Research Information System
Journal of Medical Genetics, 2026 (SCI-Expanded, Scopus)
Schaaf-Yang syndrome and Prader-Willi syndrome are imprinting disorders that result from the disruption of paternally expressed genes within the 15q11-q13 region. Both conditions present with overlapping clinical features including developmental delay, hypotonia and endocrine abnormalities. Schaaf-Yang syndrome specifically results from heterozygous variants in the paternally expressed MAGEL2 gene. Because these variants are often de novo, determining that the variant is on the paternal allele is essential for a definitive diagnosis. Traditional methods, such as methylation-specific PCR, are labour-intensive, while it is challenging to phase variants separated by distances greater than the fragment length (~600 bp) using short-read sequencing. In this study, we used long-read Oxford Nanopore sequencing to perform trio-assisted phasing of a de novo MAGEL2, p.(Gln638Ter) variant identified in two unrelated probands referred for congenital hyperinsulinism genetic testing. Long reads spanning both the variant and informative parental heterozygous variants confirmed that the variant was on the paternal allele and was therefore pathogenic and causative of Schaaf-Yang syndrome and associated with hyperinsulinism in both individuals. Our findings demonstrate the clinical utility of long-read sequencing for enabling trio-assisted variant phasing in imprinting disorders, particularly when phenotypes are incomplete or overlapping. Our findings further highlight congenital hyperinsulinism as a rare but important feature associated with Schaaf-Yang syndrome.