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host plants (Arabidopsis, Strawberry) and parasites (the parasitic plant Cuscuta and the nematode Meloidogyne). This work will involve standard biochemical and molecular research methods as
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the influence of invading oral cancer cells on skeletal muscle. Molecular profile of the infiltrated skeletal muscle cells together with the functional roles and prognostic significance of selected miRNA/proteins
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5 Feb 2026 Job Information Organisation/Company NTNU Norwegian University of Science and Technology Department The Department of Clinical and Molecular Medicine (IKOM) Research Field Medical
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simulations. The PhD project is anchored in The research group for Climate and Buildings at NMBU. The project combines building-physics modelling with multispectral/hyperspectral façade analyses, and is
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cells using CRISPR/Cas9 to identify and target molecular mechanisms enabling invasion. Study how neuronal activity and brain anatomy influence cancer spread using advanced ex vivo 3D models. Collaborate
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. The fellowship is offered within Load Management in Team Sport Athletes. The PhD project will focus on “Complexity in Training Load and Athlete Response”, with particular emphasis on understanding the dynamic and
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degree with authorization for practice in the issuing country of graduation or a relevant MSc degree, for example in immunology, cell biology or molecular biology or proteomics Be proficient in English
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state-of-the-art in vivo two-photon microscopy in mice, and live-cell confocal microscopy using ex vivo 3D models. Genetically manipulate cancer cells using CRISPR/Cas9 to identify and target molecular
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capabilities within the underwater domain, and to ensure that a unified modelling approach can operate across robot embodiments – air, ground, and marine. Achieving this requires new simulation tools, scalable
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cells (tumor-host interactions). The current project aims to understand the influence of invading oral cancer cells on skeletal muscle. Molecular profile of the infiltrated skeletal muscle cells together