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, topical applications and injections (subcutaneous and IP), post-mortem analysis, dissection, IHC Where to apply E-mail laetitia.linares@inserm.fr Requirements Research FieldBiological sciences
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development of existing image and data analysis tools -performance characterization using various types of samples (calibration samples, model systems, biological samples and/or nanomaterials) -participation in
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magnetospheric physics, focusing on Mercury's ion dynamics. Its primary goal is to enhance our understanding of the role the planetary ions play within this environment by examining their composition, life cycle
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data analysis and bioinformatics (desirable) Ability to work independently and rigorously Interest in innovative methodological approaches Analytical and synthesis skills Excellent scientific
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derivatives that mimic key intermediates of flavoenzymes, study their reactivity, and use them to modify a wide range of substrates. To address this, we will break free from biological constraints and directly
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scientific publications. -Interviews -Vegetation surveys -Qualitative data analysis -Quantitative data analysis UMR CESCO: The Center for Ecology and Conservation Sciences (CESCO) conducts research
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-celled eukaryote Paramecium using computational and experimental approaches. - Conducting experiments to generate samples for omics analysis - Conducting biochemistry experiments: purification of proteins
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spatial accuracy of approximately 5 nm and temporal accuracy of 2 to 5 ms in cell cultures on coverslips. The aim of this project is to achieve the same performance in depth in biological tissues
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, assembloids and chimeroids to investigate mechanisms of Parkinson's disease (PD). The work has a particular focus on high-throughput technologies and the analysis of protein aggregation. The project integrates
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facility), result analysis (R-studio, with the help of the Bioinformat'IC facility), functional studies by cell culture, Aurora spectral cytometry, MSD analyte dosage, immunofluorescence, and modulating