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to decipher the regulatory code controlling gene expression in plants through the engineering and large-scale validation of synthetic promoters. Within the ERC-funded multiCODE project, we aim
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biologist to decipher the genomic regulatory code controlling gene expression in plants. Within the ERC-funded multiCODE project, we aim to unravel how plants control gene expression across different tissues
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a crucial role in storing and releasing urine, controlled by complex neural pathways. As the bladder fills, sensory signals arise in its wall and inform the central nervous system about bladder
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in January 2025. The overarching goal is to identify the key factors controlling microbe-mediated carbon storage in the ocean, with a focus on using model microbial systems in the lab. We specialize in
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to identify and characterize these compounds. Additionally, microbial cell factories will be engineered for metabolite production through pathway engineering and dynamic pathway control. The postdoctoral
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metabolomics methodology to study enzymes, microbial physiology, and microbial communities in new ways. The overarching goal is to identify the key factors controlling microbe-mediated carbon storage in
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single-cell mass spectrometry-based proteomics. First under control conditions to establish the methodology and, secondly, under abiotic stress conditions. Profile Essential You have an international PhD
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postdoctoral researcher interested in studying human-associated microbial communities in health and disease. The ideal candidate has the following qualifications: A PhD degree in bioinformatics, computational
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subteam, working closely with an experienced lab technician, two dedicated PhD students, and two postdoctoral researchers on a project focused on in vitro screening methods, including the use of organoids
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should have a strong background in a quantitative discipline and an interest in neurodegenerative diseases. Essential: You obtained a PhD in Computational Neuroscience, Bioinformatics, Computer Science