Structure of Phosphorylated SF1 Bound to U2AF65 in an Essential Splicing Factor Complex

SummaryThe essential splicing factors U2AF65 and SF1 cooperatively bind consensus sequences at the 3′ end of introns. Phosphorylation of SF1 on a highly conserved “SPSP” motif enhances its interaction with U2AF65 and the pre-mRNA. Here, we reveal that phosphorylation induces essential conformational changes in SF1 and in the SF1/U2AF65/3′ splice site complex. Crystal structures of the phosphorylated (P)SF1 domain bound to the C-terminal domain of U2AF65 at 2.29 Å resolution and of the unphosphorylated SF1 domain at 2.48 Å resolution demonstrate that phosphorylation induces a disorder-to-order transition within a previously unknown SF1/U2AF65 interface. We find by small-angle X-ray scattering that the local folding of the SPSP motif transduces into global conformational changes in the nearly full-length (P)SF1/U2AF65/3′ splice site assembly. We further determine that SPSP phosphorylation and the SF1/U2AF65 interface are essential in vivo. These results offer a structural prototype for phosphorylation-dependent control of pre-mRNA splicing factors.

Graphical AbstractFigure optionsDownload high-quality image (400 K)Download as PowerPoint slideHighlights
► Splicing factor SF1 phosphorylation on a conserved SPSP motif is required in vivo
► SPSP phosphorylation (P) induces local folding within an SF1/U2AF65 interface
► Phosphorylation promotes an acutely bent (P)SF1/U2AF65/RNA conformation