Topic | Lecturer | Date |
---|---|---|
1. Introduction biomolecular NMR |
Wagner | F 9-9 |
2. Classical approach to spin |
Chou | M 9-12 |
3. Quantum approach to spin |
Wagner | F 9-16 |
4. Operator products - Theory and Workshop |
Wagner | M 9-19 |
5. HSQC and TROSY |
Chou | F 9-23 |
6. Triple resonance: Recent interesting research from the lab |
Chou | M 9-26 |
7. Application of 3D triple resonance experiments in biology |
Chou | F 9-30 |
8. Conventional NMR data collection |
Arthanari | M 10-3 |
9. New-Age NMR data collection |
Arthanari | F 10-7 |
Columbus Day |
M 10-10 | |
10. Nuclear Overhauser Enhancement - theory |
Wagner | F 10-14 |
11. NOESY experiments |
Chou | M 10-17 |
BCMP retreat |
F 10-21 | |
12. NMR spectrometer and settting up experiments |
Heffron | M 10-24 |
13. NMR in drug discovery I |
Arthanari | F 10-28 |
14. NMR in drug discovery II |
Arthanari | M 10-31 |
15. Relaxation: concepts |
Wanger | F 11-4 |
16. Relaxation: protein dynamics |
Wagner or Arthanari | M 11-7 |
Veteran's Day |
F 11-11 | |
17. Protein structure determination by NMR I |
Sun | M 11-14 |
18. Protein structure determination by NMR II |
Sun | F 11-18 |
19. Residual Dipolar Couplings I |
Chou | M 11-21 |
Thanksgiving |
F 11-25 | |
20. Residual Dipolar Couplings II |
Chou | M 11-28 |
no class |
F 12-2 | |
no class |
M 12-5 | |
21. NMR in metabolomics |
Heffron | F 12-9 |