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the most likely underlying neuropathological subtypes in FTD and AD patients. The project will make use of genetic information from the largest FTD and AD patient-control cohorts, including
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software engineering, computer science, data science, bioengineering, bioinformatics, engineering, physics or related Experience in either machine learning or computational biology. Interest in both
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from non-neuroscience fields but with a keen interest in understanding the brain (e.g., physics, artificial intelligence, engineering, humanities, and medical training) are also strongly encouraged
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in vitro and in living cells The applicant will benefit from access to centralized facilities (in particular Nanobody technology, proteomics, cutting-edge microscopy and structural biology). Please
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mouse models with genetically engineered timing of synaptic development This work will contribute critical insight into how early brain development influences behavioral outcomes in ASD, and how
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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
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different stages of the cell cycle (Vukašinović and Hsu et al., 2025, Cell). We are looking for a motivated PhD student to investigate how hormonal signals are integrated and coordinated to control the plant