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model of hematopoietic differentiation. We can now use this system alone or in combination with CRISPR perturbations of transcriptional regulators, using bulk and single cell readouts. Our experimental
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the ultimate goal to map and model human cell lineage dynamics across development, disease and aging at multiple levels of biological systems by integrating single-cell multi-omics and artificial intelligence
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into the brain with unprecedented efficiency and selectivity. Key Responsibilities Develop high-throughput screening cell-based BBB models. Utilize advanced molecular biology, proteomics and microscopy to study
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diabetes. The successful applicant will develop cell-based model systems such as human stem cell-derived beta cells, using single cell genomic read-outs, and will explore poorly understood genome regulatory
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- Strong background in molecular and cell biology techniques (RT-qPCR, ELISA, Western Blot). - Experience with mammalian cell culture and in vitro skin models. - Animal handling (mice models) and
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the accumulation of beta amyloid and neuronal cell death. Yet, it is not clearly understood how the cellular crosstalk between glia and neurons is regulated at the molecular level nor how it drives neurodegeneration
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at-sea threats storm petrels face on their Mediterranean and NE Atlantic breeding grounds and on their suspected Southern Atlantic wintering grounds. These threats include climate change, renewable energy
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work-life balance and self-organization. On-site work model with the option to telework. Full access to cutting-edge laboratory facilities and characterization platforms. The incorporation to a top
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leading institutions in the field of chemistry committed to solving major social and economic challenges by conducting top quality research in three main areas: SustainableCatalysis, Renewable Energy and