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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.全基因组测序和RNA测序在全外显子组测序阴性的复杂神经表型患者诊断中的效能
J Pediatr Genet. 2021 Nov 9;12(3):206-212. doi: 10.1055/s-0041-1736610. eCollection 2023 Sep.
2
Whole-genome sequencing is more powerful than whole-exome sequencing for detecting exome variants.在检测外显子变异方面,全基因组测序比全外显子测序更强大。
Proc Natl Acad Sci U S A. 2015 Apr 28;112(17):5473-8. doi: 10.1073/pnas.1418631112. Epub 2015 Mar 31.
3
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Comprehensive prenatal diagnostics: Exome versus genome sequencing.全面产前诊断:外显子组测序与基因组测序。
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Whole Genome Sequencing in the Evaluation of Fetal Structural Anomalies: A Parallel Test with Chromosomal Microarray Plus Whole Exome Sequencing.全基因组测序在胎儿结构畸形评估中的应用:染色体微阵列联合全外显子组测序的平行检测。
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Added Value of Reanalysis of Whole Exome- and Whole Genome Sequencing Data From Patients Suspected of Primary Immune Deficiency Using an Extended Gene Panel and Structural Variation Calling.对疑似原发性免疫缺陷患者的外显子组和全基因组测序数据进行重新分析,使用扩展基因panel 和结构变异calling,具有附加价值。
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Whole exome and genome sequencing in mendelian disorders: a diagnostic and health economic analysis.全外显子组和全基因组测序在孟德尔疾病中的应用:一项诊断和健康经济学分析。
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Inconsistency and features of single nucleotide variants detected in whole exome sequencing versus transcriptome sequencing: A case study in lung cancer.全外显子组测序与转录组测序中检测到的单核苷酸变异的不一致性及特征:一项肺癌病例研究
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Whole-genome sequencing offers additional but limited clinical utility compared with reanalysis of whole-exome sequencing.全基因组测序与全外显子组测序的重新分析相比提供了额外但有限的临床效用。
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From cytogenetics to cytogenomics: whole-genome sequencing as a first-line test comprehensively captures the diverse spectrum of disease-causing genetic variation underlying intellectual disability.从细胞遗传学到细胞基因组学:全基因组测序作为一线检测手段,全面捕捉到导致智力障碍的遗传变异的多样谱。
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本文引用的文献

1
New generation genetic testing entering the clinic.新一代基因检测进入临床。
Parkinsonism Relat Disord. 2020 Apr;73:72-84. doi: 10.1016/j.parkreldis.2020.02.015. Epub 2020 Mar 2.
2
Blood RNA analysis can increase clinical diagnostic rate and resolve variants of uncertain significance.血液 RNA 分析可以提高临床诊断率,并解决意义不确定的变异。
Genet Med. 2020 Jun;22(6):1005-1014. doi: 10.1038/s41436-020-0766-9. Epub 2020 Mar 3.
3
Systematic dissection of biases in whole-exome and whole-genome sequencing reveals major determinants of coding sequence coverage.系统剖析全外显子组测序和全基因组测序中的偏倚揭示了编码序列覆盖的主要决定因素。
Sci Rep. 2020 Feb 6;10(1):2057. doi: 10.1038/s41598-020-59026-y.
4
Choline transporter-like 1 deficiency causes a new type of childhood-onset neurodegeneration.胆碱转运蛋白样 1 缺乏导致一种新型儿童起病的神经退行性疾病。
Brain. 2020 Jan 1;143(1):94-111. doi: 10.1093/brain/awz376.
5
Whole genome sequencing and rare variant analysis in essential tremor families.原发性震颤家系的全基因组测序和罕见变异分析。
PLoS One. 2019 Aug 12;14(8):e0220512. doi: 10.1371/journal.pone.0220512. eCollection 2019.
6
Meta-analysis and multidisciplinary consensus statement: exome sequencing is a first-tier clinical diagnostic test for individuals with neurodevelopmental disorders.荟萃分析和多学科共识声明:外显子组测序是神经发育障碍个体的一线临床诊断测试。
Genet Med. 2019 Nov;21(11):2413-2421. doi: 10.1038/s41436-019-0554-6. Epub 2019 Jun 11.
7
Clinical, biochemical and genetic spectrum of 70 patients with ACAD9 deficiency: is riboflavin supplementation effective?70 例 ACAD9 缺乏症患者的临床、生化和遗传谱:核黄素补充有效吗?
Orphanet J Rare Dis. 2018 Jul 19;13(1):120. doi: 10.1186/s13023-018-0784-8.
8
Meta-analysis of the diagnostic and clinical utility of genome and exome sequencing and chromosomal microarray in children with suspected genetic diseases.基因组和外显子组测序以及染色体微阵列在疑似遗传疾病儿童中的诊断及临床应用的荟萃分析。
NPJ Genom Med. 2018 Jul 9;3:16. doi: 10.1038/s41525-018-0053-8. eCollection 2018.
9
Rapid whole-genome sequencing decreases infant morbidity and cost of hospitalization.快速全基因组测序可降低婴儿发病率和住院费用。
NPJ Genom Med. 2018 Apr 4;3:10. doi: 10.1038/s41525-018-0049-4. eCollection 2018.
10
Whole genome sequencing provides better diagnostic yield and future value than whole exome sequencing.全基因组测序比全外显子组测序具有更高的诊断率和更大的未来价值。
Med J Aust. 2018 Aug 3;209(5):197-199. doi: 10.5694/mja17.01176. Epub 2018 Apr 9.

全基因组测序和RNA测序在全外显子组测序阴性的复杂神经表型患者诊断中的效能

The Efficacy of Whole Genome Sequencing and RNA-Seq in the Diagnosis of Whole Exome Sequencing Negative Patients with Complex Neurological Phenotypes.

作者信息

Blake Bianca, Brady Lauren I, Rouse Nicholas A, Nagy Peter, Tarnopolsky Mark A

机构信息

Department of Pediatrics, John R. Oishei Children's Hospital, New York, United States.

Department of Pediatrics, McMaster University Medical Centre, Ontario, Canada.

出版信息

J Pediatr Genet. 2021 Nov 9;12(3):206-212. doi: 10.1055/s-0041-1736610. eCollection 2023 Sep.

DOI:10.1055/s-0041-1736610
PMID:37575640
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10421693/
Abstract

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.

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还可以检测到全外显子组测序(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(SNVs)。其他多组学工具,如RNA测序(RNA-Seq),可与WGS结合使用,通过检测基因表达和剪接的变化来对某些变异进行功能验证。这项回顾性研究的目的是在22例(20个家庭)患有儿童期起病神经表型且WES结果为阴性或不确定的患者队列中,测量基于双亲/三联体的WGS和RNA-Seq的诊断率,以替代重新分析。WGS联合RNA-Seq又明确诊断出另外25%的病例。这些确诊病例中有60%是通过识别WES遗漏的变异而得出的。在另外5%的病例中,发现了无法明确证明是导致患者病情原因的变异。