Metuzals J, Mushynski W E
J Cell Biol. 1974 Jun;61(3):701-22. doi: 10.1083/jcb.61.3.701.
The assembly of filamentous elements and their relations to the plasma membrane and to the nuclear pores have been studied in Deiters' neurons of rabbit brain. Electron microscopy of thin sections and of ectoplasm spread preparations have been integrated with physicochemical experiments and differential interference microscopy of freshly isolated cells. A neurofilamentous network extends as a continuous, three-dimensional, semilattice structure throughout the ectoplasm, the "plasma roads," and the perinuclear zone of the perikaryon. This space network consists of approximately 90-A wide neurofilaments arranged in fascicles which are interconnected by an exchange of neurofilaments. The neurofilaments consist of intercoiled approximately 20-A wide unit-filaments and are associated through cross-associating filaments with other neurofilaments of the fascicle and with microfilaments. The approximately 20-50-A wide microfilaments display intimate associations with the plasma membrane and with the nuclear pores. Electron microscopy of thin sections from glycerinated and heavy meromyosin-treated Deiters' neurons shows that actin-like filaments are present in the pre- and postsynaptic regions of synapses terminating on these neurons. It is proposed that the neurofilamentous space network serves a transducing function by linking plasma membrane activities with the genetic machinery of the neuron.
在兔脑的代特氏神经元中,对丝状元件的组装及其与质膜和核孔的关系进行了研究。薄切片和外质铺展制剂的电子显微镜检查已与物理化学实验以及新鲜分离细胞的微分干涉显微镜检查相结合。一个神经丝网络作为一个连续的三维半晶格结构,贯穿于外质、“质膜通道”和核周体的核周区域。这个空间网络由宽度约为90埃的神经丝组成,这些神经丝排列成束,通过神经丝的交换相互连接。神经丝由相互缠绕的宽度约为20埃的单位丝组成,并通过交叉连接丝与束中的其他神经丝和微丝相连。宽度约为20 - 50埃的微丝与质膜和核孔密切相关。对甘油处理和重酶解肌球蛋白处理的代特氏神经元的薄切片进行电子显微镜检查表明,在终止于这些神经元的突触的突触前和突触后区域存在肌动蛋白样丝。有人提出,神经丝空间网络通过将质膜活动与神经元的遗传机制联系起来发挥转导功能。