Potential for New York mosquitoes to transmit West Nile virus.
about
The native Wolbachia endosymbionts of Drosophila melanogaster and Culex quinquefasciatus increase host resistance to West Nile virus infectionPresent and future arboviral threatsExperimental infections of wild birds with West Nile virusVector-virus interactions and transmission dynamics of West Nile virusAn epidemiological model for West Nile virus: invasion analysis and control applicationsRelating West Nile virus case fatality rates to demographic and surveillance variablesHost Feeding Patterns of Established and Potential Mosquito Vectors of West Nile Virus in the Eastern United StatesEcologic Factors Associated with West Nile Virus Transmission, Northeastern United StatesSerologic Evidence for West Nile Virus Infection in Birds in the New York City Vicinity During an Outbreak in 1999Mosquito Surveillance for West Nile Virus in Connecticut, 2000: Isolation fromCulex pipiens,Cx. restuans,Cx. salinarius, andCuliseta melanuraExperimental Infection of Chickens as Candidate Sentinels for West Nile VirusWest Nile Virus Infection in Birds and Mosquitoes, New York State, 2000Vector Competence of Selected North American Culex and Coquillettidia Mosquitoes for West Nile VirusChanging patterns of West Nile virus transmission: altered vector competence and host susceptibilityImpact of extrinsic incubation temperature and virus exposure on vector competence of Culex pipiens quinquefasciatus Say (Diptera: Culicidae) for West Nile virusVector Competence of California Mosquitoes for West Nile virusArbovirus transmission by Culex nigripalpus in Florida, 2005Avian Host-Selection by Culex pipiens in Experimental TrialsEnvironmental and biological factors influencing Culex pipiens quinquefasciatus Say (Diptera: Culicidae) vector competence for Saint Louis encephalitis virusDiscernment between deliberate and natural infectious disease outbreaksExperimental infection of North American birds with the New York 1999 strain of West Nile virusDecelerating spread of West Nile virus by percolation in a heterogeneous urban landscape.Transmission of West Nile virus by Culex quinquefasciatus say infected with Culex Flavivirus IzabalMosquitoes used to draw blood for arbovirus viremia determinations in small vertebrates.North American encephalitic arbovirusesSources of error in the estimation of mosquito infection rates used to assess risk of arbovirus transmission.DNA vaccination of American robins (Turdus migratorius) against West Nile virus.DIFFERENTIAL IMPACT OF WEST NILE VIRUS ON CALIFORNIA BIRDS.An in vivo transfection approach elucidates a role for Aedes aegypti thioester-containing proteins in flaviviral infection.West Nile virus and its emergence in the United States of America.Spatial and temporal variation in vector competence of Culex pipiens and Cx. restuans mosquitoes for West Nile virus.Comprehensive mapping of common immunodominant epitopes in the West Nile virus nonstructural protein 1 recognized by avian antibody responses.A C-type lectin collaborates with a CD45 phosphatase homolog to facilitate West Nile virus infection of mosquitoes.Culex pipiens, an experimental efficient vector of West Nile and Rift Valley fever viruses in the Maghreb region.Alligators as West Nile virus amplifiers.Evidence for co-evolution of West Nile Virus and house sparrows in North America.Ecological niche modeling of potential West Nile virus vector mosquito species in Iowa.Flavivirus-mosquito interactions.West Nile virus risk assessment and the bridge vector paradigm.Relationships between infection, dissemination, and transmission of West Nile virus RNA in Culex pipiens quinquefasciatus (Diptera: Culicidae).
P2860
Q21562179-4DCCD4A8-F611-4D70-9350-460B82480C61Q24289450-C14DBCAB-0C97-4C47-872C-249814C0DDE5Q27010636-010B159A-D157-4E0F-B058-FC2B744172E5Q27015117-C3679041-E969-4764-B527-FA1CB5125973Q27477750-C0151483-4451-4E27-808E-B34A46B284BDQ27478001-7CD7DE0A-07B4-4BB9-AE36-3C930DC15BF1Q27487327-D719C940-DDDF-4B07-B1C4-AE3F9B3B88CDQ27487524-B9045289-A502-4D8A-B95D-DECDBBF238B9Q27487792-E4C6A098-3178-4971-BCED-69DCFC7D704BQ27487796-109ADA17-4FE8-4935-80EF-EA374812ED87Q27487816-38621837-C5E9-45F2-9FB4-AE14BF65B02CQ27487817-C0DD77DD-4B8D-4B6D-96F8-3433E55B8E73Q27487841-35B47980-315B-4B62-AEF0-61197436D75AQ27488733-1C27A825-1123-41AC-A324-B2ABF29FCC9CQ27489120-1E88E24B-895F-48DC-A8FA-21FB338F53CAQ27489547-CAF79E20-0847-4DAA-AA1C-505ECE2DDFF8Q27490277-7591C5A7-5CBA-4B00-809F-19C12A351053Q27490375-9CEFEF1E-3CD9-4674-BAE0-DD885F616A90Q27490809-942FC8AC-0E12-44D6-8F77-9325D7346B23Q28395547-66DD0952-628A-4956-AC1B-022660765CA0Q29616255-47E2EEFC-EBC1-4910-AA4A-F97838A40AE7Q30405838-DFDE7727-DD5D-403F-B9D1-783A44C92207Q33573351-301C1E06-B435-40D1-BE6E-379EEC12684BQ33717081-39DC3402-2E05-4D5D-9818-5B6DC3AF30BFQ33835377-D5F0FF8C-6273-44DC-98F8-287A51EE78E6Q33880737-96AA293C-0A56-44EB-A959-C314648B3CF1Q33904990-A8A8E6F2-42C3-4A55-90B5-A943E9064839Q33943927-BB97F7C4-C010-4C24-9AA0-208F3FF94A8BQ33983448-4EC8B7C2-959C-4CDA-AFAB-C9DF847E6EF7Q34035068-659837D4-83DE-4675-A963-890AF2DA54F5Q34087418-E5FB98F1-3F8A-4793-9959-A7F70A93F72BQ34162834-DD52EDAC-8140-4622-B5A5-336C707C9458Q34195900-C802E734-96BB-4D62-A61E-8C2402279C11Q34281104-66DE4806-993E-46C3-B800-E89B32D5BB77Q34386796-6004A333-B9B1-46AD-9A0A-E1883CB3639CQ34428035-5ACC57C7-4A41-4F0B-ABF1-25CBF588F43FQ34470767-16BC01C8-D9ED-479C-B627-74C5EF08B8FCQ34580911-B3F5F585-BD99-401C-9979-76A67DA98C02Q35817345-DE49D331-1726-498E-B256-8007039991E9Q35874085-7EB1F8AD-9F5E-46D6-A14E-58AE4D282C53
P2860
Potential for New York mosquitoes to transmit West Nile virus.
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
2000年论文
@zh
2000年论文
@zh-cn
name
Potential for New York mosquitoes to transmit West Nile virus.
@en
type
label
Potential for New York mosquitoes to transmit West Nile virus.
@en
prefLabel
Potential for New York mosquitoes to transmit West Nile virus.
@en
P2093
P1476
Potential for New York mosquitoes to transmit West Nile virus
@en
P2093
P304
P356
10.4269/AJTMH.2000.62.413
P407
P577
2000-03-01T00:00:00Z