Abstract
The general possibility to align biological macromolecules in the magnetic field by the presence of orienting agents such as lipid bicelles has led to a wealth of new structural parameters which can be derived from residual tensorial interactions in high resolution NMR. Here, we report that alignment of water soluble biomacromolecules can be achieved in the presence of the naturally occurring two-dimensional crystals (purple membrane) of the membrane protein bacteriorhodopsin. The extent of the alignment is tunable by the concentration of purple membranes and by the addition of salt which reduces the strength of the electric interaction between solute macromolecule and the membrane. At very high salt concentrations the purple membrane suspension undergoes a phase transition to a very viscous state. In this state, rotation of the membranes is hindered such that the orientation of the membrane patches persists even in the absence of a magnetic field. The induced alignment of solute molecules is shown for th...
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