16-Ch Time-resolved Single-Molecule Spectroscopy Using Line Excitation

机译：使用线激励的16通道时间分辨单分子光谱

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摘要

Single-molecule spectroscopy on freely-diffusing molecules allows detecting conformational changes of biomolecules without perturbation from surface immobilization. Resolving fluorescence lifetimes increases the sensitivity in detecting conformational changes and overcomes artifacts common in intensity-based measurements. Common to all freely-diffusing techniques, however, are the long acquisition times. We report a time-resolved multispot system employing a 16-channel SPAD array and TCSPC electronics, which overcomes the throughput issue. Excitation is obtained by shaping a 532 nm pulsed laser into a line, matching the linear SPAD array geometry. We show that the line-excitation is a robust and cost-effective approach to implement multispot systems based on linear detector arrays.

机译：自由扩散分子的单分子光谱法可以检测生物分子的构象变化，而不会受到表面固定化的干扰。解决荧光寿命提高了检测构象变化的灵敏度，并克服了基于强度的测量中常见的伪影。但是，所有自由扩散技术的共同点是获取时间长。我们报告了一个采用16通道SPAD阵列和TCSPC电子设备的时间分辨多点系统，该系统克服了吞吐量问题。通过将532 nm脉冲激光成形为与线性SPAD阵列几何形状匹配的线，可以得到激励。我们表明，线激励是一种基于线性检测器阵列的多点系统的稳健且具有成本效益的方法。

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来源
《Single molecule spectroscopy and superresolution imaging X》|2017年|70-81|共12页
会议地点 San Francisco(US)
作者
Antonino Ingargiola; Pietro Peronio; Eitan Lerner; Angelo Gulinatti; Ivan Rech; Massimo Ghioni; Shimon Weiss; Xavier Michalet;
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作者单位

Dept. Chemistry Biochemistry, University of California Los Angeles, Los Angeles, CA, USA;

DEIB, Politecnico di Milano, Milan, Italy;

Dept. Chemistry Biochemistry, University of California Los Angeles, Los Angeles, CA, USA;

DEIB, Politecnico di Milano, Milan, Italy;

DEIB, Politecnico di Milano, Milan, Italy;

DEIB, Politecnico di Milano, Milan, Italy;

Dept. Chemistry Biochemistry, University of California Los Angeles, Los Angeles, CA, USA;

Dept. Chemistry Biochemistry, University of California Los Angeles, Los Angeles, CA, USA;

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原文格式 PDF
正文语种 eng
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关键词
single-molecule; fluorescence; high-throughput; TCSPC; SPAD array;

机译：单分子荧光高通量TCSPC； SPAD阵列;

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专利

1. Single-molecule tautomerization tracking through space- and time-resolved fluorescence spectroscopy [J] . Doppagne Benjamin, Neuman Tomas, Soria-Martinez Ruben, Nature nanotechnology . 2020,第3期

机译：通过空间和时间分辨荧光光谱进行单分子跳跃跟踪
2. Enhanced Fluorescence of Cy5-Labeled DNA Tethered to Silver Island Films: Fluorescence Images and Time-Resolved Studies Using Single-Molecule Spectroscopy [J] . Yi Fu, Joseph R. Lakowicz Analytical chemistry . 2006,第17期

机译：与银岛薄膜相连的Cy5标记的DNA的增强荧光：使用单分子光谱的荧光图像和时间分辨研究
3. Theory of time-resolved single-molecule fluorescence spectroscopy [J] . Molski Andrzej Chemical Physics Letters . 2000,第4a5期

机译：时间分辨单分子荧光光谱理论
4. 16-Ch Time-resolved Single-Molecule Spectroscopy Using Line Excitation [C] . Antonino Ingargiola, Pietro Peronio, Eitan Lerner, Conference on single molecule spectroscopy and superresolution imaging X . 2017

机译：16-CH使用线励磁的单分子光谱
5. Time-resolved single-molecule spectroscopy in protein folding and polymer physics studies. [D] . Kong, Xiangxu. 2007

机译：蛋白质折叠和聚合物物理研究中的时间分辨单分子光谱。
6. 16-Ch Time-resolved Single-Molecule Spectroscopy Using LineExcitation [O] . Antonino Ingargiola, Pietro Peronio, Eitan Lerner, -1

机译：使用线的16通道时间分辨单分子光谱激发
7. 16-Ch time-resolved single-molecule spectroscopy using line excitation [O] . Ingargiola, Antonino, Peronio, Pietro, Lerner, Eitan, 2017

机译：使用线激发的16-Ch时间分辨单分子光谱
8. Probing and Manipulating Protein Conformation Changes by Time-Resolved Single-Molecule Spectroscopy and Site-Specific Ultramicroscopy [R] . Lu, H. P. 2008

机译：通过时间分辨单分子光谱和位点特异性超显微镜探测和操纵蛋白质构象变化

16-Ch Time-resolved Single-Molecule Spectroscopy Using Line Excitation

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