微管聚合中的同步振荡
Synchronous oscillations in microtubule polymerization.
作者信息
Carlier M F, Melki R, Pantaloni D, Hill T L, Chen Y
出版信息
Proc Natl Acad Sci U S A. 1987 Aug;84(15):5257-61. doi: 10.1073/pnas.84.15.5257.
Abstract
Under conditions where microtubule nucleation and growth are fast (i.e., high magnesium ion and tubulin concentrations and absence of glycerol), microtubule assembly in vitro exhibits an oscillatory regime preceding the establishment of steady state. The amplitude of the oscillations can represent greater than 50% of the maximum turbidity change and oscillations persist for up to 20 periods of 80 s each. Oscillations are accompanied by extensive length redistribution of microtubules. Preliminary work suggests that the oscillatory kinetics can be simulated using a model in which many microtubules undergo synchronous transitions between growing and rapidly depolymerizing phases, complicated by the kinetically limiting rate of nucleotide exchange on free tubulin.
摘要
在微管成核和生长迅速的条件下(即高镁离子浓度、高微管蛋白浓度且无甘油),体外微管组装在达到稳态之前会呈现出振荡状态。振荡幅度可超过最大浊度变化的50%,且振荡可持续长达20个周期,每个周期为80秒。振荡伴随着微管长度的广泛重新分布。初步研究表明,振荡动力学可以用一个模型来模拟,在该模型中,许多微管在生长和快速解聚阶段之间进行同步转变,而游离微管蛋白上核苷酸交换的动力学限制速率使情况变得复杂。
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