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technology, generation and maintenance of zebrafish lines, confocal fluorescence microscopy, immunohistochemistry, in situ hybridisation, objective quantification of imaging data, quality control, large data
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RNA-sequencing; high resolution imaging using spinning disk confocal microscopy; fluorescence image processing; single-cell data analysis. What do we offer? A creative and inspiring environment full
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project, you will dissect heterogeneous tumor cell behavior using state-of-the-art imaging techniques, in vitro models, and patient biopsies. You will combine two experimental approaches to quantify cancer
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with immune assays and western blot; MS and AD human tissue bank brain and ChP samples for immunohistochemistry and fluorescence microscopy. Overall, the project explores exciting concepts in macrophage
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imaging techniques and structural biology analysis. The student will learn a variety of research techniques including CRISPR genome editing, molecular biology, biochemistry, advanced fluorescent imaging
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on tissue regeneration and fibrosis in response to repAMI. Using various imaging techniques, such as confocal laser scanning microscopy and light-sheet fluorescence microscopy, as well as flow cytometric and
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implementation enabling the localisation of single molecules using a temporal approach thanks to an original shaping of the illumination field. This paradigm shift in the process of localizing single molecules
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Compounds exhibiting reversible changes in their physico-chemical characteristics upon light stimulation (photo-switches) are considered key elements in modern materials chemistry, as well as imaging
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vacuolar cation channel modulating ion homeostasis and calcium signalling in plants In vivo imaging of calcium and calcium decoding using fluorescence reporters Identification of interaction partners and
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vacuolar cation channel modulating ion homeostasis and calcium signalling in plants In vivo imaging of calcium and calcium decoding using fluorescence reporters Identification of interaction partners and