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

Dabernig-Heinz, Johanna; Lohde, Mara; Hölzer, Martin; Cabal, Adriana; Conzemius, Rick; Brandt, Christian; Kohl, Matthias; Halbedel, Sven; Hyden, Patrick; Fischer, Martin A.; Pietzka, Ariane; Daza, Beatriz; Idelevich, Evgeny A.; Stöger, Anna; Becker, Karsten; Fuchs, Stephan; Ruppitsch, Werner; Steinmetz, Ivo; Kohler, Christian; Wagner, Gabriel E.

doi:10.1128/jcm.00628-24

J Clin Microbiol

2024

DOI: 10.1128/jcm.00628-24

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

Johanna Dabernig-Heinz,

Mara Lohde,

Martin Hölzer

et al.

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 l… Show more

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Accurate bacterial outbreak tracing with Oxford Nanopore sequencing and reduction of methylation-induced errors

Lohde,

Wagner,

Dabernig-Heinz

et al. 2024

Genome Res.

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Our study investigates the effectiveness of Oxford Nanopore Technologies for accurate outbreak tracing by resequencing 33 isolates of a 3-year-longKlebsiella pneumoniaeoutbreak with Illumina short-read sequencing data as the point of reference. We detect considerable base errors through cgMLST and phylogenetic analysis of genomes sequenced with Oxford Nanopore Technologies, leading to the false exclusion of some outbreak-related strains from the outbreak cluster. Nearby methylation sites cause these errors and can also be found in other species besidesK. pneumoniae. Based on these data, we explore PCR-based sequencing and a masking strategy, which both successfully address these inaccuracies and ensure accurate outbreak tracing. We offer our masking strategy as a bioinformatic workflow (MPOA) to identify and mask problematic genome positions in a reference-free manner. Our research highlights limitations in using Oxford Nanopore Technologies for sequencing prokaryotic organisms, especially for investigating outbreaks. For time-critical projects that cannot wait for further technological developments by Oxford Nanopore Technologies, our study recommends either using PCR-based sequencing or using our provided bioinformatic workflow. We advise that read mapping–based quality control of genomes should be provided when publishing results.

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Accurate bacterial outbreak tracing with Oxford Nanopore sequencing and reduction of methylation-induced errors

Lohde,

Wagner,

Dabernig-Heinz

et al. 2024

Genome Res.

View full text Add to dashboard Cite

show abstract

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

Cited by 1 publication

References 43 publications

Accurate bacterial outbreak tracing with Oxford Nanopore sequencing and reduction of methylation-induced errors

Accurate bacterial outbreak tracing with Oxford Nanopore sequencing and reduction of methylation-induced errors

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