DAPI在稳态微管反应中的作用。

Role of DAPI in microtubule reactions at steady-state.

作者信息

Heusèle C, Bonne D

出版信息

Biochem Biophys Res Commun. 1985 Dec 17;133(2):662-9. doi: 10.1016/0006-291x(85)90956-8.

DOI:10.1016/0006-291x(85)90956-8

Abstract

The new fluorophor for tubulin, DAPI, is shown to bind to a site different from the exchangeable nucleotide binding site (E site) and to inhibit GTP hydrolysis by the tubulin-colchicine complex within an uncompetitive scheme. Moreover the dissociation rate constant of tubulin for microtubule ends at 32 degrees C was found largely decreased in the presence of saturating amounts of the probe while the association rate constant was little affected. These data on the kinetic parameters of tubulin interactions in the presence of DAPI, together with the inhibition of GTP hydrolysis by microtubules at the steady state are understood as the main cause for microtubule stabilization at steady-state by DAPI.

摘要

用于微管蛋白的新型荧光团DAPI，被证明与不同于可交换核苷酸结合位点（E位点）的位点结合，并以非竞争性方式抑制微管蛋白-秋水仙碱复合物的GTP水解。此外，发现在存在饱和量探针的情况下，32℃时微管蛋白与微管末端的解离速率常数大幅降低，而缔合速率常数受影响较小。这些关于在DAPI存在下微管蛋白相互作用动力学参数的数据，以及稳态下微管对GTP水解的抑制作用，被认为是DAPI在稳态下使微管稳定的主要原因。

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