细胞骨架

The cytoskeleton is a complex network of protein filaments that extends throughout the cytoplasm of a cell.
细胞骨架是由蛋白质丝构成的复杂网络，它延伸至细胞质的各个部分。
Cytoskeletal elements play a crucial role in maintaining cell shape and mechanical stability.
细胞骨架成分在维持细胞形态和机械稳定性方面起着至关重要的作用。
Microtubules, microfilaments, and intermediate filaments together form the three main components of the cytoskeleton.
微管、微丝和中间纤维共同构成了细胞骨架的三个主要组成部分。
During cell division, the cytoskeleton undergoes dramatic reorganization to facilitate mitosis.
在细胞分裂过程中，细胞骨架会经历显著的重组以促进有丝分裂过程。
Motor proteins interact with the cytoskeleton to generate force for intracellular transport and cell movement.
驱动蛋白与细胞骨架相互作用，产生细胞内物质运输及细胞移动所需的力。
Disruptions in the organization of the cytoskeleton can lead to various diseases and developmental disorders.
细胞骨架组织的紊乱可能导致各种疾病和发育障碍的发生。
The dynamic nature of the cytoskeleton allows cells to change shape and move in response to external signals.
细胞骨架的动态特性使得细胞能够根据外部信号改变形状并进行移动。
Researchers have found that certain drugs can target and disrupt the cytoskeleton of cancer cells, leading to their death.
研究人员发现某些药物可以针对并破坏癌细胞的细胞骨架，从而导致癌细胞死亡。
Cytoskeletal remodeling is essential for processes like cell migration, which is critical during wound healing and immune responses.
细胞骨架重塑对于诸如细胞迁移等过程至关重要，这一过程在伤口愈合和免疫反应中起到关键作用。
By studying the cytoskeleton's structure and function, scientists can gain insights into how cells grow, divide, and adapt to changing environments.
通过研究细胞骨架的结构和功能，科学家们可以获得有关细胞如何生长、分裂以及适应变化环境的深刻见解。