Abstract
The 5' untranslated leader region of the human immunodeficiency virus type 1 (HIV-1) RNA genome is a strongly conserved sequence that encodes several regulatory motifs important for viral replication. Most of these motifs are exposed as hairpin structures, including the dimerization initiation signal (DIS), the major splice donor site (SD), and the packaging signal (Ψ), which are connected by short single-stranded regions. Mutational analysis revealed many functions of these hairpins, but only a few studies have focused on the single-stranded purine-rich sequences. Using the in vivo SELEX (systematic evolution of ligands by exponential enrichment) approach, we probed the sequence space in these regions that is compatible with efficient HIV-1 replication and analyzed the impact on the RNA secondary structure of the leader RNA. Our results show a strong sequence requirement for the DIS hairpin flanking regions. We postulate that these sequences are important for the binding of specific protein factors that support leader RNA-mediated functions. The sequence between the SD and Ψ hairpins seems to have a less prominent role, despite the strong conservation of the stretch of 5 A residues in natural isolates. We hypothesize that this may reflect the subtle evolutionary pressure on HIV-1 to acquire an A-rich RNA genome. In silico analyses indicate that sequences are avoided in all 3 single-stranded domains that affect the local or overall leader RNA folding. IMPORTANCE Many regulatory RNA sequences are clustered in the untranslated leader domain of the HIV-1 RNA genome. Several RNA hairpin structures in this domain have been proposed to fulfill specific roles, e.g., mediating RNA dimer formation to facilitate HIV-1 recombination. We now focus on the importance of a few well-conserved single-stranded sequences that connect these hairpins. We created libraries of HIV-1 variants in which these segments were randomized and selected the best-replicating variants. For two segments we document the selection of the (nearly) wild-type sequence, thus demonstrating the importance of these primary nucleotide sequences and the power of the in vivo SELEX approach. However, for the third segment a large variety of sequences is compatible with efficient HIV-1 replication. Interestingly, the A-rich sequence of this segment is highly conserved among HIV-1 isolates, which likely reflects the evolutionary tendency of HIV-1 to adopt A-rich sequences.
Highlights
The 5’ untranslated leader of the HIV-1 RNA genome contains several highly conserved structures that control late virus replication steps
Using the in vivo SELEX approach, we randomized these domains in the infectious clone pLAI and selected replication-competent viruses
We analyzed the impact of selected sequences on the secondary structure of the leader RNA, that is the individual hairpin motifs and the proposed LDI:BMH riboswitch that controls multiple leader RNA functions
Summary
The 5’ untranslated leader of the HIV-1 RNA genome contains several highly conserved structures that control late virus replication steps. The DIS, SD and Ψ hairpins control the processes of RNA dimerization, splicing and packaging, respectively. Few studies have focused on the short single-stranded domains that connect these hairpin structures. Using the in vivo SELEX approach, we randomized these domains in the infectious clone pLAI and selected replication-competent viruses. We probed the sequence space that is compatible with HIV-1 replication as an initial test of the function of these three regions. We analyzed the impact of selected sequences on the secondary structure of the leader RNA, that is the individual hairpin motifs and the proposed LDI:BMH riboswitch that controls multiple leader RNA functions
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