Xiao Heng scite author profile

The 5´-leader of the HIV-1 genome regulates multiple functions during viral replication by mechanisms that have yet to be established. We developed an NMR approach that enabled direct detection of structural elements within the intact leader (712 nucleotide dimer) that are critical for genome packaging. Residues spanning the gag start codon (AUG) form a hairpin in the monomeric leader and base pair with residues of the Unique-5´ region (U5) in the dimer. U5:AUG formation promotes dimerization by displacing and exposing a dimer-promoting hairpin, and enhances binding by the nucleocapsid protein (NC), the cognate domain of the viral Gag polyprotein that directs packaging. Our findings support a packaging mechanism in which translation, dimerization, NC binding, and packaging are regulated by a common RNA structural switch.

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Structure of the HIV-1 RNA packaging signal

Keane

Heng

et al. 2015

Science

233

306

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The 5′-leader of the HIV-1 genome contains conserved elements that direct selective packaging of the unspliced, dimeric viral RNA into assembling particles. Using a 2H-edited NMR approach, we determined the structure of a 155-nucleotide region of the leader that is independently capable of directing packaging (Core Encapsidation Signal; ΨCES). The RNA adopts an unexpected tandem three-way junction structure, in which residues of the major splice donor and translation initiation sites are sequestered by long-range base pairing, and guanosines essential for both packaging and high-affinity binding to the cognate Gag protein are exposed in helical junctions. The structure reveals how translation is attenuated, Gag binding promoted, and unspliced dimeric genomes selected, by the RNA conformer that directs packaging.

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Structural Determinants and Mechanism of HIV-1 Genome Packaging

Heng

Summers

2011

Journal of Molecular Biology

226

288

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Like all retroviruses, the Human Immunodeficiency Virus (HIV) selectively packages two copies of its unspliced RNA genome, both of which are utilized for strand-transfer mediated recombination during reverse transcription – a process that enables rapid evolution under environmental and chemotherapeutic pressures. The viral RNA appears to be selected for packaging as a dimer, and there is evidence that dimerization and packaging are mechanistically coupled. Both processes are mediated by interactions between the nucleocapsid (NC) domains of a small number of assembling viral Gag polyproteins and RNA elements within the 5′-untranslated region (5′-UTR) of the genome. A number of secondary structures have been predicted for regions of the genome that are responsible for packaging, and high-resolution structures have been determined for a few small RNA fragments and protein-RNA complexes. However, major questions remain open regarding the RNA structures, and potentially the structural changes, that are responsible for dimeric genome selection. Here we review efforts that have been made to identify the molecular determinants and mechanism of HIV-1 genome packaging.

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Xiao Heng

NMR Detection of Structures in the HIV-1 5′-Leader RNA That Regulate Genome Packaging

Structure of the HIV-1 RNA packaging signal

Structural Determinants and Mechanism of HIV-1 Genome Packaging

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