Kot-Leibovich H, Fainsod A.

Fig. 2. Manipulation of ALDH activity modulates the EtOH-induced phenotype. Embryos were subjected to different manipulations of ALDH activity in combination with EtOH treatment. Embryos were allowed to develop to early tailbud stages (st. 29) and were analyzed further by in situ hybridization with the XAG1 (cement gland) and Pax6 (eyes and midbrain) probes. (A) Control embryo; at the early tailbud stage, the developing cement gland, eyes and midbrain are clearly discernible as the stained areas to the left of the image. (B) Partial ALDH inhibition with 20 μM DEAB. (C) Low EtOH (1.3%) treatment. (D) Combined EtOH and DEAB treatment. (E) Control embryos. (F) Embryos treated with 2% EtOH. (G) Embryos overexpressing Raldh2. (H) Rescue of the EtOH effect by overexpression of Raldh2.

Fig. 5. Manipulation of RALDH modulates the effect of EtOH on gene expression domains during gastrulation. Sensitization to EtOH exposure by RALDH knockdown was shown by using DEAB to enhance the sensitivity to EtOH. Embryos were analyzed by in situ hybridization during early/mid gastrula stages (st. 10.5). Embryos were hybridized with the chordin (A–D,Q–T), gsc (E–H,M–P) and Cyp26A1 (I–L,U–X) probes. (A,E,I) Control embryos. (B,F,J) DEAB-treated (20 μM) embryos. (C,G,K) Embryos exposed to EtOH (1.5%). (D,H,L) Combined treatment with DEAB and EtOH shows enhanced sensitivity to the EtOH exposure. Rescue of the EtOH effect was achieved by Raldh2 overexpression. (M,Q,U) Control embryos. (N,R,V) Embryos injected with Raldh2 mRNA. (O,S,W) EtOH-treated (1.5%) embryos. (P,T,X) Raldh2 overexpression rescues the EtOH-induced effects.

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