Home-built integrated microarray system (IMAS). A three-laser confocal fluorescence scanner coupled with a microarray printer |
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Authors: | Sotirios S Tragoulias Pierre J Obeid Ioannis E Tataridis Theodore K Christopoulos |
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Institution: | (1) Department of Chemistry, University of Patras, 26500 Patras, Greece;(2) Foundation for Research and Technology Hellas, Institute of Chemical Engineering and High-Temperature Chemical Processes (FORTH/ICE-HT), P.O. Box 1414, 26504 Patras, Greece;(3) Present address: Department of Chemistry, University of Balamand, Tripoli, Lebanon |
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Abstract: | Microarray technology covers the urgent need to exploit the accumulated genetic information from large-scale sequencing projects
and facilitate investigations on a genome-wide scale. Although most applications focus on DNA microarrays, the technology
has expanded to microarrays of proteins, peptides, carbohydrates, and small molecules aiming either at detection/quantification
of biomolecules or investigation of biomolecular interactions in a massively parallel manner. Microarray experiments require
two specialized instruments: An arrayer (or printer), for construction of microarrays, and a readout instrument (scanner).
We have designed, constructed, and characterized the first integrated microarray system (IMAS) that combines the functions
of a microarrayer and a three-laser confocal fluorescence scanner into a single instrument and provides excellent flexibility
for the researcher. The three-axis robotic system that moves the printing head carrying multiple pins for arraying is also
used for moving the microarray slide in front of a stationary optical system during scanning. Since the translation stages
are the most expensive and crucial components of microarray printers and scanners, the proposed design reduces considerably
the cost of the instrument and enhances remarkably its operative flexibility. Experiments were carried out at resolutions
of 2.5, 5, 10, and 20 μm. The scanner detects 0.128 nmol L−1 carboxyfluorescein (spots with diameters of 70 μm) corresponding to 1.8 molecules μm−2. The linear range extends over 3.5 orders of magnitude (R
2 = 0.997) and the dynamic range covers almost five orders of magnitude. DNA microarray model experiments were carried out,
including staining with SYBR Green I and hybridization with oligonucleotides labeled with the fluorescent dyes Alexa 488,
Alexa 594, and Alexa 633.
Figure Lay-out of the home-built integrated microarray system (IMAS). For the first time, the functions of a microarrayer (printer)
and a three-laser confocal fluorescence scanner are combined into a single instrument. The three-axis robotic system that
moves the printing head for arraying is also used to move the microarray slide in front of a stationary optical system during
scanning.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. |
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Keywords: | Bioanalytical methods Microarrays Home-built integrated system |
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