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state-of-the-art experimental models with patient-oriented translational research and strong collaborations across KI, Swedish healthcare, and leading international research environments. We offer a
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knowledge of cell and molecular biology techniques used to study cellular proliferation and invasion, including IHC, RT-qPCR, and Western blot. Experience in developing three-dimensional in vitro models and
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complementary expertise in the use and development of low-cost sensors, hydrological and biogeochemical models, and stable isotopes. The consortium’s complementary expertise enables us to work at the catchment
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transferable and interpretable models for tabular data, efficient learning paradigms for medical imaging, and causally grounded and identifiable representation learning. You will have great freedom to influence
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develop technologies that contribute to human and planetary health. About the research project Bacterial protein-tyrosine kinases (BY-kinases) control bacterial biofilm formation, and they have no
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need to be able to be a role model in that sense. You must be very organized and systematic in your work. As an experienced researcher you will be expected to co-supervise the work of younger scientists
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). The position will focus on using AI, particularly multimodal transformer-based deep learning models, to extract and leverage information from genomic and chemical structures. Applications include infectious
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culture and in tissue models. In this project, you will infect human cells with HMPV and use cryogenic electron tomography (cryo-ET) with subtomogram averaging to solve the structure of HMPV virions. You
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unique industrial laser platform, are (1) to control the generated XUV light by shaping the driving laser field spectrally, spatially and temporally using ultrafast nonlinear optics, and (2) to explore
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and spatial omics analyses performing quality control, preprocessing, integration, annotation, visualization, and downstream statistical analyses contributing to data management, workflow development