n.线状伪足；外肉伪足

The filopodia on the tip of the cell extended and grasped the surface.
细胞尖端的伪足伸展并抓住了表面。
Filopodia play a crucial role in the movement and navigation of certain single-celled organisms.
伪足在某些单细胞生物的移动和导航中起着关键作用。
Researchers observed the formation of new filopodia as the neuron developed.
研究人员观察到神经元发育过程中新伪足的形成。
The molecular structure of filopodia is still a topic of intense investigation in biology.
伪足的分子结构仍然是生物学研究的热点问题。
Filopodia help cells sense their environment and communicate with neighboring cells.
伪足帮助细胞感知其环境并与邻近细胞交流。
The presence of numerous filopodia indicates high motility in the amoeba.
大量伪足的存在表明阿米巴具有高运动性。
Scientists manipulated the proteins involved in filopodium formation to study its function.
科学家操纵参与伪足形成的相关蛋白质来研究其功能。
Filopodia can be seen retracting when the cell decides to move in a different direction.
当细胞决定朝另一个方向移动时，可以看到伪足的收缩。
The fragile nature of filopodia makes them susceptible to damage under harsh conditions.
伪足的脆弱性使其在恶劣条件下容易受损。
Understanding the dynamics of filopodia could lead to novel therapeutic strategies for diseases involving cell migration.
理解伪足的动态可能为涉及细胞迁移的疾病带来新的治疗策略。