The TRP channel and phospholipase C-mediated signaling
B Minke - Cellular and molecular neurobiology, 2001 - Springer
Cellular and molecular neurobiology, 2001•Springer
Drosophila photoreceptors use a phospholipase C-mediated signaling for
phototransduction. This pathway begins by light activation of a G-protein-coupled
photopigment and ends by activation of the TRP and TRPL channels. The Drosophila TRP
protein is essential for the high Ca 2+ permeability and constitutes the major component of
the light-induced current, thereby affecting both excitation and adaptation of the
photoreceptor cell. TRP is the prototype of a large and diverse multigene family whose …
phototransduction. This pathway begins by light activation of a G-protein-coupled
photopigment and ends by activation of the TRP and TRPL channels. The Drosophila TRP
protein is essential for the high Ca 2+ permeability and constitutes the major component of
the light-induced current, thereby affecting both excitation and adaptation of the
photoreceptor cell. TRP is the prototype of a large and diverse multigene family whose …
Abstract
Drosophila photoreceptors use a phospholipase C-mediated signaling for phototransduction. This pathway begins by light activation of a G-protein-coupled photopigment and ends by activation of the TRP and TRPL channels. The Drosophila TRP protein is essential for the high Ca2+ permeability and constitutes the major component of the light-induced current, thereby affecting both excitation and adaptation of the photoreceptor cell. TRP is the prototype of a large and diverse multigene family whose members are sharing a structure, which is conserved through evolution from the worm Caenorhabditis elegans to humans. TRP-related channel proteins are found in a variety of cells and tissues and show a large functional diversity although the gating mechanism of Drosophila TRP and of other TRP-related channels is still unknown.
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