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. The project is embedded in the Collaborative Research Center “Cellular Plasticity in Malignant Myeloid Diseases – From Mechanisms to Therapy” and involves close interactions with academic and clinical partners
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to unravel regulatory mechanisms of heart function and disease. CRISPR-based functional genomics will allow you to explore and steer the regulatory mechanisms of heart disease Your studies will take advantage
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cancer Establish single-cell perturbation screening approaches to investigate cell fate decisions and disease mechanisms Integrate high-content imaging, single-cell transcriptomics, and functional assays
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applicants must have obtained an outstanding doctoral degree in disciplines such as physics, mechanical or electrical engineering, biotechnology or equivalent fields and a proven record of high-level research
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an outstanding doctoral degree in disciplines such as physics, chemistry, mechanical or electrical engineering, biotechnology or equivalent fields and a proven record of high-level research, for example through