Molecular Force Sensors for Biological Application

Huiyan Chen, Shouhan Wang, Yi Cao, Hai Lei
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Abstract

The mechanical forces exerted by cells on their surrounding microenvironment are known as cellular traction forces. These forces play crucial roles in various biological processes, such as tissue development, wound healing and cell functions. However, it is hard for traditional techniques to measure cellular traction forces accurately because their magnitude (from pN to nN) and the length scales over which they occur (from nm to μm) are extremely small. In order to fully understand mechanotransduction, highly sensitive tools for measuring cellular forces are needed. Current powerful techniques for measuring traction forces include traction force microscopy (TFM) and fluorescent molecular force sensors (FMFS). In this review, we elucidate the force imaging principles of TFM and FMFS. Then we highlight the application of FMFS in a variety of biological processes and offer our perspectives and insights into the potential applications of FMFS.
用于生物应用的分子力传感器
细胞对其周围微环境施加的机械力被称为细胞牵引力。这些力在组织发育、伤口愈合和细胞功能等各种生物过程中发挥着至关重要的作用。然而,由于细胞牵引力的大小(从 pN 到 nN)和发生牵引力的长度尺度(从 nm 到 μm)极小,传统技术很难准确测量细胞牵引力。为了全面了解机械传导,需要高灵敏度的工具来测量细胞牵引力。目前测量牵引力的强大技术包括牵引力显微镜(TFM)和荧光分子力传感器(FMFS)。在这篇综述中,我们将阐明牵引力显微镜和荧光分子力传感器的力成像原理。然后,我们将重点介绍荧光分子力传感器在各种生物过程中的应用,并就荧光分子力传感器的潜在应用提出我们的观点和见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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