Host immune response to mosquito-transmitted chikungunya virus differs from that elicited by needle inoculated virus.
about
Parameters of Mosquito-Enhanced West Nile Virus InfectionThe tortoise or the hare? Impacts of within-host dynamics on transmission success of arthropod-borne virusesChikungunya vaccines in developmentIs arthropod saliva the achilles' heel of vector-borne diseases?The human immune system’s response to carcinogenic and other infectious agents transmitted by mosquito vectorsLoss of Glycosaminoglycan Receptor Binding after Mosquito Cell Passage Reduces Chikungunya Virus InfectivityThe role of the mosquito in a dengue human infection modelActivation of the innate immune response against DENV in normal non-transformed human fibroblastsAedes aegypti salivary protein "aegyptin" co-inoculation modulates dengue virus infection in the vertebrate hostDiscovery of mosquito saliva microRNAs during CHIKV infection.Implication of haematophagous arthropod salivary proteins in host-vector interactionsIn vivo imaging of chikungunya virus in mice and Aedes mosquitoes using a Renilla luciferase cloneDengue and soluble mediators of the innate immune system.A Deep Insight into the Sialome of Male and Female Aedes aegypti MosquitoesThe contribution of rodent models to the pathological assessment of flaviviral infections of the central nervous systemDevelopment of a transmission model for dengue virusChikungunya virus transmission between Aedes albopictus and laboratory mice.Analysis of early dengue virus infection in mice as modulated by Aedes aegypti probing.Mosquito saliva serine protease enhances dissemination of dengue virus into the mammalian host.Chikungunya virus: host pathogen interaction.Mouse models for Chikungunya virus: deciphering immune mechanisms responsible for disease and pathology.Insect transmission of plant viruses: Multilayered interactions optimize viral propagation.Deciphering the host-pathogen protein interface in chikungunya virus-mediated sickness.A Role for RNA Viruses in the Pathogenesis of Burkitt's Lymphoma: The Need for Reappraisal.Limitations of Current in Vivo Mouse Models for the Study of Chikungunya Virus Pathogenesis.Immunological consequences of arthropod vector-derived salivary factors.Induction of antisporozoite antibodies by biting of transgenic Anopheles stephensi delivering malarial antigen via blood feeding.Infection via mosquito bite alters Zika virus tissue tropism and replication kinetics in rhesus macaques.Mosquito saliva re-shapes alphavirus infection and immunopathogenesis.Mosquito saliva: the hope for a universal arbovirus vaccine?Mosquito saliva alone has profound effects on the human immune system.Immune responses to dengue virus in the skinCellular and Molecular Immune Response to Chikungunya Virus InfectionThe Pathogenesis of Alphaviruses
P2860
Q26314705-C6940071-61B3-4568-8379-AC1F6D3222BDQ26700076-2C44E153-9E7F-40F5-BA19-29B6B538091CQ26700081-997BC7DB-2962-40C2-85D4-303FB22FD817Q26865242-97E4592F-060B-4A2B-B1B6-7886D2860726Q28114688-0878C582-319F-4061-8588-8470CA70F975Q28550385-086C04DA-9ED3-497B-90DE-EA412C12E29FQ33676847-ADE15A58-59A4-4A6D-BB05-051B1B53AC7CQ34113793-36538F75-452C-4116-A705-EB709B015007Q34626207-312F4BA1-B132-40F0-9F68-ACED5328C7FAQ35000969-89D916DC-010D-42B4-BB1D-B0D9BDF8693EQ35398192-001A6C49-7261-4B2A-ACBE-C7BF3F70B935Q35550114-72415043-2BD8-441E-B5E3-70791C38C76FQ35865823-13893DD9-F5B1-46FF-823F-A18D7A6C4281Q35964904-C8E1C2D5-C03C-4F9F-8C02-4F92713B1D9FQ36089982-C1C5F041-AD76-47A9-A453-76C425E683BAQ36859054-503B2273-D307-420D-AFCE-F4B86BB7B48DQ37349608-D0D51209-F2C9-4CD7-AF75-4CDC917D56B5Q37547123-4D6F393B-F80A-4C43-B991-DF55E290B1EAQ37547686-CED14D1C-6015-4C97-854E-7F59267A555EQ37853934-430D38C8-97C1-4B13-AE4E-74CB1B1B35EDQ37993737-26407C52-3BE9-40AA-B3F6-CDF6C52C49C3Q39251988-933B5070-5E7D-4C42-991B-8B4719B9B01FQ39482116-C080A165-A462-4352-B21E-9166861AF41BQ40288450-66219C91-3077-4787-87CB-30F82FA0954FQ42705670-FBD95E0A-4039-4830-B403-393D4309414FQ44161140-62429A77-A9F3-4546-9198-C9D900D4903CQ44164857-6CB95777-B9BC-4BF7-B61A-3A4AF5CE6BACQ47130341-448F65C9-8AAB-4B27-BD49-0FD1C624B50BQ51782788-2814FA47-03EF-4E1B-8EE6-EF47C79E24C6Q52607156-B43923E7-1921-4317-A472-74A50DBD72F6Q54208727-B5B37EF2-906D-44A6-A134-943DADB8156AQ58426387-4AF5D2B7-2647-4D75-B4F1-4FF9B17AD717Q58575620-CC4F57A6-B32A-408F-8FD8-4C164EF80181Q59000049-2831952F-A0F7-43F7-B76E-0E2D907B7332
P2860
Host immune response to mosquito-transmitted chikungunya virus differs from that elicited by needle inoculated virus.
description
2010 nî lūn-bûn
@nan
2010 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Host immune response to mosqui ...... ed by needle inoculated virus.
@ast
Host immune response to mosqui ...... ed by needle inoculated virus.
@en
type
label
Host immune response to mosqui ...... ed by needle inoculated virus.
@ast
Host immune response to mosqui ...... ed by needle inoculated virus.
@en
prefLabel
Host immune response to mosqui ...... ed by needle inoculated virus.
@ast
Host immune response to mosqui ...... ed by needle inoculated virus.
@en
P2093
P2860
P50
P1433
P1476
Host immune response to mosqui ...... ed by needle inoculated virus.
@en
P2093
Sarah Ziegler
Saravanan Thangamani
Stephen Wikel
P2860
P304
P356
10.1371/JOURNAL.PONE.0012137
P407
P577
2010-08-12T00:00:00Z