游动细胞的形状。
The shape of motile cells.
机构信息
Department of Neurobiology, Physiology and Behavior, University of California, Davis, CA 95616, USA.
出版信息
Curr Biol. 2009 Sep 15;19(17):R762-71. doi: 10.1016/j.cub.2009.06.053.
Abstract
Motile cells - fan-like keratocytes, hand-shaped nerve growth cones, polygonal fibroblasts, to name but a few - come in different shapes and sizes. We discuss the origins of this diversity as well as what shape tells us about the physics and biochemistry underlying cell movement. We start with geometric rules describing cell-edge kinetics that govern cell shape, followed by a discussion of the underlying biophysics; we consider actin treadmilling, actin-myosin contraction, cell-membrane deformations, adhesion, and the complex interactions between these modules, as well as their regulation by microtubules and Rho GTPases. Focusing on several different cell types, including keratocytes and fibroblasts, we discuss how dynamic cell morphology emerges from the interplay between the different motility modules and the environment.
摘要
游动细胞——扇形的角膜细胞、手状的神经生长锥、多边形的成纤维细胞等等——具有不同的形状和大小。我们讨论了这种多样性的起源,以及形状告诉我们细胞运动背后的物理和生物化学。我们首先讨论描述控制细胞形状的细胞边缘动力学的几何规则,然后讨论基础生物物理学;我们考虑肌动蛋白的 treadmilling、肌动球蛋白的收缩、细胞膜的变形、黏附,以及这些模块之间的复杂相互作用,以及它们受微管和 Rho GTP 酶的调节。我们集中讨论了几种不同的细胞类型,包括角膜细胞和成纤维细胞,讨论了不同的运动模块和环境之间的相互作用如何产生动态的细胞形态。
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