Direct evidence for functional self-protein/Ia-molecule complexes in vivo. - Wikidata - wikimedia - TriplyDB

Direct evidence for functional self-protein/Ia-molecule complexes in vivo.

Direct evidence for functional self-protein/Ia-molecule complexes in vivo.

http://www.wikidata.org/entity/Q33632780

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Regulation of the costimulator B7, not class II major histocompatibility complex, restricts the ability of murine kidney tubule cells to stimulate CD4+ T cells Self-pMHCII complexes are variably expressed in the thymus and periphery independent of mRNA expression but dependent on the activation state of the APCs Kinetics of chlamydial antigen processing and presentation to T cells by paraformaldehyde-fixed murine bone marrow-derived macrophages Self heat-shock protein 65-mediated regulation of autoimmune arthritis.The relationship between antigen concentration, antigen internalization, and antigenic complexes: modeling insights into antigen processing and presentation Specialized functions of MHC class I molecules. I. An N-formyl peptide receptor is required for construction of the class I antigen Mta.MHC class II-derived peptides can bind to class II molecules, including self molecules, and prevent antigen presentation Immunogenicity and tolerogenicity of self-major histocompatibility complex peptides.Selective enrichment of major histocompatibility complex class II-specific autoreactive T cells in the thymic Thy0 subset.T cell receptor interaction with peptide/major histocompatibility complex (MHC) and superantigen/MHC ligands is dominated by antigen.Presentation of a self-peptide for in vivo tolerance induction of CD4+ T cells is governed by a processing factor that maps to the class II region of the major histocompatibility complex locus.Myocarditis-inducing epitope of myosin binds constitutively and stably to I-Ak on antigen-presenting cells in the heart.Unresponsiveness to a self-peptide of mouse lysozyme owing to hindrance of T cell receptor-major histocompatibility complex/peptide interaction caused by flanking epitopic residues Endogenous altered peptide ligands can affect peripheral T cell responses.Breaking self-tolerance in nonobese diabetic mice.The presentation of self-peptides: tolerance and competition.The cell biology of antigen processing.Expression of myosin-class II major histocompatibility complexes in the normal myocardium occurs before induction of autoimmune myocarditis.Effects of pH and polysaccharides on peptide binding to class II major histocompatibility complex molecules.Nuclear myxovirus-resistance protein Mx is a minor histocompatibility antigen.Cellular mechanisms of antigen processing and the function of class I and II major histocompatibility complex molecules.Self-awareness: how self-peptide/MHC complexes are essential in the development of T cells.Transgenic models of tolerance and autoimmunity.Processing and presentation of idiotypes to MHC-restricted T cells.Presentation of a circulating self protein (C5) to MHC class II restricted T cells.Processing of self-proteins and its impact on shaping the T cell repertoire, autoimmunity and immune regulation.Minimum length of an idiotypic peptide and a model for its binding to a major histocompatibility complex class II molecule Self-peptide released from class II HLA-DR1 exhibits a hydrophobic two-residue contact motif.Recognition by class II alloreactive T cells of processed determinants from human serum proteins.Dominant determinants in hen eggwhite lysozyme correspond to the cryptic determinants within its self-homologue, mouse lysozyme: implications in shaping of the T cell repertoire and autoimmunity Analysis of the HLA-restricted influenza-specific cytotoxic T lymphocyte response in transgenic mice carrying a chimeric human-mouse class I major histocompatibility complex.Antigen-presenting cells constitutively bind tumor antigens in the tumor-bearing state in vivo to construct an effective immunogenic unit.

P2860

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P2860

Direct evidence for functional self-protein/Ia-molecule complexes in vivo.

http://www.wikidata.org/entity/Q33632780

description

1988 nî lūn-bûn

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1988 թուականի Յուլիսին հրատարակուած գիտական յօդուած

@hyw

1988 թվականի հուլիսին հրատարակված գիտական հոդված

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1988年の論文

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1988年学术文章

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1988年学术文章

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1988年学术文章

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1988年学术文章

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1988年学术文章

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1988年學術文章

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name

Direct evidence for functional self-protein/Ia-molecule complexes in vivo.

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Direct evidence for functional self-protein/Ia-molecule complexes in vivo.

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Direct evidence for functional self-protein/Ia-molecule complexes in vivo.

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Direct evidence for functional self-protein/Ia-molecule complexes in vivo.

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Direct evidence for functional self-protein/Ia-molecule complexes in vivo.

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Direct evidence for functional self-protein/Ia-molecule complexes in vivo.

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PNAS.85.14.5220

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Proceedings of the National Academy of Sciences of the United States of America

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Direct evidence for functional self-protein/Ia-molecule complexes in vivo.

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P M Allen

http://www.w3.org/2001/XMLSchema#string

R G Lorenz

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P2860

Structure of the human class I histocompatibility antigen, HLA-A2

Mouse haemoglobin beta chains. Comparative sequence data on adult major and minor beta chains from two species, Mus musculus and Mus cervicolor.

Antigenic competition at the level of peptide-Ia binding

Function of macrophages in antigen recognition by guinea pig T lymphocytes. I. Requirement for histocompatible macrophages and lymphocytes.

Decrease in macrophage antigen catabolism caused by ammonia and chloroquine is associated with inhibition of antigen presentation to T cells.

Antigen-presenting cells from nonresponder strain 2 guinea pigs are fully competent to present bovine insulin B chain to responder strain 13 T cells. Evidence against a determinant selection model and in favor of a clonal deletion model of immune re

Role of the H-2 complex in the induction of T cell tolerance to self minor histocompatibility antigens.

Specificity of T cell clones for antigen and autologous major histocompatibility complex products determines specificity for foreign major histocompatibility complex products.

Antigen recognition by H-2-restricted T cells. I. Cell-free antigen processing.

Antigen presentation by hapten-specific B lymphocytes. I. Role of surface immunoglobulin receptors.

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