Structural basis for conformational equilibrium of the catalytic spliceosome

The ATPase Prp16 governs equilibrium between the branching (B*/C) and exon ligation (C*/P) conformations of the spliceosome. Here, we present the electron cryomicroscopy reconstruction of the Saccharomyces cerevisiae C-complex spliceosome at 2.8 angstrom resolution and identify a novel C-complex intermediate (C-i) that elucidates the molecular basis for this equilibrium. The exon-ligation factors Prp18 and Slu7 bind to C-i before ATP hydrolysis by Prp16 can destabilize the branching conformation. Biochemical assays suggest that these pre-bound factors prime the C complex for conversion to C* by Prp16. A complete model of the Prp19 complex (NTC) reveals how the branching factors Yju2 and Isy1 are recruited by the NTC before branching. Prp16 remodels Yju2 binding after branching, allowing Yju2 to remain tethered to the NTC in the C* complex to promote exon ligation. Our results explain how Prp16 action modulates the dynamic binding of step-specific factors to alternatively stabilize the C or C* conformation and establish equilibrium of the catalytic spliceosome.

Automated summary

The ATPase Prp16 plays a crucial role in regulating the equilibrium between branching and exon ligation conformations of the spliceosome. The study reveals a novel C-complex intermediate and explains how pre-bound factors like Prp18 and Slu7 prime the C complex for conversion to C* by Prp16. Prp16's remodeling of Yju2 binding after branching allows for stable tethering of Yju2 to the NTC in the C* complex for promoting exon ligation.