2010 - Fellow of the American Association for the Advancement of Science (AAAS)
His primary scientific interests are in Molecular biology, Antigen, Cell biology, T cell and Cytotoxic T cell. His Molecular biology research incorporates themes from T lymphocyte, T-cell receptor, Antibody, Monoclonal antibody and Major histocompatibility complex. His studies in Antigen integrate themes in fields like Cell, B-cell receptor, Glycoprotein and Monoclonal.
The various areas that Cox Terhorst examines in his Cell biology study include Receptor and Cell surface receptor. T cell is a primary field of his research addressed under Immunology. The study incorporates disciplines such as Epitope and CD8 in addition to Cytotoxic T cell.
Cox Terhorst mostly deals with Molecular biology, Immunology, Cell biology, Antigen and T cell. His Molecular biology research is multidisciplinary, relying on both T lymphocyte, Thymocyte, Gene, T-cell receptor and Monoclonal antibody. His research integrates issues of Endoplasmic reticulum, CD3, Beta and B-cell receptor in his study of T-cell receptor.
His Cell biology research is multidisciplinary, incorporating elements of Receptor and Cell surface receptor. His research in Antigen intersects with topics in Adoptive cell transfer, Antibody and Biochemistry, Glycoprotein. His biological study spans a wide range of topics, including Cytotoxic T cell, CD8 and Cellular differentiation.
Immunology, Cell biology, Immune system, Antigen and Receptor are his primary areas of study. T cell, IL-2 receptor, Immune tolerance, Inflammation and FOXP3 are among the areas of Immunology where Cox Terhorst concentrates his study. His Cell biology research includes themes of Cell surface receptor, Innate immune system and CD8.
His work carried out in the field of Immune system brings together such families of science as Cytotoxic T cell, Antibody, B cell and Genetic enhancement. As part of one scientific family, Cox Terhorst deals mainly with the area of Antigen, narrowing it down to issues related to the Adoptive cell transfer, and often Cell therapy and Transgene. His Receptor study combines topics from a wide range of disciplines, such as Cell, Transfection, Molecular biology, Monoclonal antibody and Effector.
His primary areas of investigation include Immunology, Immune system, Cell biology, Antigen and CD8. The Immune system study combines topics in areas such as Haematopoiesis and B cell. Cox Terhorst has included themes like Receptor, Chemotaxis, Gene silencing and Chronic lymphocytic leukemia in his Cell biology study.
His Antigen study integrates concerns from other disciplines, such as Epidermal thickening, Interleukin 22 and Sensitization. The study incorporates disciplines such as Lamina propria and Cytotoxic T cell in addition to CD8. While the research belongs to areas of T cell, Cox Terhorst spends his time largely on the problem of Cellular differentiation, intersecting his research to questions surrounding Innate lymphoid cell.
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SLAM Family Receptors Distinguish Hematopoietic Stem and Progenitor Cells and Reveal Endothelial Niches for Stem Cells
Mark J. Kiel;Ömer H. Yilmaz;Toshihide Iwashita;Osman H. Yilmaz.
The X-linked lymphoproliferative-disease gene product SAP regulates signals induced through the co-receptor SLAM
J. Sayos;C. Wu;M. Morra;N. Wang.
The T Cell Receptor/CD3 Complex: A Dynamic Protein Ensemble
Hans Clevers;Balbino Alarcon;Thomas Wileman;Cox Terhorst.
Annual Review of Immunology (1988)
The Role of the T3/Antigen Receptor Complex in T-Cell Activation
Arthur Weiss;John Imboden;Kenneth Hardy;Bernhard Manger.
Annual Review of Immunology (1986)
Recognition of cluster of differentiation 1 antigens by human CD4 − CD8 >− cytolytic T lymphocyte
Steven Porcelli;Steven Porcelli;Michael B. Brenner;Michael B. Brenner;Julia L. Greenstein;Cox Terhorst.
Characterization of a human B cell-specific antigen (B2) distinct from B1.
L M Nadler;P Stashenko;R Hardy;A van Agthoven.
Journal of Immunology (1981)
T Cell–mediated Pathology in Two Models of Experimental Colitis Depends Predominantly on the Interleukin 12/Signal Transducer and Activator of Transcription (Stat)-4 Pathway, but Is Not Conditional on Interferon γ Expression by T Cells
Stephen J. Simpson;Samir Shah;Martina Comiskey;Ype P. de Jong.
Journal of Experimental Medicine (1998)
Homotypic Interactions Mediated by Slamf1 and Slamf6 Receptors Control NKT Cell Lineage Development
Klaus Griewank;Christine Borowski;Svend Rietdijk;Ninghai Wang.
Biochemical studies of the human thymocyte cell-surface antigens T6, T9 and T10.
Cox Terhorst;Andre van Agthoven;Kenneth Leclair;Peter Snow.
Reconstitution of an active surface T3/T-cell antigen receptor by DNA transfer
Pamela S. Ohashi;Tak W. Mak;Peter Van den Elsen;Yusuke Yanagi.
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