FIGURE

Fig. S5

ID
ZDB-FIG-160606-22
Publication
Johnson et al., 2016 - Gfap-positive radial glial cells are an essential progenitor population for later-born neurons and glia in the zebrafish spinal cord
Other Figures
All Figure Page
Back to All Figure Page
Fig. S5

Loss of radial glia disrupts spinal cord axon organization (A-F) Lateral views of spinal cord axons within control and Mtz treated gfap:nfsbmcherry sc059 embryos immunolabeled with anti-acetylated tubulin (AT, white). Alongside each image is an excerpt from the Z stack rotated along the X-axis to show correlations between NTRmCherry (red) and AT labeling (blue). Red line depicts the location along the Z-axis where the rotated optical section is found. (A-C) Uniform, uninterrupted axon tracts are found throughout the spinal cords of control treated embryos at all time points assayed. (D) At 24hpf, no observable difference is seen (A). (E) At the onset of ablation, defects in axon organization can be observed in the spinal cord. When rotated, these defects (arrowheads) align with regions with reduced NTR-mCherry labeling or NTR-mCherry+ debris, which becomes more severe over time (F). No radial glial or axonal defects were observed in Mtz-treated gfap:eGFPmi2001 embryos at any ages assayed throughout this study (data not shown), demonstrating that any observed phenotypes correspond to the direct loss of radial glia. Scale bar = 20µm.

Expression Data

Expression Detail
Antibody Labeling
Phenotype Data

Phenotype Detail
Acknowledgments
This image is the copyrighted work of the attributed author or publisher, and ZFIN has permission only to display this image to its users. Additional permissions should be obtained from the applicable author or publisher of the image. Full text @ Glia