Specific interactions between HIV-1 nucleocapsid protein and the TAR element

During retroviral reverse transcription, the minus-strand strong-stop DNA (ss-cDNA) is transferred to the 3' end of the genomic RNA and this requires the repeat (R) sequences present at both ends of the genome. In vitro, the human immunodeficiency virus type 1 (HIV-1) R sequence can promote DNA strand transfer when present in ectopic internal positions. Using, HIV-1 model systems, the R sequences and nucleocapsid protein (NC) were found to be key determinants of ss-cDNA transfer. To gain insights into specific interactions between HIV-1 NC and RNA and the influence of NC on R folding, we investigated the secondary structures of R in two natural contexts, namely at the 5' or 3' end of RNAs representing the terminal regions of the genome, and in two ectopic internal positions that also support efficient minus-strand transfer. To investigate the roles of NC zinc fingers and flanking basic domains in the NC/RNA interactions, we used NC mutants. Analyses of the viral RNA/NC complexes by chemical and enzymatic probings, and gel retardation assays were performed under conditions allowing ss-cDNA transfer by reverse transcriptase. We report that NC binds the TAR apical loop specifically in the four genetic contexts without changing the folding of the TAR hairpin and R region significantly; and this requires the NC zinc fingers. In addition, we show that efficient annealing of cTAR DNA to the 3' R relies on sequence complementarities between TAR and cTAR terminal loops. These findings suggest that the TAR apical loop in the acceptor RNA is the initiation site for the annealing reaction that is chaperoned by NC during the minus-strand transfer. (c) 2005 Elsevier Ltd. All rights reserved.