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Covers the basics of polymer biophysics, including DNA conformation modeling and the Boltzmann principle, emphasizing the exponential decay of correlations between segments.
Explores proteinopathy mapping, connecting proteotoxicity to intrinsic functions of aggregation-prone proteins, with a focus on alpha-synuclein and Parkinson's Disease.
Explores the mathematical analysis of genetic circuits and the implementation of synthetic plasmids in E. coli, focusing on the concept of limit cycle oscillators.
Explores RNA switches' design and applications in synthetic biology, focusing on nature-inspired regulatory RNA principles for creating new biomolecular components and networks.
Delves into chromatin regulation's role in memory formation, genetic and epigenetic influences on learning, and the potential of HDAC inhibitors as cognitive enhancers.
Emphasizes standardization in synthetic biology, genetic circuits, logic building blocks, signal matching, data integration, and metabolic engineering.
