Retinal rods evolved to be able to detect single photons. Despite their exquisite sensitivity, rods operate over many log units of light intensity. Several processes inside photoreceptor cells make this incredible light adaptation possible. Here, we added to our previously developed, fully space resolved biophysical model of rod phototransduction, some of the mechanisms that play significant roles in shaping the rod response under high illumination levels: the function of RGS9 in shutting off G protein transducin, and calcium dependences of the phosphorylation rates of activated rhodopsin, of the binding of cGMP to the light-regulated ion channel, and of two membrane guanylate cyclase activities. A well stirred version of this model capture...
Photoreceptor cells finely adjust their sensitivity and electrical response according to changes in ...
A mathematical model of the vertebrate phototransduction mechanism was designed in a modular fashion...
Vertebrate visual phototransduction is perhaps the most well-studied G-protein signaling pathway. A ...
Retinal rods evolved to be able to detect single photons. Despite their exquisite sensitivity, rods ...
Retinal rods evolved to be able to detect single photons. Despite their exquisite sensitivity, rods ...
The phototransduction cascade is paradigmatic for signaling pathways initiated by G protein-coupled ...
The temporal resolution of scotopic vision is thought to be constrained by the signaling kinetics of...
AbstractThe transduction of light by retinal rods and cones is effected by homologous G-protein casc...
The temporal resolution of the visual system progressively increases with light intensity. Under sco...
AbstractThe temporal resolution of the visual system progressively increases with light intensity. U...
We develop an improved quantitative model of mammalian rod phototransduction, and we apply it to the...
The deep understanding of the biochemical and biophysical basis of visual transduction, makes it ide...
Vertebrate vision begins when retinal photoreceptors transduce photons into electrical signals that ...
Photoreceptors of the retina adapt to ambient light in a manner that allows them to detect changes i...
Rod photoreceptors can be saturated by exposure to bright background light, so that no flash superim...
Photoreceptor cells finely adjust their sensitivity and electrical response according to changes in ...
A mathematical model of the vertebrate phototransduction mechanism was designed in a modular fashion...
Vertebrate visual phototransduction is perhaps the most well-studied G-protein signaling pathway. A ...
Retinal rods evolved to be able to detect single photons. Despite their exquisite sensitivity, rods ...
Retinal rods evolved to be able to detect single photons. Despite their exquisite sensitivity, rods ...
The phototransduction cascade is paradigmatic for signaling pathways initiated by G protein-coupled ...
The temporal resolution of scotopic vision is thought to be constrained by the signaling kinetics of...
AbstractThe transduction of light by retinal rods and cones is effected by homologous G-protein casc...
The temporal resolution of the visual system progressively increases with light intensity. Under sco...
AbstractThe temporal resolution of the visual system progressively increases with light intensity. U...
We develop an improved quantitative model of mammalian rod phototransduction, and we apply it to the...
The deep understanding of the biochemical and biophysical basis of visual transduction, makes it ide...
Vertebrate vision begins when retinal photoreceptors transduce photons into electrical signals that ...
Photoreceptors of the retina adapt to ambient light in a manner that allows them to detect changes i...
Rod photoreceptors can be saturated by exposure to bright background light, so that no flash superim...
Photoreceptor cells finely adjust their sensitivity and electrical response according to changes in ...
A mathematical model of the vertebrate phototransduction mechanism was designed in a modular fashion...
Vertebrate visual phototransduction is perhaps the most well-studied G-protein signaling pathway. A ...