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understand the molecular mechanisms driving liver regeneration so well that we can manipulate the molecular circuits coordinating tissue growth to boost the regenerative capacity of the liver. In both humans
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Research Organization of Information and Systems, National Institute of Genetics | Japan | 17 days ago
, “Development of Super-Biological Tissues through Chemical Catalysis-driven Cell Fate Engineering,” and is expected to expand into multifaceted research through collaborations with experts in chemical biology
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deployment of innate immune strategies that enable survival during phage attack. In addition, another major focus of our research is protein engineering and the development of new molecular tools based
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to early phase clinical trials. We collaborate with investigators intramurally (Duke Pharmacology & Cancer Biology, Cell Biology, Biomedical Engineering), and extramurally nationally and internationally
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--- Select One ---CityUnited Kingdom / BirminghamPostal CodeB48 7TFStreetEdgbaston Contact State/Province Birmingham City Birmingham Website https://www.bham.ac.uk/schools/engineering Street Edgbaston Postal
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viscoelasticity for cell culture, Rheological characterization of glioma and brain tissues as well as hydrogel systems, Microscopic imaging and measurements of traction forces generated by glioma cells cultured
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endometriosis and postpartum depression—areas that remain underexplored and characterized by significant knowledge gaps. WHOLE brings together 17 disciplines spanning medicine, engineering, social sciences, and
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Orsay (Île-de-France). It brings together about one hundred researchers and research professors, experimentalists and theorists, and research activity is supported by some sixty engineers, technicians
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Postdoctoral Researcher in Synthetic Organic Chemistry and Photochemistry, IBMM, Montpellier, France
and photocontrolled polymerisation for bioprinting Project acronym: SELPHY Total duration of the project: 30 mois Brief description of the project: Tissue engineering aims to produce artificial living
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regulation, with opportunities to work with human tissues, cell culture systems, and advanced genetically engineered mouse models. The selected candidate will be supported to apply for a Marie Skłodowska‑Curie