Context-dependent robustness to 5′ splice site polymorphisms in human populations
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There has been growing evidence for extensive diversity of alternative splicing in human populations. Genetic variants within the 5' splice site can cause splicing differences among human individuals and constitute an important class of human disease mutations. In this study, we explored whether natural variations of splicing could reveal important signals of 5' splice site recognition. In seven lymphoblastoid cell lines of Asian, European and African ancestry, we identified 1174 single nucleotide polymorphisms (SNPs) within the consensus 5' splice site. We selected 129 SNPs predicted to significantly alter the splice site activity, and quantitatively examined their splicing impact in the seven individuals. Surprisingly, outside of the essential GT dinucleotide position, only ∼14% of the tested SNPs altered splicing. Bioinformatic and minigene analyses identified signals that could modify the impact of 5' splice site polymorphisms, most notably a strong 3' splice site and the presence of intronic motifs downstream of the 5' splice site. Strikingly, we found that the poly-G run, a known intronic splicing enhancer, was the most significantly enriched motif downstream of exons unaffected by 5' splice site SNPs. In TRIM62, the upstream 3' splice site and downstream intronic poly-G runs functioned redundantly to protect an exon from its 5' splice site polymorphism. Collectively, our study reveals widespread context-dependent robustness to 5' splice site polymorphisms in human transcriptomes. Consequently, certain exons are more susceptible to 5' splice site mutations. Additionally, our work demonstrates that genetic diversity of alternative splicing can provide significant insights into the splicing code of mammalian cells.
author list (cited authors)
Lu, Z., Jiang, P., Cai, J. J., & Xing, Y. i.
complete list of authors
Lu, Zhi-xiang||Jiang, Peng||Cai, James J||Xing, Yi