FIGURE

Fig. 5

ID
ZDB-FIG-180302-17
Publication
Seritrakul et al., 2017 - Tet-mediated DNA hydroxymethylation regulates retinal neurogenesis by modulating cell-extrinsic signaling pathways
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Fig. 5

Fig 5. Tet2 and tet3 regulate retinal neurogenesis cell non-autonomously.

(A) Chimeric embryos were generated by blastomere transplantation from fluorescent dextran-labeled donor into unlabeled host. Retinae composed of clones from wild-type and tet2-/-;tet3-/- mutant cells were analyzed at 3dpf. (B) Sibling donor to wildtype host transplants yielded clones of donor cells (green; arrows) that differentiated normally into retinal neurons including AC, RGC, rods (red), and display proper lamination (n = 5). (C) Similarly, tet2-/-;tet3-/- mutant cells transplanted into genetically wildtype hosts also differentiated normally, and the regions of the retina containing mutant clones were also properly laminated (n = 3). (D). Genetically wild-type donor cells transplanted into tet2-/-;tet3-/- mutant host retinae failed to undergo neurogenesis and remained undifferentiated (green, arrows) (n = 3). DNA (blue), HuC/D + zpr-3 antibody stain (red), transplanted donor clones (green). All images are 3dpf. Dorsal is up and anterior to the left. Scale bar = 50μm

Expression Data

Expression Detail
Antibody Labeling
Phenotype Data

Phenotype Detail
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