Add to ORKGCadherins have been known for a long time to be key elements in many important biological processes. In particular, the role of classical cadherins in mediating adhesion has been examined in great detail. Over recent years, the accumulation of experimental tools and mice mutants has allowed more refined analysis of cadherin functions, and new aspects such as signaling and synapse dynamics have become the center of interest. In addition, the study of mice lacking the entire protocadherin-γ cluster shed the first light on a possible novel function of members of this cadherin family in synapse formation and cell survival during development
The precisely organized complexity of the central nervous system (CNS) requires an enormous number o...
The cell adhesion molecule N-cadherin has been proposed to regulate synapse formation in mammalian c...
The mammalian Protocadherin (Pcdh) alpha, beta, and gamma gene clusters encode a large family of cad...
Protocadherins constitute the largest subgroup within the cadherin family of calcium-dependent cell-...
The clustered protocadherins (Pcdhs) comprise >50 putative synaptic recognition molecules that are r...
The recently described protocadherin gene clusters encode cadherin-related proteins, which are highl...
co, directional information transfer. Moreover, the synaptic The cadherin–catenin cell-adhesion comp...
Classical cadherins, a set of ~20 related recognition and signaling molecules, have been implicated ...
<p>Classical cadherins, a set of ~20 related recognition and signaling molecules, have been implicat...
Classical cadherins, a set of ~20 related recognition and signaling molecules, have been implicated ...
During more than 600 Ma of multicellular animal evolution, the cadherin superfamily has become strik...
Phylogenetic analysis of protocadherin genes identified a new gene subfamily, the delta-protocadheri...
<div><p>Synapse elimination and pruning of axon collaterals are crucial developmental events in the ...
Twenty-two tandemly arranged protocadherin-γ (Pcdh-γ) genes encode transmembrane proteins with disti...
Synapse elimination and pruning of axon collaterals are crucial developmental events in the refineme...
The precisely organized complexity of the central nervous system (CNS) requires an enormous number o...
The cell adhesion molecule N-cadherin has been proposed to regulate synapse formation in mammalian c...
The mammalian Protocadherin (Pcdh) alpha, beta, and gamma gene clusters encode a large family of cad...
Protocadherins constitute the largest subgroup within the cadherin family of calcium-dependent cell-...
The clustered protocadherins (Pcdhs) comprise >50 putative synaptic recognition molecules that are r...
The recently described protocadherin gene clusters encode cadherin-related proteins, which are highl...
co, directional information transfer. Moreover, the synaptic The cadherin–catenin cell-adhesion comp...
Classical cadherins, a set of ~20 related recognition and signaling molecules, have been implicated ...
<p>Classical cadherins, a set of ~20 related recognition and signaling molecules, have been implicat...
Classical cadherins, a set of ~20 related recognition and signaling molecules, have been implicated ...
During more than 600 Ma of multicellular animal evolution, the cadherin superfamily has become strik...
Phylogenetic analysis of protocadherin genes identified a new gene subfamily, the delta-protocadheri...
<div><p>Synapse elimination and pruning of axon collaterals are crucial developmental events in the ...
Twenty-two tandemly arranged protocadherin-γ (Pcdh-γ) genes encode transmembrane proteins with disti...
Synapse elimination and pruning of axon collaterals are crucial developmental events in the refineme...
The precisely organized complexity of the central nervous system (CNS) requires an enormous number o...
The cell adhesion molecule N-cadherin has been proposed to regulate synapse formation in mammalian c...
The mammalian Protocadherin (Pcdh) alpha, beta, and gamma gene clusters encode a large family of cad...