Monitoring changes in influenza A virus genomes is crucial to understand its rapid evolution and adaptation to changing conditions e.g. establishment within novel host species. Selective sweeps represent a rapid mode of adaptation and are typically observed in human influenza A viruses. We describe Sweep Dynamics (SD) plots, a computational method combining phylogenetic algorithms with statistical techniques to characterize the molecular adaptation of rapidly evolving viruses from longitudinal sequence data. SD plots facilitate the identification of selective sweeps, the time periods in which these occurred and associated changes providing a selective advantage to the virus. We studied the past genome-wide adaptation of the 2009 pandemic H1...
<div><p>Human populations are constantly exposed to emerging pathogens such as influenza A viruses t...
Understanding the evolutionary dynamics of influenza A virus is central to its surveillance and cont...
Background/purposeAn influenza A pandemic occurred in 2009–2010. A novel H1N1 virus (hereafter H1N1p...
Phylodynamic techniques combine epidemiological and genetic information to analyze the evolutionary ...
ABSTRACT The seasonal influenza A virus undergoes rapid evolution to escape human immune response. A...
To elucidate the adaptive strategies of influenza A viruses (IAVs) to human, we proposed a computati...
Thesis (Ph.D.)--University of Washington, 2019RNA viruses like influenza mutate rapidly to form gene...
Quantifying adaptive evolution at the genomic scale is an essential yet challenging aspect of evolut...
Quantifying adaptive evolution at the genomic scale is an essential yet challenging aspect of evolut...
Quantifying adaptive evolution at the genomic scale is an essential yet challenging aspect of evolut...
The seasonal influenza A virus undergoes rapid evolution to escape human immune response. Adaptive c...
The within-host evolution of influenza is a vital component of its epidemiology. A question of parti...
Human populations are constantly exposed to emerging pathogens such as influenza A viruses that resu...
Human populations are constantly exposed to emerging pathogens such as influenza A viruses that resu...
Thesis (Ph.D.)--University of Washington, 2021Rapid evolution of human pathogenic RNA viruses can un...
<div><p>Human populations are constantly exposed to emerging pathogens such as influenza A viruses t...
Understanding the evolutionary dynamics of influenza A virus is central to its surveillance and cont...
Background/purposeAn influenza A pandemic occurred in 2009–2010. A novel H1N1 virus (hereafter H1N1p...
Phylodynamic techniques combine epidemiological and genetic information to analyze the evolutionary ...
ABSTRACT The seasonal influenza A virus undergoes rapid evolution to escape human immune response. A...
To elucidate the adaptive strategies of influenza A viruses (IAVs) to human, we proposed a computati...
Thesis (Ph.D.)--University of Washington, 2019RNA viruses like influenza mutate rapidly to form gene...
Quantifying adaptive evolution at the genomic scale is an essential yet challenging aspect of evolut...
Quantifying adaptive evolution at the genomic scale is an essential yet challenging aspect of evolut...
Quantifying adaptive evolution at the genomic scale is an essential yet challenging aspect of evolut...
The seasonal influenza A virus undergoes rapid evolution to escape human immune response. Adaptive c...
The within-host evolution of influenza is a vital component of its epidemiology. A question of parti...
Human populations are constantly exposed to emerging pathogens such as influenza A viruses that resu...
Human populations are constantly exposed to emerging pathogens such as influenza A viruses that resu...
Thesis (Ph.D.)--University of Washington, 2021Rapid evolution of human pathogenic RNA viruses can un...
<div><p>Human populations are constantly exposed to emerging pathogens such as influenza A viruses t...
Understanding the evolutionary dynamics of influenza A virus is central to its surveillance and cont...
Background/purposeAn influenza A pandemic occurred in 2009–2010. A novel H1N1 virus (hereafter H1N1p...