<p>Migration and pathfinding of neuronal growth cones during neurite extension is critically dependent on dynamic microtubules. In this study we sought to determine, which aspects of microtubule polymerization relate to growth cone morphology and migratory characteristics. We conducted a multiscale quantitative microscopy analysis using automated tracking of microtubule plus ends in migrating growth cones of cultured murine dorsal root ganglion (DRG) neurons. Notably, this comprehensive analysis failed to identify any changes in microtubule polymerization parameters that were specifically associated with spontaneous extension vs. retraction of growth cones. This suggests that microtubule dynamicity is a basic mechanism that does not determi...
Interactions between dynamic microtubules and actin filaments are essential to a wide range of cell ...
AbstractNeuronal growth cones are the most sensitive among eukaryotic cells in responding to directi...
AbstractWe addressed the mechanical basis for how embryonic chick dorsal root ganglion growth cones ...
<p>Migration and pathfinding of neuronal growth cones during neurite extension is critically depende...
<p>Migration and pathfinding of neuronal growth cones during neurite extension is critically depende...
Migration and pathfinding of neuronal growth cones during neurite extension is critically dependent ...
Neuroplasticity, the ability for neurons to reorganize and form new connections, has major implicati...
During nervous system development, growing axons need to be directed to an appropriate target area i...
Sensory-motile cells fulfill various biological functions ranging from immune activity or wound heal...
Background: Normal brain function depends on the development of appropriate patterns of neural conne...
Abstract In the fundamental process of neuronal path-finding, a growth cone at the tip of every neur...
Cell migration is a ubiquitous process underlying critical biological mechanisms like wound healing,...
Collapsing factors can induce growth cone collapse and paralysis when added in soluble form to cultu...
AbstractNeuronal growth is an extremely complex yet reliable process that is directed by a dynamic l...
AbstractDynamic microtubules explore the peripheral (P) growth cone domain using F actin bundles as ...
Interactions between dynamic microtubules and actin filaments are essential to a wide range of cell ...
AbstractNeuronal growth cones are the most sensitive among eukaryotic cells in responding to directi...
AbstractWe addressed the mechanical basis for how embryonic chick dorsal root ganglion growth cones ...
<p>Migration and pathfinding of neuronal growth cones during neurite extension is critically depende...
<p>Migration and pathfinding of neuronal growth cones during neurite extension is critically depende...
Migration and pathfinding of neuronal growth cones during neurite extension is critically dependent ...
Neuroplasticity, the ability for neurons to reorganize and form new connections, has major implicati...
During nervous system development, growing axons need to be directed to an appropriate target area i...
Sensory-motile cells fulfill various biological functions ranging from immune activity or wound heal...
Background: Normal brain function depends on the development of appropriate patterns of neural conne...
Abstract In the fundamental process of neuronal path-finding, a growth cone at the tip of every neur...
Cell migration is a ubiquitous process underlying critical biological mechanisms like wound healing,...
Collapsing factors can induce growth cone collapse and paralysis when added in soluble form to cultu...
AbstractNeuronal growth is an extremely complex yet reliable process that is directed by a dynamic l...
AbstractDynamic microtubules explore the peripheral (P) growth cone domain using F actin bundles as ...
Interactions between dynamic microtubules and actin filaments are essential to a wide range of cell ...
AbstractNeuronal growth cones are the most sensitive among eukaryotic cells in responding to directi...
AbstractWe addressed the mechanical basis for how embryonic chick dorsal root ganglion growth cones ...