Add to ORKGIn this issue of Neuron, Katsuki and colleagues show that cell-autonomous mechanisms divide Drosophila axons into proximal and distal compartments. Axon guidance receptors selectively localize to one compartment. A diffusion barrier exists near the compartment boundary, suggesting that it may have properties like those of the axon initial segment in mammalian neurons
AbstractSlit is secreted by midline glia in Drosophila and functions as a short-range repellent to c...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Biology, 2005.Includes bibliographi...
AbstractOn each side of the midline of the Drosophila CNS, axons are organized into a series of para...
In this issue of Neuron, Katsuki and colleagues show that cell-autonomous mechanisms divide Drosophi...
In this issue of Neuron, Katsuki and colleagues show that cell-autonomous mechanisms divide Drosophi...
SummaryIn the developing nervous system, distribution of membrane molecules, particularly axon guida...
AbstractA central feature of the developing nervous system is the midline region, which guides growi...
SummaryThe orthogonal array of axon pathways in the Drosophila CNS is constructed in part under the ...
AbstractAxon growth across the Drosophila midline requires Comm to downregulate Robo, the receptor f...
How axons in the developing nervous system successfully navigate to their correct targets is a funda...
<div><p>Guiding axon growth cones towards their targets is a fundamental process that occurs in a de...
How do growing axons in the central nervous system navigate through the dense jungle of cells and pr...
AbstractAxon guidance at the Drosophila midline relies on dynamic regulation of the guidance recepto...
During neural circuit formation, axons need to navigate to their target cells in a complex, constant...
SummaryThe secreted signal Slit and its three receptors, Robo1–3, regulate axon guidance in the Dros...
AbstractSlit is secreted by midline glia in Drosophila and functions as a short-range repellent to c...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Biology, 2005.Includes bibliographi...
AbstractOn each side of the midline of the Drosophila CNS, axons are organized into a series of para...
In this issue of Neuron, Katsuki and colleagues show that cell-autonomous mechanisms divide Drosophi...
In this issue of Neuron, Katsuki and colleagues show that cell-autonomous mechanisms divide Drosophi...
SummaryIn the developing nervous system, distribution of membrane molecules, particularly axon guida...
AbstractA central feature of the developing nervous system is the midline region, which guides growi...
SummaryThe orthogonal array of axon pathways in the Drosophila CNS is constructed in part under the ...
AbstractAxon growth across the Drosophila midline requires Comm to downregulate Robo, the receptor f...
How axons in the developing nervous system successfully navigate to their correct targets is a funda...
<div><p>Guiding axon growth cones towards their targets is a fundamental process that occurs in a de...
How do growing axons in the central nervous system navigate through the dense jungle of cells and pr...
AbstractAxon guidance at the Drosophila midline relies on dynamic regulation of the guidance recepto...
During neural circuit formation, axons need to navigate to their target cells in a complex, constant...
SummaryThe secreted signal Slit and its three receptors, Robo1–3, regulate axon guidance in the Dros...
AbstractSlit is secreted by midline glia in Drosophila and functions as a short-range repellent to c...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Biology, 2005.Includes bibliographi...
AbstractOn each side of the midline of the Drosophila CNS, axons are organized into a series of para...