Cytoskeleton system

The completion of meiosis requires the spatial and temporal coordination of cytokinesis and karyokinesis . Cytoskeleton system is important for regulating a series of events during meiotic maturation .

减数分裂的顺利完成是胞质分裂和核分裂在时间和空间上的协调结果，细胞骨架系统在减数分裂的一系列事件中具有重要的调节作用。

It needs more study about the influence of cytoskeleton system on expression of CX in future .

有关细胞骨架系统对于Cx表达的影响有待进一步的研究。

Effects of aging on cytoskeleton system and phagocytic function of Kupffer cells in rats

老化对肝脏枯否细胞骨架结构及其吞噬功能的影响

The damage of the cytoskeleton system in the pollen and the pollen tube of Pinus thunbergii induced by ion beam implantation were researched .

以黑松花粉粒和花粉管为试验材料，研究了离子注入对细胞骨架系统的损伤效应。

Actin , the major component of the dynamic microfilament cytoskeleton system , exists in nearly all eukaryotic cells and plays essential roles in cellular activities .

肌动蛋白在真核生物中广泛存在，由肌动蛋白参与形成的动态微丝骨架系统是细胞生命活动的基础。

Morphological observations on numerous cellular and subcellular structures and the analysis on the biochemical features and assembly of tubulins have enriched the content of cytoskeleton system .

对微管系统的大量细胞结构和亚细胞结构的形态学观察，以及微管蛋白生化特性与集合组装的分析，丰富了细胞骨架系统的内容。

The actin cytoskeleton microfilament system performs essential functions in the morphogenesis , especially in the plant cell such as pollen tube , root hair , leaf hair , guard cell .

肌动蛋白微丝骨架对植物高度特异化的细胞如花粉管、根毛、叶毛和气孔保卫细胞的形态发生和功能起着重要作用。

Contact inhibition of cell growth is a result of interaction between social behavior , and goes beyond a single cell line , groups linked to the cytoskeleton network system . Cell social behaviour and its regulation closely relate .

细胞接触抑制生长属细胞相互作用导致的社会行为，而超越单个细胞界线并把群体细胞联系在一起的大骨架网络体系，与细胞社会行为及其调控密切相关。

Study on the influence of hypoxia induced microtubule damage on the opening of mitochondrial permeable transition pore of cardiac myocytes in rat Flow-mediated regulation of endothelial cell microtubule cytoskeleton in a coculture system

心肌细胞缺氧引起微管结构破坏导致线粒体通透性转换孔开放的实验研究切应力对与血管平滑肌细胞联合培养的内皮细胞微管骨架重构的影响

Movement is controlled by internal and external signals , which acive complex signal transduction cascades resulting in highly dynamic and localised remodelling of the actin-myosin cytoskeleton and the microtubule system , cell-cell and cell-substrate interactions .

迁移运动受内部和外部信号控制，这些信号激活复杂的信号传导级联反应，导致actin-myosin和微管细胞骨架高度动态和集中的重塑，以及细胞与细胞、细胞与基质之间的相互作用。