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: EC:6.1.1.4 (leucyl-tRNA synthetase)
297 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Inorganic pyrophosphate inhibits the aminoacylation of tRNALeu by the leucyl-tRNA synthetase from Neurospora crassa giving very low Kapp.i, PPi values of 3-20 microM. The inhibition by pyrophosphate, together with earlier kinetic data, suggest a reaction mechanism where leucine, ATP and tRNA are bound to the enzyme in almost random order, and pyrophosphate is dissociated before the rate-limiting step. A kinetic analysis of this mechanism shows that the measured Kapp.i values do not give the real dissociation constant but it is about 0.4 mM. Other dissociation constants are 90 microM for leucine, 2.2 mM for ATP and 1 microM for tRNALeu. At the approximate conditions of the living cell (2 mM ATP, 100 microM leucine and 150 microM PPi) the leucyl-tRNA synthetase is about 85% inhibited by pyrophosphate.
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PMID:Pyrophosphate-caused inhibition of the aminoacylation of tRNA by the leucyl-tRNA synthetase from Neurospora crassa. 302 54

The DNA nucleotide sequence of the valS gene encoding valyl-tRNA synthetase of Escherichia coli has been determined. The deduced primary structure of valyl-tRNA synthetase was compared to the primary sequences of the known aminoacyl-tRNA synthetases of yeast and bacteria. Significant homology was detected between valyl-tRNA synthetase of E. coli and other known branched-chain aminoacyl-tRNA synthetases. In pairwise comparisons the highest level of homology was detected between the homologous valyl-tRNA synthetases of yeast and E. coli, with an observed 41% direct identity overall. Comparisons between the valyl- and isoleucyl-tRNA synthetases of E. coli yielded the highest level of homology detected between heterologous enzymes (19.2% direct identity overall). An alignment is presented between the three branched-chain aminoacyl-tRNA synthetases (valyl- and isoleucyl-tRNA synthetases of E. coli and yeast mitochondrial leucyl-tRNA synthetase) illustrating the close relatedness of these enzymes. These results give credence to the supposition that the branched-chain aminoacyl-tRNA synthetases along with methionyl-tRNA synthetase form a family of genes within the aminoacyl-tRNA synthetases that evolved from a common ancestral progenitor gene.
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PMID:Valyl-tRNA synthetase gene of Escherichia coli K12. Primary structure and homology within a family of aminoacyl-TRNA synthetases. 327 60

The gene for Escherichia coli leucyl-tRNA synthetase leuS has been cloned by complementation of a leuS temperature sensitive mutant KL231 with an E.coli gene bank DNA. The resulting clones overexpress leucyl-tRNA synthetase (LeuRS) by a factor greater than 50. The DNA sequence of the complete coding regions was determined. The derived N-terminal protein sequence of LeuRS was confirmed by independent protein sequencing of the first 8 aminoacids. Sequence comparison of the LeuRS sequence with all aminoacyl-tRNA synthetase sequences available reveal a significant homology with the valyl-, isoleucyl- and methionyl-enzyme indicating that the genes of these enzymes could have derived from a common ancestor. Sequence comparison with the gene product of the yeast nuclear NAM2-1 suppressor allele curing mitochondrial RNA maturation deficiency reveals about 30% homology.
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PMID:Molecular cloning and nucleotide sequence of the gene for Escherichia coli leucyl-tRNA synthetase. 332 Sep 63

The structural gene for threonyl-tRNA synthetase was mapped to human chromosome 5 by an analysis of the isoelectric focusing patterns of this enzyme from human X Chinese hamster interspecific somatic cell hybrids. The threonyl-tRNA synthetase gene is the fourth of seven aminoacyl-tRNA synthetase genes mapped in humans to be assigned to this chromosome. Regional mapping studies showed that the threonyl-tRNA synthetase gene is on the short arm of chromosome 5, p13-cen, and is close to, but separable from, the gene for leucyl-tRNA synthetase which maps to 5cen-5q11.
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PMID:Threonyl-tRNA synthetase gene maps close to leucyl-tRNA synthetase gene on human chromosome 5. 346 5

Bean (Phaseolus vulgaris) chloroplastic and cytoplasmic leucyl-tRNA synthetases differ in their structural and catalytic properties and do not share common antigenic determinants. Polyadenylated mRNAs, prepared from young bean leaves, have been translated in vitro in a rabbit reticulocyte lysate cell-free system. The newly synthesized polypeptides have been submitted to immunoadsorption on protein A-Sepharose in the presence of the antibodies raised against the chloroplastic or the cytoplasmic leucyl-tRNA synthetase. The specificity of the immunoadsorption has been checked by competition experiments involving the pure enzymes. Bean chloroplastic leucyl-tRNA synthetase is synthesized in vitro from a polyadenylated mRNA as a precursor polypeptide of 130 kDa, which is somewhat larger than the mature enzyme of 120 kDa. Bean cytoplasmic leucyl-tRNA synthetase is synthesized in vitro as a polypeptide which has the size of the mature monomer (130 kDa). Processing of the precursor polypeptide of the chloroplastic leucyl-tRNA synthetase, yielding the mature enzyme, has been obtained by performing the in vitro translation in the presence of canine pancreatic microsomal membranes. These results suggest that in vivo bean chloroplastic leucyl-tRNA synthetase could be synthesized in the cytoplasm as a precursor which would be transported into the chloroplasts.
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PMID:In vitro synthesis of bean (Phaseolus vulgaris) chloroplastic and cytoplasmic leucyl-tRNA synthetases. Characterization and processing of a precursor polypeptide for the chloroplast enzyme. 354 28

Age-related changes of two aminoacyl-tRNA synthetases in BDF1 mouse and Fischer 344 rat tissues were investigated. The proportions of heat-labile enzymes in the brain and liver were 5 to 10% in young animals, but 25 to 40% in old animals. The proportions began to increase markedly with increase in the mortality rate of the animals. Significant correlations were found between the proportions of heat-labile tyrosyl- and leucyl-tRNA synthetases in the brain and liver of individual animals. Moreover, the proportions of the heat-labile enzymes in the brain were also significantly correlated with those in the liver. Thus, it appears that when one enzyme is heat-labile in one tissue other enzymes are also heat-labile in the same tissue and the same enzyme is also heat-labile in other tissues. Analysis of the size-distribution of partially purified leucyl-tRNA synthetase complexes indicated that, while enzyme preparations from young animals tended to consist of complexes of larger sizes, those from older animals contained smaller complexes, a 10S complex being a major component. On heating preparations from old animals, the activity in the 10S peak disappeared most rapidly. This finding suggests that the heat-stability of the enzyme depended on its molecular form.
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PMID:Age-associated accumulation of heat-labile aminoacyl-tRNA synthetases in mice and rats. 359 51

A simple and practical procedure for the synthesis of P1,P4-di(adenosine 5'-) tetraphosphate from ATP by the catalysis of leucyl-tRNA synthetase from Bacillus stearothermophilus is described. Km for leucine was 6.7 microM and for ATP was 3.3 mM. The reaction yielded not only diadenosine tetraphosphate, but various byproducts such as P1,P3-(diadenosine 5'-) triphosphate, ADP and AMP. By coupling the reaction with an ATP regeneration system by acetate kinase and adenylate kinase with acetylphosphate as a phosphate donor, diadenosine tetraphosphate was prepared as a sole product at a high yield (96%).
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PMID:Synthesis of P1,P4-di(adenosine 5'-) tetraphosphate by leucyl-tRNA synthetase, coupled with ATP regeneration. 360 15

When cultures of the temperature-sensitive Chinese hamster ovary cell mutant tsH1 are shifted from 34 degrees C (permissive temperature) to 39.5 degrees C (nonpermissive temperature), protein synthesis is inhibited by more than 80%. This is due principally to a block in activity of polypeptide chain initiation factor eIF-2. In this paper we show that there is impairment of the ability of the guanine nucleotide exchange factor (GEF) to displace GDP from eIF-2 X GDP complexes in extracts from cells incubated at the nonpermissive temperature. Addition of GEF or of high concentrations of eIF-2 stimulates protein synthesis to the level observed in control cell extracts, suggesting that GEF is rate-limiting for eIF-2 activity and overall protein synthesis at the nonpermissive temperature. Analysis of eIF-2 by two-dimensional gel electrophoresis and immunoblotting reveals an increase in the proportion of the alpha subunit in the phosphorylated form from 5.5 +/- 2.4% to 17.2 +/- 3.9% on shifting tsH1 cells from 34 to 39.5 degrees C. No such effect is seen in wild-type cells, which do not exhibit temperature-sensitive protein synthetic activity. Since the primary lesion in tsH1 cells is in their leucyl-tRNA synthetase, these results suggest a role for eIF-2 phosphorylation and GEF activity in coupling the rate of polypeptide chain initiation to the activity of the chain elongation machinery.
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PMID:Regulation of polypeptide chain initiation in Chinese hamster ovary cells with a temperature-sensitive leucyl-tRNA synthetase. Changes in phosphorylation of initiation factor eIF-2 and in the activity of the guanine nucleotide exchange factor GEF. 380 6

The interaction between tRNA conformers inactive in aminoacylation and leucyl-tRNA synthetase has been investigated. Heat inactivation of the enzyme in the presence of inactive tRNA conformers is shown to lead to a marked increase of inactivation rate while active tRNA conformers, on the other hand, reveal a protecting effect. To study the properties of the enzyme complexed with different tRNA conformers limited proteolysis has been used. Active tRNA conformers are found to protect leucyl-tRNA synthetase against hydrolysis while inactive ones tend to intensify it. Inactive tRNA conformers are also shown to inhibit the aminoacylation of native tRNA in vitro. On the basis of these data biologically inactive conformers of animal tRNA are assumed to form an unproductive complex with leucyl-tRNA synthetase and the structure of the enzyme involved in such interaction is supposed to be more labile and 'extended' than that in complex with active tRNA conformers.
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PMID:The interaction between biologically inactive tRNA conformers and leucyl-tRNA synthetase from rabbit liver. 383 Jan 84

The structural accessibility of tryptophan residues in leucyl-tRNA synthetase from cow mammary gland has been studied using chemical modifications by N-bromosuccinimide and 2-hydroxy-5-nitrobenzyl bromide. The modifications were monitored by UV absorbance and intrinsic fluorescence of the enzyme's tryptophan residues. Under native conditions, at pH 7,8, only two exposed tryptophan residues are modified in each subunit of the dimeric enzyme. Under denaturing conditions, in 6 M guanidine hydrochloride solution, internal tryptophan residues are also modified as a consequence of unfolding of the native tertiary structure of the enzyme. Modifications of tryptophan residues resulted in inactivation of leucyl-tRNA synthetase both in aminoacylation and ATP-PPi exchange reactions. In the specific complex of leucyl-tRNA synthetase with the cognate tRNALeu one of exposed tryptophan residues is protected by tRNALeu and is not modified by the above reagents.
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PMID:[Chemical modification of tryptophan residues of leucyl tRNA synthetase by N-bromosuccinimide and 2-hydroxy-5-nitrobenzyl bromide]. 392 94


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