Abstract
SummaryReplication and genome encapsidation of many negative-sense RNA viruses take place in virus-induced membrane-less organelles termed viral factories (VFs). While liquid properties of VFs are believed to control the transition from genome replication to encapsidation, the nucleocapsid assembly, VF maturation and interactions with the cellular environment remain elusive. Here we applyin situcryo-correlative light and electron tomography to follow nucleocapsid assembly and changes in VF morphology and their liquid properties during Ebola virus infection. We show that Ebola viral nucleocapsids transition from loosely packed helical assemblies in early VFs to condensed cylinders that arrange into highly organized parallel bundles later in infection. Early VFs associate with intermediate filaments and are devoid of other host material, but become progressively accessible to cellular components. Our data suggest that this process is coupled to VF solidification and dispersion, and that changes in liquid properties of VFs promote nucleocapsid transport to budding sites.Highlights- Cryo-ET reveals the molecular architecture of Ebola virus replication compartments- Loosely coiled nucleocapsids transition to condensed cylinders forming bundles- Nucleocapsid condensation drives dispersion of viral factories promoting viral egress- Intermediate filaments associate with and are critical for virus factory formation
Publisher
Cold Spring Harbor Laboratory