2017
DOI: 10.1103/physreve.96.042502
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Tensile elasticity of semiflexible polymers with hinge defects

Abstract: It has become clear in recent years that the simple uniform wormlike chain model needs to be modified in order to account for more complex behavior which has been observed experimentally in some important biopolymers. For example, the large flexibility of short ds-DNA has been attributed to kink or hinge defects. In this paper, we calculate analytically, within the weak bending approximation, the force-extension relation of a wormlike chain with a permanent hinge defect along its contour. The defect is charact… Show more

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Cited by 6 publications
(7 citation statements)
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“…(28)] also approaches the stretching behavior of clamped polymers for increasing stiffness and forces |F |L 2 /κ 1, irrespective of the boundary conditions, as has been predicted by Ref. [48]. Yet, stronger forces are required than for cantilevered polymers.…”
Section: Semiflexible Polymer Under Tensionsupporting
confidence: 56%
“…(28)] also approaches the stretching behavior of clamped polymers for increasing stiffness and forces |F |L 2 /κ 1, irrespective of the boundary conditions, as has been predicted by Ref. [48]. Yet, stronger forces are required than for cantilevered polymers.…”
Section: Semiflexible Polymer Under Tensionsupporting
confidence: 56%
“…It is known that κ/f is the length of propagation of boundary effects along the polymer contour [21,22]. If it is much less than the total contour length L, the stretched WLC behaves independently of the boundary conditions [19,20] and therefore it is in the thermodynamic limit. This can be seen in Eq.…”
Section: Tethered Wormlike Chainmentioning
confidence: 99%
“…We should point out that semiflexible polymers are inherently finite-size systems and different boundary conditions (e.g., free hinged-hinged, transverse-position-constrained hinged-hinged, clampedclamped, etc.) yield different force-extension relations even within the Gibbs ensemble [19,20]. For example, when we constrain the end-points of a wormlike chain with hinged-hinged boundary conditions to fluctuate on a straight line defined by the tension force, the average extension for a given force is greater than that in the case of free hinged-hinged boundary conditions [20].…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…Let us now consider a nunchuck with semiflexible arms. In Reference [ 36 ], the force-extension relation of a semiflexible nunchuck with a hinge modeled as an orientational harmonic spring is calculated analytically, in the weakly bending approximation. (We point out that the weakly bending approximation may hold because of a strong tensile force or because of a large bending stiffness.)…”
Section: Bimodality In the Tensile Elasticity Of A Semiflexible Nunchuckmentioning
confidence: 99%