Light-driven single-cell rotational adhesion frequency assay.

IF 27.2 Q1 OPTICS eLight Pub Date : 2022-01-01 DOI:10.1186/s43593-022-00020-4

Yaoran Liu, Hongru Ding, Jingang Li, Xin Lou, Mingcheng Yang, Yuebing Zheng

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引用次数: 14

Abstract

The interaction between cell surface receptors and extracellular ligands is highly related to many physiological processes in living systems. Many techniques have been developed to measure the ligand-receptor binding kinetics at the single-cell level. However, few techniques can measure the physiologically relevant shear binding affinity over a single cell in the clinical environment. Here, we develop a new optical technique, termed single-cell rotational adhesion frequency assay (scRAFA), that mimics in vivo cell adhesion to achieve label-free determination of both homogeneous and heterogeneous binding kinetics of targeted cells at the subcellular level. Moreover, the scRAFA is also applicable to analyze the binding affinities on a single cell in native human biofluids. With its superior performance and general applicability, scRAFA is expected to find applications in study of the spatial organization of cell surface receptors and diagnosis of infectious diseases.

Supplementary information: The online version contains supplementary material available at 10.1186/s43593-022-00020-4.

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光驱动单细胞旋转粘附频率测定。

细胞表面受体与细胞外配体之间的相互作用与生命系统的许多生理过程密切相关。在单细胞水平上测量配体-受体结合动力学已经发展了许多技术。然而，很少有技术可以在临床环境中测量单个细胞的生理相关剪切结合亲和力。在这里，我们开发了一种新的光学技术，称为单细胞旋转粘附频率测定(scRAFA)，该技术模拟体内细胞粘附，以在亚细胞水平上实现靶细胞均匀和非均匀结合动力学的无标记测定。此外，scRAFA也适用于分析人体天然生物体液中单细胞的结合亲和力。scRAFA具有优异的性能和广泛的适用性，有望在细胞表面受体的空间组织研究和传染病的诊断中得到应用。补充信息:在线版本包含补充资料，提供地址:10.1186/s43593-022-00020-4。

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来源期刊

eLight

CiteScore

30.40

自引率

0.00%

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