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, and eager to apply computational skills to cutting-edge biological questions. In this project, you will develop a tool to infer karyotypes from individual cells based on their transcriptome, and use
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X-ray videocystometry in awake mice. The candidate will design and conduct experiments exploring the signalling interactions between urothelial cells and sensory nerves innervating the bladder, and
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experiments exploring the signalling interactions between urothelial cells and sensory nerves innervating the bladder, and their impact on bladder function under physiological and pathological conditions. Work
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methods for these diseases. Approaches range from human genetics, genomics, protein biochemistry and neuronal and glial cell biology to integrative systems and computational biology. Models include yeast
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glial cell biology to integrative systems and computational biology. Models include yeast, fly, mouse, and pluripotent human cell systems. Research groups can access state-of-the-art research and top
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genetics, cell biology, genomics, and bio-computing to unravel plant biological processes and to further translate this knowledge into value for society. Please visit us at www.psb.ugent.be for more
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. Clinical studies have demonstrated that hereditary neuropathies can also involve muscle pathologies, complicate diagnosis and hamper therapy development. We have developed advanced in vitro cell models
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of computational linguistics and crosslingual emotion detection Position You will work actively on the preparation of a PhD thesis in the context of the research project ‘Emotions without borders: Studying
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. Clinical studies have demonstrated that hereditary neuropathies can also involve muscle pathologies, complicate diagnosis and hamper therapy development. We have developed advanced in vitro cell models
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team of Prof. Seppe De Schepper investigates how peripheral immune signals influence brain health and disease. We focus on tissue-resident macrophages and immune cell trafficking from periphery to brain