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(Advanced Training for Next Generation Scientists in Spatio-Temporal Imaging of Plant Cells), funded by the MSCA Doctoral Networks. Entitled “Characterizing altered 3D chromatin organization in Arabidopsis
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forming a moist microbial rhizosphere habitat. Your work will build on the process-based soil-rhizosphere-plant model, developed at the Agrosphere Institute, which integrates a 3D functional-structural
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Manufacturing in Construction (AMC; https://amc-trr277.de/), we developed the AMC Edu:Lab. AMC investigates innovative 3D printing methods, materials, and designs to promote sustainability in construction
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Science. Explore new possibilities in the study of 2D and 3D magnetic microstructures using a mix of static and dynamic magnetometric methods, as well as advanced static and dynamic magneto-optical domain
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. Potential research topics include: adaptive and switchable meta-materials; 2D- and 3D-organized functional materials as platforms for catalyst or electrode materials; solid-state electrolytes; and materials
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impacts with tools like AlphaFold, and identify candidates for experimental validation. Molecular cytogenetics: Conduct chromosome analysis, immunolocalization and high-resolution microscopy (3D-SIM, PALM
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additive manufacturing to develop 3D‑printed wood–mycelium habitat structures that mimic the ecological functions of natural deadwood. About the project Urban environments offer vast, yet underused
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and tumor tissue) to determine their immune cell infiltration profiles 3D imaging analyses using fluorescence microscopy techniques (e.g., confocal laser scanning microscopy, light-sheet fluorescence
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-ON-BRAIN (https://cordis.europa.eu/project/id/101227124 ) Project Reference: 101227124 Application deadline: 15/05/2026 Position Overview One PhD position is available in the µOrganoLab at the Institute
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Leibniz-Institute for Plant Genetics and Crop Plant Research | Neu Seeland, Brandenburg | Germany | 6 days ago
-resolution microscopy (3D-SIM, PALM) to characterize meiotic phenotypes, and use single-pollen nucleus genotyping to quantify crossover rates. Genetic mapping: Evaluate meiotic variants in segregating