Our missions
Our goal is to contribute to cancer research through the development of multimodal imaging techniques. The laboratory focus on the molecular basis of protein functions, on the structural basis of cellular processes and on the response to new antitumor therapy protocols. These activities are combined with the development of new protocols and tools for acquisition and analysis of images in biology.
Images
- Logo TomoJ
- Procentriole structure
- Example of 3D DCE MRI
- 13 protofilaments microtubule
- NMR Probeheads (recto)
- NMR Probeheads (verso)
- Micro calorimètre
- Fluorimètre
- Dichroisme circulaire
- Fermenteur
- Microtome
- Désintégrateur de cellules
- HPLC
- Microscope électronique
- RMN imageur
- Spectromètre RMN 300 MHz
- Spectromètre RMN 500 MHz
- Microscope ionique (S.I.M.S.)
- Adénylate kinase de Mycobacterium tuberculosis
- C-Terminal Half of Human Centrin 2
- Apo-neocarzinostatin structure
- Follicules thyroïdiens (SIMS)
- Crystal structure of HsCen2
- LAH
- Poses of some active compounds
- GSK-3 in complex
- Inserm
- inserm
- human hemoglobin a chains in monocarboxylated state
- Cytidine monophosphate kinase in complex with cytosine diphosphate
- Structure of Lqh-8/6 toxin
- Solution structure of the immunophilin-like domain of FKBP59
- NMR-derived solution structure of the C-terminal domain of Calcium Vector Protein (from Amphioxus) in the Ca2+-bound form
- Solution structure of the N-terminal domain of Calcium Vector Protein (from Amphioxus)
- Solution structure of the <i>Nereis diversicolor</i> Sarcoplasmic Calcium-binding Protein
- Structure en solution d’une construction C-terminale de la centrine humaine 2
- Model of human procentriole assembly
- Sinusoïde amortie
- Sinusoïde
- l'Institut Curie financé par Equipex
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