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Literature DB >> 15272121

New tertiary constraints between the RNA components of active yeast spliceosomes: a photo-crosslinking study.

Daniel E Ryan¹, Chang Hee Kim, James B Murray, Chris J Adams, Peter G Stockley, John Abelson.

Abstract

Elucidation of the three-dimensional (3D) structures of the two sequential active sites in spliceosomes is essential for understanding the mechanism of premessenger RNA splicing. The mechanism is predicted to be catalyzed by the small nuclear RNA (snRNA) components of spliceosomes. To obtain new tertiary constraints between the RNA components, we produced and mapped crosslinks between U6 snRNA and the proximal RNAs of active yeast spliceosomes ("yeast" in this report is Saccharomyces cerevisiae). Thus, specific sites in U6, when substituted with a photoreactive 4-thiouridine or 5-iodouridine, produced spliceosome-dependent crosslinks to U2 snRNA, or in one case, to the pre-mRNA substrate. One set of U2-U6 crosslinks formed before the Prp2p-dependent step of spliceosome assembly, whereas another set formed during or after this step but before the first chemical step of splicing. This latter set of crosslinks formed across U2-U6 helix I. Importantly, this set provides new tertiary constraints for developing 3D models of fully assembled yeast spliceosomes, which are poised for the first chemical step of splicing.

Entities: Chemical Gene Species

Mesh：

Substances：

Year: 2004 PMID： 15272121 PMCID： PMC1370615 DOI： 10.1261/rna.7060404

Source DB: PubMed Journal: RNA ISSN： 1355-8382 Impact factor: 4.942

49 in total

1. Metal ion catalysis during the exon-ligation step of nuclear pre-mRNA splicing: extending the parallels between the spliceosome and group II introns.

Authors: P M Gordon; E J Sontheimer; J A Piccirilli
Journal: RNA Date: 2000-02 Impact factor: 4.942

New tertiary constraints between the RNA components of active yeast spliceosomes: a photo-crosslinking study.

1. Metal ion catalysis during the exon-ligation step of nuclear pre-mRNA splicing: extending the parallels between the spliceosome and group II introns.

2. Yeast U1 snRNP-pre-mRNA complex formation without U1snRNA-pre-mRNA base pairing.

3. Composition and functional characterization of the yeast spliceosomal penta-snRNP.

4. A novel U2 and U11/U12 snRNP protein that associates with the pre-mRNA branch site.

Review 5. Pre-mRNA splicing in the new millennium.

6. Purification and characterization of native spliceosomes suitable for three-dimensional structural analysis.

7. The structural basis of ribosome activity in peptide bond synthesis.

8. Large-scale proteomic analysis of the human spliceosome.

9. Metal ion catalysis during group II intron self-splicing: parallels with the spliceosome.

10. Metal-ion coordination by U6 small nuclear RNA contributes to catalysis in the spliceosome.

1. Structure of the yeast U2/U6 snRNA complex.

2. Free energy landscapes of RNA/RNA complexes: with applications to snRNA complexes in spliceosomes.

3. Proximity of conserved U6 and U2 snRNA elements to the 5' splice site region in activated spliceosomes.

4. Three essential and conserved regions of the group II intron are proximal to the 5'-splice site.

5. The conserved 3' end domain of U6atac snRNA can direct U6 snRNA to the minor spliceosome.

Review 6. "Nought may endure but mutability": spliceosome dynamics and the regulation of splicing.

7. Conformational heterogeneity of the protein-free human spliceosomal U2-U6 snRNA complex.

8. RNA crosslinking methods.

9. Spliceosome assembly in the absence of stable U4/U6 RNA pairing.

10. Evidence for a group II intron-like catalytic triplex in the spliceosome.