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 topology of subunit i, a component of the yeast F(o)F(1)-ATP synthase, was determined by the use of cysteine-substituted mutants. The N(in)-C(out) orientation of this intrinsic subunit was confirmed by chemical modification of unique cysteine residues with 4-acetamido-4'-maleimidylstilbene-2,2'-disulfonic acid. Near-neighbor relationships between subunit i and subunits 6, f, g, and d were demonstrated by cross-link formation following sulfhydryl oxidation or reaction with homobifunctional and heterobifunctional reagents. Our data suggest interactions between the unique membrane-spanning segment of subunit i and the first transmembranous alpha-helix of subunit 6 and a stoichiometry of 1 subunit i per complex. Cross-linked products between mutant subunits i and proteins loosely bound to the F(o)F(1)-ATP synthase suggest that subunit i is located at the periphery of the enzyme and interacts with proteins of the inner mitochondrial membrane that are not involved in the structure of the yeast ATP synthase.
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PMID:Environmental study of subunit i, a F(o) component of the yeast ATP synthase. 1074 12

The b subunit dimer of the Escherichia coli ATP synthase, along with the delta subunit, is thought to act as a stator to hold the alpha(3)beta(3) hexamer stationary relative to the a subunit as the gammaepsilonc(9-12) complex rotates. Despite their essential nature, the contacts between b and the alpha, beta, and a subunits remain largely undefined. We have introduced cysteine residues individually at various positions within the wild type membrane-bound b subunit, or within b(24-156), a truncated, soluble version consisting only of the hydrophilic C-terminal domain. The introduced cysteine residues were modified with a photoactivatable cross-linking agent, and cross-linking to subunits of the F(1) sector or to complete F(1)F(0) was attempted. Cross-linking in both the full-length and truncated forms of b was obtained at positions 92 (to alpha and beta), and 109 and 110 (to alpha only). Mass spectrometric analysis of peptide fragments derived from the b(24-156)A92C cross-link revealed that cross-linking took place within the region of alpha between Ile-464 and Met-483. This result indicates that the b dimer interacts with the alpha subunit near a non-catalytic alpha/beta interface. A cysteine residue introduced in place of the highly conserved arginine at position 36 of the b subunit could be cross-linked to the a subunit of F(0) in membrane-bound ATP synthase, implying that at least 10 residues of the polar domain of b are adjacent to residues of a. Sites of cross-linking between b(24-156)A92C and beta as well as b(24-156)I109C and alpha are proposed based on the mass spectrometric data, and these sites are discussed in terms of the structure of b and its interactions with the rest of the complex.
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PMID:Site-directed cross-linking of b to the alpha, beta, and a subunits of the Escherichia coli ATP synthase. 1074 4

Subunit a of the ATP synthase F(o) sector contains a transmembrane helix that interacts with subunit c and is critical for H(+) transport activity. From a cysteine scan in the region around the essential subunit a residue, Arg-210, we found that the replacement of aGly-213 greatly attenuated ATP hydrolysis, ATP-dependent proton pumping and Delta mu(H)+-dependent ATP synthesis. Various amino acid substitutions caused similar effects, suggesting that functional perturbations were caused by altering the environment or conformation of aArg-210. aG213N, which was particularly severe in effect, was suppressed by two second-site mutations, aL251V and cD61E. These mutations restored efficient coupling; the latter also increased ATP-dependent proton transport rates. These results were consistent with the proposed functional interaction between aArg-210 and cAsp-61, the likely carrier of the transported proton. From Arrhenius analysis of steady-state ATP hydrolytic activity, the transport mutants had large increases in the transition-state enthalpic and entropic parameters. Linear isokinetic relationships demonstrate that the transport mechanism is coupled to the rate-limiting catalytic transition-state step, which we have previously shown to involve the rotation of the gamma subunit in multi-site, co-operative catalysis.
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PMID:Intragenic and intergenic suppression of the Escherichia coli ATP synthase subunit a mutation of Gly-213 to Asn: functional interactions between residues in the proton transport site. 1076 85

ATP synthase consists of two portions, F(1) and F(o), connected by two stalks: a central rotor stalk containing gamma and epsilon subunits and a peripheral, second stalk formed by delta and two copies of F(o)b subunits. The second stalk is expected to keep the stator subunits from spinning along with the rotor. We isolated a TF(1)-b'(2) complex (alpha(3)beta(3)gammadeltaepsilonb'(2)) of a thermophilic Bacillus PS3, in which b' was a truncated cytoplasmic fragment of F(o)b subunit, and introduced a cysteine at its N terminus (bc'). Association of b'(2) or bc'(2) with TF(1) did not have significant effect on ATPase activity. A disulfide bond between the introduced cysteine of bc' and cysteine 109 of gamma subunit was readily formed, and this cross-link caused inactivation of ATPase. This implies that F(o)b subunit bound to stator subunits of F(1) with enough strength to resist rotation of gamma subunit and to prevent catalysis. Contrary to this apparent tight binding, some detergents such as lauryldodecylamine oxide tend to cause release of b'(2) from TF(1).
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PMID:Second stalk of ATP synthase. Cross-linking of gamma subunit in F1 to truncated Fob subunit prevents ATP hydrolysis. 1097 Sep

The effects of mutation of residue Ala-128 of the b subunit of Escherichia coli ATP synthase to aspartate on the structure of the subunit and its interaction with the F(1) sector were analyzed. Determination of solution molecular weights by sedimentation equilibrium ultracentrifugation revealed that the A128D mutation had little effect on dimerization in the soluble b construct, b(34-156). However, the mutation caused a structural perturbation detected through both a 12% reduction in the sedimentation coefficient and also a reduced tendency to form intersubunit disulfide bonds between cysteine residues inserted at position 132. Unlike the wild-type sequence, the A128D mutant was unable to interact with F(1)-ATPase. These results indicate that the A128D mutation caused a structural change in the C-terminal region of the protein, preventing the binding to F(1) but having little or no effect on the dimeric nature of b.
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PMID:A re-examination of the structural and functional consequences of mutation of alanine-128 of the b subunit of Escherichia coli ATP synthase to aspartic acid. 1100 71

We have used site-directed chemical labelling to demonstrate the membrane topology and to identify neighbouring subunits of subunit 8 (Y8) in yeast mitochondrial ATP synthase (mtATPase). Unique cysteine residues were introduced at the N or C-terminus of Y8 by site-directed mutagenesis. Expression and targeting to mitochondria in vivo of each of these variants in a yeast Y8 null mutant was able to restore activity to an otherwise nonfunctional ATP synthase complex. The position of each introduced cysteine relative to the inner mitochondrial membrane was probed with thiol-specific nonpermeant and permeant reagents in both intact and lysed mitochondria. The data indicate that the N-terminus of Y8 is located in the intermembrane space of mitochondria whereas the C-terminus is located within the mitochondrial matrix. The proximity of Y8 to other proteins of mtATPase was tested using heterobifunctional cross-linking reagents, each with one thiol-specific reactive group and one nonspecific, photoactivatible reactive group. These experiments revealed the proximity of the C-terminal domain of Y8 to subunits d and f, and that of the N-terminal domain to subunit f. It is concluded that Y8 possesses a single transmembrane domain which extends across the inner membrane of intact mitochondria. As subunit d is a likely component of the stator stalk of mitochondrial ATP synthase, we propose, on the basis of the observed cross-links, that Y8 may also be part of the stator stalk.
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PMID:Topology and proximity relationships of yeast mitochondrial ATP synthase subunit 8 determined by unique introduced cysteine residues. 1102 88

Chloroplast ATP synthase is a thiol-modulated enzyme whose DeltamuH(+)-linked activation is strongly influenced by reduction and the formation of a disulphide bridge between Cys(199) and Cys(205) on the gamma subunit. In solubilized chloroplast coupling factor 1 (CF(1)), reduction of the disulphide bond elicits the latent ATP-hydrolysing activity. To assess the regulatory importance of the amino acid residues around these cysteine residues, we focused on the three negatively charged residues Glu(210)-Asp-Glu(212) close to the two cysteine residues and also on the following region from Leu(213) to Ile(230), and investigated the modulation of ATPase activity by chloroplast thioredoxins. The mutant gamma subunits were reconstituted with the alpha and beta subunits from F(1) of the thermophilic bacterium Bacillus PS3; the active ATPase complexes obtained were purified by gel-filtration chromatography. The complex formed with a mutant gamma subunit in which Glu(210) to Glu(212) had been deleted was inactivated rather than activated by reduction of the disulphide bridge by reduced thioredoxin, indicating inverse regulation. This complex was insensitive to the inhibitory CF(1)-epsilon subunit when the mutant gamma subunit was oxidized. In contrast, the deletion of Glu(212) to Ile(230) converted the complex from a modulated state into a highly active state.
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PMID:Inverse regulation of F1-ATPase activity by a mutation at the regulatory region on the gamma subunit of chloroplast ATP synthase. 1110 86

The F(1)F(o)-type ATP synthase is the smallest motor enzyme known. Previous studies had established that the central gamma and epsilon subunits of the F(1) part rotate relative to a stator of alpha(3)beta(3) and delta subunits during catalysis. We now show that the ring of c subunits in the F(o) part moves along with the gamma and epsilon subunits. This was demonstrated by linking the three rotor subunits with disulfide bridges between cysteine residues introduced genetically at the interfaces between the gamma, epsilon, and c subunits. Essentially complete cross-linking of the gamma, epsilon, and c subunits was achieved by using CuCl(2) to induce oxidation. This fixing of the three subunits together had no significant effect on ATP hydrolysis, proton translocation, or ATP synthesis, and each of these functions retained inhibitor sensitivity. These results unequivocally place the c subunit oligomer in the rotor part of this molecular machine.
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PMID:Rotation of the c subunit oligomer in fully functional F1Fo ATP synthase. 1115 67

The stoichiometry of c subunits in the H(+)-transporting F(o) rotary motor of ATP synthase is uncertain, the most recent suggestions varying from 10 to 14. The stoichiometry will determine the number of H(+) transported per ATP synthesized and will directly relate to the P/O ratio of oxidative phosphorylation. The experiments described here show that the number of c subunits in functional complexes of F(o)F(1) ATP synthase from Escherichia coli can be manipulated, but that the preferred number is 10. Mixtures of genetically fused cysteine-substituted trimers (c(3)) and tetramers (c(4)) of subunit c were coexpressed and the c subunits crosslinked in the plasma membrane. Prominent products corresponding to oligomers of c(7) and c(10) were observed in the membrane and purified F(o)F(1) complex, indicating that the c(10) oligomer formed naturally. Oligomers larger than c(10) were also observed in the membrane fraction of cells expressing c(3) or c(4) individually, or in cells coexpressing c(3) and c(4) together, but these larger oligomers did not copurify with the functional F(o)F(1) complex and were concluded to be aberrant products of assembly in the membrane.
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PMID:The preferred stoichiometry of c subunits in the rotary motor sector of Escherichia coli ATP synthase is 10. 1132 Feb 46

The intrinsic fluorescence of the catalytic portion of the chloroplast ATP synthase (CF1) is quenched when cysteine 322, the penultimate amino acid of the gamma subunit, is specifically labeled with pyrene maleimide (PM). The epsilon subunit of CF1 contains the only two residues of tryptophan, which dominate the intrinsic fluorescence of unlabeled CF1. CF1 deficient in the epsilon subunit (CF1-epsilon) was reconstituted with mutant epsilon subunits in which phenylalanine replaced tryptophan at position 15 (epsilonW15F) and position 57 (epsilonW15/57F). CF1(epsilonW15F) containing a single tryptophan, epsilonW57, was labeled with PM at gammaC322. Resonance energy transfer (RET) from epsilonW57 to PM on gammaC322 occurred with an efficiency of energy transfer of 20%. RET was also observed from epsilonW57 to PM attached to the disulfide thiols of the gamma subunit (gammaC199,205) with an efficiency of approximately 45%. The R(o) (the distance at which the efficiency of energy transfer is 50%) for the epsilonW57 and PM donor/acceptor pair is 30 A, indicating that both gammaC322 and gammaC199,205 must be within 40 A of epsilonW57. These RET measurements show that both gammaC322 and gammaC199,205 are located near the base of the alpha/beta hexamer. This places the C-terminus of CF1 gamma much closer to epsilon than hypothesized based on homology to crystal structures of mitochondrial F1. These new RET measurements also allow the alignment of the predicted epsilon subunit structure. The orientation is similar to that predicted from cross-linking and mutational studies for the epsilon subunit of Escherichia coli F1.
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PMID:Resonance energy transfer between tryptophan 57 in the epsilon subunit and pyrene maleimide labeled gamma subunit of the chloroplast ATP synthase. 1132 43

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