The cone dystrophies are a heterogeneous group of inherited disorders that result in dysfunction of the cone photoreceptors and sometimes their post-receptoral pathways. The major clinical ...

The Gonzales Lab at UNR Med, led by Albert Gonzales, Ph.D., assistant professor of physiology and cell biology, spearheaded ...

(C) Cone photoreceptors were evaluated by immunostaining of cone arrestin at P70 ... RSP: reserpine, ONL: outer nuclear layer, INL: inner nuclear layer, GCL: ganglion cell layer, *p<0.05. To assess ...

Can cats see well at night? What about at a distance? Can cats see color? And if so, which ones? Many cat parents don’t ...

This change is accompanied by changes in retinal anatomy, i.e., separation of the photoreceptor presynaptic terminals from the bipolar cell postsynaptic terminals (termed synaptic disjunction in rod ...

It could instruct neuronal maturation, allowing already-born photoreceptors to express ... same rate but produced a larger number of cells expressing cone markers. Furthermore, cells cultured ...

An EM section through the eye showing RPC. Abbreviations: cc – crystalline cones; cl – corneal lens; ePR1-3 – ectopic photoreceptors; mt – mitochondria; nuc – nuclei; pg – pigment granules; ppc – ...

Related: Can cats really see in the dark? Most people have three types of color photoreceptors, or cone cells, which are named according to the wavelengths they detect: long, middle and short.

Jan. 28, 2025 — A team of stem cell scientists have successfully used embryonic stem cell engineering to create a bi-paternal mouse -- a mouse with two male parents -- that lived until adulthood.

Cone photoreceptors were detected overlying drusen, appearing either as continuous ‘bright’ hyper-reflective dots over a ‘dark’ hyporeflective background, or as continuous ‘dark’ hyporeflective dots ...

Jan. 28, 2025 — A team of stem cell scientists have successfully used embryonic stem cell engineering to create a bi-paternal mouse -- a mouse with two male parents -- that lived until adulthood.