RNA X-ray footprinting reveals the consequences of an in vivo acquired determinant of viral infectivity

The secondary structures of the bacteriophage MS2 ssRNA genome, frozen in defined states, were determined with minimal perturbation using constraints from X-ray synchrotron footprinting (XRF). The footprints of the gRNA in the virion and as transcript are consistent with single, dominant but distinct conformations, and reveal the presence of multiple Packaging Signals potentially involved in assembly regulation that have not been detected by other techniques. XRF also reveals the dramatic effect of the unique Maturation Protein (MP) on both the capsid lattice, and the gRNA conformation inside the phage compared with a virus-like-particle composed only of coat protein subunits. Aspects of genome organisation in the phage, their impacts on the capsid shell, and the distortion of lattice geometry by MP, are hallmarks of molecular frustration. Phage assembly therefore appears to prepare the particle for the next step of the infectious cycle.