Tsai Jones, Sun Eileen, Gao Yuan, Hone James C, Kam Lance C
Department of Biomedical Engineering, Columbia University, New York, New York 10027, USA.
Nano Lett. 2008 Feb;8(2):425-30. doi: 10.1021/nl072304q. Epub 2008 Jan 19.
Molecules associated with the outer surface of living cells exhibit complex, non-Brownian patterns of diffusion. In this report, supported lipid bilayers were patterned with nanoscale barriers to capture key aspects of this anomalous diffusion in a controllable format. First, long-range diffusion coefficients of membrane-associated molecules were significantly reduced by the presence of the barriers, while short-range diffusion was unaffected. Second, this modulation was more pronounced for large molecular complexes than for individual lipids. Surprisingly, the quantitative effect of these barriers on long-range lipid diffusion could be accurately simulated using a simple, continuum-based model of diffusion on a nanostructured surface; we thus describe a metamaterial that captures the properties of the outer membrane of living cells.
与活细胞外表面相关的分子呈现出复杂的非布朗扩散模式。在本报告中,支撑脂质双层被纳米级屏障图案化,以可控的形式捕捉这种异常扩散的关键方面。首先,屏障的存在显著降低了与膜相关分子的长程扩散系数,而短程扩散不受影响。其次,这种调制对大分子复合物比对单个脂质更明显。令人惊讶的是,使用基于连续介质的纳米结构表面扩散简单模型可以准确模拟这些屏障对长程脂质扩散的定量影响;因此,我们描述了一种超材料,它捕捉了活细胞外膜的特性。