A successful immune response against pathogens requires the activation of different cell types of the immune system. These activation processes are difficult to study by classical biochemical and genetic methods alone. In this review we describe how approaches of synthetic biology, such as rebuilding of minimal functional signaling systems and the design of new molecules acting as signaling switches, can be used to get a deeper insight into the signaling mechanism of immune cells. In particular, the interaction of receptors with signal-transducing elements can be studied in detail with these new methods. In addition, sophisticated synthetic immune receptors are being tested in the clinic for gene therapy against certain cancer types
The expression of synthetic receptors in primary T cells enables the programming of user-defined res...
Cytotoxic T cells can specifically kill target cells that express antigens recognized by the T-cell ...
Artificial T cell receptors provide a promising genetic approach to re-direct T lymphocyte specifici...
A successful immune response against pathogens requires the activation of different cell types of th...
The ability of immune cells to survey tissues and sense pathologic insults and deviations makes them...
Synthetic biology has made great progress in engineering various components of cell signaling. These...
T cell receptors are among the most specific biological structures found in nature and are therefore...
Synthetic biology applies an engineering mindset to the classical field of biology in order to facil...
During the past decades, the rapidly-evolving cancer is hard to be thoroughly eliminated even though...
Synthetic biology has established powerful tools to precisely control cell function. Engineering the...
Cell-based therapeutics have become a powerful method to combat cancer. Unlike small-molecule drugs ...
Redirecting T cells to attack cancer using engineered chimeric receptors provides powerful new ...
The immune system is comprised of tissue, cells, and chemicals that have been evolutionarily develop...
AbstractIn the emerging field of synthetic biology, scientists are focusing on designing and creatin...
Protein switches are ubiquitous in biological signal transduction systems, enabling cells to sense a...
The expression of synthetic receptors in primary T cells enables the programming of user-defined res...
Cytotoxic T cells can specifically kill target cells that express antigens recognized by the T-cell ...
Artificial T cell receptors provide a promising genetic approach to re-direct T lymphocyte specifici...
A successful immune response against pathogens requires the activation of different cell types of th...
The ability of immune cells to survey tissues and sense pathologic insults and deviations makes them...
Synthetic biology has made great progress in engineering various components of cell signaling. These...
T cell receptors are among the most specific biological structures found in nature and are therefore...
Synthetic biology applies an engineering mindset to the classical field of biology in order to facil...
During the past decades, the rapidly-evolving cancer is hard to be thoroughly eliminated even though...
Synthetic biology has established powerful tools to precisely control cell function. Engineering the...
Cell-based therapeutics have become a powerful method to combat cancer. Unlike small-molecule drugs ...
Redirecting T cells to attack cancer using engineered chimeric receptors provides powerful new ...
The immune system is comprised of tissue, cells, and chemicals that have been evolutionarily develop...
AbstractIn the emerging field of synthetic biology, scientists are focusing on designing and creatin...
Protein switches are ubiquitous in biological signal transduction systems, enabling cells to sense a...
The expression of synthetic receptors in primary T cells enables the programming of user-defined res...
Cytotoxic T cells can specifically kill target cells that express antigens recognized by the T-cell ...
Artificial T cell receptors provide a promising genetic approach to re-direct T lymphocyte specifici...