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Bio-assay based on single molecule fluorescence detection in microfluidic channels |
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| Authors: | Christopher W. Hollars Jana Puls Olgica Bakajin Brad Olsan Chad E. Talley Stephen M. Lane Thomas Huser |
| Affiliation: | (1) Lawrence Livermore National Laboratory, Chemistry and Materials Science, Livermore, CA 94550, USA;(2) Lawrence Livermore National Laboratory, Physics and Applied Technologies, Livermore, CA 94550, USA;(3) NSF-Center for Biophotonics Science and Technology, University of California Davis, 2700 Stockton Blvd, Sacramento, CA 95817, USA |
| Abstract: | A rapid bioassay is described based on the detection of colocalized fluorescent DNA probes bound to DNA targets in a pressure-driven solution flowing through a planar microfluidic channel. By employing total internal reflection excitation of the fluorescent probes and illumination of almost the entire flow channel, single fluorescent molecules can be efficiently detected leading to the rapid analysis of nearly the entire solution flowed through the device. Cross-correlation between images obtained from two spectrally distinct probes is used to determine the target concentration and efficiently reduces the number of false positives. The rapid analysis of DNA targets in the low pM range in less than a minute is demonstrated. |
| Keywords: | Biomedical assay Colocalization Image cross-correlation Microfluidics Single molecule fluorescence TIRF |
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