Add to ORKGProper function of the central nervous system relies on precise and coordinated cell-cell interactions and communication via synaptic transmission to assemble neuronal networks. Aberrant synaptic transmission is a hallmark of neuronal disease. The EphB family of receptor tyrosine kinases and their ephrin-B ligands play critical roles in the central nervous system in axon guidance, formation of pre- and post-synaptic specializations, localization of glutamate receptors, synaptic plasticity, and disease. EphB/ephrin-B signaling has been reported to modulate these processes, but the molecular mechanisms remain poorly understood. Our laboratory has previously shown that EphBs organize the formation of both pre- and postsynaptic specializations,...
EphrinB ligands and their Eph receptor tyrosine kinases are known to regulate excitatory synaptic fu...
There is increasing evidence that Eph receptors and their transmembrane ligands, named ephrins, inte...
SummaryMotile dendritic filopodial processes are thought to be precursors of spine synapses, but how...
Proper function of the central nervous system relies on precise and coordinated cell-cell interactio...
Proper function of the central nervous system relies on precise and coordinated cell-cell interactio...
Proper function of the central nervous system relies on precise and coordinated cell-cell interactio...
AbstractEphB receptor tyrosine kinases are enriched at synapses, suggesting that these receptors pla...
Synapses are transcellular structures that form between neurons. They are highly complex, due to the...
A central nervous system neuron forms thousands of synaptic contacts, but the establishment of neuro...
During development, each neuron in the central nervous system must form thousands of synapses in a p...
Proper function in the mammalian central nervous system relies on the precise communication between ...
AbstractThe transmembrane ephrinB ligands and their Eph receptor tyrosine kinases are known to regul...
AbstractDuring development, Eph receptors mediate the repulsive axon guidance function of ephrins, a...
AbstractDuring the development of excitatory synapses, molecules cluster on dendrites to form postsy...
EphB receptor tyrosine kinases control multiple steps in nervous system development. However, it rem...
EphrinB ligands and their Eph receptor tyrosine kinases are known to regulate excitatory synaptic fu...
There is increasing evidence that Eph receptors and their transmembrane ligands, named ephrins, inte...
SummaryMotile dendritic filopodial processes are thought to be precursors of spine synapses, but how...
Proper function of the central nervous system relies on precise and coordinated cell-cell interactio...
Proper function of the central nervous system relies on precise and coordinated cell-cell interactio...
Proper function of the central nervous system relies on precise and coordinated cell-cell interactio...
AbstractEphB receptor tyrosine kinases are enriched at synapses, suggesting that these receptors pla...
Synapses are transcellular structures that form between neurons. They are highly complex, due to the...
A central nervous system neuron forms thousands of synaptic contacts, but the establishment of neuro...
During development, each neuron in the central nervous system must form thousands of synapses in a p...
Proper function in the mammalian central nervous system relies on the precise communication between ...
AbstractThe transmembrane ephrinB ligands and their Eph receptor tyrosine kinases are known to regul...
AbstractDuring development, Eph receptors mediate the repulsive axon guidance function of ephrins, a...
AbstractDuring the development of excitatory synapses, molecules cluster on dendrites to form postsy...
EphB receptor tyrosine kinases control multiple steps in nervous system development. However, it rem...
EphrinB ligands and their Eph receptor tyrosine kinases are known to regulate excitatory synaptic fu...
There is increasing evidence that Eph receptors and their transmembrane ligands, named ephrins, inte...
SummaryMotile dendritic filopodial processes are thought to be precursors of spine synapses, but how...