Deactivation mechanisms of rod phototransduction
University Of California At Davis, Davis CA
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Abstract
Project Summary The absorption of photons in rods and cones of the retina activates a cascade of biochemical reactions (phototransduction cascade) that generates the electrical response to light. The activation and deactivation of the cascade ultimately limits the amplitude and kinetics of the transduced signal, and thus the sensitivity and temporal resolution of vision. The overall goal of this study is to understand the mechanisms that turn off the light response in intact mouse photoreceptors. Gene targeting techniques will be used to manipulate the function of a subset of proteins that have been suggested to play key roles in deactivation of the cascade, and the resulting changes in the photoresponses of single rod cells will be determined by electrical recording and changes in protein localization determined by real-time 2-photon imaging. Using these approaches, we will address three important questions: (1) What is the time course of rhodopsin deactivation, and how is it determined by the interactions between rhodopsin kinase (GRK1) and arrestin (Arr1)? (2) How does G*-E* deactivation determine recovery of the flash response, and how does changing the rate of this deactivation get relayed across the synapse to affect visual function? and (3) What are the long-lasting mechanisms of light adaptation that alter the kinetics of photoresponse deactivation?
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