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HIV nucleocapsid protein nucleic acid chaperone activity

$298,423R01FY2014GMNIH

Ohio State University, Columbus OH

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Abstract

DESCRIPTION (provided by applicant): The overarching objective of this work is to gain a comprehensive understanding of the nucleic acid (NA) chaperone function of the HIV nucleocapsid (NC) protein and the Gag polyprotein precursor. Many of NC's functions rely on its chaperone activity, i.e., the ability to catalyze NA conformational rearrangements that lead to the most thermodynamically stable structure. The impact of this work is high due to NC's role in almost every stage of the viral lifecycle. NC's NA binding and chaperone function has been demonstrated to play an important role in reverse transcription, integration, RNA packaging, and viral assembly, and these studies will address open questions in our molecular level understanding of many of these processes. During the previous grant period, using biochemical assays and ensemble and single molecule biophysical approaches, we gained novel insights into the mechanism by which HIV NC facilitates NA rearrangements. We also initiated studies of NC in the context of HIV Gag. We discovered that Gag's chaperone activity requires the NC domain and surprisingly, is stimulated by inositol phosphate (IP) binding to the matrix (MA) domain. We will continue to employ innovative biophysical and biochemical approaches to improve our understanding of the mechanism of NC's chaperone activity, and will expand our studies to investigate in detail the relatively poorly understood chaperone function of NC in the context of Gag. We are particularly interested in the mechanism by which HIV MA modulates Gag's chaperone properties. The specific aims are: (1) To probe the NA chaperone activity of WT, mutant and precursor forms of HIV-1 NC, and (2) to probe HIV-1 Gag's chaperone activity in vitro and in vivo.

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