Viruses (Jul 2023)

A Development of Rapid Whole-Genome Sequencing of <i>Seoul orthohantavirus</i> Using a Portable One-Step Amplicon-Based High Accuracy Nanopore System

  • Kyungmin Park,
  • Juyoung Noh,
  • Kijin Kim,
  • Jongwoo Kim,
  • Hee-Kyung Cho,
  • Seong-Gyu Kim,
  • Eunyoung Yang,
  • Won-Keun Kim,
  • Jin-Won Song

DOI
https://doi.org/10.3390/v15071542
Journal volume & issue
Vol. 15, no. 7
p. 1542

Abstract

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Whole-genome sequencing provides a robust platform for investigating the epidemiology and transmission of emerging viruses. Oxford Nanopore Technologies allows for real-time viral sequencing on a local laptop system for point-of-care testing. Seoul orthohantavirus (Seoul virus, SEOV), harbored by Rattus norvegicus and R. rattus, causes mild hemorrhagic fever with renal syndrome and poses an important threat to public health worldwide. We evaluated the deployable MinION system to obtain high-fidelity entire-length sequences of SEOV for the genome identification of accurate infectious sources and their genetic diversity. One-step amplicon-based nanopore sequencing was performed from SEOV 80–39 specimens with different viral copy numbers and SEOV-positive wild rats. The KU-ONT-SEOV-consensus module was developed to analyze SEOV genomic sequences generated from the nanopore system. Using amplicon-based nanopore sequencing and the KU-ONT-consensus pipeline, we demonstrated novel molecular diagnostics for acquiring full-length SEOV genome sequences, with sufficient read depth in less than 6 h. The consensus sequence accuracy of the SEOV small, medium, and large genomes showed 99.75–100% (for SEOV 80–39 isolate) and 99.62–99.89% (for SEOV-positive rats) identities. This study provides useful insights into on-site diagnostics based on nanopore technology and the genome epidemiology of orthohantaviruses for a quicker response to hantaviral outbreaks.

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