ABSTRACT Carpenter syndrome type 2 (CRPT2) is a rare autosomal recessive disease mainly characterized by craniosynostosis and polysyndactyly. CRPT2 is the rarer subtype of Carpenter syndrome (CRPTS) and is caused by biallelic variants in the multiple epidermal growth factor‐like domains 8 gene ( MEGF8 ). Due to its rarity and phenotypic overlap with other craniosynostosis syndromes, definitive molecular diagnosis of CRPT2 can be challenging. Here, we describe a proband with CRPT2 carrying compound heterozygous variants in MEGF8 : one de novo variant disrupting splicing and a maternally inherited missense variant. To resolve these variants, we leveraged long‐read genome sequencing to phase the missense variant alleles and RNA sequencing to determine splicing impact. This case highlights the diagnostic value of using sequencing methods beyond the more conventional short‐read exome sequencing. Our findings expand the spectrum of MEGF8 variants causing CRPT2 and underscore the utility of emerging sequencing technologies in elucidating complex or previously unresolved genotypes. Expanding access to such technologies is anticipated to accelerate rare disease diagnosis and deepen our understanding of the genetic mechanisms underlying these conditions.
Rashidi et al. (Fri,) studied this question.