about
Structure of a complex of the human alpha/beta T cell receptor (TCR) HA1.7, influenza hemagglutinin peptide, and major histocompatibility complex class II molecule, HLA-DR4 (DRA*0101 and DRB1*0401): insight into TCR cross-restriction and alloreactivDendritic Cell Function during Chronic Hepatitis C Virus and Human Immunodeficiency Virus Type 1 InfectionStructural Comparison of Allogeneic and Syngeneic T Cell Receptor–Peptide-Major Histocompatibility Complex ComplexesWhat Is Direct Allorecognition?Quantitating T cell cross-reactivity for unrelated peptide antigensThe peptide-specific alloreactive human T cell repertoire varies largely between individuals and is not extended in HLA-A*0205--anti-HLA-A*0201 pairings.Activation of counter-regulatory mechanisms in a rat renal acute rejection model.Different roles for LFA-1 and VLA-4 integrins in T-B-cell interactions in vivo.Assessing the role of STAT3 in DC differentiation and autologous DC immunotherapy in mouse models of GBMAlphabeta T cell receptor interactions with syngeneic and allogeneic ligands: affinity measurements and crystallization.Restricted and conserved T-cell repertoires involved in allorecognition of class II major histocompatibility complex.Direct recognition by alphabeta cytolytic T cells of Hfe, a MHC class Ib molecule without antigen-presenting function.Allorecognition in the Tasmanian devil (Sarcophilus harrisii), an endangered marsupial species with limited genetic diversity.Thymic selection stifles TCR reactivity with the main chain structure of MHC and forces interactions with the peptide side chains.Both positive and negative effects on immune responses by expression of a second class II MHC molecule.The immunology of Epstein-Barr virus infectionMechanisms of tolerance to parental parathyroid tissue when combined with human allogeneic thymus transplantation.Cell-dose-dependent increases in circulating levels of immune effector cells in rhesus macaques following intracranial injection of allogeneic MSCsEvolving concepts of specificity in immune reactionsThe brain microvascular endothelium supports T cell proliferation and has potential for alloantigen presentation.Adoptive T-cell therapy of prostate cancer targeting the cancer stem cell antigen EpCAMFactors governing the activation of adoptively transferred donor T cells infused after allogeneic bone marrow transplantation in the mouse.H2-DMalpha(-/-) mice show the importance of major histocompatibility complex-bound peptide in cardiac allograft rejectionThe peptide p2Ca is immunodominant in allorecognition of Ld by beta chain variable region V beta 8+ but not V beta 8- strains.Solution mapping of T cell receptor docking footprints on peptide-MHC.Why rethink the structure-function relationships regulating TCR behavior?The mouse mammary tumor virus env gene is the source of a CD8+ T-cell-stimulating peptide presented by a major histocompatibility complex class I molecule in a murine thymoma.Long-term exposure of chemokine CXCL10 causes bronchiolitis-like inflammation.The major histocompatibility complex in transplantationNegative selection imparts peptide specificity to the mature T cell repertoire.Positive selection of an MHC class-I restricted TCR in the absence of classical MHC class I molecules.Conformational differences in major histocompatibility complex-peptide complexes can result in alloreactivity.An alloresponse in humans is dominated by cytotoxic T lymphocytes (CTL) cross-reactive with a single Epstein-Barr virus CTL epitope: implications for graft-versus-host disease.A rare cryptic translation product is presented by Kb major histocompatibility complex class I molecule to alloreactive T cells.T cell receptor repertoire for a viral epitope in humans is diversified by tolerance to a background major histocompatibility complex antigenA single T cell receptor recognizes structurally distinct MHC/peptide complexes with high specificity.Self-recognition of CD1 by gamma/delta T cells: implications for innate immunityPeptide-independent recognition by alloreactive cytotoxic T lymphocytes (CTL).CD4 T cells integrate signals delivered during successive DC encounters in vivoOn the role of thymic epithelium vs. bone marrow-derived cells in repertoire selection of T cells.
P2860
Q24673986-83121EC0-2F14-4796-85F7-9EB22D7FDD7CQ27481412-6DCFD4D1-A1C6-4A2C-8FA2-DE7FC087CC89Q27638941-B3DE5255-8887-41FD-8944-0EBE7515EDA3Q28078405-F8B65FAF-53D9-467B-8B31-6091F7379F30Q28750512-D377955C-0520-4E60-A01E-B0322C7606BDQ30684229-B56C1663-349E-481F-B141-45BC2046D7EBQ33318969-E582A528-6CBD-448C-A34E-1222A4F2659BQ33329756-945709FC-B641-41C5-A400-36DA546ECA7BQ33578030-0535C223-3DD6-4894-948A-DEBEA5FAB675Q33731073-B2D9A607-2494-4087-8679-390C30B7D05DQ33930698-5E4DDE89-1866-47BA-AD52-4170BE257DB6Q33943814-AC61CB45-FA79-439F-8D15-AB9FAB6590B4Q33979895-01BFE27A-6674-48AE-B00D-0F700AEA4DBAQ34110593-F0B37B03-6776-46A8-A4CC-EDB5DA6147A9Q34146648-9580AE7C-E8CD-4F97-8673-FC10467B1B3DQ34225567-C39A290A-5AB4-4007-A998-4E3DE1CE6DBFQ34231857-5835B258-AE3F-45D9-9318-A0E01E79B75FQ34275442-5A7E2FB5-4BAE-4AA0-A425-A7479EE46254Q34450109-DA15657A-F8BC-49F7-89F8-7C1FE27E6EAAQ34548189-4036AFE8-91E9-4ED0-B4BE-E1A386D7616CQ35552124-EEDC3C43-BC41-463C-BACF-58AC95BCA5A7Q35828638-28DFEDEE-28B0-41DE-8BF1-05098BCE56B0Q35834673-4D8A19FE-9D10-45D5-B67E-4743ECAFC33FQ35918041-5291754A-D43C-4FA5-B688-777C36E031A7Q35928954-FF462ED8-AA10-4686-98AE-C3EACA33EFA4Q35939327-FF0EBA87-E8C0-48AD-A36B-2B42CF718761Q35940447-5585E9B5-F795-41C0-A775-609D1EFB0C3CQ35987153-ECFD9182-5062-4E66-A75C-F2D5291D243DQ36072165-92D1BA34-2751-4F85-92D5-832C2635ACC4Q36161289-90F1279A-0381-49BB-8C53-E0049BDDEC8AQ36309955-2325C311-BC34-43D4-B6DB-A5F0E742809AQ36362680-9E90A2AC-BCFA-4704-8038-568B1C18FE89Q36362943-9A4CA549-2498-4C62-82CB-25BAA683A744Q36365601-914C210D-1DEA-49BE-B3AE-E27169D851BCQ36365637-8383FC52-80C8-4DFA-9C6D-400F4169FBA5Q36367304-EA6FAAC6-CBA2-4F4F-80E5-C0AE171B9925Q36368376-435D9CD5-9476-46F3-BA3F-648F53AA45D5Q36377031-1EE6495C-9A5E-4388-BE2C-91A0FA9210A5Q36403713-83F6BF49-4159-43E0-8E28-0B75935AA3E6Q36415831-29D6E21D-3B2D-4522-9D3C-63BA9834D8C9
P2860
description
1993 nî lūn-bûn
@nan
1993 թուականին հրատարակուած գիտական յօդուած
@hyw
1993 թվականին հրատարակված գիտական հոդված
@hy
1993年の論文
@ja
1993年論文
@yue
1993年論文
@zh-hant
1993年論文
@zh-hk
1993年論文
@zh-mo
1993年論文
@zh-tw
1993年论文
@wuu
name
The molecular basis of allorecognition
@ast
The molecular basis of allorecognition
@en
The molecular basis of allorecognition
@nl
type
label
The molecular basis of allorecognition
@ast
The molecular basis of allorecognition
@en
The molecular basis of allorecognition
@nl
prefLabel
The molecular basis of allorecognition
@ast
The molecular basis of allorecognition
@en
The molecular basis of allorecognition
@nl
P3181
P1476
The molecular basis of allorecognition
@en
P2093
Chattopadhyay S
P304
P3181
P356
10.1146/ANNUREV.IY.11.040193.002125
P407
P577
1993-01-01T00:00:00Z