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Brad Amos F.R.S. - MRC Laboratory of Molecular Biology, Cambridge, UK - Will Optical Imaging Continue its Explosive Development?
Larry Cohen - Yale University, USA - Widefield and 2-Photon Imaging of Neuron Activity
Gerard Marriott - University of California, Berkeley, USA - Optical lock-in detection (OLID) imaging microscopy: A New Approach for High-Contrast Imaging of Proteins in Living Cells and Organisms
Justin Molloy - MRC National Institute for Medical Research, London, UK - Single Molecule Investigation of Myosin-X Using Optical Tweezers and TIRF microscopy
John Girkin - University of Durham, UK - Three Dimensional Optical Microscopy at Depth in Complete Samples
Angus Silver - University College, London, UK - Development of an AOD-Based High Speed 3D 2-Photon Microscope
Martin Booth - University of Oxford, UK - Adaptive Optics for Microscopy
Martin Oheim - Universite Paris Descartes, France - Imaging Ion Concentration Nanodomains using Targeted FRET-Based Nanobiosensors
Ioan Notingher - University of Nottingham - Raman Microspectroscopy Imaging of Live Cells and Tissue
Angus Bain - University College London, UK - Two-Photon STED and FRET-FLIM studies of Protein Dynamics
Reiner Heintzmann - King's College London, UK - Structured Illumination Microscopy
Steve Briddon - University of Nottingham, UK - Investigating GPCR Organisation and Pharmacology at the Sub-Cellular Level Using Fluorescence Correlation Spectroscopy
Mark Pitter - University of Nottingham, UK - Custom CMOS Cameras for Phase Sensitive Optical Imaging
Noah Russell - University of Nottingham, UK - Plasmon Resonance Imaging of Neurons
Gerard Byrne – Merck, UK – Total Internal Reflection Microscopy Studies of Particle Endocytosis by Living Cells
Ian Dobbie – University of Oxford, UK - OMX: Pushing the Frontiers of Fluorescence Imaging
Marcus Thelen – Institute of Biomedicine, Switzerland - Functional Imaging of Chemotaxis Mediating Receptors in Migrating Cells
Mark Leake – University of Oxford, UK - Advanced Fluorescence Microscopy of Single Living Cells: Using Optical Proteomics to Study Native Biochemistry One Molecule at a Time
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