HIV integrase compacts viral DNA into biphasic condensates

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Abstract The human immunodeficiency virus (HIV) infects non-dividing cells and its genome must be compacted to enter the cell nucleus. Here, we show that the viral enzyme integrase (IN) compacts HIV DNA mimetics in vitro. Under physiological conditions, IN-compacted genomes are consistent in size with those found for pre-integration complexes in infected cells. Compaction occurs in two stages: first IN tetramers bridge DNA strands and assemble into “rosette” structures that consist of a nucleo-protein core and extruding bare DNA. In a second stage, the extruding DNA loops condense onto the rosette core to form a disordered and viscoelastic outer layer. Notably, the core complex is susceptible towards IN inhibitors, whereas the diffuse outer layer is not. Together, our data suggest that IN has a structural role in viral DNA compaction and raise the possibility to develop inhibitors that target IN-DNA interactions in disordered condensates. Teaser Single-molecule studies demonstrate the mechanism, dynamics, and drug-susceptibility of viral genome compaction by HIV integrase. Competing Interest Statement The authors have declared no competing interest. Footnotes Section on MC simulations updated to clarify how model input parameters are derived from experiments; Supplementary Figure S22 added

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last seen: 2026-05-20T01:45:00.602351+00:00