RNA recognition by Npl3p reveals U2 snRNA-binding compatible with a chaperone role during splicing
Abstract
The conserved SR-like protein Npl3 promotes splicing of diverse pre-mRNAs. However, the RNA sequence(s) recognized by the RNA Recognition Motifs (RRM1 & RRM2) of Npl3 during the splicing reaction remain elusive. Here, we developed a split-iCRAC approach in yeast to uncover the consensus sequence bound to each RRM. High-resolution NMR structures show that RRM2 recognizes a 5´-GNGG-3´ motif leading to an unusual mille-feuille topology. These structures also reveal how RRM1 preferentially interacts with a CC-dinucleotide upstream of this motif, and how the inter-RRM linker and the region C-terminal to RRM2 contribute to cooperative RNA-binding. Structure-guided functional studies show that Npl3 genetically interacts with U2 snRNP specific factors and we provide evidence that Npl3 melts U2 snRNA stem-loop I, a prerequisite for U2/U6 duplex formation within the catalytic center of the Bact spliceosomal complex. Thus, our findings suggest an unanticipated RNA chaperoning role for Npl3 during spliceosome active site formation. Show more
Permanent link
https://doi.org/10.3929/ethz-b-000641862Publication status
publishedExternal links
Journal / series
Nature CommunicationsVolume
Pages / Article No.
Publisher
NatureSubject
Biochemistry; Cell biology; Structural biologyOrganisational unit
03591 - Allain, Frédéric / Allain, Frédéric
Funding
189379 - Structure determination of protein-RNA complexes involved in pre-mRNA splicing and translation regulation (SNF)
170130 - NMR structure determination of protein-RNA complexes involved in pre-mRNA splicing and translation regulation (SNF)
182880 - NCCR RNA#38;Disease (51NF40-182880): Flexibility Grant (SNF)
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