Modeling Viral Capsid Assembly
Abstract
I present a review of the theoretical and computational methodologies that have been used to model the assembly of viral capsids. I discuss the capabilities and limitations of approaches ranging from equilibrium continuum theories to molecular dynamics simulations, and I give an overview of some of the important conclusions about virus assembly that have resulted from these modeling efforts. Topics include the assembly of empty viral shells, assembly around single-stranded nucleic acids to form viral particles, and assembly around synthetic polymers or charged nanoparticles for nanotechnology or biomedical applications. I present some examples in which modeling efforts have promoted experimental breakthroughs, as well as directions in which the connection between modeling and experiment can be strengthened.
Cite
@article{arxiv.1301.1657,
title = {Modeling Viral Capsid Assembly},
author = {Michael F. Hagan},
journal= {arXiv preprint arXiv:1301.1657},
year = {2013}
}
Comments
42 pages (single column), 24 figures. Will appear in: Advances in Chemical Physics, vol. 155 (2013)