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Many viruses deliver their genomes into the nucleoplasm for viral transcription and replication. Here, we describe a novel cell-free system to elucidate specific interactions between viruses and nuclear pore complexes (NPCs). Nuclei reconstituted in vitro from egg extracts of Xenopus laevis, an established biochemical system to decipher nuclear functions, were incubated with GFP-tagged capsids of herpes simplex virus, an alphaherpesvirus replicating in the nucleus. Capsid binding to NPCs was analyzed using fluorescence and field emission scanning electron microscopy. Tegument-free capsids or viral capsids exposing inner tegument proteins on their surface bound to nuclei, while capsids inactivated by a high-salt treatment or covered by inner and outer tegument showed less binding. There was little binding of the four different capsid types to nuclei lacking functional NPCs. This novel approach provides a powerful system to elucidate the molecular mechanisms that enable viral structures to engage with NPCs. Furthermore, this assay could be expanded to identify molecular cues triggering viral genome uncoating and nuclear import of viral genomes.

Original publication

DOI

10.1111/tra.12209

Type

Journal article

Journal

Traffic

Publication Date

11/2014

Volume

15

Pages

1266 - 1281

Keywords

Xenopus nuclei, herpes simplex virus, herpesviruses, nuclear pore, reconstitution, Active Transport, Cell Nucleus, Animals, Capsid, Capsid Proteins, Cell-Free System, Herpesvirus 1, Human, Nuclear Pore, Protein Binding, Xenopus