A Calcium-Relay Mechanism in Vertebrate Phototransduction

ArticleinACS Chemical Neuroscience 4(6) · March 2013with10 Reads
Impact Factor: 4.36 · DOI: 10.1021/cn400027z · Source: PubMed

    Abstract

    Calcium-signaling in cells requires a fine-tuned system of calcium-transport proteins involving ion channels, exchangers and ion-pumps, but also calcium-sensor proteins and their targets. Thus, control of physiological responses very often depends on incremental changes of the cytoplasmic calcium concentration, which are sensed by calcium-binding proteins and are further transmitted to specific target proteins. This review will focus on calcium-signaling in vertebrate photoreceptor cells, where recent physiological and biochemical data indicate that a subset of neuronal calcium sensor proteins named guanylate cyclase-activating proteins (GCAPs) operate in a calcium-relay system, namely to make gradual responses to small changes in calcium. We will further integrate this mechanism in an existing computational model of phototransduction showing that it is consistent and compatible with the dynamics that are characteristic for the precise operation of the phototransduction pathways.