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- Team D. Lévy. Functional and structural analysis of membrane proteins
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- concentration wave of E. coli bacteria in a microchannel
- Amphiphilic Poly(ethylene oxide)-block-poly(butadiene-graft-liquid crystal) Copolymers: Synthesis and Self-Assembly in Water
- Binding, reconstitution and 2D crystallization of membrane or soluble proteins onto functionalised lipid layer observed in situ
- collectively migrating epithelium biophys cover
- Fig 5. Non-conservation of network motifs
- Fig 4. Model of biomolecular networks under duplication-divergence evolution
- Fig 3. Whole genome duplications in evolution
- Fig 2. Novel nanostructures made of DsrA ncRNA of E.coli
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- Fig 1. RNA synthetic biology
- Fig 1. RNA synthetic biology
- Fig 4. Model of biomolecular networks under duplication-divergence evolution
- Fig 4. Model of biomolecular networks under duplication-divergence evolution
- Fig 5. Expansion of signaling networks by whole genome duplication
- Fig. 1 Motor oscillations
- Fig. 2 Tissue competition
- Fig. 2 Compétition entre tissus
- Fig. 1 Oscillations de moteurs moléculaires
- Expansion of signaling networks by whole genome duplication
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- Aurélie Di Cicco
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- Jean-Hugues Codarbox
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- Optical tweezer and edge fluctuation setup
- Functional and structural analysis of BmrC/BmrD abacterial heterodimeric MDR transporter
- Functional and structural analysis of BmrC/BmrD bacterial heterodimeric MDR transporter
- John Manzi
- Structural changes in liquid crystal polymer vesicles induced by temperature variation and magnetic fields
- Biocompatible gold nanorods for cancer research
- Self-assembly of amphiphilic liquid crystal block copolymers containing a cholesteryl mesogen: Effects of block ratio and solven
- Mechanical measurements of biomimetic cortex
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- Confined Actin Gel Mechanics
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- Smectic polymer micellar aggregates with temperature-controlled morphologies
- Smectic polymer micellar aggregates with temperature-controlled morphologies
- Smectic polymer micellar aggregates with temperature-controlled morphologies
- Smectic polymer micellar aggregates with temperature-controlled morphologies
- C. elegans sperm cell crawling on a substrate.
- Actin filled liposome
- Actin Beads and VASP
- C. elegans sperm cells transfected with fluorescent MSP
- Multilayered liposome observed by cryoEM
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- 2D crystals of BmrC/BmrD
- 2D crystals of BmrC/BmrD, a bacterial heterodimeric ABC transporter
- Multilayered liposome obserbed by cryoEM
- 2D crystals of Light Harversting Complex, LH2, from Rba. sphaeroides
- Single particle analysis of 300kDa LH1-RC-PufX core complex of Rbs. veldkampii
- Atomic model of LH1-RC-PuhX from Rba. sphaeroides
- Atomic Model of LH1-RC-PufX from Rba. sphaeroides
- Single particle analysis by cryoElectron Microscopy of a small non symemetrical membrane protein
- 2D crystals of Light Harversting Complex, LH2, from Rba. sphaeroides
- 3D reconstruction of LH1-RC-PufX, 280 Kda, at 12 A resolution
- 3D reconstruction of LH1-RC-PufX, 280 kDa, at 12 A resolution
- 2D crystals of Light Harversting Complex, LH2, from Rba. sphaeroides
- schematic model of the coupling between the non equivalent catalytic sites of ABC transporters
- schematic model of the coupling between the non equivalent catalytic sites of ABC transporters
- schematic model of the coupling between the equivalent catalytic sites of ABC transporters
- Tubular to planar membranes upon conformational changes of BmrA, a ABC transporter
- Orientation of the Shiga toxin B subunit toward the membrane
- Pores in lipid membrane
- Functionalyzed tubes made of cerebroside lipids
- Polymersomes
- Light sensitive Polymersomes
- Tubular to planar membrane transition mediated by transmembrane protein
- Biocompatible gold nanorods for cancer research
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- Liposome with actin cortex aspirated in a micropipet
- Actin filled liposomes form a cortex if polymerization is activated at the membrane
- Cell fragments show spontaneous osscilation
- Symmetry breaking of the actin gel around a bead
- C. elegans embryo during ventral closure
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- S2 RNA regulatory module
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Pierre Nassoy
Speciality : Research Director 2nd class - CNRS
Phone : +33 (0)1 56 24 67 51
Fax : +33 (0)1 40 51 06 36
E-mail address : pierre.nassoy@curie.fr
Master Condensed Matter (1992), PhD (1996).
Research themes :Soft Condensed Matter (monomolecular films of insoluble surfactants), Biophysics (dynamics and mechanics of cell adhesion) - Current research : Adhesion forces at the single molecule scale and at the cellular scale - Fabrication of biomimetic surfaces - Interactions of membrane tubes with bioactive surfaces - Cross-talk between different families of cell adhesion molecules.
Laboratories: PhysicoChimie des Surfaces et Interfaces - Institut Curie (1992-1996), Department of Pathology - University of British Columbia (1996-1998), P.C.C - Inst. Curie (1998-) Responsabilities: Member of the board of the SFA (French Society of Adhesion)