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modelling, and neuroimaging. The position provides access to high-performance computing resources, including GPUs and supercomputing clusters, for advanced simulations of cerebral blood flow and molecular
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soil-plant interaction under different cropping systems and act in close collaboration with the bioeconomic modelling group. We are looking for a highly motivated and skilled researcher with a PhD degree
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atomic-scale engineering of materials. Our focus areas include advanced and functional materials, chemical synthesis, energy storage and conversion, as well as molecular and materials modeling. Within
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focus on advancing chromatographic separation of biobased molecules through modelling, simulation, experimental chromatography, or a combination of these approaches, depending on your background. You may
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research group of Professor Juho Rousu. The position allows the successful applicant to choose a flexible balance between advanced machine learning method development and exciting applications on molecular
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circuitries in healthy and diseased brain. The topic is investigated at different levels, from molecular mechanisms to behaviour, using animal models and various electrophysiological techniques in combination
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mathematical physics, including their formalization. This position is associated with Kalle Kytölä’s research group, part of the Finnish Centre of Excellence in Randomness and Structures (FiRST). The starting
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that impaired acetylation of RG-I leads to a loss of epidermal cell adhesion (see preprint here ). This project aims to achieve a genetic and molecular-level understanding of the impact of RG-I structure and
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). This project aims to achieve a genetic and molecular-level understanding of the impact of RG-I structure and acetylation on plant development, with a focus on cell adhesion and cellulose synthesis. Another core
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to brain disorders, uncovering mechanistic pathways, and identifying therapeutic targets and disease predicting biomarkers. We develop and apply human-based disease models to advance understanding of brain