Characterizing the diverse cells that associate with the developing commissures of the zebrafish forebrain

Abstract: During embryonic development of bilateral organisms, neurons send axons across the midline at specific points to connect the two halves of the nervous system with a commissure. Little is known about the cells at the midline that facilitate this tightly regulated process. We exploit the con served process of vertebrate embryonic development in the zebrafish model system to elucidate the identity of cells at the midline that may facilitate postoptic (POC) and anterior commissure (AC) development. We have discove… Show more

“…These developmental instructions establish appropriate RGC axon pathfinding, synaptogenesis, and retinotopographic mapping, and many of these cues are conserved across mammalian and nonmammalian vertebrate visual systems (Baier, 2013;Bollmann, 2019;Contreras et al, 2019;Erskine and Herrera, 2007;Harada et al, 2007;Seabrook et al, 2017;Siu and Murphy, 2018). However, the majority of efforts to date have focused on identifying these mechanisms in primary visual processing areas, and how RGCs target other critical brain regions remains incompletely understood (Barresi et al, 2010(Barresi et al, , 2005Ross et al, 1992;Schnabl et al, 2021).…”

Transcriptional control of visual neural circuit development by GS homeobox 1

“…These developmental instructions establish appropriate RGC axon pathfinding, synaptogenesis, and retinotopographic mapping, and many of these cues are conserved across mammalian and nonmammalian vertebrate visual systems (Baier, 2013;Bollmann, 2019;Contreras et al, 2019;Erskine and Herrera, 2007;Harada et al, 2007;Seabrook et al, 2017;Siu and Murphy, 2018). However, the majority of efforts to date have focused on identifying these mechanisms in primary visual processing areas, and how RGCs target other critical brain regions remains incompletely understood (Barresi et al, 2010(Barresi et al, , 2005Ross et al, 1992;Schnabl et al, 2021).…”

Transcriptional control of visual neural circuit development by GS homeobox 1