Design and use of conditional MHC class I ligands
M Toebes, M Coccoris, A Bins, B Rodenko, R Gomez… - Nature medicine, 2006 - nature.com
M Toebes, M Coccoris, A Bins, B Rodenko, R Gomez, NJ Nieuwkoop, W van de Kasteele…
Nature medicine, 2006•nature.comMajor histocompatibility complex (MHC) class I molecules associate with a variety of peptide
ligands during biosynthesis and present these ligands on the cell surface for recognition by
cytotoxic T cells. We have designed conditional MHC ligands that form stable complexes
with MHC molecules but degrade on command, by exposure to a defined
photostimulus.'Empty MHC molecules' generated in this manner can be loaded with arrays
of peptide ligands to determine MHC binding properties and to monitor antigen-specific T …
ligands during biosynthesis and present these ligands on the cell surface for recognition by
cytotoxic T cells. We have designed conditional MHC ligands that form stable complexes
with MHC molecules but degrade on command, by exposure to a defined
photostimulus.'Empty MHC molecules' generated in this manner can be loaded with arrays
of peptide ligands to determine MHC binding properties and to monitor antigen-specific T …
Abstract
Major histocompatibility complex (MHC) class I molecules associate with a variety of peptide ligands during biosynthesis and present these ligands on the cell surface for recognition by cytotoxic T cells. We have designed conditional MHC ligands that form stable complexes with MHC molecules but degrade on command, by exposure to a defined photostimulus. 'Empty MHC molecules' generated in this manner can be loaded with arrays of peptide ligands to determine MHC binding properties and to monitor antigen-specific T-cell responses in a high-throughput manner. We document the value of this approach by identifying cytotoxic T-cell epitopes within the H5N1 influenza A/Vietnam/1194/04 genome.
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