UNIPROT:Q96FX7 - FACTA Search

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Query: UNIPROT:Q96FX7 (tRNA)
26,753 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The procedure for isolating aminoacyl-tRNA-synthetases from yeast Candida utilis IBPM-405 was developed. The rate of activation of L-amino acids in the formation of hydroxamates was different. Aspartic acid, asparagine, glutamic acid, tryptophane, phenyl alanine and methionine underwent the highest activation. The activation of alanine, arginine, hydroxyproline, serine and isoleucine was insignificant. Using aspartic acid, it was shown that the hydroxamate formation was ATP-stimulated and that the amount of hydroxamate increased with a rise of the protein concentration in the mixture to 9-10 mg/ml. The hydroxamate formation was inhibited by p-chloromercury-benzoate and heavy metal ions. Yeast aminoacyl-tRNA-synthetases showed L-aspartic and L-glutamic activities that were independent from Mg++ ions and ATP.
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PMID:[Activation of L-amino acids by aminoacyl-tRNA-synthetases from yeast Candida utilis IBPM-405]. 0 29

A compound tentatively identified as O2-methyl-5-carboxymethyluridine (cm5Um) was recently isolated in this laboratory from bulk yeast transfer RNA (Gray, M. W. (1975), Can, J. Biochem. 53, 735-746). Alkaline hydrolysis of yeast tRNA releases this nucleoside as part of an alkali-stable dinucleotide, cm5Um-Ap, from which sufficient cm5Um was prepared in the present investigation for a detailed examination of its properties. The ultraviolet absorption spectra and chromatographic and electrophoretic properties of cm5Um were consistent with the proposed structure, which was confirmed by characterization of the base and sugar moieties as 5-carboxymethyluracil and 2-O-methylribose, respectively. Snake venom hydrolysis of yeast tRNA releases cm5Um in the form of a carboxyl-blocked 5'-nucleotide, designated pU-2. Identification of the alkali-labile blocking group in pU-2 as an amide was based on quantitative assay for ammonia released upon acid hydrolysis of the corresponding nucleoside, U-2, and by chromatographic comparison of U-2 with the semisynthetic methyl ester and amide derivatives of cm5Um (mcm5Um and ncm5Um, respectively). Quantitative analysis has indicated that ncm5Um may be confined to a single species of yeast tRNA. In view of the unique localization (the "Wobble" position of the anticodon sequence) and coding properties (pairing with A but not with G) of other cm5U derivatives in transfer RNA, the dinucleotide cm5Um-Ap may be derived from the first two positions of the anticodon sequence of a yeast tRNA species recognizing an NUA codon. This predicts that O2-methyl-5-carbamoylmethyluridine will be found in an isoleucine, leucine, or valine isoacceptor.
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PMID:Structural analysis of O2'-methyl-5-carbamoylmethyluridine, a newly discovered constituent of yeast transfer RNA. 0 80

Kinetic studies have been performed on the "family" of aminoacyl synthetases from calf liver. All assays were based on the esterification of amino acids to tRNA. Optimized reaction conditions for each synthetase are reported. Most of the synthetases show hyperbolic kinetics with respect to both amino acid and tRNA concentration, however a few show sigmoidal kinetics with respect to one substrate. Arginine, methionine and proline synthetases show sigmoidal kinetics with respect to mixed tRNA solutions and have Hill coefficients of 1.30, 1.10 and 1.20 respectively. Alanine and isoleucine synthetases show sigmoidal kinetics with respect to amino acid concentration and have Hill coefficients of 1.21 and 1.40 respectively.
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PMID:Aminoacyl-tRNA synthetases from calf liver: optimized assay conditions and kinetic properties. 2 May 69

Because of previous data suggesting that aminoacyl-tRNA synthetases make a transient Michael adduct with a specific uridine residue in the tRNA structure, (Schoemaker, H.J.P., and Schimmel, P.R. (1977) Biochemistry 16, 5454-5460) attempts were made to find simple model systems in which this reaction might be studied in more detail. In the course of these investigations, it was found that Escherichia coli Ile-tRNA synthetase catalyzes cleavage of the glycosidic bond of 5-bromouridine. At pH 7.5, ambient temperatures, the turnover number is roughly 5/h. 5-Fluoro-, 5-chloro-, and 5-iodouridine are also cleaved in an analogous way by Ile-tRNA synthetase. In the case of uridine, conversion of uridine to uracil and ribose was also detected, but with a smaller turnover number. Three other E. coli and one mammalian aminoacyl-tRNA synthetases were also examined and all were found to catalyze glycosidic bond cleavage of 5-bromouridine. The data indicate that, in general, synthetases have a catalytic center that shows an unusual reactivity for uridine.
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PMID:Aminoacyl-tRNA synthetase-catalyzed cleavage of the glycosidic bond of 5-halogenated uridines. 4 Sep 93

We have isolated temperature resistant revertants from temperature sensitive E. coli strains containing either a thermolabile glutaminyl-tRNA synthetase or leucyl-tRNA synthetase. Among the revertants which still contained the thermolabile leucyl-tRNA synthetase we found two classes of regulatory mutants (leuX and leu Y) which have elevated levels of this enzyme. The leuX mutation specifies an operator-promoter region adjacent to the structural gene (leuS) for the enzyme. The leuY gene maps away from the leuS gene and codes for a protein. Using these mutants we demonstrated that the levels of leucyl-tRNA are related to the derepression of the leucine and isoleucine-valine operons. Among the revertants which still contained the thermolabile glutaminyl-tRNA synthetase were characterized three classes of mutants, glnT, glnU, and glnR. The glnT and glnU mutants contain elevated levels of tRNAgln, while the glnR mutant possesses elevated levels of glutaminyl-tRNA synthetase. The level of glutamine synthetase, the enzyme responsible for the formation of glutamine, is also derepressed in the glnT and glnR mutants.
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PMID:Regulation of biosynthesis of aminoacyl-transfer RNA synthetases and of transfer-RNA in Escherichia coli. 4 19

Formation of binary and ternary enzyme-ligand complexes was investigated for amino acid:tRNA ligases specific for L-isoleucine, L-leucine, and L-phenylalanine. Each of the enzymes exhibited synergistic binding when a substrate was substituted by a structurally related compound. The strength of coupling between the sites binding the amino acid and ATP was strongly dependent on the structure of ligands. The phenomenon was observed with the L-leucine and L-phenylalanine-specific enzymes only in the presence of magnesium. Spermine was inhibitory for L-phenylalanine:tRNA ligase. From the variation which structure of the strength of the observed synergism a correlation scheme was derived considering the ammonium group, the carboxylate group and the side chain of the amino acid, and the adenosine and triphosphate moieties of ATP. The strength of coupling between the subsites binding various combinations of these moieties was evaluated. We found that binding of the subgroups of the amino acid exerts an intramolecular synergism. The strength intramolecular synergism was similar to the strength of the intermolecular synergism observed for the simultaneous binding of an amino alcohol and ATP (or MgATP-2-). We have derived a molecular mechanism for the formation of the ternary enzyme-amino acid-ATP (or MgATP-2-) complex taking into account the synergistic phenomena. The complex is considered to involve electrostatic repulsion between the amino acid carboxylate and the ATP triphosphate moieties. When one of the negatively charged groups have been eliminated, the enzymatic rearrangement which facilitates the formation of this complex may be seen as a synergistic coupling.
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PMID:The catalytic mechanism of amino acid:tRNA ligases. Synergism and formation of the ternary enzyme-amino acid-ATP complex. 16 59

Isoleucyl-tRNA formation and isoleucine-dependent PPi-ATP exchange catalyzed by purified isoleucyl-tRNA synthetase [EC 6.1.1.5] of Escherichia coli were studied in the presence of various amounts of either Mg2+, Ca2+, Fe2+, Ni2+, or Cu2+. In the presence of Mg2+, isoleucine-dependent PPi-ATP exchange was observed in parallel with isoleucyl-tRNA formation, while in the presence of Ca2+, isoleucyl-tRNA formation was observed without isoleucine-dependent PPi-ATP exchange. Moreover, isoleucine-dependent PPi-ATP exchange was much more in the presence of Fe2+ than in the presence of Mg2+, while little isoleucyl-tRNA was formed in the presence of Fe2+. In the presence of Ni2+ or Cu2+, neither reaction was observed. These data, indicating that formation of an isoleucyl-AMP-enzyme complex is not a necessary step in isoleucyl-tRNA formation, support the existence of a concerted mechanism of isoleucyl-tRNA formation in E. coli.
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PMID:Aminoacyl transfer RNA formation. VII. Lack of correlation between aminoacylation and PPi-ATP exchange catalyzed by isoleucyl-tRNA synthetase of Escherichia coli in the presence of various divalent cations. 18

The initial velocity and the extent of aminoacylation are affected by sodium chloride in the lupin aminoacylation systems involving serine, isoleucine, lysine, leucine, phenylalanine and valine. Pyrophosphorolysis and enzymatic hydrolysis of [14C]Val-tRNA catalysed by lupin valyl-tRNA synthetase are inhibited by sodium chloride nearly to the same extent. Evidence is presented that when a limiting amount of synthetase is used, the equilibrium of the aminoacylation reaction in the lupin valine system is determined only by the rate of aminoacylation and non-enzymatic deacylation of aminoacyl-tRNA, the former but not the latter reaction being dependent on concentration of the enzyme and monovalent salt.
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PMID:The plant aminoacyl-tRNA synthetases. Effect of sodium chloride on tRNA aminoacylation and aminoacyl-tRNA decomposition catalysed by aminoacyl-tRNA synthetases from yellow lupin seeds. 19 27

Thiaisoleucine is an isoleucine analogue having the gamma-methylene group of the valerianic carbon chain substituted by a sulphur atom. It has been demonstrated that thiaisoleucine is activated and transferred to tRNAIle by rat liver aminoacyl-tRNA synthetase and inhibits isoleucine incorporation into polypeptides in protein synthesizing systems from rat liver or rabbit reticulocytes, whereas it does not affect either leucine incorporation or ribosome run-off or polypeptide chain elongation rate. All tests were performed in comparison with O-methyl-threonine, an isoleucine analogue with the gamma-methylene group substituted by an oxygen atom. In all the reactions studied, both thiaisoleucine and O-methyl-threonine act as competitive inhibitors of isoleucine. With respect to O-methyl-threonine, thiaisoleucine shows higher activity as an isoleucine inhibitor.
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PMID:Thiaisoleucine and protein synthesis. 21 36

Comparison of the human mitochrondial DNA sequence of the cytochrome oxidase subunit II gene and the sequence of the corresponding beef heart protein shows that UGA is used as a tryptophan codon and not as a termination codon and suggests that AUA may be a methionine and not an isoleucine codon. The cytochrome oxidase II gene is contiguous at its 5' end with a tRNAAsp gene and there are only 25 bases at its 3' end before a tRNALys gene. These tRNA'S are different from all other known tRNA sequences.
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PMID:A different genetic code in human mitochondria. 22 94

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