轴丘和起始段。

The axon hillock and the initial segment.

作者信息

Palay S L, Sotelo C, Peters A, Orkand P M

出版信息

J Cell Biol. 1968 Jul;38(1):193-201. doi: 10.1083/jcb.38.1.193.

DOI:10.1083/jcb.38.1.193

PMID:5691973

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2107452/

Abstract

Axon hillocks and initial segments have been recognized and studied in electron micrographs of a wide variety of neurons. In all multipolar neurons the fine structure of the initial segment has the same pattern, whether or not the axon is ensheathed in myelin. The internal structure of the initial segment is characterized by three special features: (a) a dense layer of finely granular material undercoating the plasma membrane, (b) scattered clusters of ribosomes, and (c) fascicles of microtubules. A similar undercoating occurs beneath the plasma membrane of myelinated axons at nodes of Ranvier. The ribosomes are not organized into Nissl bodies and are too sparsely distributed to produce basophilia. They vanish at the end of the initial segment. Fascicles of microtubules occur only in the axon hillock and initial segment and nowhere else in the neuron. Therefore, they are the principal identifying mark. Some speculations are presented on the relation between these special structural features and the special function of the initial segment.

摘要

轴丘和轴突起始段已在各种各样神经元的电子显微照片中得到识别和研究。在所有多极神经元中，无论轴突是否有髓鞘包裹，轴突起始段的精细结构都具有相同的模式。轴突起始段的内部结构具有三个特殊特征：（a）紧贴质膜下方有一层致密的细颗粒物质；（b）散在的核糖体簇；（c）微管束。在郎飞结处有髓鞘轴突的质膜下方也会出现类似的紧贴物质。核糖体没有聚集成尼氏体，分布过于稀疏以至于不会产生嗜碱性。它们在轴突起始段末端消失。微管束仅出现在轴丘和轴突起始段，在神经元的其他部位则不存在。因此，它们是主要的识别标志。文中对这些特殊结构特征与轴突起始段特殊功能之间的关系进行了一些推测。

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