Assessment of a multiplex PCR and Nanopore-based method for dengue virus sequencing in Indonesia

Autor: R. Tedjo Sasmono, Frilasita A. Yudhaputri, Simon D. W. Frost, Raul V. Destura, Khin Saw Aye Myint, James Lester, Samuel C B Stubbs, Edsel Maurice T. Salvana, Benediktus Yohan, B.A. Blacklaws, Brian Schwem, Rahma F. Hayati
Přispěvatelé: Stubbs, Samuel C B [0000-0003-4175-6464], Apollo - University of Cambridge Repository, Stubbs, Samuel CB [0000-0003-4175-6464], Stubbs, Samuel C. B. [0000-0003-4175-6464]
Rok vydání: 2020
Předmět:
Zdroj: Virology Journal, Vol 17, Iss 1, Pp 1-13 (2020)
Virology Journal
ISSN: 1743-422X
Popis: Background Dengue virus (DENV) infects hundreds of thousands of people annually in Indonesia. However, DENV sequence data from the country are limited, as samples from outbreaks must be shipped across long-distances to suitably equipped laboratories to be sequenced. This approach is time-consuming, expensive, and frequently results in failure due to low viral load or degradation of the RNA genome. Methods We evaluated a method designed to address this challenge, using the ‘Primal Scheme’ multiplex PCR tiling approach to rapidly generate short, overlapping amplicons covering the complete DENV coding-region, and sequencing the amplicons on the portable Nanopore MinION device. The resulting sequence data was assessed in terms of genome coverage, consensus sequence accuracy and by phylogenetic analysis. Results The multiplex approach proved capable of producing near complete coding-region coverage from all samples tested ($$ \overline{x} $$x¯ = 99.96%, n = 18), 61% of which could not be fully amplified using the current, long-amplicon PCR, approach. Nanopore-generated consensus sequences were found to be between 99.17–99.92% identical to those produced by high-coverage Illumina sequencing. Consensus accuracy could be improved by masking regions below 20X coverage depth (99.69–99.92%). However, coding-region coverage was reduced at this depth ($$ \overline{x} $$x¯ = 93.48%). Nanopore and Illumina consensus sequences generated from the same samples formed monophyletic clades on phylogenetic analysis, and Indonesian consensus sequences accurately clustered by geographical origin. Conclusion The multiplex, short-amplicon approach proved superior for amplifying DENV genomes from clinical samples, particularly when the virus was present at low concentrations. The accuracy of Nanopore-generated consensus sequences from these amplicons was sufficient for identifying the geographic origin of the samples, demonstrating that the approach can be a useful tool for identifying and monitoring DENV clades circulating in low-resource settings across Indonesia. However, the inaccuracies in Nanopore-generated consensus sequences mean that the approach may not be appropriate for higher resolution transmission studies, particularly when more accurate sequencing technologies are available.
Databáze: OpenAIRE