The direction of translocation of microtubules on a surface coated with kinesin is usually random. Here we demonstrate and quantify the rate at which externally applied electric fields can direct moving microtubules parallel to the field by deflecting their leading end toward the anode. Effects of electric field strength, kinesin surface density, and microtubule translocation speed on the rate of redirection of microtubules were analyzed statistically. Furthermore, we demonstrated that microtubules can be steered in any desired direction via manipulation of externally applied E-fields.close394
Kinesins are biological motors that transport cargo unidirectionally along microtubule tracks. These...
Tubulin heterodimers are the building blocks of microtubules and disruption of their dynamics is exp...
The minimum motor domain of kinesin-1 is a single head. Recent evidence suggests that such minimal m...
Research efforts in recent years have been directed toward actively controlling the direction of tra...
AbstractResearch efforts in recent years have been directed toward actively controlling the directio...
Demands for compact, self-contained Micro Total Analysis Systems (muTAS) that do not require externa...
Demands for compact, self-contained Micro Total Analysis Systems (muTAS) that do not require externa...
AbstractResearch efforts in recent years have been directed toward actively controlling the directio...
We suggest a concept for powering microfluidic devices with biomolecular motors and microtubules to ...
We suggest a concept for powering microfluidic devices with biomolecular motors and microtubules to ...
We have previously demonstrated that shear flow aligns microtubules moving on kinesin-coated microch...
Part of the Methods in Molecular Biology book series (MIMB, volume 2430)Microtubule (MT)-motor syste...
We use fluorescence microscopy to measure the orientation and shape of microtubules—which serve as a...
We use fluorescence microscopy to measure the orientation and shape of microtubules-which serve as a...
The kinesin-microtubule system plays an important transport and is a model system for integrating bi...
Kinesins are biological motors that transport cargo unidirectionally along microtubule tracks. These...
Tubulin heterodimers are the building blocks of microtubules and disruption of their dynamics is exp...
The minimum motor domain of kinesin-1 is a single head. Recent evidence suggests that such minimal m...
Research efforts in recent years have been directed toward actively controlling the direction of tra...
AbstractResearch efforts in recent years have been directed toward actively controlling the directio...
Demands for compact, self-contained Micro Total Analysis Systems (muTAS) that do not require externa...
Demands for compact, self-contained Micro Total Analysis Systems (muTAS) that do not require externa...
AbstractResearch efforts in recent years have been directed toward actively controlling the directio...
We suggest a concept for powering microfluidic devices with biomolecular motors and microtubules to ...
We suggest a concept for powering microfluidic devices with biomolecular motors and microtubules to ...
We have previously demonstrated that shear flow aligns microtubules moving on kinesin-coated microch...
Part of the Methods in Molecular Biology book series (MIMB, volume 2430)Microtubule (MT)-motor syste...
We use fluorescence microscopy to measure the orientation and shape of microtubules—which serve as a...
We use fluorescence microscopy to measure the orientation and shape of microtubules-which serve as a...
The kinesin-microtubule system plays an important transport and is a model system for integrating bi...
Kinesins are biological motors that transport cargo unidirectionally along microtubule tracks. These...
Tubulin heterodimers are the building blocks of microtubules and disruption of their dynamics is exp...
The minimum motor domain of kinesin-1 is a single head. Recent evidence suggests that such minimal m...