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Fig. 4. (A-G) Early function of Tbx2b and Fz7 is required for cell adhesion. The
smooth surface of (A) a wild-type gastrulating embryo, is in contrast to the
`rough phenotype' (black arrows) in (B) Tbx2b and (C) Fz7 morphants. (D) In
control, dissociated 6 hpf cells labelled with fluorescein (green) and Texas
Red (red) formed a single aggregate after 24 hours in hanging drop culture. By
contrast, cells derived from fluorescein-labelled (E) Tbx2b- and (F)
Fz7-morphant cells formed single layer shells around wild-type Texas
Red-labelled aggregates. (G) Western blot with a pan-cadherin antibody showed
that the level of cadherins in Tbx2b and Fz7 morphants remained the same or
declined in contrast to the control. (H-M) Cell movement during gastrulation
was affected in Fz7- or Tbx2b-deficient cells. Control cells with fluorescein
and Texas Red transplanted into wild-type host at (H) 30% epiboly co-migrated
towards the dorsal side by (I) 50% epiboly, but fluorescein labelled (J) Tbx2b
and (K) Fz7 morphant cells were unable to migrate (white arrowheads indicate
position of the shield). A 10 hpf embryo stained for fluorescein (brown) shows
that transplanted (L) Tbx2b and (M) Fz7 morphant cells were excluded from the
sox19-positive neural plate. (N-Q) Flat mounts of 10 hpf embryos,
double stained for fluorescein (brown) and sox19 (blue), after single
cell injection at 16-cell stage with (N) PKA, (O) XFD, (P) dn-Fz7 and (Q)
fz7 MO.
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