CD1-restricted T cell recognition of microbial lipoglycan antigens
about
Binding and antigen presentation of ceramide-containing glycolipids by soluble mouse and human CD1d moleculesRole of CD1d-restricted NKT cells in microbial immunityCell stress-regulated human major histocompatibility complex class I gene expressed in gastrointestinal epitheliumThe continuing challenges of leprosyLangerhans cells utilize CD1a and langerin to efficiently present nonpeptide antigens to T cells.Diversification, expression, and gamma delta T cell recognition of evolutionarily distant members of the MIC family of major histocompatibility complex class I-related moleculesMycobacterium tuberculosis pks12 produces a novel polyketide presented by CD1c to T cellsBiochemical characterization and crystalization of human Zn-alpha2-glycoprotein, a soluble class I major histocompatibility complex homologRole of Group 1 CD1-Restricted T Cells in Infectious DiseaseCD1 and mycobacterial lipids activate human T cellsT cell recognition of non-peptidic antigens in infectious diseasesNonclassical T cells and their antigens in tuberculosisCardiolipin Binds to CD1d and Stimulates CD1d-Restricted T Cells in the Normal Murine RepertoireImmunolocalization of CD1d in human intestinal epithelial cells and identification of a beta2-microglobulin-associated formLipomannan and lipoarabinomannan from a clinical isolate of Mycobacterium kansasii: novel structural features and apoptosis-inducing propertiesStructural study of lipomannan and lipoarabinomannan from Mycobacterium chelonae. Presence of unusual components with alpha 1,3-mannopyranose side chainsMycobacterial lipoarabinomannan: an extraordinary lipoheteroglycan with profound physiological effectsLipoarabinomannans: characterization of the multiacylated forms of the phosphatidyl-myo-inositol anchor by NMR spectroscopyMycobacterium smegmatis phosphoinositols-glyceroarabinomannans. Structure and localization of alkali-labile and alkali-stable phosphoinositidesImmunohistological analysis of in situ expression of mycobacterial antigens in skin lesions of leprosy patients across the histopathological spectrum. Association of Mycobacterial lipoarabinomannan (LAM) and Mycobacterium leprae phenolic glycolipid-CD1c-mediated T-cell recognition of isoprenoid glycolipids in Mycobacterium tuberculosis infectionA processive lipid glycosyltransferase in the small human pathogen Mycoplasma pneumoniae: involvement in host immune responseIdentification of the required acyltransferase step in the biosynthesis of the phosphatidylinositol mannosides of mycobacterium speciesLipid-protein interactions: biosynthetic assembly of CD1 with lipids in the endoplasmic reticulum is evolutionarily conservedAnalysis of the CD1 antigen presenting system in humanized SCID miceThe contributions of mass spectrometry to understanding of immune recognition by T lymphocytes.Identification by mass spectrometry of CD8(+)-T-cell Mycobacterium tuberculosis epitopes within the Rv0341 gene productAcylation state of the phosphatidylinositol hexamannosides from Mycobacterium bovis bacillus Calmette Guerin and mycobacterium tuberculosis H37Rv and its implication in Toll-like receptor response.H2-M3 restricted presentation of a Listeria-derived leader peptide.Peptide mimotopes of Mycobacterium tuberculosis carbohydrate immunodeterminantsNew insights into the biosynthesis of mycobacterial lipomannan arising from deletion of a conserved gene.Human mucosal associated invariant T cells detect bacterially infected cells.The T-Cell Response to Lipid Antigens of Mycobacterium tuberculosisCD1: A Singed Cat of the Three Antigen Presentation Systems.Protection against Mycobacterium tuberculosis infection by CD8+ T cells requires the production of gamma interferon.Characterization of mannose receptor-dependent phagocytosis mediated by Mycobacterium tuberculosis lipoarabinomannanRegulation of CD1d expression and function by a herpesvirus infection.Rhodococcus equi-specific cytotoxic T lymphocytes in immune horses and development in asymptomatic foalsDiversity in Mycobacterium tuberculosis mannosylated cell wall determinants impacts adaptation to the host.CD1, tuberculosis, and the evolution of major histocompatibility complex molecules.
P2860
Q22010665-F5862C72-D27A-43DB-8061-81C5F8FE87C3Q24294851-2FF743F2-7E98-4B24-B7E6-CCF9668C210EQ24318429-C8907B19-B3E3-4103-BE88-C2C35C84ED2AQ24545809-39DCF28C-54B9-47D7-869F-46955E1F1F06Q24604092-CC265E69-9F47-4AA5-AF6B-C352DEC1C74FQ24645409-BBF30B36-38B8-4D79-9F51-0A551AB8BBFEQ24647493-FD98186B-E41A-4078-B820-F3EAFF85AD31Q24678501-F9E06252-CD8D-47F2-8B00-57721B0C2E23Q26801636-C2280B4F-16C3-49AC-9ADB-ABA6F16D9D90Q26863207-BC6655FB-41F6-4541-A391-B3640A262E93Q26865650-CF369343-02B6-482A-AA7F-B7690247726DQ27007035-BAD3281B-94FF-491A-9CE5-63797F899E2AQ27667243-E8594100-F878-443B-9F5D-85E2F3385856Q28142658-C4648C2A-C9BC-4A21-B06B-AFE5A42D69FCQ28182453-29AC55EB-D1BA-4440-841E-26CBA2DA5E2EQ28204422-3120AAEE-45CD-431E-8B19-5DAEF6E77583Q28260573-29798171-A7E8-42E6-B833-2DE89E0FA13FQ28294479-3898F4CF-A336-4F0B-A86F-FD0A7EBB9FD4Q28301203-CC3E77BB-4BE0-4ADF-9F04-8F7F69C6BADDQ28343370-C2D6840C-B898-4D09-A054-5DD95A8FB842Q28378014-7469E810-74E5-4741-8577-D35E412C1326Q28484726-711BC51F-3617-4C83-A495-7B2A6010C0EBQ28501856-70E7610F-F027-45A5-97B9-A349F15D88DFQ28592914-0A5A3FD4-AFC4-4769-B9B3-EAEF6B954C05Q28743012-13C99017-7371-4F42-BEAC-5887E3E8EC93Q30444065-E4BFB3F3-EFF1-4860-A4D6-07E3A869007DQ30453239-2B4F1264-EB48-4678-AAF2-7D3F07C00B99Q30939823-67572BDD-72EA-4512-A3DE-22F14A556DACQ32064328-95899B22-4F7F-4C0C-A6CD-0E74972C99EAQ33209251-71C154CB-D346-4C59-B2DA-F2789CEC574FQ33289714-00AFE644-51CB-4DA0-9363-B6D485CB18B7Q33627502-DE11DD7D-EE1F-4381-956E-2820125AE294Q33658959-AA57C602-9900-4399-966D-A8868AFAA04CQ33695019-316494E7-E260-4402-A515-85525017FCDFQ33750714-00C75533-BB07-4643-8A11-13BC975BC5C2Q33754868-9269BFFF-15BB-4EA4-8CE4-020CF73FCAE0Q33768331-94896AAF-BDDD-4AE6-B498-7419FD5DBAB2Q33769350-E938B608-08F4-4419-A8C7-C6B19B1CEFCAQ33794104-3AE48F44-1C56-45A0-805A-B0150C320DF1Q33869275-96D45759-90AE-4E27-B142-33D697E30F99
P2860
CD1-restricted T cell recognition of microbial lipoglycan antigens
description
1995 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
1995 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
article publié dans la revue scientifique Science
@fr
artículu científicu espublizáu en 1995
@ast
im Juli 1995 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 1995/07/14)
@sk
vědecký článek publikovaný v roce 1995
@cs
wetenschappelijk artikel (gepubliceerd op 1995/07/14)
@nl
наукова стаття, опублікована в липні 1995
@uk
name
CD1-restricted T cell recognition of microbial lipoglycan antigens
@ast
CD1-restricted T cell recognition of microbial lipoglycan antigens
@en
CD1-restricted T cell recognition of microbial lipoglycan antigens
@nl
type
label
CD1-restricted T cell recognition of microbial lipoglycan antigens
@ast
CD1-restricted T cell recognition of microbial lipoglycan antigens
@en
CD1-restricted T cell recognition of microbial lipoglycan antigens
@nl
prefLabel
CD1-restricted T cell recognition of microbial lipoglycan antigens
@ast
CD1-restricted T cell recognition of microbial lipoglycan antigens
@en
CD1-restricted T cell recognition of microbial lipoglycan antigens
@nl
P2093
P3181
P356
P1433
P1476
CD1-restricted T cell recognition of microbial lipoglycan antigens
@en
P2093
B. R. Bloom
D. Chatterjee
M. B. Brenner
M. Kronenberg
P. A. Sieling
P. J. Brennan
R. J. Mazzaccaro
S. A. Porcelli
T. I. Prigozy
T. Soriano
P304
P3181
P356
10.1126/SCIENCE.7542404
P407
P577
1995-07-14T00:00:00Z