Trevor D Lamb scite author profile

SUMMARY1. We have undertaken a theoretical analysis of the steps contributing to the phototransduction cascade in vertebrate photoreceptors. We have explicitly considered only the activation steps, i.e. we have not dealt with the inactivation reactions.2. From the theoretical analysis we conclude that a single photoisomerization leads to activation of the phosphodiesterase (PDE) with a time course which approximates a delayed ramp; the delay is contributed by several short first-order delay stages.3. We derive a method for extracting the time course of PDE activation from the measured electrical response, and we apply this method to recordings of the photoresponse from salamander rods. The results confirm the prediction that the time course of PDE activation is a delayed ramp, with slope proportional to light intensity; the initial delay is about 10-20 ms.4. We derive approximate analytical solutions for the electrical response of the photoreceptor to light, both for bright flashes (isotropic conditions) and for single photons (involving longitudinal diffusion of cyclic GMP in the outer segment). The response to a brief flash is predicted to follow a delayed Gaussian function of time, i.e. after an initial short delay the response should begin rising in proportion to t2. Further, the response-intensity relation is predicted to obey an exponential saturation.5. These predictions are compared with experiment, and it is shown that the rising phase of the flash response is accurately described over a very wide range of intensities. We conclude that the model provides a comprehensive description of the activation steps of phototransduction at a molecular level. INTROD-UCTIONThe molecular basis of phototransduction has been studied intensively over the last decade. The steps involved in initiation of the response (i.e. in activation) are now well understood at a molecular level, but in contrast considerable doubt still surrounds the details of the mechanisms involved in termination of the state of activation (i.e. in inactivation). In this paper we show that there is now sufficient M1S 9291 T. D. LAMB AND E. N. PUGH JR quantitative information about each of the processes involved in activation to enable us to develop a formal quantitative description.Our goal has been to provide a biophysical description of the rising phase of the photoresponse, applicable over an extremely wide range of intensities, from the level of single photoisomerizations upwards. To achieve this goal we have combined current knowledge of each of the molecular steps involved in initiating phototransduction. Our model (or set of equations) is explicit in molecular terms, and depicts the activation steps in phototransduction as a series of relatively simple physical and biochemical processes, for which most of the parameters are basic physical quantities.The concepts presented here represent a synthesis of ideas originating from many groups. We briefly summarize these ideas in the next section, but for a fuller treatment of the extensive literatur...

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G Proteins and Phototransduction

Arshavsky

Lamb

Pugh

2002

Annu. Rev. Physiol.

584

469

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Phototransduction is the process by which a photon of light captured by a molecule of visual pigment generates an electrical response in a photoreceptor cell. Vertebrate rod phototransduction is one of the best-studied G protein signaling pathways. In this pathway the photoreceptor-specific G protein, transducin, mediates between the visual pigment, rhodopsin, and the effector enzyme, cGMP phosphodiesterase. This review focuses on two quantitative features of G protein signaling in phototransduction: signal amplification and response timing. We examine how the interplay between the mechanisms that contribute to amplification and those that govern termination of G protein activity determine the speed and the sensitivity of the cellular response to light.

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Trevor D Lamb

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