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Genesis. 2016 Jan;54(1):3-18. doi: 10.1002/dvg.22908. Epub 2016 Jan 12.

Temporal and spatial requirements for Nodal-induced anterior mesendoderm and mesoderm in anterior neurulation.

Author information

1
Department of Biology, University of Minnesota Duluth, Duluth, MN.
2
Integrated Biosciences Graduate Program, University of Minnesota, Duluth, MN.

Abstract

Zebrafish with defective Nodal signaling have a phenotype analogous to the fatal human birth defect anencephaly, which is caused by an open anterior neural tube. Previous work in our laboratory found that anterior open neural tube phenotypes in Nodal signaling mutants were caused by lack of mesendodermal/mesodermal tissues. Defects in these mutants are already apparent at neural plate stage, before the neuroepithelium starts to fold into a tube. Consistent with this, we found that the requirement for Nodal signaling maps to mid-late blastula stages. This timing correlates with the timing of prechordal plate mesendoderm and anterior mesoderm induction, suggesting these tissues act to promote neurulation. To further identify tissues important for neurulation, we took advantage of the variable phenotypes in Nodal signaling-deficient sqt mutant and Lefty1-overexpressing embryos. Statistical analysis indicated a strong, positive correlation between a closed neural tube and presence of several mesendoderm/mesoderm-derived tissues (hatching glands, cephalic paraxial mesoderm, notochord, and head muscles). However, the neural tube was closed in a subset of embryos that lacked any one of these tissues. This suggests that several types of Nodal-induced mesendodermal/mesodermal precursors are competent to promote neurulation.

KEYWORDS:

Nodal; anencephaly; neural tube defects; zebrafish

PMID:
26528772
PMCID:
PMC5515471
DOI:
10.1002/dvg.22908
[Indexed for MEDLINE]
Free PMC Article

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