趋光性
视觉光转导
生物
黑暗
光遗传学
去极化
神经科学
秀丽隐杆线虫
感觉系统
环核苷酸门控离子通道
光敏色素
生物物理学
细胞生物学
视网膜
环核苷酸
遗传学
基因
植物
核苷酸
红灯
作者
Alex Ward,Jie Liu,Zhaoyang Feng,X.Z. Shawn Xu
摘要
Phototaxis behavior is commonly observed in animals with light-sensing organs. C. elegans, however, is generally believed to lack phototaxis, as this animal lives in darkness (soil) and does not possess eyes. Here, we found that light stimuli elicited negative phototaxis in C. elegans and that this behavior is important for survival. We identified a group of ciliary sensory neurons as candidate photoreceptor cells for mediating phototaxis. Furthermore, we found that light excited photoreceptor cells by evoking a depolarizing conductance carried by cyclic guanosine monophosphate (cGMP)-sensitive cyclic nucleotide-gated (CNG) channels, revealing a conservation in phototransduction between worms and vertebrates. These results identify a new sensory modality in C. elegans and suggest that animals living in dark environments without light-sensing organs may not be presumed to be light insensitive. We propose that urbilaterians, the last common ancestor of bilaterians, might have already evolved a visual system that employs CNG channels and the second messenger cGMP for phototransduction.
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