Essential role of mda-5 in type I IFN responses to polyriboinosinic:polyribocytidylic acid and encephalomyocarditis picornavirus
about
MDA-5 recognition of a murine norovirusDEAD/H BOX 3 (DDX3) helicase binds the RIG-I adaptor IPS-1 to up-regulate IFN-beta-inducing potentialATP-sensitive potassium channels mediate survival during infection in mammals and insectsHepatitis C virus NS2 protease inhibits host cell antiviral response by inhibiting IKKε and TBK1 functionsImmune signaling by RIG-I-like receptorsERIS, an endoplasmic reticulum IFN stimulator, activates innate immune signaling through dimerizationThe autoimmunity-associated gene PTPN22 potentiates toll-like receptor-driven, type 1 interferon-dependent immunityRegulation of signal transduction by enzymatically inactive antiviral RNA helicase proteins MDA5, RIG-I, and LGP2Recognition of 5' triphosphate by RIG-I helicase requires short blunt double-stranded RNA as contained in panhandle of negative-strand virus.Peroxisomes are signaling platforms for antiviral innate immunitySINTBAD, a novel component of innate antiviral immunity, shares a TBK1-binding domain with NAP1 and TANKPCBP2 mediates degradation of the adaptor MAVS via the HECT ubiquitin ligase AIP4MDA5 is SUMOylated by PIAS2β in the upregulation of type I interferon signalingA shared interface mediates paramyxovirus interference with antiviral RNA helicases MDA5 and LGP2The RIG-I-like receptor LGP2 recognizes the termini of double-stranded RNAActivation of MDA5 requires higher-order RNA structures generated during virus infectionThe tyrosine kinase c-Src enhances RIG-I (retinoic acid-inducible gene I)-elicited antiviral signalingMapping a dynamic innate immunity protein interaction network regulating type I interferon productionRegulation of innate antiviral defenses through a shared repressor domain in RIG-I and LGP2Raftlin is involved in the nucleocapture complex to induce poly(I:C)-mediated TLR3 activationHeat shock protein gp96 is a master chaperone for toll-like receptors and is important in the innate function of macrophagesDifferent strains of Theiler's murine encephalomyelitis virus antagonize different sites in the type I interferon pathwayMany stimuli pull the necrotic trigger, an overviewParamyxovirus V proteins interact with the RNA Helicase LGP2 to inhibit RIG-I-dependent interferon inductionFunction and regulation of retinoic acid-inducible gene-IA host type I interferon response is induced by cytosolic sensing of the bacterial second messenger cyclic-di-GMPLength-dependent recognition of double-stranded ribonucleic acids by retinoic acid-inducible gene-I and melanoma differentiation-associated gene 55'-triphosphate RNA requires base-paired structures to activate antiviral signaling via RIG-IMDA-5 is cleaved in poliovirus-infected cellsPreclinical Childhood Sarcoma Models: Drug Efficacy Biomarker Identification and ValidationMacrophage Expression of Inflammatory Genes in Response to EMCV InfectionInterferon induction by RNA viruses and antagonism by viral pathogensdsRNA-activation of TLR3 and RLR signaling: gene induction-dependent and independent effectsTargeting toll-like receptors: promising therapeutic strategies for the management of sepsis-associated pathology and infectious diseasesMDA5 and LGP2: accomplices and antagonists of antiviral signal transductionTLR7/9 versus TLR3/MDA5 signaling during virus infections and diabetesInterplay between interferon-mediated innate immunity and porcine reproductive and respiratory syndrome virusHuman β-Defensin 3 [corrected] Exacerbates MDA5 but Suppresses TLR3 Responses to the Viral Molecular Pattern Mimic Polyinosinic:Polycytidylic AcidSynthetic double-stranded RNAs are adjuvants for the induction of T helper 1 and humoral immune responses to human papillomavirus in rhesus macaquesKey role of splenic myeloid DCs in the IFN-alphabeta response to adenoviruses in vivo
P2860
Q21131596-668FA8D6-8A08-4C95-876B-D0A65B7E09C0Q24298235-E58094C1-6D61-4D67-BE46-89F5BDB7DD8EQ24300957-AEE95DD5-A3AD-449E-9F28-91B92D1D00C8Q24301741-9EE27E9B-22E4-481E-838B-17D709F4331BQ24304438-221F90F3-9093-474D-9150-94478733F405Q24310014-F0769B24-4AA7-498E-BAA3-5ACE57D11B25Q24310219-83651DBC-06EB-4A4F-8130-1103F71AE0FFQ24310270-F4A4B44E-D443-4908-9306-1FCD7B03D9BDQ24310706-1816156B-3B14-4FE6-BE2E-537800EA60FAQ24310723-AD6CFF4F-1735-4871-9338-B03FC252B2E4Q24310727-D9BCED7C-8064-42AC-BBD7-6633E497EDDDQ24313563-F1E98978-7298-4FDC-B0FB-CB8D44921418Q24316163-6FE4C113-2D33-4B89-9EE2-6D5D8571C559Q24320094-FA186093-B3A7-4426-9717-CDEFBA63CFF8Q24320147-669C4AB7-C1F2-412B-8A16-DF87C524E493Q24321400-47DBDC2C-5E54-43F4-9EE9-5BB15074FDA4Q24322642-BCF8BDE3-B252-4B6D-B58E-6819F8180B2AQ24337463-9950136A-7E14-4225-B18E-177813EE2B62Q24338327-5CB345A4-6EC4-481E-990B-3E81C2957DA4Q24338442-3D470302-5EF7-4CAC-A85E-0464967A0C6DQ24609722-C60118D9-641B-4C5B-BD35-99191715028AQ24611933-79E6AF37-E082-4107-A2BF-FA365A599D17Q24613714-6503C7EE-9262-4588-B274-67015C16DF24Q24617419-2EF26193-FFBB-4EE6-BB2A-E62B68B88F4EQ24632537-016D19C3-7FFB-4502-9AB1-43F9183FFA57Q24642631-2757A1A9-9751-4FD0-AC1D-89135BE6EBF3Q24648192-0934A71B-88D0-4AA6-BFFA-9423DB2A8E8CQ24653786-4BDD8E51-2897-4A48-85CD-BDF2B7A4262DQ24672016-6462D22A-2DDE-438E-B7E3-398834122877Q26784048-C3C0047B-4EAF-41CD-898C-A06D4117D3CAQ26795779-FD44BE11-6920-402C-910D-0422864F3845Q26860007-DE137C08-6C82-4DDC-A21E-07BDA8CB91F1Q26864048-04153167-30CF-40DD-AD95-B8D4D128B6C0Q27010345-2D18F9FB-72F3-4A60-B786-9EB0AB2CBCD8Q27010611-428A464A-2B92-4986-89EE-ED5D4542FD6BQ27025559-E6424B6B-0192-4C89-846D-BAFCBB0733F8Q27026181-CE3BFEA9-B282-4C96-933D-51B895560731Q27310039-7ACD3650-FD40-4F55-9E2C-8BA935C5358AQ27317212-2F8EA64A-3E69-4F5A-859E-66AAF4A79985Q27318346-A41B0559-53C3-4599-90AF-4C3C4CC49300
P2860
Essential role of mda-5 in type I IFN responses to polyriboinosinic:polyribocytidylic acid and encephalomyocarditis picornavirus
description
2006 nî lūn-bûn
@nan
2006 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Essential role of mda-5 in typ ...... ephalomyocarditis picornavirus
@ast
Essential role of mda-5 in typ ...... ephalomyocarditis picornavirus
@en
type
label
Essential role of mda-5 in typ ...... ephalomyocarditis picornavirus
@ast
Essential role of mda-5 in typ ...... ephalomyocarditis picornavirus
@en
prefLabel
Essential role of mda-5 in typ ...... ephalomyocarditis picornavirus
@ast
Essential role of mda-5 in typ ...... ephalomyocarditis picornavirus
@en
P2093
P2860
P3181
P356
P1476
Essential role of mda-5 in typ ...... ephalomyocarditis picornavirus
@en
P2093
Diamond MS
Flavell RA
Gilfillan S
P2860
P304
P3181
P356
10.1073/PNAS.0603082103
P407
P577
2006-05-30T00:00:00Z