Related lectures (23)
Statistical Theory of Polymers
Explores the statistical theory of polymers, covering indicators of polymer structure and models like freely-jointed and freely-rotating chains.
Protein Folding: Structure and Interactions
Explores protein folding, amino acids, RNA translation, and attractive forces, emphasizing the importance of native state conformation and compact structures.
Cytoskeleton: Actin Filaments and Microtubules
Explores actin filaments, microtubules, monomers, proteins, dimer formation, and protein aggregation in the cytoskeleton.
Polymer Conformation: Beyond the Freely Jointed Chain
Explores polymer conformation beyond the Freely Jointed Chain model, emphasizing the importance of correlations and rigidity.
Fractal Dimensions: Polymer Behavior
Explores fractal dimensions in polymer behavior, focusing on excluded volume and intersections within polymers.
Protein Folding: Principles and Interactions
Delves into protein folding principles, emphasizing sequence's role in determining structure and exploring thermodynamics and intermolecular interactions.
Glass Transition: Polymer Properties
Explores glass and melting transitions in polymers, including characterization methods and specific polymer properties.
Polymer Theory: End-to-End Distance
Explores the calculation of end-to-end distance in polymer theory, focusing on isotropy, probability distributions, and the Kratky-Porod model.
Protein Structure: General Principles
Explores protein structures, folding principles, and sequence determinants, emphasizing the diverse three-dimensional structures proteins can adopt.
Computational Protein Design
Series explores computational protein design, covering challenges, applications, and importance in bioengineering and synthetic biology.

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