Motor Proteins at Work for Nanotechnology
Top Cited Papers
- 20 July 2007
- journal article
- review article
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 317 (5836), 333-336
- https://doi.org/10.1126/science.1139570
Abstract
The biological cell is equipped with a variety of molecular machines that perform complex mechanical tasks such as cell division or intracellular transport. One can envision employing these biological motors in artificial environments. We review the progress that has been made in using motor proteins for powering or manipulating nanoscale components. In particular, kinesin and myosin biomotors that move along linear biofilaments have been widely explored as active components. Currently realized applications are merely proof-of-principle demonstrations. Yet, the sheer availability of an entire ready-to-use toolbox of nanosized biological motors is a great opportunity that calls for exploration.Keywords
This publication has 48 references indexed in Scilit:
- Directing Transport of CoFe2O4‐Functionalized Microtubules with Magnetic FieldsSmall, 2006
- Molecular motors-based micro- and nano-biocomputation devicesMicroelectronic Engineering, 2006
- A microrotary motor powered by bacteriaProceedings of the National Academy of Sciences, 2006
- Parallel Manipulation of Bifunctional DNA Molecules on Structured Surfaces Using Kinesin‐Driven MicrotubulesSmall, 2006
- Self-assembly driven by molecular motorsSoft Matter, 2006
- Mechanisms of Microtubule Guiding on Microfabricated Kinesin-Coated Surfaces: Chemical and Topographic Surface PatternsLangmuir, 2003
- Stretching and Transporting DNA Molecules Using Motor ProteinsNano Letters, 2003
- Control of a biomolecular motor-powered nanodevice with an engineered chemical switchNature Materials, 2002
- Surface Imaging by Self-Propelled Nanoscale ProbesNano Letters, 2001
- Structures of Bacterial Flagellar Motors from Two FliF-FliG Gene Fusion MutantsJournal of Bacteriology, 2001