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Dortmund, we invite applications for the Research Group Biofluorescence: PhD Candidate (m/f/d) The main aim will be to profile the cellular components of tissue microenvironments (TME) in healthy and
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individuals, biochemical markers, cognitive testing, animal models, and cell biology experiments. Our long-term goal is to contribute to the development of new treatments for neurodegenerative diseases, where
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Lund, specifically within the Neurobiology Section at the Department of Experimental Medical Sciences (EMV). The research group conducts experimental studies in cell and virus biomechanics, with a focus
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the University of Leuven, which ranks among the world’s top 50 universities. At our Center, researchers study the cellular mechanisms of health and disease in the central nervous system. In collaboration with
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) The main aim will be to profile the cellular components of tissue microenvironments (TME) in healthy and inflamed sites using State-of-the-Art Mass Spectrometry-Based Multi-Omics. We aim to dissect
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related dementias. We use a combination of iPSC-based systems and transgenic mouse models coupled with novel approaches including single-cell sequencing, CRISPR–Cas9 screening, and interactome profiling
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Dynamics, Mechanisms, Sensitivity, Specificity, Single-cell Variability, and Vulnerabilities. Our group is multi-disciplinary, combining methods from Bioinformatics (RNA-seq, biological databases
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part of cellular regulation. Many cell surface proteins have been implicated and play a role in disease progression. Using an siRNA targeted screen for novel drug uptake mechanisms, we have identified a
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with therapeutic response and resistance to RAS inhibition in non-small cell lung cancer (NSCLC) in the laboratory of Ferdinandos Skoulidis, MD, PhD, at the University of Texas MD Anderson Cancer Center
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represents tissues as composed of cells whose geometry results from hydraulic equilibrium (water exchanges) and mechanical equilibrium (cell wall deformation). The work carried out has led