PicoSep - A Microfluidic Single Molecule Free Solution Hydrodynamic Separation Pl

Award Information
Agency:
Department of Health and Human Services
Branch
n/a
Amount:
$399,324.00
Award Year:
2012
Program:
SBIR
Phase:
Phase I
Contract:
1R43GM103356-01
Award Id:
n/a
Agency Tracking Number:
R43GM103356
Solicitation Year:
2012
Solicitation Topic Code:
NIGMS
Solicitation Number:
PA10-122
Small Business Information
810 Wyman Park Drive, Unit G01, BALTIMORE, MD, -
Hubzone Owned:
N
Minority Owned:
N
Woman Owned:
N
Duns:
830377581
Principal Investigator:
KELVINLIU
(626) 202-4825
circulomics@gmail.com
Business Contact:
KELVINLIU
(626) 202-4825
circulomics@gmail.com
Research Institute:
Stub




Abstract
DESCRIPTION (provided by applicant): A Microfluidic Single Molecule Free Solution Hydrodynamic Separation Platform Despite the power of modern methods such as microarrays, digital PCR, and deep sequencing, gel electrophoresis remains the workhorse of molecular biology. While high sizing resolution can be obtained using electrophoresis, dynamic range is limited, requiring specific assays tailored to small (PAGE), medium (slab agarose), or large DNA (PFGE). Furthermore, detection sensitivity is limited and quantification accuracy is poor, necessitating large sample volumes and DNA amounts. Capillary electrophoresis features increased sensitivity, fast analysis times, and reduced sample consumption but with increased complexity, cost, and the same limited sizing dynamic range. Single molecule free solution hydrodynamic separation (SML-FSHS) is an integrated technique for sized-based separation of DNA and quantification by single molecule counting that performs separation with only a buffer-filled microcapillaryand pressure source. This method has a unique combination of wide dynamic range (100 bp - 27 kbp), high sizing resolution and near zero sample consumption (10 pL). Furthermore, it is among the most sensitive, amplification-free detection methods available,requiring only 10-23 moles of DNA for analysis and possessing quantitative accuracy that approaches the limits imposed by molecular shot noise. In this Phase I SHIFT proposal, a microfluidic SML-FSHS platform called PicoSep will be developed that surpasses the sizing performance, detection sensitivity, and speed of the previous microcapillary systems and any current DNA sizing method. This will be accomplished through: 1) the initial demonstration of a micro/nanofluidic device to enhance speed and resolution, 2) the novel incorporation electrokinetic sample stacking to further enhance concentration sensitivity, and 3) the development of a compact instrument platform to reduce cost and facilitate ease-of-use. This instrument will address the preconceptions that single molecule methods are bulky, expensive, and difficult. The unmatched sensitivity, wide dynamic range, and low sample consumption will make PicoSep an ideal detection platform for PCR-free, multiplexed biomarker assays in clinical diagnostics andcancer medicine. PUBLIC HEALTH RELEVANCE: A Microfluidic Single Molecule Free Solution Hydrodynamic Separation Platform DNA sizing and separation is one of the most fundamental and widely used tools in molecular biology. PicoSep will have wider sizing dynamic range, higher detection sensitivity, and lower sample consumption than any existing technique. This will enable the development of new highly sensitive, multiplex biomarker assays for clinical diagnostics and cancer research that are more powerful and less expensive than current approaches.

* information listed above is at the time of submission.

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