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, computational modelling, bioinformatic analysis, and experimental vascular biology. Based in a dynamic translational research environment of data-driven life science, computational imaging, and vascular surgery
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distributed across social space, whether residential, organizational, or relational. Segregation is a recurring topic in analytical sociology, offering a key example of how interacting individuals may
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combination of different methods such as population genetics, analyses of fungal environmental DNA and soil spore banks in soil to find out about the life histories of ectomycorrhizal fungi in general, and
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of climate and land use change on animals, plants, and soils. Read more here: https://www.slu.se/en/departments/ecology/ and here: https://www.slu.se/en/about-slu/work-at-slu/ Kopparfors Skogar Kopparfors
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Luleå University of Technology is in strong growth with world-leading competence in several research areas. We shape the future through innovative education and ground-breaking research results, and
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techniques. Some of his most important contributions to this work are the methods he has developed to improve the prediction of membrane protein, protein structures and protein interactions. The group
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Luleå University of Technology is in strong growth with world-leading competence in several research areas. We shape the future through innovative education and ground-breaking research results, and
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work will build on and extend an advanced in-house time-domain simulation tool for wheel–rail interaction and noise. The project is carried out in close collaboration with DB InfraGO, the German railway
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to study protein structure and function (e.g., X-ray crystallography, NMR, cryo-electron microscopy). Additionally, you will investigate how these proteins interact with each other and with various
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of classical circuit approaches. The main research area will lie in the improvement of dynamic range without increased power consumption. Here you will perform research ideas combining multiple LNAs and ADCs