Biomod/2011/Columbia/MotorProTeam:Background Information: Difference between revisions
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Henry Hess (talk | contribs) (New page: Our research focuses on applications of nanoscale motors that can initiate transport of cargo on the nano and micro scale. We aim to reach a level of force-multiplication of microtubules, ...) |
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Our research focuses on applications of nanoscale motors that can initiate transport of cargo on the nano and micro scale. We aim to reach a level of force-multiplication of microtubules, that is, using multiple microtubules in order to create more effective, efficient, and reliable transport systems than the current method. | Our research focuses on applications of nanoscale motors that can initiate transport of cargo on the nano and micro scale. We aim to reach a level of force-multiplication of microtubules, that is, using multiple microtubules in order to create more effective, efficient, and reliable transport systems than the current method. | ||
Microtubules are polymers of α and β tubulin dimers. The actin assembles into protofilaments which then create a hollow cylindrical filaments. In our project, cargo will attach to the microtubule using biotin-streptavidin bonds. | |||
Kinesin is a type of motor protein that can move along microtubules. |
Revision as of 11:38, 20 June 2011
Our research focuses on applications of nanoscale motors that can initiate transport of cargo on the nano and micro scale. We aim to reach a level of force-multiplication of microtubules, that is, using multiple microtubules in order to create more effective, efficient, and reliable transport systems than the current method.
Microtubules are polymers of α and β tubulin dimers. The actin assembles into protofilaments which then create a hollow cylindrical filaments. In our project, cargo will attach to the microtubule using biotin-streptavidin bonds.
Kinesin is a type of motor protein that can move along microtubules.