Solid-state nuclear magnetic resonance spectroscopy for membrane protein structure determination

Abstract

Solid-state NMR (ssNMR) is a versatile technique that can provide high-resolution (sub-angstrom) structural data for integral membrane proteins embedded in native and model membrane environments. The methodologies for a priori structure determination have for the most part been developed using samples with crystalline and fibrous morphologies. However, the techniques are now being applied to large, polytopic membrane proteins including receptors, ion channels, and porins. ssNMR data may be used to annotate and refine existing structures in regions of the protein not fully resolved by crystallography (including ligand-binding sites and mobile solvent accessible loop regions). This review describes the spectroscopic experiments and data analysis methods (including assignment) used to generate high-resolution structural data for membrane proteins. We also consider the range of sample morphologies that are appropriate for study by this method.