, lysine and arginine and the absence of proline; threonine and leucine. The interaction of the inhibitor with F1-ATPase requires the presence of Mg2(+)-ATP in the incubation medium. The ATPase activity of isolated F1 is inhibited to 50% in the presence of 14 micrograms inhibitor/mg F1. A stoichiometry of 1.3 mol inhibitor/mol F1 for complete inhibition can be calculated from this value. The potato ATPase inhibitor is also a potent inhibitor of the ATPase activity of the isolated yeast F1. The inhibitor resembles the ATPase inhibitors of yeast and mammalian mitochondria, and does not seem to be related to the inhibitory peptide, epsilon subunit, of chloroplast ATPase.
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PMID:Evidence for an endogenous ATPase inhibitor protein in plant mitochondria. Purification and characterization. 213 39

The beta subunit of the rat liver mitochondrial ATP synthase contains a glycine-rich amino acid sequence implicated in binding nucleotides by its similarity to a sequence found in many other nucleotide-binding proteins. A C-terminal three-quarter-length rat liver beta subunit fragment (Glu122 through Ser479), containing this homology region, interacts with adenine nucleotides (Garboczi, D.N., Hullihen, J.H., and Pedersen, P.L. (1988) J. Biol. Chem. 263, 15694-15698). Here we directly test the involvement of the glycine-rich region in nucleotide binding by altering its amino acid sequence through mutation or deletion. Twenty-one mutations within the glycine-rich region of the beta subunit cDNA were randomly generated. Wild-type and mutant beta subunit proteins were purified from overexpressing Escherichia coli strains. The mutant proteins were screened for changes in their interaction with 2'(3')-O-(2,4,6-trinitrophenyl)adenosine 5'-triphosphate (TNP-ATP), a fluorescent nucleotide analog. Only one mutant protein bearing two amino acid changes (Gly153----Val, Gly156----Arg) exhibited a fluorescence enhancement higher than that of the wild-type "control." Further analysis of this protein revealed a lower affinity for TNP-ATP (Kd = 10 microM) compared with wild type (Kd = 5 microM). In addition, a mutant from which amino acids Gly149-Lys214 had been deleted was prepared. This mutant protein, which lacks the entire glycine-rich region, also displayed a marked reduction in affinity for TNP-ATP (Kd greater than 60 microM). Prior addition of 0.5 mM ATP significantly reduced the binding of TNP-ATP to both the double and deletion mutants. The altered interaction of nucleotide with both glycine-rich region mutants points to the involvement of this region in the binding site. Further, this work shows that a beta subunit protein that lacks the glycine-rich homology region can still interact with nucleotide, indicating that one or more additional regions of this subunit contribute to the nucleotide binding site.
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PMID:Rat liver mitochondrial ATP synthase. Effects of mutations in the glycine-rich region of a beta subunit peptide on its interaction with adenine nucleotides. 214 65

Site-directed cassette mutagenesis was used to generate a series of amino acid substitutions in the a subunit of the Escherichia coli F1F0-ATP synthase. The following substitutions for Asn-192 were analyzed and shown to inhibit partially the ATP-dependent proton translocation without disrupting F1-F0 interactions: Leu, Val, Pro, Ser, Thr, and Arg. A group of multiple substitutions at residues Gln-181, Asn-184, and His-185 had no significant effect on ATP synthase function, as judged by growth yields, or by assays of ATP-dependent proton translocation, indicating that this region of the a subunit is not involved in function. Three double mutants were constructed in order to assess the independence of residues Asn-192, Glu-196, and Asn-214. Results of proton translocation assays of membranes from cells containing these double mutations are consistent with the interpretation that each of these residues is involved with proton movement, and that residues Asn-192 and Glu-196 may be coupled. Finally, the relationship between the mechanism of proton translocation by the E. coli ATP synthase and the chloroplast enzyme was probed by constructing variants of the E. coli a subunit containing several features of homologous chloroplast proteins. It was determined that these chloroplast features, in the region of Glu-196 of the E. coli a subunit,, were detrimental to ATP synthase function.
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PMID:Mutagenesis of the a subunit of the F1F0-ATP synthase from Escherichia coli in the region of Asn-192. 214 3

Previous studies have shown that the initial complex formed when ADP binds to nucleotide-depleted F1-ATPase is transformed with a half time of 2 to 3 min to form with a much lower rate of ADP release. The ADP binding results in a strong inhibition of ATPase activity. The present paper reports appraisal of where the inhibitory ADP binds by use of the photoreactive ADP analog, 2-N3-ADP. In presence of Mg2+ the 2-N3-ADP like ADP induces reversible inhibition of nucleotide-depleted F1 (ndF1) with a Kd of about 10 nM. Photoirradiation of the inactive 2-N3-[beta-32P]ADP-ndF1 complex results in labeling of only the beta-subunit. The major labeled peptide isolated from a trypic digest consists of residues from Ala-338 to Arg-356, with Tyr-345 as the site of labeling. This identifies the site of the inhibitory ADP binding as one of the catalytic sites of the enzyme.
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PMID:The ADP that binds tightly to nucleotide-depleted mitochondrial F1-ATPase and inhibits catalysis is bound at a catalytic site. 214 75

We have isolated a cDNA clone encoding the precursor of the beta-subunit of the bovine heart mitochondrial F1-ATPase. Two probes were used to isolate this precursor from a bovine heart cDNA library. One probe was a mixed-sequence oligonucleotide directed against a portion of the amino acid sequence of the mature protein, and the other probe was the F1-ATPase beta-subunit gene from Saccharomyces cerevisiae. Determination of the nucleotide sequence of this cDNA reveals that it contains a 1584-nucleotide-long open reading frame that encodes the complete mature beta-subunit protein and a 48 amino acid long NH2-terminal extension. This amino-terminal presequence contains four basic arginine residues, one acidic glutamic acid residue, four polar uncharged serine residues, and five proline residues. Southern blot hybridization analyses suggest that the bovine F1-ATPase beta-subunit precursor is encoded by a single genetic locus. RNA blot hybridization analyses reveal a single mRNA species of approximately 1.9 kilobases from both bovine liver and heart.
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PMID:Isolation and characterization of a complementary DNA for the nuclear-coded precursor of the beta-subunit of bovine mitochondrial F1-ATPase. 245 29

A series of experiments was carried out to investigate the role of some polar amino acids in the a-subunit of the ATP synthase of Escherichia coli. Site-directed mutagenesis resulted in the amino acid substitutions Ser-199----Ala, Ser-202----Ala, Ser-206----Ala, Arg-61----Gln or Asp-44----Asn. None of these amino acid substitutions affected the ability of the cells to carry out oxidative phosphorylation. It was concluded therefore that the effect of the substitution of leucine for Ser-206 reported previously (Cain, B.D. and Simoni, R.D. (1986) J. Biol. Chem. 261, 10043-10050) was due to the presence of the leucine rather than the absence of serine. Even though cells carrying the Asp-44----Asn substitution were able to carry out oxidative phosphorylation, membranes from such cells remained proton-impermeable after removal of the F1-ATPase. It appears likely that the proton pore of the F0 of the ATP synthase of E. coli consists of four amino acids, namely Arg-219, Glu-210 and His-245 of the a-subunit and Asp-61 of the c-subunit.
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PMID:The proton pore of the F0F1-ATPase of Escherichia coli: Ser-206 is not required for proton translocation. 246 Jan 35

Immunological studies were designed to study the structure of the oligomycin sensitivity conferring protein (OSCP) integrated in the mitochondrial ATPase-ATPsynthase complex. The monoclonal antibody 2B1B1 used in this study could bind as well to purified or membrane bound OSCP as shown previously by Protein A-gold immunocytochemistry and by competitive immunotitration. In this paper, it is shown that 2B1B1 can also immunoprecipitate the F0F1 complex from a Triton X-100 extract. This means that not only, 2B1B1 binds to the surface of OSCP but also that the binding of 2B1B1 did not destroy the interactions between F0 and F1 and further demonstrates the external location of the 2B1B1 binding site in the ATPase-ATPsynthase complex. This antigenic site was located on the N-terminal sequence of OSCP, between residues 1 and 72, as demonstrated after chemical cleavage of OSCP with formic acid, hydroxylamine and partial cleavage with cyanogen bromide. The proximity of Tyr and Arg to the epitope was suggested by the lack of 2B1B1 binding to iodinated OSCP and by the susceptibility of this binding to trypsin or to endoproteinase Arg-C treatments of OSCP, respectively. A more precise location of the epitope has been attempted by using the method of synthesis of overlapping octapeptides on solid support. It was found that 2 groups of octapeptides could bind 2B1B1. The first group contained in common the sequence Pro7-Pro8-Val9-Gln10-Ile11-Tyr12- and the second group of peptides contained the sequence Arg62-Ser63-Val64-Lys65. Another monoclonal antibody, AF4H7, which competes with 2B1B1, also recognized the first group of peptides. The possible involvement of these 2 fragments in the epitope localized at the surface of OSCP is discussed. In addition, secondary structure theoretical analysis predicts that these 2 domains should be in a beta-strand configuration.
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PMID:Epitope of OSCP oligomycin sensitivity conferring protein exposed at the surface of the mitochondrial ATPase-ATPsynthase complex. 247 97

Two point mutants of Chlamydomonas reinhardtii, previously found by recombination and complementation analysis to map in the chloroplast atpB gene encoding the beta subunit of the CF1/CF0 ATP synthase, are here shown to be missense alterations near the 5' end of that gene. One mutant (ac-u-c-2-9) has a change at amino acid position 47 of the beta subunit from leucine (CTA) to arginine (CGA). In the second mutant (ac-u-c-2-29), the codon AAA (lysine) is changed to AAC (asparagine) at position 154. Spontaneous revertants of each mutant were isolated that restore the original wild type base pair. Northern analysis of total RNA and in vivo pulse labeling followed by immunoprecipitation reveals that both mutant atpB genes are transcribed and translated normally. However, immunoblots show that the amount of beta subunit associated with mutant thylakoids is only approximately 3% of that seen in wild type and that the CF1 alpha and gamma subunits are missing entirely. The disruption of ATP synthase complex assembly in these mutants is much more severe than in Escherichia coli beta subunit gene point mutants, which retain significant amounts of alpha and beta subunits on their membranes (Noumi, T., Oka, N., Kanazawa, H., and Futai, M. (1986) J. Biol. Chem. 261, 7070-7075). These results support the hypothesis that there are differences in assembly of the ATP synthase between E. coli and chloroplasts. In particular they indicate that beta must be present for assembly of the alpha and gamma subunits of CF1 onto chloroplast membranes.
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PMID:Molecular characterization of two point mutants in the chloroplast atpB gene of the green alga Chlamydomonas reinhardtii defective in assembly of the ATP synthase complex. 252 27

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