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Biophys J, July 1998, p. 272-293, Vol. 75, No. 1

The Influence of Polymer Molecular Weight in Lamellar Gels Based on PEG-Lipids

Heidi E. Warriner,* S. L. Keller,# Stefan H. J. Idziak,* Nelle L. Slack,* Patrick Davidson,* Joseph A. Zasadzinski,# and Cyrus R. Safinya*

 *Materials Research Laboratory, Materials Department and Physics Department, Biochemistry and Molecular Biology Program, University of California, Santa Barbara, California 93106, and  #Chemical and Materials Engineering Department, University of California, Santa Barbara, California 93106 USA

We report x-ray scattering, rheological, and freeze-fracture and polarizing microscopy studies of a liquid crystalline hydrogel called Lalpha ,g. The hydrogel, found in DMPC, pentanol, water, and PEG-DMPE mixtures, differs from traditional hydrogels, which require high MW polymer, are disordered, and gel only at polymer concentrations exceeding an "overlap" concentration. In contrast, the Lalpha ,g uses very low-molecular-weight polymer-lipids (1212, 2689, and 5817 g/mole), shows lamellar order, and requires a lower PEG-DMPE concentration to gel as water concentration increases. Significantly, the Lalpha ,g contains fluid membranes, unlike Lbeta ' gels, which gel via chain ordering. A recent model of gelation in Lalpha phases predicts that polymer-lipids both promote and stabilize defects; these defects, resisting shear in all directions, then produce elasticity. We compare our observations to this model, with particular attention to the dependence of gelation on the PEG MW used. We also use x-ray lineshape analysis of scattering from samples spanning the fluid-gel transition to obtain the elasticity coefficients kappa  and B; this analysis demonstrates that although B in particular depends strongly on PEG-DMPE concentration, gelation is uncorrelated to changes in membrane elasticity.

Biophys J, July 1998, p. 272-293, Vol. 75, No. 1
© 1998 by the Biophysical Society   0006-3495/98/07/272/22  $2.00


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Copyright © 1998 by the Biophysical Society.