EC:3.4.21.4 - FACTA Search

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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)

Two large proteolytic fragments of Escherichia coli 50 S ribosomal subunit protein L16 were generated by limited hydrolysis with chymotrypsin (missing 9 N-terminal amino acids) and trypsin (missing 16 N-terminal amino acids). It was found that while intact L16 and its chymotryptic fragment both interact with tRNA (Kd = 5.4 x 10(-7) M), the tryptic fragment does not. These results are interpreted in terms of possible significance of the residues 10-16 in the peptidyl transferase activity.
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PMID:The interaction of ribosomal protein L16 and its fragments with tRNA. 635 25

Complexes of Escherichia coli elongation factor EF-Tu with GTP or GTP and aminoacyl-tRNA were photo-oxidized by irradiation with visible light in the presence of rose bengal dye. EF-Tu was isolated, digested with trypsin, the resulting tryptic peptides were separated by high-performance liquid chromatography (HPLC), and the position of most of the peptides on the chromatogram was determined. Irradiation of complexes resulted in the inactivation of the factor (as tested by its capacity to interact with aminoacyl-tRNA) and was accompanied by the loss of its histidine residues (as revealed by amino acid analysis) and by the decrease in the amount of some tryptic peptides (as detected by HPLC). Aminoacyl-tRNA, bound to EF-Tu during the irradiation, protected the protein from inactivation, from the loss of histidine residues and some of its peptides from photo-oxidative degradation. Comparison of quantities of individual tryptic peptides recovered from the irradiated EF-Tu X GTP X aminoacyl-tRNA complex with those from the irradiated EF-Tu X GTP complex revealed that histidine-containing peptides T12 and T15 as well as methionine-containing peptide T14 were in the ternary complex markedly protected against the photo-oxidative degradation. This finding suggests that their histidines, i.e. His-66 and His-118 respectively and at least one of the methionines (Met-91, 98 or 112) present in peptide T14 are located near to or at the binding site of EF-Tu for aminoacyl-tRNA and could be involved in the interaction between aminoacyl-tRNA and the factor.
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PMID:Histidine residues in elongation factor EF-tu from Escherichia coli protected by aminoacyl-tRNA against photo-oxidation. 638 66

The possibility of localization of active sites structural components by affinity labelling was investigated. The modification of E. coli MRE-600 phenylalanyl-tRNA synthetase (E.C.6.1.1.20) (alpha 2 beta 2-type) by the phosphorylating analog of ATP-- [14C]adenosine-5'-trimetaphosphate results in the labelling of both heavy (beta) and light (alpha) enzyme subunits. Analysis of the peptide maps of the tryptic enzyme hydrolysate reveals a great number of peptides containing [14C]radioactivity. The decrease of covalent binding at low concentration of the analog did not abolish the plural labelling. The data permit to consider this kind of analogs as unperspective for localization of specific peptides. Modification of phenylalanyl-tRNA synthetase by tRNAPhe containing the photoreactive group (--CH2CONHC6H5N3) at eighth position of molecule (S8U) results in the labelling of only heavy beta-subunits. These data correspond to the previous results which testify to the disposition of tRNA binding sites on beta-subunits of phenylalanyl-tRNA synthetase. After hydrolysis of the modified phenylalanyl-tRNA synthetase by trypsin six peptides covalently bound with tRNAPhe were revealed. This quantity of modified peptides is higher than the number of tRNA binding sites. Hence the method of affinity labelling has definite limitations for localization of peptides of enzyme active sites.
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PMID:[Study of the possibility of identifying the structural elements of the phenylalanyl-tRNA-synthetase active center by affinity labeling]. 639 Jan 78

A protein affinity labeling derivative of E. coli tRNAfMet has been prepared which carries an average of one reactive side chain per molecule, distributed over four structural regions. Each side chain contains a disulfide bond capable of reaction with cysteine residues and an N-hydroxysuccinimide ester group capable of coupling to lysine epsilon-amino groups in proteins. Reaction of the modified tRNA with E. coli methionyl-tRNA synthetase leads to crosslinking only by reaction with lysine residues in the protein. Examination of the tRNA present in the crosslinked complex reveals that the enzyme is coupled to side chains attached to the 5' terminal nucleotide, the dihydrouridine loop, the anticodon and the CCA sequence. Digestion of the crosslinked enzyme with trypsin followed by peptide mapping reveals that the major crosslinking reactions occur at four specific lysine residues, with minor reaction at two additional sites. Native methionyl-tRNA synthetase contains 90 lysine residues, 45 in unique sequences of the dimeric alpha 2 enzyme. Crosslinking of the protein to different regions in tRNAfMet thus occurs with the high degree of selectivity necessary for use in determining the peptide sequences which are near specific nucleotide sequences of tRNA bound to the protein.
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PMID:Modification of specific lysine residues in E. coli methionyl-tRNA synthetase by crosslinking to E. coli formylmethionine tRNA. 642 68

Alanyl-tRNA synthetase of 115K dalton from Bombyx mori was cleaved into two fragments of 68K and 47K dalton with trypsin. The 47K fragment was active in aminoacylation of tRNA, whereas the 68K fragment inactive. The 47K and 68K fragments were located at the N- and C- terminal sides, respectively, in the intact enzyme. When the enzyme binds alanine specific tRNA, the tryptic digestion is inhibited. The Km value of the 47K fragment for tRNA was about 16-fold higher than that (1.4 microM) of the intact enzyme. The molecular activities of the 47K fragment and the intact enzyme were 2.2/sec and 16.8/sec, respectively. These results show that 1) Bombyx mori alanyl-tRNA synthetase functions in a monomeric state and 2) the C-terminal domain enhances affinity for tRNA and is responsible for full activity of aminoacylation.
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PMID:Domain-structure of large monomeric alanyl-tRNA synthetase from Bombyx mori: evidence of a single catalytic domain. 652 83

Escherichia coli elongation factor (EF-Tu) binds aminoacyl-tRNAs (aa-tRNA) not only in the presence of GTP but also in the presence of GDP. Complex formation leads to a protection of the aa-tRNA against nonenzymatic deacylation and digestion by pancreatic ribonuclease, as well as to a protection of EF-Tu against proteolysis by trypsin. The equilibrium constant for the binding of Phe-tRNAPheyeast for example to EF-Tu.GDP has been determined to be 0.7 X 10(5) M-1 which is 2 orders of magnitude lower than the equilibrium constant for Phe-tRNAPheyeast binding to EF-Tu.GTP. In the presence of kirromycin, aminoacyl-tRNA binding to EF-Tu.GDP is not affected as much: Phe-tRNAPheyeast is bound with an equilibrium constant of 3 X 10(5) M-1. While there is also a measurable interaction between EF-Tu.GTP and tRNA, such an interaction cannot be detected with EF-Tu.GDP and tRNA, not even at millimolar concentrations. A so far undetected complex formation between aminoacyl-tRNA and EF-Tu.GTP in the presence of pulvomycin, however, could be detected. The results are discussed in terms of the structural requirements of ternary complex formation and in the light of proofreading schemes involving A-site binding on the E. coli ribosome.
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PMID:The elongation factor Tu binds aminoacyl-tRNA in the presence of GDP. 674 37

A chromatin fraction enriched for Xenopus 5S RNA genes has been isolated by restriction endonuclease digestion and sucrose gradient velocity sedimentation. Soluble chromatin sedimenting at 70-80S contains approximately 50% of the oocyte-expressed 5S RNA genes and only 1.5-3% of total chromatin DNA; this represents a 15- to 30-fold purification of the 5S genes. Such chromatin isolated from somatic cells (blood and cultured kidney cells) retains the transcriptionally-inactive state of the oocyte-expressed 5S genes. Soluble chromatin from somatic cells prepared by micrococcal nuclease digestion also retains the inactive state of the oocyte-type 5S genes. It is likely that the level of chromatin structure responsible for inactivity of the oocyte genes in somatic cells is the nucleosome or short chains of nucleosomes and not supranucleosomal structures. The oocyte-type genes can be rendered transcriptionally active in somatic cell chromatin either by salt extraction of some chromosomal proteins or by treatment with the ion exchange resin Dowex A50W-X2. Alternatively, activation of these genes can be achieved by incubating somatic cell chromatin or nuclei with an extract prepared from Xenopus oocytes. This effect is not specific for 5S RNA genes as the transcription of other small RNAs (including pre-tRNA) is stimulated by the oocyte extract. The activating factor(s) is resistant to micrococcal nuclease, nondialyzable, heat labile and sensitive to trypsin; thus it is highly likely to be a protein or a group of proteins. Partial purification of the activating factor(s) has been achieved by ion exchange chromatography.
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PMID:Control of 5S RNA transcription in Xenopus somatic cell chromatin: activation with an oocyte extract. 686 64

This report describes a method to isolate temperature-conditional phenylalanine transport mutants from the transformed human cell line HeLa. Using ultraviolet light as a mutagenic agent and DL-parafluorophenylalanine (PFPA), a poisonous analogue of L-phenylalanine, as a selective agent, mutagenized cells were selected for survival in the presence of PFPA at a temperature of 39 degrees C. Survivors of the mutagenesis and selection procedures were removed from the culture dishes by trypsin and cloned at a temperature of 35 degrees C. Seven of these lines isolated demonstrated continued resistance to PFPA at 39 degrees C. These lines were tested for uptake of L-phenylalanine at an external concentration of 100 microM and for continued resistance to PFPA at two concentrations. Cells were tested at 35 and at 39 degrees C. The data were compared to those obtained for the parental HeLa cell line under identical conditions. The seven mutant cell lines demonstrated varying resistances to PFPA and varying levels of accumulation of L-phenylalanine when tested at 35 and 39 degrees C. Three mutant lines were additionally tested for L-phenylalanine tRNA charging levels and for transport of L-arginine. The lines had parental cell levels of tRNA charging and L-arginine transport which suggest that the induced genetic defect affects a specific L-phenylalanine transport system.
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PMID:Isolation of parafluorophenylalanine-resistant mutants from HeLa cell cultures. 687 Jul 72

The complex of elongation factor Tu with GTP (EF-Tu.GTP) reacts with N or epsilon -bromoacetyl-lys-tRNA ( or epsilon BrAcLys-tRNA) to form a functional covalently linked complex (XLTC). The site of cross-linking must be near the site on EF-Tu.GTP that binds the aminoacyl moiety of aminoacyl transfer ribonucleic acid (AA-tRNA). For identification of this site, a nanomole of purified XLTC prepared from or epsilon BrAc[(14)C]Lys-tRNA was digested first with RNase A and then with trypsin, and the peptides were resolved by high-performance liquid chromatography using a c8 reverse-phase column. A single peptide contained 80% of the label. The amino acid composition of this peptide was identical with that of residues 59-74 in EF-Tu. The NH2-terminal sequence of the peptide was determined to be Fly-Ile-Thr-Ile, which are residues 59-62 in EF-Tu. The modified amino acid was identified as pi - (carboxymethyl)histidine, which establishes that His-66 is at or near the AA-tRNA binding site on EF-Tu.GTP.
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PMID:Identification of a histidine residue near the aminoacyl transfer ribonucleic acid binding site of elongation factor Tu. 691 6

The tetragonal crystalline form of the trypsin-treated Escherichia coli protein elongation factor Tu has been analyzed by biochemical and x-ray crystallographic techniques. The crystals contain two tightly associated polypeptide fragments of molecular weight 36,000 and 6,500 which represent 97% of the native enzyme. The crystals do not contain a short internal polypeptide fragment of 14 amino acids which dissociates from the native enzyme following mild trypsin digestion. The short fragment has been implicated in the aminoacyl-tRNA binding function and its location has been determined. The structure of the modified enzyme in the P4(3)2(1)2 crystal form has been determined to 5 A resolution by x-ray diffraction methods. The protein consists of two domains: the larger domain exhibits considerable alpha helical characteristics and the smaller domain has no identifiable secondary structural features. The relationship between the double domain structure of the enzyme and its biochemical properties is discussed.
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PMID:Biochemical and structural studies of the tetragonal crystalline modification of the Escherichia coli elongation factor Tu. 699 78

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