Abstract
Transverse nuclear spin relaxation measurements employing Carr−Purcell (CP) pulse sequences have been used to determine the viscoelastic properties of quasi-spherical membrane vesicles with controlled radii R0. The observed relaxation rates, (ω), exhibit a linear dependence on the inverse pulse frequency over a wide frequency range in the kHz regime and then level off to a constant “plateau” value independent of ω. Within the linear dispersion regime, the same relaxation rates are detected for unilamellar and oligolamellar vesicles, indicating that the interbilayer coupling is weak and has no effect on the measured relaxation curves. Analysis of the experimental dispersion profiles is performed using a slow-motional model in which two different relaxation processes are considered (i.e., vesicle shape fluctuations and molecular translational diffusion). It is shown that for vesicle radii R0 ≥ 200 nm lateral diffusion across the vesicle shell is too slow to contribute significantly to transverse spin relaxa...
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