逆向工程小鼠大脑。

Reverse engineering the mouse brain.

作者信息

O'Connor Daniel H, Huber Daniel, Svoboda Karel

机构信息

Janelia Farm Research Campus, Howard Hughes Medical Institute, 19700 Helix Drive, Ashburn, Virginia 20147, USA.

出版信息

Nature. 2009 Oct 15;461(7266):923-9. doi: 10.1038/nature08539.

DOI:10.1038/nature08539

PMID:19829372

Abstract

Behaviour is governed by activity in highly structured neural circuits. Genetically targeted sensors and switches facilitate measurement and manipulation of activity in vivo, linking activity in defined nodes of neural circuits to behaviour. Because of access to specific cell types, these molecular tools will have the largest impact in genetic model systems such as the mouse. Emerging assays of mouse behaviour are beginning to rival those of behaving monkeys in terms of stimulus and behavioural control. We predict that the confluence of new behavioural and molecular tools in the mouse will reveal the logic of complex mammalian circuits.

摘要

行为受高度结构化神经回路中的活动支配。基因靶向传感器和开关有助于在体内测量和操纵活动，将神经回路特定节点中的活动与行为联系起来。由于能够接触到特定的细胞类型，这些分子工具将在诸如小鼠等遗传模型系统中产生最大影响。新兴的小鼠行为测定法在刺激和行为控制方面开始与行为猴子的测定法相媲美。我们预测，小鼠中新的行为和分子工具的融合将揭示复杂哺乳动物回路的逻辑。

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逆向工程小鼠大脑。

Reverse engineering the mouse brain.

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