Enhanced discrimination of DNA molecules in nanofluidic channels through multiple measurements

Author(s)

Sen, Yi-Heng; Jain, Tarun Kumar; Aguilar, Carlos A.; Karnik, Rohit

Abstract

Nanofluidic sensing elements have been the focus of recent experiments for numerous applications ranging from nucleic acid fragment sizing to single-molecule DNA sequencing. These applications critically rely on high measurement fidelity, and methods to increase resolution are required. Herein, we describe fabrication and testing of a nanochannel device that enhances measurement resolution by performing multiple measurements (>100) on single DNA molecules. The enhanced measurement resolution enabled length discrimination between a mixture of λ-DNA (48.5 kbp) and T7 DNA (39.9 kbp) molecules, which were detected as transient current changes during translocation of the molecules through the nanochannel. As long DNA molecules are difficult to resolve quickly and with high fidelity with conventional electrophoresis, this approach may yield potentially portable, direct electrical sizing of DNA fragments with high sensitivity and resolution.

Description

Author Manuscript 2013 March 21.

Date issued

2012-02

URI

http://hdl.handle.net/1721.1/78877

Department

Lincoln Laboratory
Massachusetts Institute of Technology. Department of Mechanical Engineering

Journal

Lab on a Chip

Publisher

Royal Society of Chemistry, The

Citation

Sen, Yi-Heng, Tarun Jain, Carlos A. Aguilar, and Rohit Karnik. Enhanced Discrimination of DNA Molecules in Nanofluidic Channels through Multiple Measurements. Lab on a Chip 12(6): 1094, 2012.

Version: Author's final manuscript

ISSN

1473-0197

1473-0189