Add to ORKGEctoderm cells in animal caps from Xenopus embryos develop to form either epidermis or neural tissue depending upon their receipt of intercellular signals. To date, several secreted neural inducers have been identified which act through the local inhibition of bone morphogenetic protein (BMP) signaling, preventing differentiation. to epidermis and resulting in adoption of neural fate. In this work, we have exploited an interspecies animal cap assay, which enables detection of the effects of signaling molecules produced by cells of one animal cap and influencing development in a second cap cultured in close apposition in a Hollfreter combination. We show that expression of the T-box protein, Xbra3, in one cap causes the production of a facto...
Xenopus has provided a powerful system to study cellular, developmental, and neuro-biology. The ava...
produced by Spemann’s organizer have recently been iden- but not by Xnr2. The structural basis under...
The origin of the signals that induce the differentiation of the central nervous system (CNS) is a l...
AbstractIn Xenopus, the animal cap is very sensitive to BMP antagonists, which result in neuralizati...
In Xenopus laevis, ectodermal cells are induced to form neural tissue when BMP signaling is inhibite...
AbstractThe specification of neural fate inXenopusembryos has been shown to be under regulation by n...
International audienceNeural induction is the process that initiates nervous system development in v...
AbstractBone morphogenetic protein (BMP) inhibition has been proposed as the primary determinant of ...
AbstractHomologues of the murine Brachyury gene have been shown to be involved in mesoderm formation...
AbstractCanonical Wnt signals have been implicated in multiple events during early embryogenesis, in...
AbstractRohon-Beard mechanosensory neurons (RBs), neural crest cells, and neurogenic placodes arise ...
Xenopus embryonic ectodermal cells dissociated for three or more hours differentiate into neural tis...
We have investigated the molecular interactions underlying neural crest formation in Xenopus. Using ...
In Xenopus, experiments performed with isolated ectoderm suggest that neural determination is a `by ...
Morphogens such as Hedghog, Wnt, FGF, and retinoic acid are important signals whose concentrations n...
Xenopus has provided a powerful system to study cellular, developmental, and neuro-biology. The ava...
produced by Spemann’s organizer have recently been iden- but not by Xnr2. The structural basis under...
The origin of the signals that induce the differentiation of the central nervous system (CNS) is a l...
AbstractIn Xenopus, the animal cap is very sensitive to BMP antagonists, which result in neuralizati...
In Xenopus laevis, ectodermal cells are induced to form neural tissue when BMP signaling is inhibite...
AbstractThe specification of neural fate inXenopusembryos has been shown to be under regulation by n...
International audienceNeural induction is the process that initiates nervous system development in v...
AbstractBone morphogenetic protein (BMP) inhibition has been proposed as the primary determinant of ...
AbstractHomologues of the murine Brachyury gene have been shown to be involved in mesoderm formation...
AbstractCanonical Wnt signals have been implicated in multiple events during early embryogenesis, in...
AbstractRohon-Beard mechanosensory neurons (RBs), neural crest cells, and neurogenic placodes arise ...
Xenopus embryonic ectodermal cells dissociated for three or more hours differentiate into neural tis...
We have investigated the molecular interactions underlying neural crest formation in Xenopus. Using ...
In Xenopus, experiments performed with isolated ectoderm suggest that neural determination is a `by ...
Morphogens such as Hedghog, Wnt, FGF, and retinoic acid are important signals whose concentrations n...
Xenopus has provided a powerful system to study cellular, developmental, and neuro-biology. The ava...
produced by Spemann’s organizer have recently been iden- but not by Xnr2. The structural basis under...
The origin of the signals that induce the differentiation of the central nervous system (CNS) is a l...