Abstract

The human splicing factor ASF/SF2 (alternative splicing factor/splicing factor 2) is modular in structure with two RNA-binding domains (RBD1 and RBD2) and a C-terminal domain rich in arginine-serine dipeptide repeats. ASF/SF2 is an essential splicing factor that also functions as an important regulator of alternative splicing. In adenovirus E1A (early region 1A) alternative pre-mRNA splicing, ASF/SF2 functions as a strong inducer of proximal 5'-splice-site selection, both in vitro and in vivo. In the present study, we tested the functional role of individual domains of ASF/SF2 in alternative splicing in vitro. We show that ASF/SF2-RBD2 is the critical domain controlling E1A alternative splicing. In fact, RBD2 alone is sufficient to mimic the activity of the full-length ASF/SF2 protein as an inducer of proximal 5'-splice-site selection in vitro. The RBD2 domain induces a switch to E1A-proximal 5'-splice-site usage by repressing distal 12 S splicing and simultaneously stimulates proximal 13 S splicing. In contrast, the ASF/SF2-RBD1 domain has a more general splicing enhancer phenotype and appears to stimulate preferentially cap-proximal 5'-splice-site selection. Furthermore, the SWQDLKD motif, which is conserved in all SR proteins (serine/arginine-rich proteins) containing two RBDs, and the ribonucleoprotein-1-type RNA recognition motif were both found to be necessary for the alternative splice-site-switching activity of ASF/SF2. The RNP-1 motif was necessary for efficient RNA binding, whereas the SWQDLKD motif most probably contributes by functioning as a surface-mediating critical protein-protein contact during spliceosome assembly.

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