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of electronic devices has a long and successful history of accompanying experimental developments, be it for transistors or memory cells. Nowadays, to be of practical relevance, such technology computer aided
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investigating allergic, immunologic and metabolic processes. The candidate will join a multi-disciplinary team focusing on the elucidation and targeting of major stress and lipid kinase signaling pathways in
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processes, particularly in complex or technically challenging settings. To address these questions, the lab develops and applies new methods for metabolomics, lipidomics, and ¹³C metabolic flux analysis, as
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of phosphoinositide 3-kinase (PI3K) signaling in allergy, metabolic control, obesity, diabetes and cancer; see https://p3.snf.ch/project-189065 ii) developing and validation of novel chemical probes and degraders
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nanometers to tissues, to regulate collective cellular behavior. Mechanobiology seeks to understand how cells, tissues, and organoids perceive, process, and remodel mechanical signals, and how these processes
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the lab, and at the same time to play an active role in shaping and creating an inspiring research and working environment. In line with our and Uni Basel values (https://www.unibas.ch/en/Research/Values
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and resilient materials and structures. By combining numerical modeling, laboratory experiments, and theoretical analyses, we seek to link microscopic processes with the macroscopic behavior of both
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scientists, natural scientists and to engage with students, policy makers, and publics on ethical, social and political aspects of digital technologies and society. Broad knowledge of the topics, theories and