AbstractIn eukaryotic cells, many organelles are transported bidirectionally along microtubules by kinesin and dynein. These opposite-polarity motors appear to be coordinated to avoid interfering with each other's function. New work has provided the first molecular insight into how such coordination might occur
here) are opposite-polarity, microtubule-based motors responsible for producing and maintaining subc...
AbstractThe interactions between the microtubule motor cytoplasmic dynein and its putative regulator...
Axonal microtubules are predominantly organized into a plus-end-out pattern. Here, we tested both ex...
In eukaryotic cells, many organelles are transported bidirectionally along microtubules by kinesin a...
AbstractActive transport by microtubule motors has a plethora of crucial roles in eukaryotic cells. ...
any cargoes move bidirectionally, frequently re-versing course between plus- and minus-end microtubu...
Kinesin and dynein are motor proteins that move in opposite directions along microtubules. In this s...
The ability of cytoskeletal motors to move unidirectionally along filamentous tracks is central to t...
AbstractThe majority of active transport in the cell is driven by three classes of molecular motors:...
Intracellular transport is interspersed with frequent reversals in direction due to the presence of ...
AbstractKinesin and cytoplasmic dynein are microtubule-based motor proteins that actively transport ...
textMolecular motors are responsible for all long range transport and organization of organelles wit...
ii We have reconstituted a simple in vitro system using only mammalian dynein and mammalian kinesin ...
We have reconstituted a simple in vitro system using only mammalian dynein and mammalian kinesin att...
Abstract. Kinesin and dynein are motor proteins that move in opposite directions along microtubules....
here) are opposite-polarity, microtubule-based motors responsible for producing and maintaining subc...
AbstractThe interactions between the microtubule motor cytoplasmic dynein and its putative regulator...
Axonal microtubules are predominantly organized into a plus-end-out pattern. Here, we tested both ex...
In eukaryotic cells, many organelles are transported bidirectionally along microtubules by kinesin a...
AbstractActive transport by microtubule motors has a plethora of crucial roles in eukaryotic cells. ...
any cargoes move bidirectionally, frequently re-versing course between plus- and minus-end microtubu...
Kinesin and dynein are motor proteins that move in opposite directions along microtubules. In this s...
The ability of cytoskeletal motors to move unidirectionally along filamentous tracks is central to t...
AbstractThe majority of active transport in the cell is driven by three classes of molecular motors:...
Intracellular transport is interspersed with frequent reversals in direction due to the presence of ...
AbstractKinesin and cytoplasmic dynein are microtubule-based motor proteins that actively transport ...
textMolecular motors are responsible for all long range transport and organization of organelles wit...
ii We have reconstituted a simple in vitro system using only mammalian dynein and mammalian kinesin ...
We have reconstituted a simple in vitro system using only mammalian dynein and mammalian kinesin att...
Abstract. Kinesin and dynein are motor proteins that move in opposite directions along microtubules....
here) are opposite-polarity, microtubule-based motors responsible for producing and maintaining subc...
AbstractThe interactions between the microtubule motor cytoplasmic dynein and its putative regulator...
Axonal microtubules are predominantly organized into a plus-end-out pattern. Here, we tested both ex...
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