Complete de-wetting of lipid membranes on silicon carbide

Ruslan Ryskulov, Esteban Pedrueza-Villalmanzo, Yagiz Alp Tatli, Irep Gözen, Aldo Jesorka
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Abstract

We report temperature-induced complete de-wetting of phospholipid membranes from thermally evaporated silicon carbide (SiC) substrates, which occurs in the form of fractal patterns. Excess membrane material released as a result of de-wetting, transforms into fluid-filled membrane pockets, or leads to vesicle formation. The membrane pockets are composed of a double lipid membrane. These double bilayer superstructures, i.e. isolated membrane-enclosed fluid volumes, bring the internal contents into direct contact with the surface. This membrane morphology can be viewed as an alternative prebiotic assembly mechanism with possible implications for protocell development, where physicochemical surface interactions with internal primitive cell contents are greatly facilitated.

Abstract Image

碳化硅上的脂质膜完全脱湿
我们报告了热蒸发碳化硅(SiC)基底磷脂膜在温度诱导下的完全脱湿现象,这种现象以分形图案的形式出现。脱湿过程中释放出的过量膜物质会转化为充满液体的膜袋,或导致囊泡的形成。膜袋由双层脂膜组成。这些双层上部结构,即孤立的膜封闭液体体积,使内部内容物与表面直接接触。这种膜形态可被视为另一种前生物组装机制,可能对原生细胞的发育产生影响,因为在这种机制下,表面与内部原始细胞内容物的物理化学相互作用变得非常容易。
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