轴突运输的慢速成分：两种细胞骨架网络。

Slow components of axonal transport: two cytoskeletal networks.

作者信息

Black M M, Lasek R J

出版信息

J Cell Biol. 1980 Aug;86(2):616-23. doi: 10.1083/jcb.86.2.616.

DOI:10.1083/jcb.86.2.616

PMID:6156946

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2111498/

Abstract

We have identified two slowly moving groups of axonally transported proteins in guinea pig retinal ganglion cell axons (4). The slowest group of proteins, designated slow component a (SCa), has a transport rate of 0.25 mm/d and consists of tubulin and neurofilament protein. The other slowly transported group of proteins, designated slow components b (SCb), has a transport rate of 2-3 mm/d and consists of many polypeptides, one of which is actin (4). Our analyses of the transport kinetics of the individual polypeptides of SCa and SCb indicate that (a) the polypeptides of SCa are transported coherently in the optic axons, (b) the polypeptides of SCb are also transported coherently but completely separately from the SCa polypeptides, and (c) the polypeptides of SCa differ completely from those comprising SCb. We relate these results to our general hypothesis that slow axonal transport represents the movements of structural complexes of proteins. Furthermore, it is proposed that SCa corresponds to the microtubule-neurofilament network, and that SCb represents the transport of the microfilament network together with the proteins complexed with microfilaments.

摘要

我们已经在豚鼠视网膜神经节细胞轴突中鉴定出两组缓慢移动的轴突运输蛋白（4）。最慢的一组蛋白，称为慢成分a（SCa），运输速率为0.25毫米/天，由微管蛋白和神经丝蛋白组成。另一组缓慢运输的蛋白，称为慢成分b（SCb），运输速率为2 - 3毫米/天，由许多多肽组成，其中一种是肌动蛋白（4）。我们对SCa和SCb单个多肽的运输动力学分析表明：（a）SCa的多肽在视神经轴突中协同运输；（b）SCb的多肽也协同运输，但与SCa的多肽完全分开；（c）SCa的多肽与组成SCb的多肽完全不同。我们将这些结果与我们的一般假设联系起来，即轴突慢速运输代表蛋白质结构复合物的移动。此外，有人提出SCa对应于微管 - 神经丝网络，而SCb代表微丝网络以及与微丝复合的蛋白质的运输。

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Axoplasmic transport of labeled proteins in rat ventral motoneurons.大鼠腹侧运动神经元中标记蛋白的轴浆运输。

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Bidirectional movements of mitochondria along axons of an isolated nerve segment.线粒体沿离体神经节段轴突的双向运动。

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Electron microscope and experimental investigations of the neurofilamentous network in Deiters' neurons. Relationship with the cell surface and nuclear pores.德伊特氏神经元中神经丝网络的电子显微镜及实验研究。与细胞表面和核孔的关系。

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