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Explores embryonic tissue mechanics, challenges in modeling biological tissues, and solid-fluid transitions in equilibrium, focusing on the dynamics of nuclei and subcellular elements.
Covers the basics of polymer biophysics, including DNA conformation modeling and the Boltzmann principle, emphasizing the exponential decay of correlations between segments.
Explores metabolic signaling through glycolysis, the Warburg effect, and glycolytic switches in cancer, emphasizing ATP as the universal energy carrier.
Covers modeling and analyzing complex biological networks, focusing on metabolism and signaling, using techniques like flux balance analysis and kinetic modeling.
