Abstract
BackgroundIn April 2009, a novel triple-reassortant swine influenza A H1N1 virus (“A/H1N1pdm”; also known as SOIV) was detected and spread globally as the first influenza pandemic of the 21st century. Sequencing has since been conducted at an unprecedented rate globally in order to monitor the diversification of this emergent virus and to track mutations that may affect virus behavior.Methodology/Principal FindingsBy Sanger sequencing, we determined consensus whole-genome sequences for A/H1N1pdm viruses sampled nationwide in Canada over 33 weeks during the 2009 first and second pandemic waves. A total of 235 virus genomes sampled from unique subjects were analyzed, providing insight into the temporal and spatial trajectory of A/H1N1pdm lineages within Canada. Three clades (2, 3, and 7) were identifiable within the first two weeks of A/H1N1pdm appearance, with clades 5 and 6 appearing thereafter; further diversification was not apparent. Only two viral sites displayed evidence of adaptive evolution, located in hemagglutinin (HA) corresponding to D222 in the HA receptor-binding site, and to E374 at HA2-subunit position 47. Among the Canadian sampled viruses, we observed notable genetic diversity (1.47×10−3 amino acid substitutions per site) in the gene encoding PB1, particularly within the viral genomic RNA (vRNA)-binding domain (residues 493–757). This genome data set supports the conclusion that A/H1N1pdm is evolving but not excessively relative to other H1N1 influenza A viruses. Entropy analysis was used to investigate whether any mutated A/H1N1pdm protein residues were associated with infection severity; however no virus genotypes were observed to trend with infection severity. One virus that harboured heterozygote coding mutations, including PB2 D567D/G, was attributed to a severe and potentially mixed infection; yet the functional significance of this PB2 mutation remains unknown.Conclusions/SignificanceThese findings contribute to enhanced understanding of Influenza A/H1N1pdm viral dynamics.
Highlights
IntroductionInfluenza viruses (family Orthomyxoviridae) possess a segmented, negative polarity, single-stranded RNA genome and lipid-enveloped virions [1]
Influenza viruses possess a segmented, negative polarity, single-stranded RNA genome and lipid-enveloped virions [1]
On August 10 2010, the World Health Organization DirectorGeneral announced that the pandemic influenza A (A/H1N1pdm) novel reassortant virus had run its course and that the globe had entered into a post-pandemic period [33]
Summary
Influenza viruses (family Orthomyxoviridae) possess a segmented, negative polarity, single-stranded RNA genome and lipid-enveloped virions [1]. Genetic diversity in influenza virus results from a high replication error rate associated with low-fidelity RNA polymerase, and the reshuffling (or reassortment) of gene segments among coinfecting strains [1,2,3]. These genetic shifts periodically lead to antigenically novel strains that emerge as pandemic viruses [1]. In April 2009, a novel triple-reassortant swine influenza A/H1N1 virus ( known as SOIV) was detected, with human cases first identified in Mexico and California [4]; thereafter, the pandemic 2009 influenza A (H1N1) virus (designated hereafter as ‘‘A/H1N1pdm’’) spread globally as the first influenza pandemic of the 21st century. Sequencing has since been conducted at an unprecedented rate globally in order to monitor the diversification of this emergent virus and to track mutations that may affect virus behavior
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