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cells from the skull bone marrow to neurodegenerative processes using cutting-edge tools in neuroimmunology. The selected intern will work closely with our team to perform and analyze experiments
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laboratory and collaborative meetings. Collaborate actively with scientists performing wet bench experiments (PhD, postdocs). Interact productively with other bioinformatic engineers or researchers on Institut
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to perform and analyze experiments involving neonatal mouse models, behavioral testing, and brain tissue analysis. Responsibilities: Assist in the design and execution of in vivo experiments using mouse models
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; developing our partnership programme with industry; contributing to a quality management system; and the organization of webinars and other dissemination activities, including publications. Support from
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these questions. We use functional approaches based on high-density electrophysiological recordings. We have an anatomical approach based on the reconstruction of the three-dimensional neural network. And finally
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redefinition of behavioral features or pose challenges in their detection. The projects To address these challenges, we propose developing a Bayesian Program Synthesis (BPS) methodology for generating synthetic
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on tissue section. Single cell RNAseq will be performed to identify the transcriptional profile of DCs interacting with vaccines. 2°) To evaluate vaccine-induced T and B cell responses in vaccine draining
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immunotherapy. Tumors and tumor draining lymph nodes will be analyzed by spectral flow cytometry and single cell RNAseq. The functional contribution of DCs subsets will be tested by performing ICI immunotherapy
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to the ontogeny of health and disease. This project was selected for funding by the ERC-CoG-2024 call and the Impulscience program from fondation Bettencourt Schueller.