Structure of D. melanogaster ARC1 reveals a repurposed molecule with characteristics of retroviral Gag

Abstract

ABSTRACTThe tetrapod neuronal protein ARC and its D. melanogaster homologue, dARC1, have important but differing roles in neuronal development. Both are thought to originate through exaptation of ancient Ty3/Gypsy retrotransposon Gag genes, with their novel function relying on an original capacity for self-assembly and encapsidation of nucleic acids. Here, we present the crystal structure of dARC1 CA and examine the relationship between dARC1, mammalian ARC and the CA protein of circulating retroviruses. We show that whilst the overall architecture is highly related to that of orthoretroviral and spumaretroviral CA, there are significant deviations in both N- and C-terminal domains, potentially affecting recruitment of partner proteins and particle assembly. The degree of sequence and structural divergence suggests that Ty3/Gypsy Gag has been exapted on two separate occasions and that, although mammalian ARC and dARC1 share functional similarity, the structures have undergone different adaptations after appropriation into the tetrapod and insect genomes.