非典型肌球蛋白 Dachs 的平面偏振使果蝇细胞分裂定向。
Planar polarization of the atypical myosin Dachs orients cell divisions in Drosophila.
机构信息
Apoptosis and Proliferation Control Laboratory, Cancer Research UK, London Research Institute, London WC2A 3PX, United Kingdom.
出版信息
Genes Dev. 2011 Jan 15;25(2):131-6. doi: 10.1101/gad.610511.
Abstract
Tissues can grow in a particular direction by controlling the orientation of cell divisions. This phenomenon is evident in the developing Drosophila wing epithelium, where the tissue becomes elongated along the proximal-distal axis. We show that orientation of cell divisions in the wing requires planar polarization of an atypical myosin, Dachs. Our evidence suggests that Dachs constricts cell-cell junctions to alter the geometry of cell shapes at the apical surface, and that cell shape then determines the orientation of the mitotic spindle. Using a computational model of a growing epithelium, we show that polarized cell tension is sufficient to orient cell shapes, cell divisions, and tissue growth. Planar polarization of Dachs is ultimately oriented by long-range gradients emanating from compartment boundaries, and is therefore a mechanism linking these gradients with the control of tissue shape.
摘要
组织可以通过控制细胞分裂的方向朝着特定的方向生长。这种现象在发育中的果蝇翅膀上皮组织中很明显,在那里组织沿着近-远轴变得细长。我们表明,翅膀中细胞分裂的方向需要非典型肌球蛋白 Dachs 的平面极化。我们的证据表明,Dachs 收缩细胞-细胞连接以改变顶端表面上细胞形状的几何形状,然后细胞形状决定有丝分裂纺锤体的方向。使用一个不断增长的上皮组织的计算模型,我们表明极化的细胞张力足以确定细胞形状、细胞分裂和组织生长的方向。 Dachs 的平面极化最终由来自隔室边界的远程梯度定向,因此是将这些梯度与组织形状控制联系起来的机制。
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