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expertise with laboratory work in a molecular/genetic lab, including DNA- and/or RNA-sequencing technologies.Some expertise in bio-informatics and data-mining is a plus.You have analytical problem-solving
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the genetic etiology and developing diagnostics and treatment methods for these diseases. Approaches range from human genetics, genomics, protein biochemistry and neuronal and glial cell biology to integrative
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in otolaryngology and human genetics, we have identified three novel deafness gene candidates, and we continue to seek for more. We will characterize the expression and function of these genes in
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: Proficiency in primary T cell isolation, culture, and genetic modification. Hands-on experience with multicolor flow cytometry for T cell characterization. Demonstrated experience with in vitro T cell
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on cancer metastasis and novel metabolic pathways. We exploit mouse models, genetic engineering, metabolomics and single cell & spatial multi-omics analysis to gain groundbreaking insights into metabolism as
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in e.g. gastroenterology, oncology, immunology, microbiology & virology, clinical genetics/-omics, molecular biology and translational research. The Raes lab has a long track record in microbiota
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prognostic transcriptional programs through an epigenetic switch. Nat Genet. 56(4):663-674. Siersbæk et al., 2020. IL6/STAT3 signaling hijacks ER enhancers to drive breast cancer metastasis. Cancer Cell 38(3
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assays, flow cytometry, fluorescence imaging, RNA sequencing and biochemical techniques e.g. western blot, quantification assays). Combining diet treatments, pharmacological inhibition and genetic