Novel NMR tools to study structure and dynamics of biomembranes

Nuclear magnetic resonance (NMR) Studies on biomembranes have benefited greatly from introduction of magic angle spinning (MAS) NMR techniques, Improvements in MAS probe technology. combined with the higher magnetic field strength of modern instruments. enables almost liquid-like resolution of lipid resonances. The cross-relaxation rates measured by nuclear Overhauser enhancement spectroscopy (NOESY) provide new insights into conformation and dynamics of lipids with atomic-scale resolution, The data reflect the tremendous motional disorder in the lipid matrix. Transfer of magnetization by spin diffusion along the proton network of lipids is of secondary relevance, even at a long NOESY mixing time of 300 ins. MAS experiments with re-coupling of anisotropic interactions, like the C-13-H-1 dipolar Couplings. benefit from the excellent resolution of C-13 shifts that enables assignment of the couplings to specific carbon atoms. The traditional H-2 NMR experiments on deuterated lipids have higher sensitivity when conducted on oriented samples at higher magnetic field strength. A very large number of NMR parameters from lipid bilayers is now accessible, providing information about Conformation and dynamics for every lipid segment. The NMR methods have the sensitivity and resolution to study lipid-protein interaction. lateral lipid organization. and the location of solvents and drugs in the lipid matrix. (C) 2002 Elsevier Science Ireland Ltd. All rights reserved.