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Fig. 7. A myosin IIB-dependent cortical actin network functions to integrate
cell adhesion and polarization to generate directed forces driving
morphogenesis. (A) Cell intercalation in the Xenopus
notochord requires two distinct cell activities: cell contraction in the cell
body (gray arrows) and polarized protrusive activity (black arrows).
(B) Contraction events are driven by the myosin IIB-dependent cortical
actin network (green lines), which is organized into dynamic foci (black) and
interacts with myosin IIB at adhesion sites (red). (C) Integrating this
episodic cell shortening with polarized protrusive activity and dynamically
regulated myosin IIB-dependent adhesion leads to cell intercalation (white
arrows) and tissue-level convergence and extension (large black arrows). The
deeply interdigitated notochordal cells at this stage have adopted a monopolar
protrusive activity (small black arrows). The extracellular matrix of the NSB
is lateral in each case.
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