从桑格测序到牛津纳米孔MinION技术：第三代测序对遗传性血液学诊断的影响

From Sanger to Oxford Nanopore MinION Technology: The Impact of Third-Generation Sequencing on Genetic Hematological Diagnosis.

作者信息

Larráyoz María José, Luri-Martin Pablo, Mañu Amagoia, Churruca Oihane, Gordillo Natalia, Erdozain Irache, Esteban-Figuerola Ada, de Miguel Carlos, Robles Diego, García-Fortes María, Rifón Roca José, Alfonso-Pierola Ana, Prósper Felipe, Ariceta Beñat, Calasanz María José

机构信息

Hematological Diseases Laboratory, CIMA LAB Diagnostics, Clinica Universidad de Navarra, 31008 Pamplona, Spain.

Navarra Institute for Health Research (IdiSNA), 31008 Pamplona, Spain.

出版信息

Cancers (Basel). 2025 May 29;17(11):1811. doi: 10.3390/cancers17111811.

DOI:10.3390/cancers17111811

PMID:40507293

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12153771/

Abstract

BACKGROUND

Sanger sequencing remains the gold standard for characterizing genetic variants in short DNA fragments (<700 bp). However, the increasing demand for short TATs and high sensitivities in variant detection, particularly in oncohematology, is driving the need for more efficient methods. Next-generation sequencing (NGS) has improved sensitivity and allows for the simultaneous analysis of multiple genes, but it is still costly and time-consuming. Consequently, Sanger sequencing continues to be widely used. In this study, we have compared Sanger sequencing with Oxford Nanopore technology (ONT), which offers enhanced sensitivity and faster sequencing, delivering diagnostic results within 24 h.

METHODS

This study involves 164 samples (for a total of 174 analyzed regions of interest) previously characterized using either Sanger sequencing or a next-generation sequencing (NGS) panel, categorized by their genetic alterations. Validation was conducted on 15 genes crucial for the diagnosis, prognosis, or identification of drug resistance in myeloproliferative neoplasms (MPN), myelodysplastic syndromes (MDS), acute myeloid leukemia (AML), and chronic myeloid leukemia (CML). The primary objective was to assess whether MinION could identify the same variants previously detected in these patients.

RESULTS AND CONCLUSIONS

With a 99.43% concordance observed in our comparison, our results support the implementation of MinION technology in routine variant detection in MPN, MDS, AML, and CML cases due to its significant advantages over Sanger sequencing.

摘要

背景

桑格测序仍然是鉴定短DNA片段（<700 bp）中基因变异的金标准。然而，对短周转时间（TAT）和变异检测高灵敏度的需求不断增加，尤其是在肿瘤血液学领域，这推动了对更高效方法的需求。下一代测序（NGS）提高了灵敏度，并允许同时分析多个基因，但它仍然成本高昂且耗时。因此，桑格测序仍被广泛使用。在本研究中，我们将桑格测序与牛津纳米孔技术（ONT）进行了比较，后者具有更高的灵敏度和更快的测序速度，可在24小时内提供诊断结果。

方法

本研究涉及164个样本（总共174个分析的感兴趣区域），这些样本先前已使用桑格测序或下一代测序（NGS） panel进行了特征分析，并根据其基因改变进行了分类。对15个对骨髓增殖性肿瘤（MPN）、骨髓增生异常综合征（MDS）、急性髓系白血病（AML）和慢性髓系白血病（CML）的诊断、预后或耐药性鉴定至关重要的基因进行了验证。主要目的是评估MinION是否能够识别这些患者先前检测到的相同变异。

结果与结论

在我们的比较中观察到99.43%的一致性，我们的结果支持在MPN、MDS、AML和CML病例的常规变异检测中实施MinION技术，因为它比桑格测序具有显著优势。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f5c6/12153771/51c6f356d25b/cancers-17-01811-g001.jpg

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从桑格测序到牛津纳米孔MinION技术：第三代测序对遗传性血液学诊断的影响

From Sanger to Oxford Nanopore MinION Technology: The Impact of Third-Generation Sequencing on Genetic Hematological Diagnosis.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS AND CONCLUSIONS

背景

方法

结果与结论

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