Living organisms have intricate dynamic networks that aren't immediately apparent. Grasping the underlying design logic of these networks is crucial for understanding and controlling cellular behavior. Over the past few decades, advancements in biotechnology, coupled with the application of physics and engineering in biology, have shifted the study of biological networks from static qualitative research to more precise and dynamically quantitative investigations.

Our long-standing interesting are (1) applying interdisciplinary approaches to uncover the design principles of cellular networks in aging process; (2)creating or rewiring cellular circuits based on physical laws formulated from observation to meet the challenge of lifespan extension, disease treatment and biotechnological application.