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scholarships and the PhD programme can be found at https://www.cbs.dk/en/research/phd-programme . To be considered, the candidate should have basic training at the master's level (similar to the 3 + 2 Bologna
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, pathology, pharmacology, immunology, microbiology, nutrition and diseases in both animals and human infants. The work extends from basic in vitro studies in cells and tissues (gut cell lines, primary blood
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significant challenge. The primary objective of this PhD project is to elucidate the molecular mechanisms by which AMPK regulates physiological processes in metabolic tissues through specific post-translational
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candidates that would ideally complement the current appetite-suppressing obesity drugs. During the project, you will work with primary mouse and human adipocytes, leverage newly generated genetic mouse models
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of proteomics, exercise science, nutrition, and cell biology to study the impact of lifestyle on metabolism. The main goal of our research is to investigate how diet and exercise alters intra- and intercellular
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printing, embedded sensing, and adaptive control, aiming to meet the unique challenges of automation in life science environments. Research tasks and qualifications The main purpose of this PhD position is
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on the following main themes: Dynamic research community advancing qualitative psychology Strong emphasis on interdisciplinarity and theoretical rigor Approaches qualitative research as an integrated whole, where
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Education (Psyche), which focuses its research on the following main themes: Dynamic research community advancing qualitative psychology Strong emphasis on interdisciplinarity and theoretical rigor Approaches
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and subsequently use the patient-derived organoid models for experimental exploration and validation. The student will utilize and develop bioinformatic analysis strategies as well as advanced primary
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for the study of quantum quenches. Who are we looking for? We are looking for a candidate who must hold a master degree in theoretical physics and have a strong background in quantum field theory and holography