斑马鱼中已识别的运动神经元及其对轴肌的支配

Identified motoneurons and their innervation of axial muscles in the zebrafish.

作者信息

Westerfield M, McMurray J V, Eisen J S

出版信息

J Neurosci. 1986 Aug;6(8):2267-77. doi: 10.1523/JNEUROSCI.06-08-02267.1986.

DOI:10.1523/JNEUROSCI.06-08-02267.1986

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6568761/

Abstract

The organization of spinal cord motoneurons and their innervation of axial (white) muscles in the zebrafish were studied. Motoneurons can be divided into 2 classes, primary and secondary, on the basis of their cell-body sizes and positions. Each side of each spinal segment contains 3 primary motoneurons that are uniquely identifiable as individuals by their stereotyped cell-body positions and peripheral branching patterns. Moreover, these motoneurons precisely innervate cell-specific subsets of contiguous muscle fibers in mutually exclusive regions of their own body segment. Individual muscle fibers receive inputs from a single primary motoneuron and, in addition, from up to 3 secondary motoneurons. The results demonstrate that the precision of innervation previously described in invertebrates is also present in some vertebrates.

摘要

对斑马鱼脊髓运动神经元的组织及其对轴（白）肌的神经支配进行了研究。运动神经元可根据其细胞体大小和位置分为两类，即初级和次级。每个脊髓节段的每一侧都包含3个初级运动神经元，通过其刻板的细胞体位置和外周分支模式可将它们作为个体唯一识别。此外，这些运动神经元精确地支配其自身身体节段相互排斥区域内连续肌纤维的细胞特异性亚群。单个肌纤维从单个初级运动神经元接收输入，此外，还从多达3个次级运动神经元接收输入。结果表明，先前在无脊椎动物中描述的神经支配精度在一些脊椎动物中也存在。

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