全基因组测序和RNA-Seq在复杂神经表型全外显子组测序阴性患者诊断中的作用

IF 0.4 Q4 PEDIATRICS Journal of pediatric genetics Pub Date : 2023-09-01 DOI:10.1055/s-0041-1736610
Bianca Blake, Lauren I Brady, Nicholas A Rouse, Peter Nagy, Mark A Tarnopolsky
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引用次数: 0

摘要

全基因组测序(WGS)通过对外显子组和其余98%至99%的遗传密码进行测序,越来越多地用于神经系统疾病的诊断。除了更全面的覆盖范围外,WGS还可以检测全外显子组测序(WES)或染色体微阵列(CMA)无法识别的结构变异(SVs)和内含子变异(snv)。其他多组学工具,如RNA测序(RNA- seq),可以与WGS结合使用,通过检测基因表达和剪接的变化,从功能上验证某些变异。本回顾性研究的目的是在22名儿童发病神经表型患者(20个家庭)中测量基于二/三的WGS和RNA-Seq的诊断率,这些患者的WES结果为阴性或不确定,以代替重新分析。带有RNA-Seq的WGS对另外25%的病例进行了明确诊断。在这些已解决的病例中,有60%是由于发现了WES未发现的变异。在另外5%的病例中发现了不能明确证明是导致患者病情的变异。
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The Efficacy of Whole Genome Sequencing and RNA-Seq in the Diagnosis of Whole Exome Sequencing Negative Patients with Complex Neurological Phenotypes.

Whole-genome sequencing (WGS) is being increasingly utilized for the diagnosis of neurological disease by sequencing both the exome and the remaining 98 to 99% of the genetic code. In addition to more complete coverage, WGS can detect structural variants (SVs) and intronic variants (SNVs) that cannot be identified by whole exome sequencing (WES) or chromosome microarray (CMA). Other multi-omics tools, such as RNA sequencing (RNA-Seq), can be used in conjunction with WGS to functionally validate certain variants by detecting changes in gene expression and splicing. The objective of this retrospective study was to measure the diagnostic yield of duo/trio-based WGS and RNA-Seq in a cohort of 22 patients (20 families) with pediatric onset neurological phenotypes and negative or inconclusive WES results in lieu of reanalysis. WGS with RNA-Seq resulted in a definite diagnosis of an additional 25% of cases. Sixty percent of these solved cases arose from the identification of variants that were missed by WES. Variants that could not be unequivocally proven to be causative of the patients' condition were identified in an additional 5% of cases.

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期刊介绍: The Journal of Pediatric Genetics is an English multidisciplinary peer-reviewed international journal publishing articles on all aspects of genetics in childhood and of the genetics of experimental models. These topics include clinical genetics, molecular genetics, biochemical genetics, medical genetics, dysmorphology, teratology, genetic counselling, genetic engineering, formal genetics, neuropsychiatric genetics, behavioral genetics, community genetics, cytogenetics, hereditary or syndromic cancer genetics, genetic mapping, reproductive genetics, fetal pathology and prenatal diagnosis, multiple congenital anomaly syndromes, and molecular embryology of birth defects. Journal of Pediatric Genetics provides an in-depth update on new subjects and current comprehensive coverage of the latest techniques used in the diagnosis of childhood genetics. Journal of Pediatric Genetics encourages submissions from all authors throughout the world. The following articles will be considered for publication: editorials, original and review articles, short report, rapid communications, case reports, letters to the editor, and book reviews. The aim of the journal is to share and disseminate knowledge between all disciplines in the field of pediatric genetics. This journal is a publication of the World Pediatric Society: http://www.worldpediatricsociety.org/ The Journal of Pediatric Genetics is available in print and online. Articles published ahead of print are available via the eFirst service on the Thieme E-Journals platform.
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