Comprehensive analysis of genomic complexity in the 5’ end coding region of the DMD gene in patients of exons 1-2 duplications based on long-read sequencing

Abstract Backgroud Dystrophinopathies are the most common X-linked inherited muscle diseases, and the disease-causing gene is DMD . Exonic duplications are common type of pathogenic variants in DMD gene, however, 5’ end exonic duplications containing exon 1 are less common. When assessing the pathogenicity of exonic duplications in the DMD gene, consideration must be given to their impact on the reading frame. Traditional molecular methods, such as multiplex ligation-dependent probe amplification (MLPA) and next generation sequencing (NGS), are commonly used in clinic. However, they cannot discriminate the precise physical locations of breakpoints and structural features of genomic rearrangement. Long-read sequencing (LRS) can effectively overcome this limitation. Results We report three cases involving the duplications of exon 1 and/or exon 2 in DMD gene. The locations of the breakpoints and the characteristics of structural variants (SVs) are identified through LRS, enabling the classification of the variants' pathogenicity. Two distinct variant types encompassing exon 1 in the DMD Dp427m isoform and/or Dp427c isoform are identified, which have been infrequently reported previously. The male individuals harboring duplication variant of consecutive exons 1–2 in the DMD canonical transcript (Dp427m) and exon 1 in the Dp427c transcript are normal, indicating the variant is benign. However, one patient carries a complex SVs involving exon 1 of the DMD Dp427c transcript showing an obvious phenotype. Conclusions Our research sheds light on the complexity of DMD variants encompassing Dp427c/Dp427m promoter regions and emphasizes the importance of cautious interpretation when assessing the pathogenicity of DMD 5' end exonic duplications, particularly in carrier screening scenarios without an affected proband.