三磷酸腺苷（ATP）诱导微管与神经丝之间形成相关复合物。

ATP-induced formation of an associated complex between microtubules and neurofilaments.

作者信息

Runge M S, Laue T M, Yphantis D A, Lifsics M R, Saito A, Altin M, Reinke K, Williams R C

出版信息

Proc Natl Acad Sci U S A. 1981 Mar;78(3):1431-5. doi: 10.1073/pnas.78.3.1431.

DOI:10.1073/pnas.78.3.1431

PMID:6940167

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC319144/

Abstract

Neurofilaments (also called 10-nm filaments or intermediate filaments) from bovine brain were incubated with microtubule protein at 37 degrees C in the presence or absence of 1 mM ATP and in a buffer that allowed microtubule assembly. Falling-ball viscometry revealed that the (non-Newtonian) apparent viscosity of the ATP-containing mixtures is 5-20 times greater than that of the mixtures prepared without ATP. A larger ATP-dependent increase in viscosity (approximately 100-fold) was seen when purified tubulin replaced microtubule protein. The magnitude of the increase depended on the concentrations of both neurofilaments and tubulin. The presence of both neurofilaments and assembled microtubules was necessary for the increase to occur. The viscosity was drastically reduced by stirring or by cooling of the mixtures to 0 degrees C. Sedimentation velocity experiments, conducted at 35 degrees C on mixtures previously incubated at 35 degrees C, revealed the presence of a fraction of very rapidly sedimenting material (sedimentation coefficient greater than 1000 S) in the ATP-containing solutions but not in those prepared without ATP. It is concluded that an ATP-induced complex is formed between microtubules and neurofilaments. The observed complex may reflect interactions between microtubules and neurofilaments that are significant in vivo.

摘要

将来自牛脑的神经丝（也称为10纳米丝或中间丝）与微管蛋白在37摄氏度下，于存在或不存在1毫摩尔ATP的情况下，在允许微管组装的缓冲液中孵育。落球粘度测定显示，含ATP混合物的（非牛顿）表观粘度比不含ATP制备的混合物高5至20倍。当纯化的微管蛋白替代微管蛋白时，观察到更大的依赖ATP的粘度增加（约100倍）。增加的幅度取决于神经丝和微管蛋白的浓度。神经丝和组装好的微管的存在对于这种增加的发生是必要的。通过搅拌或将混合物冷却至0摄氏度，粘度会急剧降低。在35摄氏度下对先前在35摄氏度孵育的混合物进行沉降速度实验，结果显示在含ATP的溶液中存在一部分沉降非常快的物质（沉降系数大于1000 S），而在不含ATP制备的溶液中则不存在。得出的结论是，在微管和神经丝之间形成了一种ATP诱导的复合物。观察到的复合物可能反映了微管和神经丝之间在体内具有重要意义的相互作用。

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