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Controlling protein translocation through nanopores with bio-inspired fluid walls.

Nature nanotechnology (2011-02-22)
Erik C Yusko, Jay M Johnson, Sheereen Majd, Panchika Prangkio, Ryan C Rollings, Jiali Li, Jerry Yang, Michael Mayer
RÉSUMÉ

Synthetic nanopores have been used to study individual biomolecules in high throughput, but their performance as sensors does not match that of biological ion channels. Challenges include control of nanopore diameters and surface chemistry, modification of the translocation times of single-molecule analytes through nanopores, and prevention of non-specific interactions with pore walls. Here, inspired by the olfactory sensilla of insect antennae, we show that coating nanopores with a fluid lipid bilayer tailors their surface chemistry and allows fine-tuning and dynamic variation of pore diameters in subnanometre increments. Incorporation of mobile ligands in the lipid bilayer conferred specificity and slowed the translocation of targeted proteins sufficiently to time-resolve translocation events of individual proteins. Lipid coatings also prevented pores from clogging, eliminated non-specific binding and enabled the translocation of amyloid-beta (Aβ) oligomers and fibrils. Through combined analysis of their translocation time, volume, charge, shape and ligand affinity, different proteins were identified.

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Monoclonal Anti-Biotin antibody produced in mouse, clone BN-34, ascites fluid