Radioactively labeled 4.5S RNA containing statistically distributed 4-thiouridine residues in place of normal uridine was prepared by T7 transcription. The ability of this modified 4.
View Article and Find Full Text PDFThe delivery of a specific amino acid to the translating ribosome is fundamental to protein synthesis. The binding of aminoacyl-transfer RNA to the ribosome is catalysed by the elongation factor Tu (EF-Tu). The elongation factor, the aminoacyl-tRNA and GTP form a stable 'ternary' complex that binds to the ribosome.
View Article and Find Full Text PDFWe describe the locations of sites within the 3D model for the 16 S rRNA (described in two accompanying papers) that are implicated in ribosomal function. The relevant experimental data originate from many laboratories and include sites of foot-printing, cross-linking or mutagenesis for various functional ligands. A number of the sites were themselves used as constraints in building the 16 S model.
View Article and Find Full Text PDFThe three-dimensional structure of the translating 70S E. coli ribosome is presented in its two main conformations: the pretranslocational and the posttranslocational states. Using electron cryomicroscopy and angular reconstitution, structures at 20 A resolution were obtained, which, when compared with our earlier reconstruction of "empty" ribosomes, showed densities corresponding to tRNA molecules--at the P and E sites for posttranslocational ribosomes and at the A and P sites for pretranslocational ribosomes.
View Article and Find Full Text PDFThe naturally occurring nucleotide 3-(3-amino-3-carboxy-propyl) uridine ("acp3U") at position 20:1 of lupin tRNAMet was coupled to a photoreactive diazirine derivative. Similarly, the 4-thiouridine at position 8 of Escherichia coli tRNAPhe was modified with an aromatic azide. Each of the derivatized tRNAs was bound to E.
View Article and Find Full Text PDFTwo experimentally unrelated approaches are converging to give a first low-resolution solution to the question of the three-dimensional organization of the ribosomal RNA from Escherichia coli. The first of these is the continued use of biochemical techniques, such as cross-linking, that provide information on the relative locations of different regions of the RNA. In particular, recent data identifying RNA regions that are juxtaposed to functional ligands such as mRNA or tRNA have been used to construct improved topographical models for the 16S and 23S RNA.
View Article and Find Full Text PDFmRNA analogues containing several 4-thiouridine (thio-U) residues at selected positions were prepared by T7-transcription. The spacer region between the Shine-Dalgarno sequence and the AUG codon consisted of four or eight bases with a single thio-U at a variable position; alternatively, cro-mRNA analogues were used carrying the thio-U substituted spacer sequence UUGU. The mRNAs were bound to E.
View Article and Find Full Text PDFProc Natl Acad Sci U S A
May 1994
A DNA fragment containing the Escherichia coli 5S rDNA sequence linked to a T7 promoter was prepared by PCR from an M13 clone carrying the 5S-complementary sequence. The DNA was transcribed with T7 polymerase using a mixture of [alpha-32P]UTP and 4-thio-UTP, yielding a transcript in which approximately 18% of the uridine residues were randomly replaced by thiouridine. This modified 5S RNA could be reconstituted efficiently into 50S ribosomal subunits or 70S functional complexes.
View Article and Find Full Text PDFmRNA analogues containing 4-thiouridine residues at selected sites were used to extend our analysis of photo-induced cross-links between mRNA and 16S RNA to cover the entire downstream range between positions +1 and +16 on the mRNA (position +1 is the 5'-base of the P-site codon). No tRNA-dependent cross-links were observed from positions +1, +2, +3 or +5. Position +4 on the mRNA was cross-linked in a tRNA-dependent manner to 16S RNA at a site between nucleotides ca 1402-1415 (most probably to the modified residue 1402), and this was absolutely specific for the +4 position.
View Article and Find Full Text PDFSynthetic mRNA analogues were prepared by T7 transcription, each containing several thio-uridine residues at selected positions. After binding to the ribosome in the presence of cognate tRNA, the thio-U residues were activated by UV irradiation and the resulting sites of cross-linking to 16S RNA analysed. Three distinct cross-links were consistently observed: (i) from position '+6' of the mRNA (the 3'-base of the A-site codon) to base 1052 of 16S RNA; (ii) from position '+7' of the mRNA to base 1395; and (iii) from '+11' to base 532.
View Article and Find Full Text PDFmRNA analogues approximately 40 bases long were prepared by T7 transcription from synthetic DNA templates. Each message contained the sequence ACC-GCG (coding for threonine and alanine, respectively), together with a single thio-U residue located at a variable position on the 3'-side of these coding triplets. The thio-U residue was either substituted with 4-azidophenacyl bromide to introduce a photo-reactive group, or was left unsubstituted for direct UV cross-linking.
View Article and Find Full Text PDFA large number of intra-RNA and RNA-protein cross-link sites have been localized within the 23S RNA from E. coli 50 S ribosomal subunits. These sites, together with other data, are sufficient to constrain the secondary structure of the 23 S molecule into a compact three-dimensional shape.
View Article and Find Full Text PDFThree different mRNA analogues (28 to 34 nucleotides long) were prepared by T7 transcription from synthetic DNA templates. Each message contained the sequence ACC-GCG (coding for threonine and alanine, respectively), together with a single thio-U residue located at a variable position on the 5'-side of these coding triplets. A photo-reactive group was introduced by substitution of the thio-U with 4-azidophenacyl bromide.
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