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Lecture
Synthetic Biology: Engineering Living Systems
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Related lectures (31)
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Computational Protein Design: Principles and Challenges
Covers the principles and challenges of computational protein design in bioengineering.
Protein Circuit Design: Multi Cellular Control
Explores protein circuit design for cell engineering and multicellular systems using synthetic cell-cell signaling.
Protein Production: Engineering Bacteria for Protein Synthesis
Covers the engineering of bacteria for efficient protein production and purification techniques using affinity tags.
Deep Generative Models in Drug Discovery
Explores the application of deep generative models in drug discovery, focusing on designing small molecules and optimizing molecular structures.
Proteins: Engineering and Materials
Explores protein engineering, elastin-based materials, lab protein production, AI prediction of folding, and non-natural amino acids.
Computational Protein Design
Series explores computational protein design, covering challenges, applications, and importance in bioengineering and synthetic biology.
Protein Engineering: Techniques and Applications
Explores protein engineering techniques, including synthesis, mutations, and applications in biotechnology and vaccine development.
Synthetic biology: molecular components and cellular engineering
Delves into synthetic biology, assembling molecular components for biological functions in living cells, including gene expression control and engineered receptor signaling.
Protein Circuit Design
Explores the design of protein circuits for manipulating cellular functions and highlights the importance of engineered cells in synthetic biology.
Generative Models: Advancements in Molecular Design
Explores the use of generative models for discovering novel molecules in molecular design.
