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RGS9 concentration matters in rod phototransduction.


ABSTRACT: The transduction of light by retinal rods and cones is effected by homologous G-protein cascades whose rates of activation and deactivation determine the sensitivity and temporal resolution of photoreceptor signaling. In mouse rods, the rate-limiting step of deactivation is hydrolysis of GTP by the G-protein-effector complex, catalyzed by the RGS9 complex. Here, we incorporate a "Michaelis module" describing the RGS9 reaction into the conventional scheme for phototransduction and show that this augmented scheme can account precisely for the dominant recovery rate of intact rods in which RGS9 expression varies over a 20-fold range. Furthermore, by screening the parameter space of the scheme with maximum-likelihood methodology, we tested specific hypotheses about the rate constant for rhodopsin deactivation, and about the forward, reverse, and catalytic constants for RGS9-mediated G-protein deactivation. These tests reliably exclude lifetimes > approximately 50 ms for rhodopsin, and reveal that the dominant time constant of rod photoresponse recovery is 1/(V(max)/K(m)) for the RGS9 reaction, with k(cat)/K(m) approximately = 0.04 microm(2) s(-1) and k(cat) > 35 s(-1) (or K(m) > 840 microm(-2)). All together, the new kinetic scheme and analysis explain how and why RGS9 concentration matters in rod phototransduction, and they provide a framework for understanding the molecular mechanisms that rate-limit deactivation in other G-protein systems.

SUBMITTER: Burns ME 

PROVIDER: S-EPMC2749774 | biostudies-literature | 2009 Sep

REPOSITORIES: biostudies-literature

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RGS9 concentration matters in rod phototransduction.

Burns Marie E ME   Pugh Edward N EN  

Biophysical journal 20090901 6


The transduction of light by retinal rods and cones is effected by homologous G-protein cascades whose rates of activation and deactivation determine the sensitivity and temporal resolution of photoreceptor signaling. In mouse rods, the rate-limiting step of deactivation is hydrolysis of GTP by the G-protein-effector complex, catalyzed by the RGS9 complex. Here, we incorporate a "Michaelis module" describing the RGS9 reaction into the conventional scheme for phototransduction and show that this  ...[more]

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