Microtubule shuttles on kinesin-coated glass micro-wire tracks

Andrew L. Liao; Aurelien Sikora; Daniel Oliveira; Hikaru Nakazawa; Izumi Kumagai; Kyongwan Kim; Mitsuo Umetsu; Tadafumi Adschiri; Winfried Teizer; Wonmuk Hwangb

arxiv: 1402.4917 · v1 · pith:J76H4BDBnew · submitted 2014-02-20 · 🧬 q-bio.BM · physics.bio-ph

Microtubule shuttles on kinesin-coated glass micro-wire tracks

Kyongwan Kim , Andrew L. Liao , Aurelien Sikora , Daniel Oliveira , Hikaru Nakazawa , Mitsuo Umetsu , Izumi Kumagai , Tadafumi Adschiri

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Wonmuk Hwangb Winfried Teizer

This is my paper

classification 🧬 q-bio.BM physics.bio-ph

keywords tracksglassdevicesglidingkinesin-coatedmicrotubulesurfaceswires

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Gliding of microtubule filaments on surfaces coated with the motor protein kinesin has potential applications for nano-scale devices. The ability to guide the gliding direction in three dimensions allows the fabrication of tracks of arbitrary geometry in space. Here, we achieve this by using kinesin-coated glass wires of micrometer diameter range. Unlike previous methods in which the guiding tracks are fixed on flat two-dimensional surfaces, the flexibility of glass wires in shape and size facilitates building in-vitro devices that have deformable tracks.

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Microtubule shuttles on kinesin-coated glass micro-wire tracks

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