色氨酸和钙在调节果蝇光感受器功能中的作用。

The roles of trp and calcium in regulating photoreceptor function in Drosophila.

作者信息

Minke B, Selinger Z

机构信息

Department of Physiology, The Hebrew University - Hadassah Medical School, Jerusalem 91120, Israel.

出版信息

Curr Opin Neurobiol. 1996 Aug;6(4):459-66. doi: 10.1016/s0959-4388(96)80050-x.

DOI:10.1016/s0959-4388(96)80050-x

PMID:8794093

Abstract

Invertebrate photoreceptors use the ubiquitous inositol-lipid signaling pathway for phototransduction. This pathway depends on Ca2+ release from internal stores and on Ca2+ entry via light-activated channels to replenish the loss of Ca2+ in those stores. The Drosophila transient receptor potential (TRP) protein is essential for the high Ca2+ permeability and other biophysical properties of these light-activated channels, which affect both excitation and adaptation in photoreceptor cells. Physiological and heterologous expression studies indicate that TRP is a putative subunit of a surface membrane channel that can be activated by depletion of internal Ca2+ stores. Furthermore, trp is an archetypal member of a multigene family whose products share a structure that is highly conserved throughout evolution, from worms to humans.

摘要

无脊椎动物的光感受器利用普遍存在的肌醇脂质信号通路进行光转导。该通路依赖于从内部储存库释放Ca2+以及通过光激活通道进入Ca2+以补充这些储存库中Ca2+的损失。果蝇瞬时受体电位（TRP）蛋白对于这些光激活通道的高Ca2+通透性和其他生物物理特性至关重要，这些特性会影响光感受器细胞的兴奋和适应。生理学和异源表达研究表明，TRP是一种表面膜通道的假定亚基，可通过内部Ca2+储存库的耗尽而被激活。此外，trp是一个多基因家族的原型成员，其产物具有在从蠕虫到人类的整个进化过程中高度保守的结构。

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色氨酸和钙在调节果蝇光感受器功能中的作用。

The roles of trp and calcium in regulating photoreceptor function in Drosophila.

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