Light-regulated subcellular translocation of drosophila TRPL channels induces long-term adaptation and modifies the light-induced current

Monika Bähner; Shahar Frechter; Noel Da Silva; Baruch Minke; Reinhard Paulsen; Armin Huber

doi:10.1016/S0896-6273(02)00630-X

Light-regulated subcellular translocation of drosophila TRPL channels induces long-term adaptation and modifies the light-induced current

Monika Bähner
, Shahar Frechter
, Noel Da Silva
, Baruch Minke
, Reinhard Paulsen
, Armin Huber^*

^*Corresponding author for this work

Institute for Medical Research Israel-Canada (IMRIC)

Research output: Contribution to journal › Article › peer-review

128 Scopus citations

Abstract

Drosophila phototransduction results in the opening of two classes of cation channels, composed of the channel subunits transient receptor potential (TRP), TRP-like (TRPL), and TRPγ. Here, we report that one of these subunits, TRPL, is translocated back and forth between the signaling membrane and an intracellular compartment by a light-regulated mechanism. A high level of rhabdomeral TRPL, characteristic of dark-raised flies, is functionally manifested in the properties of the light-induced current. These flies are more sensitive than flies with no or reduced TRPL level to dim background lights, and they respond to a wider range of light intensities, which fit them to function better in darkness or dim background illumination. Thus, TRPL translocation represents a novel mechanism to fine tune visual responses.

Original language	English
Pages (from-to)	83-93
Number of pages	11
Journal	Neuron
Volume	34
Issue number	1
DOIs	https://doi.org/10.1016/S0896-6273(02)00630-X
State	Published - 28 Mar 2002

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title = "Light-regulated subcellular translocation of drosophila TRPL channels induces long-term adaptation and modifies the light-induced current",

abstract = "Drosophila phototransduction results in the opening of two classes of cation channels, composed of the channel subunits transient receptor potential (TRP), TRP-like (TRPL), and TRPγ. Here, we report that one of these subunits, TRPL, is translocated back and forth between the signaling membrane and an intracellular compartment by a light-regulated mechanism. A high level of rhabdomeral TRPL, characteristic of dark-raised flies, is functionally manifested in the properties of the light-induced current. These flies are more sensitive than flies with no or reduced TRPL level to dim background lights, and they respond to a wider range of light intensities, which fit them to function better in darkness or dim background illumination. Thus, TRPL translocation represents a novel mechanism to fine tune visual responses.",

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T1 - Light-regulated subcellular translocation of drosophila TRPL channels induces long-term adaptation and modifies the light-induced current

AU - Bähner, Monika

AU - Frechter, Shahar

AU - Da Silva, Noel

AU - Minke, Baruch

AU - Paulsen, Reinhard

AU - Huber, Armin

PY - 2002/3/28

Y1 - 2002/3/28

N2 - Drosophila phototransduction results in the opening of two classes of cation channels, composed of the channel subunits transient receptor potential (TRP), TRP-like (TRPL), and TRPγ. Here, we report that one of these subunits, TRPL, is translocated back and forth between the signaling membrane and an intracellular compartment by a light-regulated mechanism. A high level of rhabdomeral TRPL, characteristic of dark-raised flies, is functionally manifested in the properties of the light-induced current. These flies are more sensitive than flies with no or reduced TRPL level to dim background lights, and they respond to a wider range of light intensities, which fit them to function better in darkness or dim background illumination. Thus, TRPL translocation represents a novel mechanism to fine tune visual responses.

AB - Drosophila phototransduction results in the opening of two classes of cation channels, composed of the channel subunits transient receptor potential (TRP), TRP-like (TRPL), and TRPγ. Here, we report that one of these subunits, TRPL, is translocated back and forth between the signaling membrane and an intracellular compartment by a light-regulated mechanism. A high level of rhabdomeral TRPL, characteristic of dark-raised flies, is functionally manifested in the properties of the light-induced current. These flies are more sensitive than flies with no or reduced TRPL level to dim background lights, and they respond to a wider range of light intensities, which fit them to function better in darkness or dim background illumination. Thus, TRPL translocation represents a novel mechanism to fine tune visual responses.

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Light-regulated subcellular translocation of drosophila TRPL channels induces long-term adaptation and modifies the light-induced current

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