Author:
Deshmukh Lalit,Ghirlando Rodolfo,Clore G. Marius
Abstract
Assembly and maturation of the human immunodeficiency virus type 1 (HIV-1) are governed by the Gag polyprotein. Here we study the conformation and dynamics of a large HIV-1 Gag fragment comprising the matrix, capsid, spacer peptide 1 and nucleocapsid domains (referred to as ΔGag) by heteronuclear multidimensional NMR spectroscopy. In solution, ΔGag exists in a dynamic equilibrium between monomeric and dimeric states. In the presence of nucleic acids and at low ionic strength ΔGag assembles into immature virus-like particles. The structured domains of ΔGag (matrix, the N- and C-terminal domains of capsid, and the N- and C-terminal zinc knuckles of nucleocapsid) retain their fold and reorient semi-independently of one another; the linkers connecting the structural domains, including spacer peptide 1 that connects capsid to nucleocapsid, are intrinsically disordered. Structural changes in ΔGag upon proteolytic processing by HIV-1 protease, monitored by NMR in real-time, demonstrate that the conformational transition of the N-terminal 13 residues of capsid from an intrinsically disordered coil to a β-hairpin upon cleavage at the matrix|capsid junction occurs five times faster than cleavage at the capsid|spacer peptide 1 junction. Finally, nucleic acids interact with both nucleocapsid and matrix domains, and proteolytic processing at the spacer peptide 1|nucleocapsid junction by HIV-1 protease is accelerated in the presence of single-stranded DNA.
Funder
HHS | National Institutes of Health
Publisher
Proceedings of the National Academy of Sciences
Cited by
44 articles.
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