一种优化的靶向新一代测序方法,用于敏感检测单核苷酸变异

Q1 Biochemistry, Genetics and Molecular Biology
S. Stasik , C. Schuster , C. Ortlepp , U. Platzbecker , M. Bornhäuser , J. Schetelig , G. Ehninger , G. Folprecht , C. Thiede
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引用次数: 34

摘要

微小残留病(MRD)监测已成为癌症治疗后随访护理中早期复发检测的重要临床方面。然而,由于替换错误率高,通过下一代测序(NGS)对单碱基对点突变的敏感检测受到阻碍。我们评估了NGS在离子激流PGM系统中检测低水平变异的使用。我们使用jak2基因的c.1849G > T (p.Val617Phe)突变作为模型案例。评估了几个反应参数(例如dna聚合酶的选择),并对替代错误进行了全面分析。在优化的条件下,我们可靠地检测到JAK2 c.1849G > T VAFs在0.01-0.0015%范围内,结合临床数据的结果,验证了基于ngs的MRD检测的可行性。特别是pcr诱导的过渡(主要是G > A和C > T)是主要的错误来源,使用校对酶可以显著减少错误。对不同癌基因(即IDH1和2、c-KIT、DNMT3A、NRAS、KRAS、BRAF)中几种常见点突变的NGS结果进行整合,发现普遍存在的转移与翻转偏倚(3.57:1)对低水平突变的位点特异性检测限有影响。这些结果可能有助于为MRD检测选择合适的标记物,并确定检测和定量的个别切断。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

An optimized targeted Next-Generation Sequencing approach for sensitive detection of single nucleotide variants

An optimized targeted Next-Generation Sequencing approach for sensitive detection of single nucleotide variants

An optimized targeted Next-Generation Sequencing approach for sensitive detection of single nucleotide variants

An optimized targeted Next-Generation Sequencing approach for sensitive detection of single nucleotide variants

Monitoring of minimal residual disease (MRD) has become an important clinical aspect for early relapse detection during follow-up care after cancer treatment. Still, the sensitive detection of single base pair point mutations via Next-Generation Sequencing (NGS) is hampered mainly due to high substitution error rates. We evaluated the use of NGS for the detection of low-level variants on an Ion Torrent PGM system. As a model case we used the c.1849G > T (p.Val617Phe) mutation of the JAK2-gene. Several reaction parameters (e.g. choice of DNA-polymerase) were evaluated and a comprehensive analysis of substitution errors was performed. Using optimized conditions, we reliably detected JAK2 c.1849G > T VAFs in the range of 0.01–0.0015% which, in combination with results obtained from clinical data, validated the feasibility of NGS-based MRD detection. Particularly, PCR-induced transitions (mainly G > A and C > T) were the major source of error, which could be significantly reduced by the application of proofreading enzymes. The integration of NGS results for several common point mutations in various oncogenes (i.e. IDH1 and 2, c-KIT, DNMT3A, NRAS, KRAS, BRAF) revealed that the prevalent transition vs. transversion bias (3.57:1) has an impact on site-specific detection limits of low-level mutations. These results may help to select suitable markers for MRD detection and to identify individual cut-offs for detection and quantification.

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来源期刊
Biomolecular Detection and Quantification
Biomolecular Detection and Quantification Biochemistry, Genetics and Molecular Biology-Biochemistry
CiteScore
14.20
自引率
0.00%
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审稿时长
8 weeks
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