Deletions in the putative cell receptor-binding domain of Sindbis virus strain MRE16 E2 glycoprotein reduce midgut infectivity in Aedes aegypti.
about
Biological Transmission of Arboviruses: Reexamination of and New Insights into Components, Mechanisms, and Unique Traits as Well as Their Evolutionary TrendsRapid selection against arbovirus-induced apoptosis during infection of a mosquito vectorTissue Barriers to Arbovirus Infection in MosquitoesSindbis virus interferes with dengue 4 virus replication and its potential transmission by Aedes albopictusInsight into a conserved lifestyle: protein-carbohydrate adhesion strategies of vector-borne pathogens.Effects of an Opal Termination Codon Preceding the nsP4 Gene Sequence in the O'Nyong-Nyong Virus Genome on Anopheles gambiae InfectivityAnopheles gambiae heat shock protein cognate 70B impedes o'nyong-nyong virus replicationGenetic Determinants of Sindbis Virus Mosquito Infection Are Associated with a Highly Conserved Alphavirus and Flavivirus Envelope SequenceAedes aegypti uses RNA interference in defense against Sindbis virus infectionVenezuelan equine encephalitis virus in the mosquito vector Aedes taeniorhynchus: Infection initiated by a small number of susceptible epithelial cells and a population bottleneckA dengue receptor as possible genetic marker of vector competence in Aedes aegyptiEx vivo promoter analysis of antiviral heat shock cognate 70B gene in Anopheles gambiaeEpistatic Roles of E2 Glycoprotein Mutations in Adaption of Chikungunya Virus to Aedes Albopictus and Ae. Aegypti MosquitoesA structural and functional perspective of alphavirus replication and assemblyRNA interference acts as a natural antiviral response to O'nyong-nyong virus (Alphavirus; Togaviridae) infection of Anopheles gambiaeStress granule components G3BP1 and G3BP2 play a proviral role early in Chikungunya virus replication.Evolutionary ecology of virus emergence.Molecular characterization of Chikungunya virus isolates from clinical samples and adult Aedes albopictus mosquitoes emerged from larvae from Kerala, South India.The nsp2 replicase proteins of murine hepatitis virus and severe acute respiratory syndrome coronavirus are dispensable for viral replication.Sequential adaptive mutations enhance efficient vector switching by Chikungunya virus and its epidemic emergence.High efficiency of temperate Aedes albopictus to transmit chikungunya and dengue viruses in the Southeast of FranceEffects of manipulating apoptosis on Sindbis virus infection of Aedes aegypti mosquitoes.Venezuelan equine encephalitis emergence: enhanced vector infection from a single amino acid substitution in the envelope glycoprotein.Role of phosphatidylserine receptors in enveloped virus infection.Dynamics of the emergence and establishment of a newly dominant genotype of Japanese encephalitis virus throughout Asia.Phenotypic and molecular characteristics of plaque-purified MX10 virus, an Oriental-Australian genotype of Sindbis virus from Yunnan, China.Redirecting lentiviral vectors pseudotyped with Sindbis virus-derived envelope proteins to DC-SIGN by modification of N-linked glycans of envelope proteins.Development of a new Sindbis virus transducing system and its characterization in three Culicine mosquitoes and two Lepidopteran species.Nuclear import and export of Venezuelan equine encephalitis virus nonstructural protein 2.Differential transmission of Asian and African Zika virus lineages by Aedes aegypti from New CaledoniaThe Pathogenesis of Alphaviruses
P2860
Q24289112-D3FB2A6F-6623-4F28-9963-7F9D30AF434FQ24701751-ACEC209D-A9A3-42B2-AC90-724B721B5CB8Q24701759-3301CDD4-8F2E-42AE-AA65-2020B22BD183Q24701784-EC82CB76-B861-492A-8AE4-F8A0A3968025Q27472742-B9AD968C-EDCC-47C1-94B7-EEF9F2DB4226Q27473219-D0F90F70-4F8F-4666-9EE2-6470D0B24D8EQ27481049-48AB35DA-BBAF-4668-AF24-BF5B8D017791Q27485453-704A6DDE-9165-4474-ADC1-09E5FFA13265Q27485640-4CADD520-F5A4-474D-B72F-7BB3D22725BBQ27485705-38A83856-02D1-41A5-86CF-ED1A6A3DE84FQ27486539-54405A10-F2F4-482D-92FB-776692AE402BQ27487552-59C7A42E-F1A6-46FB-BF9C-DA424EFB0636Q27489379-59C123A0-6D4F-48EE-AEB5-83778D1467C7Q27490173-E746F606-9D17-4561-AE1E-3FD4406E5810Q29616263-43FB82C8-37EF-4AD0-AE00-E676BC394E8FQ30009234-51FE3570-8C60-4D1F-90C5-8576C96CCA1AQ30396932-442EE0B3-321C-460F-B69D-ED1679C96F45Q34083962-AF0FD545-6173-411B-B28C-A3F6639F15A6Q34092836-18F73307-D3C1-4F65-834F-CC1C11F5AB88Q34102716-7C6D464A-9899-4D1F-A9E0-481B3F5B9B7DQ34635483-F39E01E1-769B-4C8C-8844-213D7612B9CDQ36086744-DEDF82A9-40CC-4FF4-93F6-AA4960623CBEQ37388695-1E7088EF-01FD-4F8E-8017-3A565B7DB844Q37713918-2F702B58-7F35-438A-A3D5-E4EC5FA2965BQ37713938-340F34E3-3335-43FF-A8AF-C79939BC8D0CQ39281561-92AF96CA-0668-42AD-9799-246E58720A6EQ39702309-EE02733F-CA52-4363-95BD-F5A4D2091483Q42045682-D999662D-DC12-4851-A88C-0AAC149F609AQ42638468-38F1C06B-D1ED-422E-BC27-DE3765306EB0Q57091846-EA48EFA8-191E-44BD-A15E-E1C8F0CAE97BQ59000049-6DB96B18-832D-4DA2-99D2-F52D4C378255
P2860
Deletions in the putative cell receptor-binding domain of Sindbis virus strain MRE16 E2 glycoprotein reduce midgut infectivity in Aedes aegypti.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh
2003年學術文章
@zh-hant
name
Deletions in the putative cell ...... infectivity in Aedes aegypti.
@en
type
label
Deletions in the putative cell ...... infectivity in Aedes aegypti.
@en
prefLabel
Deletions in the putative cell ...... infectivity in Aedes aegypti.
@en
P2093
P2860
P1433
P1476
Deletions in the putative cell ...... infectivity in Aedes aegypti.
@en
P2093
Dennis J Pierro
Ken E Olson
Kevin M Myles
P2860
P304
P356
10.1128/JVI.77.16.8872-8881.2003
P407
P577
2003-08-01T00:00:00Z