Explores protein design challenges, validation through crystallography, evolution of design techniques, and the difference between genetic and protein circuits.
Explores engineering intelligent cells through genetic and protein circuits for cell engineering, discussing sensing mechanisms and signal transmission.
Explores genetic circuits in synthetic biology, focusing on the lac operon mechanism and the design of synthetic circuits using standardized biological parts.
Covers challenges in protein design, energy functions, search algorithms, and applications in synthetic biology, emphasizing the importance of protein design and the methods used for designing proteins.
Emphasizes standardization in synthetic biology, genetic circuits, logic building blocks, signal matching, data integration, and metabolic engineering.
Explores the applications of CRISPR-Cas in genome editing, focusing on engineering bacterial genomes, curing genetic diseases, guide RNA simplicity, Cas9 specificity, DNA damage mechanisms, and base editing.
