Independent modes of ganglion cell translocation ensure correct lamination of the zebrafish retina

Abstract: The arrangement of neurons into distinct layers is critical for neuronal connectivity and function of the nervous system. During development, most neurons move from their birthplace to the appropriate layer, where they polarize. However, kinetics and modes of many neuronal translocation events still await exploration. Here, we investigate ganglion cell (RGC) translocation across the embryonic zebrafish retina. After completing their translocation, RGCs establish the most basal retinal layer where they form the… Show more

“…Further studies into the organs presented here, but also the in vivo imaging of other sensory organs (e.g. the retina; Icha et al, 2016), will lead to a more complete view of intraepithelial cell motility behaviours. Moreover, as discussed here, it appears that intraepithelial cell motility is closely associated with cell differentiation; therefore, it will be necessary to understand both processes in order to obtain a comprehensive view of sensory organ assembly, function and dysfunction.…”

Epithelial cell behaviours during neurosensory organ formation

“…Further studies into the organs presented here, but also the in vivo imaging of other sensory organs (e.g. the retina; Icha et al, 2016), will lead to a more complete view of intraepithelial cell motility behaviours. Moreover, as discussed here, it appears that intraepithelial cell motility is closely associated with cell differentiation; therefore, it will be necessary to understand both processes in order to obtain a comprehensive view of sensory organ assembly, function and dysfunction.…”

Epithelial cell behaviours during neurosensory organ formation