A multicenter study on accuracy and reproducibility of nanopore sequencing-based genotyping of bacterial pathogens.

IF 6.1 2区 医学 Q1 MICROBIOLOGY Journal of Clinical Microbiology Pub Date : 2024-09-11 Epub Date: 2024-08-19 DOI:10.1128/jcm.00628-24
Johanna Dabernig-Heinz, Mara Lohde, Martin Hölzer, Adriana Cabal, Rick Conzemius, Christian Brandt, Matthias Kohl, Sven Halbedel, Patrick Hyden, Martin A Fischer, Ariane Pietzka, Beatriz Daza, Evgeny A Idelevich, Anna Stöger, Karsten Becker, Stephan Fuchs, Werner Ruppitsch, Ivo Steinmetz, Christian Kohler, Gabriel E Wagner
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Abstract

Nanopore sequencing has shown the potential to democratize genomic pathogen surveillance due to its ease of use and low entry cost. However, recent genotyping studies showed discrepant results compared to gold-standard short-read sequencing. Furthermore, although essential for widespread application, the reproducibility of nanopore-only genotyping remains largely unresolved. In our multicenter performance study involving five laboratories, four public health-relevant bacterial species were sequenced with the latest R10.4.1 flow cells and V14 chemistry. Core genome MLST analysis of over 500 data sets revealed highly strain-specific typing errors in all species in each laboratory. Investigation of the methylation-related errors revealed consistent DNA motifs at error-prone sites across participants at read level. Depending on the frequency of incorrect target reads, this either leads to correct or incorrect typing, whereby only minimal frequency deviations can randomly determine the final result. PCR preamplification, recent basecalling model updates and an optimized polishing strategy notably diminished the non-reproducible typing. Our study highlights the potential for new errors to appear with each newly sequenced strain and lays the foundation for computational approaches to reduce such typing errors. In conclusion, our multicenter study shows the necessity for a new validation concept for nanopore sequencing-based, standardized bacterial typing, where single nucleotide accuracy is critical.

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基于纳米孔测序的细菌病原体基因分型的准确性和可重复性多中心研究。
纳米孔测序因其使用方便、入门成本低,已显示出使基因组病原体监测民主化的潜力。然而,最近的基因分型研究显示,与黄金标准的短线程测序相比,结果存在差异。此外,尽管纯纳米孔基因分型对广泛应用至关重要,但其可重复性问题在很大程度上仍未得到解决。在我们涉及五个实验室的多中心性能研究中,使用最新的 R10.4.1 流式细胞和 V14 化学方法对四个与公共卫生相关的细菌物种进行了测序。对 500 多个数据集进行的核心基因组 MLST 分析表明,每个实验室的所有菌种都存在高度特异性的分型错误。对甲基化相关错误的调查显示,在读数水平上,不同参与者的错误易发位点的 DNA 主题一致。根据错误目标读数的频率,这要么导致正确的分型,要么导致错误的分型,只有极小的频率偏差才能随机决定最终结果。PCR 预扩增、最近的基线调用模型更新和优化的抛光策略显著减少了不可再现的分型。我们的研究强调了每个新测序的菌株都有可能出现新的错误,并为减少此类分型错误的计算方法奠定了基础。总之,我们的多中心研究表明,基于纳米孔测序的标准化细菌分型需要一种新的验证概念,其中单核苷酸的准确性至关重要。
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
Journal of Clinical Microbiology
Journal of Clinical Microbiology 医学-微生物学
CiteScore
17.10
自引率
4.30%
发文量
347
审稿时长
3 months
期刊介绍: The Journal of Clinical Microbiology® disseminates the latest research concerning the laboratory diagnosis of human and animal infections, along with the laboratory's role in epidemiology and the management of infectious diseases.
期刊最新文献
Characterization of carbapenem-resistant Enterobacterales and Pseudomonas aeruginosa carrying multiple carbapenemase genes-Antimicrobial Resistance Laboratory Network, 2018-2022. A simplified pyrazinamidase test for Mycobacterium tuberculosis pyrazinamide antimicrobial susceptibility testing. Retrospective analysis of antimicrobial susceptibility profiles of non-diphtheriae Corynebacterium species from a tertiary hospital and reference laboratory, 2012-2023. Performance evaluation of the Specific Reveal system for rapid antibiotic susceptibility testing from positive blood cultures containing Gram-negative pathogens. Evaluation of the KPC/IMP/NDM/VIM/OXA-48 Combo Test Kit and Carbapenem-Resistant K.N.I.V.O. Detection K-Set in detecting KPC variants.
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