Add to ORKGQuail grafts of Hensen's node were examined for their potential to induce somites in chick blastoderms. The origin of the structures induced depended on the distance of the graft from the host's midline. Nodes placed at the margin of the area pellucida resulted in structures differentiated from the cells of the graft, whereas medially the graft organized host cells to form rows of somites. The results are discussed in terms of competence of graft and host mesenchyme and a positional signal from the node
<p>(A) Schematic representation of the chick neural fold replacement by its quail counterpart (red) ...
movem regulat underst origina 1977). Cells at the lateral edge of the somite at the limb level migra...
AbstractIn the early chick embryo, an apical ectodermal ridge (AER) is formed from the overlying ect...
The segmentation of somites in the chick embryo has been studied by transmission and scanning electr...
Supernumerary wing structures are readily produced by grafting pieces of wing-bud mesoderm into diff...
T H I S paper is concerned with the influences which cause undifferentiated meso-derm to become conv...
An analysis was made of the differentiative capabilities of somites isolated from all regions of sta...
We have investigated the interactions between the cells of the rostral and caudal halves of the chic...
The chick embryo is a valuable tool in the study of early embryonic development. Its transparency, a...
Previous studies showed that grafting wedges of fresh or cultured anterior quail wing mesoderm into ...
In a previous paper it was suggested that collagen fibrils play an important role in the process of ...
A model for the positionally-related control of cartilage differentiation in the developing avian wi...
The author has been using post-nodal segments of early chick blastoderms as an experimental system t...
We have studied the lineage history of the progenitors of the somite mesoderm and of the neural tube...
The purpose of this study was to determine whether the organizer regions of early avian and amphibia...
<p>(A) Schematic representation of the chick neural fold replacement by its quail counterpart (red) ...
movem regulat underst origina 1977). Cells at the lateral edge of the somite at the limb level migra...
AbstractIn the early chick embryo, an apical ectodermal ridge (AER) is formed from the overlying ect...
The segmentation of somites in the chick embryo has been studied by transmission and scanning electr...
Supernumerary wing structures are readily produced by grafting pieces of wing-bud mesoderm into diff...
T H I S paper is concerned with the influences which cause undifferentiated meso-derm to become conv...
An analysis was made of the differentiative capabilities of somites isolated from all regions of sta...
We have investigated the interactions between the cells of the rostral and caudal halves of the chic...
The chick embryo is a valuable tool in the study of early embryonic development. Its transparency, a...
Previous studies showed that grafting wedges of fresh or cultured anterior quail wing mesoderm into ...
In a previous paper it was suggested that collagen fibrils play an important role in the process of ...
A model for the positionally-related control of cartilage differentiation in the developing avian wi...
The author has been using post-nodal segments of early chick blastoderms as an experimental system t...
We have studied the lineage history of the progenitors of the somite mesoderm and of the neural tube...
The purpose of this study was to determine whether the organizer regions of early avian and amphibia...
<p>(A) Schematic representation of the chick neural fold replacement by its quail counterpart (red) ...
movem regulat underst origina 1977). Cells at the lateral edge of the somite at the limb level migra...
AbstractIn the early chick embryo, an apical ectodermal ridge (AER) is formed from the overlying ect...