在球形表面生长肌动蛋白凝胶。
Growing an actin gel on spherical surfaces.
作者信息
Noireaux V, Golsteyn R M, Friederich E, Prost J, Antony C, Louvard D, Sykes C
机构信息
Laboratoire Physico-Chimie "Curie," Unité Mixte de Recherche CNRS/Institut Curie (UMR 168), 75231 Paris Cedex 05, France.
出版信息
Biophys J. 2000 Mar;78(3):1643-54. doi: 10.1016/S0006-3495(00)76716-6.
Abstract
Inspired by the motility of the bacteria Listeria monocytogenes, we have experimentally studied the growth of an actin gel around spherical beads grafted with ActA, a protein known to be the promoter of bacteria movement. On ActA-grafted beads F-actin is formed in a spherical manner, whereas on the bacteria a "comet-like" tail of F-actin is produced. We show experimentally that the stationary thickness of the gel depends on the radius of the beads. Moreover, the actin gel is not formed if the ActA surface density is too low. To interpret our results, we propose a theoretical model to explain how the mechanical stress (due to spherical geometry) limits the growth of the actin gel. Our model also takes into account treadmilling of actin. We deduce from our work that the force exerted by the actin gel on the bacteria is of the order of 10 pN. Finally, we estimate from our theoretical model possible conditions for developing actin comet tails.
摘要
受单核细胞增生李斯特菌运动性的启发,我们通过实验研究了在接枝有ActA(一种已知为细菌运动促进剂的蛋白质)的球形珠子周围肌动蛋白凝胶的生长情况。在接枝有ActA的珠子上,F - 肌动蛋白以球形方式形成,而在细菌上则产生“彗星状”的F - 肌动蛋白尾巴。我们通过实验表明,凝胶的静态厚度取决于珠子的半径。此外,如果ActA的表面密度过低,则不会形成肌动蛋白凝胶。为了解释我们的结果,我们提出了一个理论模型来解释机械应力(由于球形几何形状)如何限制肌动蛋白凝胶的生长。我们的模型还考虑了肌动蛋白的踏车行为。我们从工作中推断出肌动蛋白凝胶施加在细菌上的力约为10皮牛。最后,我们从理论模型中估计了形成肌动蛋白彗星尾巴的可能条件。
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Actin-based bacterial motility: towards a definition of the minimal requirements.基于肌动蛋白的细菌运动性:迈向最小需求的定义
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Actin depolymerizing factor (ADF/cofilin) enhances the rate of filament turnover: implication in actin-based motility.肌动蛋白解聚因子(ADF/丝切蛋白)提高了丝状体周转的速率:对基于肌动蛋白的运动的影响。
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