(A) Targeted RT-PCR and long-read sequencing of SCN1A transcripts in control iNeurons shows rare inclusion of alternatively spliced exons in intron 1 (left) and intron 22 (right). Shown are representative views of reads displayed in Integrative Genomics Viewer. Note that SCN1A is located on the negative (–) strand of chromosome 2, and therefore its sequence is displayed from right to left. (B) Sashimi plots showing alternative splicing of 1N (left) and 22N (right) in iNeurons from healthy controls. PE, poison exon. (C) In-frame in silico translation starting from the nearest 5′ canonical exon shows that 1N (left) and 22N (right) each introduce a PTC (red asterisk) when spliced into the reading frame, suggesting they could serve as poison exons. The portion of the translation identical to the canonical SCN1A protein sequence is highlighted, with the unhighlighted portion representing the contribution of the poison exon. (D) Poison exons, associated pathogenic variants, and conservation. The poison exons, their related variants, the GERP score, and UCSC conservation track (Multiz alignments for vertebrate species) are shown. The GERP score is an estimate of evolutionary constraint (scale: 0 to 7; positive scores suggest evolutionary constraint) (40). From left to right: 1N is poorly conserved and overlaps with a SINE (gray bar), suggesting that it may have occurred due to a recent retrotransposition event during primate evolution. 20N, previously described, is well conserved in most mammalian species. 22N only shows limited conservation in primates.