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Parallel multispot smFRET analysis using an 8-pixel SPAD array

机译：使用8像素SPAD阵列并行MultiSpot SMFRet分析

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摘要

Single-molecule Förster resonance energy transfer (smFRET) is a powerful tool for extracting distance information between two fluorophores (a donor and acceptor dye) on a nanometer scale. This method is commonly used to monitor binding interactions or intra- and intermolecular conformations in biomolecules freely diffusing through a focal volume or immobilized on a surface. The diffusing geometry has the advantage to not interfere with the molecules and to give access to fast time scales. However, separating photon bursts from individual molecules requires low sample concentrations. This results in long acquisition time (several minutes to an hour) to obtain sufficient statistics. It also prevents studying dynamic phenomena happening on time scales larger than the burst duration and smaller than the acquisition time. Parallelization of acquisition overcomes this limit by increasing the acquisition rate using the same low concentrations required for individual molecule burst identification. In this work we present a new two-color smFRET approach using multispot excitation and detection. The donor excitation pattern is composed of 4 spots arranged in a linear pattern. The fluorescent emission of donor and acceptor dyes is then collected and refocused on two separate areas of a custom 8-pixel SPAD array. We report smFRET measurements performed on various DNA samples synthesized with various distances between the donor and acceptor fluorophores. We demonstrate that our approach provides identical FRET efficiency values to a conventional single-spot acquisition approach, but with a reduced acquisition time. Our work thus opens the way to high-throughput smFRET analysis on freely diffusing molecules.

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期刊名称 other
作者
A. Ingargiola; R. A. Colyer; D. Kim; F. Panzeri; R. Lin; A. Gulinatti; I. Rech; M. Ghioni; S. Weiss; X. Michalet;
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年(卷),期 -1(8228),-1
年度 -1
页码 909470
总页数 11
原文格式 PDF
正文语种
中图分类
关键词
single-molecule photon counting FRET SPAD array high throughput;

机译：单分子;光子计数;FRET;SPAD阵列;高通量;

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1. 使用cDNA微阵列和组织微阵列对三种上皮性卵巢肿瘤基因表达的分析 [J] . 郑敏, Simon R, Kononen J, 癌症（英文版） . 2004,第007期
2. Towards picosecond array detector for single-photon time-resolved multispot parallel analysis [J] . Rech I., Gulinatti A., Crotti M., Journal of Modern Optics . 2011,第3a4期

机译：朝皮秒阵列检测器进行单光子时间分辨多点并行分析
3. Towards picosecond array detector for single-photon time-resolved multispot parallel analysis [J] . Ivan Recha* Angelo Gulinattia Matteo Crottia Corrado Cammia Piera Maccagnanib amp, Massimo Ghionia Journal of Modern Optics . 2011,第3a4期

机译：朝皮秒阵列检测器进行单光子时间分辨多点并行分析
4. A Full Parallel Event Driven Readout Technique for Area Array SPAD FLIM Image Sensors [J] . Nie Kaiming, Wang Xinlei, Qiao Jun, SIAM journal on applied dynamical systems . 2017,第2期

机译：用于区域阵列SPAD脱象图像传感器的完整并行事件驱动读出技术
5. Parallel multispot smFRET analysis using an 8-pixel SPAD array [C] . A. Ingargiola Single Molecule Spectroscopy and Superresolution Imaging V. . 2012

机译：使用8像素SPAD阵列的并行多点smFRET分析
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机译：优化/并行C编译器的实用数组依赖分析
7. 8-spot smFRET analysis using two 8-pixel SPAD arrays [O] . Antonino Ingargiola, Francesco Panzeri, Niusha Sarkosh, -1

机译：使用两个8像素SPAD阵列的8点SMFRET分析
8. Parallel multispot smFRET analysis using an 8-pixel SPAD array [O] . A. Ingargiola, R. A. Colyer, D. Kim, 2012

机译：使用8像素SPAD阵列的并行多点smFRET分析
9. Dc Analysis of Parallel Arrays of Two and Three Josephson Junctions. [R] . Tsang, W. T., Van Duzer, T. 1975

机译：两个和三个约瑟夫森结的平行阵列的Dc分析。

Parallel multispot smFRET analysis using an 8-pixel SPAD array

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