Explores the behavior of intrinsically disordered proteins, polymer phase separation, Flory-Huggins theory, and biomolecular condensates.
Explores protein folding, misfolding consequences, chaperones' role, and ATP importance.
Explores protein-mediated signal transmission, dynamic control, logic operations, and cell-based therapeutics.
Discusses the self-attraction of DNA and its mediated interactions.
Explores engineering intelligent cells through genetic and protein circuits for cell engineering, discussing sensing mechanisms and signal transmission.
Explores protein design challenges, validation through crystallography, evolution of design techniques, and the difference between genetic and protein circuits.
Explores protein engineering, elastin-based materials, lab protein production, AI prediction of folding, and non-natural amino acids.
Explores forces and structures of biomolecular condensates, including direct and indirect forces, compartmentalization, and phase separation of Intrinsically Disordered Proteins.
Explores protein-based processors for logic operations and their applications in cell-based therapies.
Delves into Protein Circuit Design in Cell Engineering, covering the challenges, advantages, and limitations of using proteins in synthetic biology.
