<div><p>The neural crest (NC) is a major contributor to the vertebrate craniofacial skeleton, detailed in model organisms through embryological and genetic approaches, most notably in chick and mouse. Despite many similarities between these rather distant species, there are also distinct differences in the contribution of the NC, particularly to the calvariae of the skull. Lack of information about other vertebrate groups precludes an understanding of the evolutionary significance of these differences. Study of zebrafish craniofacial development has contributed substantially to understanding of cartilage and bone formation in teleosts, but there is currently little information on NC contribution to the zebrafish skeleton. Here, we employ a ...
The zebrafish has emerged as an important model for vertebrate development as it relates to human he...
Among teleost fishes, there is a substantial amount of diversity regarding craniofacial morphology. ...
Neural crest (NC) cells play a crucial role in vertebrate development and evolution. This cell popul...
The neural crest (NC) is a major contributor to the vertebrate craniofacial skeleton, detailed in mo...
The neural crest (NC) is a major contributor to the vertebrate craniofacial skeleton, detailed in mo...
SummaryNeural crest cells disperse throughout the embryonic head to generate diverse cell types of t...
Craniofacial anomalies are a prominent issue in newborns. In order to study a possible cause for suc...
SummaryThe trunk of fish is covered by a large variety of morphologically and structurally diverse s...
Using morphological, histological, and TEM analyses of the cranium, we provide a detailed descriptio...
<p>Diagrams depict the cartilage elements and bones that are NC-derived (green), and those that show...
In vertebrates, the craniofacial skeleton is developed from migratory multi-potent cells, the neural...
Although the vertebrate head has evolved to a wide collection of adaptive shapes, the fundamental si...
<div><p>Using morphological, histological, and TEM analyses of the cranium, we provide a detailed de...
Craniofacial development is the process of laying early cartilage and bone patterns in the anterior ...
Neural crest cells (NCCs) and mesodermal somites independently produce embryonic mesenchyme as a pre...
The zebrafish has emerged as an important model for vertebrate development as it relates to human he...
Among teleost fishes, there is a substantial amount of diversity regarding craniofacial morphology. ...
Neural crest (NC) cells play a crucial role in vertebrate development and evolution. This cell popul...
The neural crest (NC) is a major contributor to the vertebrate craniofacial skeleton, detailed in mo...
The neural crest (NC) is a major contributor to the vertebrate craniofacial skeleton, detailed in mo...
SummaryNeural crest cells disperse throughout the embryonic head to generate diverse cell types of t...
Craniofacial anomalies are a prominent issue in newborns. In order to study a possible cause for suc...
SummaryThe trunk of fish is covered by a large variety of morphologically and structurally diverse s...
Using morphological, histological, and TEM analyses of the cranium, we provide a detailed descriptio...
<p>Diagrams depict the cartilage elements and bones that are NC-derived (green), and those that show...
In vertebrates, the craniofacial skeleton is developed from migratory multi-potent cells, the neural...
Although the vertebrate head has evolved to a wide collection of adaptive shapes, the fundamental si...
<div><p>Using morphological, histological, and TEM analyses of the cranium, we provide a detailed de...
Craniofacial development is the process of laying early cartilage and bone patterns in the anterior ...
Neural crest cells (NCCs) and mesodermal somites independently produce embryonic mesenchyme as a pre...
The zebrafish has emerged as an important model for vertebrate development as it relates to human he...
Among teleost fishes, there is a substantial amount of diversity regarding craniofacial morphology. ...
Neural crest (NC) cells play a crucial role in vertebrate development and evolution. This cell popul...