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Enteroviruses are small RNA viruses that affect millions of people each year by causing an important burden of disease with a broad spectrum of symptoms. In routine diagnostic laboratories, enteroviruses are identified by PCR-based methods, often combined with partial sequencing for genotyping. In this proof-of-principle study, we assessed direct RNA sequencing (DRS) using nanopore sequencing technology for fast whole-genome sequencing of viruses directly from clinical samples. The approach was complemented by sequencing the corresponding viral cDNA via Illumina MiSeq sequencing. DRS of total RNA extracted from three different enterovirus-positive stool samples produced long RNA fragments, covering between 59% and 99.6% of the most similar reference genome sequences. The identification of the enterovirus sequences in the samples was confirmed by short-read cDNA sequencing. Sequence identity between DRS and Illumina MiSeq enterovirus consensus sequences ranged between 94% and 97%. Here, we show that nanopore DRS can be used to correctly identify enterovirus genotypes from patient stool samples with high viral load and that the approach also provides rich metatranscriptomic information on sample composition for all life domains.
Carole Grädel; Miguel A. Terrazos Miani; Christian Baumann; Maria Teresa Barbani; Stefan Neuenschwander; Stephen L. Leib; Franziska Suter-Riniker; Alban Ramette. Whole-Genome Sequencing of Human Enteroviruses from Clinical Samples by Nanopore Direct RNA Sequencing. Viruses 2020, 12, 841 .
AMA StyleCarole Grädel, Miguel A. Terrazos Miani, Christian Baumann, Maria Teresa Barbani, Stefan Neuenschwander, Stephen L. Leib, Franziska Suter-Riniker, Alban Ramette. Whole-Genome Sequencing of Human Enteroviruses from Clinical Samples by Nanopore Direct RNA Sequencing. Viruses. 2020; 12 (8):841.
Chicago/Turabian StyleCarole Grädel; Miguel A. Terrazos Miani; Christian Baumann; Maria Teresa Barbani; Stefan Neuenschwander; Stephen L. Leib; Franziska Suter-Riniker; Alban Ramette. 2020. "Whole-Genome Sequencing of Human Enteroviruses from Clinical Samples by Nanopore Direct RNA Sequencing." Viruses 12, no. 8: 841.
Enteroviruses are small RNA viruses that affect millions of people each year by causing an important burden of disease with a broad spectrum of symptoms. In routine diagnostic laboratories, those viruses are identified by PCR based methods, often combined with partial sequencing for genotyping. In this proof-of-principle study, we assessed direct RNA sequencing (DRS) using nanopore sequencing technology for fast whole-genome sequencing of viruses directly from clinical samples. Results of the approach were complemented with those obtained by sequencing the corresponding viral cDNA via Illumina MiSeq sequencing. DRS of total RNA extracted from three different enterovirus-positive stool samples produced long RNA fragments, covering between 59% to 99.6 % of the best reference genomes. The identification of the enterovirus sequences in the sample was confirmed by the short-read cDNA sequencing. Sequence identity between DRS and Illumina MiSeq enterovirus consensus sequences ranged between 94-97%. Here we show that nanopore DRS can be used to correctly identify the genotypes of enteroviruses from patient stool samples with high viral load.
Carole Grädel; Miguel A Terrazos Miani; Christian Baumann; Maria Teresa Barbani; Stefan Neuenschwander; Stephen L Leib; Franziska Suter-Riniker; Alban Ramette. Whole genome sequencing of human enteroviruses from clinical samples by nanopore direct RNA sequencing. 2020, 1 .
AMA StyleCarole Grädel, Miguel A Terrazos Miani, Christian Baumann, Maria Teresa Barbani, Stefan Neuenschwander, Stephen L Leib, Franziska Suter-Riniker, Alban Ramette. Whole genome sequencing of human enteroviruses from clinical samples by nanopore direct RNA sequencing. . 2020; ():1.
Chicago/Turabian StyleCarole Grädel; Miguel A Terrazos Miani; Christian Baumann; Maria Teresa Barbani; Stefan Neuenschwander; Stephen L Leib; Franziska Suter-Riniker; Alban Ramette. 2020. "Whole genome sequencing of human enteroviruses from clinical samples by nanopore direct RNA sequencing." , no. : 1.
Enteroviruses affect millions of people worldwide and are of significant clinical importance. The standard method for enterovirus identification and genotyping still relies on Sanger sequencing of short diagnostic amplicons. In this study, we assessed the feasibility of nanopore sequencing using the new flow cell “Flongle” for fast, cost-effective, and accurate genotyping of human enteroviruses from clinical samples. PCR amplification of partial VP1 gene was performed from multiple patient samples, which were multiplexed together after barcoding PCR and sequenced multiple times on Flongle flow cells. The nanopore consensus sequences obtained from mapping reads to a reference database were compared to their Sanger sequence counterparts. Using clinical specimens sampled over different years, we were able to correctly identify enterovirus species and genotypes for all tested samples, even when doubling the number of barcoded samples on one flow cell. Average sequence identity across sequencing runs was >99.7%. Phylogenetic analysis showed that the consensus sequences achieved with Flongle delivered accurate genotyping. We conclude that the new Flongle-based assay with its fast turnover time, low cost investment, and low cost per sample represents an accurate, reproducible, and cost-effective platform for enterovirus identification and genotyping.
Carole Grädel; Miguel Angel Terrazos Miani; Maria Teresa Barbani; Stephen L Leib; Franziska Suter-Riniker; Alban Ramette. Rapid and Cost-Efficient Enterovirus Genotyping from Clinical Samples Using Flongle Flow Cells. Genes 2019, 10, 659 .
AMA StyleCarole Grädel, Miguel Angel Terrazos Miani, Maria Teresa Barbani, Stephen L Leib, Franziska Suter-Riniker, Alban Ramette. Rapid and Cost-Efficient Enterovirus Genotyping from Clinical Samples Using Flongle Flow Cells. Genes. 2019; 10 (9):659.
Chicago/Turabian StyleCarole Grädel; Miguel Angel Terrazos Miani; Maria Teresa Barbani; Stephen L Leib; Franziska Suter-Riniker; Alban Ramette. 2019. "Rapid and Cost-Efficient Enterovirus Genotyping from Clinical Samples Using Flongle Flow Cells." Genes 10, no. 9: 659.