Add to ORKGRecent genetic evidence suggests that tyrosine kinases and tyrosine phosphatases can control the guidance of specific growth cones. Within a family of related phosphatases or kinases, individual members can have partially redundant functions. Receptor phosphatases can work together at one guidance choice point, but in opposition at another. The specific combination of kinases and phosphatases active in a growth cone may be an important determinant of pathway choice. One mechanism by which these proteins could control guidance decisions is through regulation of adhesion between growth cones and axons
AbstractAxon guidance depends on the transduction of extracellular guidance cues into motile respons...
To develop a functional nervous system, neural circuits are initially established through the stepwi...
Appropriate regulation of tyrosine phosphorylation is essential for axon growth and guidance. Eviden...
Recent genetic evidence suggests that tyrosine kinases and tyrosine phosphatases can control the gui...
The neural receptor tyrosine phosphatases DPTP69D, DPTP99A and DLAR are involved in motor axon guid...
AbstractRecent results have revealed for the first time that receptor-like protein tyrosine phosphat...
During nervous system development, neuronal growth cones are directed toward their synaptic targets ...
The generation of a functional neuronal network requires that axons navigate precisely to their appr...
AbstractIn order to form a functional nervous system, neurones extend axons, often over long distanc...
The generation of a functional neuronal network requires that axons navigate precisely to their appr...
Four receptor-linked protein tyrosine phosphatases are selectively expressed on central nervous syst...
AbstractGenetic analysis of growth cone guidance choice points in Drosophila identified neuronal rec...
Neural receptor-linked protein tyrosine phosphatases (RPTPs) are required for guidance of motoneuron...
Determining how axon guidance receptors transmit signals to allow precise pathfinding decisions is f...
Determining how axon guidance receptors transmit signals to allow precise pathfinding decisions is f...
AbstractAxon guidance depends on the transduction of extracellular guidance cues into motile respons...
To develop a functional nervous system, neural circuits are initially established through the stepwi...
Appropriate regulation of tyrosine phosphorylation is essential for axon growth and guidance. Eviden...
Recent genetic evidence suggests that tyrosine kinases and tyrosine phosphatases can control the gui...
The neural receptor tyrosine phosphatases DPTP69D, DPTP99A and DLAR are involved in motor axon guid...
AbstractRecent results have revealed for the first time that receptor-like protein tyrosine phosphat...
During nervous system development, neuronal growth cones are directed toward their synaptic targets ...
The generation of a functional neuronal network requires that axons navigate precisely to their appr...
AbstractIn order to form a functional nervous system, neurones extend axons, often over long distanc...
The generation of a functional neuronal network requires that axons navigate precisely to their appr...
Four receptor-linked protein tyrosine phosphatases are selectively expressed on central nervous syst...
AbstractGenetic analysis of growth cone guidance choice points in Drosophila identified neuronal rec...
Neural receptor-linked protein tyrosine phosphatases (RPTPs) are required for guidance of motoneuron...
Determining how axon guidance receptors transmit signals to allow precise pathfinding decisions is f...
Determining how axon guidance receptors transmit signals to allow precise pathfinding decisions is f...
AbstractAxon guidance depends on the transduction of extracellular guidance cues into motile respons...
To develop a functional nervous system, neural circuits are initially established through the stepwi...
Appropriate regulation of tyrosine phosphorylation is essential for axon growth and guidance. Eviden...