AbstractDeveloping axons are guided to their targets by chemoattractive and chemorepulsive ligands. Ledda et al., in this issue of Neuron, demonstrate that the target-derived receptor glial cell line-derived neurotrophic factor receptor α1 (GFRα1) can also act in trans as an axon guidance molecule for neurons
During neural circuit formation, axons need to navigate to their target cells in a complex, constant...
Determining how axon guidance receptors transmit signals to allow precise pathfinding decisions is f...
Background: Retinotectal map formation develops via topographically specific guidance and branching ...
AbstractDeveloping axons are guided to their targets by chemoattractive and chemorepulsive ligands. ...
AbstractImmobilized and diffusible molecular cues regulate axon guidance during development. GFRα1, ...
AbstractAlthough both c-Ret and GFRα1 are required for responsiveness to GDNF, GFRα1 is widely expre...
The development of the nervous system requires that neuronal processes (axons) connect precisely wit...
AbstractGuidance molecules present in both axonal and dendritic growth cones mediate neuronal respon...
The search for novel neurotrophic factors promoting dopamine uptake and the survival of central dopa...
The exquisite complexity of neural connectivity depends upon the precise navigation of axons to thei...
SummaryGrowing axons encounter multiple guidance cues, but it is unclear how separate signals are re...
The discovery in the late 1990s of the partnership between the RET receptor tyrosine kinase and the ...
AbstractN-CAM has now been identified as a receptor for glial cell line-derived neurotrophic factor ...
Neurotrophic factors are small, secreted proteins that are important players in the development and ...
AbstractIn order to form a functional nervous system, neurones extend axons, often over long distanc...
During neural circuit formation, axons need to navigate to their target cells in a complex, constant...
Determining how axon guidance receptors transmit signals to allow precise pathfinding decisions is f...
Background: Retinotectal map formation develops via topographically specific guidance and branching ...
AbstractDeveloping axons are guided to their targets by chemoattractive and chemorepulsive ligands. ...
AbstractImmobilized and diffusible molecular cues regulate axon guidance during development. GFRα1, ...
AbstractAlthough both c-Ret and GFRα1 are required for responsiveness to GDNF, GFRα1 is widely expre...
The development of the nervous system requires that neuronal processes (axons) connect precisely wit...
AbstractGuidance molecules present in both axonal and dendritic growth cones mediate neuronal respon...
The search for novel neurotrophic factors promoting dopamine uptake and the survival of central dopa...
The exquisite complexity of neural connectivity depends upon the precise navigation of axons to thei...
SummaryGrowing axons encounter multiple guidance cues, but it is unclear how separate signals are re...
The discovery in the late 1990s of the partnership between the RET receptor tyrosine kinase and the ...
AbstractN-CAM has now been identified as a receptor for glial cell line-derived neurotrophic factor ...
Neurotrophic factors are small, secreted proteins that are important players in the development and ...
AbstractIn order to form a functional nervous system, neurones extend axons, often over long distanc...
During neural circuit formation, axons need to navigate to their target cells in a complex, constant...
Determining how axon guidance receptors transmit signals to allow precise pathfinding decisions is f...
Background: Retinotectal map formation develops via topographically specific guidance and branching ...
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