Theory
Categories
- Advanced Topics (9)
- Basic NMR and MRI Theory (20)
Links
FT NMR spectroscopy: Nobel Lecture
http://www.nobel.se/chemistry/laureates/1991/ernst-lecture.html
Insightful discussion of many aspects of FTNMR, multi-dimensional NMR and MRI by Nobel laureate R.R.Ernst.
Biomolecular structure determination by using solution NMR spectroscopy
http://spin.niddk.nih.gov/clore/
Bibliography of G.M.Clore: Reviews and original papers on protein structure determination by solution NMR spectroscopy. Some of the reviews are introductory and the others are intended for experts.
Biomolecular structure determination by using solid state NMR spectroscopy
http://web.mit.edu/fbml/cmr/griffin-group/pdf-publications/rienstra.pnas99.pdf
Solid state NMR methodology for structure determination of uniformly labeled peptides. Also, a new algorithm for structure determination that uses distance and angle constraints obtainable from NMR data. From the Griffin lab at MIT.
2D NMR
http://www-keeler.ch.cam.ac.uk/lectures/
Introduction to (high resolution) multidimensional solution NMR spectroscopy. Description of line-shapes, product operator formalism, phase-cycling, pulsed field gradients and relaxation. By James Keeler. Also contains the full text of "EMBO Course: Il Ciocco" lecture notes.
Principles of nuclear induction
http://www.nobel.se/physics/laureates/1952/bloch-lecture.pdf
Nobel lecture by Felix Bloch.
Theory of Nuclear Magnetic Relaxation in liquids
http://nmr.magnet.fsu.edu/resources/relaxation/relaxation_primer.pdf
Derivation of the master equation for relaxation in liquids (Redfield relaxation equation). Hamiltonians for dipolar, quadrupolar and CSA relaxation. Auto and cross correlations and relation to internal motion. PDF file by Nagarajan Murali.
Distance geometry by T.Havel
http://web.mit.edu/tfhavel/www/Public/dg-review.ps.gz
Description of the distance geometry method used in biomolecular structure determination.
Lecture Course: NMR Spectroscopy
http://e-collection.ethbib.ethz.ch/ecol-pool/lehr/lehr_57.pdf
A very good and very useful course in the basic and advanced theory of NMR Spectroscopy. Covers 1D and 2D.
Applications for measuring scalar and residual dipolar couplings in proteins
http://herkules.oulu.fi/isbn9514258223/
By Perttu Permi. The entire paper and dissertation is available in pdf format.