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The human immunodeficiency virus type 1 encapsidation site is a multipartite RNA element composed of functional hairpin structures.
Authors:M S McBride and A T Panganiban
Abstract:We analyzed the leader region of human immunodeficiency virus type 1 (HIV-1) RNA to decipher the nature of the cis-acting E/psi element required for encapsidation of viral RNA into virus particles. Our data indicate that, for RNA encapsidation, there are at least two functional subregions in the leader region. One subregion is located at a position immediately proximal to the major splice donor, and the second is located between the splice donor and the beginning of the gag gene. This suggests that at least two discrete cis-acting elements are recognition signals for encapsidation. To determine whether specific putative RNA secondary structures serve as the signal(s) for encapsidation, we constructed primary base substitution mutations that would be expected to destabilize these potential structures and second-site compensatory mutations that would restore secondary structure. Analysis of these mutants allowed the identification of two discrete hairpins that facilitate RNA encapsidation in vivo. Thus, the HIV-1 E/psi region is a multipartite element composed of specific and functional RNA secondary structures. Compensation of the primary mutations by the second-site mutations could not be attained in trans. This indicates that interstrand base pairing between these two stem regions within the hairpins does not appear to be the basis for HIV-1 RNA dimer formation. Comparison of the hypothetical RNA secondary structures from 10 replication-competent HIV-1 strains suggests that a subset of the hydrogen-bonded base pairs within the stems of the hairpins is likely to be required for function in cis.
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