Léa Chazot-Franguiadakis scite author profile

Léa Chazot-Franguiadakis

3Publications

32Citation Statements Received

195Citation Statements Given

How they've been cited

How they cite others

134

173

Affiliations

Laboratoire de Physique de l'ENS de Lyon, Claude Bernard University Lyon 1, École Normale Supérieure de Lyon

Publications

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The extruded non-template strand determines the architecture of R-loops

Carrasco-Salas

Malapert

Sulthana

et al. 2019

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Three-stranded R-loop structures have been associated with genomic instability phenotypes. What underlies their wide-ranging effects on genome stability remains poorly understood. Here we combined biochemical and atomic force microscopy approaches with single molecule R-loop footprinting to demonstrate that R-loops formed at the model Airn locus in vitro adopt a defined set of three-dimensional conformations characterized by distinct shapes and volumes, which we call R-loop objects. Interestingly, we show that these R-loop objects impose specific physical constraints on the DNA, as revealed by the presence of stereotypical angles in the surrounding DNA. Biochemical probing and mutagenesis experiments revealed that the formation of R-loop objects at Airn is dictated by the extruded non-template strand, suggesting that R-loops possess intrinsic sequence-driven properties. Consistent with this, we show that R-loops formed at the fission yeast gene sum3 do not form detectable R-loop objects. Our results reveal that R-loops differ by their architectures and that the organization of the non-template strand is a fundamental characteristic of R-loops, which could explain that only a subset of R-loops is associated with replication-dependent DNA breaks.

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Optical Quantification by Nanopores of Viruses, Extracellular Vesicles, and Nanoparticles

et al. 2022

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Nanopores combined with optical approaches can be used to detect viral particles.In this work, we demonstrate the ability of hydrodynamical driving and optical sensing to identify and quantify viral particles in a biological sample. We have developed a simple and rapid method which requires only fluorescent labelling of the particles and can therefore be applied to a wide range of virus type. The system operates in real time and at the single particle level while providing a low error on concentration (4%) and a low limit of detection of 10 5 particles/mL for an acquisition time of 60 seconds, with the ability to increase the acquisition time to achieve a lower limit.

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Experimental study of a nanoscale translocation ratchet

Molcrette

Chazot-Franguiadakis

Liénard

et al. 2022

Proc. Natl. Acad. Sci. U.S.A.

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Despite an extensive theoretical and numerical background, the translocation ratchet mechanism, which is fundamental for the transmembrane transport of biomolecules, has never been experimentally reproduced at the nanoscale. Only the Sec61 and bacterial type IV pilus pores were experimentally shown to exhibit a translocation ratchet mechanism. Here we designed a synthetic translocation ratchet and quantified its efficiency as a nanopump. We measured the translocation frequency of DNA molecules through nanoporous membranes and showed that polycations at the trans side accelerated the translocation in a ratchet-like fashion. We investigated the ratchet efficiency according to geometrical and kinetic parameters and observed the ratchet to be only dependent on the size of the DNA molecule with a power law N − 0.6 . A threshold length of 3 kbp was observed, below which the ratchet did not operate. We interpreted this threshold in a DNA looping model, which quantitatively explained our results.

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