A FLIM Microscopy Based on Acceptor-Detected F?rster Resonance Energy Transfer

Roberto F.  Delgadillo; Katie A.  Carnes; Kathia  Zaleta-Rivera; Omar  Olmos; Lawrence J.  Parkhurst

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A FLIM Microscopy Based on Acceptor-Detected F?rster Resonance Energy Transfer

机译：基于受体检测到的F？奔跑谐振能量转移的柔软显微镜

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Time-resolved donor-detected F?rster resonance energy transfer (trDDFRET) allows the observation of molecular interactions of dye-labeled biomolecules in the ～10–100 ? region. However, we can observe longer-range interactions when using time-resolved acceptor-detected FRET (trADFRET), since the signal/noise ratio can be improved when observing the acceptor emission. Therefore, we propose a new methodology based on trADFRET to construct a new fluorescence lifetime microscopy (FLIM-trADFRET) technique to observe biological machinery in the range of 100–300 ? in vivo, the last frontier in biomolecular medicine. The integrated trADFRET signal is extracted in such a way that noise is canceled, and more photons are collected, even though trADFRET and trDDFRET have the same rate of transfer. To assess our new methodology, proof of concept was demonstrated with a set of well-defined DNA scaffolds.

机译：时间分辨F？rster共振能量转移（trDDFRET）允许在~10–100°范围内观察染料标记生物分子的分子相互作用？区域然而，当使用时间分辨受主检测FRET（trADFRET）时，我们可以观察到更长距离的相互作用，因为观察受主发射时可以提高信噪比。因此，我们提出了一种基于trADFRET的新方法来构建一种新的荧光寿命显微镜（FLIM trADFRET）技术，以观察100-300°范围内的生物机械？在体内，生物分子医学的最后一个前沿。积分trADFRET信号的提取方式可以消除噪声，并收集更多光子，即使trADFRET和TrdFret具有相同的传输速率。为了评估我们的新方法，我们用一组定义良好的DNA支架进行了概念验证。

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《Analytical chemistry》 |2021年第11期|共9页
作者
Roberto F. Delgadillo; Katie A. Carnes; Kathia Zaleta-Rivera; Omar Olmos; Lawrence J. Parkhurst;
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Department of Chemistry University of Nebraska - Lincoln;

GlaxoSmithKline Medicinal Science and Technology CMC Analytical ? Drug Substance and Product Analysis;

Department of Bioengineering University of California San Diego;

Tecnologico de Monterrey School of Engineering and Sciences;

Department of Chemistry University of Nebraska - Lincoln;

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正文语种 eng
中图分类分析化学;
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7. Screening for protein-protein interactions using F?rster resonance energy transfer (FRET) and fluorescence lifetime imaging microscopy (FLIM) [J] . Anca Margineanu, Jia Jia Chan, Douglas J. Kelly, Scientific reports. . 2016,第1期

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9. F?rster resonance energy transfer photoacoustic microscopy [C] . Yu Wang, Lihong V. Wang SPIE Conference on Photons Plus Ultrasound : imaging and Sensing . 2013

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12. A FLIM Microscopy Based on Acceptor-Detected Förster Resonance Energy Transfer [O] . Roberto F. Delgadillo, Katie A. Carnes, Kathia Zaleta-Rivera, 2021

机译：基于受体检测到的Förster共振能量转移的Flim显微镜
13. High Performance Nuclear Magnetic Resonance Imaging Using Magnetic Resonance Force Microscopy [R] . Hammel, P C 2013

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A FLIM Microscopy Based on Acceptor-Detected F?rster Resonance Energy Transfer

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