Advanced Spectroscopic Methods to Study Biomolecular Structure and Dynamics

1. Fundamentals of spectroscopy for biomolecular structure and dynamics<br>2. Fluorescence-based techniques to assess biomolecular structure and dynamics<br>3. Structural analysis of biomacromolecules using circular dichroism spectroscopy<br>4. Nuclear magnetic resonance spectroscopy for protein structure, folding, and dynamics<br>5. Advanced NMR spectroscopy methods to study protein structure and dynamics<br>6. Applications of infrared spectroscopy to study proteins<br>7. Raman spectroscopy to study biomolecules, their structures, and dynamics<br>8. Spectroscopic investigation of biomolecular dynamics using light scattering methods<br>9. Protein footprinting by mass spectrometry: H/D exchange, specific amino acid labeling, and fast photochemical oxidation of proteins<br>10. Small angle scattering techniques for biomolecular structure and dynamics<br>11. Advances in X-ray crystallography methods to study structural dynamics of macromolecules<br>12. Spectroscopic methods to study protein folding kinetics: methodology, data analysis, and interpretation<br>13. Spectroscopic methods to study the thermodynamics of biomolecular interactions<br>14. Spectroscopic methods to detect and analyze protein oligomerization, aggregation, and fibrillation<br>15. Multimodal spectroscopic methods for the analysis of carbohydrates<br>16. Integration of spectroscopic and computational data to analyze protein structure, function, folding, and dynamics<br>17. Advance data handling tools for easy, fast, and accurate interpretation of spectroscopic data