七鳃鳗(海七鳃鳗)中枢神经系统中突触轴浆的组织
The organization of synaptic axcplasm in the lamprey (petromyzon marinus) central nervous system.
作者信息
Smith D S, Järlfors U, Beránek R
出版信息
J Cell Biol. 1970 Aug;46(2):199-219. doi: 10.1083/jcb.46.2.199.
Abstract
The fine structure of synapses in the central nervous system of lamprey (Petromyzon marinus) ammocoetes has been investigated. Both synapses within the neuropil and synaptic links between giant fibers (including Müller cells) and small postsynaptic units are described. The distribution of neurofilaments and microtubules in nerve profiles over a wide diameter range is described, and the possible role of these structures in intracellular transport is discussed. Electron micrographs indicate that small lucent "synaptic vesicles" occur sparsely throughout the axoplasm and in regular arrays in association with microtubules in the vicinity of synapses. Within a synaptic focus, immediately adjoining the presynaptic membrane, vesicles are randomly arranged and are not associated with microtubules. Neurofilaments are present, generally in large numbers, but these are not associated with vesicles or other particulates. The structural findings are considered in terms of current concepts of fast and slow transport in neurons and the mechanochemical control of intracellular movement of materials.
摘要
对海七鳃鳗(Petromyzon marinus)幼体中枢神经系统中突触的精细结构进行了研究。描述了神经毡内的突触以及巨纤维(包括米勒细胞)与小的突触后单位之间的突触连接。描述了神经丝和微管在不同直径范围神经轮廓中的分布,并讨论了这些结构在细胞内运输中的可能作用。电子显微镜照片显示,小的透明“突触小泡”稀疏地分布于整个轴质中,并在突触附近与微管呈规则排列。在一个突触焦点内,紧邻突触前膜,小泡随机排列且不与微管相关。神经丝通常大量存在,但它们不与小泡或其他颗粒相关。根据当前关于神经元中快速和慢速运输以及物质细胞内运动的机械化学控制的概念来考虑这些结构发现。
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