Abstract
Copy-number variable (CNV) genes are important in evolution and disease, yet sequence variation in CNV genes is a blindspot for large-scale studies. We present a method, ctyper, that leverages pangenomes to produce copy-number maps with allele-specific sequences containing locally phased variants of CNV genes from NGS reads. We extensively characterized accuracy and efficiency on a database of 3,351 CNV genes including HLA, SMN, and CYP2D6 as well as 212 non-CNV medically-relevant challenging genes. The genotypes capture 96.5% of underlying variants in new genomes, requiring 0.9 seconds per gene. Expression analysis of ctyper genotypes explains more variance than known eQTL variants. Comparing allele-specific expression quantified divergent expression on 7.94% of paralogs and tissue-specific biases on 4.7% of paralogs. We found reduced expression of SMN-1 converted from SMN-2, which potentially affects diagnosis of spinal muscular atrophy, and increased expression of a duplicative translocation of AMY2B. Overall, ctyper enables biobank-scale genotyping of CNV and challenging genes.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
The incorrect file was uploaded for supplementary material. The correct file is uploaded.