Abstract
Long terminal repeat (LTR) retrotransposons belong to the transposable elements (TE), autonomously replicating genetic elements that integrate into the host’s genome. LTR retrotransposons represent a major component of genomes across the tree of life; some derived sequences have even been domesticated by the host to perform cellular functions in essential processes such as development. Among animals, Drosophila melanogaster serves as an important model organism for TE research, harboring several LTR retrotransposons, including the Ty1-copia family, which is evolutionarily related to retroviruses and forms virus-like particles (VLPs). The architectural organization of copia VLPs in situ has remained unknown. In this study, we use cryo-FIB milling and lift-out approaches to visualize copia VLPs in isolated ovarian cells and intact egg chambers and resolve the in situ copia capsid structure to 7.7 Å resolution by cryo-ET. While cytosolic copia VLPs vary in size, nuclear VLPs are homogenous and form densely packed clusters, supporting a model in which nuclear import acts as a size selector. By analyzing flies deficient in the TE-suppressing PIWI-piRNA pathway, we observe a change in copia localization from cytosolic to nuclear during spermatogenesis in testes. Our findings provide insights into the cellular structural biology of an active LTR retrotransposon and shed light on the replication cycle of copia in the context of host gametogenesis.
Competing Interest Statement
J.M.P. holds a position on the advisory board of Thermo Fisher Scientific. M.B. is a member of the advisory board of Cell. All other authors declare no conflict of interest.