Please use this identifier to cite or link to this item: https://doi.org/10.1038/ncomms8952
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dc.titlePhylodynamics of H1N1/2009 influenza reveals the transition from host adaptation to immune-driven selection
dc.contributor.authorSu, Y.C.F
dc.contributor.authorBahl, J
dc.contributor.authorJoseph, U
dc.contributor.authorButt, K.M
dc.contributor.authorPeck, H.A
dc.contributor.authorKoay, E.S.C
dc.contributor.authorOon, L.L.E
dc.contributor.authorBarr, I.G
dc.contributor.authorVijaykrishna, D
dc.contributor.authorSmith, G.J.D
dc.date.accessioned2020-09-10T01:53:05Z
dc.date.available2020-09-10T01:53:05Z
dc.date.issued2015
dc.identifier.citationSu, Y.C.F, Bahl, J, Joseph, U, Butt, K.M, Peck, H.A, Koay, E.S.C, Oon, L.L.E, Barr, I.G, Vijaykrishna, D, Smith, G.J.D (2015). Phylodynamics of H1N1/2009 influenza reveals the transition from host adaptation to immune-driven selection. Nature Communications 6 : 7952. ScholarBank@NUS Repository. https://doi.org/10.1038/ncomms8952
dc.identifier.issn20411723
dc.identifier.urihttps://scholarbank.nus.edu.sg/handle/10635/175493
dc.description.abstractInfluenza A H1N1/2009 virus that emerged from swine rapidly replaced the previous seasonal H1N1 virus. Although the early emergence and diversification of H1N1/2009 is well characterized, the ongoing evolutionary and global transmission dynamics of the virus remain poorly investigated. To address this we analyse >3,000 H1N1/2009 genomes, including 214 full genomes generated from our surveillance in Singapore, in conjunction with antigenic data. Here we show that natural selection acting on H1N1/2009 directly after introduction into humans was driven by adaptation to the new host. Since then, selection has been driven by immunological escape, with these changes corresponding to restricted antigenic diversity in the virus population. We also show that H1N1/2009 viruses have been subject to regular seasonal bottlenecks and a global reduction in antigenic and genetic diversity in 2014. © 2015 Macmillan Publishers Limited. All rights reserved.
dc.publisherNature Publishing Group
dc.sourceUnpaywall 20200831
dc.subjectadaptation
dc.subjectantigen
dc.subjectdisease transmission
dc.subjectevolutionary biology
dc.subjectgenetic variation
dc.subjectimmune response
dc.subjectinfluenza
dc.subjectnatural selection
dc.subjectvirus
dc.subject2009 H1N1 influenza
dc.subjectadaptation
dc.subjectanimal cell
dc.subjectantigenicity
dc.subjectArticle
dc.subjectdynamics
dc.subjectgenetic variability
dc.subjecthuman
dc.subjectinvestigative procedures
dc.subjectnatural selection
dc.subjectnonhuman
dc.subjectpandemic
dc.subjectseasonal influenza
dc.subjectSingapore
dc.subjectadaptation
dc.subjectanimal
dc.subjectdog
dc.subjectgenetic selection
dc.subjectgenetics
dc.subjecthost pathogen interaction
dc.subjectimmunology
dc.subjectInfluenza A virus (H1N1)
dc.subjectMDCK cell line
dc.subjectmolecular evolution
dc.subjectmolecular genetics
dc.subjectphylogeny
dc.subjectphylogeography
dc.subjectvirus genome
dc.subjectSingapore [Southeast Asia]
dc.subjectSuidae
dc.subjectAdaptation, Biological
dc.subjectAnimals
dc.subjectDogs
dc.subjectEvolution, Molecular
dc.subjectGenome, Viral
dc.subjectHost-Pathogen Interactions
dc.subjectHumans
dc.subjectInfluenza A Virus, H1N1 Subtype
dc.subjectMadin Darby Canine Kidney Cells
dc.subjectMolecular Sequence Data
dc.subjectPandemics
dc.subjectPhylogeny
dc.subjectPhylogeography
dc.subjectSelection, Genetic
dc.typeArticle
dc.contributor.departmentDUKE-NUS MEDICAL SCHOOL
dc.contributor.departmentPATHOLOGY
dc.description.doi10.1038/ncomms8952
dc.description.sourcetitleNature Communications
dc.description.volume6
dc.description.page7952
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