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- University of Groningen
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- Delft University of Technology (TU Delft); Delft
- Delft University of Technology (TU Delft); 26 Sep ’25 published
- Eindhoven University of Technology (TU/e); Eindhoven
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- Maastricht University (UM); Maastricht
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TU/e’s data maturity. You’ll be part of the Data Management team within the Data & Insights Product Area at the Library and Information Services (LIS) department, working alongside a dedicated team of
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(based on biomaterials and living cells), including their efficient deployment on embedded hardware, as well as the design and management of the supporting data pipeline. You will be part of
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molecular labelling and spatial profiling approaches. Your work may address any ecological system, from host-associated microbiomes to environmental microbial consortia, where molecular aspects of spatial
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Research (NWO), at the Laboratory of Phytopathology of Wageningen University. In this project you will use the advanced TurboID-based, proximity-dependent labelling technique to identify novel resistance
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Assistant Professor, you will contribute novel perspectives on microbial community organization and function using biotechnology, advanced molecular labelling and spatial profiling approaches. Your work may
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optical tissue clearing methods and imaged with 3D microscopy techniques, particularly light-sheet microscopy. The vascular network will be differentiated into arterial, veinous, and capillary components
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. Perform protein interaction studies to unravel mechanisms by which viruses induce morphological changes in host cells. Use sequence specific fluorescent labeling to follow virus infection in a time resolved
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develop fluorescence labelling techniques for specific vascular components, compatible with large optically cleared brain samples. Apply optical tissue clearing techniques for use on human and other
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on silicon nitride platforms, enabling highly sensitive, label-free detection of biomolecules for astrobiological research. An essential component of the technology is chip functionalisation with receptor
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Interferometer (aMZI) sensors on silicon nitride platforms, enabling highly sensitive, label-free detection of biomolecules for astrobiological research. An essential component of the technology is chip