Efficient detection of single molecules eluting off an optically trapped microsphere

Bioimaging Pub Date : 2001-05-11 DOI:10.1002/1361-6374(199803)6:1<33::AID-BIO5>3.0.CO;2-J
Nicholas P Machara, Peter M Goodwin, Jörg Enderlein, David J Semin, Richard A Keller
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引用次数: 15

Abstract

We demonstrate efficient detection of single fluorescent molecules eluting off a polystyrene microsphere optically trapped in a flowing sheath stream. A 1μm diameter analyte doped microsphere was positioned ∼20 μm upstream of a 16 μm diameter probe laser without significant degradation of the detection signal-to-noise ratio due to scattered laser light and fluorescence from the microsphere. In comparison to more standard capillary sample introduction, the microsphere causes only small perturbations to the sheath fluid flow. The small diameter of the analyte stream eluting from the microsphere results in a greater than 90% detection efficiency for single rhodamine-6G molecules, limited primarily by the photostability of the dye.

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从光学捕获微球中洗脱的单分子的有效检测
我们展示了在流动的鞘流中被光学捕获的聚苯乙烯微球洗脱的单荧光分子的有效检测。将直径为1μm的分析物掺杂微球放置在直径为16 μm的探针激光器上游约20 μm处,由于激光散射和微球发出的荧光,检测信噪比没有明显下降。与更标准的毛细管样品引入相比,微球对鞘液流动的扰动很小。从微球中洗脱的分析物流直径小,对单个罗丹明- 6g分子的检测效率大于90%,主要受染料的光稳定性限制。
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Bioimaging
Bioimaging
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