Structure of the ribosome-bound cricket paralysis virus IRES RNA
- 19 November 2006
- journal article
- research article
- Published by Springer Science and Business Media LLC in Nature Structural & Molecular Biology
- Vol. 13 (12), 1092-1096
- https://doi.org/10.1038/nsmb1177
Abstract
Internal ribosome entry sites (IRESs) facilitate an alternative, end-independent pathway of translation initiation. A particular family of dicistroviral IRESs can assemble elongation-competent 80S ribosomal complexes in the absence of canonical initiation factors and initiator transfer RNA. We present here a cryo-EM reconstruction of a dicistroviral IRES bound to the 80S ribosome. The resolution of the cryo-EM reconstruction, in the subnanometer range, allowed the molecular structure of the complete IRES in its active, ribosome-bound state to be solved. The structure, harboring three pseudoknot-containing domains, each with a specific functional role, shows how defined elements of the IRES emerge from a compactly folded core and interact with the key ribosomal components that form the A, P and E sites, where tRNAs normally bind. Our results exemplify the molecular strategy for recruitment of an IRES and reveal the dynamic features necessary for internal initiation.Keywords
This publication has 35 references indexed in Scilit:
- Localization and dynamic behavior of ribosomal protein L30eNature Structural & Molecular Biology, 2005
- Electron Cryomicroscopy of Biological Machines at Subnanometer ResolutionStructure, 2005
- A preformed compact ribosome-binding domain in the cricket paralysis-like virus IRES RNAsRNA, 2005
- Cryo-EM Visualization of a Viral Internal Ribosome Entry Site Bound to Human RibosomesCell, 2004
- Translation elongation after assembly of ribosomes on the Cricket paralysis virus internal ribosomal entry site without initiation factors or initiator tRNAGenes & Development, 2003
- Crystal Structure of the Ribosome at 5.5 Å ResolutionScience, 2001
- Hepatitis C Virus IRES RNA-Induced Changes in the Conformation of the 40 S Ribosomal SubunitScience, 2001
- The Complete Atomic Structure of the Large Ribosomal Subunit at 2.4 Å ResolutionScience, 2000
- Determination of the fold of the core protein of hepatitis B virus by electron cryomicroscopyNature, 1997
- SPIDER and WEB: Processing and Visualization of Images in 3D Electron Microscopy and Related FieldsJournal of Structural Biology, 1996