Molecular tectonic model of virus structural transitions: the putative cell entry states of poliovirus

Upon interacting with its receptor, poliovirus undergoes conformational changes that are implicated in cell entry, including the externalization of the viral protein VP4 and the N terminus of VP1. We have determined the structures of native virions and of two putative cell entry intermediates, the 135S and 80S particles, at similar to 22-Angstrom resolution by cryo-electron microscopy. The 135S and 80S particles are both similar to 4% larger than the virion. Pseudoatomic models were constructed by adjusting the beta-barrel domains of the three capsid proteins VP1, VP2, and VP3 from their known positions in the virion to fit the 135S and 80S reconstructions. Domain movements of up to 9 Angstrom were detected, analogous to the shifting of tec tonic plates. These movements create gaps between adjacent subunits. The gaps at the sites ct-here VP1, VP3, and VP3 subunits meet are plausible candidates for the emergence of VP4 and the N terminus of VP1. The implications of these observations are discussed for models in which the externalized components form a transmembrane pore through which viral RNA enters the infected cell.