Asymmetric cryo-EM reconstruction of phage MS2 reveals genome structure in situ

In single-stranded ribonucleic acid (RNA) viruses, virus capsid assembly and genome packaging are intertwined processes. Using cryo-electron microscopy and single particle analysis we determined the asymmetric virion structure of bacteriophage MS2, which includes 178 copies of the coat protein, a single copy of the A-protein and the RNA genome. This reveals that in situ, the viral RNA genome can adopt a defined conformation. The RNA forms a branched network of stem-loops that almost all allocate near the capsid inner surface, while predominantly binding to coat protein dimers that are located in one-half of the capsid. This suggests that genomic RNA is highly involved in genome packaging and virion assembly.
MS2 is a single-stranded RNA bacteriophage that infects its host via adsorption to bacterial pili. Here the authors visualize the MS2 virion with asymmetric cryo-EM reconstruction, revealing that the genome of MS2 adopts a specific structure of asymmetrically distributed stem-loops connected to the capsid.