Genetic Variability of West Nile Virus in U.S. Blood Donors from the 2012 Epidemic Season.

West Nile virus (WNV) is an arbovirus maintained in nature in a bird-mosquito enzootic cycle which can also infect other vertebrates including humans. WNV is now endemic in the United States (U.S.), causing yearly outbreaks that have resulted in an estimated total of 4-5 million human infections. Ov...

Full description

Bibliographic Details
Main Authors: Andriyan Grinev, Caren Chancey, Evgeniya Volkova, Germán Añez, Daniel A R Heisey, Valerie Winkelman, Gregory A Foster, Phillip Williamson, Susan L Stramer, Maria Rios
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2016-05-01
Series:PLoS Neglected Tropical Diseases
Online Access:http://europepmc.org/articles/PMC4868353?pdf=render
id doaj-871a1d89c0d34e6d93f9c92a46c0431e
record_format Article
spelling doaj-871a1d89c0d34e6d93f9c92a46c0431e2020-11-25T02:27:09ZengPublic Library of Science (PLoS)PLoS Neglected Tropical Diseases1935-27271935-27352016-05-01105e000471710.1371/journal.pntd.0004717Genetic Variability of West Nile Virus in U.S. Blood Donors from the 2012 Epidemic Season.Andriyan GrinevCaren ChanceyEvgeniya VolkovaGermán AñezDaniel A R HeiseyValerie WinkelmanGregory A FosterPhillip WilliamsonSusan L StramerMaria RiosWest Nile virus (WNV) is an arbovirus maintained in nature in a bird-mosquito enzootic cycle which can also infect other vertebrates including humans. WNV is now endemic in the United States (U.S.), causing yearly outbreaks that have resulted in an estimated total of 4-5 million human infections. Over 41,700 cases of West Nile disease, including 18,810 neuroinvasive cases and 1,765 deaths, were reported to the CDC between 1999 and 2014. In 2012, the second largest West Nile outbreak in the U.S. was reported, which caused 5,674 cases and 286 deaths. WNV continues to evolve, and three major WNV lineage I genotypes (NY99, WN02, and SW/WN03) have been described in the U.S. since introduction of the virus in 1999. We report here the WNV sequences obtained from 19 human samples acquired during the 2012 U.S. outbreak and our examination of the evolutionary dynamics in WNV isolates sequenced from 1999-2012. Maximum-likelihood and Bayesian methods were used to perform the phylogenetic analyses. Selection pressure analyses were performed with the HyPhy package using the Datamonkey web-server. Using different codon-based and branch-site selection models, we detected a number of codons subjected to positive pressure in WNV genes. Thirteen of the 19 completely sequenced isolates from 10 U.S. states were genetically similar, sharing up to 55 nucleotide mutations and 4 amino acid substitutions when compared with the prototype isolate WN-NY99. Overall, these analyses showed that following a brief contraction in 2008-2009, WNV genetic divergence in the U.S. continued to increase in 2012, and that closely related variants were found across a broad geographic range of the U.S., coincident with the second-largest WNV outbreak in U.S.http://europepmc.org/articles/PMC4868353?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Andriyan Grinev
Caren Chancey
Evgeniya Volkova
Germán Añez
Daniel A R Heisey
Valerie Winkelman
Gregory A Foster
Phillip Williamson
Susan L Stramer
Maria Rios
spellingShingle Andriyan Grinev
Caren Chancey
Evgeniya Volkova
Germán Añez
Daniel A R Heisey
Valerie Winkelman
Gregory A Foster
Phillip Williamson
Susan L Stramer
Maria Rios
Genetic Variability of West Nile Virus in U.S. Blood Donors from the 2012 Epidemic Season.
PLoS Neglected Tropical Diseases
author_facet Andriyan Grinev
Caren Chancey
Evgeniya Volkova
Germán Añez
Daniel A R Heisey
Valerie Winkelman
Gregory A Foster
Phillip Williamson
Susan L Stramer
Maria Rios
author_sort Andriyan Grinev
title Genetic Variability of West Nile Virus in U.S. Blood Donors from the 2012 Epidemic Season.
title_short Genetic Variability of West Nile Virus in U.S. Blood Donors from the 2012 Epidemic Season.
title_full Genetic Variability of West Nile Virus in U.S. Blood Donors from the 2012 Epidemic Season.
title_fullStr Genetic Variability of West Nile Virus in U.S. Blood Donors from the 2012 Epidemic Season.
title_full_unstemmed Genetic Variability of West Nile Virus in U.S. Blood Donors from the 2012 Epidemic Season.
title_sort genetic variability of west nile virus in u.s. blood donors from the 2012 epidemic season.
publisher Public Library of Science (PLoS)
series PLoS Neglected Tropical Diseases
issn 1935-2727
1935-2735
publishDate 2016-05-01
description West Nile virus (WNV) is an arbovirus maintained in nature in a bird-mosquito enzootic cycle which can also infect other vertebrates including humans. WNV is now endemic in the United States (U.S.), causing yearly outbreaks that have resulted in an estimated total of 4-5 million human infections. Over 41,700 cases of West Nile disease, including 18,810 neuroinvasive cases and 1,765 deaths, were reported to the CDC between 1999 and 2014. In 2012, the second largest West Nile outbreak in the U.S. was reported, which caused 5,674 cases and 286 deaths. WNV continues to evolve, and three major WNV lineage I genotypes (NY99, WN02, and SW/WN03) have been described in the U.S. since introduction of the virus in 1999. We report here the WNV sequences obtained from 19 human samples acquired during the 2012 U.S. outbreak and our examination of the evolutionary dynamics in WNV isolates sequenced from 1999-2012. Maximum-likelihood and Bayesian methods were used to perform the phylogenetic analyses. Selection pressure analyses were performed with the HyPhy package using the Datamonkey web-server. Using different codon-based and branch-site selection models, we detected a number of codons subjected to positive pressure in WNV genes. Thirteen of the 19 completely sequenced isolates from 10 U.S. states were genetically similar, sharing up to 55 nucleotide mutations and 4 amino acid substitutions when compared with the prototype isolate WN-NY99. Overall, these analyses showed that following a brief contraction in 2008-2009, WNV genetic divergence in the U.S. continued to increase in 2012, and that closely related variants were found across a broad geographic range of the U.S., coincident with the second-largest WNV outbreak in U.S.
url http://europepmc.org/articles/PMC4868353?pdf=render
work_keys_str_mv AT andriyangrinev geneticvariabilityofwestnilevirusinusblooddonorsfromthe2012epidemicseason
AT carenchancey geneticvariabilityofwestnilevirusinusblooddonorsfromthe2012epidemicseason
AT evgeniyavolkova geneticvariabilityofwestnilevirusinusblooddonorsfromthe2012epidemicseason
AT germananez geneticvariabilityofwestnilevirusinusblooddonorsfromthe2012epidemicseason
AT danielarheisey geneticvariabilityofwestnilevirusinusblooddonorsfromthe2012epidemicseason
AT valeriewinkelman geneticvariabilityofwestnilevirusinusblooddonorsfromthe2012epidemicseason
AT gregoryafoster geneticvariabilityofwestnilevirusinusblooddonorsfromthe2012epidemicseason
AT phillipwilliamson geneticvariabilityofwestnilevirusinusblooddonorsfromthe2012epidemicseason
AT susanlstramer geneticvariabilityofwestnilevirusinusblooddonorsfromthe2012epidemicseason
AT mariarios geneticvariabilityofwestnilevirusinusblooddonorsfromthe2012epidemicseason
_version_ 1724843984962977792