Engineering electrochemical protein biosensors. This project plans to develop novel, sensitive, inexpensive and flexible electric biosensors to monitor potentially any molecule. It plans to use synthetic biology principles to develop a new class of artificial protein receptors that generate electric current upon encountering a molecular target. Using expertise in in vitro protein synthesis, the project plans to integrate biosensor design and electrode prototyping to achieve rapid development of ....Engineering electrochemical protein biosensors. This project plans to develop novel, sensitive, inexpensive and flexible electric biosensors to monitor potentially any molecule. It plans to use synthetic biology principles to develop a new class of artificial protein receptors that generate electric current upon encountering a molecular target. Using expertise in in vitro protein synthesis, the project plans to integrate biosensor design and electrode prototyping to achieve rapid development of low-cost broadly applicable sensory electrodes. To increase the sensitivity of the resulting sensing systems, the electrochemical receptors will be integrated with signal amplification cascades based on artificial autoinhibited proteases. The project aims to address the need for new technologies that enable collection of biological information outside of the laboratory environment.Read moreRead less