为什么光遗传学需要活体神经化学。

Why Optogenetics Needs in Vivo Neurochemistry.

机构信息

†INSERM U1028; CNRS UMR5292; Université Lyon 1; Lyon Neuroscience Research Center, NeuroDialyTics Unit, Lyon, F-69000, France.

‡CNRS UMR5292; INSERM U1028; Université Lyon 1; Lyon Neuroscience Research Center, BioRaN team, Lyon, F-69000, France.

出版信息

ACS Chem Neurosci. 2015 Jul 15;6(7):948-50. doi: 10.1021/acschemneuro.5b00003. Epub 2015 May 7.

DOI:10.1021/acschemneuro.5b00003

PMID:25947273

Abstract

In neuroscience, the consequences of optogenetic manipulation are often studied using in vivo electrophysiology and by observing behavioral changes induced by light stimulation in genetically targeted rodents. In contrast, reports on the in vivo neurochemical effects of optogenetic stimulation are scarce despite the improving quality of analytical techniques available to monitor biochemical compounds involved in neurotransmission. This intriguing lack of neurochemical information suggests the existence of unknown or misunderstood factors hampering the expected rise of a novel specialty putatively be termed "neurochemical optogenetics".

摘要

在神经科学中，通常使用体内电生理学研究光遗传学操作的后果，并观察遗传靶向啮齿动物在光刺激下引起的行为变化。相比之下，尽管可用于监测参与神经传递的生化化合物的分析技术质量不断提高，但关于光遗传学刺激的体内神经化学效应的报告却很少。这种有趣的神经化学信息缺失表明，存在未知或误解的因素阻碍了一种新的专业领域的发展，该领域可以被称为“神经化学光遗传学”。

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为什么光遗传学需要活体神经化学。

Why Optogenetics Needs in Vivo Neurochemistry.

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