Tutorial: fluorescence lifetime microscopy of membrane mechanosensitive Flipper probes.

IF 13.1 1区 生物学 Q1 BIOCHEMICAL RESEARCH METHODS Nature Protocols Pub Date : 2024-08-29 DOI:10.1038/s41596-024-01027-6
Chloé Roffay, Juan Manuel García-Arcos, Pierrik Chapuis, Javier López-Andarias, Falk Schneider, Adai Colom, Caterina Tomba, Ilaria Di Meglio, Katia Barrett, Valentin Dunsing, Stefan Matile, Aurélien Roux, Vincent Mercier
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Abstract

Measuring forces within living cells remains a technical challenge. In this Tutorial, we cover the development of hydrophobic mechanosensing fluorescent probes called Flippers, whose fluorescence lifetime depends on lipid packing. Flipper probes can therefore be used as reporters for membrane tension via the measurement of changes in their fluorescence lifetime. We describe the technical optimization of the probe for imaging and provide working examples for their characterizations in a variety of biological and in vitro systems. We further provide a guideline to measure biophysical parameters of cellular membranes by fluorescence lifetime imaging microscopy using Flipper probes, providing evidence that flippers can report long range forces in cells, tissues and organs.

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教程:膜机械敏感 Flipper 探针的荧光寿命显微镜。
测量活细胞内的力仍然是一项技术挑战。在本教程中,我们将介绍名为 Flipper 的疏水力学传感荧光探针的开发情况,这种探针的荧光寿命取决于脂质填料。因此,Flipper 探针可通过测量其荧光寿命的变化来报告膜张力。我们介绍了成像探针的技术优化,并提供了在各种生物和体外系统中表征其特性的工作示例。我们还进一步提供了利用 Flipper 探针通过荧光寿命成像显微镜测量细胞膜生物物理参数的指南,为翻转器能够报告细胞、组织和器官中的长程力提供了证据。
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来源期刊
Nature Protocols
Nature Protocols 生物-生化研究方法
CiteScore
29.10
自引率
0.70%
发文量
128
审稿时长
4 months
期刊介绍: Nature Protocols focuses on publishing protocols used to address significant biological and biomedical science research questions, including methods grounded in physics and chemistry with practical applications to biological problems. The journal caters to a primary audience of research scientists and, as such, exclusively publishes protocols with research applications. Protocols primarily aimed at influencing patient management and treatment decisions are not featured. The specific techniques covered encompass a wide range, including but not limited to: Biochemistry, Cell biology, Cell culture, Chemical modification, Computational biology, Developmental biology, Epigenomics, Genetic analysis, Genetic modification, Genomics, Imaging, Immunology, Isolation, purification, and separation, Lipidomics, Metabolomics, Microbiology, Model organisms, Nanotechnology, Neuroscience, Nucleic-acid-based molecular biology, Pharmacology, Plant biology, Protein analysis, Proteomics, Spectroscopy, Structural biology, Synthetic chemistry, Tissue culture, Toxicology, and Virology.
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