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 a unique and essential requirement of the fungal translational machinery. Non-fungal organisms do not have and do not require a soluble form of the third elongation factor for translation. To test whether non-fungal organisms have a direct analog of EF-3 incorporated in the structure of the ribosomes, a comparison of EF-3 adenosinetriphosphatase (ATPase) with ATPases associated with pig liver ribosomes was carried out. EF-3 function depends on ATP (GTP) hydrolysis. The hydrolytic activity of EF-3 is enhanced by two orders of magnitude by yeast ribosomes due to an increase in the turnover rate of EF-3. The nucleotide hydrolytic activity of EF-3 is significantly constrained by the binding of aminoacylated tRNA(Phe) to poly(U)-programmed ribosomes. The translational inhibitors--neomycin and alpha-sarcin suppress the ATPase activity of EF-3. These results reflect a direct correlation between EF-3 ATPase and the functional state of the ribosome. Four lines of evidence indicate that yeast EF-3 ATPase is functionally distinct from pig liver ribosome associated ATPases. The kinetic parameters of ATPases from these two sources are different. Poly(U) and tRNA have no effect on the ATPase activity associated with the pig liver ribosomes. The latter activity is unaffected by the translational inhibitors neomycin and alpha-sarcin. The translational activity of pig liver ribosomes is not influenced by ATP, ADP or adenosine 5'-[beta, gamma-imido]triphosphate. In an in vitro system, one can demonstrate a small but consistent stimulatory effect of yeast EF-3 on polyphenylalanine synthesis by pig liver ribosomes only when EF-1 alpha is present at a limited concentration. The EF-3 effect disappears when EF-1 alpha is added in a stoichiometric amount to the pig liver ribosomes. This result is in contrast to the yeast system where the ribosomes are completely dependent on EF-3 at all concentrations of EF-1 alpha.
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PMID:Comparative analysis of ribosome-associated adenosinetriphosphatase (ATPase) from pig liver and the ATPase of elongation factor 3 from Saccharomyces cerevisiae. 795 40

We have analyzed the ATPase and dATPase activities associated with the yeast DNA polymerase alpha complex. The ATPase/dATPase was primarily a single-stranded DNA-dependent ATPase. Analysis of the stimulatory effect of a large number of DNA substrates demonstrated that polynucleotides longer than 60 nucleotides (nts) had the maximal effect. The stimulation by oligonucleotides smaller than 60 nts, in general, decreased proportionally with decreased length of the oligomer. Poly- or oligopyrimidines were twice as stimulatory as the poly- or oligopurines of the same length. In addition to DNA, replication protein A (RP-A), a single-stranded DNA (ssDNA) binding protein, also stimulated the ATPase activity. Photo-cross-linking of the ATP binding component of the pol alpha complex to [alpha-32P]ATP at 0 degree C resulted in the exclusive labeling of a 90-kDa polypeptide. The labeling was inhibited by ATP and dATP but not by any other ribo- or deoxynucleotides, which suggest that the 90-kDa polypeptide is specific for ATP/dATP binding and possibly the active site for the ATPase/dATPase. We have also reported here a novel DNA unwinding activity associated with the multiprotein complex of DNA polymerase alpha. The complex was able to unwind M13mp19 ssDNA hybridized to an oligonucleotide (17-60 nucleotides long) with a protruding 3'-terminus. Regardless of the size of the duplex, the DNA unwinding was significantly stimulated by RP-A, while RP-A itself did not have any DNA unwinding activity. Consequently, it appeared that the DNA polymerase alpha complex possessed a putative RP-A-dependent helicase activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of the DNA-dependent ATPase and a DNA unwinding activity associated with the yeast DNA polymerase alpha complex. 838 85

In addition to the two usual eukaryotic elongation factors (EF-1 alpha and EF-2) fungal ribosomes need a third protein, elongation factor 3, for translation. EF-3 is essential for in vivo and in vitro protein synthesis. Functionally, EF-3 stimulates EF-1 alpha dependent binding of aminoacyl-tRNA to the ribosomal A site when E site is occupied by deacylated tRNA. EF-3 has intrinsic ATPase activity which is regulated by the functional state of the ribosome. EF-3 ATPase is activated by both 40S and 60S ribosomal subunits. However intact 80S ribosomes are needed for efficient activation of EF-3 ATPase. EF-3 appears to be an RNA binding protein with high affinity for polynucleotides containing guanosine rich sequences. To determine whether guanosine rich sequence of ribosomal RNA is involved in EF-3 binding, an antisense oligonucleotide dC6 was used to block EF-3 interaction with the ribosome. The oligonucleotide suppresses activation of EF-3 ATPase by 40S ribosomal subunit and not by the 60S or the 80S particles. Poly(U)-directed polyphenylalanine synthesis by yeast ribosomes is inhibited by dC6. To define the binding site of the oligonucleotide and presumably of EF-3 on 18S ribosomal RNA, hydrolysis of rRNA by RNase H was followed in the presence of dC6. These experiments reveal an RNase H cleavage site at 1094GGGGGG1099 sequence of 18S ribosomal RNA. This guanosine rich sequence of rRNA is suggested to be involved in EF-3 binding to yeast ribosome. Data presented in this communication suggest that the activity of EF-3 involved a direct interaction with the guanosine rich sequence of rRNA.
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PMID:Interaction of yeast elongation factor 3 with polynucleotides, ribosomal RNA and ribosomal subunits. 871 1

Differentially expressed cDNA clones were isolated from salt-adapted Aspergillus nidulans (FGSC #359). Poly (A)+ RNA from adapted mycelia was used to construct a lambda Uni-ZAP cDNA library. The library was screened with mixed subtracted cDNA probes. Three-hundred and fifty-seven positive plaques were isolated in the primary screening. Sixty-two randomly selected plaques were purified and placed into eight different cross-hybridization groups. A representative cDNA from each group was used to study expression under unadapted, salt-adapted and salt-shock conditions. These clones, representing eight different genes, displayed enhanced expression under salt stress. Exploratory nucleotide sequencing was performed, and the predicted amino-acid sequence was compared with known gene sequences in the data-bank. Five of the cDNA clones were identified as a mitochondrial (mt) ATPase beta subunit, a mt ATPase subunit 9, a mt transport protein, a ubiquitin-extension protein and a ribosomal protein. Three cDNA clones could not be identified due to lack of adequate homology with known sequences. These results suggest that at least five genes with known function in cellular processes like ATP generation and protein synthesis, and three other genes of unknown identity, are greatly induced in salt-adapted conditions.
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PMID:Isolation of differentially expressed cDNA clones from salt-adapted Aspergillus nidulans. 882 59

The ATPase activity of rat liver 30S-5SRNP particles prepared by EDTA treatment of 80S ribosomes, and that of 40S subunits were investigated in correlation with polypeptide elongation. The ATPase activity of 30S-5SRNP particles was higher than that of 40S subunits. Poly(U) and TMV RNA stimulated the ATPase activity of 30S-5SRNP particles more markedly than that of 40S subunits. These two kinds of particles also showed intrinsic GTPase. Poly(U) enhanced the GTPase activity of 30S-5SRNP particles but not that of 40S subunits. An elongation factor (EF-1alpha, EF-2, or EF-1alphabetagamma) alone or in combination with poly(U) and/or other elongation factors stimulated the ATPase activities of both particles. The extent of stimulation of the ATPase activity by a combination of these components was usually somewhat higher than or similar to the sum of those with the individual components. The extents of stimulation by these components were higher in the case of 30S-5SRNP particles than that of 40S subunits, indicating the importance of the 5SRNP moiety in the former particles. The intactness of 18SrRNA was required for promotion of the ATPase activity of 30S-5SRNP particles by Phe(+), (-)tRNA(Phe). The ATPase activities of the two kinds of particles by themselves or those observed with the combinations of the components mentioned above were inhibited by several kinds of translation inhibitors. The degrees of inhibition were generally higher for 30S-5SRNP particles. The ATPase activity of 40S subunits was enhanced by spermidine, suggesting the importance of the conformational change induced by it. These results imply the participation of the intrinsic ATPase of 30S-5SRNP particles and 40S subunits in polypeptide elongation, and the important role of the 5SRNP moiety of 30S-5SRNP particles in the ATPase activity.
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PMID:ATPase associated with ribosomal 30S-5SRNP particles and 40S subunits of rat liver. 953 6

The Escherichia coli Rho is a transcription termination factor with complex enzymatic properties. Rho is a near-universal prokaryotic transcription factor, but very few non-enteric Rho factors have been studied. The expression and enzymatic activity of Rho from the GC-rich, Gram-negative bacterium Rhodobacter sphaeroides was characterised. Poly(C)-activated ATP hydrolysis, multimerisation and the abundance of the R. sphaeroides Rho were similar to the E. coli Rho. The R. sphaeroides Rho was a DNA:RNA helicase. The R. sphaeroides Rho was unique in Rho factors characterised to date in that it did not interact with the lambdatR1 terminator transcript and ATP hydrolysis was unusually weakly activated by poly(U) RNA. A chimeric Rho (RhoER), with the RNA-binding domain from the E. coli Rho and the ATPase domain of the R. sphaeroides Rho, was activated by RNA co-factors in a similar fashion to the E. coli Rho. The activity of RhoER suggests functional interactions between the N- and C-terminal domains of Rho monomers are highly conserved between Rho factors. The main differences between Rho factors from different bacteria is in the specificity of RNA binding although this does not appear to be necessarily dependent on the GC bias of target RNA as has been previously suggested.
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PMID:Characterisation of the enzymatic and RNA-binding properties of the Rhodobacter sphaeroides 2.4.1. Rho homologue. 1039 24

The RNA-stimulated nucleoside triphosphatase (NTPase) and helicase of hepatitis C virus (HCV) consists of three domains with highly conserved NTP binding motifs located in the first domain. The ATP-binding domain was obtained by limited proteolysis of a greater fragment of the HCV polyprotein, and it was purified to homogenity by column chromatography. The identity of the domain, comprising amino acids 1203 to 1364 of the HCV polyprotein, was confirmed by N- and C-terminal sequencing and by its capability to bind 5'-fluorosulfonylbenzoyladenosine (FSBA). The analyses of the kinetics of ATP binding revealed a single class of binding site with the Kd of 43.6 microM. The binding is saturable and dependent on Mn2+ or Mg2+ ions. Poly(A) and poly(dA) show interesting properties as regulators of the ATP-binding capacity of the domain. Polynucleotides bind to the domain and enhance its affinity for ATP. In addition, ATP enhances the affinity of the domain for the polynucleotides. Different compounds, which are known to interact with nucleotide binding sites of various classes of enzymes, were tested for their ability to inhibit the binding of ATP to the domain. Of the compounds tested, two agents behaved as inhibitors: paclitaxel, which inhibits the ATP binding competitively (IC50 = 22 microM), and trifluoperazine, which inhibits the ATP binding by a noncompetitive mechanism (IC50 = 98 microM). Kinetic experiments with the NTPase/helicase indicate that both compounds inhibit the NTPase activity of the holoenzyme by interacting with its ATP-binding domain.
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PMID:Biochemical properties of a minimal functional domain with ATP-binding activity of the NTPase/helicase of hepatitis C virus. 1058 65

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

Poly-unsaturated fatty acids, especially of the n-3 series, have a beneficial effect in treatment of osteoporosis in the elderly. Duodenal calcium absorption is a particularly vulnerable aspect of the development of this disease. It has been shown that the process of calcium transport through the rat duodenal enterocyte takes place in essentially three steps: entry of calcium through channels in the brush border (apical membrane), transcellular transport through the cytoplasm by calbindin and extrusion at the basolateral membrane by Ca(2+)-ATPase and a Ca(2+)-Na(+)exchanger which is driven by Na(+), K(+)-ATPase. This paper presents a hypothesis that poly-unsaturated fatty acids can modulate both Ca(2+)-ATPase and Na(+), K(+)-ATPase activity either by a direct action on the enzyme or by phosphorylation processes via protein kinases A and C and thus exert their positive influence on calcium absorption in this manner.
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PMID:Upregulation of duodenal calcium absorption by poly-unsaturated fatty acids: events at the basolateral membrane. 1138 82

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