Comprehensive genome analysis and variant detection at scale using DRAGEN

IF 33.1 1区 生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Sairam Behera, Severine Catreux, Massimiliano Rossi, Sean Truong, Zhuoyi Huang, Michael Ruehle, Arun Visvanath, Gavin Parnaby, Cooper Roddey, Vitor Onuchic, Andrea Finocchio, Daniel L. Cameron, Adam English, Shyamal Mehtalia, James Han, Rami Mehio, Fritz J. Sedlazeck
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Abstract

Research and medical genomics require comprehensive, scalable methods for the discovery of novel disease targets, evolutionary drivers and genetic markers with clinical significance. This necessitates a framework to identify all types of variants independent of their size or location. Here we present DRAGEN, which uses multigenome mapping with pangenome references, hardware acceleration and machine learning-based variant detection to provide insights into individual genomes, with ~30 min of computation time from raw reads to variant detection. DRAGEN outperforms current state-of-the-art methods in speed and accuracy across all variant types (single-nucleotide variations, insertions or deletions, short tandem repeats, structural variations and copy number variations) and incorporates specialized methods for analysis of medically relevant genes. We demonstrate the performance of DRAGEN across 3,202 whole-genome sequencing datasets by generating fully genotyped multisample variant call format files and demonstrate its scalability, accuracy and innovation to further advance the integration of comprehensive genomics. Overall, DRAGEN marks a major milestone in sequencing data analysis and will provide insights across various diseases, including Mendelian and rare diseases, with a highly comprehensive and scalable platform.

Abstract Image

使用 DRAGEN 进行大规模综合基因组分析和变异检测
研究和医学基因组学需要全面、可扩展的方法来发现新的疾病靶点、进化驱动因素和具有临床意义的遗传标记。这就需要一个框架来识别所有类型的变异,而不论其大小或位置如何。我们在此介绍 DRAGEN,它利用多基因组图谱与泛基因组参考、硬件加速和基于机器学习的变异检测来深入了解单个基因组,从原始读取到变异检测的计算时间约为 30 分钟。在所有变异类型(单核苷酸变异、插入或缺失、短串联重复序列、结构变异和拷贝数变异)方面,DRAGEN 的速度和准确性都优于目前最先进的方法,并结合了分析医学相关基因的专门方法。我们通过生成全基因分型多样本变异调用格式文件,在 3,202 个全基因组测序数据集上展示了 DRAGEN 的性能,并证明了它的可扩展性、准确性和创新性,从而进一步推动了综合基因组学的整合。总之,DRAGEN 标志着测序数据分析领域的一个重要里程碑,它将通过一个高度全面和可扩展的平台,为包括孟德尔病和罕见病在内的各种疾病提供洞察力。
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来源期刊
Nature biotechnology
Nature biotechnology 工程技术-生物工程与应用微生物
CiteScore
63.00
自引率
1.70%
发文量
382
审稿时长
3 months
期刊介绍: Nature Biotechnology is a monthly journal that focuses on the science and business of biotechnology. It covers a wide range of topics including technology/methodology advancements in the biological, biomedical, agricultural, and environmental sciences. The journal also explores the commercial, political, ethical, legal, and societal aspects of this research. The journal serves researchers by providing peer-reviewed research papers in the field of biotechnology. It also serves the business community by delivering news about research developments. This approach ensures that both the scientific and business communities are well-informed and able to stay up-to-date on the latest advancements and opportunities in the field. Some key areas of interest in which the journal actively seeks research papers include molecular engineering of nucleic acids and proteins, molecular therapy, large-scale biology, computational biology, regenerative medicine, imaging technology, analytical biotechnology, applied immunology, food and agricultural biotechnology, and environmental biotechnology. In summary, Nature Biotechnology is a comprehensive journal that covers both the scientific and business aspects of biotechnology. It strives to provide researchers with valuable research papers and news while also delivering important scientific advancements to the business community.
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