Lateral trapping of DNA inside a voltage gated nanopore

Töws T, Reimann P (2017)
PHYSICAL REVIEW E 95(6): 062413.

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Journal Article | Original Article | Published | English

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Abstract
The translocation of a short DNA fragment through a nanopore is addressed when the perforated membrane contains an embedded electrode. Accurate numerical solutions of the coupled Poisson, Nernst-Planck, and Stokes equations for a realistic, fully three-dimensional setup as well as analytical approximations for a simplified model are worked out. By applying a suitable voltage to the membrane electrode, the DNA can be forced to preferably traverse the pore either along the pore axis or at a small but finite distance from the pore wall.
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Töws T, Reimann P. Lateral trapping of DNA inside a voltage gated nanopore. PHYSICAL REVIEW E. 2017;95(6): 062413.
Töws, T., & Reimann, P. (2017). Lateral trapping of DNA inside a voltage gated nanopore. PHYSICAL REVIEW E, 95(6), 062413. doi:10.1103/PhysRevE.95.062413
Töws, T., and Reimann, P. (2017). Lateral trapping of DNA inside a voltage gated nanopore. PHYSICAL REVIEW E 95:062413.
Töws, T., & Reimann, P., 2017. Lateral trapping of DNA inside a voltage gated nanopore. PHYSICAL REVIEW E, 95(6): 062413.
T. Töws and P. Reimann, “Lateral trapping of DNA inside a voltage gated nanopore”, PHYSICAL REVIEW E, vol. 95, 2017, : 062413.
Töws, T., Reimann, P.: Lateral trapping of DNA inside a voltage gated nanopore. PHYSICAL REVIEW E. 95, : 062413 (2017).
Töws, Thomas, and Reimann, Peter. “Lateral trapping of DNA inside a voltage gated nanopore”. PHYSICAL REVIEW E 95.6 (2017): 062413.
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