Zakary R. N. McLure scite author profile

Zakary R. N. McLure

2Publications

50Citation Statements Received

204Citation Statements Given

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University of Prince Edward Island

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Free Energy of a Folded Polymer under Cylindrical Confinement

2017

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Monte Carlo computer simulations are used to study the conformational free energy of a folded polymer confined to a long cylindrical tube. The polymer is modeled as a hard-sphere chain. Its conformational free energy F is measured as a function of λ, the end-to-end distance of the polymer. In the case of a flexible linear polymer, F (λ) is a linear function in the folded regime with a gradient that scales as f ≡ |dF/dλ| ∼ N 0 D −1.20±0.01 for a tube of diameter D and a polymer of length N. This is close to the prediction f ∼ N 0 D −1 obtained from simple scaling arguments. The discrepancy is due in part to finite-size effects associated with the de-Gennes blob model. A similar discrepancy was observed for the folding of a single arm of a three-arm star polymer. We also examine backfolding of a semiflexible polymer of persistence length P in the classic Odijk regime. In the overlap regime, the derivative scales f ∼ N 0 D −1.72±0.02 P −0.35±0.01 , which is close to the prediction f ∼ N 0 D −5/3 P −1/3 obtained from a scaling argument that treats interactions between deflection segments at the second virial level. In addition, the measured free energy cost of forming a hairpin turn is quantitatively consistent with a recent theoretical calculation. Finally, we examine the scaling of F (λ) for a confined semiflexible chain in the presence of an S-loop composed of two hairpins. While the predicted scaling of the free energy gradient is the same as that for a single hairpin, we observe a scaling of f ∼ D −1.91±0.03 P −0.36±0.01 . Thus, the quantitative discrepancy between this measurement and the predicted scaling is somewhat greater for Sloops than for single hairpins.

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Free-energy cost of localizing a single monomer of a confined polymer

Polson

McLure

2019

Phys. Rev. E

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We describe a simple Monte Carlo simulation method to calculate the free-energy cost of localizing a single monomer of a polymer confined to a cavity. The localization position is chosen to be on the inside surface of the confining cavity. The method is applied to a freely-jointed hard-sphere polymer chain confined to cavities of spherical and cubic geometries. In the latter case we consider localization at a corner and at the center of a face of the confining cube. We consider cases of end-monomer localization both with and without tethering of the other end monomer to a point on the surface. We also examine localization of monomers at arbitrary position along the contour of the polymer. We characterize the dependence of the free energy on the cavity size and shape, the localization position, and the polymer length. The quantitative trends can be understood using standard scaling arguments and use of a simple theoretical model. The results are relevant to those theories of polymer translocation that focus on the importance of the free-energy barrier as the translocation process requires an initial localization of a monomer to the position of a nanopore.

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Zakary R. N. McLure

Free Energy of a Folded Polymer under Cylindrical Confinement

Free-energy cost of localizing a single monomer of a confined polymer

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