Issue 35, 2022

Active and thermal fluctuations in multi-scale polymer structure and dynamics

Abstract

The presence of athermal noise or biological fluctuations control and maintain crucial life-processes. In this work, we present an exact analytical treatment of the dynamic behavior of a flexible polymer chain that is subjected to both thermal and active forces. Our model for active forces incorporates temporal correlation associated with the characteristic time scale and processivity of enzymatic function (driven by ATP hydrolysis), leading to an active-force time scale that competes with relaxation processes within the polymer chain. We analyze the structure and dynamics of an active-Brownian polymer using our exact results for the dynamic structure factor and the looping time for the chain ends. The spectrum of relaxation times within a polymer chain implies two different behaviors at small and large length scales. Small length-scale relaxation is faster than the active-force time scale, and the dynamic and structural behavior at these scales are oblivious to active forces and, are thus governed by the true thermal temperature. Large length-scale behavior is governed by relaxation times that are much longer than the active-force time scale, resulting in an effective active-Brownian temperature that dramatically alters structural and dynamic behavior. These complex multi-scale effects imply a time-dependent temperature that governs living and non-equilibrium systems, serving as a unifying concept for interpreting and predicting their physical behavior.

Graphical abstract: Active and thermal fluctuations in multi-scale polymer structure and dynamics

Supplementary files

Article information

Article type
Paper
Submitted
07 May 2022
Accepted
11 Aug 2022
First published
18 Aug 2022

Soft Matter, 2022,18, 6629-6637

Active and thermal fluctuations in multi-scale polymer structure and dynamics

A. Ghosh and A. J. Spakowitz, Soft Matter, 2022, 18, 6629 DOI: 10.1039/D2SM00593J

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