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Literature DB >> 32978268

Practical approach to the genetic diagnosis of unsolved dystrophinopathies: a stepwise strategy in the genomic era.

Zhiying Xie¹, Chengyue Sun¹, Yilin Liu¹, Meng Yu¹, Yiming Zheng¹, Lingchao Meng¹, Gao Wang², Diana M Cornejo-Sanchez², Thashi Bharadwaj², Jin Yan³, Lingxiang Zhang³, Nicolas Pineda-Trujillo⁴, Wei Zhang¹, Suzanne M Leal², Isabelle Schrauwen⁵, Zhaoxia Wang⁶, Yun Yuan⁶.

Abstract

OBJECTIVE: To investigate the diagnostic value of implementing a stepwise genetic testing strategy (SGTS) in genetically unsolved cases with dystrophinopathies.
METHODS: After routine genetic testing in 872 male patients with highly suspected dystrophinopathies, we identified 715 patients with a pathogenic DMD variant. Of the 157 patients who had no pathogenic DMD variants and underwent a muscle biopsy, 142 patients were confirmed to have other myopathies, and 15 suspected dystrophinopathies remained genetically undiagnosed. These 15 patients underwent a more comprehensive evaluation as part of the SGTS pipeline, which included the stepwise analysis of dystrophin mRNA, short-read whole-gene DMD sequencing, long-read whole-gene DMD sequencing and in silico bioinformatic analyses.
RESULTS: SGTS successfully yielded a molecular diagnosis of dystrophinopathy in 11 of the 15 genetically unsolved cases. We identified 8 intronic and 2 complex structural variants (SVs) leading to aberrant splicing in 10 of 11 patients, of which 9 variants were novel. In one case, a molecular defect was detected on mRNA and protein level only. Aberrant splicing mechanisms included 6 pseudoexon inclusions and 4 alterations of splice sites and splicing regulatory elements. We showed for the first time the exonisation of a MER48 element as a novel pathogenic mechanism in dystrophinopathies.
CONCLUSION: Our study highlights the high diagnostic utility of implementing a SGTS pipeline in dystrophinopathies with intronic variants and complex SVs. © Author(s) (or their employer(s)) 2021. No commercial re-use. See rights and permissions. Published by BMJ.

Entities: Chemical

Keywords: RNA cleavage; genetics; medical; neuromuscular diseases

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Substances：

Year: 2020 PMID： 32978268 DOI： 10.1136/jmedgenet-2020-107113

Source DB: PubMed Journal: J Med Genet ISSN： 0022-2593 Impact factor: 6.318

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Cited

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5. Exonization of a deep intronic long interspersed nuclear element in Becker muscular dystrophy.

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6. Splicing Characteristics of Dystrophin Pseudoexons and Identification of a Novel Pathogenic Intronic Variant in the DMD Gene.

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7. Long-read whole-genome sequencing for the genetic diagnosis of dystrophinopathies.

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