Structural and dynamic control of T-cell receptor specificity, cross-reactivity, and binding mechanism. - Wikidata - awgldk - TriplyDB

Structural and dynamic control of T-cell receptor specificity, cross-reactivity, and binding mechanism.

Structural and dynamic control of T-cell receptor specificity, cross-reactivity, and binding mechanism.

http://www.wikidata.org/entity/Q38050477

about

An immunology primer for computational modelers Sulfamethoxazole induces a switch mechanism in T cell receptors containing TCRVβ20-1, altering pHLA recognition The growth threshold conjecture: a theoretical framework for understanding T-cell tolerance Highly Divergent T-cell Receptor Binding Modes Underlie Specific Recognition of a Bulged Viral Peptide bound to a Human Leukocyte Antigen Class I Molecule Structure-based design of altered MHC class II-restricted peptide ligands with heterogeneous immunogenicity Proline substitution independently enhances H-2D(b) complex stabilization and TCR recognition of melanoma-associated peptides Peptide modulation of class I major histocompatibility complex protein molecular flexibility and the implications for immune recognition.Identification of swine influenza virus epitopes and analysis of multiple specificities expressed by cytotoxic T cell subsets Assessing T cell clonal size distribution: a non-parametric approach.The basis for limited specificity and MHC restriction in a T cell receptor interface.Specific increase in potency via structure-based design of a TCR.Plasticity in the contribution of T cell receptor variable region residues to binding of peptide-HLA-A2 complexes.Differential utilization of binding loop flexibility in T cell receptor ligand selection and cross-reactivity.An Engineered Switch in T Cell Receptor Specificity Leads to an Unusual but Functional Binding Geometry.The versatility of the αβ T-cell antigen receptor.Structural basis of a novel PD-L1 nanobody for immune checkpoint blockade.TCR scanning of peptide/MHC through complementary matching of receptor and ligand molecular flexibility.Antiviral memory phenotype T cells in unexposed adults.Insights into immune structure, recognition, and signaling.The novel immunotherapeutic molecule T11TS modulates glioma-induced changes of key components of the immunological synapse in favor of T cell activation and glioma abrogation.A generalized framework for computational design and mutational scanning of T-cell receptor binding interfaces.Protective T Cell Responses Featured by Concordant Recognition of Middle East Respiratory Syndrome Coronavirus-Derived CD8+ T Cell Epitopes and Host MHC.The contribution of major histocompatibility complex contacts to the affinity and kinetics of T cell receptor binding Single-molecule motions of MHC class II rely on bound peptides.Peptide-dependent conformational fluctuation determines the stability of the human leukocyte antigen class I complex.The somatically generated portion of T cell receptor CDR3α contributes to the MHC allele specificity of the T cell receptor.Polymorphisms of the FOXF1 and MHC locus genes in individuals undergoing esophageal acid reflux assessments.The versatility of the CD1 lipid antigen presentation pathway.NMR spectroscopy reveals unexpected structural variation at the protein-protein interface in MHC class I molecules.

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Structural and dynamic control of T-cell receptor specificity, cross-reactivity, and binding mechanism.

http://www.wikidata.org/entity/Q38050477

description

2012 nî lūn-bûn

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2012年の論文

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2012年学术文章

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2012年学术文章

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2012年学术文章

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2012年学术文章

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2012年学术文章

@zh-sg

2012年學術文章

@yue

2012年學術文章

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2012年學術文章

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name

Structural and dynamic control ...... tivity, and binding mechanism.

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type

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Structural and dynamic control ...... tivity, and binding mechanism.

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prefLabel

Structural and dynamic control ...... tivity, and binding mechanism.

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J.1600-065X.2012.01165.X

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Immunological Reviews

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Structural and dynamic control ...... tivity, and binding mechanism.

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Brian M Baker

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Daniel R Scott

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Sydney J Blevins

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William F Hawse

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P2860

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

Gene therapy with human and mouse T-cell receptors mediates cancer regression and targets normal tissues expressing cognate antigen

Cancer regression in patients after transfer of genetically engineered lymphocytes

Genetic engineering with T cell receptors

Structure, specificity and CDR mobility of a class II restricted single-chain T-cell receptor

Four A6-TCR/peptide/HLA-A2 structures that generate very different T cell signals are nearly identical

A functional hot spot for antigen recognition in a superagonist TCR/MHC complex

Crystal structures of two closely related but antigenically distinct HLA-A2/melanocyte-melanoma tumor-antigen peptide complexes

A T cell receptor CDR3beta loop undergoes conformational changes of unprecedented magnitude upon binding to a peptide/MHC class I complex

A structural basis for the selection of dominant alphabeta T cell receptors in antiviral immunity

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10-31

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scholarly article

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10.1111/J.1600-065X.2012.01165.X

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1

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250

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2012-11-01T00:00:00Z

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23046120

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