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bioinformatics. The main responsibilities include: High-throughput sequencing: Applying long-read sequencing technologies (Oxford Nanopore) to quantify DVG populations in cells and virions without PCR bias (Direct
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stations for large-scale bioinformatic analysis, a cryo-EM microscope recently installed at the institute, as well as privileged access to state-of-the-art infrastructures: cryo-EM Titan Krios (ESRF
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required: The candidate should have a strong interest in evolutionary genomics and ecology; should be willing to acquire an extensive training in bioinformatics and statistical data analysis; should have
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selection signatures potentially associated with hearing sensitivity in human populations exposed to contrasting acoustic environments. ● Carry out bioinformatics analyses in population genomics ● Carry out
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to technological platforms, including flow cytometry, advanced imaging, proteomics, genome engineering, and bioinformatics, in close collaboration with the Jacques Monod Institute. This environment provides an ideal
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through weekly meetings between the doctoral candidate and the thesis supervisors. These meetings will occasionally include other team members (postdoctoral researchers, Master's students). Bioinformatic
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markers, flow cytometry, and cell sorting. • Generation and analyses (bioinformatic and statistical) of environment and microbiome data, including amplicon sequencing libraries, metagenomes, and
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cell culture and cellular assays. • Strong skills in experimental data analysis, bioinformatics tools, and statistical analysis. • Knowledge and compliance with current health and safety regulations in
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of Marine Sciences). The MESCAL budget will cover all operating costs of the thesis, including field missions, metabarcoding and associated bioinformatics, workshops, surveys, and possibly funding for local