Research Task
Synthetic genetic circuits design for dynamic metabolic engineering
Synthetic cell-cell communication for microbial community control
Development of Quantitative Metabolome Analysis Technology
Synthetic cell-cell communication for microbial community control
Development of Quantitative Metabolome Analysis Technology
Research Keywords
Synthetic biology, metabolic engineering, metabolomics
Application Fields
Biomanufacturing, Directional evolution, Metabolic function analysis
Skills
Synthetic genetic circuits, Synthetic metabolic pathways, Instrumental analysis
To enable the precise design and control of microbial metabolic activity and phenotypes, we are developing artificial gene circuits and synthetic metabolic pathways that allow dynamic, quantitative, and finely tuned regulation of target gene expression and metabolic functions.
In parallel, we are advancing various analytical techniques—including omics-based approaches—to quantitatively evaluate the performance of these engineered circuits and pathways, and to iteratively refine or redesign them for improved functionality.