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Your position Stacking and twisting atomically thin materials offers unprecedented control over their nanoscale magnetic, electronic, and optical properties. In this project, we will develop a novel
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bacteria, the functioning of genome-wide gene regulatory networks, and the evolution of gene regulation. Besides using a variety of quantitative techniques including flow-cytometry and in-lab evolution, our
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from this research inform the development of new diagnostics, treatments, and vaccines against malaria, tuberculosis, schistosomiasis, Chagas and other neglected tropical diseases. Are you excited by
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. The candidate will join our multi-disciplinary team and focus on the development and performance of modern assays to evaluate bioactive molecules targeting major signaling pathways in cancer and inflammation
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personal development. We welcome friendly and ambitious humans from all walks of life. A beautiful and very livable city at the intersection of Germany, France, and Switzerland, with wide-ranging sport
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active sites), in vitro and in vivo enzyme screenings, electrochemistry, and machine learning-assisted directed evolution. As part of this project, you will collaborate closely with PhD students and
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-thinking approach to your work, while enjoying the challenge of learning and mastering new tasks? Are you creative, curious, and motivated to optimize, develop, and implement new ideas? If so, you are
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employees, we are a lively and dynamic international community of researchers who investigate with curiosity biological phenomena ranging from interactions of molecules to growth, development and behavior
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healthy behavior or rehabilitation. Through your research, you will establish an empirical foundation for the development of effective prevention and intervention strategies to strengthen individual and
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trapping and analysis using state-of-the-art nanopore experiments. About the Project Our group has pioneered the development of the Nanopore Electro-Osmotic Trap (NEOtrap), a groundbreaking technique that