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Kolter, Tjibbe Donker and Philipp Henneke analysis of multiscale single cell ‘omics data in in experimental and human models reference genome and transcriptome assembly and annotation across species
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memory chips! By merging logic and memory elements, costs and the required wafer area can be minimized, and above all, energy efficiency and speed can be maximized. Specifically, in this project we
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and histopathological characterization of tumor cells in tissues using chemical and fluorescence staining Handling in vivo and in vitro models to test research hypothesis and refine study designs
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and histopathological characterization of tumor cells in tissues using chemical and fluorescence staining Handling in vivo and in vitro models to test research hypothesis and refine study designs
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memory chips! By merging logic and memory elements, costs and the required wafer area can be minimized and, above all, energy efficiency and speed can be maximized. Specifically, in this project we
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memory chips! By merging logic and memory elements, costs and the required wafer area can be minimized and, above all, energy efficiency and speed can be maximized. Specifically, in this project we
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memory chips! By merging logic and memory elements, costs and the required wafer area can be minimized and, above all, energy efficiency and speed can be maximized. Specifically, in this project we
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No Description/content The Regenerative Sciences PhD programme (PhD RegSci) at the MHH (Hannover Medical School) focuses on novel regenerative agents and biomaterials as well as cell transplants
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of mathematical models to the development of new imaging-related techniques and compounds. The programme is searching for excellent students who hold a Master's degree in Biology (or related fields), Physics
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at start: • Strong background in T cell biology/immunology. • Hands-on experience with transgenic mouse models, including breeding and colony management. • Proficiency in preparing and processing lymphoid