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at Human Technopole (HT), is searching for a postdoctoral fellow to investigate the molecular mechanisms of leukemogenesis in paediatric age. This project focuses on understanding the cellular and molecular
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, tissue engineering, and nanoscale biointerfaces, our new team aims to develop next-generation nanotherapies, microphysiological systems and bioengineered grafts for regenerative medicine, with a strong
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across key developmental windows. Mechanism-driven therapeutics: We will develop therapeutic strategies based on antisense oligonucleotides, genome engineering and small molecules. Our goal is to translate
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activities in circuits of murine models of 22q11.2 and 3q29 deletion syndromes, two rare conditions that confer the highest genetic risks of schizophrenia. Qualifications: PhD in computational neuroscience
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, biomedical engineering, or a related field. • Experience with coding software such as Python, R, or Matlab. • Familiarity with collaborative coding software such as GitHub and database management
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responses to cancer therapies in human induced pluripotent stem cells) data for elucidating molecular mechanisms for health outcomes; and 3) evaluating health disparities through pharmacogenomics
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to dissect the molecular and cellular mechanisms underlying human pathologies in fields ranging from cardiovascular medicine to neuroscience, from immunology to cancer and microbiology, with the final goal
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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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focuses on mechanisms of regulation of the innate immune system and how defects in these processes impact immune-mediated diseases such as Inflammatory Bowel Disease (IBD) and systemic autoimmunity
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on characterizing these proteins using cryo-electron microscopy (cryo-EM), biochemistry, and cell biology. Our research aims to uncover the molecular mechanisms of these proteins to identify novel binding molecules