Gain of virulence caused by loss of a gene in murine cytomegalovirus
about
Ly49 receptors: innate and adaptive immune paradigmsCytomegalovirus antivirals and development of improved animal modelsNatural killer cells promote early CD8 T cell responses against cytomegalovirusNatural Killer Cell Sensing of Infected Cells Compensates for MyD88 Deficiency but Not IFN-I Activity in Resistance to Mouse CytomegalovirusNodular inflammatory foci are sites of T cell priming and control of murine cytomegalovirus infection in the neonatal lungNK cell receptor/H2-Dk-dependent host resistance to viral infection is quantitatively modulated by H2q inhibitory signalsThe SIRP family of receptors and immune regulationKnow Thyself: NK-Cell Inhibitory Receptors Prompt Self-Tolerance, Education, and Viral Control.Random screening for dominant-negative mutants of the cytomegalovirus nuclear egress protein M50Complete sequence determination of a novel reptile iridovirus isolated from soft-shelled turtle and evolutionary analysis of IridoviridaeHCMV spread and cell tropism are determined by distinct virus populations.A dominant role for the immunoproteasome in CD8+ T cell responses to murine cytomegalovirusSelective down-regulation of the NKG2D ligand H60 by mouse cytomegalovirus m155 glycoproteinM94 is essential for the secondary envelopment of murine cytomegalovirus.Deciphering the role of DC subsets in MCMV infection to better understand immune protection against viral infectionsCytomegalovirus contributes to glioblastoma in the context of tumor suppressor mutations.Expression of m157, a murine cytomegalovirus-encoded putative major histocompatibility class I (MHC-I)-like protein, is independent of viral regulation of host MHC-I.Immune senescence: relative contributions of age and cytomegalovirus infectionAntigen-specific expansion and differentiation of natural killer cells by alloantigen stimulationNatural killer cell dependent within-host competition arises during multiple MCMV infection: consequences for viral transmission and evolution.Crystal structure of the murine cytomegalovirus MHC-I homolog m144.Cytomegalovirus generates long-lived antigen-specific NK cells with diminished bystander activation to heterologous infectionVIPhyb, an antagonist of vasoactive intestinal peptide receptor, enhances cellular antiviral immunity in murine cytomegalovirus infected mice.The Glycophosphatidylinositol Anchor of the MCMV Evasin, m157, Facilitates Optimal Cell Surface Expression and Ly49 Receptor Recognition.Distinct MHC class I-dependent NK cell-activating receptors control cytomegalovirus infection in different mouse strains.How the virus outsmarts the host: function and structure of cytomegalovirus MHC-I-like molecules in the evasion of natural killer cell surveillanceReversible silencing of cytomegalovirus genomes by type I interferon governs virus latency.Mast cells expedite control of pulmonary murine cytomegalovirus infection by enhancing the recruitment of protective CD8 T cells to the lungs.Reduced MCMV Δm157 viral clearance in the absence of TSAd.Virus progeny of murine cytomegalovirus bacterial artificial chromosome pSM3fr show reduced growth in salivary Glands due to a fixed mutation of MCK-2Evaluating Human T-Cell Therapy of Cytomegalovirus Organ Disease in HLA-Transgenic Mice.Ly49h-deficient C57BL/6 mice: a new mouse cytomegalovirus-susceptible model remains resistant to unrelated pathogens controlled by the NK gene complex.The NK cell response to mouse cytomegalovirus infection affects the level and kinetics of the early CD8(+) T-cell response.Mice with asthma are more resistant to influenza virus infection and NK cells activated by the induction of asthma have potentially protective effects.A flow cytometry-based method for detecting antibody responses to murine cytomegalovirus infection.Mast cells as rapid innate sensors of cytomegalovirus by TLR3/TRIF signaling-dependent and -independent mechanismsTargeted deletion of regions rich in immune-evasive genes from the cytomegalovirus genome as a novel vaccine strategy.Antiviral T cell response triggers cytomegalovirus hepatitis in mice.NK cell activation through the NKG2D ligand MULT-1 is selectively prevented by the glycoprotein encoded by mouse cytomegalovirus gene m145.Cardif (MAVS) Regulates the Maturation of NK Cells
P2860
Q26825078-6158219D-FE4D-4C52-818B-0C28A621F8D8Q27000998-B51D26E0-7C27-4150-A7A2-FCAE41EF73E3Q27319836-5047C519-0A24-45FB-A2B1-A82F7C43E3A0Q27319958-DB304D68-1C99-415E-9297-3817B5CBF31FQ27331441-F8088598-217A-472A-8F30-4A6D48B5B48AQ27342452-264E482F-C42D-4A29-AB6D-19EB23BA8C27Q28239784-C78371D3-4F5B-4105-A9DD-9D07D3453C1BQ30413217-53506F0C-3BFB-443F-863D-B001A26F36FDQ33279597-885AA55C-35ED-436F-8E2B-D1ABA1EC5B43Q33445410-AD39A6DF-59FD-4CE2-A57B-0DA2F54FA1FBQ33798083-37449046-569A-4F16-BF41-E4F0462CA99DQ33815471-859946AC-0CC1-42A1-A8BB-3156C0E2B3BAQ33834018-DCB2F1D0-96B7-426E-A062-6192C29D82DBQ33946203-924E362C-5FCF-414E-ABBC-99F045FA5D33Q33965560-7791B57A-4624-49C6-A753-0E85E077DA8FQ34059848-B1308CB9-CF57-4656-B990-7B48B32DA519Q34233146-AC2BFFCC-0429-4EDE-A481-1136773E08A7Q34390507-B0E9F632-A2CB-42BD-9EFE-35862B47334BQ34533074-46273470-EBC3-4A99-8265-1E9341FBBB4FQ34539825-221E087B-EAA6-46C0-AC3A-C0396AF77D5EQ34666672-726E4F90-526D-461B-A887-6C8C6F13B6E1Q34708323-5BF45B5C-05F8-446B-ADFD-19BCD8860B7DQ34749251-05D0FC82-548A-4F8C-BA1B-E7AB83CC0EC7Q34806981-7323EECC-79CD-49F9-9796-A5D9025CC3E9Q34973765-B76EECC5-9139-47A8-8F89-F048132FA9B2Q35099535-E65127C5-37DA-4DF7-B5D8-CA1D5D808B90Q35105651-DEDF4005-8163-452C-8F7B-38B937FE47CEQ35157254-7DC587F8-32B6-432C-8DFC-B11090F80A60Q35188817-57464046-C4DB-4DCD-B980-62058FDD6B5FQ35382985-88EF0667-7F75-4805-A896-B16E461D8452Q35693349-561BE537-ED89-4E8E-B50D-EEB165969DC5Q35797231-FEB679C2-A527-4875-A57A-B6768176DC9EQ35826529-1285677C-1658-412E-8CE8-D2163CDF9494Q35834816-F6BA85D9-86EB-4956-AD96-BD171832EF84Q35855436-FA22F1D3-9BE4-45C4-8173-4D6FF49B0213Q36302611-F8CC19B2-0983-4ED3-889C-729893BB7D9DQ36315171-82829255-1B7A-41C7-9967-9906E62F1ADEQ36397454-6ACEB33E-8646-493F-9587-6CCA478F54AEQ36402602-9BE13F38-5BB8-40D9-B3E8-E4B22EAB0862Q36451854-5104D84E-6FC3-4F3E-84E4-3987D9FA6783
P2860
Gain of virulence caused by loss of a gene in murine cytomegalovirus
description
2004 nî lūn-bûn
@nan
2004 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Gain of virulence caused by loss of a gene in murine cytomegalovirus
@ast
Gain of virulence caused by loss of a gene in murine cytomegalovirus
@en
type
label
Gain of virulence caused by loss of a gene in murine cytomegalovirus
@ast
Gain of virulence caused by loss of a gene in murine cytomegalovirus
@en
prefLabel
Gain of virulence caused by loss of a gene in murine cytomegalovirus
@ast
Gain of virulence caused by loss of a gene in murine cytomegalovirus
@en
P2093
P2860
P1433
P1476
Gain of virulence caused by loss of a gene in murine cytomegalovirus
@en
P2093
Ivan Bubić
Markus Wagner
Sungjin Kim
Tanja Saulig
Ulrich H Koszinowski
Wayne M Yokoyama
P2860
P304
P356
10.1128/JVI.78.14.7536-7544.2004
P407
P577
2004-07-01T00:00:00Z