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for an individual with a keen interest in cell biology to investigate the molecular mechanisms of Wnt signal transduction pathways and how these are disrupted in disease. The successful candidate will receive expert
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dynamics and tissue morphogenesis during embryo development using cellular, molecular and mechanical approaches. Cell movements underlie tissue patterns and shapes. Using chick embryos as the model system
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sequencing technologies - including metagenomics and transcriptomics - to explore the dynamic interplay between human gene expression and microbial communities. The successful candidate will develop and apply
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dynamic campus in Espoo, Greater Helsinki, Finland. Diversity is part of who we are, and we actively work to ensure our community’s diversity and inclusiveness. This is why we warmly encourage qualified
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model predictive control (MPC) methods to enable large groups of buildings to dynamically form coalitions and provide flexible energy services. Your work will incorporate advanced robust MPC techniques
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perform experiments that interrogate the molecular and cellular mechanisms of novel anti-cancer drugs, employing cellular, biochemical and molecular biological approaches. You will publish your research in
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biology, molecular biophysics, structural biology and particularly genomics. Students will contribute to one or more of our primary research areas below: Our main area of interest is on the structure and
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in synthetic organic chemistry are particularly encouraged to apply. Any experience in biochemistry will be beneficial, however full training will be provided for the necessary molecular biology and
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screens. Nature Reviews Molecular and Cell Biology 2023. 24, 477-494. Awwad, S.W., Doyle, C., Coulthard, J., Bader, A.S., Gueorguieva, N., Lam, S., Gupta, V., Belotserkovskaya, R., Tran, T-A
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understood. This project will combine molecular, cellular, and physiological approaches to explore how exercise reprograms metabolic and inflammatory pathways that connect cardiac function to systemic health