The complex between several monomers of the HIV-1 Rev protein and the Rev Response Element (RRE) in the viral RNA allows nuclear export of unspliced or singly-spliced viral transcripts, an essential step in the virus cycle that is not targeted by any of the currently marketed antiretroviral treatments. The RRE adopts a multi-domain structure whose three-dimensional details are currently unknown at atomic resolution. In order to shed light on RRE structure and on the mechanism of RRE-Rev complex assembly, we set up a method based on fluorescence resonance energy transfer (FRET) that has allowed us to measure RRE interdomain distance as a function of solution conditions and changes in helix length and junction nucleotides. By combining this information with all-atom ensemble modelling, comparative sequence analyses and electrophoretic band-shift assays assessing Rev association, we clarify the roles of helices and junctions on the spatial organization of RRE domains and RRE-Rev complex formation and propose an all-atom model of RRE structure consistent with the available evidence.
Szewczyk et al. (Mon,) studied this question.
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