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DNA Dynamics in Dual Nanopore Tug-of-War

Published 28 Aug 2025 in cond-mat.soft and physics.bio-ph | (2508.21144v1)

Abstract: Solid state nanopores have emerged as powerful tools for single-molecule sensing, yet the rapid uncontrolled translocation of the molecule through the pore remains a key limitation. We have previously demonstrated that an active dual-nanopore system, consisting of two closely spaced pores operated via feedback controlled biasing, shows promise in achieving controlled, slowed-down translocation. Translocation control is achieved via capturing the DNA in a special tug-of-war configuration, whereby opposing electrophoretic forces at each pore are applied to a DNA molecule co-captured at the two pores. Here, we systematically explore translocation physics during DNA tug-of-war focusing on genomically relevant longer dsDNA using a T$_4$-DNA model (166\,kbp). We find that longer molecules can be trapped in tug-of-war states with an asymmetric partitioning of contour between the pores. Secondly, we explore the physics of DNA disengagement from a tug-of-war configuration, focusing on the dynamics of DNA free-end escape, in particular how the free-end velocity depends on pore voltage, DNA size and the presence of additional DNA strands between the pores (i.e. arising in the presence of folded translocation). These findings validate theoretical predictions derived from a first passage model and provide new insight into the physical mechanisms governing molecule disengagement in tug-of-war.

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