分离出一种经学习修饰并降低海兔钾电流的G蛋白。

Isolation of a G protein that is modified by learning and reduces potassium currents in Hermissenda.

作者信息

Nelson T J, Collin C, Alkon D L

机构信息

Laboratory of Molecular and Cellular Neurobiology, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, MD 20892.

出版信息

Science. 1990 Mar 23;247(4949 Pt 1):1479-83. doi: 10.1126/science.247.4949.1479.

DOI:10.1126/science.247.4949.1479

PMID:2108498

Abstract

In Hermissenda crassicornis conditioned to associate light and rotation, type B photoreceptor neurons exhibit pairing-specific decreases in the potassium currents IA and IK-Ca, which account for many of the behavioral changes elicited by associative conditioning. To determine which proteins are involved in storage of this memory, high-performance liquid chromatography was used to examine proteins from Hermissenda eyes. Conditioning-specific changes in four phosphoproteins were observed 24 hours after conditioning. One of these proteins, cp20, was purified to apparent homogeneity and found to be a G protein. When injected back into Hermissenda type B cells, cp20 reduced IK and IK-Ca in a manner indistinguishable from the reduction caused by conditioning, suggesting that this protein may play a crucial role in memory acquisition or retention.

摘要

在经条件训练将光与旋转联系起来的粗角多角海蛞蝓中，B型光感受器神经元的钾电流IA和IK-Ca呈现出配对特异性降低，这解释了联合条件训练引发的许多行为变化。为了确定哪些蛋白质参与了这种记忆的存储，采用高效液相色谱法检测了粗角多角海蛞蝓眼睛中的蛋白质。条件训练24小时后，观察到四种磷蛋白出现了条件训练特异性变化。其中一种蛋白质cp20被纯化至表观均一性，发现它是一种G蛋白。当将cp20重新注入粗角多角海蛞蝓的B型细胞时，它对IK和IK-Ca的降低方式与条件训练引起的降低无法区分，这表明该蛋白质可能在记忆获取或保留中起关键作用。

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分离出一种经学习修饰并降低海兔钾电流的G蛋白。

Isolation of a G protein that is modified by learning and reduces potassium currents in Hermissenda.

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