The divergent effects of G3BP orthologs on human stress granule assembly imply a centric role for the core protein interaction network

Liquid-liquid phase separation (LLPS) mediated by G3BP1/2 proteins and non-translating mRNAs mediates stress granule (SG) assembly. We investigated the phylogenetic evolution of G3BP orthologs from unicellular yeast to mammals and identified both conserved and divergent features. The modular domain organization of G3BP orthologs is generally conserved. However, invertebrate orthologs displayed reduced capacity for SG assembly in human cells compared to vertebrate orthologs. We demonstrated that the protein-interaction network facilitated by the NTF2L domain is a crucial determinant of this specificity. The evolution of the G3BP1 network coincided with its exploitation by certain viruses, as evident from the interaction between viral proteins and G3BP orthologs in insects and vertebrates. We revealed the importance and divergence of the G3BP interaction network in human SG formation. Leveraging this network, we established a 7-component in vitro SG reconstitution system for quantitative studies. These findings highlight the significance of G3BP network divergence in the evolution of biological processes.