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)

Radioactive elongation factor Tu coded by either the tufA or the tufB gene of Escherichia coli K-12 was isolated from cells incubated with a mixture of radioactive amino acids after infection with the defective lambda phage particles that carry either of these genes. Two-dimensional chromatographic analyses of tryptic digests of the tufB gene product revealed about 50 radioactive spots. These same spots plus an additional one were also found in tryptic digests of the tufA gene product. Furthermore, these peptide maps are qualitatively the same as those of the elongation factor Tu obtained from two separate isolates of uninfected E. coli K-12 or from rel+ and relA strains of E. coli B. Because the number of spots recovered is consistent with the number of trypsin-sensitive sites, these analyses indicate that the tufA and tufB genes have not significantly diverged from each other.
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PMID:The elongation factor Tu coded by the tufA gene of Escherichia coli K-12 is almost identical to that coded by the tufB gene. 32 50

Limited proteolysis of native elongation factor Tu (Mr 44 000) by trypsin occurs in at least three distinct steps. The first intermediate arises through cleavage at a site about 65 residues from the amino-terminal end of the protein. It is functionally active [Jacobson, G. R. & Rosenbusch, J. P. (1976) Biochemistry, 15, 5105-5110] and is partially protected from further degradation by the antibiotic kirromycin. The second step converts this intermediate to one of similar size (Mr 37 000) which now is partially inactivated. It is likely to be identical with the intermediate described by Arai et al. [(1976) J. Biochem. Tokyo, 79, 69-83]. In the third step, the partially inactive intermediate is cleaved without any apparent change in the functional properties tested. The resulting two trypsin-resistant fragments have molecular weights of 24 000 and 14 000, and remain associated under nondenaturing conditions. When either of these polypeptides, after isolation in 8 M urea, is allowed to renature, no significant reactivation of GDP binding is observed unless the isolated fragments are mixed before renaturation. These results show that the two fragments are structurally and functionally interdependent.
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PMID:Limited proteolysis of elongation factor Tu from Escherichia coli, Multiple intermediates. 33 Jan 67

The crystal structure of trypsin-modified elongation factor Tu from Escherichia coli, in complex with the cofactor guanosine diphosphate has been refined to a crystallographic R-factor of 19.3%, at 2.6 A resolution. In the model described, the root-mean-square deviation from ideality is 0.019 A for bond distances and 3.9 degrees for angles. The protein consists of three domains: an alpha/beta domain (residues 1 to 200), containing the binding site of the GDP cofactor, and consisting of a six-stranded beta-pleated sheet, six alpha-helices, and two all-beta domains (residues 209 to 299 and 300 to 393), belonging to the tertiary structural class of antiparallel beta-barrels. The GDP-binding domain has a folding that is found in other GDP-binding proteins. Elongation factor Tu interacts with proteins, nucleic acids and nucleotides, making this molecule well suited as a model system for the study of these interactions.
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PMID:Refined structure of elongation factor EF-Tu from Escherichia coli. 154 16

Affinity labeling in situ of the Thermus thermophilus elongation factor Tu (EF-Tu) nucleotide binding site was achieved with periodate-oxidized GDP (GDPoxi) or GTP (GTPoxi) in the absence and presence of elongation factor Ts (EF-Ts). Lys52 and Lys137, both reacting with GDPoxi and GTPoxi, are located in the nucleotide binding region. In the absence of EF-Ts Lys137 and to a lesser extent Lys52 were accessible to the reaction with GTPoxi. GDPoxi reacted much more efficiently with Lys52 than with Lys137 under these conditions [Peter, M. E., Wittman-Liebold, B. & Sprinzl, M. (1988) Biochemistry 27, 9132-9138]. In the presence of EF-Ts, GDPoxi reacted more efficiently with Lys137 than with Lys52, indicating that the interaction of EF-Ts with EF-Tu.GDPoxi induces a conformation resembling that of the EF-Tu.GDPoxi complex in the absence of EF-Ts. Binding of EF-Ts to EF-Tu.GDP enhances the accessibility of the Arg59-Gly60 peptide bond of EF-Tu to trypsin cleavage. Hydrolysis of this peptide bond does not interfere with the ability of EF-Ts to bind to EF-Tu. EF-Ts is protected against trypsin cleavage by interaction with EF-Tu.GDP. High concentrations of EF-Ts did not interfere significantly with aminoacyl-tRNA.EF-Tu.GTP complex formation.
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PMID:Effect of Thermus thermophilus elongation factor Ts on the conformation of elongation factor Tu. 188 99

Three-dimensional models of the GDP and GTP forms of the guanine nucleotide domain of Escherichia coli elongation factor Tu have been derived from the atomic coordinates of the trypsin-modified form of EF-Tu-GDP and by comparison with the ras p21 structures. The significance of the differences in the guanine nucleotide binding sites of EF-Tu and ras p21 are discussed. Crystallization of the EF-Tu-GMPPNP complex is reported.
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PMID:Three-dimensional models of the GDP and GTP forms of the guanine nucleotide domain of Escherichia coli elongation factor Tu. 211 11

Crystals of a complex between the antibiotic tetracycline and the trypsin-modified form of the Escherichia coli protein elongation factor Tu have been grown in a form suitable for high-resolution X-ray diffraction analysis. The crystals belong to space group P2(1), with cell dimensions a = 69.7 A, b = 156.4 A, c = 135.4 A and beta = 95.3 degrees, and contain six molecules of the complex per asymmetric unit. The crystals are well ordered and diffract to a resolution of 2.3 A.
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PMID:Preliminary crystallographic analysis of a complex between tetracycline and the trypsin-modified form of Escherichia coli elongation factor Tu. 218 84

Native elongation factor Tu from Thermus thermophilus is initially attacked by various endoproteases in a region spanning amino acid residues 40-70. By comparing the hydrolysis rates of nucleotide-free and GDP-bound EF-Tu, only a small difference was observed for the tryptic cleavage at Arg-59. Protease V-8 attacks Glu-55 only in a GDP/GTP form, whereas this enzyme exclusively hydrolyze Asn-64 in nucleotide-free EF-Tu, even when the protein had been previously cleaved at Arg-59. Binding of GDP leads to a 42-fold decreased rate of hydrolysis by the Lys-C protease at Lys-52. It also reduces the accessibility of Lys-275 to trypsin, reflecting a "long-range" effect from nucleotide binding domain I to domain II. Only slight differences were observed in the rate of hydrolysis at all positions in the GDP- versus the GTP-bound form. The intrinsic GTPase activity was slightly reduced in trypsin-treated EF-Tu, significantly impaired in EF-Tu cleaved at Lys-52, and completely abolished in EF-Tu cleaved at Asn-64. No ribosome-induced GTPase activity was observed for protease-cleaved EF-Tu's. Treatment of these proteins with periodate-oxidized GDP or GTP followed by cyanoborohydride led to covalent modification of the new N-terminus located exclusively within region 52-60. The highest reactivity was shown by the N-terminus of Glu-56. Additionally, lysine residues in the native protein sensitive to affinity labeling [Peter, M.E., Wittmann-Liebold, B., & Sprinzl, M. (1988) Biochemistry 27, 9132-9139] lost their reactivity upon cleavage of EF-Tu in region 52-60, suggesting an altered structure of the cleaved protein.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mapping the effector region in Thermus thermophilus elongation factor Tu. 218 98

A fluorescence titration assay was used to detect the effects of various modifications of E.coli elongation factor Tu on the formation of the ternary complex with aminoacyl-tRNAs. The treatment of EF-Tu.GDP with TPCK, an analogue of the 3'terminus of aminoacyl-tRNA, was found to have no influence on the conversion of EF-Tu.GDP to 'active' EF-Tu.GTP, but does decrease the affinity of the activated protein for yeast aminoacyl-tRNA by more than three orders of magnitude. Modification of the elongation factor by limited cleavage with trypsin, leading to the excision of amino acid residues 45-58, has only a minor influence on ternary complex formation. The equilibrium dissociation constant of the ternary complex with this trypsin-treated EF-Tu.GTP and E.coli Phe-tRNA(Phe) is only one order of magnitude higher than that of the ternary complex with native EF-Tu. Mutations in the amino acid residues 222 and 375 of EF-Tu also have little effect on ternary complex formation. Compared with TPCK-treated EF-Tu, the affinities of the two mutant species, designated EF-tuAR and EF-TuBO respectively, for [AEDANS-s2C]Tyr-tRNA(Tyr) are only slightly reduced and in the same range as trypsin-cleaved EF-Tu.
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PMID:The influence of different modifications of elongation factor Tu from Escherichia coli on ternary complex formation investigated by fluorescence spectroscopy. 240 11

A 62-kDa polypeptide, which reacts with antibodies directed against a peptide corresponding to a portion of the amino-terminal structure of eucaryotic elongation factor Tu (eEF-Tu), was purified from the 0.5 M NaCl wash of rabbit reticulocyte polysomes. Previous work has shown that this polypeptide is a constituent of messenger ribonucleoprotein particles (mRNPs) from a variety of mammalian cell types [Greenberg, J.R. and Carroll, E. C. (1985) Mol. Cell Biol. 5, 342-351]. The purified polypeptide bound mRNA as well as rRNA using a nitrocellulose-filter assay. The same nitrocellulose-filter assay failed to detect binding to GTP. Using a competition-binding assay, it was established that the purified polypeptide interacts with poly(U) and poly(G) but not with poly(A). This preference for synthetic polynucleotides was the same as found for eEF-Tu [Slobin, L.I. (1983) J. Biol. Chem. 258, 4895-4900]. Furthermore, treatment of the purified RNA-binding protein with trypsin resulted in a rapid cleavage of two peptide bonds resulting in fragments of 60 kDa and 53 kDa. Trypsin also cleaves eEF-Tu rapidly at two bonds resulting in two large polypeptide fragments [Slobin, L.I., Clark, R.V. & Olson, M.O.J. (1981) Biochemistry 20, 5761-5767]. The amino acid sequence of the first 39 residues of the purified RNA-binding protein was determined and found to possess no homology to eEF-Tu.
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PMID:Purification and properties of a protein component of messenger ribonucleoprotein particles that shares a common epitope with eucaryotic elongation factor Tu. 245 88

The effect of guanine nucleotides and kirromycin on the conformation and stability of the chloroplast elongation factor Tu (EF-Tuchl) from Euglena gracilis has been investigated. Free EF-Tuchl is quite thermolabile but the protein is greatly stabilized by guanine nucleotides. The temperature dependence of the thermal inactivation of EF-Tuchl was used to calculate the amount of stabilization energy conferred by the guanine nucleotides. GDP increases the activation energy for the denaturation process by 77 kcal/mol while GTP increases the activation energy by 51 kcal/mol. The difference in heat stability of free EF-Tuchl and the EF-Tuchl.GDP complex was used to determine a dissociation constant of 1.3 x 10(-7) M at 37 degrees C. The temperature dependence of the dissociation constant allowed the calculation of a delta H degree obsd of -55 kcal/mol and a delta S degree obsd of -146 cal/(mol degree) for GDP binding to EF-Tuchl.EF-Tuchl was found to have a trypsin-sensitive region similar to that observed for Escherichia coli EF-Tu. This loop region was protected by GTP and kirromycin but not by GDP.
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PMID:Effect of guanine nucleotides on the conformation and stability of chloroplast elongation factor Tu. 249 66

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