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Fluorescence microscopy Generation of antimicrobial formulations In vivo testing in mouse models Previous work experience with the pathogen Chlamydia is beneficial but not required. Given the collaborative
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(references 1-7). This is studied in genetic mouse models, in healthy human subjects as well as in myeloid malignancies. Key technologies applied towards these research questions include genetic/mutational
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medicine, with a particular focus on spinal cord and peripheral nerve injuries. The projects involve work on various aspects of nerve regeneration and tissue engineering using both in vitro and in vivo model
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genetic analyses and generalised linear mixed-effects models, and ideally also in the use of some mathematical models (e.g. Integral Projection Models) Experience in data processing, statistical analysis
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treatment. Develop methods and models that can predict the course of the disease by analyzing detailed data on the immune system and metabolism. We are conducting a large study, the CoVUm study, involving 579
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to a better world. We look forward to receiving your application! Work assignments Your work duties will include research in the area of theoretical modelling of disordered magnetic materials
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focus on two main lines of research. The first concerns the modeling of general dark matter–electron interactions in detector materials. This will be achieved by combining methods from particle and solid
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of proteins with near-atomic accuracy. Models such as RFdiffusion, LigandMPNN, and hallucination-based frameworks can now generate symmetric oligomers, cages, and backbones while optimizing sequence properties
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leave, duties in labour unions, etc. Preference will be given to candidates with proven experience in one or more of the following areas quantum field theories, lattice models, non-perturbative methods
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look forward to receiving your application! Join our cutting-edge research team at Linköping University to revolutionize protein modeling with AI! Work assignments Join our world-leading research group