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Fig. 6. A model of ascidian notochord morphogenesis. In wild-type embryos,
the PCP pathway mediates mediolateral intercalation behavior and a
perinotochordal laminin-containing ECM mediates boundary formation. When the
PCP pathway is disrupted in aim/aim embryos,
mediolaterally-biased notochord cell intercalation is perturbed but
considerable convergence and extension still slowly occur. This may be the
result of randomly moving notochord cells being `trapped' where they
stochastically contact the notochord boundary. The PCP pathway is also
required to maintain perinotochordal/intranotochordal
Cs-lam
3/4/5 polarity. The failure of aim/aim
notochord cells to complete the final stages of intercalation may reflect this
deposition of laminin on intranotochordal surfaces. In
chm/chm embryos there is a defect in perinotochordal
boundary formation and notochord cells become dispersed in the tail. Despite
this morphogenetic defect, there is still a moderate degree of convergence and
extension, which is probably due to the PCP pathway given that the
aim/aim;chm/chm double mutant shows a near
complete failure in convergence and extension. Although the lack of epistasis
suggests that the two processes act at least partly in parallel, the true
relationship is clearly complex, given the role of aim in maintaining
Cs-lam3/4/5 polarity and the role of
Cs-lam3/4/5 in maintaining polarized cell behaviors. wt, wild
type.
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