Introduction: Duchenne muscular dystrophy (DMD) (NM_004006.3) is one of the most notable neuromuscular disorders of early years. The majority of DMD cases are caused by deletions or duplications in dystrophin, while point mutations are less prevalent in dystrophin abnormalities. It is a common knowledge that the severity of the disease depends on the effect of the mutation on the translational reading frame of the dystrophin mRNA.
Case report: We studied an 8-year-old boy with relevant clinical presentations for DMD. Deletion/duplication screening was performed by using multiplex ligation-dependent probe amplification, and whole-exome sequencing was conducted in order to identify potential variants. A novel de novo splice site variant was identified in the DMD gene (DMD: c.8548-2A>G). To explore the effect of a novel variant in DMD, various in silico analyses were carried out to investigate the pathogenicity of the causative variant. To study the structure of a DMD protein and information on how the genetic variant impacts splicing site in models of wild-type and mutated DMD, we carried out different computational studies. Sanger sequencing was performed for the purpose of variant confirmation and familial segregation analysis.
Discussion: This novel de novo variant was predicted to have an effect on splicing, which leads to DMD due to its significant impacts on dystrophin functionality. The novel mutation would be expected to disrupt the protein structure.
Keywords: Duchenne muscular dystrophy gene; In silico analysis; Novel variant; Splice site mutation; Whole-exome sequencing.
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