The immature TBEV structure is solved - check out a new preprint!
The structure of the immature tick-borne encephalitis virus is solved! A collaborative effort of the group of Sarah Butcher from the University of Helsinki, the structural laboratory of Pavel Plevka at CEITEC MU and our lab.
Tick-borne encephalitis virus (TBEV) is a medically important flavivirus that poses a significant health threat in Europe and Asia. However, the structure of the immature form of TBEV remains unknown. Here, we employed state-of-the-art cryogenic electron microscopy (cryoEM) to determine the structure of the immature TBEV particle. The immature TBEV particle has a diameter of 56 nm and its surface glycoproteins are organised into spikes characteristic of immature flaviviruses. The cryoEM reconstructions of the whole virus and of the individual spike enabled us to build atomic models of the major viral components, the E and prM proteins. The insights obtained from our study provide a foundation for understanding the early stages of TBEV assembly and maturation. The pr domains of prM have a critical role in holding the heterohexameric prM3E3 spikes in metastable conformation. Destabilisation of the prM furin-sensitive loop at acidic pH facilitates its processing. The prM cleavage, the collapse of E protein ectodomains onto the virion surface concurrent with significant movement of the membrane domains of both E and M, and release of the pr fragment from the particle render the virus mature and infectious. This knowledge contributes to our understanding of the flavivirus life cycle.