Cell stress-regulated human major histocompatibility complex class I gene expressed in gastrointestinal epithelium
about
Human NKG2D-ligands: cell biology strategies to ensure immune recognitionBroad tumor-associated expression and recognition by tumor-derived gamma delta T cells of MICA and MICBCostimulation of CD8alphabeta T cells by NKG2D via engagement by MIC induced on virus-infected cellsBinding of Escherichia coli adhesin AfaE to CD55 triggers cell-surface expression of the MHC class I-related molecule MICANatural killer cell cytotoxicity is suppressed by exposure to the human NKG2D ligand MICA*008 that is shed by tumor cells in exosomesHuman cytomegalovirus glycoprotein UL16 causes intracellular sequestration of NKG2D ligands, protecting against natural killer cell cytotoxicityA novel strategy for evasion of NK cell immunity by tumours expressing core2 O-glycansRasGRP1 is required for human NK cell functionFocus on TILs: Prognostic significance of tumor infiltrating lymphocytes in human gliomaRegulation of immune cell function and differentiation by the NKG2D receptorDiversification, expression, and gamma delta T cell recognition of evolutionarily distant members of the MIC family of major histocompatibility complex class I-related moleculesDAP10 and DAP12 form distinct, but functionally cooperative, receptor complexes in natural killer cellsBiochemical characterization and crystalization of human Zn-alpha2-glycoprotein, a soluble class I major histocompatibility complex homologPERB11 (MIC): a polymorphic MHC gene is expressed in skin and single nucleotide polymorphisms are associated with psoriasisExpression of the UL16 glycoprotein of Human Cytomegalovirus protects the virus-infected cell from attack by natural killer cellsDNA damage, tumor mutational load and their impact on immune responses against cancerRecognition and Regulation of T Cells by NK CellsImmune surveillance of unhealthy cells by natural killer cellsNKG2D ligands as therapeutic targetsCrystal structure of a T-cell receptor specific for the human MHC class I homolog MICAImpact of the MICA-129Met/Val Dimorphism on NKG2D-Mediated Biological Functions and Disease RisksGenetic barriers in transplantation medicineCancers Related to Immunodeficiencies: Update and PerspectivesGlycosyl-Phosphatidyl-Inositol (GPI)-Anchors and Metalloproteases: Their Roles in the Regulation of Exosome Composition and NKG2D-Mediated Immune RecognitionNKG2D and DNAM-1 Ligands: Molecular Targets for NK Cell-Mediated Immunotherapeutic Intervention in Multiple MyelomaNKG2D Ligands in Tumor Immunity: Two Sides of a CoinAntigen recognition by human gamma delta T cells: pattern recognition by the adaptive immune systemImmunolocalization of CD1d in human intestinal epithelial cells and identification of a beta2-microglobulin-associated formHydrophobic ligand binding by Zn-alpha 2-glycoprotein, a soluble fat-depleting factor related to major histocompatibility complex proteinsNKG2D recruits two distinct adapters to trigger NK cell activation and costimulationSelective associations with signaling proteins determine stimulatory versus costimulatory activity of NKG2DIncreased sensitivity to dextran sodium sulfate colitis in IRE1beta-deficient miceContrasting Effects of the Cytotoxic Anticancer Drug Gemcitabine and the EGFR Tyrosine Kinase Inhibitor Gefitinib on NK Cell-Mediated Cytotoxicity via Regulation of NKG2D Ligand in Non-Small-Cell Lung Cancer CellsIdentification of the rat NKG2D ligands, RAE1L and RRLT, and their role in allograft rejectionGenetic Diversity and mRNA Expression of Porcine MHC Class I Chain-Related 2 (SLA-MIC2) Gene and Development of a High-Resolution Typing MethodPolymorphism in transmembrane region of MICA gene and cholelithiasisThe HIV-1 pandemic: does the selective sweep in chimpanzees mirror humankind's future?Suppressing T cell motility induced by anti-CTLA-4 monotherapy improves antitumor effects.In vivo expression pattern of MICA and MICB and its relevance to auto-immunity and cancerAugmented serum level of major histocompatibility complex class I-related chain A (MICA) protein and reduced NKG2D expression on NK and T cells in patients with cervical cancer and precursor lesions.
P2860
Q21131219-3CC8B1BD-0490-4335-8BCD-9749766BAEAFQ22009950-CB93A3CF-3790-4367-A6A5-3CEB589E1146Q24290869-239B9A97-BC50-4E14-B176-B0C951C7426AQ24292262-2E67D93E-D07E-4CF9-B3D8-48C8D79FFAA0Q24294847-D700ECD1-A3FB-41B0-BF70-B3051BEC5B83Q24303742-6060C46C-E58C-433C-9C1E-D21FFB48FF0DQ24308236-E9C34BAE-E60E-47B0-B334-21835067A063Q24319921-F35A7352-1063-42B5-BD68-7B087BA2E24CQ24615166-2FED1812-06D3-4953-BF9E-BE62BA451601Q24635093-E7D578DF-F270-4BD2-B70E-BFF9E7E1DBA8Q24645409-13CC9F6A-6EAB-4C50-BF06-539B3C8B40A3Q24675903-31811BEC-7BD4-4ECF-BA35-7AA7E67E17C0Q24678501-B834FB67-D79B-456B-BCF3-C4F1545C3076Q24681869-9C24A8CB-1B04-4BE3-A149-DAAB13DCDF08Q24793218-33105C59-2C19-402F-B4CD-BDF13278C6C5Q26738685-B158EDA3-65A4-4FF2-8DE2-F707EB4375ABQ26742166-5FE101F0-B1B5-44F3-B062-18953F9AFC3AQ27003079-7809CFE0-5970-4C62-B0D8-739184F3DA3BQ27014888-F1CB6531-D7D0-4985-A295-1801F31371C4Q27666700-557DA394-DC9E-4DEC-A372-32A7BAA61446Q28066573-92A95221-2846-4B61-B5C8-D044AD609234Q28069956-99030A07-0767-49D1-985B-C5797C190DA9Q28074182-8DF1E2CD-BE65-421E-9C0E-EA3B23A7D86AQ28076151-A47ADCC2-5127-43D2-A3EA-3422E3398680Q28080823-0872D2BF-036A-49AE-A6BA-33C3E511BA70Q28083832-06FF6244-8272-4DC1-BE65-7B4CE97A8CA9Q28140355-B69D3AF7-A6AB-4832-888D-75C23BEEBB21Q28142658-1C24B773-3EBD-43D3-9483-E0445115612BQ28203695-01830770-70B9-48BA-8EAA-97A7B203AE7BQ28214524-A4F14B77-E9C4-4683-A7E4-390A71D50BE3Q28214530-1323BEA7-38FC-494E-90D5-9F6EAC691B77Q28359871-6A9B1D68-9B9B-48ED-81FD-3E02C0FF89EBQ28550076-E30DC380-43EA-404D-AA8E-7217D3CE2AAEQ28570224-A1D4FFFB-B9ED-477B-90B4-8B81FDFD4AA4Q28608464-0FF6B436-70FA-421E-BEA3-02E7BFE36C4BQ30400475-4C91E541-BEBD-4230-85BC-8EADCFAFF2CBQ30431054-0E439CDD-6D47-4184-9389-D3BF51FC2853Q30525394-8A4C7501-9B75-420D-9ADC-86E825BDBD3DQ33287471-E4349B8A-A163-46A3-8B05-AC2918F440F7Q33315601-DB3A0EAD-BD96-437D-9091-4FD5BF9BD644
P2860
Cell stress-regulated human major histocompatibility complex class I gene expressed in gastrointestinal epithelium
description
1996 nî lūn-bûn
@nan
1996 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1996 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
1996年の論文
@ja
1996年論文
@yue
1996年論文
@zh-hant
1996年論文
@zh-hk
1996年論文
@zh-mo
1996年論文
@zh-tw
1996年论文
@wuu
name
Cell stress-regulated human ma ...... in gastrointestinal epithelium
@ast
Cell stress-regulated human ma ...... in gastrointestinal epithelium
@en
Cell stress-regulated human ma ...... in gastrointestinal epithelium
@en-gb
Cell stress-regulated human ma ...... in gastrointestinal epithelium
@nl
type
label
Cell stress-regulated human ma ...... in gastrointestinal epithelium
@ast
Cell stress-regulated human ma ...... in gastrointestinal epithelium
@en
Cell stress-regulated human ma ...... in gastrointestinal epithelium
@en-gb
Cell stress-regulated human ma ...... in gastrointestinal epithelium
@nl
prefLabel
Cell stress-regulated human ma ...... in gastrointestinal epithelium
@ast
Cell stress-regulated human ma ...... in gastrointestinal epithelium
@en
Cell stress-regulated human ma ...... in gastrointestinal epithelium
@en-gb
Cell stress-regulated human ma ...... in gastrointestinal epithelium
@nl
P2093
P2860
P3181
P356
P1476
Cell stress-regulated human ma ...... in gastrointestinal epithelium
@en
P2093
P2860
P304
P3181
P356
10.1073/PNAS.93.22.12445
P407
P577
1996-10-29T00:00:00Z