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interact and communicate — insights that are essential for understanding the cellular origins of brain disorders. Despite major progress in genetics research, we still don’t know how genetic risk factors for
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of research With an increasing need for data transmission bandwidth in applications like downlinks from satellites/drones to ground stations, for IoT, telecommunication or in search and rescue operations
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mutations in a given gene from mutations in homologous genes? How to deal with large-scale structural variation? How to link mutations together into genomes across distances longer than the read length? You
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methods for the analysis of temporal data. Of specific interest are monitoring procedures for structural breaks, which find application in many technical fields, e.g. for the protection of power systems
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technologies? How to distinguish mutations in a given gene from mutations in homologous genes? How to deal with large-scale structural variation? How to link mutations together into genomes across distances
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Description As a PhD candidate in Mathematical Statistics, you will develop novel methods for the analysis of temporal data. Of specific interest are monitoring procedures for structural breaks, which find
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including the research statement Proficiency in both written and spoken English Scientific qualifications: A degree in Biology, Geology and Earth Science, Physics, Mathematics, Geography, Soil Science
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Max Planck Institute of Molecular Plant Physiology • | Potsdam, Brandenburg | Germany | about 6 hours ago
? How is epigenetic information established and transmitted and how do epigenetic processes impact on plant development? How do plants and soil fungi interact to establish arbuscular mycorrhiza (AM
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mechanical stress into useful electrical energy, enabling autonomous sensors and systems in demanding industrial and structural environments. The research will involve a combination of analytical modelling
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. Nikolina Sostaric. A dedicated yeast genetics technician will provide strain construction. Together, the team will unravel how molecular changes propagate through the polarity network to collectively enable