New insights into the formation of HIV-1 reverse transcription initiation complex

Barraud, Pierre; Gaudin, Cyril; Dardel, Frédéric; Tisné, Carine

doi:10.1016/j.biochi.2007.01.016

Cited by 38 publications

(28 citation statements)

References 24 publications

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“…These data were reconciled in a refined model in which both the center of the cloverleaf and the 3'-end unpaired bases of the primer tRNA are used for PBS annealing. 113 However, it is still unclear whether the same viral RNA molecule can simultaneously invade the tRNA acceptor stem from both ends or whether some proteins initiate the annealing at the tRNA center while others "zip-in" from the 3'-end, in a statistical manner.…”

Section: ©2 0 1 1 L a N D E S B I O S C I E N C E D O N O T D I S Tmentioning

confidence: 99%

Biophysical studies of the nucleic acid chaperone properties of the HIV-1 nucleocapsid protein

Godet¹

2010

RNA Biology

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Section: ©2 0 1 1 L a N D E S B I O S C I E N C E D O N O T D I S Tmentioning

confidence: 99%

Biophysical studies of the nucleic acid chaperone properties of the HIV-1 nucleocapsid protein

Godet¹

2010

RNA Biology

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“…The TAR sequence used was that of the NL4-3 isolate. The NC(1-55) sequence (NL4-3 isolate) was overexpressed and the product was purified, as previously described (Barraud et al 2007).…”

Section: Samplesmentioning

confidence: 99%

Insights into the mechanisms of RNA secondary structure destabilization by the HIV-1 nucleocapsid protein

Belfetmi¹,

Zargarian²,

Tisné³

et al. 2016

RNA

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The mature HIV-1 nucleocapsid protein NCp7 (NC) plays a key role in reverse transcription facilitating the two obligatory strand transfers. Several properties contribute to its efficient chaperon activity: preferential binding to single-stranded regions, nucleic acid aggregation, helix destabilization, and rapid dissociation from nucleic acids. However, little is known about the relationships between these different properties, which are complicated by the ability of the protein to recognize particular HIV-1 stem-loops, such as SL1, SL2, and SL3, with high affinity and without destabilizing them. These latter properties are important in the context of genome packaging, during which NC is part of the Gag precursor. We used NMR to investigate destabilization of the full-length TAR (trans activating response element) RNA by NC, which is involved in the first strand transfer step of reverse transcription. NC was used at a low protein:nucleotide (nt) ratio of 1:59 in these experiments. NMR data for the imino protons of TAR identified most of the base pairs destabilized by NC. These base pairs were adjacent to the loops in the upper part of the TAR hairpin rather than randomly distributed. Gel retardation assays showed that conversion from the initial TAR-cTAR complex to the fully annealed form occurred much more slowly at the 1:59 ratio than at the higher ratios classically used. Nevertheless, NC significantly accelerated the formation of the initial complex at a ratio of 1:59.

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“…Mature NC results from the protease-mediated cleavage of the Gag polyprotein precursor and plays key roles in HIV-1 replication (2)(3)(4)(5). During the early steps, NC acts as a cofactor of the reverse transcriptase (RT), to promote the initiation of reverse transcription (6)(7)(8), as well as the two obligatory strand transfers (9,10). Moreover, NC also reduces RT pauses at the initiation step (11)(12)(13), increases the overall RT processivity (14,15), promotes synthesis through pause sites (16)(17)(18)(19), helps to remove the RNA fragments resulting from the RT RNase H activity (20), and may contribute to the protection of the viral DNA (vDNA) during its nuclear import (21).…”

mentioning

confidence: 99%

The HIV-1 Nucleocapsid Protein Recruits Negatively Charged Lipids To Ensure Its Optimal Binding to Lipid Membranes

Kempf

Postupalenko

Bora

et al. 2015

J Virol

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The HIV-1 Gag polyprotein precursor composed of the matrix (MA), capsid (CA), nucleocapsid (NC), and p6 domains orchestrates virus assembly via interactions between MA and the cell plasma membrane (PM) on one hand and NC and the genomic RNA on the other hand. As the Gag precursor can adopt a bent conformation, a potential interaction of the NC domain with the PM cannot be excluded during Gag assembly at the PM. To investigate the possible interaction of NC with lipid membranes in the absence of any interference from the other domains of Gag, we quantitatively characterized by fluorescence spectroscopy the binding of the mature NC protein to large unilamellar vesicles (LUVs) used as membrane models. We found that NC, either in its free form or bound to an oligonucleotide, was binding with high affinity (ϳ10 7 M ؊1 ) to negatively charged LUVs. The number of NC binding sites, but not the binding constant, was observed to decrease with the percentage of negatively charged lipids in the LUV composition, suggesting that NC and NC/oligonucleotide complexes were able to recruit negatively charged lipids to ensure optimal binding. However, in contrast to MA, NC did not exhibit a preference for phosphatidylinositol-(4,5)-bisphosphate. These results lead us to propose a modified Gag assembly model where the NC domain contributes to the initial binding of the bent form of Gag to the PM. IMPORTANCEThe NC protein is a highly conserved nucleic acid binding protein that plays numerous key roles in HIV-1 replication. While accumulating evidence shows that NC either as a mature protein or as a domain of the Gag precursor also interacts with host proteins, only a few data are available on the possible interaction of NC with lipid membranes. Interestingly, during HIV-1 assembly, the Gag precursor is thought to adopt a bent conformation where the NC domain may interact with the plasma membrane. In this context, we quantitatively characterized the binding of NC, as a free protein or as a complex with nucleic acids, to lipid membranes and showed that the latter constitute a binding platform for NC. Taken together, our data suggest that the NC domain may play a role in the initial binding events of Gag to the plasma membrane during HIV-1 assembly.T he nucleocapsid protein (NC) of human immunodeficiency virus type 1 (HIV-1) is a small basic nucleic acid binding protein with two strictly conserved CCHC motifs that strongly bind zinc (1). Mature NC results from the protease-mediated cleavage of the Gag polyprotein precursor and plays key roles in HIV-1 replication (2-5). During the early steps, NC acts as a cofactor of the reverse transcriptase (RT), to promote the initiation of reverse transcription (6-8), as well as the two obligatory strand transfers (9, 10). Moreover, NC also reduces RT pauses at the initiation step (11-13), increases the overall RT processivity (14, 15), promotes synthesis through pause sites (16-19), helps to remove the RNA fragments resulting from the RT RNase H activity (20), and may contribute to the pro...

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New insights into the formation of HIV-1 reverse transcription initiation complex

Cited by 38 publications

References 24 publications

Biophysical studies of the nucleic acid chaperone properties of the HIV-1 nucleocapsid protein

Biophysical studies of the nucleic acid chaperone properties of the HIV-1 nucleocapsid protein

Insights into the mechanisms of RNA secondary structure destabilization by the HIV-1 nucleocapsid protein

The HIV-1 Nucleocapsid Protein Recruits Negatively Charged Lipids To Ensure Its Optimal Binding to Lipid Membranes

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