Add to ORKGthe avian head mesoderm and its implication for craniofacial myogenesis. Dev. Dyn. 235
AbstractCartilage of the vertebrate jaw is derived from cranial neural crest cells that migrate to t...
<p>A) Embryology: In pentadactyl amniotes like mammals and crocodilians, the primary axis of cartila...
In the amniote embryo, the upper jaw and nasal cavities form through coordinated outgrowth and fusio...
AbstractThe lateral wall of the avian braincase, which is indicative of the primitive amniote condit...
During the development of the avian embryo, the paraxial mesoderm gives rise to segmental epithelial...
International audienceAbstractBackgroundVertebrate head development depends on a series of interacti...
The vertebrate head and face, one of the defining features of vertebrates, is an evolutionary novelt...
The vertebrate head mesoderm is the unsegmented paraxial mesoderm lateral to the developing brain, s...
Bones of the cranial vault appear to be highly conserved among tetrapod vertebrates. Moreover, bones...
Avian species display a remarkable diversity of facial morphologies, from the small, pointed, insect...
International audienceBackground: In vertebrates, the skeletal elements of the jaw, together with th...
The generation of chimeric embryos is a widespread and powerful approach to study cell fates, tissue...
Neural crest mesenchyme (NCM) controls species-specific pattern in the craniofacial skeleton but how...
BackgroundHow developmental mechanisms generate the phenotypic variation that is the raw material fo...
Orthotopic transplantation experiments have shown that in birds, under normal conditions, mesectoder...
AbstractCartilage of the vertebrate jaw is derived from cranial neural crest cells that migrate to t...
<p>A) Embryology: In pentadactyl amniotes like mammals and crocodilians, the primary axis of cartila...
In the amniote embryo, the upper jaw and nasal cavities form through coordinated outgrowth and fusio...
AbstractThe lateral wall of the avian braincase, which is indicative of the primitive amniote condit...
During the development of the avian embryo, the paraxial mesoderm gives rise to segmental epithelial...
International audienceAbstractBackgroundVertebrate head development depends on a series of interacti...
The vertebrate head and face, one of the defining features of vertebrates, is an evolutionary novelt...
The vertebrate head mesoderm is the unsegmented paraxial mesoderm lateral to the developing brain, s...
Bones of the cranial vault appear to be highly conserved among tetrapod vertebrates. Moreover, bones...
Avian species display a remarkable diversity of facial morphologies, from the small, pointed, insect...
International audienceBackground: In vertebrates, the skeletal elements of the jaw, together with th...
The generation of chimeric embryos is a widespread and powerful approach to study cell fates, tissue...
Neural crest mesenchyme (NCM) controls species-specific pattern in the craniofacial skeleton but how...
BackgroundHow developmental mechanisms generate the phenotypic variation that is the raw material fo...
Orthotopic transplantation experiments have shown that in birds, under normal conditions, mesectoder...
AbstractCartilage of the vertebrate jaw is derived from cranial neural crest cells that migrate to t...
<p>A) Embryology: In pentadactyl amniotes like mammals and crocodilians, the primary axis of cartila...
In the amniote embryo, the upper jaw and nasal cavities form through coordinated outgrowth and fusio...