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A postdoctoral research position is available in the lab. of Prof. Walter Marcotti funded by the Wellcome Trust. The remit of the project is to investigate the mechanisms regulating signal
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of pathogenicity genes between microbes and can therefore drive the emergence of novel diseases. In pathogenic fungi, an emerging global threat to both humans and our crops, the mechanisms that facilitate HGT remain
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single-cell genomics, epigenetics, and imaging technologies with computational approaches to unravel the mechanisms of immune cell fate decisions in health and disease. As a postdoctoral researcher, you
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currently exploring a range of exciting topics at the intersection between computational neuroscience and probabilistic machine learning, in particular, to derive mechanistic insights from neural data. We
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of these patients. The goal of this project is to combine cutting-edge multi-omics technology, data analytics, machine learning and clinical samples from the human eye to decipher new insights into disease mechanisms
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various disciplines: computer scientists, mathematicians, biologists, chemists, engineers, physicists and clinicians from more than 50 countries currently work at the LCSB. We excel because we are truly
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will join a multidisciplinary research program that combines experimental models, patient-derived materials, and advanced technologies to explore the mechanisms that preserve auditory system homeostasis
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computational approaches, including artificial intelligence (AI), to unravel the mechanisms driving neuroimmunologic diseases. Your responsibilities: Plan and perform innovative large-scale experiments bridging
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, the candidate will develop new computational strategies to identify human genetic variation linked to cell fate changes in neurodevelopmental disorders and cancer. The candidate can use and combine single-cell
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We seek a talented individual with strong drive and excellent communication skills to join our team in beautiful Philadelphia! We are looking to unravel the fundamental mechanisms of human T and B