An amplicon-based sequencing framework for accurately measuring intrahost virus diversity using PrimalSeq and iVar

Nathan D. Grubaugh(Scripps Research Institute), Karthik Gangavarapu(Scripps Research Institute), Joshua Quick(University of Birmingham), Nathaniel L. Matteson(Scripps Research Institute), Jaqueline Góes de Jesus(Fundação Oswaldo Cruz), Bradley J. Main(University of California, Davis), Amanda L. Tan(Florida Gulf Coast University), Lauren M. Paul(Florida Gulf Coast University), Doug E. Brackney(Connecticut Agricultural Experiment Station), Saran Grewal(Vector (United States)), Nikos Gurfield(Vector (United States)), Koen K. A. Van Rompay(University of California, Davis), Sharon Isern(Florida Gulf Coast University), Scott F. Michael(Florida Gulf Coast University), Lark L. Coffey(University of California, Davis), Nicholas J. Loman(University of Birmingham), Kristian G. Andersen(Scripps Research Institute)
Genome biology
January 8, 2019
10.1186/s13059-018-1618-7
Cited by 1,144Open Access
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Abstract

How viruses evolve within hosts can dictate infection outcomes; however, reconstructing this process is challenging. We evaluate our multiplexed amplicon approach, PrimalSeq, to demonstrate how virus concentration, sequencing coverage, primer mismatches, and replicates influence the accuracy of measuring intrahost virus diversity. We develop an experimental protocol and computational tool, iVar, for using PrimalSeq to measure virus diversity using Illumina and compare the results to Oxford Nanopore sequencing. We demonstrate the utility of PrimalSeq by measuring Zika and West Nile virus diversity from varied sample types and show that the accumulation of genetic diversity is influenced by experimental and biological systems.

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