Mouse models to study dengue virus immunology and pathogenesis
about
A lethal murine infection model for dengue virus 3 in AG129 mice deficient in type I and II interferon receptors leads to systemic diseaseMouse models of dengue virus infection for vaccine testingZika Virus Infects Neural Progenitors in the Adult Mouse Brain and Alters ProliferationDengue Fever: Causes, Complications, and Vaccine StrategiesDengue Virus Nonstructural Protein 1 Induces Vascular Leakage through Macrophage Migration Inhibitory Factor and AutophagyMapping and Role of the CD8+ T Cell Response During Primary Zika Virus Infection in MiceDefining New Therapeutics Using a More Immunocompetent Mouse Model of Antibody-Enhanced Dengue Virus Infection.Maternal Antibody-Mediated Disease Enhancement in Type I Interferon-Deficient Mice Leads to Lethal Disease Associated with Liver DamageThe Role of Heterotypic DENV-specific CD8+T Lymphocytes in an Immunocompetent Mouse Model of Secondary Dengue Virus Infection.CD8+ T cells prevent antigen-induced antibody-dependent enhancement of dengue disease in miceGenetic Dissection of the Host Tropism of Human-Tropic Pathogens.Oropouche virus infection and pathogenesis are restricted by MAVS, IRF-3, IRF-7, and type I interferon signaling pathways in nonmyeloid cells.CD8+ T Cells Can Mediate Short-Term Protection against Heterotypic Dengue Virus Reinfection in Mice.Spleen Tyrosine Kinase (Syk) Mediates IL-1β Induction by Primary Human Monocytes during Antibody-enhanced Dengue Virus Infection.Characterization of lethal dengue virus type 4 (DENV-4) TVP-376 infection in mice lacking both IFN-α/β and IFN-γ receptors (AG129) and comparison with the DENV-2 AG129 mouse model.The Emerging Duck Flavivirus Is Not Pathogenic for Primates and Is Highly Sensitive to Mammalian Interferon Antiviral Signaling.Low antibody titers 5 years after vaccination with the CYD-TDV dengue vaccine in both pre-immune and naïve vaccineesInhibition of endoplasmic reticulum glucosidases is required for in vitro and in vivo dengue antiviral activity by the iminosugar UV-4.DNA-immunisation with dengue virus E protein domains I/II, but not domain III, enhances Zika, West Nile and Yellow Fever virus infection.Endothelial dysfunction in dengue virus pathology.Key concepts, strategies, and challenges in dengue vaccine development: an opportunity for sub-unit candidates?T cell immunity to dengue virus and implications for vaccine design.A Structural and Mathematical Modeling Analysis of the Likelihood of Antibody-Dependent Enhancement in Influenza.Antibodies Against Modified NS1 Wing Domain Peptide Protect Against Dengue Virus Infection.Mast cell-macrophage dynamics in modulation of dengue virus infection in skin.Protective immune responses to dengue virus infection and vaccines: perspectives from the field to the bench.Exploring the Immunopathogenesis of Viral Hemorrhagic Fever in Mice with a Humanized Immune System.Oral Antibiotic Treatment of Mice Exacerbates the Disease Severity of Multiple Flavivirus Infections.Mosquito saliva alone has profound effects on the human immune system.Nucleoside analogs as a rich source of antiviral agents active against arthropod-borne flaviviruses.An Update on Sexual Transmission of Zika Virus
P2860
Q24276108-DB758059-2B9B-4C0B-8060-54B0F73D3636Q24276139-17D52E2A-1640-4F1C-9D1E-2420B68A4B04Q26337009-9839B2D4-BD3C-457E-AB2A-612AD2D20C0CQ26700082-44AA846A-CF43-4D7E-94F9-0ECF5469BDBAQ26700117-D9AE2210-FCF1-4D8E-AF95-635941BC82A3Q28223043-1127D39E-8043-48C8-9C16-E06DD342CDF5Q33425879-28CEE084-9F03-4551-9E8E-4E70DBF56204Q33430984-A0333480-F208-489D-9FED-A9750AB861E9Q33817714-79270BE7-C7CC-4B21-BF7A-A4B2B175357FQ34289194-7E724996-D5EE-4270-A807-6FB1C0FDD1D8Q34495762-55603188-7BD3-47C5-9B3D-D7BC3C646C77Q35488826-9F5382CF-58A6-4AC0-8E64-8CE3299F0193Q35760439-13291262-B7F3-4980-8D3A-85C057893881Q35837150-369EAA68-3B56-4BB6-8174-1AC9861E9363Q36255068-3B3892D3-C6FD-4BE5-98C1-CFF6BFFCFEA6Q37073267-04358290-B9C9-45E2-AC04-6BBF20652373Q37130999-7D428CA3-175C-4B09-AD56-6D4125F20E18Q37340035-5C5106CB-2D5E-4184-A433-7001262B21AFQ38157397-EAAD263D-F1EA-4A20-A60B-674F310330E2Q38272173-41C50B9A-9C54-4E49-8B2F-3AE6902E12FCQ38618056-1CB2B12C-50B8-4184-9494-2A3E5BA1655DQ38631171-8760B5AD-C980-4861-A16A-0AB35FD17C8BQ38983251-F2E7DBDA-02D8-4099-9048-BA850B0E2075Q40045064-711643C1-F411-4172-B270-0FC76F4C28CDQ40152339-A8A084B1-AFE0-422A-92EB-2C3B7A4CCE4BQ40166759-22399F94-A344-45DF-A60E-49BB9203CFF2Q41919588-17887FB2-008E-4219-A81C-AD1C7E2E584EQ51335974-079839B3-28D5-4568-ACF4-6240333B8E8BQ54208727-EEA081E4-6721-4A3C-8E07-BB7109499CA0Q54256710-2FC35FD3-7022-46E0-8B51-32DC025CFB7CQ56341896-6007F8D7-E778-47BB-9DF9-5B6612B9D7CF
P2860
Mouse models to study dengue virus immunology and pathogenesis
description
2014 nî lūn-bûn
@nan
2014 թուականին հրատարակուած գիտական յօդուած
@hyw
2014 թվականին 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
Mouse models to study dengue virus immunology and pathogenesis
@ast
Mouse models to study dengue virus immunology and pathogenesis
@en
Mouse models to study dengue virus immunology and pathogenesis
@nl
type
label
Mouse models to study dengue virus immunology and pathogenesis
@ast
Mouse models to study dengue virus immunology and pathogenesis
@en
Mouse models to study dengue virus immunology and pathogenesis
@nl
prefLabel
Mouse models to study dengue virus immunology and pathogenesis
@ast
Mouse models to study dengue virus immunology and pathogenesis
@en
Mouse models to study dengue virus immunology and pathogenesis
@nl
P2860
P3181
P356
P1476
Mouse models to study dengue virus immunology and pathogenesis
@en
P2093
Raphaël M. Zellweger
P2860
P3181
P356
10.3389/FIMMU.2014.00151
P407
P577
2014-01-01T00:00:00Z