飞行动态光反应的光遗传学调控。

Optogenetic control of fly optomotor responses.

机构信息

Max Planck Institute of Neurobiology, Martinsried, Germany.

出版信息

J Neurosci. 2013 Aug 21;33(34):13927-34. doi: 10.1523/JNEUROSCI.0340-13.2013.

DOI:10.1523/JNEUROSCI.0340-13.2013

PMID:23966712

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6618655/

Abstract

When confronted with a large-field stimulus rotating around the vertical body axis, flies display a following behavior called "optomotor response." As neural control elements, the large tangential horizontal system (HS) cells of the lobula plate have been prime candidates for long. Here, we applied optogenetic stimulation of HS cells to evaluate their behavioral role in Drosophila. To minimize interference of the optical activation of channelrhodopsin-2 with the visual perception of the flies, we used a bistable variant called ChR2-C128S. By applying pulses of blue and yellow light, we first demonstrate electrophysiologically that lobula plate tangential cells can be activated and deactivated repeatedly with no evident change in depolarization strength over trials. We next show that selective optogenetic activation of HS cells elicits robust yaw head movements and yaw turning responses in fixed and tethered flying flies, respectively.

摘要

当面对一个围绕垂直身体轴旋转的大视野刺激时，苍蝇会表现出一种被称为“光运动反应”的跟随行为。作为神经控制元素，小叶板的大切线水平系统（HS）细胞一直是主要候选者。在这里，我们应用 HS 细胞的光遗传学刺激来评估它们在果蝇中的行为作用。为了将通道视紫红质-2 的光激活对苍蝇视觉感知的干扰最小化，我们使用了一种双稳态变体称为 ChR2-C128S。通过施加蓝色和黄色光脉冲，我们首先在电生理上证明了可以用没有明显变化的去极化强度在试验中反复激活和去激活小叶板切线细胞。我们接下来表明，选择性光遗传学激活 HS 细胞分别在固定和系绳飞行的苍蝇中引发强烈的偏航头部运动和偏航转弯反应。

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