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Paper detail

Fast DNA translocation through a solid-state nanopore

We report translocation experiments on double-strand DNA through a silicon oxide nanopore. Samples containing DNA fragments with seven different lengths between 2000 to 96000 basepairs have been electrophoretically driven through a 10 nm pore. We find a power-law scaling of the translocation time versus length, with an exponent of 1.26 $\pm$ 0.07. This behavior is qualitatively different from the linear behavior observed in similar experiments performed with protein pores. We address the observed nonlinear scaling in a theoretical model that describes experiments where hydrodynamic drag on the section of the polymer outside the pore is the dominant force counteracting the driving. We show that this is the case in our experiments and derive a power-law scaling with an exponent of 1.18, in excellent agreement with our data.

preprint2004arXivOpen access
Arnold J. StormCornelis StormJianghua ChenHenny ZandbergenJean-Francois JoannyCees Dekker
Biological Physicscond-mat.softBiomolecules
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Arnold J. StormCornelis StormJianghua ChenHenny ZandbergenJean-Francois JoannyCees Dekker

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