Diana M Arvelo, Clara Garcia-Sacristan, E. Chacón, P. Tarazona, Ricardo García
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引用次数: 0
摘要
胶原蛋白是哺乳动物体内最丰富的结构蛋白。纤维状的 I 型胶原蛋白具有一种特征性的模式结构,交替出现称为间隙和重叠的两个区域。胶原蛋白的结构和特性高度依赖于环境中的水分和矿物质含量。在此,我们应用三维原子力显微镜以埃级分辨率表征胶原蛋白纳米带的界面水结构。对于中性针尖,界面水结构的特征是水颗粒密度分布的振荡值为 0.3 nm(水合层)。界面结构与胶原区域无关。对于带负电荷的针尖,界面结构可能取决于胶原区域。在重叠区域可以观察到水合层,而在间隙区域,界面溶剂结构主要由静电相互作用产生。这些相互作用产生了 0.2 nm 的层间距离。
Interfacial water on collagen nanoribbons by 3D AFM.
Collagen is the most abundant structural protein in mammals. Type I collagen in its fibril form has a characteristic pattern structure that alternates two regions called gap and overlap. The structure and properties of collagens are highly dependent on the water and mineral content of the environment. Here, we apply 3D AFM to characterize at angstrom-scale resolution the interfacial water structure of collagen nanoribbons. For a neutral tip, the interfacial water structure is characterized by the oscillation of the water particle density distribution with a value of 0.3 nm (hydration layers). The interfacial structure does not depend on the collagen region. For a negatively charged tip, the interfacial structure might depend on the collagen region. Hydration layers are observed in overlap regions, while in gap regions, the interfacial solvent structure is dominated by electrostatic interactions. These interactions generate interlayer distances of 0.2 nm.
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