2D 1H-NMR Conformational Study of Phosphatidylserine Diluted in Perdeuterated Dodecylphosphocholine Micelles. Evidence for a pH-Induced Conformational Transition

Abstract

The conformation of phosphatidylserine (DMPS) diluted in perdeuterated dodecylphosphocholine micelles (DPC) has been investigated by 1D and 2D proton NMR spectroscopy. Chemical shift pH dependence showed that the pK relative to the serine carboxyl titration (3.4 +/- 0.05) was nearly identical to that measured in bilayers. Chemical shift and NOE data revealed that the phosphatidylserine molecule undergoes a conformational transition upon titration of the serine carboxyl group. The NOE network observed between the different parts of the molecule was sufficiently abundant to allow, in combination with molecular modeling methods, an assessment of the conformational changes. The conformational changes mainly involve the glycerol backbone, which is parallel to the whole molecule, that is, to the layer normal, at low pH and becomes perpendicular to the whole molecule at neutral pH. In both cases, the conformations are remarkably close to those observed for the crystal forms of zwitterionic and negatively charged phospholipids. Two-dimensional proton NMR study of phospholipids, diluted in perdeuterated DPC micelles, appears to be a simple and relevant method to obtain complete and direct information on their conformations in a model membrane-solution interface.