Schedule

Topic Lecturer Date

1. Introduction biomolecular NMR

 Wagner F 9-9

2. Classical approach to spin
    Classical understaing of NMR with 1H 1D experiments as examples

 Chou M 9-12

3. Quantum approach to spin
    Quantum mechanical understanding of NMR, spin states

 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
    Recent interesting research from the lab

 Chou F 9-30

8. Conventional NMR data collection

 Arthanari M 10-3

9. New-Age NMR data collection
    Recent interesting research from the lab

 Arthanari F 10-7

Columbus Day

   M 10-10

10. Nuclear Overhauser Enhancement - theory

 Wagner F 10-14

11. NOESY experiments
     Applications to protein structure determination

 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
     Interesting research from the lab

 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