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Literature DB >> 20185839

Deactivation mechanisms of rod phototransduction: the Cogan lecture.

Abstract

The absorption of photons in rods and cones of the retina activate homologous biochemical signaling cascades that lead to the electrical changes that subserve the first steps in vision. Persistent activity of the cascade interferes with the ability of the photoreceptor to signal the absorption of subsequent photons, ultimately limiting the photoreceptor's sensitivity and temporal resolution. This article summarizes recent work on transgenic and knockout mouse rods that has revealed the deactivation mechanisms essential for normal response recovery and how each of these processes contributes to the overall time course of the flash response of rods.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2010 PMID： 20185839 PMCID： PMC2845640 DOI： 10.1167/iovs.09-4366

Source DB: PubMed Journal: Invest Ophthalmol Vis Sci ISSN： 0146-0404 Impact factor: 4.799

64 in total

1. Specificity of G protein-RGS protein recognition is regulated by affinity adapters.

Authors: Kirill A Martemyanov; Johnathan A Hopp; Vadim Y Arshavsky
Journal: Neuron Date: 2003-06-19 Impact factor: 17.173

2. The influence of arrestin (48K protein) and rhodopsin kinase on visual transduction.

Authors: K Palczewski; G Rispoli; P B Detwiler
Journal: Neuron Date: 1992-01 Impact factor: 17.173

3. Phosphodiesterase activation by photoexcited rhodopsin is quenched when rhodopsin is phosphorylated and binds the intrinsic 48-kDa protein of rod outer segments.

Authors: U Wilden; S W Hall; H Kühn
Journal: Proc Natl Acad Sci U S A Date: 1986-03 Impact factor: 11.205

4. A GTPase-accelerating factor for transducin, distinct from its effector cGMP phosphodiesterase, in rod outer segment membranes.

Authors: J K Angleson; T G Wensel
Journal: Neuron Date: 1993-11 Impact factor: 17.173

Deactivation mechanisms of rod phototransduction: the Cogan lecture.

1. Specificity of G protein-RGS protein recognition is regulated by affinity adapters.

2. The influence of arrestin (48K protein) and rhodopsin kinase on visual transduction.

3. Phosphodiesterase activation by photoexcited rhodopsin is quenched when rhodopsin is phosphorylated and binds the intrinsic 48-kDa protein of rod outer segments.

4. A GTPase-accelerating factor for transducin, distinct from its effector cGMP phosphodiesterase, in rod outer segment membranes.

5. Purification and physiological evaluation of a guanylate cyclase activating protein from retinal rods.

6. Slowed recovery of rod photoresponse in mice lacking the GTPase accelerating protein RGS9-1.

7. Enhanced arrestin facilitates recovery and protects rods lacking rhodopsin phosphorylation.

8. Role for the target enzyme in deactivation of photoreceptor G protein in vivo.

9. The kinetics of inactivation of the rod phototransduction cascade with constant Ca2+i.

10. Regulation of deactivation of photoreceptor G protein by its target enzyme and cGMP.

1. Biophysical Variation within the M1 Type of Ganglion Cell Photoreceptor.

Review 2. Specialized Cilia in Mammalian Sensory Systems.

3. A quantitative account of mammalian rod phototransduction with PDE6 dimeric activation: responses to bright flashes.

Review 4. Protein and Signaling Networks in Vertebrate Photoreceptor Cells.