Add to ORKGCell shape is critical for the proper function of every cell in every tissue in the body. This is especially true for the highly morphologically diverse neural and glia cells of the central nervous system. The molecular processes by which these, or indeed any, cells gain their particular cellspecific morphology remain largely unexplored. To identify the genes involved in the morphogenesis of the principal glial cell type in the vertebrate retina, the Müller glia (MG), we used genomic and CRISPR based strategies in zebrafish (Danio rerio). We identified 41 genes involved in various aspects of MG cell morphogenesis and revealed a striking concordance between the sequential steps of anatomical feature addition and the expression of cohorts...
The formation of the central nervous system depends on the coordinated development of neural and gli...
Abstract Following acute retinal damage, zebrafish possess the ability to regenerate all neuronal su...
The retina is the neural tissue situated at the back of the eyes that samples the visual scene and s...
Cell shape is critical for the proper function of every cell in every tissue in the body. This is es...
In contrast to mammals, zebrafish are capable of regenerating retinal neurons. Essential to regenera...
Resumen del póster presentado al 11th Meeting of the Spanish Society for Developmental Biology, cele...
AbstractIn a large-scale forward-genetic screen, we discovered that a limited number of genes are re...
Resumen del póster presentado al 11th Meeting of the Spanish Society for Developmental Biology, cele...
AbstractTo gain an understanding of molecular events that underlie pattern formation in the retina, ...
Following acute retinal damage, zebrafish possess the ability to regenerate all neuronal subtypes. T...
Retinal ganglion cells (RGCs) form an array of feature detectors, which convey visual information to...
To gain an understanding of molecular events that underlie pattern formation in the retina, we evalu...
Zebrafish continuously add new rod photoreceptors to their retinas as a consequence of persistent bo...
Retinal ganglion cells are specialized nerve cells in the eye. These specialized nerve cells develop...
The formation of the central nervous system depends on the coordinated development of neural and gli...
The formation of the central nervous system depends on the coordinated development of neural and gli...
Abstract Following acute retinal damage, zebrafish possess the ability to regenerate all neuronal su...
The retina is the neural tissue situated at the back of the eyes that samples the visual scene and s...
Cell shape is critical for the proper function of every cell in every tissue in the body. This is es...
In contrast to mammals, zebrafish are capable of regenerating retinal neurons. Essential to regenera...
Resumen del póster presentado al 11th Meeting of the Spanish Society for Developmental Biology, cele...
AbstractIn a large-scale forward-genetic screen, we discovered that a limited number of genes are re...
Resumen del póster presentado al 11th Meeting of the Spanish Society for Developmental Biology, cele...
AbstractTo gain an understanding of molecular events that underlie pattern formation in the retina, ...
Following acute retinal damage, zebrafish possess the ability to regenerate all neuronal subtypes. T...
Retinal ganglion cells (RGCs) form an array of feature detectors, which convey visual information to...
To gain an understanding of molecular events that underlie pattern formation in the retina, we evalu...
Zebrafish continuously add new rod photoreceptors to their retinas as a consequence of persistent bo...
Retinal ganglion cells are specialized nerve cells in the eye. These specialized nerve cells develop...
The formation of the central nervous system depends on the coordinated development of neural and gli...
The formation of the central nervous system depends on the coordinated development of neural and gli...
Abstract Following acute retinal damage, zebrafish possess the ability to regenerate all neuronal su...
The retina is the neural tissue situated at the back of the eyes that samples the visual scene and s...