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

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Query: UNIPROT:Q07644 (polypeptide)
72,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Native isoleucyl-tRNA synthetase and a structurally modified form of methionyl-tRNA synthetase were purified to homogeneity following trypsinolysis of the high molecular weight complex from sheep liver containing eight aminoacyl-tRNA synthetases. The correspondence between purified isoleucyl-tRNA synthetase and the previously unassigned polypeptide component of Mr 139 000 was established. It is shown that dissociation of this enzyme from the complex has no discernible effect on its kinetic parameters. Both isoleucyl- and methionyl-tRNA synthetases contain one zinc ion per polypeptide chain. In both cases, removal of the metal ion by chelating agents leads to an inactive apoenzyme. As the trypsin-modified methionyl-tRNA synthetase has lost the ability to associate with other components of the complex [Mirande, M., Kellermann, O., & Waller, J. P. (1982) J. Biol. Chem. 257, 11049-11055], the zinc ion is unlikely to be involved in complex formation. While native purified isoleucyl-tRNA synthetase displays hydrophobic properties, trypsin-modified methionyl-tRNA synthetase does not. It is suggested that the assembly of the amino-acyl-tRNA synthetase complex is mediated by hydrophobic domains present in these enzymes.
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PMID:Purification and characterization of the isoleucyl-tRNA synthetase component from the high molecular weight complex of sheep liver: a hydrophobic metalloprotein. 407 79

The intact metG gene was cloned in plasmid pBR322 from an F32 episomal gene library by complementation of a structural mutant, metG83. The Escherichia coli strain transformed with this plasmid (pX1) overproduced methionyl-tRNA synthetase 40-fold. Maxicell analysis showed that three major polypeptides with MrS of 76,000, 37,000, and 29,000 were expressed from pX1. The polypeptide with an Mr of 76,000 was identified as the product of metG on the basis of immunological studies and was indistinguishable from purified methionyl-tRNA synthetase. In addition, DNA-DNA hybridization studies demonstrated that the metG regions were homologous on the E. coli chromosome and on the F32 episome. DNA sequencing of 642 nucleotides was performed. It completes the partial metG sequence already published (D. G. Barker, J. P. Ebel, R. Jakes, and C. J. Bruton, Eur. J. Biochem. 127:449-451, 1982). Examination of the deduced primary structure of methionyl-tRNA synthetase excludes the occurrence of any significant repeated sequences. Finally, mapping of mutation metG83 by complementation experiments strongly suggests that the central part of methionyl-tRNA synthetase is involved in methionine recognition. This observation is discussed in the light of the known three-dimensional crystallographic structure.
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PMID:Molecular cloning and primary structure of the Escherichia coli methionyl-tRNA synthetase gene. 609 1

Both the tRNA aminoacylation and amino-acid-dependent ATP-PPi exchange activities of monomeric trypsin-modified methionyl-tRNA synthetase from sheep liver are lost upon incubation with oxidized initiator tRNAMet. The inactivation, which reflects the formation of a Schiff's base between the 5'-terminal adenosine of tRNA and a lysine within the catalytic site of the enzyme, is accompanied by the covalent attachment of one tRNA molecule per enzyme molecule. The affinity labeling method is applied to the sheep liver complex of Mr 10(6) carrying seven aminoacyl-tRNA synthetase activities, from which the monomeric trypsin-modified methionyl-tRNA synthetase (Mr 68 000) was derived. Upon incubation with oxidized initiator tRNAMet, the methionyl-tRNA synthetase activity of the complex is lost. Of the eleven polypeptide chains composing the high-molecular-weight complex, only one polypeptide chain with Mr 103 000 reacts with the modified tRNAMet. The blocking by periodate-treated tRNA of the methionyl-tRNA synthetase activity in the complex has no effect on the other aminoacyl-tRNA synthetase activities. This strongly argues in favor of the independent parallel functioning of the seven aminoacyl-tRNA synthetases associated in a high-molecular-weight complex.
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PMID:Macromolecular complex of aminoacyl-tRNA synthetases from sheep liver. Identification of the methionyl-tRNA synthetase component by affinity labeling. 628 5

The sequence of a 5-kilobase DNA insert containing the structural gene for yeast cytoplasmic methionyl-tRNA synthetase has been determined and a unique open reading frame of 2,253 nucleotides encoding a polypeptide chain of 751 amino acids (Mr, 85,500) has been characterized. The data obtained on the purified enzyme (subunit size, amino acid composition, and COOH-terminal sequence) are consistent with the gene structure. The protein sequence deduced from the nucleotide sequence reveals no obvious internal repeats. This protein sequence shows a high degree of homology with that of Escherichia coli methionyl-tRNA synthetase within a region that forms the putative methionyl adenylate binding site. This strongly suggests that both proteins derive from a common ancestor.
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PMID:Primary structure of the Saccharomyces cerevisiae gene for methionyl-tRNA synthetase. 634 94

A 3300-base segment of Escherichia coli chromosomal DNA, cloned into pBR322, will complement a methionine auxotroph in which the lesion is a defective methionyl-tRNA synthetase with a much reduced affinity for methionine. Crude extracts of these transformants contain elevated levels of a protein which has a subunit molecular weight of 66 000, methionyl-tRNA synthetase aminoacylation activity in vitro and which cross-reacts with anti-(methionyl-tRNA synthetase) antibodies. This polypeptide is very slightly larger than the well-characterised and crystallised tryptic fragment of methionyl-tRNA synthetase. A DNA sequence of 1750 residues at one end of the cloned insert codes for a non-terminated open reading frame in which we can locate a large number of methionyl-tRNA synthetase tryptic and chymotryptic peptides. We have also sequenced 300 nucleotides upstream of this coding segment where we find a large invert repeat in the putative methionyl-tRNA synthetase promoter region.
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PMID:Methionyl-tRNA synthetase from Escherichia coli. Primary structure of the active crystallised tryptic fragment. 675 15

The extensively purified multienzyme complexes from sheep and rabbit livers containing seven aminoacyl-tRNA synthetases specific for Ile, Leu, Met, Gln, Glu, Lys, and Arg displayed characteristic one-dimensional sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoretic patterns composed of 11 and 10 major polypeptide components, respectively. Their polypeptide compositions revealed by two-dimensional electrophoresis, including isoelectric focusing in 9 M urea, were not significantly more complex. The isoelectric point of each component from the two complexes fell within the pH range of 6.2 to 7.1, with the notable exception of the common polypeptide of Mr = 43,000 which was distinctly basic. The apparent molecular weight of each component from both complexes was determined by SDS-polyacrylamide gel electrophoresis. Four polypeptides, corresponding to molecular weights of 139,000, 129,000, 43,000, and 38,000 were common to both complexes. The other components from the two complexes displayed similar yet clearly distinct molecular weights. The molar ratios of the polypeptides, estimated by densitometry scanning of stained SDS-polyacrylamide gels, indicated that several components from each complex may be present as more than one copy. Following SDS-polyacrylamide gel electrophoresis, the methionyl-tRNA synthetase component from each complex was identified by the protein blotting procedure, using specific antibodies and 125I-labeled protein A. The unique labeled bands from the complexes of sheep and rabbit precisely matched the major polypeptides of Mr = 103,000 and 108,000, respectively. Mild trypsin treatment of the two native complexes generated fully active forms of methionyl-tRNA synthetase, with molecular weights of 68,000 and 69,500, respectively. The kinetics of proteolysis showed that modification proceeded sequentially through discrete intermediates.
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PMID:Macromolecular complexes from sheep and rabbit containing seven aminoacyl-tRNA synthetases. II. Structural characterization of the polypeptide components and immunological identification of the methionyl-tRNA synthetase subunit. 710 45

Seven aminoacyl-tRNA synthetases from sheep liver were co-purified as high mol. wt. entities to constant specific activities. The purified multienzyme preparation displayed an apparent mol. wt. of approximately 10(6) and was composed of 11 distinct polypeptides, as revealed by SDS-polyacrylamide gel electrophoresis (SDS-PAGE). To test the assumption that all of these components were physically associated within the same complex, the purified preparation was subjected to immunoprecipitation by antibodies raised against its lysyl- or methionyl-tRNA synthetase component. Depending on the limiting concentrations of the specific antibodies used, from 5 to 40% of the input protein was recovered in the immunoprecipitate. Its polypeptide composition, as revealed by SDS-PAGE, was indistinguishable from that of the original material. The immunoprecipitation reaction was highly specific, as attested by the observation that IgG from nonimmunized rabbit failed to precipitate any of the 11 polypeptides, even when used in 30-fold molar excess over input protein. We conclude that co-precipitation of all of these polypeptides by antibodies directed against a single component of the purified preparation is a consequence of their physical association within the same multienzyme complex.
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PMID:Seven mammalian aminoacyl-tRNA synthetases co-purified as high molecular weight entities are associated within the same complex. 718 59

The isotopic [32P]PPi-ATP exchange activity of isoleucyl-, valyl-, histidyl-, tyrosyl- and methionyl-tRNA synthetases from Escherichia coli are lost upon incubation in the presence of pyridoxal-5'-phosphate (PLP). When the residual activity of either isoleucyl-, valyl- or methionyl-tRNA synthetase (monomeric truncated form) was plotted as a function of the number of PLP molecules incorporated per enzyme molecule, the plots obtained appeared biphasic. Below 50% inactivation of these enzymes, PLP incorporation varied linearly with the isotopic exchange measurements, and extrapolation of the first half of the plot indicated a stoichiometry of 1.10 +/- 0.05 mol of PLP incorporated per mol of 100% inactivated synthetase. Beyond 50% inactivation, the graph deviated from its initial slope, and up to 4-5 mol of PLP were incorporated per mol of synthetase at the highest used PLP concentrations. In the cases of homodimeric histidyl- and tyrosyl-tRNA synthetases, extrapolation of the graph at 100% inactivation indicated 2.8 +/- 0.1 and 2.4 +/- 0.1 mol of PLP incorporated per mol of enzyme, respectively. PLP-labeled peptides were obtained through trypsin digestion and RPLC purification, prior to Edman degradation analysis. PLP-labeled residues were identified as lysines 132, 332, 335 and 402 of monomeric methionyl-tRNA synthetase, lysines 332, 335, 402, 465, 596 and 640 of native dimeric methionyl-tRNA synthetase, lysines 22, 117, 601, 604 and 645 of isoleucyl-tRNA synthetase, lysines 554, 557, 559, 593 and 909 of valyl-tRNA synthetase, lysines 2, 118, 369 and 370 of histidyl-tRNA synthetase, and lysine 237 of tyrosyl-tRNA synthetase. In addition, the amino terminal residue of the polypeptide chain(s) of either isoleucyl-, valyl-, histidyl- or methionyl-tRNA synthetases was found labeled. Among these residues, lysines 332, 335 and 402 of monomeric methionyl-tRNA synthetase as well as lysines 332, 335, 402 and 596 of dimeric methionyl-tRNA synthetase, lysines 601, 604 and 645 of isoleucyl-tRNA synthetase, lysines 554, 557 and 559 of valyl-tRNA synthetase, lysines 2, 369 and 370 of histidyl-tRNA synthetase, and lysine 237 of tyrosyl-tRNA synthetase were labeled in the presence of PLP concentrations smaller than or equal to 1 mM, and are shown to be critical for the activity of the enzymes. It is concluded that these residues participate to the binding sites of the phosphates of ATP on the studied synthetases.
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PMID:Modification of aminoacyl-tRNA synthetases with pyridoxal-5'-phosphate. Identification of the labeled amino acid residues. 803 3

A truncated form of the methionyl-tRNA synthetase (delta MTS), which has been cloned, overproduced, and characterized, was used in an attempt to better understand the role of the enzyme-bound zinc in the amino-acylation process. Apo-, Zn(2+)-, Co(2+)-, and 113Cd(2+)-substituted delta MTS proteins were prepared in vivo and purified to homogeneity. Apo-delta MTS was devoid of enzymatic activity in the aminoacylation of tRNA(fMet) and in the methionine-dependent ATP-pyrophosphate exchange reactions. Kinetic constants in both the aminoacylation and ATP-pyrophosphate exchange reactions for the Co(2+)- and 113Cd(2+)-substituted delta MTS proteins were found to be identical with those of the native Zn2+ protein. The low energy absorption spectrum of Co(2+)-substituted delta MTS resembles the d-d transition bands characteristic of tetrahedrally coordinated Co(2+)-substituted proteins. A strong S-->Co2+ charge transfer absorption at 350 nm was clearly evident having a molar absorptivity consistent with four thiolate ligands. The environment of the metal center was further probed by measuring the 113Cd chemical shift of 113Cd(2+)-substituted delta MTS. A single resonance at 759.6 ppm was observed. This chemical shift is consistent with Cd2+ coordinated to four thiolate ligands. The Escherichia coli methionyl-tRNA synthetase contains a potential metal binding sequence Cys-X2-Cys-X9-Cys-X2-Cys in a connecting polypeptide within the nucleotide fold. Titration of a 21-amino acid peptide corresponding to this putative metal binding site, Cys145-Cys161, was shown to bind Co2+ with a Kd of 120 +/- 11 microM. These results demonstrate that the isolated zinc finger binding domain is capable of specifically forming a stoichiometric complex with the divalent cation. Taken together, our studies identify the 4 cysteine residues in the zinc finger-like domain as the metal binding ligands in the E. coli methionyl-tRNA synthetase. The role of the enzyme-bound metal appears to be structural and not directly involved in catalysis.
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PMID:Identification of the metal ligands and characterization of a putative zinc finger in methionyl-tRNA synthetase. 834 12

The 10 class I aminoacyl-tRNA synthetases share a common N-terminal nucleotide-binding fold. Idiosyncratic polypeptide insertions into this fold introduce residues important for activity, including those that interact with the tRNA acceptor helix. The class I Escherichia coli methionyl-tRNA synthetase (L-methionine:tRNA(Met) ligase, EC 6.1.1.10), a 676-amino acid homodimer, was shown previously by others to contain zinc and to have an activity dependent on its presence. We show here by atomic absorption spectroscopy and zinc titrations the presence of 1 mol of zinc per polypeptide. Replacement of zinc with cobalt yields an active enzyme with a visible absorption spectrum characteristic of tetrahedral coordination to sulfur ligands and an intense metal-to-sulfur charge-transfer band at 340 nm. Mapping of the metal-binding site by zinc blotting of recombinant and proteolytic fragments localized the site to a polypeptide insertion between two strands and a beta-sheet in the N-terminal nucleotide-binding fold that contains the catalytic site. Beginning at Cys-145, this insertion contains a Cys-Xaa2-Cys-Xaa9-Cys-Xaa2-Cys motif. Site-directed substitution of these cysteines with serines yielded proteins that were stable but generally devoid of activity. With this result there is now at least one example of a class I and of a class II E. coli tRNA synthetase with a metal-binding domain important for activity inserted into the catalytic domain.
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PMID:Metal-binding site in a class I tRNA synthetase localized to a cysteine cluster inserted into nucleotide-binding fold. 846 Jan 31


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