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Fig. 5. Lrig3 and Ntn1 participate in cross-repressive
interactions that define the fusing and non-fusing domains of the lateral
pouch. (A,E) In situ hybridization of Ntn1 on
transverse sections through E12 Lrig3+/- (A) and
Lrig3-/- (E) embryos. In Lrig3 mutants,
Ntn1 expression is expanded to fill the lateral pouch (outlined).
(B,F) β-galactosidase histochemistry of E12
Lrig3+/- (B) and Lrig3-/- (F)
littermates. As previously demonstrated
(Fig. 3), Lrig3-βgeo
levels are reduced in fusion plate cells (arrowhead, B) compared with the
surrounding epithelium. However, in Lrig3 mutants (F) reporter
activity is present at high levels throughout the pouch. (C,G)
Lrig3 and Ntn1 mutant mice were generated with two different
gene trap vectors, so only Lrig3LST016 mice carry a
placental alkaline phosphatase (PLAP) reporter. Hence, PLAP histochemistry
reveals Lrig3 transcription in
Ntn1+/+;Lrig3+/- (B) and
Ntn1-/-; Lrig3+/- embryos (G) at E12.5. Like
β-geo, PLAP staining of Lrig3 heterozygotes (C) is absent from
the fusion plate at E12.5 (arrowhead). By contrast, Lrig3
transcription is sustained in the fusion plate of age-matched Ntn1
homozygotes (G). Note that these embryos are 12 hours older than those in
A,B,E,F. (D,H) β-Galactosidase histochemistry of E12
Ntn1+/- (D) and Ntn1-/- (H)
littermates. Ntn1-βgeo is active in the fusion plate (arrowhead) in
heterozygotes (D), consistent with in situ hybridization results (see
Fig. 3). However, no activity
is detected in the lateral pouch of Ntn1 homozygotes (H).
Ntn1-βgeo expression is unchanged in the dorsal pouch (asterisks). Scale
bar: 50 µm.
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