笼锁化合物：用于阐明神经元反应和连接的工具。

Caged compounds: tools for illuminating neuronal responses and connections.

作者信息

Nerbonne J M

机构信息

Department of Molecular Biology and Pharmacology, Washington University School of Medicine, 660 South Euclid Avenue, St Louis, Missouri 63110, USA.

出版信息

Curr Opin Neurobiol. 1996 Jun;6(3):379-86. doi: 10.1016/s0959-4388(96)80123-1.

DOI:10.1016/s0959-4388(96)80123-1

PMID:8794086

Abstract

A number of new 'caged' intracellular second messengers and neurotransmitters have been developed using the photolabile o-nitrobenzyl group. This chemistry has also recently been exploited in novel ways, including the development of caged enzyme substrates and caged proteins. Although caged compounds continue to be used primarily for mechanistic (kinetic) studies of processes mediated by transmitters or second messengers, the spatial resolution afforded by the use of light to effect changes in transmitter concentrations has now been clearly demonstrated. The increased availability of caged compounds and of the technologies required to exploit them provides neurobiologists with powerful tools for probing neuronal response properties and connectivity patterns.

摘要

利用对光不稳定的邻硝基苄基已开发出多种新型的“笼形”细胞内第二信使和神经递质。最近，这种化学方法还以新颖的方式得到应用，包括开发笼形酶底物和笼形蛋白质。尽管笼形化合物仍然主要用于对由递质或第二信使介导的过程进行机制（动力学）研究，但利用光来改变递质浓度所提供的空间分辨率现已得到明确证实。笼形化合物及其应用所需技术的日益普及，为神经生物学家提供了强大的工具，用于探究神经元的反应特性和连接模式。

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笼锁化合物：用于阐明神经元反应和连接的工具。

Caged compounds: tools for illuminating neuronal responses and connections.

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