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simulations. Two complementary strategies will be employed: structure-based virtual screening (docking simulations + molecular dynamics) and ligand-based virtual screening (machine learning models). We have
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dynamics during regeneration, aging, and cancer, and how these processes can be modulated. Our research is primarily conducted in vivo. We combine genetic mouse models (lineage tracing, conditional
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of genome dynamics, epigenetic regulation, RNA biology, and molecular pathologies, with a strong commitment to translating these advances into clinical applications. The doctoral student will be hosted within
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combines state-of-the-art computational multiscale modelling (using DFT/TDDFT methods, collision theory, molecular dynamics, stochastic dynamics, Monte Carlo and analytical methods) and its thorough
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at Harvard Medical School in Boston Massachusetts. The work of the Kennedy lab is focused on using genetic and molecular biology approaches to explore RNA biology and investigate the role of RNA in gene
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? Opportunity to lead and grow a dynamic nuclear medicine division at the forefront of molecular imaging and theranostics, with a rapidly expanding radioligand therapy program. Leverage an established
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of the SciLifeLab Integrated structural biology platform https://www.scilifelab.se/units/structural-proteomics/ The unit provides access to cutting-edge equipment and expertise, for the analysis
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: Postdoctoral researcher to work under faculty supervision to advance the long-term research agenda focusing on: (1) Molecular mechanism of amyotrophic lateral sclerosis and frontotemporal dementia. (2) Drug
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research program combining advanced molecular biology, single-cell and spatial profiling, and in vivo mouse models to uncover how dynamic cell states drive tumor behavior. Beyond the science itself, this is
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multidisciplinary and dynamic research team utilizes state-of-the-art structural biology, biochemistry, cell biology, and biophysical techniques to explore the molecular basis of cell signaling across biological