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Fig. 2. Fate map of Tbx1-expressing cells. (A) The gene targeting strategy
utilized to generate the Tbx1mcm knock-in allele. (B)
X-gal staining pattern generated by a Tbx1-lacZ knock-in
allele (Tbx1+/–) in an E10.5 embryo. (C) X-gal
staining pattern in a Tbx1mcm/+;R26R embryo at
E10.5. (D) X-gal staining pattern in a Df1/Tbx1mcm;R26R
embryo at E10.5 (Tbx1 homozygous mutant background). Small arrows in
B-D indicate the OFT, the red arrowheads in C point to a superficial,
ectodermal domain. (E) Dissected heart from a
Tbx1+/– (lacZ knock-in) E10.5 embryo, and,
F, from a Tbx1mcm/+;R26R E10.5 embryo. (G,H)
Histological sections through the OFT at the same stage in
Tbx1+/– (G) and
Tbx1mcm/+;R26R (F) embryos at E10.5. Black
arrows show blue cells localized in similar position in the two mutants, red
arrows indicate blue cells detected only by cell fate mapping. (I,J) X-gal
staining pattern generated by a Tbx1-lacZ knock-in allele
(Tbx1+/–) in an E12.5 heart (I), compared with that
in a Tbx1mcm/+;R26R embryo (J) at the same
stage. (K-M) Comparison of the lacZ knock-in X-gal staining pattern
(K, 37 somites) with that obtained by cell fate mapping in a heterozygous (L,
39 somites) and homozygous (M, 36 somites) Tbx1 mutant. The area in
the black box in M is magnified (5x) in the inset at the bottom-left of
M. K'-M' show magnified details of panel K, L and M, respectively.
Red arrowheads indicate endothelial cells, black arrows OFT myocytes, and
black arrowheads SHF cells. Scale bars: 1 mm in B-D, E,F and I,J; 100 µm in
G,H; 200 µm in K-M; 50 µm in K'-M'.
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