Explores genetic circuits in synthetic biology, focusing on the lac operon mechanism and the design of synthetic circuits using standardized biological parts.
Delves into synthetic biology, assembling molecular components for biological functions in living cells, including gene expression control and engineered receptor signaling.
Explores engineering intelligent cells through genetic and protein circuits for cell engineering, discussing sensing mechanisms and signal transmission.
Explores minimal microtubule systems in artificial cells, focusing on building functional complexity in vitro and the challenges of synthetic cell division.
Explores the mathematical analysis of genetic circuits and the implementation of synthetic plasmids in E. coli, focusing on the concept of limit cycle oscillators.
Emphasizes standardization in synthetic biology, genetic circuits, logic building blocks, signal matching, data integration, and metabolic engineering.
