Interaction of the yeast splicing factor PRP8 with substrate RNA during both steps of splicing.

PRP8 protein of Saccharomyces cerevisiae interacts directly with pre-mRNA in spliceosomes, shown previously by UV-crosslinking. To analyse at which steps of splicing and with which precursor-derived RNA species the interaction(s) take place, UV-crosslinking was combined with PRP8-specific immunoprecipitation and the coprecipitated RNA species were analysed. Specific precipitation of intron-exon 2 and excised intron species was observed. PRP8 protein could be UV-crosslinked to pre-mRNA in PRP2-depleted spliceosomes stalled before initiation of the splicing reaction. Thus, the interaction of PRP8 protein with substrate RNA is established prior to the first transesterification reaction, is maintained during both steps of splicing and continues with the excised intron after completion of the splicing reaction. RNase T1 treatment of spliceosomes revealed that substrate RNA fragments of the 5' splice site region and the branchpoint-3' splice site region could be coimmunoprecipitated with PRP8 specific antibodies, indicating that these are potential sites of interaction for PRP8 protein with substrate RNA. Protection of the branch-point-3' splice site region was detected only after step 1 of splicing. The results allow a first glimpse at the pattern of PRP8 protein-RNA interactions during splicing and provide a fundamental basis for future analysis of these interactions

The HeLa 200 kDa U5 snRNP-specific protein and its homologue in Saccharomyces cerevisiae are members of the DEXH-box protein family of putative RNA helicases.

The primary structure of the 200 kDa protein of purified HeLa U5 snRNPs (U5-200kD) was characterized by cloning and sequencing of its cDNA. In order to confirm that U5-200kD is distinct from U5-220kD we demonstrate by protein sequencing that the human U5-specific 220 kDa protein is homologous to the yeast U5-specific protein Prp8p. A 246 kDa protein (Snu246p) homologous to U5-200kD was identified in Saccharomyces cerevisiae. Both proteins contain two conserved domains characteristic of the DEXH-box protein family of putative RNA helicases and RNA-stimulated ATPases. Antibodies raised against fusion proteins produced from fragments of the cloned mammalian cDNA interact specifically with the HeLa U5-200kD protein on Western blots and co-immunoprecipitate U5 snRNA and to a lesser extent U4 and U6 snRNAs from HeLa snRNPs. Similarly, U4, U5 and U6 snRNAs can be co-immunoprecipitated from yeast splicing extracts containing an HA-tagged derivative of Snu246p with HA-tag specific antibodies. U5-200kD and Snu246p are thus the first putative RNA helicases shown to be intrinsic components of snRNPs. Disruption of the SNU246 gene in yeast is lethal and leads to a splicing defect in vivo, indicating that the protein is essential for splicing. Anti-U5-200kD antibodies specifically block the second step of mammalian splicing in vitro, demonstrating for the first time that a DEXH-box protein is involved in mammalian splicing. We propose that U5-200kD and Snu246p promote one or more conformational changes in the dynamic network of RNA-RNA interactions in the spliceosome