Breakpoint Analysis for Cytogenetically Balanced Translocation Revealed Unexpected Complex Structural Abnormalities and Suggested the Position Effect for MEF2C

Many disease-causing genes have been identified by determining the breakpoints of balanced chromosomal translocations. Recent progress in genomic analysis has accelerated the analysis of chromosomal translocation-breakpoints at the nucleotide level. Using a long-read whole-genome sequence, we analyzed the breakpoints of the cytogenetically balanced chromosomal translocation t(5;15)(q21;26.3), which was confirmed to be of de novo origin, in a patient with a neurodevelopmental disorder. The results showed complex rearrangements with seven fragments consisting of five breakpoint-junctions (BJs). Four of the five BJs showed microhomologies of 1-3-bp, and only one BJ displayed a signature of blunt-end ligation, indicating chromothripsis as the underlying mechanism. Although the BJs did not disrupt any disease-causing gene, the clinical features of the patient were compatible with MEF2C haploinsufficiency syndrome. Complex rearrangements were located approximately 2.5-Mb downstream of MEF2C. Therefore, position effects were considered the mechanism of the occurrence of MEF2C haploinsufficiency syndrome.