Add to ORKGComunicación presentada en II International Congress of Histology and Tissue Engineering, Córdoba, September 2007.In teleost retinas, cone photoreceptors and horizontal cells show dramatic changes related to light and dark adaptation. Light induces cone contraction and invaginations of fingerlike protrusions (spinules) into cone pedicles from horizontal cell dendrites, whilst darkness causes the opposite to happen. The aim of this study is to determine changes in cone photoreceptors and horizontal cells size during adaptation to light and darkness.Sociedad Española de Histología e Ingeniería Tisula
We have examined the effects of prolonged periods of darkness on the responses of luminosity-type ho...
<div><p>Cone photoreceptors in teleost fish are organized in precise, crystalline arrays in the epit...
AbstractWe investigate the processing of chromatic information in the outer retina of a cichlid fish...
In certain species of teleost fish, the retinal cone photoreceptors are tangentially positioned in m...
AbstractBlue acaras (Aequidens pulcher, Cichlidae) were reared for 1 yr in white or monochromatic “r...
Photo responses of triphasic horizontal cells (C3HC\u27s) in the retina of the Japanese dace show qu...
In the teleost retina, the photoreceptors and retinal pigment epithelium (RPE) undergo extensive mov...
The discovery of intrinsically photosensitive retinal ganglion cells (ipRGCs) has overthrown the lon...
To investigate the sites of light adaptation processes in the mammalian distal retina, we studied th...
The effects of dark adaptation on the response properties of ganglion cells have been documented ext...
Cone photoreceptors in teleost fish are organized in precise, crystalline arrays in the epithelial p...
<p>TEM images of cone photoreceptors in light (A, B) or dark-adapted (C, D) WT and <i>nrc<sup>a14</s...
AbstractWe have investigated the effects of light and dark adaptation on the overall morphology of b...
The long slender retinal cones of fishes shorten in the light and elongate in the dark. Light-induce...
AbstractIn the isolated goldfish retina, 700 nm background illumination increases the horizontal cel...
We have examined the effects of prolonged periods of darkness on the responses of luminosity-type ho...
<div><p>Cone photoreceptors in teleost fish are organized in precise, crystalline arrays in the epit...
AbstractWe investigate the processing of chromatic information in the outer retina of a cichlid fish...
In certain species of teleost fish, the retinal cone photoreceptors are tangentially positioned in m...
AbstractBlue acaras (Aequidens pulcher, Cichlidae) were reared for 1 yr in white or monochromatic “r...
Photo responses of triphasic horizontal cells (C3HC\u27s) in the retina of the Japanese dace show qu...
In the teleost retina, the photoreceptors and retinal pigment epithelium (RPE) undergo extensive mov...
The discovery of intrinsically photosensitive retinal ganglion cells (ipRGCs) has overthrown the lon...
To investigate the sites of light adaptation processes in the mammalian distal retina, we studied th...
The effects of dark adaptation on the response properties of ganglion cells have been documented ext...
Cone photoreceptors in teleost fish are organized in precise, crystalline arrays in the epithelial p...
<p>TEM images of cone photoreceptors in light (A, B) or dark-adapted (C, D) WT and <i>nrc<sup>a14</s...
AbstractWe have investigated the effects of light and dark adaptation on the overall morphology of b...
The long slender retinal cones of fishes shorten in the light and elongate in the dark. Light-induce...
AbstractIn the isolated goldfish retina, 700 nm background illumination increases the horizontal cel...
We have examined the effects of prolonged periods of darkness on the responses of luminosity-type ho...
<div><p>Cone photoreceptors in teleost fish are organized in precise, crystalline arrays in the epit...
AbstractWe investigate the processing of chromatic information in the outer retina of a cichlid fish...