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Publication DateEmerging Infectious Diseases, ISSN 1080-6040, 2011, Volume 17, Issue 10, pp. 1873 - 1875
In China in 2010, a disease outbreak in egg-laying ducks was associated with a flavivirus. The virus was isolated and partially sequenced. The isolate...
INFECTIOUS DISEASES | IMMUNOLOGY | ENCEPHALITIS | GENUS FLAVIVIRUS | Poultry Diseases - pathology | Humans | Ducks - virology | Flavivirus Infections - epidemiology | Flavivirus - genetics | Viral Nonstructural Proteins - genetics | China - epidemiology | Phylogeny | Poultry Diseases - virology | Flavivirus Infections - veterinary | Flavivirus - classification | Animals | Flavivirus - isolation & purification | Disease Outbreaks - veterinary | Flavivirus Infections - pathology | Poultry Diseases - epidemiology | Polymerase chain reaction | Usage | Research | Health aspects | Ducks | duck flavivirus | viruses | China | Dispatch | Tembusu virus | duck hemorrhagic ovaritis | Flavivirus
INFECTIOUS DISEASES | IMMUNOLOGY | ENCEPHALITIS | GENUS FLAVIVIRUS | Poultry Diseases - pathology | Humans | Ducks - virology | Flavivirus Infections - epidemiology | Flavivirus - genetics | Viral Nonstructural Proteins - genetics | China - epidemiology | Phylogeny | Poultry Diseases - virology | Flavivirus Infections - veterinary | Flavivirus - classification | Animals | Flavivirus - isolation & purification | Disease Outbreaks - veterinary | Flavivirus Infections - pathology | Poultry Diseases - epidemiology | Polymerase chain reaction | Usage | Research | Health aspects | Ducks | duck flavivirus | viruses | China | Dispatch | Tembusu virus | duck hemorrhagic ovaritis | Flavivirus
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Loading RightsAntiviral Research, ISSN 0166-3542, 05/2013, Volume 98, Issue 2, pp. 192 - 208
The flavivirus nonstructural glycoprotein NS1 is an enigmatic protein whose structure and mechanistic function have remained somewhat elusive ever since it was...
Nonstructural protein 1 | Diagnostics | Pathogenesis | Flavivirus | NS1 | Dengue | ANTIGEN-CAPTURE ELISA | CONCURRENT PLATELET ENUMERATION | TEMPERATURE-SENSITIVE MUTATION | WEST-NILE-VIRUS | DENGUE HEMORRHAGIC-FEVER | TICK-BORNE ENCEPHALITIS | VIROLOGY | YELLOW-FEVER VIRUS | JAPANESE ENCEPHALITIS-VIRUS | NONSTRUCTURAL GLYCOPROTEIN NS1 | PHARMACOLOGY & PHARMACY | LINKED IMMUNOSORBENT ASSAYS | Viral Nonstructural Proteins - chemistry | Animals | Flavivirus - chemistry | Flavivirus - immunology | Humans | Flavivirus - pathogenicity | Flavivirus - genetics | Viral Nonstructural Proteins - genetics | Flavivirus Infections - virology | Flavivirus Infections - diagnosis | Biomarkers - chemistry | Viral Nonstructural Proteins - immunology
Nonstructural protein 1 | Diagnostics | Pathogenesis | Flavivirus | NS1 | Dengue | ANTIGEN-CAPTURE ELISA | CONCURRENT PLATELET ENUMERATION | TEMPERATURE-SENSITIVE MUTATION | WEST-NILE-VIRUS | DENGUE HEMORRHAGIC-FEVER | TICK-BORNE ENCEPHALITIS | VIROLOGY | YELLOW-FEVER VIRUS | JAPANESE ENCEPHALITIS-VIRUS | NONSTRUCTURAL GLYCOPROTEIN NS1 | PHARMACOLOGY & PHARMACY | LINKED IMMUNOSORBENT ASSAYS | Viral Nonstructural Proteins - chemistry | Animals | Flavivirus - chemistry | Flavivirus - immunology | Humans | Flavivirus - pathogenicity | Flavivirus - genetics | Viral Nonstructural Proteins - genetics | Flavivirus Infections - virology | Flavivirus Infections - diagnosis | Biomarkers - chemistry | Viral Nonstructural Proteins - immunology
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Loading RightsMicrobes and Infection, ISSN 1286-4579, 07/2017, Volume 19, Issue 7-8, pp. 382 - 387
Usutu virus (USUV) is a mosquito-borne flavivirus that emerged in Africa in the middle of the 16th century and currently widely circulates in several European...
Human infection | Ecology | Phylogeny | Structure | Usutu virus | Epidemiology | INFECTIOUS DISEASES | WEST-NILE-VIRUS | CENTRAL-EUROPE | MICROBIOLOGY | IMMUNOLOGY | EMERGENCE | TRANSCRIPTION-PCR ASSAY | SEROLOGICAL EVIDENCE | AUSTRIA | GERMANY | FLAVIVIRUS | WILD BIRDS | SPAIN | Bird Diseases - virology | Africa - epidemiology | Humans | Flavivirus Infections - epidemiology | Europe - epidemiology | Biomedical Research - trends | Bird Diseases - epidemiology | Birds | Flavivirus Infections - veterinary | Flavivirus - classification | Zoonoses - virology | Bird Diseases - pathology | Zoonoses - pathology | Animals | Mosquito Vectors | Ecosystem | Zoonoses - epidemiology | Flavivirus - isolation & purification | Flavivirus - pathogenicity | Flavivirus - physiology | Flavivirus Infections - virology | Flavivirus Infections - pathology | Health aspects
Human infection | Ecology | Phylogeny | Structure | Usutu virus | Epidemiology | INFECTIOUS DISEASES | WEST-NILE-VIRUS | CENTRAL-EUROPE | MICROBIOLOGY | IMMUNOLOGY | EMERGENCE | TRANSCRIPTION-PCR ASSAY | SEROLOGICAL EVIDENCE | AUSTRIA | GERMANY | FLAVIVIRUS | WILD BIRDS | SPAIN | Bird Diseases - virology | Africa - epidemiology | Humans | Flavivirus Infections - epidemiology | Europe - epidemiology | Biomedical Research - trends | Bird Diseases - epidemiology | Birds | Flavivirus Infections - veterinary | Flavivirus - classification | Zoonoses - virology | Bird Diseases - pathology | Zoonoses - pathology | Animals | Mosquito Vectors | Ecosystem | Zoonoses - epidemiology | Flavivirus - isolation & purification | Flavivirus - pathogenicity | Flavivirus - physiology | Flavivirus Infections - virology | Flavivirus Infections - pathology | Health aspects
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Loading RightsImmunology and Cell Biology, ISSN 0818-9641, 01/2007, Volume 85, Issue 1, pp. 33 - 42
With the recent emergence of the flavivirus, West Nile virus (WNV), in particular, the New York strain of Lineage I WNV in North America in 1999, there has...
immunopathology | antiviral immunity | emerging viruses | flavivirus | immune responses | Emerging viruses | Immunopathology | Immune responses | Flavivirus | Antiviral immunity | NITRIC-OXIDE SYNTHASE | WEST-NILE-VIRUS | DENGUE HEMORRHAGIC-FEVER | IMMUNOLOGY | CD8(+) T-CELLS | CELL BIOLOGY | ANTIBODY-DEPENDENT ENHANCEMENT | NONSTRUCTURAL PROTEIN NS1 | COMPLEX CLASS-I | JAPANESE ENCEPHALITIS-VIRUS | CENTRAL-NERVOUS-SYSTEM | MURRAY VALLEY ENCEPHALITIS | Flavivirus Infections - immunology | Flavivirus - immunology | Humans | Flavivirus Infections - transmission | Immunity, Innate | Central Nervous System - immunology | Viral Load | Animals | Flavivirus - pathogenicity | Antibody Formation | Mice | Flavivirus Infections - pathology | Immunity, Cellular | Central Nervous System - virology | Flavivirus Infections, transmission | Axonal Transport | Flavivirus Infections, pathology | West Nile virus, pathogenicity | Immunity, Natural | Flavivirus, immunology | Flavivirus Infections, immunology | Central Nervous System, immunology | Culicidae | Virus Attachment | Flavivirus, pathogenicity | Disease Vectors | Central Nervous System, virology | Blood-Brain Barrier
immunopathology | antiviral immunity | emerging viruses | flavivirus | immune responses | Emerging viruses | Immunopathology | Immune responses | Flavivirus | Antiviral immunity | NITRIC-OXIDE SYNTHASE | WEST-NILE-VIRUS | DENGUE HEMORRHAGIC-FEVER | IMMUNOLOGY | CD8(+) T-CELLS | CELL BIOLOGY | ANTIBODY-DEPENDENT ENHANCEMENT | NONSTRUCTURAL PROTEIN NS1 | COMPLEX CLASS-I | JAPANESE ENCEPHALITIS-VIRUS | CENTRAL-NERVOUS-SYSTEM | MURRAY VALLEY ENCEPHALITIS | Flavivirus Infections - immunology | Flavivirus - immunology | Humans | Flavivirus Infections - transmission | Immunity, Innate | Central Nervous System - immunology | Viral Load | Animals | Flavivirus - pathogenicity | Antibody Formation | Mice | Flavivirus Infections - pathology | Immunity, Cellular | Central Nervous System - virology | Flavivirus Infections, transmission | Axonal Transport | Flavivirus Infections, pathology | West Nile virus, pathogenicity | Immunity, Natural | Flavivirus, immunology | Flavivirus Infections, immunology | Central Nervous System, immunology | Culicidae | Virus Attachment | Flavivirus, pathogenicity | Disease Vectors | Central Nervous System, virology | Blood-Brain Barrier
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Loading RightsInfection, Genetics and Evolution, ISSN 1567-1348, 06/2016, Volume 40, pp. 381 - 388
Several flaviviruses are important pathogens for humans and animals (Dengue viruses, Japanese encephalitis virus, Yellow-fever virus, Tick-borne encephalitis...
Culex flavivirus | Cell fusing agent virus | Quang Binh virus | Aedes flavivirus | Mosquito | Mosquito-only flavivirus | Ochlerotatus caspius flavivirus | Sandfly | Kamiti River virus | Insect-specific flavivirus | Insecta - virology | Species Specificity | Humans | Flavivirus Infections - epidemiology | Flavivirus - genetics | Viral Nonstructural Proteins - genetics | Psychodidae - virology | Phylogeny | Flavivirus Infections - transmission | Flavivirus - classification | Insect Vectors - virology | Sequence Analysis, DNA | Culicidae - virology | Viral Nonstructural Proteins - chemistry | Animals | Flavivirus - isolation & purification | Insects | Anopheles | Microbiology | Dengue viruses | Genomics | West Nile fever
Culex flavivirus | Cell fusing agent virus | Quang Binh virus | Aedes flavivirus | Mosquito | Mosquito-only flavivirus | Ochlerotatus caspius flavivirus | Sandfly | Kamiti River virus | Insect-specific flavivirus | Insecta - virology | Species Specificity | Humans | Flavivirus Infections - epidemiology | Flavivirus - genetics | Viral Nonstructural Proteins - genetics | Psychodidae - virology | Phylogeny | Flavivirus Infections - transmission | Flavivirus - classification | Insect Vectors - virology | Sequence Analysis, DNA | Culicidae - virology | Viral Nonstructural Proteins - chemistry | Animals | Flavivirus - isolation & purification | Insects | Anopheles | Microbiology | Dengue viruses | Genomics | West Nile fever
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Loading RightsEMBO reports, ISSN 1469-221X, 02/2018, Volume 19, Issue 2, pp. 206 - 224
Zika and dengue viruses belong to the Flavivirus genus, a close group of antigenically related viruses that cause significant arthropod‐transmitted diseases...
antibody neutralization | vaccine design | particle heterogeneity | antibody‐dependent enhancement | flavivirus structure | antibody-dependent enhancement | ENVELOPE DOMAIN III | BIOCHEMISTRY & MOLECULAR BIOLOGY | WEST-NILE-VIRUS | TETRAVALENT DENGUE VACCINE | CELL BIOLOGY | BORNE ENCEPHALITIS-VIRUS | STRUCTURAL BASIS | YELLOW-FEVER VIRUS | MEDIATED NEUTRALIZATION | HUMAN MONOCLONAL-ANTIBODIES | DEPENDENT ENHANCEMENT | ZIKA VIRUS | Flavivirus Infections - immunology | Antibody Formation - immunology | Flavivirus Infections - prevention & control | Immunization | Flavivirus - ultrastructure | Flavivirus - immunology | Humans | Flavivirus Infections - transmission | Epitopes - immunology | Antigens, Viral - immunology | Antibodies, Neutralizing - immunology | Animals | Flavivirus - physiology | Antibodies, Viral - immunology | Flavivirus Infections - virology | Viral Vaccines - immunology | Vector-borne diseases | Antigens | Immunoglobulins | Vaccination | Dengue | Viral diseases | Antibodies | Viruses | Infections | Zika virus | Vaccines | Epitopes | Antibody response | Disease transmission | Neutralizing | Human behavior | Immune system | Antigenic determinants | Life Sciences | Biomolecules | Biochemistry, Molecular Biology | Microbiology, Virology & Host Pathogen Interaction | Structural Biology | Review | Synthetic Biology & Biotechnology
antibody neutralization | vaccine design | particle heterogeneity | antibody‐dependent enhancement | flavivirus structure | antibody-dependent enhancement | ENVELOPE DOMAIN III | BIOCHEMISTRY & MOLECULAR BIOLOGY | WEST-NILE-VIRUS | TETRAVALENT DENGUE VACCINE | CELL BIOLOGY | BORNE ENCEPHALITIS-VIRUS | STRUCTURAL BASIS | YELLOW-FEVER VIRUS | MEDIATED NEUTRALIZATION | HUMAN MONOCLONAL-ANTIBODIES | DEPENDENT ENHANCEMENT | ZIKA VIRUS | Flavivirus Infections - immunology | Antibody Formation - immunology | Flavivirus Infections - prevention & control | Immunization | Flavivirus - ultrastructure | Flavivirus - immunology | Humans | Flavivirus Infections - transmission | Epitopes - immunology | Antigens, Viral - immunology | Antibodies, Neutralizing - immunology | Animals | Flavivirus - physiology | Antibodies, Viral - immunology | Flavivirus Infections - virology | Viral Vaccines - immunology | Vector-borne diseases | Antigens | Immunoglobulins | Vaccination | Dengue | Viral diseases | Antibodies | Viruses | Infections | Zika virus | Vaccines | Epitopes | Antibody response | Disease transmission | Neutralizing | Human behavior | Immune system | Antigenic determinants | Life Sciences | Biomolecules | Biochemistry, Molecular Biology | Microbiology, Virology & Host Pathogen Interaction | Structural Biology | Review | Synthetic Biology & Biotechnology
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Loading RightsVirology, ISSN 0042-6822, 03/2018, Volume 516, pp. 147 - 157
Flaviviruses depend on multiple host pathways during their life cycles and have evolved strategies to avoid the innate immune response. Previously, we showed...
Capsid | Dengue virus | Flavivirus | Protein phosphatase-1 | Akt-signalling | Apoptosis | SURVIVAL | TRANSDUCTION PATHWAY | CORE PROTEIN | NUCLEAR-LOCALIZATION | SERINE/THREONINE PHOSPHATASES | PI3K/AKT PATHWAY | VIROLOGY | HEPATITIS-C VIRUS | INFECTION | TRANSCRIPTION FACTOR | Phosphorylation | Signal Transduction | Capsid Proteins - metabolism | Flavivirus Infections - physiopathology | Humans | Flavivirus - genetics | Flavivirus Infections - genetics | Flavivirus - classification | Proto-Oncogene Proteins c-akt - genetics | Dengue Virus - genetics | Protein Phosphatase 1 - metabolism | Virus Replication | Flavivirus Infections - enzymology | Protein Phosphatase 1 - genetics | Flavivirus - physiology | Dengue Virus - physiology | Flavivirus Infections - virology | Flavivirus - metabolism | Capsid - metabolism | Proto-Oncogene Proteins c-akt - metabolism | Capsid Proteins - genetics
Capsid | Dengue virus | Flavivirus | Protein phosphatase-1 | Akt-signalling | Apoptosis | SURVIVAL | TRANSDUCTION PATHWAY | CORE PROTEIN | NUCLEAR-LOCALIZATION | SERINE/THREONINE PHOSPHATASES | PI3K/AKT PATHWAY | VIROLOGY | HEPATITIS-C VIRUS | INFECTION | TRANSCRIPTION FACTOR | Phosphorylation | Signal Transduction | Capsid Proteins - metabolism | Flavivirus Infections - physiopathology | Humans | Flavivirus - genetics | Flavivirus Infections - genetics | Flavivirus - classification | Proto-Oncogene Proteins c-akt - genetics | Dengue Virus - genetics | Protein Phosphatase 1 - metabolism | Virus Replication | Flavivirus Infections - enzymology | Protein Phosphatase 1 - genetics | Flavivirus - physiology | Dengue Virus - physiology | Flavivirus Infections - virology | Flavivirus - metabolism | Capsid - metabolism | Proto-Oncogene Proteins c-akt - metabolism | Capsid Proteins - genetics
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The many faces of the flavivirus NS5 protein in antagonism of type I interferon signaling
Journal of Virology, ISSN 0022-538X, 2017, Volume 91, Issue 3
The vector-borne flaviviruses cause severe disease in humans on every inhabited continent on earth. Their transmission by arthropods, particularly mosquitoes,...
NS5 | Tickborne encephalitis virus | Antagonism | Interferons | JAK-STAT | West Nile virus | Zika virus | Dengue virus | Flavivirus | Yellow fever virus | TICK-BORNE FLAVIVIRUS | antagonism | dengue virus | WEST-NILE-VIRUS | RIG-I | ALPHA-INTERFERON | ANTIVIRAL RESPONSE | interferons | yellow fever virus | VIROLOGY | INNATE IMMUNE-RESPONSES | PATTERN-RECOGNITION RECEPTORS | flavivirus | tick-borne encephalitis virus | RNA-POLYMERASE | Signal Transduction | Humans | STAT Transcription Factors
NS5 | Tickborne encephalitis virus | Antagonism | Interferons | JAK-STAT | West Nile virus | Zika virus | Dengue virus | Flavivirus | Yellow fever virus | TICK-BORNE FLAVIVIRUS | antagonism | dengue virus | WEST-NILE-VIRUS | RIG-I | ALPHA-INTERFERON | ANTIVIRAL RESPONSE | interferons | yellow fever virus | VIROLOGY | INNATE IMMUNE-RESPONSES | PATTERN-RECOGNITION RECEPTORS | flavivirus | tick-borne encephalitis virus | RNA-POLYMERASE | Signal Transduction | Humans | STAT Transcription Factors