SummaryHow does cellular traffic switch direction on microtubules, or switch back and forth between microtubule- and actin-based tracks? A pair of recent studies mimics the layout of motors and tracks within the cell to provide intriguing answers to these questions
Cellular activities such as endocytosis and secretion require that cargos actively switch between th...
AbstractRecent results reinforce the view that actin-based and microtubule-based motility systems do...
Cells rely on active transport to quickly organize cellular cargo. How cells regulate transport is n...
SummaryHow does cellular traffic switch direction on microtubules, or switch back and forth between ...
Microtubules are core components of the cytoskeleton and serve as tracks for motor protein-based int...
Intracellular transport provides a mechanism by which cellular material, such as organelles, vesicle...
SummaryThe chromosomal origin, chemotaxis arrays and flagellum of Vibrio cholerae congregate at the ...
AbstractActive transport by microtubule motors has a plethora of crucial roles in eukaryotic cells. ...
Eukaryotic cells are intricately organized on many length and time scales, from molecules to organel...
SummaryTeams of kinesin and dynein motors drive bidirectional transport of intracellular cargoes alo...
AbstractIntracellular transport of cargos along microtubules is often complicated by the topology of...
To exert forces, motor proteins bind with one end to cytoskeletal filaments, such as microtubules an...
Cells are shaped by the cytoskeleton, a network of dynamic biopolymers and associated proteins. Amon...
Intracellular transport along microtubules is often bidirectional, employing multiple plus- and minu...
SummaryHow many motors move cargos on microtubules inside a cell, and how do they work together to a...
Cellular activities such as endocytosis and secretion require that cargos actively switch between th...
AbstractRecent results reinforce the view that actin-based and microtubule-based motility systems do...
Cells rely on active transport to quickly organize cellular cargo. How cells regulate transport is n...
SummaryHow does cellular traffic switch direction on microtubules, or switch back and forth between ...
Microtubules are core components of the cytoskeleton and serve as tracks for motor protein-based int...
Intracellular transport provides a mechanism by which cellular material, such as organelles, vesicle...
SummaryThe chromosomal origin, chemotaxis arrays and flagellum of Vibrio cholerae congregate at the ...
AbstractActive transport by microtubule motors has a plethora of crucial roles in eukaryotic cells. ...
Eukaryotic cells are intricately organized on many length and time scales, from molecules to organel...
SummaryTeams of kinesin and dynein motors drive bidirectional transport of intracellular cargoes alo...
AbstractIntracellular transport of cargos along microtubules is often complicated by the topology of...
To exert forces, motor proteins bind with one end to cytoskeletal filaments, such as microtubules an...
Cells are shaped by the cytoskeleton, a network of dynamic biopolymers and associated proteins. Amon...
Intracellular transport along microtubules is often bidirectional, employing multiple plus- and minu...
SummaryHow many motors move cargos on microtubules inside a cell, and how do they work together to a...
Cellular activities such as endocytosis and secretion require that cargos actively switch between th...
AbstractRecent results reinforce the view that actin-based and microtubule-based motility systems do...
Cells rely on active transport to quickly organize cellular cargo. How cells regulate transport is n...
DOI
Add to ORKG