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carrying different combinations of bacteria and phages, using mRNA, small RNA and single-cell RNA sequencing. In addition, you may also contribute to ongoing bioinformatic projects in the lab. Tasks and
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laboratory environment (ML-1/ML-2), supported by live cell imaging, 3D confocal microscopy, and automation technology.
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Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Cell identity relies on correct gene expression, so the process of
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fundamental mechanisms regulating heart development and disease, with particular emphasis on how heart rhythm is established at the cellular and molecular levels. We use state-of-the-art model systems including
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investigates fundamental mechanisms regulating heart development and disease, with particular emphasis on how heart rhythm is established at the cellular and molecular levels. We use state-of-the-art model
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. Work closely with external partners by supplying and evaluating electrolytes in full cell testing environments. What we ask of you When the work intensifies during scale-up phases, you keep oversight
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least one of the following areas: Biochemistry, Cell Biology, or Biophysics; interest in interdisciplinary research, connected to modelling and biophysics, paired with a drive to unravel gene/protein
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interpret functional assays on HA and NA. Experience with protein or virus-related laboratory techniques (e.g. cell culture, protein expression, enzymatic or binding assays) to independently run experiments
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of bacteria to generate sustainable cell factories. The project aims to develop a high efficiency technology that converts single-carbon feedstocks directly into valuable chemicals. To this end
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of metabolic and cellular properties Phylogenomic analyses of obtained MAGs, including extraction and evaluation of marker genes, performing ML and Bayesian analyses of (concatenated) marker gene sets using