Helices at Interfaces
Abstract
Helically coiled filaments are a frequent motif in nature. In situations commonly encountered in experiments coiled helices are squeezed flat onto two dimensional surfaces. Under such 2-D confinement helices form "squeelices" - peculiar squeezed conformations often resembling looped waves, spirals or circles. Using theory and Monte-Carlo simulations we illuminate here the mechanics and the unusual statistical mechanics of confined helices and show that their fluctuations can be understood in terms of moving and interacting discrete particle-like entities - the "twist-kinks". We show that confined filaments can thermally switch between discrete topological twist quantized states, with some of the states exhibiting dramatically enhanced circularization probability while others displaying surprising hyperflexibility.
Cite
@article{arxiv.1207.3218,
title = {Helices at Interfaces},
author = {Gi-Moon Nam and Nam-Kyung Lee and Hervé Mohrbach and Albert Johner and Igor M. Kulić},
journal= {arXiv preprint arXiv:1207.3218},
year = {2015}
}