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High Rectifying Efficiencies of Microtubule Motility on Kinesin-Coated Gold Nanostructures

2005; American Chemical Society; Volume: 5; Issue: 6 Linguagem: Inglês

10.1021/nl0506554

1530-6992

M. G. L. van den Heuvel, Christopher T. Butcher, Ralph M. M. Smeets, Stefan Diez, Cees Dekker,

Magnetic properties of thin films

We demonstrate highly efficient rectification of microtubule motility on gold nanofabricated structures. First, we present a novel nanofabrication process for the creation of gold tracks for microtubule motility recessed in silicon oxide. This approach is particularly useful because it enables the use of the well-understood PEG−silane chemistry on SiO2 for the blocking of kinesin, whereas the gold tracks allow possible electrical control. We demonstrate excellent confinement of microtubule motility to the gold nanostructures and that microtubules move on the gold with speeds comparable to that on glass. Second, we present designs of three advanced rectifier geometries. We analyze the microtubule pathways through the geometries, and we demonstrate highly efficient rectification with up to 92% efficiency. As a result, we find that up to 97% of the microtubules move unidirectionally.