Add to ORKGRod photoreceptors are among the most sensitive light detectors in nature. They achieve their remarkable sensitivity across a wide variety of species through a number of essential adaptations: a specialized cellular geometry, a G-protein cascade with an unusually stable receptor molecule, a low-noise transduction mechanism, a nearly perfect effector enzyme, and highly evolved mechanisms of feedback control and receptor deactivation. Practically any change in protein expression, enzyme activity, or feedback control can be shown to impair photon detection, either by decreasing sensitivity or signal-to-noise ratio, or by reducing temporal resolution. Comparison of mammals to amphibians suggests that rod outer-segment morphology and the molecul...
Sensitivity and dynamic range are two important characteristics of sensory receptors in the nervous ...
Rod and cone photoreceptors support vision across large light intensity ranges. Rods, active under d...
Amphibian and mammalian rods can both detect single photons of light even though they differ greatly...
Vision begins in the retina, where photoreceptors have the task of discriminating incomingphotons fr...
Human vision is exquisitely sensitive-a dark-adapted observer is capable of reliably detecting the a...
Rod photoreceptors can be saturated by exposure to bright background light, so that no flash superim...
Lamprey are cyclostomes, which diverged from jawed vertebrates (fishes, amphibians, mammals) in the ...
AbstractVariability in the single photon responses of rod photoreceptors limits the accuracy with wh...
Most vertebrates have a duplex retina containing rods for dim light vision and cones for bright ligh...
AbstractMore than 100 photopigment G protein-coupled receptors (opsins) have been sequenced and orga...
The excitatory processes and the reactions of the rhodopsin photoproducts in vertebrate rods are sum...
One hundred and fifty years ago Max Schultze first proposed the duplex theory of vision, that verteb...
Vertebrate vision begins when retinal photoreceptors transduce photons into electrical signals that ...
Visually guided behaviour at its sensitivity limit relies on single-photon responses originating in ...
The high sensitivity of night vision requires that rod photoreceptors reliably and reproducibly sign...
Sensitivity and dynamic range are two important characteristics of sensory receptors in the nervous ...
Rod and cone photoreceptors support vision across large light intensity ranges. Rods, active under d...
Amphibian and mammalian rods can both detect single photons of light even though they differ greatly...
Vision begins in the retina, where photoreceptors have the task of discriminating incomingphotons fr...
Human vision is exquisitely sensitive-a dark-adapted observer is capable of reliably detecting the a...
Rod photoreceptors can be saturated by exposure to bright background light, so that no flash superim...
Lamprey are cyclostomes, which diverged from jawed vertebrates (fishes, amphibians, mammals) in the ...
AbstractVariability in the single photon responses of rod photoreceptors limits the accuracy with wh...
Most vertebrates have a duplex retina containing rods for dim light vision and cones for bright ligh...
AbstractMore than 100 photopigment G protein-coupled receptors (opsins) have been sequenced and orga...
The excitatory processes and the reactions of the rhodopsin photoproducts in vertebrate rods are sum...
One hundred and fifty years ago Max Schultze first proposed the duplex theory of vision, that verteb...
Vertebrate vision begins when retinal photoreceptors transduce photons into electrical signals that ...
Visually guided behaviour at its sensitivity limit relies on single-photon responses originating in ...
The high sensitivity of night vision requires that rod photoreceptors reliably and reproducibly sign...
Sensitivity and dynamic range are two important characteristics of sensory receptors in the nervous ...
Rod and cone photoreceptors support vision across large light intensity ranges. Rods, active under d...
Amphibian and mammalian rods can both detect single photons of light even though they differ greatly...