Error-corrected flow-based sequencing at whole-genome scale and its application to circulating cell-free DNA profiling.

IF 36.1 1区生物学 Q1 BIOCHEMICAL RESEARCH METHODS

Nature Methods Pub Date : 2025-05-01 Epub Date: 2025-04-11 DOI:10.1038/s41592-025-02648-9

Alexandre Pellan Cheng, Adam J Widman, Anushri Arora, Itai Rusinek, Aaron Sossin, Srinivas Rajagopalan, Nicholas Midler, William F Hooper, Rebecca M Murray, Daniel Halmos, Theophile Langanay, Hoyin Chu, Giorgio Inghirami, Catherine Potenski, Soren Germer, Melissa Marton, Dina Manaa, Adrienne Helland, Rob Furatero, Jaime McClintock, Lara Winterkorn, Zoe Steinsnyder, Yohyoh Wang, Asrar I Alimohamed, Murtaza S Malbari, Ashish Saxena, Margaret K Callahan, Dennie T Frederick, Lavinia Spain, Michael Sigouros, Jyothi Manohar, Abigail King, David Wilkes, John Otilano, Olivier Elemento, Juan Miguel Mosquera, Ariel Jaimovich, Doron Lipson, Samra Turajlic, Michael C Zody, Nasser K Altorki, Jedd D Wolchok, Michael A Postow, Nicolas Robine, Bishoy M Faltas, Genevieve Boland, Dan A Landau

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引用次数: 0

Abstract

Differentiating sequencing errors from true variants is a central genomics challenge, calling for error suppression strategies that balance costs and sensitivity. For example, circulating cell-free DNA (ccfDNA) sequencing for cancer monitoring is limited by sparsity of circulating tumor DNA, abundance of genomic material in samples and preanalytical error rates. Whole-genome sequencing (WGS) can overcome the low abundance of ccfDNA by integrating signals across the mutation landscape, but higher costs limit its wide adoption. Here, we applied deep (~120×) lower-cost WGS (Ultima Genomics) for tumor-informed circulating tumor DNA detection within the part-per-million range. We further leveraged lower-cost sequencing by developing duplex error-corrected WGS of ccfDNA, achieving 7.7 × 10^-7 error rates, allowing us to assess disease burden in individuals with melanoma and urothelial cancer without matched tumor sequencing. This error-corrected WGS approach will have broad applicability across genomics, allowing for accurate calling of low-abundance variants at efficient cost and enabling deeper mapping of somatic mosaicism as an emerging central aspect of aging and disease.

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全基因组规模的纠错流式测序及其在循环无细胞DNA分析中的应用。

区分测序错误和真正的变异是基因组学的核心挑战，需要平衡成本和敏感性的错误抑制策略。例如，用于癌症监测的循环无细胞DNA （ccfDNA）测序受到循环肿瘤DNA的稀疏性、样品中基因组物质的丰度和分析前错误率的限制。全基因组测序（WGS）可以通过整合突变序列中的信号来克服ccfDNA丰度低的问题，但较高的成本限制了其广泛应用。在这里，我们应用深度（~ 120x）低成本WGS （Ultima Genomics）在百万分之一范围内进行肿瘤信息循环肿瘤DNA检测。我们通过开发ccfDNA的双错校正WGS进一步利用低成本测序，达到7.7 × 10-7错误率，使我们能够在没有匹配肿瘤测序的情况下评估黑色素瘤和尿路上皮癌患者的疾病负担。这种错误修正的WGS方法将在基因组学中具有广泛的适用性，允许以有效的成本准确地调用低丰度变异，并能够更深入地绘制体细胞嵌合体图，作为衰老和疾病的新兴中心方面。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nature Methods 生物-生化研究方法

CiteScore

58.70

自引率

1.70%

发文量

326

审稿时长

1 months

期刊介绍： Nature Methods is a monthly journal that focuses on publishing innovative methods and substantial enhancements to fundamental life sciences research techniques. Geared towards a diverse, interdisciplinary readership of researchers in academia and industry engaged in laboratory work, the journal offers new tools for research and emphasizes the immediate practical significance of the featured work. It publishes primary research papers and reviews recent technical and methodological advancements, with a particular interest in primary methods papers relevant to the biological and biomedical sciences. This includes methods rooted in chemistry with practical applications for studying biological problems.