Issue 2, 2011

Quantitative high-resolution sensing of DNA hybridization using magnetic tweezers with evanescent illumination

Abstract

We applied the combined approach of evanescent nanometry and force spectroscopy using magnetic tweezers to quantify the degree of hybridization of a single synthetic single-stranded DNA oligomer to a resolution approaching a single-base. In this setup, the 200 nucleotide long DNA was covalently attached to the surface of an optically transparent solid support at one end and to the surface of a superparamagnetic fluorescent microsphere (force probe) at the other end. The force was applied to the probes using an electromagnet. The end-to-end molecular distance (i.e. out-of-image-plane position of the force probe) was determined from the intensity of the probe fluorescence image observed with total-internal reflectance microscopy. An equation of state for single stranded DNA molecules under tension (extensible freely jointed chain) was used to derive the penetration depth of the evanescent field and to calibrate the magnetic properties of the force probes. The parameters of the magnetic response of the force probes obtained from the equation of state remained constant when changing the penetration depth, indicating a robust calibration procedure. The results of such a calibration were also confirmed using independently measured probe-surface distances for probes mounted onto cantilevers of an atomic force microscope. Upon hybridization of the complementary 50 nucleotide-long oligomer to the surface-bound 200-mer, the changes in the force–distance curves were consistent with the quantitative conversion of 25% of the original single-stranded DNA to its double-stranded form, which was modeled as an elastic rod. The method presented here for quantifying the hybridization state of the single DNA molecules has potential for determining the degree of hybridization of individual molecules in a single molecule array with high accuracy.

Graphical abstract: Quantitative high-resolution sensing of DNA hybridization using magnetic tweezers with evanescent illumination

Supplementary files

Article information

Article type
Paper
Submitted
07 Jul 2010
Accepted
19 Sep 2010
First published
19 Nov 2010

Nanoscale, 2011,3, 581-591

Quantitative high-resolution sensing of DNA hybridization using magnetic tweezers with evanescent illumination

P. M. Oliver, J. S. Park and D. Vezenov, Nanoscale, 2011, 3, 581 DOI: 10.1039/C0NR00479K

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