Add to ORKGThe assembly of functional neuronal networks in the developing animal relies on the polarization of neurons, i.e., the formation of a single axon and multiple dendrites. Breaking the symmetry of neurons depends on cytoskeletal rearrangements. In particular, axon specification requires local dynamic instability of actin and stabilization of microtubules. The polarized cytoskeleton also provides the basis for selective trafficking and retention of cellular components in the future somatodendritic or axonal compartments. Hence, these mechanisms are not only essential to achieve neuronal polarization, but also to maintain it. Different extracellular and intracellular signals converge on the regulation of the cytoskeleton. Most notably, Rho GTPa...
Neurons are highly polarized cells, most of which develop a single axon and several dendrites. These...
Developing neurons can change axonal and dendritic fate upon axonal lesion [1-6], but it is unclear ...
Developing neurons can change axonal and dendritic fate upon axonal lesion [1-6], but it is unclear ...
The assembly of functional neuronal networks in the developing animal relies on the polarization of ...
The assembly of functional neuronal networks in the developing animal relies on the polarization of ...
The formation of an axon and dendrites, neuronal polarization, is a prerequisite for neurons to inte...
The formation of an axon and dendrites, neuronal polarization, is a prerequisite for neurons to inte...
The term polarity in a biological context is used to describe an asymmetry in morphology and distrib...
The morphology of cells is key to their function. Neurons extend a long axon and several shorter den...
The morphology of cells is key to their function. Neurons extend a long axon and several shorter den...
The morphology of cells is key to their function. Neurons extend a long axon and several shorter den...
Neurons are highly polarized cells, most of which develop a single axon and several dendrites. These...
The nervous system is a complex network of neurons and support cells. Neurons communicate with their...
The nervous system is a complex network of neurons and support cells. Neurons communicate with their...
The nervous system is a complex network of neurons and support cells. Neurons communicate with their...
Neurons are highly polarized cells, most of which develop a single axon and several dendrites. These...
Developing neurons can change axonal and dendritic fate upon axonal lesion [1-6], but it is unclear ...
Developing neurons can change axonal and dendritic fate upon axonal lesion [1-6], but it is unclear ...
The assembly of functional neuronal networks in the developing animal relies on the polarization of ...
The assembly of functional neuronal networks in the developing animal relies on the polarization of ...
The formation of an axon and dendrites, neuronal polarization, is a prerequisite for neurons to inte...
The formation of an axon and dendrites, neuronal polarization, is a prerequisite for neurons to inte...
The term polarity in a biological context is used to describe an asymmetry in morphology and distrib...
The morphology of cells is key to their function. Neurons extend a long axon and several shorter den...
The morphology of cells is key to their function. Neurons extend a long axon and several shorter den...
The morphology of cells is key to their function. Neurons extend a long axon and several shorter den...
Neurons are highly polarized cells, most of which develop a single axon and several dendrites. These...
The nervous system is a complex network of neurons and support cells. Neurons communicate with their...
The nervous system is a complex network of neurons and support cells. Neurons communicate with their...
The nervous system is a complex network of neurons and support cells. Neurons communicate with their...
Neurons are highly polarized cells, most of which develop a single axon and several dendrites. These...
Developing neurons can change axonal and dendritic fate upon axonal lesion [1-6], but it is unclear ...
Developing neurons can change axonal and dendritic fate upon axonal lesion [1-6], but it is unclear ...