Database of articles cited by EMDB/PDB/SASBDB data

Keywords
Structure methods	All X-ray diffraction NMR electron microscopy small angle scattering neutron diffraction fiber diffraction powder diffraction infrared spectroscopy EPR fluorescence transfer theoretical model Hybrid
Author
Journal
IF	>30 >20 >10 >5 all

Title	Hepatitis-C-virus-like internal ribosome entry sites displace eIF3 to gain access to the 40S subunit.
Journal, issue, pages	Nature, Vol. 503, Issue 7477, Page 539-543, Year 2013
Publish date	Nov 28, 2013
Authors	Yaser Hashem / Amedee des Georges / Vidya Dhote / Robert Langlois / Hstau Y Liao / Robert A Grassucci / Tatyana V Pestova / Christopher U T Hellen / Joachim Frank /
PubMed Abstract	Hepatitis C virus (HCV) and classical swine fever virus (CSFV) messenger RNAs contain related (HCV-like) internal ribosome entry sites (IRESs) that promote 5'-end independent initiation of ...Hepatitis C virus (HCV) and classical swine fever virus (CSFV) messenger RNAs contain related (HCV-like) internal ribosome entry sites (IRESs) that promote 5'-end independent initiation of translation, requiring only a subset of the eukaryotic initiation factors (eIFs) needed for canonical initiation on cellular mRNAs. Initiation on HCV-like IRESs relies on their specific interaction with the 40S subunit, which places the initiation codon into the P site, where it directly base-pairs with eIF2-bound initiator methionyl transfer RNA to form a 48S initiation complex. However, all HCV-like IRESs also specifically interact with eIF3 (refs 2, 5-7, 9-12), but the role of this interaction in IRES-mediated initiation has remained unknown. During canonical initiation, eIF3 binds to the 40S subunit as a component of the 43S pre-initiation complex, and comparison of the ribosomal positions of eIF3 and the HCV IRES revealed that they overlap, so that their rearrangement would be required for formation of ribosomal complexes containing both components. Here we present a cryo-electron microscopy reconstruction of a 40S ribosomal complex containing eIF3 and the CSFV IRES. Remarkably, although the position and interactions of the CSFV IRES with the 40S subunit in this complex are similar to those of the HCV IRES in the 40S-IRES binary complex, eIF3 is completely displaced from its ribosomal position in the 43S complex, and instead interacts through its ribosome-binding surface exclusively with the apical region of domain III of the IRES. Our results suggest a role for the specific interaction of HCV-like IRESs with eIF3 in preventing ribosomal association of eIF3, which could serve two purposes: relieving the competition between the IRES and eIF3 for a common binding site on the 40S subunit, and reducing formation of 43S complexes, thereby favouring translation of viral mRNAs.
External links	Nature / PubMed:24185006 / PubMed Central
Methods	EM (single particle)
Resolution	8.5 - 9.3 Å
Structure data	2450 4c4q EMDB-2450, PDB-4c4q: Cryo-EM map of the CSFV IRES in complex with the small ribosomal 40S subunit and DHX29 Method: EM (single particle) / Resolution: 8.5 Å EMDB-2451: Cryo-EM structure of the CSFV IRES in complex with eIF3, small ribosomal 40S subunit and DHX29 Method: EM (single particle) / Resolution: 9.3 Å
Source	Oryctolagus cuniculus (rabbit) classical swine fever virus Homo sapiens (human)
Keywords	RNA / INTERNAL RIBOSOMAL ENTRY SITE / 5'-END INDEPENDENT INITIATION / HCV-LIKE IRES