Sabrina L. Levy, Joshua J. White, Elizabeth P. Lackey, Lindsey Schwartz, Roy V. Sillitoe
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引用次数: 15
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Abstract
Anatomical labeling approaches are essential for understanding brain organization. Among these approaches are various methods of performing tract tracing. However, a major hurdle to overcome when marking neurons in vivo is visibility. Poor visibility makes it challenging to image a desired neuronal pathway so that it can be easily differentiated from a closely neighboring pathway. As a result, it becomes impossible to analyze individual projections or their connections. The tracer that is chosen for a given purpose has a major influence on the quality of the tracing. Here, we describe the wheat germ agglutinin (WGA) tracer conjugated to Alexa fluorophores for reliable high-resolution tracing of central nervous system projections. Using the mouse cerebellum as a model system, we implement WGA-Alexa tracing for marking and mapping neural circuits that control motor function. We also show its utility for marking localized regions of the cerebellum after performing single-unit extracellular recordings in vivo. © 2017 by John Wiley & Sons, Inc.
用于轴突跟踪的WGA-Alexa共轭物
解剖标记方法对于理解大脑组织是必不可少的。在这些方法中有各种执行通道追踪的方法。然而,在体内标记神经元时要克服的一个主要障碍是可见性。较差的可见性使得对所需的神经元通路进行成像变得困难,从而可以很容易地将其与邻近的通路区分开来。因此,分析单个预测或它们之间的联系变得不可能。为给定目的选择的跟踪器对跟踪的质量有重大影响。在这里,我们描述了小麦胚芽凝集素(WGA)示踪剂共轭到Alexa荧光团可靠的高分辨率跟踪中枢神经系统的投影。使用小鼠小脑作为模型系统,我们实现了WGA-Alexa追踪来标记和映射控制运动功能的神经回路。我们还展示了它在体内进行单单位细胞外记录后标记小脑局部区域的效用。©2017 by John Wiley &儿子,Inc。
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