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at the Institute of Environmental Physics for a limited period of initially 2 years as soon as possible: Two PhD student positions: Boundary layer dynamics from observations and modelling for wind energy
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adults, characterised by severe genomic instability and a lack of targeted therapies. Using cutting-edge methods and unique primary patient-derived cell models, this project will seek to understand
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models and human mucosa-associated microbiota. Details of the associated RTG2751 consortium and other related projects can be found at www.medizin.uni-halle.de/grk2751 Your Profile Completed excellent
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cardiomyocytes and advanced 3D organoid models Bioengineering and Organoid Technologies: Application and further development of innovative bioengineering technologies for the generation and characterization
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of the synthetic peptide in chronic and acute heart failure animal models. The therapeutic peptide is derived from the protein S100A1, which plays a central role in maintaining normal heart function. The synthetic
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against cardiac diseases. It is based on extensive preliminary work by our working group, which has demonstrated therapeutic effects of the synthetic peptide in chronic and acute heart failure animal models
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of substrate- triggered disaggregase activation and how the different layers are functionally intertwined. Methods that will be used: Construction, purification and characterization of disaggregase mutants
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to advancing research in neurodevelopmental disorders. Our interdisciplinary team, including the research labs of Prof. Luise Poustka, Prof. Peter Marschik, and Dr. Martin Schulte-Rüther, focuses on early
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advancements. What we offer Goal-oriented, individual training and development opportunities (e.g. faculty PhD program, international conferences) Working with the latest techniques / technical equipment (e. g