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Lecture
Protein Function Regulation: Degradation Mechanisms
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Related lectures (31)
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Explains protein synthesis, translation, and the central dogma of molecular biology.
Protein Composition and Structure
Explores protein composition, peptide bonds, secondary structures, and protein folding prediction.
Engineering Proteins: Structure, Function, and Applications
Covers the structure, function, and engineering of proteins, emphasizing their biological significance and applications in biotechnology.
Protein Co-evolution Analysis
Delves into protein co-evolution analysis, covering discoveries, residue contacts, and direct coupling analysis.
Proteins: Structure and Function
Explores the structure and function of proteins, emphasizing their diverse roles in living organisms.
Computational Protein Design: Principles and Challenges
Covers the principles and challenges of computational protein design in bioengineering.
Protein Maturation: Post-Translational Modifications
Covers the maturation of proteins and the role of post-translational modifications in their functionality and regulation.
Protein Folding: Structure and Design
Explores protein folding, hydrophobic interactions, compact conformations, the HP model, co-evolution, and computational methods.
Protein Polymers: Biophysics Insights
Delves into protein polymers, discussing co-evolution, diffusion, protein structures, and experimental methods.
Protein Design: Structure and Function
Covers protein design fundamentals, including secondary structures, amino acid propensity, loops, and computational methods.
Protein Co-evolutionary Analysis
Explores protein co-evolutionary analysis, covering protein functions, folding, correlations, DCA, and structure prediction tools like AlphaFold 2.
Protein Folding: Mechanisms and Consequences
Explores protein folding, misfolding consequences, chaperones' role, and ATP importance.
Complex Organic Molecules: Proteins
Explores the structure and function of proteins, essential for life.
Proteomics: Post-Translational Modifications and Interactions
Explores proteomics for post-translational modifications and protein interactions.
Computational Protein Design
Series explores computational protein design, covering challenges, applications, and importance in bioengineering and synthetic biology.
Protein Structure: General Principles
Explores protein structures, folding principles, and sequence determinants, emphasizing the diverse three-dimensional structures proteins can adopt.
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.
Protein Production: Engineering Bacteria for Protein Synthesis
Covers the engineering of bacteria for efficient protein production and purification techniques using affinity tags.
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