体内应用光遗传学进行神经回路分析。
In vivo application of optogenetics for neural circuit analysis.
机构信息
Biomedical Engineering Department, Boston University , Boston, Massachusetts, USA.
出版信息
ACS Chem Neurosci. 2012 Aug 15;3(8):577-84. doi: 10.1021/cn300065j. Epub 2012 Jul 16.
Abstract
Optogenetics combines optical and genetic methods to rapidly and reversibly control neural activities or other cellular functions. Using genetic methods, specific cells or anatomical pathways can be sensitized to light through exogenous expression of microbial light activated opsin proteins. Using optical methods, opsin expressing cells can be rapidly and reversibly controlled by pulses of light of specific wavelength. With the high spatial temporal precision, optogenetic tools have enabled new ways to probe the causal role of specific cells in neural computation and behavior. Here, we overview the current state of the technology, and provide a brief introduction to the practical considerations in applying optogenetics in vivo to analyze neural circuit functions.
摘要
光遗传学将光学和遗传学方法结合起来,快速、可逆地控制神经活动或其他细胞功能。通过遗传方法,通过外源性表达微生物光激活视蛋白,使特定的细胞或解剖途径对光敏感。通过光学方法,可以快速、可逆地控制表达视蛋白的细胞,使其受到特定波长光脉冲的控制。光遗传学工具具有很高的时空精度,为探索特定细胞在神经计算和行为中的因果作用提供了新的方法。本文概述了该技术的现状,并简要介绍了将光遗传学应用于体内分析神经回路功能时的实际考虑因素。
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