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Influenza evolution and epidemic dynamics: Phylodynamics: mathematical model of influenza epidemics shows how viral evolutionary patterns can account for observed epidemic patterns of influenza, and ...
Avian influenza virus evolves rapidly in wild birds: Contrary to previous studies, research suggests that avian influenza A viruses in wild aquatic birds evolve at rates similar to those seen in influenza A in ...
Influenza evolution: the importance of chance processes: Extensive within-season genetic diversity in influenza A H3N2 viruses in New York State appears to arise from successive introduction of new variants from ...
Whole-genome analysis sheds light on influenza virus evolution: Evidence for multiple reassortment events in H3N2 influenza A viruses infecting humans.
Commuting patterns and influenza epidemics: Mathematical models of annual influenza epidemics across the United States suggest that patterns of epidemic spread are affected by adults traveling to and ...
Tropical reservoir for human influenza?: An analysis of more than 1300 complete influenza genomes shows different evolutionary patterns for two important viral subtypes (A/H1N1 and A/H3N2). Changes in ...
Influenza A virus: history of reassortment: Genetic sequences collected between 1918 and 2005 indicate that reassortment happens frequently in the evolutionary history of the Influenza A virus, including ...
Rapid rise of antiviral resistance in influenza not caused by drug selection pressure: Over recent years, human influenza viruses resistant to antiviral drugs (adamantanes) have spread to high frequency worldwide. An analysis of influenza genomes ...
Ottar Bjornstad

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