Article
Details
Citation
Hansen S, Faye O, Sanabani SS, Faye M, B?hlken-Fascher S, Faye O, Sall AA, Bekaert M, Weidmann M, Czerny C & Abd El Wahed A (2018) Combination Random Isothermal Amplification and Nanopore Sequencing For Rapid Identification of the Causative Agent of an Outbreak. Journal of Clinical Virology, 106, pp. 23-27. https://doi.org/10.1016/j.jcv.2018.07.001
Abstract
Background
Outbreaks of fever of unknown origin start with nonspecific symptoms and case definition is only slowly developed and adapted, therefore, identifying the causative agent is crucial to ensure suitable treatment and control measures. As an alternative method for Polymerase Chain Reaction in molecular diagnostics diagnostic, metagenomics can be applied to identify the pathogen responsible for the outbreak through sequencing all nucleic acids present in a sample extract. Sequencing data obtained can identify new or variants of known agents.
Objectives
To develop a rapid and field applicable protocol to allow the identification of the causative agent of an outbreak.
Study design
We explored a sequencing protocol relying on multiple displacement isothermal amplification and nanopore sequencing in order to allow the identification of the causative agent in a sample. To develop the procedure, a mock sample consisting of supernatant from Zika virus tissue culture was used.
Results
The procedure took under seven hours including sample preparation and data analysis using an offline BLAST search. In total, 63,678 sequence files covering around 10,000 bases were extracted. BLAST search revealed the presence of Zika virus.
Conclusion
In conclusion, the protocol has potential for point of need sequencing to identify RNA viruses. The whole procedure was operated in a suitcase laboratory. However, the procedure is cooling chain dependent and the cost per sequencing run is still high.
Keywords
Nanopore sequencing; Random isothermal amplification; Point of need diagnostics; Zika virus
Journal
Journal of Clinical Virology: Volume 106
Status | Published |
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Publication date | 01/09/2018 |
Publication date online | 06/07/2018 |
Date accepted by journal | 02/07/2018 |
URL | |
ISSN | 1386-6532 |