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Fig. 5. mbl embryos lose rostral but retain caudal hypothalamic marker
gene expression. (A-H) Lateral views of brains of embryos at about 31 somites
with anterior to the left. (A-D) The hypothalami of the mbl embryos
(B,D) do not express rx3 (B) and lose the anterior domain of
shh expression (D) compared to the wild-type embryos (A,C). (E-F) The
mbl embryo (F) retains expression of the hypothalamic marker
emx2 which is expressed in the caudal hypothalamus of the wild-type
embryo (E). Arrowheads point at the caudal limit of the hypothalamus. (G-H)
Transplanted cells overexpressing axin1 (brown) that have
incorporated into the rostral ventral CNS restore rx3 expression
(blue) in the mbl embryo (G). (H) A higher magnification view of the
transplant (boxed) of this embryo. (I-J) Some Axin1-overexpressing cells that
incorporate into the floorplate domain of a wild-type host ectopically express
emx2 (arrows). The transverse section (indicated by the left arrow in
I) shows ectopic emx2 expression in the floorplate (arrowhead in J).
Abbreviations: ad, anterior-dorsal hypothalamus; fp, floorplate; mfp, medial
floorplate; pv, posterior-ventral hypothalamus; t, telencephalon; zli, zona
limitans intrathalamica.
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