AI-Enhanced Metabolic Engineering

Metabolic engineering has emerged as a key discipline in synthetic biology, enabling scientists to optimize microbial and cellular processes for the production of valuable chemicals, fuels, and pharmaceuticals. This 1-month program will explore the intersection of AI and metabolic engineering, focusing on how machine learning, predictive modeling, and optimization algorithms can revolutionize metabolic pathway design and bioprocess efficiency.
Participants will gain insights into AI-driven approaches for genome-scale metabolic modeling, pathway optimization, and data analysis. The program will also cover the integration of AI in process automation, helping researchers and professionals achieve faster and more accurate results in the field of metabolic engineering.

This program aims to provide a comprehensive understanding of metabolic engineering enhanced by artificial intelligence (AI). Participants will learn how AI tools can accelerate the design, optimization, and analysis of metabolic pathways for bioengineering applications, including sustainable production of chemicals, biofuels, and pharmaceuticals.

• Understand the principles of metabolic engineering and its applications.
• Explore AI tools and techniques applied to metabolic pathway optimization.
• Learn how to implement AI models in genome-scale metabolic analysis.
• Analyze real-world case studies on AI-enhanced biomanufacturing.
• Gain hands-on experience with AI-driven bioprocess design and optimization.

• Undergraduate degree in Biotechnology, Chemical Engineering, Bioinformatics, or related fields.
• Professionals in the biomanufacturing or biofuel industries.
• Individuals with a keen interest in synthetic biology and metabolic engineering.

• Expertise in AI-driven metabolic pathway analysis and optimization.
• Ability to design efficient AI models for bioprocessing and metabolic engineering.
• Practical knowledge of integrating AI with genome-scale metabolic models.
• Improved understanding of industrial applications in biomanufacturing and sustainability.
• Preparedness for AI and bioengineering roles in academia and industry