Nonequilibrium Dynamics of the Helix-Coil Transition in Polyalanine

Abstract

In this work, the nonequilibrium pathways of the collapse of the helix-forming biopolymer polyalanine are investigated. To this end, the full time evolution of the helix-coil transition is simulated using molecular dynamics simulations. At the start of the transition short 310-helices form, seemingly leading to the molecule becoming more aspherical midway through the collapse. After the completed collapse, the formation of α-helices seems to become the prevalent ordering mechanism leading to helical bundles, a structure representative for the equilibrium behavior of longer chains. The dynamics of this transition is explored in terms of the power-law scaling of two associated relaxation times as a function of the chain length.