Influenza A viruses in feral Canadian ducks: extensive reassortment in nature

doi:10.1099/vir.0.79878-0

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Influenza A viruses in feral Canadian ducks: extensive reassortment in nature

Todd F. Hatchette¹, David Walker¹, Christie Johnson¹, Ashley Baker¹, S. Paul Pryor³ and Robert G. Webster¹^,2

¹ Division of Virology, Department of Infectious Diseases, St Jude Children's Research Hospital, 332 North Lauderdale Street, Memphis, TN 38105-2794, USA
² Department of Pathology, University of Tennessee Health Science Center, Memphis, TN, USA
³ Canadian Wildlife Service, Environment Canada, Edmonton, Alberta, Canada

Correspondence
Robert G. Webster
Robert.Webster{at}stjude.org

The current dogma of influenza accepts that feral aquatic birdsare the reservoir for influenza A viruses. Although the genomicinformation of human influenza A viruses is increasing, littleof this type of data is available for viruses circulating inferal waterfowl. This study presents the genetic characterizationof 35 viruses isolated from wild Canadian ducks from 1983 to2000, as the first attempt at a comprehensive genotypic analysisof influenza viruses isolated from feral ducks. This study demonstratesthat influenza virus genes circulating in Canadian ducks haveachieved evolutionary stasis. The majority of these duck virusgenes are clustered in distinct North American clades; however,some H6 and H9 genes are clustered with those from Eurasianviruses. Genes appeared to reassort in a random fashion. Noneof the genotypes identified remained present throughout allof the years examined and most PA and PB2 genes that crossedover into swine were clustered in one phylogenetic grouping.Additionally, matrix genes were identified that branch veryearly in the evolutionary tree. These findings demonstrate thediversity of the influenza virus gene pool in Canadian ducks,and suggest that genes which cluster in specific phylogeneticgroupings in the PB2 and PA genes can be used for markers ofviruses with the potential for crossing the species barrier.A more comprehensive study of this important reservoir is neededto provide further insight into the genomic composition of virusesthat crossover the species barrier, which would be a usefulcomponent to pandemic planning.

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