Add to ORKGPatterning the neuroectoderm along the anterior–posterior (AP) axis is a critical event in the early development of deuterostome embryos. However, the mechanisms that regulate the specification and patterning of the neuroectoderm are incompletely understood. Remarkably, the anterior neuroectoderm (ANE) of the deuterostome sea urchin embryo expresses many of the same transcription factors and secreted modulators of Wnt signaling, as does the early vertebrate ANE (forebrain/eye field). Moreover, as is the case in vertebrate embryos, confining the ANE to the anterior end of the embryo requires a Wnt/b-catenin-dependent signaling mechanism. Here we use morpholino- or dominant negative-mediated interference to demonstrate that the early sea urch...
Wnt/β-catenin signaling is an ancient pathway in metazoans and controls various developmental proces...
<div><p>Pattern formation along the animal-vegetal (AV) axis in sea urchin embryos is initiated when...
Key words: animal-vegetal axis; cell fate specification; endomesoderm; β-catenin; protein turnover E...
<div><p>Patterning the neuroectoderm along the anterior–posterior (AP) axis is a critical event in t...
Abstract The anterior neuroectoderm (ANE) in many deuterostome embryos (echinoderms, hemichordates, ...
Data from diverse species within the deuterostomes (mouse, frog, fish, amphioxus, hemichordate, asci...
<p>(A) Diagram showing the regulatory factors shared between the sea urchin ANE and the vertebrate f...
AbstractWe discuss recent progress in understanding how cell fates are specified along the animal–ve...
When early canonical Wnt is experimentally inhibited, sea urchin embryos embody the concept of a Def...
Wnt signaling affects cell-fate specification processes throughout embryonic development. Here we ta...
AbstractThe mechanism of animal–vegetal (AV) axis formation in the sea urchin embryo is incompletely...
AbstractIn Xenopus, the canonical Wnt-signaling pathway acting through β-catenin functions both in e...
Components of the Wnt signaling pathway are involved in patterning the sea urchin primary or animal-...
SummaryThe primary (animal-vegetal) (AV) and secondary (oral-aboral) (OA) axes of sea urchin embryos...
Wnt signaling affects cell-fate specification processes throughout embryonic development. Here we ta...
Wnt/β-catenin signaling is an ancient pathway in metazoans and controls various developmental proces...
<div><p>Pattern formation along the animal-vegetal (AV) axis in sea urchin embryos is initiated when...
Key words: animal-vegetal axis; cell fate specification; endomesoderm; β-catenin; protein turnover E...
<div><p>Patterning the neuroectoderm along the anterior–posterior (AP) axis is a critical event in t...
Abstract The anterior neuroectoderm (ANE) in many deuterostome embryos (echinoderms, hemichordates, ...
Data from diverse species within the deuterostomes (mouse, frog, fish, amphioxus, hemichordate, asci...
<p>(A) Diagram showing the regulatory factors shared between the sea urchin ANE and the vertebrate f...
AbstractWe discuss recent progress in understanding how cell fates are specified along the animal–ve...
When early canonical Wnt is experimentally inhibited, sea urchin embryos embody the concept of a Def...
Wnt signaling affects cell-fate specification processes throughout embryonic development. Here we ta...
AbstractThe mechanism of animal–vegetal (AV) axis formation in the sea urchin embryo is incompletely...
AbstractIn Xenopus, the canonical Wnt-signaling pathway acting through β-catenin functions both in e...
Components of the Wnt signaling pathway are involved in patterning the sea urchin primary or animal-...
SummaryThe primary (animal-vegetal) (AV) and secondary (oral-aboral) (OA) axes of sea urchin embryos...
Wnt signaling affects cell-fate specification processes throughout embryonic development. Here we ta...
Wnt/β-catenin signaling is an ancient pathway in metazoans and controls various developmental proces...
<div><p>Pattern formation along the animal-vegetal (AV) axis in sea urchin embryos is initiated when...
Key words: animal-vegetal axis; cell fate specification; endomesoderm; β-catenin; protein turnover E...