about
Serologic survey of pandemic (H1N1) 2009 virus, Guangxi Province, ChinaFatal outcome of human influenza A (H5N1) is associated with high viral load and hypercytokinemiaThe emergence and diversification of panzootic H5N1 influenza virusesAncient origins determine global biogeography of hot and cold desert cyanobacteriaEstablishment of multiple sublineages of H5N1 influenza virus in Asia: Implications for pandemic controlOseltamivir resistance during treatment of influenza A (H5N1) infectionOrigins and evolutionary genomics of the 2009 swine-origin H1N1 influenza A epidemicInfluenza a virus migration and persistence in North American wild birds.Genesis of a highly pathogenic and potentially pandemic H5N1 influenza virus in eastern Asia.Evolution and adaptation of H5N1 influenza virus in avian and human hosts in Indonesia and Vietnam.Emergence and predominance of an H5N1 influenza variant in China.Evolution and molecular epidemiology of H9N2 influenza A viruses from quail in southern China, 2000 to 2005.Identification of the progenitors of Indonesian and Vietnamese avian influenza A (H5N1) viruses from southern ChinaAdaptation of pandemic H2N2 influenza A viruses in humans.Evolutionary dynamics and emergence of panzootic H5N1 influenza viruses.Dating the emergence of pandemic influenza virusesThe emergence of pandemic influenza virusesLong-term evolution and transmission dynamics of swine influenza A virus.Location-specific patterns of exposure to recent pre-pandemic strains of influenza A in southern ChinaInfluenza A virus evolution and spatio-temporal dynamics in Eurasian wild birds: a phylogenetic and phylogeographical study of whole-genome sequence data.Community structure of free-floating filamentous cyanobacterial mats from the Wonder Lake geothermal springs in the Philippines.Distribution of amantadine-resistant H5N1 avian influenza variants in Asia.Evolutionary insights into the ecology of coronaviruses.Phylogeny of the basal angiosperm genus Pseuduvaria (Annonaceae) inferred from five chloroplast DNA regions, with interpretation of morphological character evolution.Nuclear factor 90 negatively regulates influenza virus replication by interacting with viral nucleoprotein.Multiannual patterns of influenza A transmission in Chinese live bird market systems.Establishment of an H6N2 influenza virus lineage in domestic ducks in southern China.Human infection with an avian H9N2 influenza A virus in Hong Kong in 2003.Temporally structured metapopulation dynamics and persistence of influenza A H3N2 virus in humans.Evidence for antigenic seniority in influenza A (H3N2) antibody responses in southern China.The recent establishment of North American H10 lineage influenza viruses in Australian wild waterfowl and the evolution of Australian avian influenza viruses.Feasibility of reconstructed ancestral H5N1 influenza viruses for cross-clade protective vaccine development.Multilocus sequence analysis of Treponema denticola strains of diverse origin.Prevalence and genetic diversity of coronaviruses in bats from ChinaThe contrasting phylodynamics of human influenza B viruses.Nomenclature updates resulting from the evolution of avian influenza A(H5) virus clades 2.1.3.2a, 2.2.1, and 2.3.4 during 2013-2014RNA Virus Reassortment: An Evolutionary Mechanism for Host Jumps and Immune Evasion.Ecological Drivers of Virus Evolution: Astrovirus as a Case Study.Detection of a novel and highly divergent coronavirus from asian leopard cats and Chinese ferret badgers in Southern China.Characterization of low-pathogenic H5 subtype influenza viruses from Eurasia: implications for the origin of highly pathogenic H5N1 viruses.
P50
Q24633856-C96483B5-1F26-4616-9F53-04C12029E554Q28262914-3132E05B-DDF6-4B1E-A639-6C3384136FDAQ28292060-A1445C46-E0A0-45BD-A054-8C00936CADA5Q28744099-CB48EA2B-B135-49F4-9855-D6D409D44CEEQ29301392-D24EF737-F6C0-4839-8CCA-D7DB53EA5750Q29618722-DA717174-0FE8-4F26-8F93-D48C85A32625Q29619055-89F7C2D1-0F08-4BC8-B8BE-B5EB71F3EAA3Q30220802-05D713DF-AE9B-4A9D-B2C6-80711173373FQ30342179-1B5B039D-7D56-4F8C-B317-63377A992A38Q30354492-54F6BBDB-7B2F-4B5B-9DDA-5C40A1601216Q30357743-0FCC25B5-419C-412C-985B-7C773671BEEEQ30358972-84B8640B-B57D-4667-A1B5-8FC248E2A064Q30367318-47AF6567-376F-42E4-BEE7-FBF7BEF0401FQ30369726-BAFBDB95-89DB-4B92-AD77-848A75010A8EQ30372285-D4221A5D-1D67-4B7D-BA10-16F083C9D45CQ30378899-760BB713-BEC0-4913-8CED-A2414BC2BA46Q30398146-83763186-2395-4230-B0FC-B9FC28445A93Q30403142-81BD4DD7-FF70-4D3E-95CB-B52CBB6FDEC0Q30405834-8AE1CC1D-6A8B-4592-9F83-7A8D8103C543Q30938686-C3AC0C47-49A6-47C4-A5AE-046AE1DA2046Q33223670-30F7E68D-B3E0-4024-A163-E9D34AC96E84Q33243576-F634A3FD-ABCD-49D2-B967-52A3700432FFQ33271263-56BE4CA0-5E1B-4F4D-B14A-8D3AFF2661FFQ33330786-B272924C-F120-4BF1-873C-61858FF3039FQ33459671-26080BF2-E639-4CB4-B59B-6277BF1DCEE4Q33770811-24E61375-0EC9-49C1-B084-5E1A096BAA32Q33966610-B9E7E3E2-18E8-4095-8893-9EE832FDFF73Q34143724-3826B595-B0DC-4BFD-B922-DB549A758E28Q34232682-E676A524-2BD1-4ED9-ACB3-87E1C66217B8Q34350881-1B7EE145-FA58-4EDA-BED3-00F30CB07932Q34358215-1F5D7207-D138-459D-BF20-035E80BD73F5Q34472018-F484B3B2-5028-41CD-9763-7569A226E498Q34573940-70D2AC13-2611-4794-8109-B384A38C95BBQ35023740-F1D10852-B956-4DBF-B159-7CEE7ECF0105Q35249640-06276092-B081-4B17-BF17-613CCE3B60CEQ35628230-8EDC0C86-D0B7-4713-8B15-6126E278AF1DQ35687101-D246086B-F865-4D0E-8B57-8EAB2A8A884EQ35758618-296FF77E-B1B8-4BE1-9310-D457CC50686BQ35914406-35B99ECA-C657-4D6D-92B6-4761D2F43EBEQ35914502-8D9F844A-707E-4A01-84EE-CF2521D8A638
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Gavin J D Smith
@ast
Gavin J D Smith
@en
Gavin J D Smith
@es
Gavin J D Smith
@nl
Gavin J D Smith
@sl
type
label
Gavin J D Smith
@ast
Gavin J D Smith
@en
Gavin J D Smith
@es
Gavin J D Smith
@nl
Gavin J D Smith
@sl
altLabel
Gavin J Smith
@en
prefLabel
Gavin J D Smith
@ast
Gavin J D Smith
@en
Gavin J D Smith
@es
Gavin J D Smith
@nl
Gavin J D Smith
@sl
P106
P1153
8344015800
P21
P31
P496
0000-0001-5031-468X