Paper detail

Density waves, dodecahedral geometry and structures of some spherical viral capsids

A pentagonal order formed by 360 proteins in the bovine papilloma viral capsid and structures of some smaller viral capsids are considered from a unified point of view based on the Landau crystallization theory. To simulate the capsid structures we map the planar pentagonal Penrose quasilattice (PPQ) constructed in the frames of the Landau theory onto a sphere through the dodecahedron nets of different sizes. Six different simplest nets containing from 60 to 360 positions occupied by proteins are proposed. Buckling of the initially planar capsid faces and a smooth conjugation of the protein orders at the adjacent faces are taken into account by means of two conditions imposed on the minimization of the capsid free energy. This conditional minimization results in two-component phason strain field, which describes the self-consistent reconstruction of quasicrystalline orders located at twelve faces of spherical dodecahedron. All six chiral structures obtained in this way are very similar to those of well-known spherical viral capsids. The theory proposed explains some general peculiarities of protein organization in capsids of small and medium-sized viruses.