Several lines of evidence suggest that the extraembryonic endoderm of vertebrate embryos plays an important role in the development of rostral neural structures. In mice, neural inductive signals are thought to reside in an area of visceral endoderm that expresses the Hex gene. Here, we have conducted a morphological and lineage analysis of visceral endoderm cells spanning pre- and postprimitive streak stages. Our results show that Hex-expressing cells have a tall, columnar epithelial morphology, which distinguishes them from other visceral endoderm cells. This region of visceral endoderm thickening (VET) is found overlying first the distal and then one side of the epiblast at stages between 5.5 and 5.75 days post coitum (d.p.c.). In additi...
International audienceInitiation of the development of the anterior-posterior axis in the mouse embr...
AbstractThe initial landmark of anterior–posterior (A–P) axis formation in mouse embryos is the dist...
<p>DIC (<b>1 </b><b>A–C</b>) and Scanning EM (<b>1 </b><b>D–F</b>) images of END2 (<b>1 </b><b>A, D<...
Several lines of evidence suggest that the extraembryonic endoderm of vertebrate embryos plays an im...
AbstractSeveral lines of evidence suggest that the extraembryonic endoderm of vertebrate embryos pla...
SummaryThe cell movements underlying the morphogenesis of the embryonic endoderm, the tissue that wi...
Background: Reciprocal interactions between two extra-embryonic tissues, the extra-embryonic ectoder...
AbstractThe anterior visceral endoderm (AVE) has attracted recent attention as a critical player in ...
Anterior-posterior axis specification in the mouse requires signalling from a specialised extra-embr...
Anterior-posterior (A-P) axis specification requires signalling from a specialised extraembryonic ti...
The very early mouse embryo is initially covered by a layer of cells called visceral endoderm that d...
Anterior-posterior axis specification in the mouse requires signalling from a specialised extra-embr...
International audienceBACKGROUND: Reciprocal interactions between two extra-embryonic tissues, the e...
International audienceReciprocal interactions between extra-embryonic and embryonic tissues are requ...
SummaryIn amniotes, ventral folding morphogenesis achieves gut internalization, linear heart tube fo...
International audienceInitiation of the development of the anterior-posterior axis in the mouse embr...
AbstractThe initial landmark of anterior–posterior (A–P) axis formation in mouse embryos is the dist...
<p>DIC (<b>1 </b><b>A–C</b>) and Scanning EM (<b>1 </b><b>D–F</b>) images of END2 (<b>1 </b><b>A, D<...
Several lines of evidence suggest that the extraembryonic endoderm of vertebrate embryos plays an im...
AbstractSeveral lines of evidence suggest that the extraembryonic endoderm of vertebrate embryos pla...
SummaryThe cell movements underlying the morphogenesis of the embryonic endoderm, the tissue that wi...
Background: Reciprocal interactions between two extra-embryonic tissues, the extra-embryonic ectoder...
AbstractThe anterior visceral endoderm (AVE) has attracted recent attention as a critical player in ...
Anterior-posterior axis specification in the mouse requires signalling from a specialised extra-embr...
Anterior-posterior (A-P) axis specification requires signalling from a specialised extraembryonic ti...
The very early mouse embryo is initially covered by a layer of cells called visceral endoderm that d...
Anterior-posterior axis specification in the mouse requires signalling from a specialised extra-embr...
International audienceBACKGROUND: Reciprocal interactions between two extra-embryonic tissues, the e...
International audienceReciprocal interactions between extra-embryonic and embryonic tissues are requ...
SummaryIn amniotes, ventral folding morphogenesis achieves gut internalization, linear heart tube fo...
International audienceInitiation of the development of the anterior-posterior axis in the mouse embr...
AbstractThe initial landmark of anterior–posterior (A–P) axis formation in mouse embryos is the dist...
<p>DIC (<b>1 </b><b>A–C</b>) and Scanning EM (<b>1 </b><b>D–F</b>) images of END2 (<b>1 </b><b>A, D<...