Structure and functional analyses of Vaccinia virus entry-fusion complex component J5 protein

Vaccinia virus enters host cells through an 11-protein entry fusion complex (EFC) that operates by a mechanism distinct from those of canonical viral fusion systems. Understanding how this multiprotein complex mediates membrane fusion is crucial for elucidating poxvirus entry and identifying potential antiviral targets. Here, we determined the NMR structure of a truncated J5 protein, (J5 ^2-68 ). To further dissect the functional determinants of J5, we generated recombinant vaccinia viruses expressing various J5 mutants, including substitutions in conserved residues, alterations of exposed charged residues, and chimeric constructs between vaccinia J5 and its orthologous AMV232 gene from an entomopoxvirus. Functional analyses revealed that residues 90-110 and the conserved P ³⁸ YYCWY ⁴³ motif are indispensable for maintaining EFC integrity and promoting membrane fusion. Together, we define the structural and functional elements of J5 that are essential for poxvirus entry and advance our understanding of the unique membrane fusion mechanism employed by poxviruses.