Modular Scalable Synthetic Gene Circuits for Complex Functions Within Minimal Computational Layers in Human Cells (opens in new tab)

Engineering mammalian cells to execute complex genetic programs remains a significant challenge in synthetic biology. Synthetic gene circuits typically implement sophisticated programs through cascaded computational layers. However, these architectures require numerous orthogonal parts, increase genetic payload, and deplete cellular resources, thereby limiting functionality and scalability. ‏ ‏We present a modular design framework for engineering scalable gene circuits that execute complex fu...