Dendritic self-avoidance: protocadherins have it covered

Abstract: npg Dendrites exhibit self-avoidance, in which branches of the same neuron repel each other while overlapping with branches from neighboring neurons. A recent paper by Lefebvre and colleagues reveals that clustered protocadherins provide a basis for neuronal recognition during dendrite self-avoidance in vertebrates.

“…Later on the same group proved that during Xenopus somitogenesis, the segmental boundaries are established by PAPC [21] . Recently, protocadherins have been intricately linked to an important cellular behavior exhibited by neuronal processes or dendrites called self-avoidance [22] . It refers to the property of axonal or dendritic projections to spread and cover large spatial territories without crossing its own branches.…”

Spatio-Temporally Restricted Expression of Cell Adhesion Molecules during Chicken Embryonic Development

“…Later on the same group proved that during Xenopus somitogenesis, the segmental boundaries are established by PAPC [21] . Recently, protocadherins have been intricately linked to an important cellular behavior exhibited by neuronal processes or dendrites called self-avoidance [22] . It refers to the property of axonal or dendritic projections to spread and cover large spatial territories without crossing its own branches.…”

Spatio-Temporally Restricted Expression of Cell Adhesion Molecules during Chicken Embryonic Development