EC:3.6.3.14 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

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

Subunit 8 of yeast mitochondrial ATP synthase is a small hydrophobic component of the membrane-associated F0 sector. Structure/function relations in subunit 8 were studied by focusing on three structural domains: a highly conserved NH2-terminal region, a central hydrophobic region (previously suggested to be a transmembrane stem), and a COOH-terminal region bearing a conserved array of three positively charged residues. A combined approach was used, which encompasses site-directed mutagenesis, in vitro import and assembly tests, and an in vivo allotopic expression system (using host cells unable to synthesise subunit 8 in mitochondria). The results indicate that the NH2-terminal region of subunit 8 is involved functionally in the F0 sector. As the central hydrophobic region can functionally tolerate the introduction of multiple, positively charged residues (which abolishes the proteolipid solubility characteristics of the entire subunit), the role of this hydrophobic region as a transmembrane stem is brought into question. Each of the three positively charged residues toward the COOH-terminus of subunit 8 is required for the efficient assembly of this subunit into the F0 sector. Removal of the more proximal charged residues Arg37 or Arg42 has a more severe impact on subunit 8 assembly than does removal of the most distal residue Lys47 in terms of both in vitro import and assembly as well as the ability of the subunit 8 variant to function in mitochondrial ATP synthase in vivo.
...
PMID:Structure/function analysis of yeast mitochondrial ATP synthase subunit 8. 128 37

The subunit analogous to the d-subunit of ATP synthase from bovine heart mitochondria was isolated from the purified yeast enzyme. Partial protein sequences were determined by direct methods. From this information, two oligonucleotide probes were constructed and used for screening a DNA genomic bank of Saccharomyces cerevisiae. The sequence of yeast subunit d was deduced from the DNA sequence of ATP7 gene. Mature yeast subunit d is 173 amino acids long. Its NH2-terminal serine is blocked by an N-acetyl group, and the protein has no processed NH2-terminal sequence other than the removal of the initiator methionine. The protein is predominantly hydrophilic. The amino acid sequence is 22% identical and 44% homologous to bovine subunit d. A null mutant was constructed. The mutant strain was unable to grow on glycerol medium. The mutant mitochondria had no detectable oligomycin-sensitive ATPase activity, and the catalytic sector F1 was loosely bound to the membranous part. The mutant mitochondria did not contain subunit d, and the mitochondrially encoded hydrophobic subunit 6 was not present.
...
PMID:ATP synthase of yeast mitochondria. Characterization of subunit d and sequence analysis of the structural gene ATP7. 183 57

Studies with a synthetic presequence peptide, F1 beta 1-20, corresponding to the NH2-terminal 20 amino acids of the F1-ATPase beta-subunit precursor (pF1 beta) show that although this peptide binds avidly to phospholipid bi-layers it does not efficiently compete for import of full-length precursor into mitochondria, Ki approximately 100 microM (Hoyt, D.W., Cyr, D.M., Gierasch, L.M., and Douglas, M.G. (1991) J. Biol. Chem. 266, 21693-21699). Herein we report that longer F1 beta presequence peptides F1 beta 1-32 + 2, F1 beta 1-32SQ + 2, and F1 beta 21-51 + 3 compete for mitochondrial import at 1000-, 250-, and 25-fold lower concentrations, respectively, than F1 beta 1-20. A longer peptide, F1 beta 1-51 + 3, was no more effective as an import competitor than F1 beta 1-32 + 2. Both minimal length and amphiphilic character appear required in order for F1 beta peptides to block mitochondrial import. Import competition by longer F1 beta peptides seems to occur at a step common to all precursors since they blocked import of precursors to F1-ATPase alpha- and beta-subunits and the ADP/ATP carrier protein. Dissipation of membrane potential (delta psi) across the inner mitochondrial membrane is observed in the presence of F1 beta-peptides, but this mechanism alone does not account for the observed import inhibition. F1 beta 1-32 + 2 and 21-51 + 3 block import of pF1 beta 100% at peptide concentrations which dissipate delta psi less than 25%. In contrast, experiments with valinomycin demonstrate that when mitochondrial delta psi is reduced 25% import of pF1 beta is inhibited only 25%. Therefore, at least 75% of maximal import inhibition observed in the presence of F1 beta 1-32 + 2 and F1 beta 21-51 + 3 does not result from dissipation of delta psi. Import inhibition by F1 beta-peptides is reversible and can be overcome by increasing the amount of full-length precursor in import reactions. F1 beta presequence peptides and full-length precursor are therefore likely to compete for a common import step. Presequence dependent binding of pF1 beta to trypsin-sensitive elements on the outer mitochondrial membrane is insensitive to inhibitory concentrations of F1 beta presequence peptide. We conclude that import inhibition by F1 beta presequence peptides is competitive and occurs at a site beyond initial interaction of precursor proteins with mitochondria.
...
PMID:Early events in the transport of proteins into mitochondria. Import competition by a mitochondrial presequence. 183 61

The interaction of nucleotides and nucleotide analogues and their metal complexes with Mn2+ bound to both the latent and dithiothreitol-activated CF1 ATP synthase has been examined by means of steady-state kinetics, water proton relaxation rate (PRR) measurements, and 1H and 31P nuclear relaxation measurements. Titration of both the latent and activated Mn(2+)-CF1 complexes with ATP, ADP, Pi, Co(NH3)4ATP, Co(NH3)4ADP, and Co(NH3)4AMPPCP leads to increases in the water relaxation enhancement, consistent with enhanced metal binding and a high ternary complex enhancement. Steady-state kinetic studies are consistent with competitive inhibition of CF1 by Co(NH3)4AMPPCP with respect to CaATP. The data are consistent with a Ki for Co(NH3)4AMPPCP of 650 microM, in good agreement with a previous Ki of 724 microM for Cr(H2O)4ATP [Frasch, W., & Selman, B. (1982) Biochemistry 21, 3636-3643], and a best fit KD of 209 microM from the water PRR measurements. 1H and 31P nuclear relaxation measurements in solutions of CF1 and Co(NH3)4AMPPCP were used to determine the conformation of the bound substrate analogue and the arrangement with respect to this structure of high- and low-affinity sites for Mn2+. The bound nucleotide analogue adopts a bent conformation, with the low-affinity Mn2+ site situated between the adenine and triphosphate moieties and the high-affinity metal site located on the far side of the triphosphate chain. The low-affinity metal forms a distorted inner-sphere complex with the beta-P and gamma-P of the substrate. The distances from Mn2+ to the triphosphate chain are too large for first coordination sphere complexes but are appropriate for second-sphere complexes involving, for example, intervening hydrogen-bonded water molecules or residues from the protein.
...
PMID:1H and 31P nuclear magnetic resonance and kinetic studies of the active site structure of chloroplast CF1 ATP synthase. 214 32

1. The cytoplasmic membrane ionic current of cells of Rhodobacter capsulatus, washed to lower the endogenous K+ concentration, had a non-linear dependence on the membrane potential measured during photosynthetic illumination. Treatment of the cells with venturicidin, an inhibitor of the H(+)-ATP synthase, increased the membrane potential and decreased the membrane ionic current at values of membrane potential below a threshold. 2. The addition of K+ or Rb+, but not of Na+, led to an increase in the membrane ionic current and a decrease in the membrane potential in either the presence or absence of venturicidin. Approximately 0.4 mM K+ or 2.0 mM Rb+ led to a half-maximal response. At saturating concentrations of K+ and Rb+, the membrane ionic currents were similar. The membrane ionic currents due to K+ and Rb+ were not additive. The K(+)-dependent and Rb(+)-dependent ionic currents had a non-linear relationship with membrane potential: the alkali cations only increased the ionic current when the membrane potential lay above a threshold value. The presence of 1 mM Cs+ did not lead to an increase in the membrane ionic current but it had the effect of inhibiting the membrane ionic current due to either K+ or Rb+. 3. Photosynthetic illumination in the presence of either K+ or Rb+, and weak acids such as acetate, led to a decrease in light-scattering by the cells. This was attributed to the uptake of potassium or rubidium acetate and a corresponding increase in osmotic strength in the cytoplasm. 4. The addition of NH4+ also led to an increase in membrane ionic current and to a decrease in membrane potential (half-maximal at 2.0 mM NH4+). The relationship between the NH4(+)-dependent ionic currents and the membrane potential was similar to that for K+. The NH4(+)-dependent and K(+)-dependent ionic current were not additive. However, illumination in the presence of NH4+ and acetate did not lead to significant light-scattering changes. The NH4(+)-dependent membrane ionic current was inhibited by 1 mM Cs+ but not by 50 microM methylamine. 5. It is proposed that the K(+)-dependent membrane ionic current is catalysed by a low-affinity K(+)-transport system such as that described in Rb. capsulatus [Jasper, P. (1978) J. Bacteriol. 133, 1314-1322]. The possibility is considered that, as well as Rb+, this transport system can also operate with NH4+. However, in our experimental conditions NH4+ uptake is followed by NH3 efflux.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Membrane ionic currents in Rhodobacter capsulatus. Evidence for electrophoretic transport of K+, Rb+ and NH4+. 240 35

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.
...
PMID:Isolation and characterization of a complementary DNA for the nuclear-coded precursor of the beta-subunit of bovine mitochondrial F1-ATPase. 245 29

Previous studies on lipopigment isolated from sheep affected with ceroid lipofuscinosis (Batten's disease) showed that the disease is a lysosomal proteinosis, involving specific storage of peptide(s) that migrate in dodecyl sulfate-polyacrylamide gel electrophoresis with an apparent Mr of 3500. This band is the dominant contributor to the lipopigment mass. When purified total lipopigment proteins were loaded onto a protein sequencer, a dominant sequence was found, identical to the NH2 terminus of the lipid-binding subunit of protein translocating mitochondrial ATP synthase. This sequence was determined to 40 residues and a minimum estimate of 40% made for its contribution to the lipopigment protein mass. The full lipid-binding subunit has physical and chemical properties similar to those of the specifically stored low Mr peptide, which may be the full protein or a large NH2-terminal fragment of it. Lipopigments in the human ceroid lipofuscinoses also contain a major component with similar physical and chemical properties. These and previous results indicate that the genetic lesion in ovine ceroid lipofuscinosis causes an abnormal accumulation of this peptide in lysosomes, i.e. the disease is a proteolipid proteinosis, specifically a lysosomal mitochondrial ATP synthase lipid-binding subunit proteinosis. The analogous human diseases are likely to reflect storage of the same or similar peptides.
...
PMID:Ovine ceroid lipofuscinosis. The major lipopigment protein and the lipid-binding subunit of mitochondrial ATP synthase have the same NH2-terminal sequence. 252 38

The Saccharomyces cerevisiae F1-ATPase beta subunit precursor contains redundant mitochondrial protein import information at its NH2 terminus (D. M. Bedwell, D. J. Klionsky, and S. D. Emr, Mol. Cell. Biol. 7:4038-4047, 1987). To define the critical sequence and structural features contained within this topogenic signal, one of the redundant regions (representing a minimal targeting sequence) was subjected to saturation cassette mutagenesis. Each of 97 different mutant oligonucleotide isolates containing single (32 isolates), double (45 isolates), or triple (20 isolates) point mutations was inserted in front of a beta-subunit gene lacking the coding sequence for its normal import signal (codons 1 through 34 were deleted). The phenotypic and biochemical consequences of these mutations were then evaluated in a yeast strain deleted for its normal beta-subunit gene (delta atp2). Consistent with the lack of an obvious consensus sequence for mitochondrial protein import signals, many mutations occurring throughout the minimal targeting sequence did not significantly affect its import competence. However, some mutations did result in severe import defects. In these mutants, beta-subunit precursor accumulated in the cytoplasm, and the yeast cells exhibited a respiration defective phenotype. Although point mutations have previously been identified that block mitochondrial protein import in vitro, a subset of the mutations reported here represents the first single missense mutations that have been demonstrated to significantly block mitochondrial protein import in vivo. The previous lack of such mutations in the beta-subunit precursor apparently relates to the presence of redundant import information in this import signal. Together, our mutants define a set of constraints that appear to be critical for normal activity of this (and possibly other) import signals. These include the following: (i) mutant signals that exhibit a hydrophobic moment greater than 5.5 for the predicted amphiphilic alpha-helical conformation of this sequence direct near normal levels of beta-subunit import (ii) at least two basic residues are necessary for efficient signal function, (iii) acidic amino acids actively interfere with import competence, and (iv) helix-destabilizing residues also interfere with signal function. These experimental observations provide support for mitochondrial protein import models in which both the structure and charge of the import signal play a critical role in directing mitochondrial protein targeting and import.
...
PMID:Sequence and structural requirements of a mitochondrial protein import signal defined by saturation cassette mutagenesis. 252 45

Bidentate cobalt(III)tetraamine adenosine triphosphate [Co(NH3)4ATP] was investigated as an inhibitor of the beef heart mitochondrial F1-ATPase. The compound was found to have a mixed noncompetitive mechanism with a Ki of 0.4 mM and an alpha of 1.4 during ATP hydrolysis. Co(NH3)4ATP also noncompetitively inhibited ATP hydrolysis in the presence of bicarbonate. ITP hydrolysis was similarly affected. Co(NH3)4ATP was also used in dual inhibitor studies with adenylylimidodiphosphate (AMP-PNP) and azide; it was found to be mutually exclusive with AMP-PNP and azide. The compound also protected the F1 from modification by 4-chloro-7-nitrobenzofurazan. These results are discussed in terms of the regulation of the ATP hydrolysis reaction.
...
PMID:The effect of Co(III)(NH3)4ATP on the kinetics of beef heart mitochondrial ATPase. 285 40

All five subunits of bovine heart mitochondrial F1-ATPase have been isolated by reverse-phase HPLC and NH2-terminal sequences determined by gas phase Edman degradations. Bovine gamma exhibits 16 identities in the first 30 residues compared with the NH2-terminus of gamma from E.coli F1. Bovine delta exhibit about 27% identity with residues 28-59 of precursor delta from N.crassa and in the first six residues is identical with delta from S.cerevisiae. Approximately half of bovine epsilon has been sequenced. Possibly significant sequence similarities exist between bovine gamma and epsilon and kinase-related gene and oncogene products. The bovine alpha subunit has a blocked NH2-terminus.
...
PMID:High performance liquid chromatography purification and amino terminal sequence analysis of the subunits of bovine heart mitochondrial F1-ATPase. 286 28

1 2 3 Next >>