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Separation of subcellular compartments containing distinct functional forms of MHC class II.

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Zeitschriftentitel: The Journal of cell biology
Personen und Körperschaften: Qiu, Y, Xu, X, Wandinger-Ness, A, Dalke, D P, Pierce, S K
In: The Journal of cell biology, 125, 1994, 3, S. 595-605
Format: E-Article
Sprache: Englisch
veröffentlicht:
Rockefeller University Press
Schlagwörter:
Cell Biology
author_facet Qiu, Y
Xu, X
Wandinger-Ness, A
Dalke, D P
Pierce, S K
Qiu, Y
Xu, X
Wandinger-Ness, A
Dalke, D P
Pierce, S K
author Qiu, Y
Xu, X
Wandinger-Ness, A
Dalke, D P
Pierce, S K
spellingShingle Qiu, Y
Xu, X
Wandinger-Ness, A
Dalke, D P
Pierce, S K
The Journal of cell biology
Separation of subcellular compartments containing distinct functional forms of MHC class II.
Cell Biology
author_sort qiu, y
spelling Qiu, Y Xu, X Wandinger-Ness, A Dalke, D P Pierce, S K 0021-9525 1540-8140 Rockefeller University Press Cell Biology http://dx.doi.org/10.1083/jcb.125.3.595 <jats:p>Antigen processing in B lymphocytes entails initial binding of antigen to the surface Ig and internalization of the antigen into acidic compartments where the antigen is degraded, releasing peptides for binding to major histocompatibility complex class II molecules. Using subcellular fractionation techniques we show that functional, processed antigen-class II complexes capable of activating antigen-specific T cells in vitro are first formed in dense vesicles cosedimenting with lysosomes which are distinct from early endosomes and the bulk of late endosomes. With time, processed antigen-class II complexes appear in vesicles sedimenting with early endosomes and finally cofractionate with plasma membrane. A separate compartment is identified which contains major histocompatibility complex class II receptive to peptide binding but which does not have access to processed antigen in the B cell. These class II molecules are in the so-called "floppy" form in contrast to the class II molecules in the very dense vesicles which are in the "compact" form. These results demonstrate a correlation between the floppy and compact forms of class II molecules and their association with processed antigen and show that floppy and compact forms of class II reside in distinct and physically separable subcellular compartments.</jats:p> Separation of subcellular compartments containing distinct functional forms of MHC class II. The Journal of cell biology
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series The Journal of cell biology
source_id 49
title Separation of subcellular compartments containing distinct functional forms of MHC class II.
title_unstemmed Separation of subcellular compartments containing distinct functional forms of MHC class II.
title_full Separation of subcellular compartments containing distinct functional forms of MHC class II.
title_fullStr Separation of subcellular compartments containing distinct functional forms of MHC class II.
title_full_unstemmed Separation of subcellular compartments containing distinct functional forms of MHC class II.
title_short Separation of subcellular compartments containing distinct functional forms of MHC class II.
title_sort separation of subcellular compartments containing distinct functional forms of mhc class ii.
topic Cell Biology
url http://dx.doi.org/10.1083/jcb.125.3.595
publishDate 1994
physical 595-605
description <jats:p>Antigen processing in B lymphocytes entails initial binding of antigen to the surface Ig and internalization of the antigen into acidic compartments where the antigen is degraded, releasing peptides for binding to major histocompatibility complex class II molecules. Using subcellular fractionation techniques we show that functional, processed antigen-class II complexes capable of activating antigen-specific T cells in vitro are first formed in dense vesicles cosedimenting with lysosomes which are distinct from early endosomes and the bulk of late endosomes. With time, processed antigen-class II complexes appear in vesicles sedimenting with early endosomes and finally cofractionate with plasma membrane. A separate compartment is identified which contains major histocompatibility complex class II receptive to peptide binding but which does not have access to processed antigen in the B cell. These class II molecules are in the so-called "floppy" form in contrast to the class II molecules in the very dense vesicles which are in the "compact" form. These results demonstrate a correlation between the floppy and compact forms of class II molecules and their association with processed antigen and show that floppy and compact forms of class II reside in distinct and physically separable subcellular compartments.</jats:p>
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author Qiu, Y, Xu, X, Wandinger-Ness, A, Dalke, D P, Pierce, S K
author_facet Qiu, Y, Xu, X, Wandinger-Ness, A, Dalke, D P, Pierce, S K, Qiu, Y, Xu, X, Wandinger-Ness, A, Dalke, D P, Pierce, S K
author_sort qiu, y
container_issue 3
container_start_page 595
container_title The Journal of cell biology
container_volume 125
description <jats:p>Antigen processing in B lymphocytes entails initial binding of antigen to the surface Ig and internalization of the antigen into acidic compartments where the antigen is degraded, releasing peptides for binding to major histocompatibility complex class II molecules. Using subcellular fractionation techniques we show that functional, processed antigen-class II complexes capable of activating antigen-specific T cells in vitro are first formed in dense vesicles cosedimenting with lysosomes which are distinct from early endosomes and the bulk of late endosomes. With time, processed antigen-class II complexes appear in vesicles sedimenting with early endosomes and finally cofractionate with plasma membrane. A separate compartment is identified which contains major histocompatibility complex class II receptive to peptide binding but which does not have access to processed antigen in the B cell. These class II molecules are in the so-called "floppy" form in contrast to the class II molecules in the very dense vesicles which are in the "compact" form. These results demonstrate a correlation between the floppy and compact forms of class II molecules and their association with processed antigen and show that floppy and compact forms of class II reside in distinct and physically separable subcellular compartments.</jats:p>
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imprint Rockefeller University Press, 1994
imprint_str_mv Rockefeller University Press, 1994
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series The Journal of cell biology
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spelling Qiu, Y Xu, X Wandinger-Ness, A Dalke, D P Pierce, S K 0021-9525 1540-8140 Rockefeller University Press Cell Biology http://dx.doi.org/10.1083/jcb.125.3.595 <jats:p>Antigen processing in B lymphocytes entails initial binding of antigen to the surface Ig and internalization of the antigen into acidic compartments where the antigen is degraded, releasing peptides for binding to major histocompatibility complex class II molecules. Using subcellular fractionation techniques we show that functional, processed antigen-class II complexes capable of activating antigen-specific T cells in vitro are first formed in dense vesicles cosedimenting with lysosomes which are distinct from early endosomes and the bulk of late endosomes. With time, processed antigen-class II complexes appear in vesicles sedimenting with early endosomes and finally cofractionate with plasma membrane. A separate compartment is identified which contains major histocompatibility complex class II receptive to peptide binding but which does not have access to processed antigen in the B cell. These class II molecules are in the so-called "floppy" form in contrast to the class II molecules in the very dense vesicles which are in the "compact" form. These results demonstrate a correlation between the floppy and compact forms of class II molecules and their association with processed antigen and show that floppy and compact forms of class II reside in distinct and physically separable subcellular compartments.</jats:p> Separation of subcellular compartments containing distinct functional forms of MHC class II. The Journal of cell biology
spellingShingle Qiu, Y, Xu, X, Wandinger-Ness, A, Dalke, D P, Pierce, S K, The Journal of cell biology, Separation of subcellular compartments containing distinct functional forms of MHC class II., Cell Biology
title Separation of subcellular compartments containing distinct functional forms of MHC class II.
title_full Separation of subcellular compartments containing distinct functional forms of MHC class II.
title_fullStr Separation of subcellular compartments containing distinct functional forms of MHC class II.
title_full_unstemmed Separation of subcellular compartments containing distinct functional forms of MHC class II.
title_short Separation of subcellular compartments containing distinct functional forms of MHC class II.
title_sort separation of subcellular compartments containing distinct functional forms of mhc class ii.
title_unstemmed Separation of subcellular compartments containing distinct functional forms of MHC class II.
topic Cell Biology
url http://dx.doi.org/10.1083/jcb.125.3.595