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下一代靶向外显子组高通量测序技术鉴定原发性纤毛运动障碍的基因突变:对临床检测应用的影响。

Next generation massively parallel sequencing of targeted exomes to identify genetic mutations in primary ciliary dyskinesia: implications for application to clinical testing.

机构信息

Departments of Genetics, the University of North Carolina Chapel Hill, North Carolina 27599-7264, USA.

出版信息

Genet Med. 2011 Mar;13(3):218-29. doi: 10.1097/GIM.0b013e318203cff2.

DOI:10.1097/GIM.0b013e318203cff2
PMID:21270641
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3755008/
Abstract

PURPOSE

Advances in genetic sequencing technology have the potential to enhance testing for genes associated with genetically heterogeneous clinical syndromes, such as primary ciliary dyskinesia. The objective of this study was to investigate the performance characteristics of exon-capture technology coupled with massively parallel sequencing for clinical diagnostic evaluation.

METHODS

We performed a pilot study of four individuals with a variety of previously identified primary ciliary dyskinesia mutations. We designed a custom array (NimbleGen) to capture 2089 exons from 79 genes associated with primary ciliary dyskinesia or ciliary function and sequenced the enriched material using the GS FLX Titanium (Roche 454) platform. Bioinformatics analysis was performed in a blinded fashion in an attempt to detect the previously identified mutations and validate the process.

RESULTS

Three of three substitution mutations and one of three small insertion/deletion mutations were readily identified using this methodology. One small insertion mutation was clearly observed after adjusting the bioinformatics handling of previously described SNPs. This process failed to detect two known mutations: one single-nucleotide insertion and a whole-exon deletion. Additional retrospective bioinformatics analysis revealed strong sequence-based evidence for the insertion but failed to detect the whole-exon deletion. Numerous other variants were also detected, which may represent potential genetic modifiers of the primary ciliary dyskinesia phenotype.

CONCLUSIONS

We conclude that massively parallel sequencing has considerable potential for both research and clinical diagnostics, but further development is required before widespread adoption in a clinical setting.

摘要

目的

遗传测序技术的进步有可能增强对与遗传异质性临床综合征相关基因的检测,例如原发性纤毛运动障碍。本研究的目的是研究外显子捕获技术与大规模平行测序在临床诊断评估中的性能特征。

方法

我们对四个具有多种先前确定的原发性纤毛运动障碍突变的个体进行了一项试点研究。我们设计了一个定制的(NimbleGen)阵列来捕获与原发性纤毛运动障碍或纤毛功能相关的 79 个基因的 2089 个外显子,并使用 GS FLX Titanium(罗氏 454)平台对富集的材料进行测序。生物信息学分析以盲法进行,试图检测先前确定的突变并验证该过程。

结果

使用这种方法可以轻松识别三个替换突变中的三个和三个小插入/缺失突变中的一个。在调整先前描述的 SNPs 的生物信息学处理后,明显观察到一个小的插入突变。该过程未能检测到两个已知突变:一个单核苷酸插入和一个整个外显子缺失。额外的回顾性生物信息学分析显示了插入的强烈基于序列的证据,但未能检测到整个外显子缺失。还检测到许多其他变体,它们可能代表原发性纤毛运动障碍表型的潜在遗传修饰因子。

结论

我们得出结论,大规模平行测序具有很大的研究和临床诊断潜力,但在临床环境中广泛采用之前还需要进一步发展。

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