We apply cutting-edge biotechnology for innovative optimization of protein design and cell function. The platform combines multidisciplinary techniques in structural biology, protein engineering, cell engineering and bioinformatics to focus on developing a new generation of highly efficient and stable biocatalysts and cell factories. By fine-tuning protein expression, folding and their activity, as well as optimizing cell lines using synthetic biology tools, we have significantly improved the efficiency of biofabration and the performance of products.
Key core technologies include:
1. Directed evolution technology: Through iterative screening and mutation, proteins with desired properties are generated to achieve a substantial improvement in their activity and stability.
2. Protein surface engineering: Modify the surface properties of proteins to enhance their interactions with other molecules and improve catalytic efficiency.
3. Cellular pathway optimization: The use of synthetic biology strategies to adjust and optimize intracellular metabolic pathways to support efficient product synthesis.
4. Bioreactor design and optimization: Develop and optimize bioreactor configurations to improve cell production capacity and processing capacity.
5. Computational Biology and bioinformatics: Using advanced algorithms and big data analysis to predict protein structure and function, guiding experimental design and process optimization.
Using these advanced technologies, our research platform not only improves the yield and quality of our products, but also ensures the controllability and sustainability of our processes, making us a technological leader in the field of protein and cell engineering.
Genetic and metabolic engineering research platform