Molecular response of the lipid headgroup to bilayer hydration monitored by 2H-NMR.

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Molecular response of the lipid headgroup to bilayer hydration monitored by 2H-NMR.

A S Ulrich and A Watts

Department of Biochemistry, University of Oxford, England.

ABSTRACT

The effect of hydration on the conformation and dynamics ofthe phosphatidylcholine headgroup has been investigated by 2H-NMRmeasurements of liquid crystalline dioleoylphosphatidylcholinein multilamellar liposomes. Deuterium quadrupole splittings(delta nu Q) and spin-lattice relaxation rates (1/T1) were recordedfor three selectively labeled headgroup segments (alpha, beta,and gamma) over the range of water/lipid mole ratios from 4to 100. The smooth changes in delta nu Q and 1/T1 are foundto essentially parallel each other and can be described by asingle exponential decay function. Progressive hydration thusinduces a concerted change in headgroup conformation togetherwith an increase in its rate of motion (detected by delta nuQ and 1/T1, respectively). The enhanced mobility is partiallydue to a shift in the lipid phase transition temperature (asmonitored by differential scanning calorimetry) and is furthermoreattributed to an entropic contribution. It is concluded thatthe choline dipole becomes slightly raised in its average orientationinto the aqueous layer and that the rate is increased at whichthe headgroup is fluctuating and protruding. The observed molecularchanges can thus be accommodated within a model where the effectiveaccessible headgroup volume expands with increasing hydration.

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