FIGURE

Fig. 4

ID
ZDB-FIG-180625-4
Publication
Hall et al., 2018 - Movement maintains forebrain neurogenesis via peripheral neural feedback in larval zebrafish
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Fig. 4

Tail movement, not visual stimulation, associated with locomotion maintains pallial cell proliferation.

Larvae were fully embedded in agarose at 3 dpf and reared able to perceive either (A) visual stimulation associated with movement (a moving gradient; purple arrows) and tail movement (tail cut free from agarose; green arrows), (B) tail movement only, or (C; scale bar = 20 µm) visual stimulation only. By 6 dpf, larvae capable of tail movement exhibited more PCNA+ cells in the pallium (D) compared to larvae perceiving only visual stimulation associated with movement. Isolating visual or physical cues of movement had no significant affect on PCNA+ cell counts in the subpallium (E; control n = 6, physical only n = 6, visual only n = 5) by 6 dpf. *p<0.05. n.s. = not significant. Data are represented as mean ± SEM.
Expression Data

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Antibody Labeling
Phenotype Data

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