FIGURE
Fig. 4
- ID
- ZDB-FIG-211219-88
- Publication
- Wang et al., 2021 - ubtor Mutation Causes Motor Hyperactivity by Activating mTOR Signaling in Zebrafish
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Fig. 4
mTORC1 hyperactivation in the spinal interneurons of ubtor mutant embryos. A p-S6 staining and EGFP signals in 28-hpf embryos (dotted lines outline spinal somites 4–10; scale bar, 40 μm). B Numbers of p-S6-labelled neurons in the spinal cord of 28-hpf embryos (three biological repeats, NWT = 22, Nubtor−/− = 19, t39 = 5.538). C Numbers of co-labeled p-S6/EGFP neurons in the spinal cord of 28-hpf embryos (three biological repeats, NWT = 22, Nubtor−/− = 19, t39 = 2.265). Values are represented as the mean ± SEM in B and C. *P <0.05, ***P <0.001. |
Expression Data
Expression Detail
Antibody Labeling
Phenotype Data
Phenotype Detail
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Full text @ Neurosci. Bull.