Citation

Ramanathan S, Detwiler PB, Sengupta AM, Shraiman BI. 2005. G-protein-coupled enzyme cascades have intrinsic properties that improve signal localization and fidelity. Biophysical journal. 88(5):3063-71. Pubmed: 15681646

Abstract

G-protein-coupled enzyme cascades are used by eukaryotic cells to detect external signals and transduce them into intracellular messages that contain biological information relevant to the cell's function. Since G-protein-coupled receptors that are designed to detect different kinds of external signals can generate the same kind of intracellular response, effective signaling requires that there are mechanisms to increase signal specificity and fidelity. Here we examine the kinetic equations for the initial three stages in a generic G-protein-coupled cascade and show that the physical properties of the transduction pathway result in two intrinsic features that benefit signaling. 1), The response to a single activated receptor is naturally confined to a localized spatial domain, which could improve signal specificity by reducing cross talk. 2), The peak of the response generated by such a signaling domain is limited. This saturation effect reduces trial-to-trial variability and increases signaling fidelity by limiting the response to receptors that remain active for longer than average. We suggest that this mechanism for reducing response fluctuations may be a contributing factor in making the single photon responses of vertebrate retinal rods so remarkably reproducible.

Related Faculty

Photo of Sharad Ramanathan

Sharad Ramanathan investigates how multi-potent stem cells make fate decisions to give rise to complex human tissues, and how the dynamics of key neurons in the nervous system drive behavioral decisions.

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