FIGURE
Fig. 2
- ID
- ZDB-FIG-190618-56
- Publication
- Li et al., 2018 - Znfl1s are essential for patterning the anterior-posterior axis of zebrafish posterior hindbrain by acting as direct target genes of retinoic acid
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Fig. 2
Knocking down znfl1s reduces RA signaling in zebrafishembryos. Whole mount in situ hybridized embryos are positioned animal pole top (8 hpf, A–B) or anterior left (20 hpf, C–F). The expression of cyp26a1 was examined in controls (A, C) and znfl1s morphants (B) at 8 hpf or 20 hpf (D). The expressions of en2a, egr2b and hoxb4a in control embryos (E) and znfl1smorphants (F). All embryos were positioned in lateral view. The arrow points to the expression of hoxb4a in E–F.
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Expression Data
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| Fish: | |
| Knockdown Reagent: | |
| Anatomical Terms: | |
| Stage Range: | 75%-epiboly to 20-25 somites |
Expression Detail
Antibody Labeling
Phenotype Data
| Fish: | |
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| Knockdown Reagent: | |
| Observed In: | |
| Stage Range: | 75%-epiboly to 20-25 somites |
Phenotype Detail
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Reprinted from Mechanisms of Development, 155, Li, J., Zhao, Y., He, L., Huang, Y., Yang, X., Yu, L., Zhao, Q., Dong, X., Znfl1s are essential for patterning the anterior-posterior axis of zebrafish posterior hindbrain by acting as direct target genes of retinoic acid, 27-33, Copyright (2018) with permission from Elsevier. Full text @ Mech. Dev.