Integrinα5 and delta/notch signaling have complementary spatiotemporal requirements during zebrafish somitogenesis

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Abstract

Somitogenesis is the process by which the segmented precursors of the skeletal muscle and vertebral column are generated during vertebrate embryogenesis. While somitogenesis appears to be a serially homologous, reiterative process, we find that there are differences between the genetic control of early/anterior and late/posterior somitogenesis. We demonstrate that point mutations can cause segmentation defects in either the anterior, middle, or posterior somites in the zebrafish. We find that mutations in zebrafish integrinα5 disrupt anterior somite formation, giving a phenotype complementary to the posterior defects seen in the notch pathway mutants after eight/deltaD and deadly seven/notch1a. Double mutants between the notch pathway and integrinα5 display somite defects along the entire body axis, with a complete loss of the mesenchymal-to-epithelial transition and Fibronectin matrix assembly in the posterior. Our data suggest that notch- and integrinα5-dependent cell polarization and Fibronectin matrix assembly occur concomitantly and interdependently during border morphogenesis. Copyright © 2005 by Elsevier Inc.

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APA

Jülich, D., Geisler, R., Holley, S. A., Van Bebber, F., Busch-Nentwich, E., Dahm, R., … Weiler, C. (2005). Integrinα5 and delta/notch signaling have complementary spatiotemporal requirements during zebrafish somitogenesis. Developmental Cell, 8(4), 575–586. https://doi.org/10.1016/j.devcel.2005.01.016

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