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collection of >6,000 isolates of the fungus present in the lab (and 20+ closely related species). Additionnally to computer analyses (which will represent the core of the project), the PhD student will
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nonlinear optics). The PhD student will acquire expertise in the field of water-soluble chiral nanoclusters, from individual nanoclusters to supramolecular nanoclusters, focusing on their photophysical
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will explore if learning and memory paradigms trigger the recruitment of RNAs to specific synaptic compartments. Second, the student will study the cellular machineries involved in local RNA recruitment
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to acquire expertise in detection and frequency metrology methods, including spectral measurements and comparisons with ultra-stable frequency references. Ability to work in an international and
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create different chiral nanomaterials that will be studied by optical spectroscopy (circular dichroism, photoluminescence, circularly polarised nonlinear optics). The PhD student will acquire expertise in
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closely with our collaborators to establish a deep learning-based image analysis pipeline. The successful applicant should hold a PhD in cell biology or neuroscience. Previous experience in live cell
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agents and as photosensitizers. The PhD student will acquire expertise in techniques for studying ROS generation in solution (indirect methods using internal dyes) and in vitro (using ROS-active dyes
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various disciplines: computer scientists, mathematicians, biologists, chemists, engineers, physicists and clinicians from more than 50 countries currently work at the LCSB. We excel because we are truly
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with both the CNRS and UGA, organized into five research teams conducting work in cognitive science (Body and Space, Development and Learning, Language, Consciousness, Memory & Metacognition, Vision
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(with openness to learning others): Computational protein design or molecular modeling Protein biochemistry / structural biology Cell biology and receptor signaling Good communication skills in English