Add to ORKGThe ability of neuronal growth cones to be guided by extracellular cues requires intimate communication between signal transduction systems and the dynamic actin-based cytoskeleton at the leading edge. Profilin, a small, actin-binding protein, has been proposed to be a regulator of the cell motility machinery at leading edge membranes. However, its requirement in the developing nervous system has been unknown. Profilin associates with members of the Enabled family of proteins, suggesting that Profilin might link Abl function to the cytoskeleton. Here, genetic analysis in Drosophila is used to demonstrate that mutations in Profilin (chickadee) and Abl (abl) display an identical growth cone arrest phenotype for axons of intersegmental nerve b...
International audienceNeuronal remodeling is essential for the refinement of neuronal circuits in re...
SummaryLoss of Fragile X mental retardation protein (FMRP) function causes the highly prevalent Frag...
We utilized the powerful molecular and genetic tools available for the analysis of neural developmen...
The ability of neuronal growth cones to be guided by extracellular cues requires intimate communicat...
AbstractThe ability of neuronal growth cones to be guided by extracellular cues requires intimate co...
[[abstract]]Abl tyrosine kinase (Abl) regulates axon guidance by modulating actin dynamics. Abelson ...
AbstractWe demonstrate that Drosophila capulet (capt), a homolog of the adenylyl cyclase-associated ...
AbstractThe Abelson tyrosine kinase (Abl) is integrated into signal transduction networks regulating...
AbstractGenetic analysis of growth cone guidance choice points in Drosophila identified neuronal rec...
International audience: Neuronal remodeling is essential for the refinement of neuronal circuits in ...
AbstractAbl is an axonal tyrosine kinase that has yet to be clearly linked to a receptor; Notch is a...
AbstractAxon guidance requires coordinated remodeling of actin and microtubule polymers. Using a gen...
SummaryBackgroundTight regulation of cell motility is essential for many physiological processes, su...
A major facet of nervous system development entails the projection of axons from neuronal cell bodie...
Drosophila fasciclin I is a homophilic cell adhesion molecule expressed in the developing embryo on ...
International audienceNeuronal remodeling is essential for the refinement of neuronal circuits in re...
SummaryLoss of Fragile X mental retardation protein (FMRP) function causes the highly prevalent Frag...
We utilized the powerful molecular and genetic tools available for the analysis of neural developmen...
The ability of neuronal growth cones to be guided by extracellular cues requires intimate communicat...
AbstractThe ability of neuronal growth cones to be guided by extracellular cues requires intimate co...
[[abstract]]Abl tyrosine kinase (Abl) regulates axon guidance by modulating actin dynamics. Abelson ...
AbstractWe demonstrate that Drosophila capulet (capt), a homolog of the adenylyl cyclase-associated ...
AbstractThe Abelson tyrosine kinase (Abl) is integrated into signal transduction networks regulating...
AbstractGenetic analysis of growth cone guidance choice points in Drosophila identified neuronal rec...
International audience: Neuronal remodeling is essential for the refinement of neuronal circuits in ...
AbstractAbl is an axonal tyrosine kinase that has yet to be clearly linked to a receptor; Notch is a...
AbstractAxon guidance requires coordinated remodeling of actin and microtubule polymers. Using a gen...
SummaryBackgroundTight regulation of cell motility is essential for many physiological processes, su...
A major facet of nervous system development entails the projection of axons from neuronal cell bodie...
Drosophila fasciclin I is a homophilic cell adhesion molecule expressed in the developing embryo on ...
International audienceNeuronal remodeling is essential for the refinement of neuronal circuits in re...
SummaryLoss of Fragile X mental retardation protein (FMRP) function causes the highly prevalent Frag...
We utilized the powerful molecular and genetic tools available for the analysis of neural developmen...