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Skip to main content. Profile Sign Out View More Jobs PhD scholarship in computational kinetic modelling of human glycolysis - DTU Biosustain Kgs. Lyngby, Denmark Job Description The metabolism
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Center for Neuroplasticity and Pain (CNAP), Aalborg University | Aalborg, Region Nordjylland | Denmark | about 16 hours ago
Are you enthusiastic about basic human pain research? The Center for Neuroplasticity and Pain (CNAP) at Aalborg University is recruiting several PhD fellows within the doctoral programme
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Who are we? We strive to identify and modulate key features of human pain neuroplasticity and its relevance for persistent pain in humans. CNAP is a research Center of Excellence inaugurated by
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, and to work towards improving our ability to detect and monitor populations of small delphinids in Danish and European waters to understand and ultimately mitigate the impacts of human activities
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& enhance wind energy efficiency. Unleash your potential in a dynamic, collaborative environment! PhD scholarship in computational kinetic modelling of human glycolysis - DTU Biosustain Kgs. Lyngby, Denmark
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, microbiology, nutrition and diseases in both laboratory animals and human infants and children. The work extends from basic in vitro studies in cells and tissues (gut cell lines, primary blood and immune cells
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, and 3) progressively build a theoretical model of human engagement with generative language technology as a site of sociolinguistic change. The research team will achieve these ends by conducting
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active in autoimmune diseases versus cancers and(3) Investigating potential therapeutic interventions to modulate these reactions. The ideal candidate has a background in human medicine, translational
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development by adding stock-flow consistency to an integrated economic-environmental model, simultaneously balancing the accounting framework across natural, manufactured, human, social, and financial assets
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are expected to be useful for most types of hearables. Standardized measurement tests and numerical models of the acoustic and mechanical performance of hearable devices do not usually include a human subject