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mechanisms involving genetic, epigenetic and chromatin organisation factors governing the cell-type specific response to ARS mutations. Therefore, integrative genome-wide cis-regulatory network analysis
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of microbiology and laboratory automation. We are looking for a highly motivated PhD candidate with a strong engineering mindset and a keen interest in AI, automation and microbiology. Prior experience in
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mechanisms, with translational relevance for conditions such as chronic pain, bladder dysfunction, and other urinary tract disorders. The urinary bladder plays a vital role in storing and releasing urine
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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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novo mutations Type of genetic variation that can be buffered Molecular mechanisms underlying mutational robustness Skills Essential The candidate holds a Master degree in bioengineering science, (bio
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cell cycle machinery. This project will combine live-cell imaging, phosphoproteomics, and metabolite profiling to unravel the complexity of phytohormonal regulation at the cellular level. Profile
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tools, vaccines, diagnostics, and biopharmaceuticals. The research at CMB pushes the boundaries of biomolecular and bioinformatics research and engineering technologies. VIB.AI studies fundamental
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for commuting You will do most of your work at VIB-UAntwerp Center for Molecular Neurology (campus Drie Eiken) and the VUB Brussels Humanities, Sciences & Engineering Campus (Elsene), within a dynamic and