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Genomic Characterization of a Severe West Nile Virus Transmission Season using a Single Reaction Amplicon Sequencing Approach
Genomic Characterization of a Severe West Nile Virus Transmission Season using a Single Reaction Amplicon Sequencing Approach
by Uhm, Sarah , Pella, Zach , Gurung, Dikchha , Downey, Nick , Smith, Hallie , McCutchen, Emily L. , Wiley, Michael R. , Iwen, Peter C. , Butz, Ava , Chandler, Sarah , Dowdy, Tammy , Herzog, Kaylee S. , Bartling, Amanda M. , Freed, Shawn , Broadhurst, M. Jana , Hamik, Jeff , Fauver, Joseph R.
in Genomics
2025
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Genomic Characterization of a Severe West Nile Virus Transmission Season using a Single Reaction Amplicon Sequencing Approach
by Uhm, Sarah , Pella, Zach , Gurung, Dikchha , Downey, Nick , Smith, Hallie , McCutchen, Emily L. , Wiley, Michael R. , Iwen, Peter C. , Butz, Ava , Chandler, Sarah , Dowdy, Tammy , Herzog, Kaylee S. , Bartling, Amanda M. , Freed, Shawn , Broadhurst, M. Jana , Hamik, Jeff , Fauver, Joseph R.
in Genomics
2025
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Genomic Characterization of a Severe West Nile Virus Transmission Season using a Single Reaction Amplicon Sequencing Approach
Genomic Characterization of a Severe West Nile Virus Transmission Season using a Single Reaction Amplicon Sequencing Approach
by Uhm, Sarah , Pella, Zach , Gurung, Dikchha , Downey, Nick , Smith, Hallie , McCutchen, Emily L. , Wiley, Michael R. , Iwen, Peter C. , Butz, Ava , Chandler, Sarah , Dowdy, Tammy , Herzog, Kaylee S. , Bartling, Amanda M. , Freed, Shawn , Broadhurst, M. Jana , Hamik, Jeff , Fauver, Joseph R.
in Genomics
2025

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Genomic Characterization of a Severe West Nile Virus Transmission Season using a Single Reaction Amplicon Sequencing Approach
Genomic Characterization of a Severe West Nile Virus Transmission Season using a Single Reaction Amplicon Sequencing Approach
Paper

Genomic Characterization of a Severe West Nile Virus Transmission Season using a Single Reaction Amplicon Sequencing Approach

Uhm, Sarah,
Pella, Zach,
Gurung, Dikchha,
Downey, Nick,
Smith, Hallie,
McCutchen, Emily L.,
Wiley, Michael R.,
Iwen, Peter C.,
Butz, Ava,
Chandler, Sarah,
Dowdy, Tammy,
Herzog, Kaylee S.,
Bartling, Amanda M.,
Freed, Shawn,
Broadhurst, M. Jana,
Hamik, Jeff,
Fauver, Joseph R.
2025
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Overview
West Nile virus (WNV) is an endemic arthropod-borne virus that has routinely caused seasonal outbreaks in the United States since it was first detected in 1999. While phylogenetic studies have shown how WNV has diversified and undergone genotype replacement since introduction, more geographically focused studies are needed to understand intricate transmission dynamics at local and regional scales. In this study, we validate the IDT xGen™ WNV panel, a novel single reaction amplicon-based Next-Generation Sequencing approach, to generate high-quality WNV genomes and compare it to the “Primal Scheme” assay for WNV, a common amplicon sequencing strategy. We show that the IDT xGen WNV panel generated complete and accurate WNV genomes and was more robust to amplicon drop out compared to the current sequencing approaches. Additionally, we used this approach to generate 100 complete WNV genomes from surveillance pools of mosquitoes collected in Nebraska during the 2023 outbreak. Our discrete phylogeographic analysis revealed substantial genetic diversity in WNV genomes from 2023 with minimal clustering across the state. This study demonstrated the utility of a single reaction amplicon-based sequencing approach to generate quality WNV genomes from routine surveillance samples and characterize WNV transmission dynamics in a high-incidence setting.
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Publisher
Cold Spring Harbor Laboratory
Subject

Genomics

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