Biotemplated nanopatterning of planar surfaces with molecular motors.

We report on the generation of nanometer-wide, non-topographical patterns of proteins on planar surfaces. In particular, we used the regular lattice of reconstituted microtubules as template structures to specifically bind and transfer kinesin-1 and nonclaret disjunctional motor proteins. The generated tracks, which comprise dense and structurally oriented arrays of functional motor proteins, proved to be highly efficient for the guiding of microtubule transporters.