- Synthetische Biologie
- Signalhaus Freiburg
- Gender + Career
Freiburg iGEM team 2008
1. Short Summary Project:
Modular Synthetic Receptor System:
Signaling through membranes is a characteristic of life. Transmembrane proteins control proliferation, differentiation, and cellular response and are key for the formation of multicellular organisms. Controlling such proteins enables modifying cellular behavior and ultimately programming cells at will. The complex rules for transmembrane signaling often require engagement of several proteins in a fine-tuned spatial and temporal manner.
To tap possibilities of transmembrane programming, the Freiburg 2008 iGEM team provides an extensible system comprising an external framework with spatial resolution, a concept for modifying natural receptors, and a modular set of fusion-Biobricks for the construction of synthetic receptors. Spatial resolution in the nanometer scale is provided by DNA-Origami modified with distinct patterns and combinations of ligands. Receptors are decoupled from their natural ligands by fusion with artificial binding domains. The Biobrick collection contains signal sequences, binding domains, transmembrane domains, and effector domains featuring split enzymes and split fluorescent proteins for immediate readout.
Advisors: Dr. Katja Arndt,Dr. Kristian Müller, PD Wolfgang Schamel, Dr. Christian Fleck, Janina Speck, Mahima Swamy
Students: Kathrin Pieper, Sabine Jägle, Simone Weber, Normann Kilb, Michael Kneib, Robert Gawlik, Moritz Busacker, Philipp Mappes, Daniel Hautzinger
Freiburg bioware team: finalist, vice champion, gold medal