AI Article Synopsis
- The study focuses on how Nipah virus (NiV) uses its G attachment protein to bind to host cell receptors (ephrinB2/B3) to initiate fusion with host cells via the F fusion protein.
- Researchers used TIRF microscopy to analyze the interactions between F, G, and ephrinB2, discovering that G and ephrinB2 form clusters crucial for F activation.
- They concluded that there's no stable F-G complex during or after activation, refining the understanding of NiV fusion processes and hinting at implications for studying other viral fusion mechanisms.
Article Abstract
Paramyxovirus membrane fusion requires an attachment protein that binds to a host cell receptor and a fusion protein that merges the viral and host membranes. For Nipah virus (NiV), the G attachment protein binds ephrinB2/B3 receptors and activates F-mediated fusion. To visualize dynamic events of these proteins at the membrane interface, we reconstituted NiV fusion activation by overlaying F- and G-expressing cells onto ephrinB2-functionalized supported lipid bilayers and used TIRF microscopy to follow F, G, and ephrinB2. We found that G and ephrinB2 form clusters and that oligomerization of ephrinB2 is necessary for F activation. Single-molecule tracking of F particles revealed accumulation of an immobilized intermediate upon activation. We found no evidence for stable F-G protein complexes before or after activation. These observations lead to a revised model for NiV fusion activation and provide a foundation for investigating other multicomponent viral fusion systems.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7840137 | PMC |
| http://dx.doi.org/10.1126/sciadv.abe1235 | DOI Listing |
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