Induction of MxA gene expression by influenza A virus requires type I or type III interferon signaling.
about
Alpha/beta interferon (IFN-alpha/beta)-independent induction of IFN-lambda1 (interleukin-29) in response to Hantaan virus infectionInborn errors of human STAT1: allelic heterogeneity governs the diversity of immunological and infectious phenotypesThe role of host genetics in susceptibility to influenza: a systematic reviewS. mansoni bolsters anti-viral immunity in the murine respiratory tractInfluence of host resistance on viral adaptation: hepatitis C virus as a case studySTAT2 deficiency and susceptibility to viral illness in humansInterferon-lambdas: the modulators of antivirus, antitumor, and immune responsesDifferentiated human alveolar type II cells secrete antiviral IL-29 (IFN-lambda 1) in response to influenza A infectionType I interferon reaction to viral infection in interferon-competent, immortalized cell lines from the African fruit bat Eidolon helvumHost genetic determinants of influenza pathogenicity.The nucleoprotein of newly emerged H7N9 influenza A virus harbors a unique motif conferring resistance to antiviral human MxA.In vivo evasion of MxA by avian influenza viruses requires human signature in the viral nucleoprotein.A model system for in vitro studies of bank vole borne viruses.Avian Interferon-Inducible Transmembrane Protein Family Effectively Restricts Avian Tembusu Virus InfectionOromucosal Administration of Interferon to HumansImmunological stimuli change expression of genes and neutrophil function in fathead minnow Pimephales promelas Rafinesque.Inflammatory gene regulatory networks in amnion cells following cytokine stimulation: translational systems approach to modeling human parturition.Species-specific contribution of the four C-terminal amino acids of influenza A virus NS1 protein to virulence.IFN-α is constitutively expressed in the human thymus, but not in peripheral lymphoid organs.Influenza A virus-induced degradation of eukaryotic translation initiation factor 4B contributes to viral replication by suppressing IFITM3 protein expression.Activation of type I and III interferon signalling pathways occurs in lung epithelial cells infected with low pathogenic avian influenza viruses.Tumor proteomics by multivariate analysis on individual pathway data for characterization of vulvar cancer phenotypes.Dobrava-Belgrade hantavirus from Germany shows receptor usage and innate immunity induction consistent with the pathogenicity of the virus in humans.Transcription factor redundancy ensures induction of the antiviral stateDifferential responses to rhinovirus- and influenza-associated pulmonary exacerbations in patients with cystic fibrosisCharacterization of two substrains of Puumala virus that show phenotypes that are different from each other and from the original strainVitamin D decreases respiratory syncytial virus induction of NF-kappaB-linked chemokines and cytokines in airway epithelium while maintaining the antiviral stateHuman herpesvirus 6A partially suppresses functional properties of DC without viral replication.Double-stranded RNA adenosine deaminases enhance expression of human immunodeficiency virus type 1 proteinsReversible inhibition of murine cytomegalovirus replication by gamma interferon (IFN-γ) in primary macrophages involves a primed type I IFN-signaling subnetwork for full establishment of an immediate-early antiviral state.Stalk domain of the dynamin-like MxA GTPase protein mediates membrane binding and liposome tubulation via the unstructured L4 loopMultiplexed Component Analysis to Identify Genes Contributing to the Immune Response during Acute SIV Infection.Intestinal intraepithelial lymphocyte activation promotes innate antiviral resistanceProtection from Severe Influenza Virus Infections in Mice Carrying the Mx1 Influenza Virus Resistance Gene Strongly Depends on Genetic Background.Bakuchiol Is a Phenolic Isoprenoid with Novel Enantiomer-selective Anti-influenza A Virus Activity Involving Nrf2 Activation.Glucose-6-Phosphate Dehydrogenase Enhances Antiviral Response through Downregulation of NADPH Sensor HSCARG and Upregulation of NF-κB SignalingHost genetics of severe influenza: from mouse Mx1 to human IRF7Myxovirus resistance gene A (MxA) expression suppresses influenza A virus replication in alpha interferon-treated primate cellsParainfluenza Virus 3 Blocks Antiviral Mediators Downstream of the Interferon Lambda Receptor by Modulating Stat1 PhosphorylationIncreased T-bet+ cytotoxic effectors and type I interferon-mediated processes in chronic graft-versus-host disease of the oral mucosa.
P2860
Q24611884-0BA2B83A-7958-41A5-AD32-90B470A640DEQ26825342-39E2D0FD-8C22-4D74-98BE-18AB2F5FFDBAQ26999342-D20C1E9F-3FBB-4259-8EE1-CC8154E07B80Q27329934-5A8179AC-2990-4D70-9F13-4F12ECB23EE9Q28087595-05F47A7F-BD0B-48F6-9CAF-0D6F92376846Q28115608-D86CBE25-0734-40F0-A314-CB31F64108BCQ28238963-A4F75F12-79D1-4FB0-B702-3AE845542AB5Q28307217-2D2CE059-B0B8-43C0-9821-92E77102132CQ28742112-0035F62E-FD8E-4890-B24A-0FD901504E4DQ30352727-24AB46E1-D726-4C6F-9C75-7451DC7F1B6EQ30369723-5508504E-5FC3-4FA6-8664-0FC972C0B77FQ30400976-5BC2930D-3307-432C-8399-14BBFA88CFC0Q33454284-868E797D-EBF5-49FF-BCB6-3EC721921EE9Q33581241-8B51A18F-F608-42B0-88CF-85F4D87B77BCQ33663987-C20D5EB9-4E28-4F3A-86DF-4B8DF675BC60Q33862003-87980895-12FC-47F0-924E-3FB0B86C9AB9Q33926884-CA81A68F-C148-4BF7-B3F3-C519D56369EEQ33990505-9DE2542B-A519-44B1-B4E5-8E0D46C59BEEQ34014536-0936D06E-CC31-4276-9359-A83D98477F6DQ34057790-F18B68F9-0C6C-490E-9D27-89B1B5E18AE6Q34217456-AD65BCA8-B9EF-4A50-80A8-D8AC67520CB0Q34231541-7EDAFBB3-D72F-482F-8EE7-86B74CE515BEQ34251171-FE404B34-A003-479D-B5B2-132AF84CBCDAQ34439072-06214B0D-C9A9-4906-895F-7EBF77FC302CQ34479158-63A27686-4F47-47E0-9107-E8C315522EEFQ34529722-5F5CDBAB-757C-4298-8A76-25B2364869A1Q34557849-648B907B-AA48-4279-862C-8086A9A122B4Q34634072-A8DA99CE-ECE4-43E4-A1A9-BEE925F4C881Q34657013-9526F8E8-A266-4E89-B57B-12B3489A86A0Q35382729-33F7ECD5-B4AA-49AF-8257-1EFBC71FA235Q35424269-AC711E26-B6FE-40D8-9608-69A8B47FBEA6Q35634100-46F23904-69CB-4783-83D6-B7449691E685Q35775433-CF07FADC-CFB1-4E06-8EE6-921E47C6CB10Q36080821-53E9212B-C2E5-40F7-8C2F-8AE56779F0E8Q36282965-0FE642A1-5DCE-4338-BF6C-05D0A926B3F5Q36403492-19BCCD5C-3AFE-48BC-8B9B-72003C27CBB4Q36522870-90BFCA9D-5AA9-4BFE-B673-28C7BDFF13F9Q36559577-0FE8DF96-7AAE-454C-B8BF-783BC8CCAD5DQ36736583-47B84299-DE55-49A7-9C38-BF9DF7501B20Q37157967-29B56020-D6C3-4B43-9B7D-21D2E0F241B1
P2860
Induction of MxA gene expression by influenza A virus requires type I or type III interferon signaling.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Induction of MxA gene expressi ...... type III interferon signaling.
@en
type
label
Induction of MxA gene expressi ...... type III interferon signaling.
@en
prefLabel
Induction of MxA gene expressi ...... type III interferon signaling.
@en
P2093
P2860
P50
P356
P1433
P1476
Induction of MxA gene expressi ...... type III interferon signaling.
@en
P2093
Georg Kochs
Otto Haller
Robert Thimme
Silke Stertz
P2860
P304
P356
10.1128/JVI.00546-06
P407
P577
2007-05-09T00:00:00Z