Systematic evaluation of the effect of common SNPs on pre-mRNA splicing.

The evolutionary and biomedical importance of differential mRNA splicing is well established. Numerous studies have assessed patterns of differential splicing in different genes and correlated these patterns to the genotypes for adjacent single-nucleotide polymorphisms (SNPs). Here, we have chosen a reverse approach and screened dbSNP for common SNPs at either canonical splice sites or exonic splice enhancers (ESEs) that would be classified as putatively splicing-relevant by bioinformatic tools.

Single base-pair substitutions in exon-intron junctions of human genes: nature, distribution, and consequences for mRNA splicing.

Although single base-pair substitutions in splice junctions constitute at least 10% of all mutations causing human inherited disease, the factors that determine their phenotypic consequences at the RNA level remain to be fully elucidated. Employing a neural network for splice-site recognition, we performed a meta-analysis of 478 disease-associated splicing mutations, in 38 different genes, for which detailed laboratory-based mRNA phenotype assessment had been performed. Inspection of the +/-50-bp DNA sequence context of the mutations revealed that exon skipping was the preferred phenotype when the immediate vicinity of the affected exon-intron junctions was devoid of alternative splice-sites.