Add to ORKGLack or excess expression of the surface ectoderm-expressed transcription factor Grainyhead-like2 (Grhl2), each prevent spinal neural tube closure. Here we investigate the causative mechanisms and find reciprocal dysregulation of epithelial genes, cell junction components and actomyosin properties in Grhl2 null and over-expressing embryos. Grhl2 null surface ectoderm shows a shift from epithelial to neuroepithelial identity (with ectopic expression of N-cadherin and Sox2), actomyosin disorganisation, cell shape changes and diminished resistance to neural fold recoil upon ablation of the closure point. In contrast, excessive abundance of Grhl2 generates a super-epithelial surface ectoderm, in which up-regulation of cell-cell junction protein...
During neural tube closure, regulated changes at the level of individual cells are translated into l...
The aim of this project was to investigate the causes of spinal neural tube defects (NTDs), using th...
The molecular basis of neural fold adhesion and fusion in closure of the mouse spinal neural tube is...
Failure of neural tube closure leads to neural tube defects (NTDs), common congenital abnormalities ...
Failure of neural tube closure leads to neural tube defects (NTDs), common congenital abnormalities ...
Development of the neural tube (NT), the embryonic precursor to the brain and spinal cord, consists ...
AbstractDefects in closure of embryonic tissues such as the neural tube, body wall, face and eye lea...
AbstractPrimary neurulation in mammals has been defined by distinct anatomical closure sites, at the...
Cranial neural tube defects (NTDs) occur in mice carrying mutant alleles of many different genes, wh...
Mammalian neurulation is completed when the dorsolateral neural folds bend inwards, their tips make ...
Epithelial fusion is a crucial process in embryonic development, and its failure underlies several c...
Human mutations in the planar cell polarity component VANGL2 are associated with the neural tube def...
SummaryYour brain and spinal cord began as a flat sheet, which narrowed, elongated, and rolled up to...
The claudin family of tight junction proteins regulates paracellular permeability, apical-basal cell...
AbstractDuring primary neurulation, the separation of a single-layered ectodermal sheet into the sur...
During neural tube closure, regulated changes at the level of individual cells are translated into l...
The aim of this project was to investigate the causes of spinal neural tube defects (NTDs), using th...
The molecular basis of neural fold adhesion and fusion in closure of the mouse spinal neural tube is...
Failure of neural tube closure leads to neural tube defects (NTDs), common congenital abnormalities ...
Failure of neural tube closure leads to neural tube defects (NTDs), common congenital abnormalities ...
Development of the neural tube (NT), the embryonic precursor to the brain and spinal cord, consists ...
AbstractDefects in closure of embryonic tissues such as the neural tube, body wall, face and eye lea...
AbstractPrimary neurulation in mammals has been defined by distinct anatomical closure sites, at the...
Cranial neural tube defects (NTDs) occur in mice carrying mutant alleles of many different genes, wh...
Mammalian neurulation is completed when the dorsolateral neural folds bend inwards, their tips make ...
Epithelial fusion is a crucial process in embryonic development, and its failure underlies several c...
Human mutations in the planar cell polarity component VANGL2 are associated with the neural tube def...
SummaryYour brain and spinal cord began as a flat sheet, which narrowed, elongated, and rolled up to...
The claudin family of tight junction proteins regulates paracellular permeability, apical-basal cell...
AbstractDuring primary neurulation, the separation of a single-layered ectodermal sheet into the sur...
During neural tube closure, regulated changes at the level of individual cells are translated into l...
The aim of this project was to investigate the causes of spinal neural tube defects (NTDs), using th...
The molecular basis of neural fold adhesion and fusion in closure of the mouse spinal neural tube is...