Unraveling the chromatin networks that control T lymphocyte differentiation. The development of T cell responses is essential for fighting infection but in some cases T cells can also cause allergy and autoimmune diseases. Previous research has shown by understanding the complex chromatin circuitry that underlie T cell function, therapies can be designed to rewire harmful T cells. This project will use a multi-disciplinary approach that combines expertise in cutting-edge molecular techniques wit ....Unraveling the chromatin networks that control T lymphocyte differentiation. The development of T cell responses is essential for fighting infection but in some cases T cells can also cause allergy and autoimmune diseases. Previous research has shown by understanding the complex chromatin circuitry that underlie T cell function, therapies can be designed to rewire harmful T cells. This project will use a multi-disciplinary approach that combines expertise in cutting-edge molecular techniques with unique mouse models and bioinformatics to develop a fundamental understanding of the chromatin architecture and epigenetic networks that control important steps of T cell differentiation during development, allergy and infection.Read moreRead less