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, transcriptomics, antibody assays, and advanced 3D microscopy. For this, a lightsheet microscope dedicated to the imaging of cleared samples has been acquired, as well as a workstation for VR-assisted image analysis
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particular reference to 3D models, and molecular biology with the development of stably transfected clones. She/he will also have an opportunity to develop troubleshooting skills and critical thinking
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stimulating research environment. The project will be supervised by Prof. Rafal Ciosk and co-supervised by Prof. Marianne Fyhn: https://www.mn.uio.no/ibv/personer/vit/rafalc/ https://www.mn.uio.no/ibv/english
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, or related 3D stem cell models Proven skills in advanced imaging and quantitative analysis of dynamic processes Interest in interdisciplinary approaches at the interface of biology and physics Excellent
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(certificates should be submitted in English) and contact details of at least two referees through this form https://www.um.edu.mt/hrmd/workatum-projects by not later than Thursday, 22nd January 2026. Late
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candidate will be responsible for its day-to-day calibration, operation, and data analysis using core Dopler 3D x-ray tomography. The candidate will actively participate in the JT-60SA research program
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through historic and contemporary perspectives. Can engage students in developing a conceptual foundation for interactive media, integrating critical texts, reflective analysis, and creative practices
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to high-resolution technicolor. From deciphering the choreography of transcription complexes, chromosomes, and RNA molecules within cells to developing novel approaches to 3D molecular structure
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to high-resolution technicolor. From deciphering the choreography of transcription complexes, chromosomes, and RNA molecules within cells to developing novel approaches to 3D molecular structure