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ABSTRACT: The acceptor stem of tRNA(Ala) from E. coli has been chemically synthesized and crystallized. This duplex contains a G.U base pair in position 3-70, which is the main identity element for alanyl-tRNA synthetase from E. coli. The crystals are stable in the X-ray beam for a long period of time and diffract to 1.7 A resolution. The monoclinic crystals reveal a C2 space group with a = 35.0, b = 47.5, c = 26.2 A, beta = 102.3 degrees and one acceptor stem per asymmetric unit.
Acta Crystallographica Section D Biological Crystallography 08/1996; 52(Pt 4):871-3. · 12.62 Impact Factor
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ABSTRACT: A ribooligonucleotide duplex representing the acceptor stem of E. coli RNA(Ala) with a G3-U70 wobble base pair, which is the main identity element for the recognition by the alanine-tRNA synthetase, has been characterized by 2D-NMR, as having two sequence variants with a regular Watson-Crick G3-C70 and an I3-U70 wobble pair, respectively. As compared to a regular A-RNA, the G-U base pair gives rise to variations of the local helix geometry which are reflected in distinct local chemical shift changes. Structural differences between the duplex possessing an I3-U70 base pair and the wild-type G3-U70 sequence have also been found. The nucleotides in the ubiquitous single-stranded NCCA terminus display a surprisingly high degree of stacking order, especially between A73, C74, and C75.
FEBS Letters 05/1996; 385(1-2):15-20. · 3.54 Impact Factor
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ABSTRACT: The interaction between the bovine mitochondrial translational elongation factor Tu.Ts complex (EF-Tu.Tsmt) and aminoacyl-tRNA has been investigated using a nuclease protection assay and fluorescence enhancement of [AEDANS-s2C]Tyr-tRNA(Tyr). The equilibrium dissociation constant, Kd, for the EF-Tu.Tsmt:GTP:E. coli Phe-tRNA complex is approximately 50 nM. A similar binding constant (30 nM) is obtained using bovine mitochondrial Phe-tRNA. The equilibrium binding constant for the EF-Tu.Tsmt:GTP:yeast [AEDANS-s2C]Tyr-tRNA(Tyr) complex is approximately 4 nM when determined using the fluorescence enhancement assay.
Nucleic Acids Symposium Series 02/1995;
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ABSTRACT: Several RNA duplexes corresponding to the acceptor arms of different tRNAs have been analyzed with respect to their divalent metal ion binding capability by means of proton NMR spectroscopy using paramagnetic Mn2+ ions as probes. In particular, the role of GU wobble base pairs has been analyzed with reference to their potential for creating metal ion binding sites. It is shown that both the structural modifications induced by GU pairs in the A-RNA geometry and the sequence context seem to affect the metal ion binding capabilities.
Nucleic Acids Research 01/1994; 21(25):5859-64. · 8.03 Impact Factor
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ABSTRACT: We have done a systematic study on the contribution of the single-stranded NCCA end (where N is any nucleotide) to the stability of the aminoacyl stem of tRNA. A 7-bp RNA duplex with the single-strand ACCA 3' terminus derived from the aminoacyl stem of Escherichia coli tRNA(Ala) and several chemically synthesized sequence variants are characterized by proton NMR and thermodynamic parameters. The single-stranded 3' terminus noticeably stabilizes the duplex in a sequence-dependent manner. Though the largest contribution to the stability gain due to the ACCA end is provided by the first dangling 3' nucleotide, the influence of even the fourth nucleotide is measurable. The nature of the N73 discriminator base influences the stem structure and stability, which may be important for the recognition of tRNA by aminoacyl-tRNA synthetase. The stepwise attachment of the nucleotides to the 3' tail improves the stacking of the unpaired bases over the helix stem. Hence, the ACCA end appears to be structured. Replacing Mg2+ with Mn2+ causes broadening of certain imino proton peaks in the NMR spectrum, indicating a specific divalent metal ion binding site in the vicinity of the major identity element of the duplex (G3-U70) that is required for its recognition by the Ala-tRNA synthetase.
Proceedings of the National Academy of Sciences 08/1993; 90(13):6199-202. · 9.68 Impact Factor
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ABSTRACT: The middle and C-terminal domain (domain II/III) of elongation factor Tu from Thermus thermophilus lacking the GTP/GDP binding domain have been prepared by treating nucleotide-free protein with Staphylococcus aureus V8 protease. The isolated domain II/III of EF-Tu has a compact structure and high resistance against tryptic treatment and thermal denaturation. As demonstrated by circular dichroism spectroscopy, the isolated domain II/III does not contain any alpha-helical structure. Nucleotide exchange factor, EF-Ts, was found to interact with domain II/III, whereas the binding of aminoacyl-tRNA, GDP and GTP to this EF-Tu fragment could not be detected.
Nucleic Acids Research 01/1991; 18(23):6889-93. · 8.03 Impact Factor
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ABSTRACT: The role of 2'-ribosylated adenosine 64 in tRNA(iMet) from yeast in initiation/elongation discrimination was investigated. As measured by in vitro translation in rabbit reticulocyte lysate, the specific removal of the 2'-ribosylphosphate at adenosine 64 via periodate oxidation allows tRNA(iMet) to read internal AUG codons of the globine messenger RNA. Yeast Met-tRNA(iMet) lacking the modification of nucleoside 64 forms ternary complexes with GTP and elongation factor Tu from Escherichia coli. The lack of modification at position 64 does not prevent tRNA(iMet) from participating in the initiation process of in vitro protein synthesis. Wheat germ tRNA(iMet) has a 2'-ribosylated guanosine at position 64. Removal of this modification from the wheat germ tRNA(iMet) enables it to read internal AUG codons of globine and tobacco mosaic virus messenger RNA in reticulocyte and wheat germ translation systems, respectively.
Nucleic Acids Research 09/1990; 18(16):4677-82. · 8.03 Impact Factor
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ABSTRACT: The interaction of 18 different Escherichia coli aminoacyl-tRNA species with elongation factor Tu and GTP has been measured by a fluorescence titration assay under equilibrium conditions. The dissociation constants range from 1.9 +/- 0.2.10(-10) M up to 1020 +/- 250.10(-10) M depending on the nucleotide sequence, secondary structure and the chemical composition of the aminoacyl residue of the particular aminoacyl-tRNA. The 'aminoacyl domain' of tRNA consisting of the single stranded, four-nucleotide-long 3'-terminus, aminoacyl stem of seven base-pairs, T-stem and T-loop contains all elements necessary for binding EF-Tu.GTP. The efficiency of aminoacyl-tRNA interaction with EF-Tu.GTP is modulated by the sequence of this 'aminoacyl domain' and by natural modification of its nucleotide residues. An oligoribonucleotide resembling the aminoacyl stem of E.coli tRNA(Ala) and consisting of a four-membered 3'-end, a stem of seven base-pairs and a loop of six nucleotides was prepared by total chemical synthesis on a polymer support. It can be enzymatically aminoacylated by alanine but does not bind in its aminoacylated form to EF-Tu.GTP.
Biochimica et Biophysica Acta 09/1990; 1050(1-3):222-5. · 4.66 Impact Factor
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ABSTRACT: Selenocysteine-incorporating tRNA(Sec)(UCA), the product of selC, was isolated from E.coli and aminoacylated with serine. The equilibrium dissociation constant for the interaction of Ser-tRNA(Sec)(UCA) with elongation factor Tu.GTP was determined to be 5.0 +/- 2.5 x 10(-8) M. Compared with the dissociation constants of the two elongator Ser-tRNA(Ser) species (Kd = 7 x 10(-10) M), the selenocysteine-incorporating UGA suppressor tRNA has an almost hundred fold weaker affinity for EF-Tu.GTP. This suggests a mechanism by which the Ser-tRNA(Sec) is prevented in recognition of UGA codons. This tRNA is not bound to EF-Tu.GTP and is converted to selenocysteinyl-tRNA(Sec). We also demonstrate the lack of an efficient interaction of Sec-tRNA(Sec)(UCA) with EF-Tu.GTP. The results of this work are in support of a mechanism by which the selenocysteine incorporation at UGA nonsense codons is mediated by an elongation factor other than EF-Tu.GTP.
Nucleic Acids Research 03/1990; 18(3):487-91. · 8.03 Impact Factor
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ABSTRACT: 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.
Nucleic Acids Research 03/1990; 18(3):437-41. · 8.03 Impact Factor
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ABSTRACT: Transfer ribonucleic acids containing 2-thiocytidine in position 75 ([s2C]tRNAs) were prepared by incorporation of the corresponding cytidine analogue into 3'-shortened tRNA using ATP(CTP):tRNA nucleotidyltransferase. [s2C]tRNA was selectively alkylated with fluorescent N-iodoacetyl-N'-(5-sulfo-1-naphthyl)ethylenediamine (1,5-I-AEDANS) on the 2-thiocytidine residue. The product [AEDANS-s2C]aminoacyl-tRNA, forms a ternary complex with Escherichia coli elongation factor Tu and GTP, leading to up to 130% fluorescence enhancement of the AEDANS chromophore. From fluorescence titration experiments, equilibrium dissociation constants of 0.24 nM, 0.22 nM and 0.60 nM were determined for yeast [AEDANS-s2C]Tyr-tRNATyr, yeast Tyr-tRNATyr, and the homologous E. coli Phe-tRNAPhe, respectively, interacting with E. coli elongation factor Tu.GTP. The measurement of the association and dissociation rates of the interaction of [AEDANS-s2C]Tyr-tRNATyr with EF-Tu.GTP and the temperature dependence of the resulting dissociation constants gave values of 55 J mol-1 K-1 for delta S degrees' and -34.7 kJ mol-1 for delta H degrees' of this reaction.
European Journal of Biochemistry 10/1989; 184(2):345-52. · 3.58 Impact Factor
