眨眼，秀丽隐杆线虫的一种扩散行为，由 IL2 神经元调节。

Nictation, a dispersal behavior of the nematode Caenorhabditis elegans, is regulated by IL2 neurons.

机构信息

Research Center for Functional Cellulomics, Institute of Molecular Biology and Genetics, Seoul National University School of Biological Sciences, Seoul, Korea.

出版信息

Nat Neurosci. 2011 Nov 13;15(1):107-12. doi: 10.1038/nn.2975.

DOI:10.1038/nn.2975

PMID:22081161

Abstract

Many nematodes show a stage-specific behavior called nictation in which a worm stands on its tail and waves its head in three dimensions. Here we show that nictation is a dispersal behavior regulated by a specific set of neurons, the IL2 cells, in C. elegans. We established assays for nictation and showed that cholinergic transmission was required for nictation. Cell type-specific rescue experiments and genetic ablation experiments revealed that the IL2 ciliated head neurons were essential for nictation. Intact cilia in IL2 neurons, but not in other ciliated head neurons, were essential, as the restoration of the corresponding wild-type gene activity in IL2 neurons alone in cilia-defective mutants was sufficient to restore nictation. Optogenetic activation of IL2 neurons induced nictation, suggesting that signals from IL2 neurons are sufficient for nictation. Finally, we demonstrated that nictation is required for transmission of C. elegans to a new niche using flies as artificial carriers, suggesting a role of nictation as a dispersal and survival strategy under harsh conditions.

摘要

许多线虫表现出一种称为“摆动”的特定阶段行为，即蠕虫用尾巴站立并用头部在三维空间中摆动。在这里，我们表明摆动是一种由线虫中特定神经元（IL2 细胞）调节的扩散行为。我们建立了摆动检测实验，并表明乙酰胆碱传递对于摆动是必需的。细胞类型特异性拯救实验和遗传消融实验表明，IL2 有纤毛的头部神经元对于摆动是必需的。IL2 神经元中的完整纤毛，但不是其他有纤毛的头部神经元，是必需的，因为仅在纤毛缺陷突变体中，IL2 神经元中相应野生型基因活性的恢复足以恢复摆动。IL2 神经元的光遗传学激活诱导了摆动，这表明来自 IL2 神经元的信号足以引起摆动。最后，我们证明了摆动对于线虫利用果蝇作为人工载体传播到新栖息地是必需的，这表明在恶劣条件下摆动是一种扩散和生存策略。

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眨眼，秀丽隐杆线虫的一种扩散行为，由 IL2 神经元调节。

Nictation, a dispersal behavior of the nematode Caenorhabditis elegans, is regulated by IL2 neurons.

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