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information about the positions and the recruitment process in the Call for Applications.
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. Furthermore, we use the olfactory network as a model to study the dynamics of neuronal development, synaptogenesis, neuronal degeneration, and regeneration. Our research is complemented by behavioral studies
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. Furthermore, we use the olfactory network as a model to study the dynamics of neuronal development, synaptogenesis, neuronal degeneration, and regeneration. Our research is complemented by behavioral studies
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dynamics of the Earth and planetary interiors using: Experimental petrology and geochemistry Mineral physics Computational high-pressure physics and mineralogy Isotope cosmochemistry and geochronology
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of the HSF transcription factors in Arabidopsis thaliana . The project builds on a recent paper showing how HSFs in Arabidopsis undergo liquid-liquid phase separation in response to temperature (Peng et al
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“ mathematics, though we prefer not to make that distinction. Instead, research topics are grouped into eight parts, each covering a broad, but coherent, part of mathematics: Area 1: Geometry and topology Area 2
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physics, and dynamical imaging in all areas of science covering physics, chemistry, and biology. The program offers exciting research opportunities at ultra-intense electron and X-ray sources to directly
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light harvesting to substrate/antibiotics transport through membrane pores. The Computational Physics and Biophysics Group is led by Prof. Ulrich Kleinekathöfer and is located at Constructor University
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, their achievements and productivity to the success of the whole institution. The newly DFG-funded Research Training Group ( RTG 3120 ) “Biomolecular Condensates: From Physics to Biological Functions” is developing
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for the development of scientific and personal skills. Candidates ideally combine several of the following skills and qualifications: A very good M.Sc. degree (or equivalent) in biology, physics, computer science