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Optical detection of two-color-fluorophore barcode for nanopore DNA sensing

机译：光学检测双色荧光条形码用于纳米孔DNA感测

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摘要

A simple schematic on parallel optical detection of two-fluorophore barcode for single-molecule nanopore sensing is presented. The chosen two fluorophores, ATTO-532 and DY-521-XL, emitting in well-separated spectrum range can be excited at the same wavelength. A beam splitter was employed to separate signals from the two fluorophores and guide them to the same CCD camera. Based on a conventional microscope, sources of background in the nanopore sensing system, including membranes, compounds in buffer solution, and a detection cell was characterized. By photoluminescence excitation measurements, it turned out that silicon membrane has a negligible photoluminescence under the examined excitation from 440 nm to 560 nm, in comparison with a silicon nitrite membrane. Further, background signals from the detection cell were suppressed. Brownian motion of 450 bps DNA labelled with single ATTO-532 or DY-521-XL was successfully recorded by our optical system.

机译：提出了用于单分子纳米孔传感的两个荧光条形码的并行光学检测的简单示意图。选定的两个荧光体，ATTO-532和DY-521-XL，在完全分开的光谱范围内发射，可以在相同的波长激发。使用分束器将来自两个荧光团的信号分离，并将其引导至同一台CCD摄像机。基于常规显微镜，对纳米孔传感系统的背景源进行了表征，包括膜，缓冲溶液中的化合物和检测池。通过光致发光激发测量，发现与亚硝酸硅膜相比，在440nm至560nm的所研究的激发下，硅膜具有可忽略的光致发光。此外，抑制了来自检测单元的背景信号。我们的光学系统成功记录了单个ATTO-532或DY-521-XL标记的450 bps DNA的布朗运动。

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来源
《Nanotechnology VII》|2015年|95190G.1-95190G.7|共7页
会议地点 Barcelona(ES)
作者
M. Zhang; I. Sychugov; T. Schmidt; J. Linnros;
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作者单位

Dept. of Materials and Nano Physics, School of Information and Communication Technology, KTH Royal Institute of Technology, SE-164 40 Kista, Sweden;

Dept. of Materials and Nano Physics, School of Information and Communication Technology, KTH Royal Institute of Technology, SE-164 40 Kista, Sweden;

Dept. of Materials and Nano Physics, School of Information and Communication Technology, KTH Royal Institute of Technology, SE-164 40 Kista, Sweden;

Dept. of Materials and Nano Physics, School of Information and Communication Technology, KTH Royal Institute of Technology, SE-164 40 Kista, Sweden;

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原文格式 PDF
正文语种 eng
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关键词
Single-molecule; nanopore; optical; DNA barcoding;

机译：单分子；纳米孔光学DNA条形码;

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1. Two Color DNA Barcode Detection in Photoluminescence Suppressed Silicon Nitride Nanopores [J] . Assad Ossama N., Di Fiori Nicolas, Squires Allison H., Nano letters . 2015,第1期

机译：荧光抑制的氮化硅纳米孔中的两种颜色的DNA条码检测。
2. A potential sensing mechanism for DNA nucleobases by optical properties of GO and MoS2 Nanopores [J] . Vahid Faramarzi, Vahid Ahmadi, Bashir Fotouhi, Scientific reports. . 2019,第1期

机译：GO和MoS2纳米孔的光学性质对DNA核碱基的潜在传感机制
3. Active Delivery of Single DNA Molecules into a Plasmonic Nanopore for Label-Free Optical Sensing [J] . Shi Xin, Verschueren Daniel V., Dekker Cees Nano letters . 2018,第12期

机译：将单个DNA分子的活性递送到等离子体纳米孔中，用于无标记光学感测
4. Optical detection of two-color-fluorophore barcode for nanopore DNA sensing [C] . M. Zhang, I. Sychugov, T. Schmidt, Conference on Nanotechnology VII . 2015

机译：纳米孔DNA感应双色荧光团条形码的光学检测
5. Dye/zeolite ensembles for optical sensing applications: Vapor detection in nanopores. [D] . Meinershagen, Julia Louise. 2000

机译：用于光学传感应用的染料/沸石集成体：纳米孔中的蒸气检测。
6. Two Color DNA Barcode Detection in PhotoluminescenceSuppressed Silicon Nitride Nanopores [O] . OssamaN. Assad, Nicolas Di Fiori, Allison H. Squires, -1

机译：光致发光中的两种颜色的DNA条码检测抑制氮化硅纳米孔
7. Single-Molecule DNA Methylation Quantification Using Electro-optical Sensing in Solid-State Nanopores [O] . -1

机译：使用固态纳米孔中的电光感测的单分子DNA甲基化定量

Optical detection of two-color-fluorophore barcode for nanopore DNA sensing

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