Fig. S5
- ID
- ZDB-FIG-130318-24
- Publication
- Qian et al., 2013 - ENC1-like Integrates the Retinoic Acid/FGF Signaling Pathways to Modulate Ciliogenesis of Kupffer's Vesicle during Zebrafish Embryonic Development
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Wnt8 and fgfr1 expression levels are not affected by knockdown enc1l. Enc1l-MO1 affects the cilia of spinal cord, otic, and pronephric ducts.(A–B′) Wnt8 expression level is not affected by enc1l-MO1. (A): control embryos. (B): enc1l-MO injected embryos. (A′, B′): Magnified images of the KV structure. (C–D′) Fgfr1 expression level is not affected by enc1l-MO1. (C): control embryos. (D): enc1l-MO injected embryos. (C′, D′): Magnified images of the KV structure. (E–M): enc1l-MO1 affects the cilia length in the spinal cord, otic vesicles, and pronephric ducts. (E, G, and I) control embryos. (F, H, and J) enc1l-MO injected embryos. The magnified images of the white boxes are on the right bottom of the images. (K–M): Statistical graph of the cilia length of pronephric ducts (K), spinal cord (L), and otic vesicles (M). **: 0.005 <p<0.01; ***: p<0.005. |
Reprinted from Developmental Biology, 374(1), Qian, M., Yao, S., Jing, L., He, J., Xiao, C., Zhang, T., Meng, W., Zhu, H., Xu, H., and Mo, X., ENC1-like Integrates the Retinoic Acid/FGF Signaling Pathways to Modulate Ciliogenesis of Kupffer's Vesicle during Zebrafish Embryonic Development, 85-95, Copyright (2013) with permission from Elsevier. Full text @ Dev. Biol.