scholarly article | Q13442814 |
P2093 | author name string | T D Lamb | |
D Tranchina | |||
R D Hamer | |||
J L P Jarvinen | |||
S C Nicholas | |||
P2860 | cites work | Noncatalytic domains of RGS9-1.Gbeta 5L play a decisive role in establishing its substrate specificity | Q74397934 |
Molecular basis of dark adaptation in rod photoreceptors | Q77421383 | ||
RGS function in visual signal transduction | Q77434115 | ||
Variability in single photon responses: a cut in the Gordian knot of rod phototransduction? | Q77983189 | ||
Responses of retinal rods to single photons | Q24537450 | ||
Quantal components of the end-plate potential | Q24538708 | ||
The 2.8 A crystal structure of visual arrestin: a model for arrestin's regulation | Q27618047 | ||
Molecular mechanics of calcium-myristoyl switches | Q27743209 | ||
X-ray crystal structure of arrestin from bovine rod outer segments | Q27748911 | ||
The DEP Domain Determines Subcellular Targeting of the GTPase Activating Protein RGS9In Vivo | Q28183847 | ||
Structural and enzymatic aspects of rhodopsin phosphorylation | Q28277188 | ||
Absence of the RGS9.Gbeta5 GTPase-activating complex in photoreceptors of the R9AP knockout mouse | Q28505673 | ||
Recoverin regulates light-dependent phosphodiesterase activity in retinal rods | Q28586496 | ||
Abnormal photoresponses and light-induced apoptosis in rods lacking rhodopsin kinase | Q28587241 | ||
Calcium and magnesium fluxes across the plasma membrane of the toad rod outer segment | Q28609957 | ||
Amplification and kinetics of the activation steps in phototransduction | Q28708075 | ||
Bleached pigment produces a maintained decrease in outer segment Ca2+ in salamander rods | Q32161044 | ||
A comparison of the efficiency of G protein activation by ligand-free and light-activated forms of rhodopsin | Q33907981 | ||
Free calcium concentrations in bullfrog rods determined in the presence of multiple forms of Fura-2 | Q34018923 | ||
Molecular origin of continuous dark noise in rod photoreceptors | Q34041032 | ||
Adaptation in vertebrate photoreceptors. | Q34127754 | ||
Origin of reproducibility in the responses of retinal rods to single photons | Q34169073 | ||
Highly cooperative feedback control of retinal rod guanylate cyclase by calcium ions. | Q34405373 | ||
Prolonged photoresponses in transgenic mouse rods lacking arrestin | Q34442537 | ||
Multiple steps of phosphorylation of activated rhodopsin can account for the reproducibility of vertebrate rod single-photon responses | Q34686895 | ||
Cyclic GMP and calcium: the internal messengers of excitation and adaptation in vertebrate photoreceptors | Q34993884 | ||
Purification and physiological evaluation of a guanylate cyclase activating protein from retinal rods | Q35210947 | ||
G-protein cascades: gain and kinetics | Q35342116 | ||
Kinetics of recovery of the dark-adapted salamander rod photoresponse | Q35834768 | ||
Calcium feedback and sensitivity regulation in primate rods | Q36434777 | ||
The cGMP-phosphodiesterase and its contribution to sensitivity regulation in retinal rods | Q36435573 | ||
The role of steady phosphodiesterase activity in the kinetics and sensitivity of the light-adapted salamander rod photoresponse | Q36440876 | ||
Fraction of the dark current carried by Ca(2+) through cGMP-gated ion channels of intact rod and cone photoreceptors | Q36440892 | ||
Isolation and identification of the phosphorylated species of rhodopsin | Q71348461 | ||
Static and dynamic actions of cytoplasmic Ca2+ in the adaptation of responses to saturating flashes in salamander rods | Q71359112 | ||
The calcium feedback signal in the phototransduction cascade of vertebrate rods | Q71654037 | ||
Kinetics of desensitization induced by saturating flashes in toad and salamander rods | Q71673973 | ||
Bleached pigment activates transduction in isolated rods of the salamander retina | Q71675875 | ||
Effects of lowered cytoplasmic calcium concentration and light on the responses of salamander rod photoreceptors | Q71700192 | ||
Inhibition of rhodopsin kinase by recoverin. Further evidence for a negative feedback system in phototransduction | Q71869306 | ||
Modulation of transduction gain in light adaptation of retinal rods | Q72015469 | ||
Light-dependent phosphorylation of rhodopsin: number of phosphorylation sites | Q72111974 | ||
The thermal decay of the intermediates of rhodopsin in situ | Q72118830 | ||
Rhodopsin phosphorylation and dephosphorylation in vivo | Q72315710 | ||
Phosphorylation at sites near rhodopsin'scarboxyl-terminus regulates light initiated CGMP hydrolysis | Q72414579 | ||
Duration and amplitude of the light-induced cGMP hydrolysis in vertebrate photoreceptors are regulated by multiple phosphorylation of rhodopsin and by arrestin binding | Q72422681 | ||
Interaction between photoactivated rhodopsin and its kinase: stability and kinetics of complex formation | Q72655636 | ||
The presence of a calcium-sensitive p26-containing complex in bovine retina rod cells | Q72659697 | ||
Control of rhodopsin multiple phosphorylation | Q72767084 | ||
Electrophysiological methods for measurement of activation of phototransduction by bleached visual pigment in salamander photoreceptors | Q73758823 | ||
RGS9-G beta 5 substrate selectivity in photoreceptors. Opposing effects of constituent domains yield high affinity of RGS interaction with the G protein-effector complex | Q74338873 | ||
Role of calcium in regulating the cyclic GMP cascade of phototransduction in retinal rods | Q37400238 | ||
Regulation of rhodopsin kinase by autophosphorylation | Q37451420 | ||
Mechanism of quenching of phototransduction. Binding competition between arrestin and transducin for phosphorhodopsin. | Q41099124 | ||
Incorporation of calcium buffers into salamander retinal rods: a rejection of the calcium hypothesis of phototransduction | Q41380225 | ||
Interaction between photoexcited rhodopsin and peripheral enzymes in frog retinal rods. Influence on the postmetarhodopsin II decay and phosphorylation rate of rhodopsin | Q41558231 | ||
Slowed recovery of rod photoresponse in mice lacking the GTPase accelerating protein RGS9-1. | Q41719683 | ||
Computational analysis of vertebrate phototransduction: combined quantitative and qualitative modeling of dark- and light-adapted responses in amphibian rods | Q41881189 | ||
Light-dependent delay in the falling phase of the retinal rod photoresponse | Q41904074 | ||
Bleached pigment activates transduction in salamander cones | Q41937541 | ||
Phosphorylation of ovine rhodopsin. Identification of the phosphorylated sites | Q42038770 | ||
Analysis of Ca++-dependent gain changes in PDE activation in vertebrate rod phototransduction. | Q42182613 | ||
Stochastic simulation of the transducin GTPase cycle | Q42234688 | ||
The structure of mammalian rod opsins | Q42251496 | ||
Multiple phosphorylation of rhodopsin and the in vivo chemistry underlying rod photoreceptor dark adaptation | Q43702730 | ||
Specific binding of RGS9-Gbeta 5L to protein anchor in photoreceptor membranes greatly enhances its catalytic activity | Q43990174 | ||
Mechanisms regulating variability of the single photon responses of mammalian rod photoreceptors | Q44113665 | ||
Arrestin and its splice variant Arr1-370A (p44). Mechanism and biological role of their interaction with rhodopsin | Q44113739 | ||
Calcium-dependent regulation of cyclic GMP phosphodiesterase by a protein from frog retinal rods | Q44146516 | ||
Dynamics of cyclic GMP synthesis in retinal rods | Q44169798 | ||
Prolonged photoresponses and defective adaptation in rods of Gbeta5-/- mice. | Q44540527 | ||
Two realms of dark adaptation | Q45175458 | ||
Cytoplasmic free calcium concentration in dark-adapted retinal rod outer segments. | Q45994332 | ||
Photovoltage of rods and cones in the macaque retina. | Q46037733 | ||
Amino-terminal myristoylation induces cooperative calcium binding to recoverin | Q46061360 | ||
Incorporation of chelator into guinea-pig rods shows that calcium mediates mammalian photoreceptor light adaptation | Q46512873 | ||
Photoreceptor degeneration in vitamin A deprivation and retinitis pigmentosa: the equivalent light hypothesis. | Q46607690 | ||
Rapid and reproducible deactivation of rhodopsin requires multiple phosphorylation sites | Q46690154 | ||
Phototransduction mechanism in retinal rods and cones. The Friedenwald Lecture | Q48395455 | ||
Modulation of the cGMP-gated channel of rod photoreceptor cells by calmodulin | Q50336829 | ||
Phosphorylation modulates the affinity of light-activated rhodopsin for G protein and arrestin. | Q52078908 | ||
Variability in the time course of single photon responses from toad rods: termination of rhodopsin's activity. | Q52209745 | ||
Dark adaptation of toad rod photoreceptors following small bleaches. | Q52366364 | ||
Dependence of the single photon response on longitudinal position of absorption in toad rod outer segments. | Q52433103 | ||
The electrical response of turtle cones to flashes and steps of light. | Q52890396 | ||
Kinetics of phototransduction in retinal rods of the newt Triturus cristatus. | Q54102969 | ||
The gain of rod phototransduction: reconciliation of biochemical and electrophysiological measurements. | Q55034344 | ||
Ca(2+)-dependent interaction of recoverin with rhodopsin kinase. | Q55064223 | ||
A general method for numerically simulating the stochastic time evolution of coupled chemical reactions | Q55934780 | ||
Exact stochastic simulation of coupled chemical reactions | Q56536017 | ||
Calcium homeostasis in the outer segments of retinal rods from the tiger salamander | Q58792286 | ||
Spatial spread of activation and background desensitization in toad rod outer segments | Q58792449 | ||
Rhodopsin phosphorylation as a mechanism of cyclic GMP phosphodiesterase regulation by S-modulin | Q59052590 | ||
Photoreceptor light adaptation is mediated by cytoplasmic calcium concentration | Q59084701 | ||
Rhodopsin Cycle in the Living Eye of the Rat | Q59093797 | ||
Cytoplasmic calcium as the messenger for light adaptation in salamander rods | Q69418657 | ||
Protein complement of rod outer segments of frog retina | Q70150246 | ||
Mechanism of rhodopsin kinase activation | Q70231775 | ||
Assay of phosphorylation of rhodopsin in vitro and in vivo | Q70248606 | ||
Recoverin has S-modulin activity in frog rods | Q70464298 | ||
Sequential phosphorylation of rhodopsin at multiple sites | Q70742434 | ||
The involvement of rod photoreceptors in dark adaptation | Q71092381 | ||
P433 | issue | 4 | |
P304 | page(s) | 417-436 | |
P577 | publication date | 2005-07-01 | |
P1433 | published in | Visual neuroscience | Q969322 |
P1476 | title | Toward a unified model of vertebrate rod phototransduction | |
P478 | volume | 22 |
Q46913447 | A comprehensive model of the phototransduction cascade in mouse rod cells |
Q92475187 | A quantitative account of mammalian rod phototransduction with PDE6 dimeric activation: responses to bright flashes |
Q35356697 | Activation and quenching of the phototransduction cascade in retinal cones as inferred from electrophysiology and mathematical modeling |
Q37933120 | Adaptation of mammalian photoreceptors to background light: putative role for direct modulation of phosphodiesterase. |
Q28535192 | Approaches and tools for modeling signaling pathways and calcium dynamics in neurons |
Q36673993 | Calcium feedback to cGMP synthesis strongly attenuates single-photon responses driven by long rhodopsin lifetimes |
Q34444186 | Channel modulation and the mechanism of light adaptation in mouse rods |
Q35826216 | Characterization of Zebrafish Green Cone Photoresponse Recorded with Pressure-Polished Patch Pipettes, Yielding Efficient Intracellular Dialysis |
Q43248945 | Common dynamical features of sensory adaptation in photoreceptors and olfactory sensory neurons |
Q45071188 | Dephosphorylation by protein phosphatase 2A regulates visual pigment regeneration and the dark adaptation of mammalian photoreceptors. |
Q37352972 | Detection of single photons by toad and mouse rods. |
Q61800782 | Determination of basal phosphodiesterase activity in mouse rod photoreceptors with cGMP clamp |
Q30557290 | Dynamical adaptation in photoreceptors |
Q46221618 | Estimating the rate constant of cyclic GMP hydrolysis by activated phosphodiesterase in photoreceptors. |
Q42867126 | Explicit spatiotemporal simulation of receptor-G protein coupling in rod cell disk membranes |
Q43063154 | Exploring the rate-limiting steps in visual phototransduction recovery by bottom-up kinetic modeling |
Q57031074 | Fractional integral-like processing in retinal cones reduces noise and improves adaptation |
Q24610655 | G-protein betagamma-complex is crucial for efficient signal amplification in vision |
Q87354160 | Impact of cone dystrophy-related mutations in GCAP1 on a kinetic model of phototransduction |
Q33615022 | Kinetics of M1 muscarinic receptor and G protein signaling to phospholipase C in living cells |
Q36946699 | Kinetics of turn-offs of frog rod phototransduction cascade |
Q46163928 | Not all quiet on the noise front |
Q41008409 | Origins of the phototransduction delay as inferred from stochastic and deterministic simulation of the amplification cascade |
Q39035226 | Phototransduction early steps model based on Beer-Lambert optical law. |
Q26774837 | Protein and Signaling Networks in Vertebrate Photoreceptor Cells |
Q37036865 | Quantitative modeling of the molecular steps underlying shut-off of rhodopsin activity in rod phototransduction |
Q35603578 | Regression of early diabetic macular oedema is associated with prevention of dark adaptation |
Q37089132 | Regulation of arrestin binding by rhodopsin phosphorylation level |
Q30382885 | Rhodopsin: the functional significance of asn-linked glycosylation and other post-translational modifications |
Q36295630 | Shedding light on cones |
Q34243121 | Speed, adaptation, and stability of the response to light in cone photoreceptors: the functional role of Ca-dependent modulation of ligand sensitivity in cGMP-gated ion channels |
Q28729137 | Speed, sensitivity, and stability of the light response in rod and cone photoreceptors: facts and models |
Q35682066 | Structural and functional protein network analyses predict novel signaling functions for rhodopsin |
Q42878380 | Systems biochemistry approaches to vertebrate phototransduction: towards a molecular understanding of disease |
Q37280502 | The 9-methyl group of retinal is essential for rapid Meta II decay and phototransduction quenching in red cones. |
Q57022039 | The PDE6 mutation in the rd10 retinal degeneration mouse model causes protein mislocalization and instability and promotes cell death through increased ion influx |
Q48109894 | The Probabilistic Cell: Implementation of a Probabilistic Inference by the Biochemical Mechanisms of Phototransduction |
Q41963757 | The dynamics of phosphodiesterase activation in rods and cones |
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