由设计的 DNA 纳米结构形成的人工脂质膜通道。
Synthetic lipid membrane channels formed by designed DNA nanostructures.
机构信息
Lehrstuhl für Bioelektronik, Physics Department and ZNN/WSI, Technische Universität München, 85748 Garching, Germany.
出版信息
Science. 2012 Nov 16;338(6109):932-6. doi: 10.1126/science.1225624.
Abstract
We created nanometer-scale transmembrane channels in lipid bilayers by means of self-assembled DNA-based nanostructures. Scaffolded DNA origami was used to create a stem that penetrated and spanned a lipid membrane, as well as a barrel-shaped cap that adhered to the membrane, in part via 26 cholesterol moieties. In single-channel electrophysiological measurements, we found similarities to the response of natural ion channels, such as conductances on the order of 1 nanosiemens and channel gating. More pronounced gating was seen for mutations in which a single DNA strand of the stem protruded into the channel. Single-molecule translocation experiments show that the synthetic channels can be used to discriminate single DNA molecules.
摘要
我们通过自组装的基于 DNA 的纳米结构在脂质双层中创建了纳米级跨膜通道。支架 DNA 折纸术被用来创建一个贯穿并跨越脂质膜的茎,以及一个桶形帽,部分通过 26 个胆固醇部分附着在膜上。在单通道电生理测量中,我们发现与天然离子通道的响应相似,例如电导约为 1 纳西门子和通道门控。在茎中突出的单链 DNA 发生突变时,观察到更明显的门控。单分子迁移实验表明,合成通道可用于区分单链 DNA 分子。
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