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detected and compensated. Using various experimental procedures, these knowledge gaps will be tackled. Novel diagnostic tests will be developed, allowing the underlying mechanisms to be studied and deficits
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innovative strategies to improve human health. HT is composed of five Centers: Health Data Science, Genomics, Computational Biology, Neurogenomics and Structural Biology. The Centers work together to enable
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innovative strategies to improve human health. HT is composed of five Centers: Health Data Science, Genomics, Computational Biology, Neurogenomics and Structural Biology. The Centers work together to enable
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leukemia ( Nature Genetics 53:672, 2021) Described novel mechanisms driving therapy resistance to FDA-approved therapies in myeloid leukemia ( Cancer Discovery 13:170, 2023) Discovered a glutamine
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and clinical translation. Supported by the Carl Zeiss Foundation , an ERC Starting Grant , and the DFG Emmy Noether Program, our lab provides a highly collaborative and interdisciplinary environment
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program. Through this work, you will build scientific independence, develop new science and leadership skills, and establish a growing reputation externally. Your role will be to lead a research project
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. Close collaboration with our neighboring Departments (Mechanical Engineering, Electrical & Computer Engineering, Molecular Biology & Genetics, iNano, Biosciences, Food, Agroecology, and Chemistry) is a
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diverse academic backgrounds to contribute to our projects in areas such as: Network Security, Information Assurance, Model-driven Security, Cloud Computing, Cryptography, Satellite Systems, Vehicular
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environment in the fields of science, technology and administration as well as for the education of highly qualified young scientists. The computational imaging group at DESY is concerned with the development
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on the disease mechanisms underlying inherited retinal degeneration and hearing loss, the cell biology of photoreceptors and hair cells, and potential treatments. We utilize mouse models and various approaches in