Synapse elimination and pruning of axon collaterals are crucial developmental events in the refinement of neuronal circuits. While a control of synapse formation by adhesion molecules is well established, the involvement of adhesion molecules in developmental synapse loss is poorly characterized. To investigate the consequences of mis-match expression of a homophilic synaptic adhesion molecule, we analysed an asymmetric, exclusively postsynaptic expression of N-cadherin. This was induced by transfecting individual neurons in cultures of N-cadherin knockout mouse neurons with a N-cadherin expression vector. 2 days after transfection, patch-clamp analysis of AMPA receptor-mediated miniature postsynaptic currents revealed an impaired synaptic ...
N-cadherin is a calcium-sensitive cell adhesion molecule commonly expressed at synaptic junctions an...
AbstractThe relationship between adhesive interactions across the synaptic cleft and synaptic functi...
AbstractThe cell–cell adhesion molecule N-cadherin strongly promotes neurite outgrowth in cultured r...
<div><p>Synapse elimination and pruning of axon collaterals are crucial developmental events in the ...
The cell adhesion molecule N-cadherin has been proposed to regulate synapse formation in mammalian c...
The cell adhesion molecule N-cadherin has been proposed to regulate synapse formation in mammalian c...
Classical cadherins, a set of ~20 related recognition and signaling molecules, have been implicated ...
Classical cadherins, a set of ~20 related recognition and signaling molecules, have been implicated ...
Classic cadherins are synaptic adhesion proteins that have been implicated in synapse formation and ...
<p>Classical cadherins, a set of ~20 related recognition and signaling molecules, have been implicat...
<p>(<b>A</b>) Scheme of N-cadherin+EGFP expression in individual, transfected N-cadherin knockout ne...
AbstractSynaptic remodeling has been postulated as a mechanism underlying synaptic plasticity, and c...
N-cadherin is a homophilic adhesion protein that remains expressed at mature excitatory synapses bey...
AbstractCell adhesion molecules (CAMs) perform numerous functions during neural development. An indi...
<p>(<b>A, B</b>) Immunocytochemical stainings for VAMP2 and fluorescence images of coexpressed PSD-9...
N-cadherin is a calcium-sensitive cell adhesion molecule commonly expressed at synaptic junctions an...
AbstractThe relationship between adhesive interactions across the synaptic cleft and synaptic functi...
AbstractThe cell–cell adhesion molecule N-cadherin strongly promotes neurite outgrowth in cultured r...
<div><p>Synapse elimination and pruning of axon collaterals are crucial developmental events in the ...
The cell adhesion molecule N-cadherin has been proposed to regulate synapse formation in mammalian c...
The cell adhesion molecule N-cadherin has been proposed to regulate synapse formation in mammalian c...
Classical cadherins, a set of ~20 related recognition and signaling molecules, have been implicated ...
Classical cadherins, a set of ~20 related recognition and signaling molecules, have been implicated ...
Classic cadherins are synaptic adhesion proteins that have been implicated in synapse formation and ...
<p>Classical cadherins, a set of ~20 related recognition and signaling molecules, have been implicat...
<p>(<b>A</b>) Scheme of N-cadherin+EGFP expression in individual, transfected N-cadherin knockout ne...
AbstractSynaptic remodeling has been postulated as a mechanism underlying synaptic plasticity, and c...
N-cadherin is a homophilic adhesion protein that remains expressed at mature excitatory synapses bey...
AbstractCell adhesion molecules (CAMs) perform numerous functions during neural development. An indi...
<p>(<b>A, B</b>) Immunocytochemical stainings for VAMP2 and fluorescence images of coexpressed PSD-9...
N-cadherin is a calcium-sensitive cell adhesion molecule commonly expressed at synaptic junctions an...
AbstractThe relationship between adhesive interactions across the synaptic cleft and synaptic functi...
AbstractThe cell–cell adhesion molecule N-cadherin strongly promotes neurite outgrowth in cultured r...