Automated bead-trapping apparatus and control system for single-molecule DNA sequencing

We have been investigating a microfluidics platform for high-speed, low-cost sequencing of single DNA molecules using novel "charge-switch" nucleotides. A significant challenge is the design of a flowcell suitable for manipulating bead-DNA complexes and sorting labeled polyphosphate molecu...

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Veröffentlicht in:	Optics express 2008-03, Vol.16 (5), p.3445-3455
Hauptverfasser:	Bashford, Greg, Lamb, Don, Grone, Dan, Eckles, Bob, Kornelsen, Kevin, Middendorf, Lyle, Williams, John
Format:	Artikel
Sprache:	eng
Schlagworte:	Equipment Design Equipment Failure Analysis Microfluidic Analytical Techniques - instrumentation Microscopy, Fluorescence - instrumentation Oligonucleotide Array Sequence Analysis - instrumentation Robotics - instrumentation Robotics - methods Sequence Analysis, DNA - instrumentation Sequence Analysis, DNA - methods
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container_title	Optics express
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creator	Bashford, Greg Lamb, Don Grone, Dan Eckles, Bob Kornelsen, Kevin Middendorf, Lyle Williams, John
description	We have been investigating a microfluidics platform for high-speed, low-cost sequencing of single DNA molecules using novel "charge-switch" nucleotides. A significant challenge is the design of a flowcell suitable for manipulating bead-DNA complexes and sorting labeled polyphosphate molecules by charge. The flowcell is part of a single-molecule detection instrument, creating fluorescence images from labeled polyphosphates. These images would ultimately be analyzed by signal processing algorithms to identify specific nucleotides in a DNA sequence. Here we describe requirements of the fluidics system for loading, identifying, tracking, and positioning beads. By dynamically modulating pressure gradients in the plenum chambers of a multi-channel network, we could guide individual beads with high precision to any desired coordinate and reversibly trap them in stepped channels. We show that DNA immobilized on pressure-trapped beads can be physically extended into a downstream channel under electric force for analysis. Custom dynamic algorithms for automated bead control are described.
doi_str_mv	10.1364/OE.16.003445
format	Article
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subjects	Equipment Design Equipment Failure Analysis Microfluidic Analytical Techniques - instrumentation Microscopy, Fluorescence - instrumentation Oligonucleotide Array Sequence Analysis - instrumentation Robotics - instrumentation Robotics - methods Sequence Analysis, DNA - instrumentation Sequence Analysis, DNA - methods
title	Automated bead-trapping apparatus and control system for single-molecule DNA sequencing
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