外显子组测序在一个 SCA14 家族中证明了其在诊断异质性疾病中的效用。
Exome sequencing in an SCA14 family demonstrates its utility in diagnosing heterogeneous diseases.
机构信息
Department of Molecular Neuroscience and Reta Lila Weston Laboratories, Institute of Neurology, University College London, London, UK.
出版信息
Neurology. 2012 Jul 10;79(2):127-31. doi: 10.1212/WNL.0b013e31825f048e. Epub 2012 Jun 6.
OBJECTIVE
Genetic heterogeneity is common in many neurologic disorders. This is particularly true for the hereditary ataxias where at least 36 disease genes or loci have been described for spinocerebellar ataxia and over 100 genes for neurologic disorders that present primarily with ataxia. Traditional genetic testing of a large number of candidate genes delays diagnosis and is expensive. In contrast, recently developed genomic techniques, such as exome sequencing that targets only the coding portion of the genome, offer an alternative strategy to rapidly sequence all genes in a comprehensive manner. Here we describe the use of exome sequencing to investigate a large, 5-generational British kindred with an autosomal dominant, progressive cerebellar ataxia in which conventional genetic testing had not revealed a causal etiology.
METHODS
Twenty family members were seen and examined; 2 affected individuals were clinically investigated in detail without a genetic or acquired cause being identified. Exome sequencing was performed in one patient where coverage was comprehensive across the known ataxia genes, excluding the known repeat loci which should be examined using conventional analysis.
RESULTS
A novel p.Arg26Gly change in the PRKCG gene, mutated in SCA14, was identified. This variant was confirmed using Sanger sequencing and showed segregation with disease in the entire family.
CONCLUSIONS
This work demonstrates the utility of exome sequencing to rapidly screen heterogeneous genetic disorders such as the ataxias. Exome sequencing is more comprehensive, faster, and significantly cheaper than conventional Sanger sequencing, and thus represents a superior diagnostic screening tool in clinical practice.
目的
遗传异质性在许多神经疾病中很常见。遗传性共济失调尤其如此,其中至少已经描述了 36 个疾病基因或位点用于脊髓小脑共济失调,超过 100 个基因用于主要表现为共济失调的神经疾病。对大量候选基因进行传统的遗传测试会延迟诊断并增加成本。相比之下,最近开发的基因组技术,如外显子组测序,仅针对基因组的编码部分,提供了一种替代策略,可以全面快速地对所有基因进行测序。在这里,我们描述了使用外显子组测序来研究一个具有常染色体显性遗传、进行性小脑共济失调的 5 代英国家系,其中常规遗传测试未发现因果病因。
方法
对 20 名家庭成员进行了观察和检查;2 名受影响的个体进行了详细的临床调查,但未发现遗传或获得性病因。在一名患者中进行了外显子组测序,该患者的覆盖范围全面涵盖了已知的共济失调基因,排除了应该使用常规分析检查的已知重复基因座。
结果
在 PRKCG 基因中发现了一个新的 p.Arg26Gly 变化,该突变与 SCA14 有关。该变体使用 Sanger 测序进行了确认,并在整个家族中与疾病分离。
结论
这项工作证明了外显子组测序在快速筛查遗传异质性疾病(如共济失调)方面的有效性。外显子组测序比传统的 Sanger 测序更全面、更快,而且成本显著降低,因此在临床实践中代表了一种优越的诊断筛选工具。
Zotero 插件