Fast DNA Translocation through a Solid-State Nanopore
Institut Curie · Physique des Cellules et Cancers · +2 more institutions
Abstract
We report experiments and modeling of translocation of double-strand DNA through a siliconoxide nanopore. Long DNA molecules with different lengths ranging from 6500 to 97000 base pairs have been electrophoretically driven through a 10 nm pore. We observe a power-law caling of the translocation time with the length, with an exponent of 1.27. This nonlinear scaling is strikingly different from the well-studied linear behavior observed in similar experiments performed on protein pores. We present a theoretical model where hydrodynamic drag on the ection of the polymer outside the pore is the dominant force counteracting the electrical driving force. We show that this applies to our experiments, and we derive a…
Citation impact
- FWCI
- 37.39
- Percentile
- 100%
- References
- 21
Authors
6- AJA. J. StormCorresponding
Institut Curie, Physique des Cellules et Cancers, Delft University of Technology, Centre National de la Recherche Scientifique
- CSCornelis Storm
Centre National de la Recherche Scientifique, Institut Curie, Delft University of Technology, Physique des Cellules et Cancers
- JCJianghua Chen
Centre National de la Recherche Scientifique, Physique des Cellules et Cancers, Delft University of Technology, Institut Curie
- HZH.W. Zandbergen
Institut Curie, Delft University of Technology, Physique des Cellules et Cancers, Centre National de la Recherche Scientifique
- JJJean‐François Joanny
Institut Curie, Delft University of Technology, Physique des Cellules et Cancers, Centre National de la Recherche Scientifique
Topics & keywords
- Nanopore
- Exponent
- Scaling
- Drag
- Power law
- Chemical physics
- DNA
- Materials science
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