scholarly article | Q13442814 |
P50 | author | Richard Flavell | Q2149481 |
Siyuan Ding | Q55189576 | ||
Harry B. Greenberg | Q55950186 | ||
P2093 | author name string | Bin Li | |
Xiaomei Ge | |||
Shu Zhu | |||
Yanhua Song | |||
Lili Ren | |||
Ningguo Feng | |||
P2860 | cites work | Rotavirus NSP1 inhibits NFkappaB activation by inducing proteasome-dependent degradation of beta-TrCP: a novel mechanism of IFN antagonism | Q21090517 |
Hepatitis C virus protease NS3/4A cleaves mitochondrial antiviral signaling protein off the mitochondria to evade innate immunity | Q24296473 | ||
PCBP2 mediates degradation of the adaptor MAVS via the HECT ubiquitin ligase AIP4 | Q24313563 | ||
MAVS forms functional prion-like aggregates to activate and propagate antiviral innate immune response | Q24316320 | ||
IPS-1, an adaptor triggering RIG-I- and Mda5-mediated type I interferon induction | Q24318426 | ||
RIG-I/MDA5/MAVS are required to signal a protective IFN response in rotavirus-infected intestinal epithelium | Q24321688 | ||
Cardif is an adaptor protein in the RIG-I antiviral pathway and is targeted by hepatitis C virus | Q24336255 | ||
MAVS protein is attenuated by rotavirus nonstructural protein 1 | Q24339399 | ||
Rotavirus nonstructural protein 1 subverts innate immune response by inducing degradation of IFN regulatory factor 3 | Q24555785 | ||
Regulation of type I interferon responses | Q26853177 | ||
The battle between rotavirus and its host for control of the interferon signaling pathway | Q27006920 | ||
Human Intestinal Enteroids: a New Model To Study Human Rotavirus Infection, Host Restriction, and Pathophysiology | Q27321169 | ||
Disruption of innate immunity due to mitochondrial targeting of a picornaviral protease precursor | Q27478302 | ||
Structural basis for the prion-like MAVS filaments in antiviral innate immunity | Q27681906 | ||
Differential roles of MDA5 and RIG-I helicases in the recognition of RNA viruses | Q27860455 | ||
Identification and characterization of MAVS, a mitochondrial antiviral signaling protein that activates NF-kappaB and IRF 3 | Q27861127 | ||
RIG-I in RNA virus recognition | Q28081618 | ||
VISA is an adapter protein required for virus-triggered IFN-beta signaling | Q28131814 | ||
PhosphoSitePlus, 2014: mutations, PTMs and recalibrations | Q28254001 | ||
Phosphorylation of innate immune adaptor proteins MAVS, STING, and TRIF induces IRF3 activation | Q28256216 | ||
IFN-lambda determines the intestinal epithelial antiviral host defense | Q28508039 | ||
Comparative Proteomics Reveals Strain-Specific β-TrCP Degradation via Rotavirus NSP1 Hijacking a Host Cullin-3-Rbx1 Complex | Q28554481 | ||
MAVS and MyD88 are essential for innate immunity but not cytotoxic T lymphocyte response against respiratory syncytial virus | Q28593715 | ||
Convergent evolution of escape from hepaciviral antagonism in primates | Q28731324 | ||
An inhibitor of NEDD8-activating enzyme as a new approach to treat cancer | Q29616732 | ||
SARS-coronavirus open reading frame-9b suppresses innate immunity by targeting mitochondria and the MAVS/TRAF3/TRAF6 signalosome | Q30588597 | ||
Nlrp9b inflammasome restricts rotavirus infection in intestinal epithelial cells | Q33289420 | ||
Drebrin restricts rotavirus entry by inhibiting dynamin-mediated endocytosis. | Q33650989 | ||
Analysis of host range restriction determinants in the rabbit model: comparison of homologous and heterologous rotavirus infections. | Q33782483 | ||
Diverse intracellular pathogens activate type III interferon expression from peroxisomes | Q33933986 | ||
Predicted structure and domain organization of rotavirus capping enzyme and innate immune antagonist VP3 | Q34059087 | ||
Different rotavirus strains enter MA104 cells through different endocytic pathways: the role of clathrin-mediated endocytosis. | Q34120236 | ||
MAVS ubiquitination by the E3 ligase TRIM25 and degradation by the proteasome is involved in type I interferon production after activation of the antiviral RIG-I-like receptors | Q34280734 | ||
IRF-3, IRF-5, and IRF-7 coordinately regulate the type I IFN response in myeloid dendritic cells downstream of MAVS signaling | Q34539832 | ||
Enterovirus 71 protease 2Apro targets MAVS to inhibit anti-viral type I interferon responses | Q34649632 | ||
NLRX1 is a regulator of mitochondrial antiviral immunity | Q34737001 | ||
Type I Interferon Inhibits Interleukin-1 Production and Inflammasome Activation | Q57258441 | ||
Psoralen preparation of antigenically intact noninfectious rotavirus particles | Q67493693 | ||
The specific and essential role of MAVS in antiviral innate immune responses | Q83817506 | ||
Characterization of rotavirus RNAs that activate innate immune signaling through the RIG-I-like receptors | Q34874614 | ||
Deficient IFN signaling by myeloid cells leads to MAVS-dependent virus-induced sepsis | Q35152251 | ||
RETRACTED: MAVS, cGAS, and endogenous retroviruses in T-independent B cell responses | Q35343462 | ||
Proteolytic cleavage of chemerin protein is necessary for activation to the active form, Chem157S, which functions as a signaling molecule in glioblastoma | Q35604419 | ||
Activation of Type I and III Interferon Response by Mitochondrial and Peroxisomal MAVS and Inhibition by Hepatitis C Virus | Q35847364 | ||
An autoinhibitory mechanism modulates MAVS activity in antiviral innate immune response | Q35898500 | ||
Distinct Roles of Type I and Type III Interferons in Intestinal Immunity to Homologous and Heterologous Rotavirus Infections | Q36003428 | ||
Interferon-λ and interleukin 22 act synergistically for the induction of interferon-stimulated genes and control of rotavirus infection | Q36108222 | ||
Innate immune response to homologous rotavirus infection in the small intestinal villous epithelium at single-cell resolution. | Q36483624 | ||
The mitochondrial antiviral signaling protein, MAVS, is cleaved during apoptosis | Q37009664 | ||
The mitochondrial ubiquitin ligase MARCH5 resolves MAVS aggregates during antiviral signalling | Q37031839 | ||
Homologous 2',5'-phosphodiesterases from disparate RNA viruses antagonize antiviral innate immunity | Q37088604 | ||
Rotavirus NSP1 mediates degradation of interferon regulatory factors through targeting of the dimerization domain | Q37123575 | ||
MAVS Expressed by Hematopoietic Cells Is Critical for Control of West Nile Virus Infection and Pathogenesis | Q37174399 | ||
alpha(4)beta(7) independent pathway for CD8(+) T cell-mediated intestinal immunity to rotavirus | Q37272014 | ||
Rotavirus and reovirus modulation of the interferon response | Q37582939 | ||
Dynamic expression profiling of type I and type III interferon-stimulated hepatocytes reveals a stable hierarchy of gene expression | Q37610149 | ||
A paradox of transcriptional and functional innate interferon responses of human intestinal enteroids to enteric virus infection | Q37612580 | ||
A Systems Approach Reveals MAVS Signaling in Myeloid Cells as Critical for Resistance to Ebola Virus in Murine Models of Infection | Q37621857 | ||
A bicistronic MAVS transcript highlights a class of truncated variants in antiviral immunity | Q37648264 | ||
Hepatitis C virus NS3-4A inhibits the peroxisomal MAVS-dependent antiviral signalling response. | Q38795132 | ||
Rotavirus Controls Activation of the 2'-5'-Oligoadenylate Synthetase/RNase L Pathway Using at Least Two Distinct Mechanisms | Q38832952 | ||
Epigenetic reprogramming of the type III interferon response potentiates antiviral activity and suppresses tumor growth | Q39035742 | ||
Type I and Type III Interferons Display Different Dependency on Mitogen-Activated Protein Kinases to Mount an Antiviral State in the Human Gut. | Q40209553 | ||
MAVS-dependent host species range and pathogenicity of human hepatitis A virus. | Q40538547 | ||
The PB2 Subunit of the Influenza A Virus RNA Polymerase Is Imported into the Mitochondrial Matrix | Q40605466 | ||
Liposome-mediated transfection of intact viral particles reveals that plasma membrane penetration determines permissivity of tissue culture cells to rotavirus | Q41022034 | ||
HT-29 cells: a new substrate for rotavirus growth | Q41704058 | ||
Roles of VP4 and NSP1 in determining the distinctive replication capacities of simian rotavirus RRV and bovine rotavirus UK in the mouse biliary tract | Q41998682 | ||
MDA5 and MAVS mediate type I interferon responses to coxsackie B virus. | Q42109953 | ||
Exosomes mediate the cell-to-cell transmission of IFN-α-induced antiviral activity | Q42285504 | ||
Permissive replication of homologous murine rotavirus in the mouse intestine is primarily regulated by VP4 and NSP1. | Q43079549 | ||
The E3 ubiquitin ligase RNF5 targets virus-induced signaling adaptor for ubiquitination and degradation | Q45375900 | ||
Rotavirus degrades multiple type interferon receptors to inhibit IFN signaling and protects against mortality from endotoxin in suckling mice | Q46605151 | ||
STAG2 deficiency induces interferon responses via cGAS-STING pathway and restricts virus infection. | Q52319679 | ||
Peroxisomal MAVS activates IRF1-mediated IFN-λ production | Q57236572 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
Human rotavirus DS1 | Q112252639 | ||
Bovine rotavirus strain UK | Q113433734 | ||
Murine rotavirus | Q113562395 | ||
simian rhesus rotavirus | Q112242067 | ||
Simian rotavirus A/SA11 | Q112242768 | ||
Porcine rotavirus OSU | Q112246255 | ||
Human rotavirus strain WA | Q112246336 | ||
P407 | language of work or name | English | Q1860 |
P921 | main subject | Rotavirus | Q164778 |
modulation by virus of host process | Q14818042 | ||
Protein VP3, rotavirus | Q24770641 | ||
P577 | publication date | 2018-11-21 | |
P1433 | published in | eLife | Q2000008 |
P1476 | title | Rotavirus VP3 targets MAVS for degradation to inhibit type III interferon expression in intestinal epithelial cells | |
P478 | volume | 7 |
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Q89685625 | Reverse genetics reveals a role of the rotavirus VP3 phosphodiesterase activity in inhibiting RNase L signaling and contributing to intestinal viral replication in vivo |
Q114370871 | Rotavirus Interactions With Host Intestinal Epithelial Cells |
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