about
Genetic Diversity and Phylogeny of Aedes aegypti, the Main Arbovirus Vector in the PacificThe global distribution of the arbovirus vectors Aedes aegypti and Ae. albopictusMembrane feeding of dengue patient's blood as a substitute for direct skin feeding in studying Aedes-dengue virus interactionThe tortoise or the hare? Impacts of within-host dynamics on transmission success of arthropod-borne virusesComparative Analysis of Dengue and Zika Outbreaks Reveals Differences by Setting and VirusIsolation of dengue virus from the upper respiratory tract of four patients with dengue fever.Asymptomatic Transmission and the Dynamics of Zika Infection.Rapid Surveillance for Vector Presence (RSVP): Development of a novel system for detecting Aedes aegypti and Aedes albopictusAsymptomatic humans transmit dengue virus to mosquitoes.Mosquito-borne and sexual transmission of Zika virus: Recent developments and future directions.Assessment of risk of dengue and yellow fever virus transmission in three major Kenyan cities based on Stegomyia indices.The Potential Impact of Vaccination on the Dynamics of Dengue Infections.Impact of transmission cycles and vector competence on global expansion and emergence of arboviruses.Rise and fall of vector infectivity during sequential strain displacements by mosquito-borne dengue virus.Predicting Wolbachia potential to knock down dengue virus transmission.Dengue virus detection in Aedes aegypti larvae from southeastern Brazil.Protective immune responses to dengue virus infection and vaccines: perspectives from the field to the bench.Dengue and yellow fever virus vectors: seasonal abundance, diversity and resting preferences in three Kenyan cities.Mosquitoes as Suitable Vectors for Alphaviruses.Secretion of the non-structural protein 1 of dengue virus from infected mosquito cells: facts and speculations.Evaluation of resting traps to examine the behaviour and ecology of mosquito vectors in an area of rapidly changing land use in Sabah, Malaysian Borneo.Cost-effectiveness of a potential Zika vaccine candidate: a case study for Colombia.From Incriminating Stegomyia fasciata to Releasing Wolbachia pipientis: Australian Research on the Dengue Virus Vector, Aedes aegypti, and Development of Novel Strategies for Its Surveillance and Control
P2860
Q22330680-F07CA5D4-BE30-44D4-8BCF-15A0B1053BDEQ22680660-4555206D-B74A-4218-B0DF-AAD06007BF39Q24288851-F7B5D5E4-EFFB-4F1F-AD51-2F75F312CD6FQ26700076-9E1A93B3-DA77-48CC-89DE-E7E1443658BFQ27980447-BBEB1353-1A1E-4D30-A15A-27152783CBF4Q33597509-44387A17-8888-4C37-8A9A-51BD4BAB7DF7Q33918798-B751D675-3E73-4FC7-B820-28E6BA96FD7CQ36321997-616E6F79-5CE8-44B2-8E00-4AB8AEFFF2B6Q36331893-45E61C51-525F-4F79-B239-B0D57D4E2538Q38157853-866896C4-DFD2-40F0-AE92-7234EE096BC8Q38640925-EEC2960B-A451-4AD6-B6D1-EF72683CD7FBQ39141924-1FD3307B-2FF0-45F2-8791-996AADE31568Q40063521-7286571F-22B7-4E43-8E67-2347AD9F46D5Q40082112-57B473A8-082C-4A32-B316-8DE8CCCDC52EQ40125770-879F5A96-C3BA-422F-95F8-19ED93BC9D7CQ40152877-B196BE34-A5AD-445F-82E6-C05DCC29BB81Q40166759-A0CB433E-2ED2-4525-B4B7-3B1AE01C2CE7Q47117726-D1860C53-56C4-4F29-BF64-9A3D05A816DAQ50002141-B9010BEC-72E2-441B-89A6-DBB75A92EA85Q54222590-696B701F-BA91-4232-8AEC-EF276252EAA0Q55314569-BF4AB765-367A-4C7C-84F8-298B84CE2F0CQ55501202-37362B31-7C09-43D8-9602-84226BA746B5Q57022058-4ECF03E8-C771-40CA-9232-53724DF8B290
P2860
description
2014 nî lūn-bûn
@nan
2014 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Human to mosquito transmission of dengue viruses
@ast
Human to mosquito transmission of dengue viruses
@en
type
label
Human to mosquito transmission of dengue viruses
@ast
Human to mosquito transmission of dengue viruses
@en
prefLabel
Human to mosquito transmission of dengue viruses
@ast
Human to mosquito transmission of dengue viruses
@en
P2860
P356
P1476
Human to mosquito transmission of dengue viruses
@en
P2860
P356
10.3389/FIMMU.2014.00290
P577
2014-06-17T00:00:00Z