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2017


1. and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Temporally precise single-cell-resolution optogenetics, Nature Neuroscience, vol.20 pp. 1796–1806 (2017) [Abstract] [bibtex]

2. Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Recent advances in patterned photostimulation for optogenetics, Journal of Optics, vol.19(11) pp. 113001 (2017) [Abstract] [Full text][bibtex]

3. Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and , Imaging membrane potential changes from dendritic spines using computer-generated holography, Neurophotonics, vol.4(3) (2017) [Abstract] [bibtex]

4. Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Department of Brain and Cognitive Sciences , Massachusetts Institute of Technology and Department of Brain and Cognitive Sciences , Massachusetts Institute of Technology and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Submillisecond Optogenetic Control of Neuronal Firing with Two-Photon Holographic Photoactivation of Chronos, Journal of neuroscience, vol.37(44) pp. 10679-10689 (2017) [Abstract] [bibtex]

5. Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Centre for Neurotechnology and Department of Bioengineering, Imperial College London and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Division for Biomedical Physics, Department of Physiology and Medical Physics, Innsbruck Medical University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Vortex-free phase profiles for uniform patterning with computer-generated holography, Optics Express, vol.25(11) pp. 12640-12652 (2017) [Abstract] [Full text][bibtex]

6. Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Institut Fresnel UMR7249, Aix-Marseille University, CNRS, Centrale Marseille and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Complementary Speckle Patterns : deterministic interchange of intrinsic vortices and maxima through Scattering Media, Physical Review Letters, vol.118(043903) (2017) [bibtex]

2016


7. and and and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and , , Neuron, vol.92(3) pp. 564–566 (Nov. 2016) [Abstract] [bibtex]

8. and Membrane transport, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and and and and and and and and and and and and and and and and and and and and and and and and and and and and and and and and and and and and and , Impaired Presynaptic High-Affinity Choline Transporter Causes a Congenital Myasthenic Syndrome with Episodic Apnea., Am J Hum Genet., vol.99(3) pp. 753-61 (2016) [Abstract] [bibtex]

9. Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and INSERM and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and INSERM and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Two-Photon Holographic Stimulation of ReaChR, Frontiers in cellular neuroscience, (doi : 10.3389) (Oct. 2016) [Abstract] [bibtex]

10. Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Intelligent Imaging Innovations GmbH and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Computer Generated Holography with Intensity-Graded Patterns, Frontiers in cellular neuroscience, (doi : 10.3389) (Oct. 2016) [Abstract] [bibtex]

11. Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Institut du Cerveau et de la Moelle Epinière (ICM) and Institut du Cerveau et de la Moelle Epinière (ICM) and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Three-dimensional spatiotemporal focusing of holographic patterns, Nature Communications, , DOI : 10.1038/ncomms11928 (Jun. 2016) [Abstract] [Full text][bibtex]

12. Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Synaptic trafficking, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Synaptic trafficking, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Synaptic trafficking, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Synaptic trafficking, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Superresolving dendritic spine morphology with STED microscopy under holographic photostimulation, Neurophotonics, vol.3(4) pp. 041806, DOI : 0.1117/1.NPh.3.4.041806 (2016) [Abstract] [Full text][bibtex]

13. Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Superresolution Imaging of Optical Vortices in a Speckle Pattern, Physical Review Letters, vol.116(9) pp. 093904 (Mar. 2016) [Abstract] [bibtex]

14. Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Characterization of plasmonic nanoantennas by Holographic Microscopy and Scanning Near-field Microscopy, Optics Communications, pp. 455-459, 10.1016/j.optcom.2015.09.104 (2016) [Abstract] [bibtex]

15. and and and Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and , Calibration procedures for quantitative multiple wavelengths reflectance microscopy, Review of Scientific Instruments, vol.87(1) , 10.1063/1.4939253 (2016) [Abstract] [bibtex]

2015


16. and and and and and Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and , Lock-in thermography, penetrant inspection and scanning electron microscopy for quantitative evaluation of open micro-cracks at the tooth-restoration interface, J. Phys. D: Appl. Phys., pp. 103566 (2015) [Abstract] [bibtex]

17. and and Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and , Holographic microscopy reconstruction in both object and image half spaces with undistorted 3D grid, Applied Optics, vol.54(15) pp. 4672 (2015) [Abstract] [bibtex]

18. and Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and , Deciphering the elementary steps of transport-reaction processes at individual Ag nanoparticles by 3D superlocalization microscopy, Nano Lett., , 10.1021/acs.nanolett.5b02921 (2015) [Abstract] [bibtex]

19. and and Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and , High numerical aperture holographic microscopy reconstruction with extended z range, Applied Optics, , (2015) [Abstract] [bibtex]

20. Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and , Quantifying the Efficiency of Plasmonic Materials for Near-Field Enhancement and Photothermal Conversion, J. Phys. Chem. C, vol.119(45) pp. 25518–25528, 10.1021/acs.jpcc.5b09294 (2015) [Abstract] [bibtex]

21. Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Institut du Cerveau et de la Moelle Epinière (ICM) and Institut du Cerveau et de la Moelle Epinière (ICM) and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Fast Calcium Imaging with Optical Sectioning via HiLo Microscopy, PLoS One, vol.10 pp. 0143681 (Dec. 2015) [Abstract] [bibtex]

22. Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and , All-Optical Interrogation of Neural Circuits, Journal of Neuroscience, vol.35(41) pp. 13917–13926 (Oct. 2015) [Abstract] [bibtex]

23. Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Department of Genetic and Behavioral Neuroscience, Gunma University Graduate School of Medicine and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Interneurons and oligodendrocyte progenitors form a structured synaptic network in the developing neocortex, eLIFE, vol.4 pp. e06953 (Apr. 2015) [Abstract] [Full text][bibtex]

24. Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Computer-generated holography enhances voltage dye fluorescence discrimination in adjacent neuronal structures, Neurophotonics, vol.2(2) pp. 021007 (Apr. 2015) [Abstract] [Full text][bibtex]

2014


25. and and and and Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and , Open cracks depth sizing by laser stimulated Infrared lock-in thermography, J. Phys. D: Appl. Phys., vol.47(465501) (2014) [Abstract] [bibtex]

26. Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and , Stochastic 3D optical mapping by holographic localization of Brownian scatterers, Optics Express, vol.22(23) pp. 29191, Paper also featured in the Virtual Journal for Biomedical Optics (VJBO), 10.1364/OE.22.029191 (2014) [Abstract] [bibtex]

27. and Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and and and and and and and and Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Picometer-scale surface roughness measurements inside hollow glass fibres, Optics Express, vol.22(24) pp. 29554, 10.1364/OE.22.029 (2014) [Abstract] [bibtex]

28. and and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Spatially Selective Holographic Photoactivation and Functional Fluorescence Imaging in Freely Behaving Mice with a Fiberscope., Neuron, (14) pp. S0896-6273 (Nov. 2014) [Abstract] [bibtex]

29. and and and and and and and and Membrane transport, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and , The Virome: viral ghost companion, virus wars., J Clin Exp Cardiolog, (5) pp. e136 (Aug. 2014) [Abstract] [Full text][bibtex]

30. and and and and and Membrane transport, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and and and and and and and and and , CHOLINE TRANSPORTER−LIKE1 is required for sieve plate development to mediate long−distance cell−to−cell communication, Nature Communications, vol.5(4276) (Jul. 2014) [Abstract] [bibtex]

31. Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Zero-order suppression for two-photon holographic excitation, Optics Letters, vol.39(20) pp. 5953–5956 (Oct. 2014) [Abstract] [bibtex]

32. and and Synaptic trafficking, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and Synaptic trafficking, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and Synaptic trafficking, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Cdc42 controls the dilation of the exocytotic fusion pore by regulating membrane tension., Mol Biol Cell, pp. E14-07-1229 (Aug. 2014) [Abstract] [bibtex]

33. Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University, chap. 3. Vesicular Neurotransmitter Transporters: Mechanistic Aspects, Exchangers, pp. 149-174, Elsevier , vol.73 (2014) [Abstract] [bibtex]

34. Department of Chemistry, Physical and Theoretical Chemistry Laboratory, University of Oxford and Institut Langevin, ESPCI and Department of Chemistry, Physical and Theoretical Chemistry Laboratory, University of Oxford and ITODYS, Univ. Paris Diderot, Sorbonne Paris Cité and ITODYS, Univ. Paris Diderot, Sorbonne Paris Cité and ITODYS, Univ. Paris Diderot, Sorbonne Paris Cité and Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Department of Chemistry, Physical and Theoretical Chemistry Laboratory, University of Oxford, Simultaneous electrochemical and 3D optical imaging of silver nanoparticle oxidation, Chemical Physics Letters, vol.597 pp. 20-25 (2014) [Abstract] [bibtex]

35. Department of Neurology, School of Medicine, University of Maryland and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Department of Neurology, School of Medicine, University of Maryland, The kinetics of multibranch integration on the dendritic arbor of CA1 pyramidal neurons, Frontiers in cellular neuroscience, vol.8(127) pp. 1-11 (2014) [Abstract] [bibtex]

36. Department of physics of complex systems, Weizmann institute of science and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Department of physics of complex systems, Weizmann institute of science, When can temporally focused excitation be axially shifted by dispersion?, Optics Express, vol.22(6) pp. 7087 (2014) [Full text][bibtex]

37. Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Wavefront-engineering microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Quantitative confocal spiral phase contrast, J. Opt. Soc. Am. A, vol.31(6) pp. 1215-1225 (2014) [Full text][bibtex]

2013


38. and Membrane transport, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and , The choline transporter−like family SLC44: Properties and roles in human diseases, Molecular aspects of medicine, vol.34 (2-3) pp. 646−654 (Jun. 2013) [Abstract] [bibtex]

39. LPEM, ESPCI and NIR&DIMT, and LPEM, ESPCI and Institut Langevin, ESPCI and Holographic Microscopy, Neurophotonics Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and LPEM, ESPCI, Infrared Lock-in Thermography Crack Localization on Metallic Surfaces for Industrial Diagnosis, J Nondestruct Eval, vol.32(4) (2013) [Abstract] [bibtex]

40. Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Laboratoire de Physiologie Cérébrale, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Encoded multisite two-photon microscopy, PNAS, vol.110(32) pp. 13138-13143 (2013) [Abstract] [Full text][bibtex]

41. Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and and Department of physics of complex systems, Weizmann institute of science and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Functional patterned multiphoton excitation deep inside scattering tissue, Nature Photonics, vol.7 pp. 274-278 (2013) [Abstract] [bibtex]

42. and and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and , Emergence of population bursts from simultaneous activation of small subsets of preBötzinger Complex inspiratory neurons, Journal of Neuroscience, vol.33(8) pp. 3332-3338 (2013) [Abstract] [bibtex]

43. Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, STED microscope with Spiral Phase Contrast, Scientific Reports, vol.3 pp. 2050 (2013) [Full text][bibtex]

44. and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and , An extended proteome map of the lysosomal membrane reveals novel potential transporters, Mol Cell Proteomics, vol.12(6) pp. 1572-88 (2013) [Abstract] [Full text][bibtex]

45. and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and , Amperometric Detection of Vesicular Exocytosis from BON Cells at Carbon Fiber Microelectrodes, Electrochimica Acta, vol.126 pp. 74-80 (2013) [Full text][bibtex]

46. and and and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and , Endosomal WASH and exocyst complexes control exocytosis of MT1-MMP at invadopodia, Cell Biology, vol.203(6) pp. 1063-79 (2013) [Abstract] [bibtex]

47. Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Optical developments for optogenetics, Biology of the cell, vol.105 pp. 443-464 (2013) [Abstract] [Full text][bibtex]

48. Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Department of physics of complex systems, Weizmann institute of science and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Two-photon excitation in scattering media by spatiotemporally shaped beams and their application in optogenetic stimulation, Biomed. Opt. Express, vol.4 pp. 2869–2879 (2013) [Abstract] [bibtex]

2012


49. Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University, chap. 5.Masterclass with Rab3 and Rab27: Orchestrating Regulated Secretion , Rab GTPases and Membrane Trafficking, pp. 55-76, , vol.22 (2012) [Abstract] [bibtex]

50. Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, LCoS nematic SLM characterization and modeling for diffraction efficiency optimization, zero and ghost orders suppression, Optics Express, vol.20 pp. 17843–17855 (2012) [Full text][bibtex]

51. and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Reshaping the optical dimension in optogenetics, Current Opinion in Neurobiology, vol.22 pp. 128-137 (2012) [Abstract] [bibtex]

52. and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, chap. Two-photon Optogenetics, Progress in Brain Research, pp. 119-143, Elsevier , vol.196 (2012) [Abstract] [bibtex]

53. Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University, Heptahelical protein PQLC2 is a lysosomal cationic amino acid exporter underlying the action of cysteamine in cystinosis therapy, Proceedings of the National Academy of Sciences of America, vol.109(50) pp. E3434-43 (2012) [Full text][bibtex]

54. and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University, Mechanism of proton/substrate coupling in the heptahelical lysosomal transporter cystinosin, Proceedings of the National Academy of Sciences of America, vol.109 pp. E210-217 (2012) [Abstract] [bibtex]

55. and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University, Successful prediction of the substrate-binding pocket in the SLC17 transporter sialin, The Journal of biological chemistry, vol.287 pp. 11489–11497 (2012) [Abstract] [Full text][bibtex]

56. and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and , A Chimera Carrying the Functional Domain of the Orphan Protein SLC7A14 in the Backbone of SLC7A2 Mediates Trans-stimulated Arginine Transport, The Journal of biological chemistry, vol.287 pp. 30853-30860 (2012) [Abstract] [Full text][bibtex]

57. and and , The choline transporter−like family SLC44: Properties and roles in human diseases, Molecular aspects of medicine, vol.34 pp. 646-654 (2012) [Abstract] [bibtex]

58. and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and , Indium Tin Oxide devices for amperometric detection of vesicular release by single cells, Biophys. Chem, vol.162 pp. 14-21 (2012) [Abstract] [Full text][bibtex]

59. Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University, Myrip couples the capture of secretory granules by the actin-rich cell cortex and their attachment to the plasma membrane, Journal of Neuroscience, vol.32(7) pp. 2564-2577 (2012) [Abstract] [bibtex]

2011


60. Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, 3D imaging and photostimulation by remote focusing and holographic light patterning, PNAS, vol.108 pp. 19504-19509 (2011) [Full text][bibtex]

61. and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and , 3D Holographic Photostimulation of the Dendritic Arbor, Journal of Neural engineering, vol.8 pp. 046002 (2011) [Abstract] [bibtex]

62. and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and , Disrupted in renal carcinoma 2 (DIRC2), a novel transporter of the lysosomal membrane, is proteolytically processed by cathepsin L, The Biochemical journal, vol.439 pp. 113-128 (2011) [Abstract] [bibtex]

63. and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and and and and and and and , Severe serotonin depletion after conditional deletion of the vesicular monoamine transporter 2 gene in serotonin neurons: neural and behavioral consequences, Neuropsychopharmacology, vol.36 pp. 2538-2550 (2011) [Abstract] [Full text][bibtex]

64. and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and and and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and , Polarized secretion of lysosomes at the B cell synapse couples antigen extraction to processing and presentation, Immunity, vol.35(3) pp. 361-74 (2011) [Abstract] [bibtex]

65. and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and , Myosin. Va acts in concert with Rab27a and MyRIP to regulate acute von-Willebrand factor release from endothelial cells, Traffic, vol.12 pp. 1371-1382 (2011) [Abstract] [bibtex]

66. and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and , Coupling amperometry and total internal reflection fluorescence microscopy at ITO surfaces for monitoring exocytosis of single vesicles, Angew Chem Int Ed Engl, vol.50(22) pp. 5081-4 (2011) [Abstract] [bibtex]

2010


67. Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Scanless two-photon excitation of channelrhodopsin-2, Nature Methods, vol.7 pp. 848-854 (2010) [Abstract] [bibtex]

68. Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Holographic photolysis for multiple cell stimulation in mouse hippocampal slices, PLoS One, vol.5 pp. e9431 (2010) [Abstract] [bibtex]

69. and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and and and and and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and , Expression and lysosomal targeting of CLN7, a major facilitator superfamily transporter associated with variant late-infantile neuronal ceroid lipofuscinosis, Human molecular genetics, vol.19 pp. 4497-4514 (2010) [Abstract] [Full text][bibtex]

70. and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and , Insights into lysosomal cobalamin trafficking: lessons learned from cblF disease, Journal of molecular medicine, vol.88 pp. 459-466 (2010) [Abstract] [bibtex]

71. and and and and and and and and and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and , VGLUT3 (vesicular glutamate transporter type 3) contribution to the regulation of serotonergic transmission and anxiety, Journal of Neuroscience, vol.30 pp. 2198-2210 (2010) [Abstract] [Full text][bibtex]

72. and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and and and and and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and , Rab27a and Rab27b control different steps of the exosome secretion pathway, Nat Cell Biol, vol.12(1) pp. 19-30; sup pp 1-13 (2010) [Abstract] [bibtex]

2009


73. Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Department of physics of complex systems, Weizmann institute of science, Temporal focusing with spatially modulated excitation, Optics Express, vol.17 pp. 5391-5401 (2009) [Full text][bibtex]

74. and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and and and and and and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and , Identification of a putative lysosomal cobalamin exporter altered in the cblF defect of vitamin B12 metabolism, Nature Genetics, vol.41 pp. 234-239 (2009) [Abstract] [bibtex]

75. and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University, Molecular and cellular basis of lysosomal transmembrane protein dysfunction, Biochimica et biophysica acta, vol.1793 pp. 636-649 (2009) [Abstract] [bibtex]

2008


76. Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Department of physics of complex systems, Weizmann institute of science and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Patterned two-photon illumination by spatiotemporal shaping of ultrashort pulses, Optics Express, vol.16 pp. 22039-22047 (2008) [Full text][bibtex]

77. Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, A programmable light engine for quantitative single molecule TIRF and HILO imaging, Optics Express, vol.16 pp. 18495-18504 (2008) [Full text][bibtex]

78. Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University and and Neurophysiology and New Microscopies Laboratory, Biomedical and Fundamental Science Faculty, Paris Descartes University, Holographic photolysis of caged neurotransmitters, Nature Methods, vol.5 pp. 821-827 (2008) [Abstract] [bibtex]

79. Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University, Molecular physiology and pathophysiology of lysosomal membrane transporters, Journal of inherited metabolic disease, vol.31 pp. 258-266 (2008) [Abstract] [bibtex]

80. and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University, Molecular pathogenesis of sialic acid storage diseases: insight gained from four missense mutations and a putative polymorphism of human sialin, Biology of the cell, vol.100 pp. 551-559 (2008) [Abstract] [bibtex]

81. and and and and and and and and and and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and , The vesicular glutamate transporter VGLUT3 synergizes striatal acetylcholine tone, Nature Neuroscience, vol.11 pp. 292-300 (2008) [Abstract] [bibtex]

82. and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and , A 20-nm step toward the cell membrane preceding exocytosis may correspond to docking of tethered granules, Biophys. J, vol.94(7) pp. 2891-905 (2008) [Abstract] [Full text][bibtex]

83. and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University, A fast mode of membrane fusion dependent on tight SNARE zippering, Journal of Neuroscience, vol.28(34) pp. 8470-6 (2008) [Abstract] [Full text][bibtex]

2007


84. and and and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and , The transporters GlyT2 and VIAAT cooperate to determine the vesicular glycinergic phenotype, Journal of Neuroscience, vol.27 pp. 6273-6281 (2007) [Abstract] [Full text][bibtex]

85. and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and , Characterization of sequential exocytosis in a human neuroendocrine cell line using evanescent wave microscopy and "virtual trajectory" analysis, Eur Biophys J, vol.37(1) pp. 55-69 (2007) [Abstract] [bibtex]

86. and and and and and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and , Distinct role of Rab3A and Rab3B in secretory activity of rat melanotrophs, Am J Physiol Cell Physiol, vol.292(1) pp. C98-105 (2007) [Abstract] [Full text][bibtex]

87. Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and and and and and and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University, Myosin Va Mediates Docking of Secretory Granules at the Plasma Membrane, Journal of Neuroscience, vol.27 pp. 10636-10645 (2007) [Abstract] [bibtex]

88. Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University and Dynamique Membranaire et Maladies Neurologiques, Biomedical and Fundamental Science Faculty, Paris Descartes University, 'Should I stay or should I go?': myosin V function in organelle trafficking, Biology of the cell, vol.99(8) pp. 411-23 (Aug. 2007) [Abstract] [bibtex]

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