轴突细胞骨架的稳定聚合物:轴浆空壳。
Stable polymers of the axonal cytoskeleton: the axoplasmic ghost.
作者信息
Morris J R, Lasek R J
出版信息
J Cell Biol. 1982 Jan;92(1):192-8. doi: 10.1083/jcb.92.1.192.
Abstract
We have examined the monomer-polymer equilibria which form the cytoskeletal polymers in squid axoplasm by extracting protein at low concentrations of monomer. The solution conditions inside the axon were matched as closely as possible by the extraction buffer (buffer P) to preserve the types of protein associations that occur in axoplasm. Upon extraction in buffer P, all of the neurofilament proteins in axoplasm remain polymerized as part of the stable neurofilament network. In contrast, most of the polymerized tubulin and actin in axoplasm is soluble although a fraction of these proteins also exists as a stable polymer. Thus, the axoplasmic cytoskeleton contains both stable polymers and soluble polymers. We propose that stable polymers, such as neurofilaments, conserve cytoskeletal organization because they tend to remain polymerized, whereas soluble polymers increase the plasticity of the cytoskeleton because they permit rapid and reversible changes in cytoskeletal organization.
摘要
我们通过在低浓度单体条件下提取蛋白质,研究了形成鱿鱼轴质中细胞骨架聚合物的单体 - 聚合物平衡。提取缓冲液(缓冲液P)尽可能紧密地匹配轴突内的溶液条件,以保留轴质中发生的蛋白质缔合类型。在缓冲液P中提取时,轴质中的所有神经丝蛋白作为稳定神经丝网络的一部分保持聚合状态。相比之下,轴质中大多数聚合的微管蛋白和肌动蛋白是可溶的,尽管这些蛋白质的一部分也以稳定聚合物的形式存在。因此,轴质细胞骨架包含稳定聚合物和可溶性聚合物。我们提出,稳定聚合物,如神经丝,通过倾向于保持聚合状态来维持细胞骨架组织,而可溶性聚合物则增加了细胞骨架的可塑性,因为它们允许细胞骨架组织发生快速且可逆的变化。
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