The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of chordo-neural-hinge (CNH)/axial stem cells and mesoderm progenitors in the tailbud. In early embryos, Fibroblast growth factor (FGF) maintains a cell pool that progressively generates the body and differentiation onset is driven by retinoid repression of FGF signalling. This raises the possibility that FGF maintains key tailbud cell populations and that rising retinoid activity underlies cessation of body axis elongation. Here we show that sudden loss of the mesodermal gene (Brachyury) from CNH and the mesoderm progenitor domain correlates with FGF signalling decline in the late chick tailbud. This is accompanied by expansion of neural gene e...
Differentiation onset in the vertebrate body axis is controlled by a conserved switch from fibroblas...
AbstractVertebrate body axis extension involves progressive generation and subsequent differentiatio...
Vertebrate body axis extension involves progressive generation and subsequent differentiation of new...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
<div><p>The endogenous mechanism that determines vertebrate body length is unknown but must involve ...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
International audienceThe endogenous mechanism that determines vertebrate body length is unknown but...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
Differentiation onset in the vertebrate body axis is controlled by a conserved switch from fibroblas...
Differentiation onset in the vertebrate body axis is controlled by a conserved switch from fibroblas...
AbstractVertebrate body axis extension involves progressive generation and subsequent differentiatio...
Vertebrate body axis extension involves progressive generation and subsequent differentiation of new...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
<div><p>The endogenous mechanism that determines vertebrate body length is unknown but must involve ...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
International audienceThe endogenous mechanism that determines vertebrate body length is unknown but...
The endogenous mechanism that determines vertebrate body length is unknown but must involve loss of ...
Differentiation onset in the vertebrate body axis is controlled by a conserved switch from fibroblas...
Differentiation onset in the vertebrate body axis is controlled by a conserved switch from fibroblas...
AbstractVertebrate body axis extension involves progressive generation and subsequent differentiatio...
Vertebrate body axis extension involves progressive generation and subsequent differentiation of new...