Pastuglia Martine, Bouchez David
Institut Jean-Pierre Bourgin, Station de Génétique et d'Amélioration des Plantes UR254, INRA, Centre de Versailles, F-78000 Versailles, France.
Curr Opin Plant Biol. 2007 Dec;10(6):557-63. doi: 10.1016/j.pbi.2007.08.001. Epub 2007 Sep 11.
The cortical arrays that accompany plant cell division and elongation are organized by a subtle interplay between intrinsic properties of microtubules, their self-organization capacity and a variety of cellular proteins that interact with them, modify their behaviour and drive organization of diverse, higher order arrays during the cell cycle, cell growth and differentiation. As a polar polymer, the microtubule has a minus and a plus end, which differ in structure and dynamic characteristics, and to which different sets of partners and activities associate. Recent advances in characterization of minus and plus end directed proteins provide insights into both plant microtubule properties and the way highly organized cortical arrays emerge from the orchestrated activity of individual microtubules.
伴随植物细胞分裂和伸长的皮层微管阵列是由微管的内在特性、其自组织能力以及多种与它们相互作用、改变其行为并在细胞周期、细胞生长和分化过程中驱动不同高阶阵列组织的细胞蛋白之间的微妙相互作用所组织的。作为一种极性聚合物,微管有一个负端和一个正端,它们在结构和动态特性上有所不同,并且与不同的伙伴和活动相关联。负端和正端定向蛋白表征方面的最新进展为植物微管特性以及高度组织化的皮层阵列如何从单个微管的协同活动中形成提供了见解。
