Analysis of MHC Class II Antigen Processing by Quantitation of Peptides that Constitute Nested Sets (original) (raw)
Cathepsin D, but not cathepsin B, releases T cell stimulatory fragments from lysozyme that are functional in the context of multiple murine class II MHC molecules
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Human B lymphoblastoid cells contain distinct patterns of cathepsin activity in endocytic compartments and regulate MHC class II transport in a cathepsin S-independent manner
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Antigen processing for presentation by class II major histocompatibility complex requires cleavage by cathepsin E
Joanna Ellis
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Processing of an endogenous protein can generate MHC class II-restricted T cell determinants distinct from those derived from exogenous antigen
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Proteasomes, TAP, and Endoplasmic Reticulum-Associated Aminopeptidase Associated with Antigen Processing Control CD4+ Th Cell Responses by Regulating Indirect Presentation of MHC Class II-Restricted Cytoplasmic Antigens
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Complexes the Formation of Peptide:Class II MHC Antigen-Processing Organelles That Mediate Phagosomes Are Fully Competent
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1999
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In vitro and in vivo processing studies of peptide antigens in context of MHC class II presentation
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Human cathepsin S, but not cathepsin L, degrades efficiently MHC class II-associated invariant chain in nonprofessional APCs
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Reconstruction of a pathway of antigen processing and class II MHC peptide capture
Timothy Tree
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Processing of Exogenous Antigens for Presentation by Class I MHC Molecules Involves Post-Golgi Peptide Exchange Influenced by Peptide-MHC Complex Stability and Acidic pH
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Endocytic Recycling is Required for the Presentation of an Exogenous Peptide via MHC Class II Molecules
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Proteolytic Cleavages of Molecules Involved in Antigen Processing and Presentation: A Thesis
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1989
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Tripeptidyl peptidase II is the major peptidase needed to trim long antigenic precursors, but is not required for most MHC class I antigen presentation
Alfred Goldberg
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Intracellular organelles involved in antigen processing and the binding of peptides to class II MHC molecules
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Seminars in Immunology, 1995
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Major Histocompatibility Complex Class I-presented Antigenic Peptides Are Degraded in Cytosolic Extracts Primarily by Thimet Oligopeptidase
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An essential role for tripeptidyl peptidase in the generation of an MHC class I epitope
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Asparagine Endopeptidase Can Initiate the Removal of the MHC Class II Invariant Chain Chaperone
Philippe Benaroch
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Beyond the proteasome: trimming, degradation and generation of MHC class I ligands by auxiliary proteases
Doriana Fruci
2002
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Introduction of a Glycosylation Site into a Secreted Protein Provides Evidence for an Alternative Antigen Processing Pathway: Transport of Precursors of Major Histocompatability Complex Class I-Restricted Peptides from the Endoplasmic Reticulum to the Cytosol
Weisan Chen
Journal of Experimental Medicine, 1997
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Quantitation of Lysozyme Peptides Bound to Class II MHC Molecules Indicates Very Large Differences in Levels of Presentation1
carlos velazquez
2001
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Quantitation of Lysozyme Peptides Bound to Class II MHC Molecules Indicates Very Large Differences in Levels of Presentation
Carlos Velázquez
The Journal of Immunology, 2001
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