EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Elongation-factor-3 (EF-3) is an essential factor of the fungal protein synthesis machinery. In this communication the structure of EF-3 from Saccharomyces cerevisiae is characterized by differential scanning calorimetry (DSC), ultracentrifugation, and limited tryptic digestion. DSC shows a major transition at a relatively low temperature of 39 degrees C, and a minor transition at 58 degrees C. Ultracentrifugation shows that EF-3 is a monomer; thus, these transitions could not reflect the unfolding or dissociation of a multimeric structure. EF-3 forms small aggregates, however, when incubated at room temperature for an extended period of time. Limited proteolysis of EF-3 with trypsin produced the first cleavage at the N-side of Gln775, generating a 90-kDa N-terminal fragment and a 33-kDa C-terminal fragment. The N-terminal fragment slowly undergoes further digestion generating two major bands, one at approximately 75 kDa and the other at approximately 55 kDa. The latter was unusually resistant to further tryptic digestion. The 33-kDa C-terminal fragment was highly sensitive to tryptic digestion. A 30-min tryptic digest showed that the N-terminal 60% of EF-3 was relatively inaccessible to trypsin, whereas the C-terminal 40% was readily digested. These results suggest a tight structure of the N-terminus, which may give rise to the 58 degrees C transition, and a loose structure of the C-terminus, giving rise to the 39 degrees C transition. Three potentially functional domains of the protein were relatively resistant to proteolysis: the supposed S5-homologous domain (Lys102-Ile368), the N-terminal ATP-binding cassette (Gly463-Lys622), and the aminoacyl-tRNA-synthase homologous domain (Glu820-Gly865). Both the basal and ribosome-stimulated ATPase activities were inactivated by trypsin, but the ribosome-stimulated activity was inactivated faster.
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PMID:Domain structure analysis of elongation factor-3 from Saccharomyces cerevisiae by limited proteolysis and differential scanning calorimetry. 986 54

Mutations in the tRNA genes of mitochondrial DNA (mtDNA) cause the debilitating MELAS (mitochondrial, myopathy, encephalopathy, lactic acidosis and stroke-like episodes) and MERRF (myoclonic epilepsy and ragged-red fibres) syndromes. These mtDNA mutations affect respiratory chain function, apparently without decreasing cellular ATP concentration [Moudy et al. (1995) PNAS, 92, 729-733]. To address this issue, we investigated the role of mitochondrial ATP synthesis in fibroblasts from MELAS and MERRF patients. The maximum rate of mitochondrial ATP synthesis was decreased by 60-88%, as a consequence of the decrease in the proton electrochemical potential gradient of MELAS and MERRF mitochondria. However, in quiescent fibroblasts neither ATP concentration or the ATP/ADP ratio was affected by the lowered rate of ATP synthesis. We hypothesized that the low ATP demand of quiescent fibroblasts masked the mitochondrial ATP synthesis defect and that this defect might become apparent during higher ATP use. To test this we simulated high energy demand by titrating cells with gramicidin, an ionophore that stimulates ATP hydrolysis by the plasma membrane Na+/K+-ATPase. We found a threshold gramicidin concentration in control cells at which both the ATP/ADP ratio and the plasma membrane potential decreased dramatically, due to ATP demand by the Na+/K+-ATPase outstripping mitochondrial ATP synthesis. In MELAS and MERRF fibroblasts the corresponding threshold concentrations of gramicidin were 2-20-fold lower than those for control cells. This is the first demonstration that cells containing mtDNA mutations are particularly sensitive to increased ATP demand and this has several implications for how mitochondrial dysfunction contributes to disease pathophysiology. In particular, the increased susceptibility to plasma membrane depolarization will render neurons with dysfunctional mitochondria susceptible to excitotoxic cell death.
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PMID:Decreased ATP synthesis is phenotypically expressed during increased energy demand in fibroblasts containing mitochondrial tRNA mutations. 991 28

Elongation factor 3 (EF-3) is a unique and essential requirement of the fungal translational apparatus. EF-3 is a monomeric protein with a molecular mass of 116,000. EF-3 is required by yeast ribosomes for in vitro translation and for in vivo growth. The protein stimulates the binding of EF-1 alpha :GTP:aa-tRNA ternary complex to the ribosomal A-site by facilitating release of deacylated-tRNA from the E-site. The reaction requires ATP hydrolysis. EF-3 contains two ATP-binding sequence motifs (NBS). NBSI is sufficient for the intrinsic ATPase function. NBSII is essential for ribosome-stimulated activity. By limited proteolysis, EF-3 was divided into two distinct functional domains. The N-terminal domain lacking the highly charged lysine blocks failed to bind ribosomes and was inactive in the ribosome-stimulated ATPase activity. The C-terminally derived lysine-rich fragment showed strong binding to yeast ribosomes. The purported S5 homology region of EF-3 at the N-terminal end has been reported to interact with 18S ribosomal RNA. We postulate that EF-3 contacts rRNA and/or protein(s) through the C-terminal end. Removal of these residues severely weakens its interaction mediated possibly through the N-terminal domain of the protein.
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PMID:Functional interaction of yeast elongation factor 3 with yeast ribosomes. 1021 51

Import of tRNA into Leishmania mitochondria involves transfer through a double membrane barrier. To examine whether specific sorting mechanisms for individual tRNAs direct them to different mitochondrial compartments, the distribution of tRNA transcripts, internalized in vitro, was examined by suborganellar fractionation. Significant amounts of tRNA(Tyr) were localized in the matrix and on the outer face of the inner mitochondrial membrane. With time, the matrix:membrane ratio increased. Translocation through the inner membrane apparently required the presence of a specific signal in the D arm of tRNA(Tyr), and tRNA(Gln)(CUG), lacking this sequence, was excluded. Hydrolysis of ATP was necessary at both the outer and inner membranes. However, the protonophores carbonylcyanide m-chlorophenylhydrazone and nigericin, the K(+) ionophore valinomycin, and the F(1)F(0) ATPase inhibitor oligomycin had only marginal effects on uptake through the outer membrane but severely inhibited inner membrane translocation, indicating the unusual requirement of both the electrical and chemical components of the electromotive force generated across the inner membrane. The results are consistent with a mechanism involving stepwise transfer of tRNA through distinct outer and inner membrane channels.
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PMID:Stepwise transfer of tRNA through the double membrane of Leishmania mitochondria. 1053 21

The sequence of a 281-kbp contig from the crenarchaeote Sulfolobus solfataricus P2 was determined and analysed. Notable features in this region include 29 ribosomal protein genes, 12 tRNA genes (four of which contain archaeal-type introns), operons encoding enzymes of histidine biosynthesis, pyrimidine biosynthesis, and arginine biosynthesis, an ATPase operon, numerous genes for enzymes of lipopolysaccharide biosynthesis, and six insertion sequences. The content and organization of this contig are compared with sequences from crenarchaeotes, euryarchaeotes, bacteria, and eukaryotes.
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PMID:Gene content and organization of a 281-kbp contig from the genome of the extremely thermophilic archaeon, Sulfolobus solfataricus P2. 1070 Nov 21

Mutations in the PMA1 gene, encoding plasma membrane H+ -ATPase, were isolated that are able to suppress the temperature sensitivity (ts) phenotype of mdp1 mutations located in RSP5, the ubiquitin-protein ligase gene. The mdp1 mutants were previously found to change the mitochondrial/cytosolic distribution of Mod5p-I, the tRNA modifying enzyme, and to affect fluid phase endocytosis. The data presented reveal that mdp1 mutants are also pH sensitive, and hypersensitive to hygromycin B and paromomycin. The ts phenotype, hygromycin B and paromomycin sensitivity are suppressed by pmal-t, but the pH sensitivity, the effect of mdp1 on Mod5p-I cytoplasmic/mitochondrial localization and endocytosis are not. Characterization of pmal-t revealed the substitution of amino acid G(653)V in the ATP-binding domain of the H+ -ATPase. Our results indicate that Rsp5 ubiquitin-protein ligase may also influence, in addition to protein distribution, the functioning of plasma membrane H+ -ATPase and the response of cells to stress.
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PMID:The growth of mdp1/rsp5 mutants of Saccharomyces cerevisiae is affected by mutations in the ATP-binding domain of the plasma membrane H+ -ATPase. 1072 5

The properties and role in peptide elongation of ATPase intrinsic to rat liver ribosomes were investigated. (i) Rat liver 80S ribosomes showed high ATPase and GTPase activities, whereas the GTPase activity of EF-1alpha and EF-2 was very low. mRNA, aminoacyl-tRNA, and elongation factors alone enhanced ribosomal ATPase activity and in combination stimulated it additively or synergistically. The results suggest that these translational components induce positive conformational changes of 80S ribosomes by binding to different regions of ribosomes. Translation inhibitors, tetracyclin and fusidic acid, inhibited ribosomal ATPase with or without elongational components. (ii) Two ATPase inhibitors, AMP-P(NH)P and vanadate, did not inhibit GTPase activities of EF-1alpha and EF-2 assayed as uncoupled GTPase, but they did inhibit poly(U)-dependent polyphe synthesis of 80S ribosomes. (iii) Effects of AMP-P(NH)P and ATP on poly(U)-dependent polyphe synthesis at various concentrations of GTP were examined. ATP enhanced the activity of polyphe synthesis even at high concentrations of GTP, suggesting a specific role of ATP. At low concentrations of GTP, the extent of inhibition by AMP-P(NH)P was very low, probably owing to the prevention of the reduction of the GTP concentration. (iv) Vanadate inhibited the translocation reaction by high KCl-washed polysomes. These findings together indicate that ribosomal ATPase participates in peptide translation by inducing positive conformational changes of mammalian ribosomes, in addition to its role of chasing tRNA from the E site.
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PMID:Some properties and the possible role of intrinsic ATPase of rat liver 80S ribosomes in peptide bond elongation. 1073 88

Elongation factor 3 (EF-3) is an ATPase essential for polypeptide chain synthesis in a variety of yeasts and fungi. We used limited proteolysis to study the organization of the subdomains of EF-3. Trypsinolysis of EF-3 at 30 degrees C resulted in the formation of three fragments with estimated molecular masses of 90, 70, and 50 kDa. Yeast ribosomes protected EF-3 and the large fragments from further degradation. ATP exposed a new tryptic cleavage site and stabilized the 70- and 50-kDa fragments. The conformation of EF-3 as measured by fluorescence spectroscopy did not change upon ATP binding. Poly(G) stimulated proteolysis and quenched the intrinsic fluorescence of EF-3. Using gel mobility shift, we demonstrated a direct interaction between EF-3 and tRNA. Neither tRNA nor rRNA altered the tryptic cleavage pattern. The proteolytic products were sequenced by mass spectrometric analysis. EF-3 is blocked NH(2)-terminally by an acetylated serine. The 90-, 70-, and 50-kDa fragments are also blocked NH(2)-terminally, confirming their origin. The 50-kDa fragment (Ser(2)-Lys(443)) is the most stable domain in EF-3 with no known function. The 70-kDa fragment (Ser(2)-Lys(668)) containing the first nucleotide-binding sequence motif forms the core ATP binding subdomain within the 90-kDa domain. The primary ribosome binding site is located near the loosely structured carboxyl-terminal end.
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PMID:Limited proteolysis of yeast elongation factor 3. Sequence and location of the subdomains. 1074 94

Treatment of 30S-5SRNP with 1 M Cs(2)SO(4) at 2 degrees C overnight followed by sucrose density-gradient centrifugation yielded particles smaller than 30S-5SRNP, designated as CsS-particles. CsCl density-gradient centrifugation of CsS-particles showed the homogeneity of the particles containing about half the amount of proteins in 30S-5SRNP particles. The particles contained 18SrRNA, 5SRNP and about half the number of proteins in 30S-5SRNP. The ATPase activity of freshly prepared CsS-particles was about half the original 30S-5SRNP level although it was unstable even at 2 degrees C. Poly(U) slightly enhanced the activity, and phe-tRNA(phe) stimulated it concentration-dependently. EF-1a alone enhanced it, and in combination with poly(U) and phe-tRNA(phe) stimulated it markedly. EF-2 alone markedly increased it. The activity with the full components for elongation described above became very high, being comparable to that of the original 30S-5SRNP and twice that of 40S subunits. A two-dimensional electrophoretogram of the protein in CsS-particles revealed 9 small subunit protein species, in addition to L5, which included proteins interacting with mRNA and two elongation factors. Taken together with the results of our preceding study indicating the participation of ATPase of 80S ribosomes in peptide elongation, the present results indicate CsS-particles may be a part of the ATPase centre of 80S ribosomes.
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PMID:An ATPase center of rat liver 30S-5SRNP particles. 1087 52

The relative rates of change for eight sets of ubiquitous proteins were determined by a test in which anciently duplicated paralogs are used to root the universal tree and distances are calculated between each taxonomic group and the last common ancestor. The sets included ATPase subunits, elongation factors, signal recognition particle and its receptor, three sets of tRNA synthetases, transcarbamoylases, and an internal duplication in carbamoyl phosphate synthase. In each case phylogenetic trees were constructed and the distances determined for all pairs. Taken over the period of time since their last common ancestor, average evolutionary rates are remarkably similar for Bacteria and Eukarya, but Archaea exhibit a significantly slower average rate.
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PMID:Determining the relative rates of change for prokaryotic and eukaryotic proteins with anciently duplicated paralogs. 1094 74

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