单粒子跟踪揭示的细胞内运输动力学。

Ming-Li Zhang, Hui-Ying Ti, Peng-Ye Wang, Hui Li
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引用次数: 6

摘要

细胞内转运是细胞内物质、能量和信息传递的基础,对许多细胞功能至关重要。在活细胞的非平衡环境中,细胞的输运行为远不是传统的液体运动,而是更为复杂和活跃。单粒子跟踪(SPT)方法由于具有高时空分辨率的优势,在揭示细胞内转运动力学方面得到了广泛的应用,取得了很大的进展。本文从物理角度描述了细胞内运输,并将其分为两种模式:扩散运动和定向运动。介绍了这两种输运方式的生物学功能和物理机制。接下来,我们就SPT的原理及其在细胞内转运两个方面的研究进展进行综述。最后,我们讨论了近红外SPT在研究体内细胞内转运动力学方面的前景。
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Intracellular transport dynamics revealed by single-particle tracking.

Intracellular transport is the basis for the transfer of matter, energy, and information in cells and is critical to many cellular functions. Within the nonequilibrium environment of living cells, the transport behaviours are far from the traditional motion in liquid but are more complex and active. With the advantage of high spatial and temporal resolution, the single-particle tracking (SPT) method is widely utilized and has achieved great advances in revealing intracellular transport dynamics. This review describes intracellular transport from a physical perspective and classifies it into two modes: diffusive motion and directed motion. The biological functions and physical mechanisms for these two transport modes are introduced. Next, we review the principle of SPT and its advances in two aspects of intracellular transport. Finally, we discuss the prospect of near infrared SPT in exploring the in vivo intracellular transport dynamics.

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CiteScore
1.30
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0.00%
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117
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