EC:6.1.1.10 - FACTA Search

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Query: EC:6.1.1.10 (methionyl-tRNA synthetase)
387 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Treatment of Escherichia coli formylmethionine tRNA with 2 M sodium bisulfite, pH 7.0, in 10 mM MgCl2 at 25 degrees results in formation of uridine/bisulfite adducts at U18 in the dihydrouridine loop, U37 in the anticodon, and U48 in the variable loop. Two products, corresponding to the two diastereoisomers of 5,6-dihydrouridine-6-sulfonate, are formed at each reactive site in the tRNA. Although none of the modifications cause complete loss of methionine acceptor activity, the modified tRNA is amino-acylated at a reduced rate and has a decreased affinity for E. coli methionyl-tRNA synthetase. Aminoacylation of [35S]bisulfite-labeled tRNAfMet with a limiting amount of purified enzyme followed by separation of the acylated and unacylated molecules and structural analysis has shown that the presence of a specific diastereoisomer of the uridine/bisulfite adduct in the anticodon base U37 alters the kinetic parameters for aminoacylation of tRNAfMet.
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PMID:Alteration of the kinetic parameters for aminoacylation of Escherichia coli formylmethionine transfer RNA by modification of an anticodon base. 1 33

Cysteinyl- and methionyl-tRNA synthetases (EC 6.11.-) were purified 1200- and 1000-fold, respectively, from sonic extracts of Paracoccus denitrificans strain 8944, and kinetics, substrate specificity and regulatory properties were determined using the ATP-PPi exchange reaction. Both enzymes had pH optima of approx. 8 and were inhibited by sulphydryl-group reagents. Cysteinyl-tRNA synthetase catalysed L-selenocysteine- and alpha-aminobutyric acid-dependent ATP-PPi exchange and methionyl-tRNA synthetase catalysed L-homocysteine-, L-selenomethionine- and norleucine-dependent ATP-PPi exchange. Both enzymes were inhibited by O-acetylserine. Cysteinyl-tRNA synthetase activity was stimulated by methionine and methionyl-tRNA synthetase activity was stimulated by sulphide, cysteine, and cysteic acid.
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PMID:Sulphur metabolism in Paracoccus denitrificans. Purification, properties and regulation of cysteinyl-and methionyl-tRNA synthetase. 1 93

Methionyl-tRNA synthetase from Escherichia coli can react with periodate-treated tRNA to form a Schiff's base through the epsilon-amino group of a lysine within the enzymic active center and the 2',3'-aldehyde groups created at the 3'-terminal ribose of tRNA. At alkaline pH, the Schiff's base equilibrium can be continuously and specifically displaced by reduction in situ with sodium cyanohydridoborate, which on the other hand leaves intact the reacting aldehyde groups of oxidized tRNA. The effects of temperature, pH and of reducing agent concentration on the rate and extent of reduction of the Schiff's base are analysed. Conditions are described (37 degrees C, pH 8.0, in the presence of 1 mM cyanohydridoborate) which allowed rapid and complete conversion of the monomeric trypsin-modified methionyl-tRNA synthetase into its 1:1 covalent complex with tRNAfMet.
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PMID:Complete inactivation and labeling of methionyl-tRNA synthetase by periodate-treated initiator tRNA in the presence of sodium cyanohydridoborate. 4 39

To elucidate subtle functions of transfer ribonucleic acid (tRNA) modifications in protein synthesis, pairs of tRNA's that differ in modifications at specific positions were prepared from Bacillus subtilis. The tRNA's differ in modifications in the anticodon loop, the extra arm, and the TUC loop. The functional properties of these species were compared in aminoacylation, as well as in initiation and peptide bond formation, at programmed ribosomes. These experiments demonstrated the following. (i) In tRNA(f) (Met) the methylation of guanosine 46 in the extra arm to 7-methylguanosine by the 7-methylguanosine-forming enzyme from Escherichia coli changes the aminoacylation kinetics for the B. subtilis methionyl-tRNA synthetase. In repeated experiments the V(max) value is decreased by one-half. (ii) tRNA(f) (Met) species with ribothymidine at position 54 (rT54) or uridine at position 54 (U54) were obtained from untreated or trimethoprim-treated B. subtilis. The formylated fMet-tRNA(f) (Met) species with U54 and rT54, respectively, function equally well in an in vitro initiation system containing AUG, initiation factors, and 70s ribosomes. The unformylated Met-tRNA(t) (Met) species, however, differ from each other: "Met-tRNA(f) (Met) rT" is inactive, whereas the U54 counter-upart effectively forms the initiation complex. (iii) Two isoacceptors, tRNA(1) (Phe) and tRNA(2) (Phe), were obtained from B. subtilis. tRNA(1) (Phe) accumulates only under special growth conditions and is an incompletely modified precursor oftRNA(2) (Phe): in the first position of the anticodon, guanosine replaces Gm, and next to the 3' end of the anticodon (isopentenyl)adenosine replaces 2-thiomethyl-N(6)-(isopentenyl)adenosine. Both tRNA's behave identically in aminoacylation kinetics. In the factor-dependent AUGU(3)-directed formation of fMet-Phe, the undermodified tRNA(1) (Phe) is always less efficient at Mg(2+) concentrations between 5 and 15 mM than its mature counterpart.
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PMID:Function of modified nucleosides 7-methylguanosine, ribothymidine, and 2-thiomethyl-N6-(isopentenyl)adenosine in procaryotic transfer ribonucleic acid. 11 45

Adenosine and 8-aminoadenosine, both competitive inhibitors of ATP-Mg2+ in the ATP-PPi exchange reaction catalyzed by methionyl-tRNA synthetase, are used to investigate the active center for methionyl-adenylate formation. Resolution of the kinetics parameters of the reaction indicates that methionine markedly enhances the affinity of the nucleosides for the enzyme, providing evidence for coupling between the sites for amino acid and the nucleoside moiety of ATP. Furthermore, occupation of both of these sites is a prerequisite for binding of pyrophosphate. Introduction of an amino group in position 8 of the adenine ring strongly increases the affinity constants for the nucleoside and for pyrophosphate in the coupled reactions described above.
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PMID:The mechanism of action of methionyl-tRNA synthetase from Escherichia coli. Inhibition by adenosine and 8-aminoadenosine of the amino-acid activation reaction. 16 70

Methioninyl adenylate is a specific and potent inhibitor of the enzyme methionyl-tRNA synthetase and, consequently, of protein biosynthesis. In cultures of chick embryo fibroblasts infected with Rous sarcoma virus, incubation for a 2-day period with 1 to 3 mM concentrations of this inhibitor, as late as 4 days after infection, irreversibly prevented subsequent formation of foci of transformed cells. Later addition could also elicit the irreversible disappearance of already existing foci, by phenotypic reversion and/or cell killing. Virus production in transformed cells and replication in newly infected cells were also inhibited but to a lesser degree. Under the same conditions, the same concentrations of methioninyl adenylate caused only a reversible growth arrest of normal cells. The selective toxicity of the inhibitor for transformed cells is not due to a greater affinity for the target enzyme, but it may be due to the fact that inhibition of protein biosynthesis is only partially reversible in these cells, whereas it is fully reversible in normal cells.
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PMID:Inhibition by methioninyl adenylate of focus formation by Rous sarcoma virus. 17 26

The 133,000 X g supernatant fraction prepared from ascites cells in 20 mM KCl (low CKl supernatant) contained the initiation factors EIF-1 and EIF-2 (and the elongation factore EF-1 and EF-2) but lacked EIF-3; thus, low KCl supernatant could be used to assay for EIF-3. EIF-3 was prepared from a crude initiation factor perparation (a 250 mM KCl extract of ascites cell ribosomes precipitated with 70% saturated ammonium sulfate) by chromatography on DEAE-Sephadex A-50 and hydroxylapatite. The EIF-O had no detectable EIF-1 and little or no EIF-2. Factor EIF-3 was required fro translation of encephalomyocarditis virus RNA. The molecular weight of EIF-3 was estimated by Sephadex G-200 filtration to be 139,000; the sedimentation coefficient was calculated to be about 5.8. EIF-3 formed a binary complex specifically with the initiator tRNA, Met-tRNAf, and if GTP was present the factor formed a ternary complex (EIF-3-Met-tRNAf-GTP). The EIF-3 preparation had no methionyl-tRNA synthetase activity to account for binding. Complex-formation was with eukaryotic Met-tRNAf and no other aminoacyl-tRNA. The binary and ternary complexes were retained quantitatively on Millipore filters (which was the most convenient assay), but they could also be demonstrated by filtration through Sephadex G-100 or by glycerol gradient centrifugation. GTP increased the rate, the amount, and the stability of complex formed; the ration of GTP to Met-tRNAf in the ternary complex appeared to be 1. The binary and the ternary complexes transferred Met-tRNAf to the 40 S ribosomal subunits, but not to 60 S subparticles. The factor-dependent binding of Met-tRNAf to the 40 S subunit did not require mRNA (or GTP). In the presence of 60 S subunits, the initiator tRNA bound to 40 S subunits was not transferred to 80 S ribosomes even if mRNA was added--that reaction may require another initiation factor. Treatment of EIF-3 with N-ethylmaleimide led to loss of its activity in complex formation and in support of the translation of encephalomyocarditis virus RNA. In addition to forming the binary and ternary complexes, and supporting the translation of encephalomyocarditis virus RNA, EIF-3 also increases the number of free ribosomal subunits by either preventing their association or causing dissociation of 80 S couples.
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PMID:Preparation and characterization of eukaryotic initiation factor EIF-3. Formation of binary (EIF-3-Met-tRNAf) and ternary (EIF-3-Met-tRNAf-GTP) complexes. 17 48

Native dimeric methionyl-tRNA synthetase and its monomeric proteolytic fragment are shown to form and to bind 1 mol of methyionyl adenylate per polypeptide chain. Moreover, at 25 degrees C, each monomer of the dimeric native enzyme behaves independently, exhibiting the same parameters for the methionine activation reaction as does the monomeric modified enzyme. These results were obtained using several independent methods including equilibrium and nonequilibrium dialysis, active site and tryptophan fluorescence titrations, and stopped-flow by fluorescence. Stopped-flow resolution of the reversible methionine activation reaction also demonstrates that methionine and ATP-Mg2+ react without coupling to form a ternary enzyme-methionine-ATP-Mg2+ complex. This complex readily converts to enzyme-methionyl approximately adenylate-PP-Mg2+ with a standard free energy close to zero. It is concluded that the uncoupled enzyme-methionine-ATP-Mg2+ complex may resemble the transition state of the reaction at the expense of the additional state of the reaction at the expense of the additional synergistic binding energy provided by reciprocal coupling, within the site, of the methionine molecule with the adenosine and PP-Mg2+ parts of the ATP-Mg2+ molecule (Blanguet, S., Fayat, G., and Waller, J. P. (1975), J. Mol. Biol. 94, 1.).
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PMID:Methionyl-tRNA synthetase from Escherichia coli: active stoichiometry and stopped-flow analysis of methionyl adenylate formaiton. 18 14

The bacteriostatic effect of methioninyl adenylate(MAMP)--a specific inhibitor of the enzyme methionyl-tRNA synthetase--was investigated on Salmonella typhimurium and Pseudomonas aeruginosa. 0.1 mM of this molecule added to the culture, inhibits the growth of S. typhimurium. The inhibition is specifically reversible by 0.1 mM L-methionine. In the same conditions even 1-2 mM MAMP has a very slight effect on the growth rate of P. aeruginosa and only during the first two generations. The same observation was made with the two other members of the fluorescens group P.fluorescens and P.putida. The growth rate of P. testosteroni with 1 mM MAMP in the medium is similar to the growth rate of P. aeruginosa but the other member of the acidovorans group P. acidovorans is much more affected by the smae concentration of the inhibitor. --P. multivorans is inhibited by MAMP like P. acidovorans but with a somewhat higher yield at the end of the culture. --MAMP has no effect on P. alcaligenes. The possible reasons for the weak bacteriostatic effect of MAMP on P. aeruginosa were investigated. It was established that the inhibitor enters the cells and is not used as a carbon and energy source. The intracellular methionine concentration in S. typhimurium and in P. aeruginosa is about the same and does not increase when bacteria are cultivated with MAMP. The MTS of the two microorganisms is inhibited by MAMP in vitro to about the same extent. Furthermore the tRNAmet from P. aeruginosa are fully acylated after 3 to 4 generations with this compound. Nevertheless MAMP elicits higher MTS activity in P. aeruginosa and in P. acidovorans after 1 h of incubation. The most striking difference between S. typhimurium and P. aeruginosa is that the intra and extracellular level of 5'phosphodiesterase which degrades MAMP is 10-20 fold higher in the second than in the first species.
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PMID:Comparative effect of methioninyl adenylate on the growth of Salmonella typhimurium and Pseudomonas aeruginosa. 18 17

Methionyl adenylate (Met-AMP) inhibits protein synthesis by interacting with methionyl-tRNA synthetase. Addition of 1--3 mM inhibitor to chick embryo fibroblasts rapidly stops protein synthesis and DNA synthesis but not RNA synthesis. These effects can be reversed by renewal of the medium. The extent and reversibility of protein and DNA syntheses depend on the concentration of MetAMP in the cultures, the length of exposure and the cellular density. MetAMP is recognised by several enzymes as substrate and/or as inhibitor. MetAmp is degraded to methionol plus 5'-adenylic acid by 5'-phosphodiesterase. Adenosine deaminase, adenylic acid deaminase and 3':5'-phosphodiesterase cannot use MetAMP as substrate but the last enzyme is inhibited. The presence of MetAMP in cultures provokes a small but reproducible increase in the level of methionyl-tRNA synthetase and 5'-phosphodiesterase.
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PMID:Further studies of the action of methionyl adenylate on chick embryo fibroblasts. 19 96

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