Optical genome mapping: Unraveling complex variations and enabling precise diagnosis in dystrophinopathy.

IF 4.4 2区医学 Q1 CLINICAL NEUROLOGY

Annals of Clinical and Translational Neurology Pub Date : 2024-11-22 DOI:10.1002/acn3.52245

Jiahui Mai, Jing Duan, Xiaoyu Chen, Liqin Liu, Dachao Liang, Tao Fu, Gang Lu, Wai Yee Chan, Xufeng Luo, Feiqiu Wen, Jianxiang Liao, Zhuo Li, Xinguo Lu

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引用次数: 0

Abstract

Objective: Approximately 7% of individuals with dystrophinopathy remain undiagnosed at the genetic level using conventional genetic tests like multiplex ligation-dependent probe amplification (MLPA) and next-generation sequencing (NGS). We used the optical genome mapping (OGM) technology to detect and analyze uncommon mutations or structural variations (SVs) within the DMD gene, thus contributing to more precise clinical diagnoses.

Methods: We herein included eight patients with dystrophinopathy (six males and two females) in whom pathogenic variants of the DMD gene could not be accurately identified using MLPA and NGS. Clinical data were collected for all patients and genetic testing was performed using OGM.

Results: Conventional methods (MLPA and NGS) failed to detect pathogenic mutations in six out of eight individuals (four males and two females). OGM testing uncovered rare mutations in the DMD gene in four patients, including a pericentric inversion in chromosome X (one male), a complex rearrangement (one male), and two X-autosome translocations (two females). No mutations were detected in the remaining two male patients. OGM also accurately mapped balanced X-autosome translocations in female patients, defining chromosomal breakpoints. In the other two male patients in whom MLPA suggested non-contiguous exon duplications or deletions in the DMD gene, OGM characterized one case as a complex rearrangement and the other as a deletion within the DMD gene.

Interpretation: OGM is a valuable diagnostic tool for dystrophinopathy patients with negative results from conventional genetic tests. It can effectively elucidate complex SVs and pinpoint breakpoints in X-autosomal translocations in female patients, facilitating prompt and appropriate interventions.

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光学基因组图谱：揭示复杂变异，实现肌营养不良症的精确诊断。

目的：使用多重连接依赖性探针扩增（MLPA）和下一代测序（NGS）等传统基因检测方法，仍有约 7% 的肌营养不良症患者在基因水平上无法确诊。我们利用光学基因组图谱（OGM）技术检测并分析了 DMD 基因中不常见的突变或结构变异（SV），从而为更精确的临床诊断做出了贡献：我们在此纳入了八名肌营养不良症患者（六男两女），这些患者的 DMD 基因致病变异无法通过 MLPA 和 NGS 准确鉴定。我们收集了所有患者的临床数据，并使用 OGM 进行了基因检测：结果：传统方法（MLPA 和 NGS）未能检测到 8 人中 6 人（4 男 2 女）的致病基因突变。OGM 检测发现四名患者的 DMD 基因存在罕见突变，包括 X 染色体室周倒位（一名男性）、复杂重排（一名男性）和两个 X 自体易位（两名女性）。其余两名男性患者未检测到突变。OGM 还准确绘制了女性患者的平衡 X-自体易位图，确定了染色体断点。在另外两名 MLPA 提示 DMD 基因存在非毗连外显子重复或缺失的男性患者中，OGM 将其中一例定性为复杂重排，另一例定性为 DMD 基因内的缺失：对于常规基因检测结果为阴性的肌营养不良症患者来说，OGM 是一种有价值的诊断工具。它能有效阐明复杂的SV，并精确定位女性患者X-常染色体易位的断裂点，有助于及时采取适当的干预措施。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Annals of Clinical and Translational Neurology Medicine-Neurology (clinical)

CiteScore

9.10

自引率

1.90%

发文量

218

审稿时长

8 weeks

期刊介绍： Annals of Clinical and Translational Neurology is a peer-reviewed journal for rapid dissemination of high-quality research related to all areas of neurology. The journal publishes original research and scholarly reviews focused on the mechanisms and treatments of diseases of the nervous system; high-impact topics in neurologic education; and other topics of interest to the clinical neuroscience community.