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Field
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with five partners. The focus of the doctoral program is the analysis of the spatial and temporal variability of decontamination efficiency in different soil materials on a flow cell scale. The results
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other siderophores using native production, genetically modified organisms and cell-free processes for the production of siderophores with the aim of achieving the highest possible siderophore
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multiparametric flow cytometry-based immune profiling • Conduct functional T cell assays (e.g., AIM, polyfunctionality assays) • Analyze low-level protein expression in plasma (SIMOA/ELISA) • Perform HIV
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development of alternative methods to animal testing for biomedical and toxicological applications Establishment of 2D cell culture and 3D organoid models and integration to microphysiological systems in
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for an initial period of 3 years. An extension for up to another 2 years is possible under the above-mentioned condition. The Research Group Our research activities primarily focus on developmental, cellular, and
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arbitrary complexity and shape at the sub-nanometer scale. Such structures can be used to construct artificial cell mimics and new materials. A scaffold-free DNA tile assembly is a programmable method for the
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., Cell Metabolism, 2023; Leung et al., Science Translational Medicine, 2022; Seelbinder et al., Nature Communications, 2023). MBD is currently coordinating the EU-funded consortium MiCCrobioTAckle
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of molecular, cellular and organ biology. Research is at the core of this doctoral programme. The thesis research will be carried out under the direct supervision of one member of the IMPRS faculty. Our IMPRS
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to another 2 years is possible under the above-mentioned condition. The Research Group Our research activities primarily focus on developmental, cellular, and functional aspects of the olfactory system in
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biology, cell biology, biochemistry, and plant-microbe interaction research come together to advance sustainable agriculture and reduce reliance on pesticides and mineral fertilizers. Further information