Biology – Quantitative Biology – Biomolecules
Scientific paper
2009-01-30
Phys. Biol. 6 (2009) 036006
Biology
Quantitative Biology
Biomolecules
21 pages, 7 figures, 1 table
Scientific paper
10.1088/1478-3975/6/3/036006
Translocation through a nanopore is a new experimental technique to probe physical properties of biomolecules. A bulk of theoretical and computational work exists on the dependence of the time to translocate a single unstructured molecule on the length of the molecule. Here, we study the same problem but for RNA molecules for which the breaking of the secondary structure is the main barrier for translocation. To this end, we calculate the mean translocation time of single-stranded RNA through a nanopore of zero thickness and at zero voltage for many randomly chosen RNA sequences. We find the translocation time to depend on the length of the RNA molecule with a power law. The exponent changes as a function of temperature and exceeds the naively expected exponent of two for purely diffusive transport at all temperatures. We interpret the power law scaling in terms of diffusion in a one-dimensional energy landscape with a logarithmic barrier.
Bundschuh Ralf
Forties Robert
Gerland Ulrich
McCauley Malcolm
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