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Paper detail

Force induced conformational transition in a system of interacting stiff polymer: Application to unfolding

We consider a stiff polymer chain in poor solvent and apply a force at one end of the chain. We find that by varying the stiffness parameter, polymer undergoes a transition from the globule state to the folded like state. The conformation of folded state mimics the $β$-sheet as seen in titin molecule. Using exact enumeration technique, we study the extension-force and force-temperature diagrams of such a system. Force-temperature diagram shows the re-entrance behaviour for flexible chain. However, for stiff chain this re-entrance behaviour is absent and there is an enhancement in $θ$-temperature with the rise of stiffness. We further propose that the internal information about the frozen structure of polymer can be read from the distribution of end-to-end distance which shows saw-tooth like behaviour.

preprint2007arXivOpen access
Sanjay KumarDebaprasad Giri
cond-mat.stat-mechBiological Physicscond-mat.soft
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Sanjay KumarDebaprasad Giri

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