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Kinesin-1 Expressed in Insect Cells Improves Microtubule in Vitro Gliding Performance, Long-Term Stability and Guiding Efficiency in Nanostructures
Reference
Till Korten, Samata Chaudhuri, Elena Tavkin, Marcus Braun, Stefan Diez, "Kinesin-1 Expressed in Insect Cells Improves Microtubule in Vitro Gliding Performance, Long-Term Stability and Guiding Efficiency in Nanostructures", In IEEE transactions on nanobioscience, IEEE, vol. 15, no. 1, pp. 62–69, 2016.
Bibtex
@article{korten2016kinesin,
title={Kinesin-1 Expressed in Insect Cells Improves Microtubule in Vitro Gliding Performance, Long-Term Stability and Guiding Efficiency in Nanostructures},
author={Korten, Till and Chaudhuri, Samata and Tavkin, Elena and Braun, Marcus and Diez, Stefan},
journal={IEEE transactions on nanobioscience},
volume={15},
number={1},
pages={62--69},
year={2016},
publisher={IEEE}
}
title={Kinesin-1 Expressed in Insect Cells Improves Microtubule in Vitro Gliding Performance, Long-Term Stability and Guiding Efficiency in Nanostructures},
author={Korten, Till and Chaudhuri, Samata and Tavkin, Elena and Braun, Marcus and Diez, Stefan},
journal={IEEE transactions on nanobioscience},
volume={15},
number={1},
pages={62--69},
year={2016},
publisher={IEEE}
}
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