Your search keyword '"Vuilleumier C"' showing total 4 results

1. Nucleic acid sequence discrimination by the HIV-1 nucleocapsid protein NCp7: a fluorescence study.

Author

Vuilleumier C, Bombarda E, Morellet N, Gérard D, Roques BP, and Mély Y

Subjects

Amino Acid Sequence, Base Sequence, Binding Sites, Capsid genetics, Capsid metabolism, Deoxyribonucleotides metabolism, Gene Products, gag genetics, Gene Products, gag metabolism, Guanine chemistry, Humans, Molecular Sequence Data, Mutagenesis, Site-Directed, Oligonucleotides chemistry, Oligonucleotides genetics, Oligonucleotides metabolism, Phenylalanine genetics, Phenylalanine metabolism, Protein Binding, RNA, Viral metabolism, Spectrometry, Fluorescence, Spectrophotometry, Tryptophan genetics, Tryptophan metabolism, Virus Assembly genetics, gag Gene Products, Human Immunodeficiency Virus, Capsid chemistry, Capsid Proteins, Gene Products, gag chemistry, HIV-1 chemistry, RNA, Viral chemistry, Viral Proteins

Abstract

The critical functions of the HIV-1 nucleocapsid protein NCp7 in genomic RNA packaging and reverse transcription, essentially rely on interactions with nucleic acids. A significant progress in the knowledge of these interactions has been recently achieved with the NMR-derived structures of NCp7 derivatives in complex with two short sequences of the HIV-1 psi packaging signal, namely ACGCC and the stem-loop 3 (SL3) motif. To further identify the key nucleotides in the formation of both NCp7-d(ACGCC) and NCp7-SL3 complexes, we quantitatively analyzed by steady-state and time-resolved fluorescence, the interaction of NCp7 with d(ACGCC) and SL3 mutants where each nucleotide in interaction with the protein has been systematically substituted. Moreover, by using several NCp7 derivatives, we investigated the contributions of Phe16, Trp37, and Trp61, and the various NCp7 domains, in the binding process. The binding of NCp7 appeared essentially driven by the interaction of the zinc finger domain and notably Trp37 with a G residue, irrespective of its location in the oligonucleotide. The involvement of Trp37 in the binding process depended on its location in the C-terminal finger motif and the proper folding of this motif. Phe16 in the N-terminal finger motif also strongly contributed to the binding energy, while in contrast, Trp61 in the C-terminal domain only marginally interacted with the oligonucleotides. The stem-loop structure of SL3 stabilized the binding of NCp7 by about -7 kJ/mol (at 0.1 M NaCl) by favoring the electrostatic binding of both N- and C-terminal domains. Finally, we found that NCp7 bound to nucleic acid single-stranded regions with the following preference: X(i)()TGX(j)() > X(i)()GXGX(j)() approximately X(i)()TXGX(j)() > X(i)()GX(j)() >> X(i)()X(j)(), where X corresponds to either A or C. This implies that recognition of nucleic acids by NCp7 may be achieved by a limited number of sites, and hence, no strong affinities are required in order to get a selective binding.

Published

1999

2. Time-resolved fluorescence investigation of the human immunodeficiency virus type 1 nucleocapsid protein: influence of the binding of nucleic acids.

Author

Bombarda E, Ababou A, Vuilleumier C, Gérard D, Roques BP, Piémont E, and Mély Y

Subjects

Amino Acid Sequence, Binding Sites, Biophysical Phenomena, Biophysics, Capsid genetics, Gene Products, gag genetics, HIV-1 genetics, Humans, In Vitro Techniques, Molecular Sequence Data, Mutagenesis, Site-Directed, Nucleic Acids metabolism, Protein Binding, RNA, Transfer, Phe metabolism, Spectrometry, Fluorescence, Zinc Fingers, gag Gene Products, Human Immunodeficiency Virus, Capsid chemistry, Capsid metabolism, Capsid Proteins, Gene Products, gag chemistry, Gene Products, gag metabolism, HIV-1 chemistry, Viral Proteins

Abstract

Depending on the HIV-1 isolate, MN or BH10, the nucleocapsid protein, NCp7, corresponds to a 55- or 71-amino acid length product, respectively. The MN NCp7 contains a single Trp residue at position 37 in the distal zinc finger motif, and the BH10 NCp7 contains an additional Trp, at position 61 in the C-terminal chain. The time-resolved intensity decay parameters of the zinc-saturated BH10 NCp7 were determined and compared to those of single-Trp-containing derivatives. The fluorescence decay of BH10 NCp7 could be clearly represented as a linear combination (with respect to both lifetimes and fractional intensities) of the individual emitting Trp residues. This suggested the absence of interactions between the two Trp residues, a feature that was confirmed by molecular modeling and fluorescence energy transfer studies. In the presence of tRNAPhe, taken as a RNA model, the same conclusions hold true despite the large fluorescence decrease induced by the binding of tRNAPhe. Indeed, the fluorescence of Trp37 appears almost fully quenched, in keeping with a stacking of this residue with the bases of tRNAPhe. Despite the multiple binding sites in tRNAPhe, the large prevalence of ultrashort lifetimes, associated with the stacking of Trp37, suggests that this stacking constitutes a major feature in the binding process of NCp7 to nucleic acids. In contrast, Trp61 only stacked to a small extent with tRNAPhe. The behavior of this residue in the tRNAPhe-NCp7 complexes appeared to be rather heterogeneous, suggesting that it does not constitute a major determinant in the binding process. Finally, our data suggested that the binding of NCp7 proteins from the two HIV-1 strains to nonspecific nucleic acid sequences was largely similar.

Published

1999

3. Properties and growth mechanism of the ordered aggregation of a model RNA by the HIV-1 nucleocapsid protein: an electron microscopy investigation.

Author

Le Cam E, Coulaud D, Delain E, Petitjean P, Roques BP, Gérard D, Stoylova E, Vuilleumier C, Stoylov SP, and Mély Y

Subjects

Binding Sites, Capsid genetics, Gene Products, gag genetics, Microscopy, Electron, Molecular Weight, Particle Size, RNA genetics, Zinc Fingers genetics, gag Gene Products, Human Immunodeficiency Virus, Capsid chemistry, Capsid Proteins, Gene Products, gag chemistry, HIV-1 ultrastructure, Poly A chemistry, RNA chemistry, Viral Proteins

Abstract

NCp7, the nucleocapsid protein of the human immunodeficiency virus type 1, induces an ordered aggregation of RNAs, a mechanism that is thought to be involved in the NCp7-induced promotion of nucleic acid annealing. To further investigate this aggregation the morphology and the properties of the NCp7-induced aggregates of the model RNA homoribopolymer, polyA, were investigated by electron microscopy in various conditions. In almost all the tested conditions, the aggregates were spherical and consisted of a central dense core surrounded by a less dense halo made of NCp7-covered polyA molecules. The formation of these aggregates with a narrow distribution of sizes constitutes a distinctive feature of NCp7 over other single-stranded nucleic acid binding proteins. In most conditions, at the shortest times that can be reached experimentally, all the polyA molecules were already incorporated in small aggregates, suggesting that the nucleation step and the first aggregation events took place rapidly. The aggregates then orderly grew with time by fusion of the smaller aggregates to give larger ones. The aggregate halo was important in the fusion process by initiating the bridging between the colliding aggregates. In the presence of an excess of protein, the aggregates grew rapidly but were loosely packed and dissociated easily, suggesting adverse protein-protein interactions in the aggregates obtained in these conditions. In the presence of an excess of nucleotides, the presence of both amorphous nonspherical and slowly growing spherical aggregates suggested some changes in the mechanism of aggregate growth due to an incomplete covering of polyA molecules by NCp7. Finally, we showed that in the absence of added salt, the aggregate fusions were unfavored but not the initial events giving the first aggregates, the reverse being true in the presence of high salt concentrations (> or = 300 mM).

Published

1998

4. Evidence and prevention of HIV-1 nucleocapsid protein adsorption onto fluorescence quartz cells.

Author

Vuilleumier C, Maechling-Strasser C, Gérard D, and Mély Y

Subjects

False Negative Reactions, Polyethylene Glycols, Quartz, Silicon, gag Gene Products, Human Immunodeficiency Virus, Capsid analysis, Capsid Proteins, Gene Products, gag analysis, HIV-1 chemistry, Spectrometry, Fluorescence methods, Viral Proteins

Published

1997