Migration of neurons is crucial for brain development. Equally essential to this developmental process is the specific transport of proteins within the neuron for axonal and dendritic specification. This Neurobiology Select highlights new findings that shed light on the mechanisms regulating both the movement of proteins within neurons and the movement of neuronal cells themselves within the developing brain
The axon and dendritic arbor of neurons require different sets of membrane proteins to carry out the...
AbstractSlit proteins have previously been shown to regulate axon guidance, branching, and neural mi...
AbstractThe cellular and molecular mechanisms that guide axonal and dendritic differentiation in the...
AbstractNetrins are laminin-related proteins that guide circumferential migrations on the ectoderm. ...
During development, neurons progress through rapid yet stereotypical shape changes to achieve proper...
AbstractAmong the most morphologically complex cells, neurons are masters of membrane specialization...
SummaryPolarized trafficking of synaptic proteins to axons and dendrites is crucial to neuronal func...
AbstractOne of the challenges to understanding nervous system development has been to establish how ...
Neurons acquire an optimized structure for the reception and processing of information, with long pr...
AbstractTo assess whether selective microtubule-based vesicle transport underlies the polarized dist...
AbstractDuring nervous system development, spinal commissural axons project toward floor plate cells...
AbstractThe plasma membrane of neurons can be divided into two domains, the soma-dendritic and the a...
A major interest in developmental neuroscience is to understand the cellular and molecular mechanism...
SummaryAlthough membrane trafficking pathways are involved in basic cellular functions, the evolutio...
AbstractGuidance molecules present in both axonal and dendritic growth cones mediate neuronal respon...
The axon and dendritic arbor of neurons require different sets of membrane proteins to carry out the...
AbstractSlit proteins have previously been shown to regulate axon guidance, branching, and neural mi...
AbstractThe cellular and molecular mechanisms that guide axonal and dendritic differentiation in the...
AbstractNetrins are laminin-related proteins that guide circumferential migrations on the ectoderm. ...
During development, neurons progress through rapid yet stereotypical shape changes to achieve proper...
AbstractAmong the most morphologically complex cells, neurons are masters of membrane specialization...
SummaryPolarized trafficking of synaptic proteins to axons and dendrites is crucial to neuronal func...
AbstractOne of the challenges to understanding nervous system development has been to establish how ...
Neurons acquire an optimized structure for the reception and processing of information, with long pr...
AbstractTo assess whether selective microtubule-based vesicle transport underlies the polarized dist...
AbstractDuring nervous system development, spinal commissural axons project toward floor plate cells...
AbstractThe plasma membrane of neurons can be divided into two domains, the soma-dendritic and the a...
A major interest in developmental neuroscience is to understand the cellular and molecular mechanism...
SummaryAlthough membrane trafficking pathways are involved in basic cellular functions, the evolutio...
AbstractGuidance molecules present in both axonal and dendritic growth cones mediate neuronal respon...
The axon and dendritic arbor of neurons require different sets of membrane proteins to carry out the...
AbstractSlit proteins have previously been shown to regulate axon guidance, branching, and neural mi...
AbstractThe cellular and molecular mechanisms that guide axonal and dendritic differentiation in the...
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