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screens that can help us discover new strategies to combat human disease. Our group is integrated in the “Genome Biology” Division at Karolinska Institutet, together with other competitive groups that work
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with computational analysis. The specific project will be tailored according to the interests and expertise of the postdoc, and potential approaches can include angles from human genetics, gene
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and with different level of disease association and also work with characterization of bacterial isolates and their interaction with human cells using RNA-seq, proteomics, glycomics, and other large
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recruiting three postdocs to work on various aspects of affinity proteomics for multiplex protein and antibody profiling of human body fluids. All three projects combine an experimental array-based setup
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Do you want to contribute to improving human health? Decscription of the researchgroup Our lab is advancing precision cancer medicine through deep learning models of the molecular networks within
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Do you want to contribute to improving human health? Our lab is advancing precision cancer medicine through deep learning models of the molecular networks within cells. The models encompass
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buildup? If we can, then it saves time for medical intervention much before visible symptoms. Medical doctors often face difficulty to choose a set of medicines from many options available for a patient
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highly similar cells, it will be possible to impute missing portions of the genome. By applying these methods to genomic data derived from the human microbiome, we can track how microbes in the human gut
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. The program addresses research on artificial intelligence and autonomous systems acting in collaboration with humans, adapting to their environment through sensors, information and knowledge, and forming