English

Polymorphism in tubulin assemblies: a mechanical model

Soft Condensed Matter 2022-09-27 v1 Biological Physics

Abstract

We investigate the mechanical origin of polymorphic structures in two-dimensional tubulin assemblies, of which microtubules are the best known example. These structures feature twisted ribbons, flat tubulin sheets, macrotubules, and hoops, and they spontaneously assemble depending on the chemical environment. Upon modelling tubulin aggregates as minimally anisotropic elastic shells and using a combination of numerical simulations and analytical work, we show that the mechanical strain in tubulin lattices, originating from asymmetries at the single dimer level, naturally gives rise to polymorphic assemblies, among which cylinders and other tubular structures are predominant for a wide range of values of spontaneous curvature. Furthermore, our model suggests that switching the sign of the sheets' spontaneous Gaussian curvature from positive (i.e. sphere-like) to negative (i.e. saddle-like), could provide a possible route to microtubules disassembly.

Keywords

Cite

@article{arxiv.2209.12884,
  title  = {Polymorphism in tubulin assemblies: a mechanical model},
  author = {Ireth García-Aguilar and Steven Zwaan and Luca Giomi},
  journal= {arXiv preprint arXiv:2209.12884},
  year   = {2022}
}

Comments

10 pages, 5 figures

R2 v1 2026-06-28T02:08:00.975Z