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Drug
Enzyme
Compound
Pivot Concepts:
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Target Concepts:
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Query: EC:3.4.21.4 (
trypsin
)
42,187
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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.
...
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
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.
...
PMID:Modification of aminoacyl-tRNA synthetases with pyridoxal-5'-phosphate. Identification of the labeled amino acid residues. 803 3
Cys/His motifs, found in several nucleic acid binding proteins, generally correspond to sites for the binding of metal atoms. Such a motif, comprising four Cys residues, occurs in the subunits of Escherichia coli
methionyl-tRNA synthetase
, a dimeric enzyme known to bind two zinc atoms. In this study, each of the four cysteines in the cysteine cluster (region 145 to 161) of E. coli
methionyl-tRNA synthetase
were successively changed into an alanine. Either substitution is sufficient to destabilize the tight binding of the zinc ion. Moreover, a peptide having a sequence corresponding to that of the 138 to 163 region of
methionyl-tRNA synthetase
has been prepared. It strongly binds one zinc atom, even in the presence of ethylene diamine tetraacetate. These data establish that, in
methionyl-tRNA synthetase
, the Cys motif of region 145 to 161 is actually the binding site for zinc. In addition, the mutation of each cysteine modifies the parameters of the methionine activation reaction, and appears to change the structure of the enzyme, as probed by an increased sensitivity of the mutant enzymes to
trypsin
attack. The possible role of the zinc atom and of its chelating residues in the folding of the active centre of
methionyl-tRNA synthetase
is discussed.
...
PMID:Mapping of the zinc binding domain of Escherichia coli methionyl-tRNA synthetase. 851 65
Homocysteine thiolactone, a cyclic thioester, is synthesized by certain aminoacyl-tRNA synthetases in editing or proofreading reactions that prevent translational incorporation of homocysteine into proteins. Although homocysteine thiolactone is expected to acylate amino groups in proteins, virtually nothing is known regarding reactivity of the thiolactone. Here it is shown that reactions of the thiolactone with protein lysine residues were robust under physiological conditions. In human serum incubated with homocysteine thiolactone, protein homocysteinylation was a major reaction that could be observed with as little as 10 nM thiolactone. Individual proteins were homocysteinylated at rates proportional to their lysine contents. Homocysteinylation led to protein damage, manifested as multimerization and precipitation of extensively modified proteins. Model enzymes, such as
methionyl-tRNA synthetase
and
trypsin
, were inactivated by homocysteinylation. Metabolic conversion of homocysteine to the thiolactone, protein homocysteinylation, and resulting protein damage may underlie involvement of Hcy in the pathology of vascular disease.-Jakubowski, H. Protein homocysteinylation: possible mechanism underlying pathological consequences of elevated homocysteine levels.
...
PMID:Protein homocysteinylation: possible mechanism underlying pathological consequences of elevated homocysteine levels. 1059 75
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