Abstract
The initiation of reverse transcription of the human immunodeficiency virus type 1 (HIV-1) requires the opening of the three-dimensional structure of the primer tRNALys 3 for its annealing to the viral RNA at the primer binding site (PBS). Despite the fact that the result of this rearrangement is thermodynamically more stable, there is a high-energy barrier that requires the chaperoning activity of the viral nucleocapsid protein. In addition to the nucleotide complementarity to the PBS, several regions of tRNALys 3 have been described as interacting with the viral genomic RNA. Among these sequences, a sequence of the viral genome called PAS for “primer activation signal” was proposed to interact with the T-arm of tRNALys 3, this interaction stimulating the initiation of reverse transcription. In this report, we investigate the formation of this additional interaction with NMR spectroscopy, using a simple system composed of the primer tRNALys 3, the 18 nucleotides of the PBS, the PAS (8 nucleotides) encompassed or not in a hairpin structure, and the nucleocapsid protein. Our NMR study provides molecular evidence of the existence of this interaction and highlights the role of the nucleocapsid protein in promoting this additional RNA-RNA annealing. This study presents the first direct observation at a single base-pair resolution of the PAS/anti-PAS association, which has been proposed to be involved in the chronological regulation of the reverse transcription.
Highlights
The initiation of reverse transcription is primed by a cellular tRNA that is encapsidated in viral particles. tRNALys3 is the natural primer of all immunodeficiency viruses, including the type 1 human immunodeficiency virus (HIV-1)
We showed that the nucleocapsid, as expected, plays a major role to promote its annealing to the anti-primer activation signal (PAS) sequence, most probably by destabilizing the PAS duplex and promoting strand exchange between the viral RNA and tRNALys3
We showed in this report that base-pairings between the PAS in the viral RNA and the anti-PAS in tRNALys3 can be observed by NMR under certain conditions
Summary
The initiation of reverse transcription is primed by a cellular tRNA that is encapsidated in viral particles. tRNALys is the natural primer of all immunodeficiency viruses, including the type 1 human immunodeficiency virus (HIV-1). The primer tRNA is strongly bound to the genomic RNA through Watson–Crick base-pairing of its 18 39-terminal nucleotides with the complementary viral primer binding site (PBS) (for reviews, see [1,2]). The annealing of tRNALys to the PBS requires the action of the nucleocapsid protein (NCp7) that acts as an RNA chaperone [3,4,5]. HIV-1 NCp7 is a short basic protein with two zinc-finger domains that destabilizes base-pairing in the primer tRNA without opening its structure [6]. Addition of a viral template containing the PBS results in RNA-RNA complex formation and significant structural changes in both RNAs. Addition of a viral template containing the PBS results in RNA-RNA complex formation and significant structural changes in both RNAs Both basic and zinc-finger domains of NCp7 are required for proper annealing of the tRNA/RNA complex. The basic domains help to destabilize the base-pairing in the four-way junction of the tRNA structure whereas the zinc-finger domains disrupt the ternary interactions within the tRNA molecule [6,7,8,9]
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