Solution structure of domain 5 of a group II intron ribozyme reveals a new RNA motif
- 25 January 2004
- journal article
- research article
- Published by Springer Nature in Nature Structural & Molecular Biology
- Vol. 11 (2) , 187-192
- https://doi.org/10.1038/nsmb717
Abstract
Domain 5 (D5) is the central core of group II intron ribozymes. Many base and backbone substituents of this highly conserved hairpin participate in catalysis and are crucial for binding to other intron domains. We report the solution structures of the 34-nucleotide D5 hairpin from the group II intron ai5γ in the absence and presence of divalent metal ions. The bulge region of D5 adopts a novel fold, where G26 adopts a syn conformation and flips down into the major groove of helix 1, close to the major groove face of the catalytic AGC triad. The backbone near G26 is kinked, exposing the base plane of the adjacent A-U pair to the solvent and causing bases of the bulge to stack intercalatively. Metal ion titrations reveal strong Mg2+ binding to a minor groove shelf in the D5 bulge. Another distinct metal ion–binding site is observed along the minor groove side of the catalytic triad, in a manner consistent with metal ion binding in the ribozyme active site.Keywords
This publication has 40 references indexed in Scilit:
- Comparative and functional anatomy of group II catalytic introns — a reviewPublished by Elsevier ,2003
- Towards Structural Genomics of RNA: Rapid NMR Resonance Assignment and Simultaneous RNA Tertiary Structure Determination Using Residual Dipolar CouplingsJournal of Molecular Biology, 2002
- Direct Evidence for Watson−Crick Base Pairs in a Dynamic Region of RNA StructureJournal of the American Chemical Society, 2000
- Prediction of Sterically Induced Alignment in a Dilute Liquid Crystalline Phase: Aid to Protein Structure Determination by NMRJournal of the American Chemical Society, 2000
- Solution structure of Cobalt(III)Hexammine complexed to the GAAA tetraloop, and metal-ion binding to G·A mismatchesJournal of Molecular Biology, 2000
- Stepping through an RNA structure: a novel approach to conformational analysisJournal of Molecular Biology, 1998
- Torsion angle dynamics for NMR structure calculation with the new program DyanaJournal of Molecular Biology, 1997
- Catalytic Role of 2′-Hydroxyl Groups Within a Group II Intron Active SiteScience, 1996
- MOLMOL: A program for display and analysis of macromolecular structuresJournal of Molecular Graphics, 1996
- Group II self-splicing introns in bacteriaNature, 1993