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“Molecular Mechanisms of Circadian Clock Function”. The candidate will be in charge of: - Generating new transgenic plant material - Performing molecular analyses - Performing bioluminescence assays The tasks
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is to elucidate the molecular mechanisms through which somatic mutations affecting RNA splicing contribute to tumorigenesis, and to investigate the mechanisms driving resistance to CAR-T cell therapies
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. To this end, they will first analyze how color concepts are internally represented and propagated within diffusion models, and second, they will design targeted conditioning mechanisms that enable users
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to ageing and diseases such as cancer. The successful candidate will investigate the molecular mechanisms that maintain cellular memory and explore how their failure drives cellular heterogeneity and
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to the design, characterization and understanding of quantum organic, metal-organic and inorganic materials. To this aim, it counts with an excellent research infrastructure comprising three state-of-the-art
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dynamics of the Rev Recognition Element (RRE) in the HIV-1 RNA and the discovery of antiviral small-molecule agents blocking the complex between this motif and the Rev protein. A consortium of structural
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analysis. Methods and algorithms including visualisation and reporting tools. Geotechnical, structural and mechanical characterisation of rock from drilling signals. Calibration and interpretation on rock
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the molecular mechanisms that drive cell-cell communication in aggressive childhood cancers, with a specific focus on the role of the UNC5 interaction network in the pathogenesis of neuroblastoma (NB) and other
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research stays and at least one first-author publication in a journal with a two-digit impact factor are valued. Candidates must not have defended their PhD thesis in the Department of Pharmacology
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charge‑storage and degradation mechanisms. Participation in dissemination (high‑impact journals, conferences) and, where relevant, IP protection and tech‑transfer activities. Contribution to proposal