家系性地中海热基因（MEFV）-单核苷酸多态性-纳米孔与常规 Sanger 测序比较的基因分型。

Genotyping of familial Mediterranean fever gene (MEFV)-Single nucleotide polymorphism-Comparison of Nanopore with conventional Sanger sequencing.

机构信息

Institute for Laboratory Medicine, Singen, Germany.

Faculty of Medical and Life Sciences, Furtwangen University, Villingen-Schwenningen, Germany.

出版信息

PLoS One. 2022 Mar 17;17(3):e0265622. doi: 10.1371/journal.pone.0265622. eCollection 2022.

DOI:10.1371/journal.pone.0265622

PMID:35298548

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8929590/

Abstract

BACKGROUND

Through continuous innovation and improvement, Nanopore sequencing has become a powerful technology. Because of its fast processing time, low cost, and ability to generate long reads, this sequencing technique would be particularly suitable for clinical diagnostics. However, its raw data accuracy is inferior in contrast to other sequencing technologies. This constraint still results in limited use of Nanopore sequencing in the field of clinical diagnostics and requires further validation and IVD certification.

METHODS

We evaluated the performance of latest Nanopore sequencing in combination with a dedicated data-analysis pipeline for single nucleotide polymorphism (SNP) genotyping of the familial Mediterranean fever gene (MEFV) by amplicon sequencing of 47 clinical samples. Mutations in MEFV are associated with Mediterranean fever, a hereditary periodic fever syndrome. Conventional Sanger sequencing, which is commonly applied in clinical genetic diagnostics, was used as a reference method.

RESULTS

Nanopore sequencing enabled the sequencing of 10 target regions within MEFV with high read depth (median read depth 7565x) in all samples and identified a total of 435 SNPs in the whole sample collective, of which 29 were unique. Comparison of both sequencing workflows showed a near perfect agreement with no false negative calls. Precision, Recall, and F1-Score of the Nanopore sequencing workflow were > 0.99, respectively.

CONCLUSIONS

These results demonstrated the great potential of current Nanopore sequencing for application in clinical diagnostics, at least for SNP genotyping by amplicon sequencing. Other more complex applications, especially structural variant identification, require further in-depth clinical validation.

摘要

背景

通过不断的创新和改进，纳米孔测序已成为一种强大的技术。由于其处理时间快、成本低、能够生成长读段，这种测序技术特别适用于临床诊断。然而，与其他测序技术相比，其原始数据的准确性较差。这种限制仍然导致纳米孔测序在临床诊断领域的应用有限，需要进一步验证和 IVD 认证。

方法

我们评估了最新的纳米孔测序与专用数据分析管道相结合的性能，通过对 47 个临床样本的扩增子测序对家族性地中海热基因（MEFV）的单核苷酸多态性（SNP）进行基因分型。MEFV 中的突变与地中海热有关，这是一种遗传性周期性发热综合征。传统的临床遗传诊断中常用的 Sanger 测序被用作参考方法。

结果

纳米孔测序能够对 MEFV 中的 10 个目标区域进行测序，所有样本的读深均很高（中位数读深 7565x），并在整个样本集中总共鉴定出 435 个 SNPs，其中 29 个是独特的。两种测序工作流程的比较显示，没有假阴性的近乎完美的一致性。纳米孔测序工作流程的精度、召回率和 F1 分数分别大于 0.99。

结论

这些结果表明，当前的纳米孔测序技术在临床诊断中的应用具有巨大潜力，至少在扩增子测序的 SNP 基因分型方面是如此。其他更复杂的应用，特别是结构变异的识别，需要进一步深入的临床验证。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8331/8929590/13979f0fee16/pone.0265622.g001.jpg

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家系性地中海热基因（MEFV）-单核苷酸多态性-纳米孔与常规 Sanger 测序比较的基因分型。

Genotyping of familial Mediterranean fever gene (MEFV)-Single nucleotide polymorphism-Comparison of Nanopore with conventional Sanger sequencing.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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