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of Biophysics, Department of Applied Physics, KTH. The goal of the project is to use advanced microscopy methods, including super resolution microscopy, to study the dynamics of immune cell receptors in
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cells. The models encompass metabolism, signaling, and gene regulation and are constrained to align with physical interactions between biomolecules. We train the models on high-throughput datasets
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metabolism, signaling, and gene regulation and are constrained to align with physical interactions between biomolecules. We train the models on high-throughput datasets, including metabolomics, proteomics, and
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, diversity and equal conditions is both a question of quality for KTH and a given part of our values. For information about the processing of personal data in the recruitment process . The position may include
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physically located at CMM and SciLifeLab. The overall goal for the lab is to understand fundamental mechanisms of B cell-related immune responses in cancer (and beyond) to identify new avenues for B-cell
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is physically located at CMM and SciLifeLab. The overall goal for the lab is to understand fundamental mechanisms of B cell-related immune responses in cancer (and beyond) to identify new avenues for B
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towards gender equality, diversity and equal conditions is both a question of quality for KTH and a given part of our values. For information about processing of personal data in the recruitment process