Abstract
Nonsense-mediated decay (NMD) is a eukaryotic quality control mechanism that degrades mRNAs carrying premature stop codons. In mammalian cells, NMD is triggered when UPF2 bound to UPF3 on a downstream exon junction complex interacts with UPF1 bound to a stalled ribosome. We report structural studies on the interaction between the C-terminal region of UPF2 and intact UPF1. Crystal structures, confirmed by EM and SAXS, show that the UPF1 CH-domain is docked onto its helicase domain in a fixed configuration. The C-terminal region of UPF2 is natively unfolded but binds through separated α-helical and β-hairpin elements to the UPF1 CH-domain. The α-helical region binds sixfold more weakly than the β-hairpin, whereas the combined elements bind 80-fold more tightly. Cellular assays show that NMD is severely affected by mutations disrupting the beta-hairpin binding, but not by those only affecting alpha-helix binding. We propose that the bipartite mode of UPF2 binding to UPF1 brings the ribosome and the EJC in close proximity by forming a tight complex after an initial weak encounter with either element.
Original language | English |
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Pages (from-to) | 2293-2306 |
Number of pages | 14 |
Journal | EMBO Journal |
Volume | 28 |
Issue number | 15 |
DOIs | |
State | Published - Aug 2009 |
Keywords
- NMR
- Nonsense mediate decay (NMD)
- UPF1
- UPF2
- X-ray crystallography
- mRNA quality control