利用等离子体超表面实现活细胞的中红外化学成像

Steven H. Huang, Po-Ting Shen, Aditya Mahalanabish, Giovanni Sartorello, Gennady Shvets
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引用次数: 0

摘要

中红外(MIR)化学成像技术能以无标记、无损伤的方式提供生物样本的丰富化学信息。然而,由于中红外光在水中的强烈衰减,它在活细胞分析中的应用受到限制,往往需要采用与细胞的长期存活和标准高通量工作流程不相容的细胞培养几何形状。在这里,我们引入了一种新的近红外显微镜方法,通过细胞与等离子体元表面的局部近场相互作用对细胞进行成像。利用倒置近红外显微镜采集的细胞中的蛋白质、脂类和核酸的亚细胞分辨率图像,通过不同分子组的化学对比,提供了细胞中蛋白质、脂类和核酸的亚细胞分辨率图像。活细胞的延时成像表明,使用低功率近红外光可以长时间监测细胞的行为,包括运动、存活和基质粘附。该方法提供了一种对活细胞进行非微扰近红外成像的方法,非常适合与现代高通量筛选技术相结合,对活细胞进行无标记、高含量的化学成像。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mid-infrared chemical imaging of living cells enabled by plasmonic metasurfaces
Mid-Infrared (MIR) chemical imaging provides rich chemical information of biological samples in a label-free and non-destructive manner. Yet, its adoption to live-cell analysis is limited by the strong attenuation of MIR light in water, often necessitating cell culture geometries that are incompatible with the prolonged viability of cells and with standard high-throughput workflow. Here, we introduce a new approach to MIR microscopy, where cells are imaged through their localized near-field interaction with a plasmonic metasurface. Chemical contrast of distinct molecular groups provided sub-cellular resolution images of the proteins, lipids, and nucleic acids in the cells that were collected using an inverted MIR microscope. Time-lapse imaging of living cells demonstrated that their behaviors, including motility, viability, and substrate adhesion, can be monitored over extended periods of time using low-power MIR light. The presented approach provides a method for the non-perturbative MIR imaging of living cells, which is well-suited for integration with modern high-throughput screening technologies for the label-free, high-content chemical imaging of living cells.
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