Jacqueline Plissonneau scite author profile

Stem-loop SL2 is a self-interacting palindromic sequence that has been identified within the hepatitis C virus genome (HCV). While, RNA dimerization of the HCV genome has been observed in vitro with short RNA sequences, the role of a putative RNA dimerization during viral replication has not been elucidated. To determine the effect of genomic dimerization on viral replication, we introduced mutations into SL2 predicted to disrupt genomic dimerization. Using surface plasmon resonance, we show that mutations within the SL2 bulge impact dimerization in vitro. Transfection of Huh7 cells with luciferase-encoding full-length genomes containing SL2 mutations abolishes viral replication. Luciferase expression indicates that viral translation is not or slightly affected and that the viral RNA is properly encapsidated. However, RT-qPCR analysis demonstrates that viral RNA synthesis is drastically decreased. In vitro synthesis experiments using the viral recombinant polymerase show that modifications of intra-molecular interactions have no effect on RNA synthesis, while impairing inter-molecular interactions decreases polymerase activity. This confirms that dimeric templates are preferentially replicated by the viral polymerase. Altogether, these results indicate that the dimerization of the HCV genomic RNA is a crucial step for the viral life cycle especially for RNA replication. RNA dimerization could explain the existence of HCV recombinants in cell culture and patients reported recently in other studies.

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Absence of accessory subunit in the DNA polymerase ? purified from yeast mitochondria

Lucas¹,

Lasserre²,

Plissonneau³

et al. 2004

Mitochondrion

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Changes of enzymes and factors involved in DNA synthesis during wheat embryo germination

Benedetto

Ech-Chaoui²,

Plissonneau

et al. 1996

Plant Mol Biol

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We have previously purified and characterized wheat germ DNA polymerases A and B. To determine the role played by DNA polymerases A and B in DNA replication, we have measured the level of their activities during wheat embryo germination. The level of cellular proteins known to be associated with DNA synthesis such as PCNA and DNA primase were also investigated. The activity of DNA polymerase A gradually increased reaching a maximal level at 12 h after germination. Three days later, only a residual activity was detected. DNA polymerase B showed the same pattern during germination with very similar changes in activity. Our results indicate a striking correlation between maximal activities of DNA polymerase A, DNA polymerase B and optimal levels of DNA synthesis. These results support a replicative role of these enzymes. The activity of wheat DNA primase that copurifies with DNA polymerase A also increases during wheat germination. Taking together all its properties, and in spite of its behaviour with some inhibitors. DNA polymerase A may be considered as the plant counterpart of animal DNA polymerase alpha. Concerning DNA polymerase B we have previously shown that PCNA stimulates its processivity. Besides studying the changes of DNA polymerases A and B and DNA primase we have also studied changes in PCNA during germination. We show that PCNA is present in wheat embryos at a constant relatively high level during the first 24 h of germination. After 48 h, the absence of PCNA is concomitant with an important decrease in DNA polymerase B activity. In this report we confirm the behaviour of DNA polymerase B as a delta-like activity.

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Biochemical, cellular and molecular identification of DNA polymerase α in yeast mitochondria

Lasserre¹,

Plissonneau²,

Velours³

et al. 2013

Biochimie

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A second DNA polymerase activity in yeast mitochondria

Lucas

Laquel-Robert

Plissonneau

et al. 1997

Comptes Rendus de l'Académie des Sciences - Series III - Scienc

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