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Field
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sensing Precision biomolecule processing for single-molecule technologies 3D tissue engineering with stem cells Synthetic and hybrid tissue engineering Versatile nanopore devices for sensing, sequencing
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the liver microenvironment. Experiments will utilize animal models, cell culture including induced pluripotent stem cells, and human patient samples. Required Qualifications: Applicants should hold a PhD
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., Alzheimer’s or Parkinson’s) and a track record of first author publications, a plus. Experience with the development and validation of advanced cellular models, such as induced pluripotent stem cell–derived
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gaps in our understanding of disease biology and treatment response in Black men. Our project aims to close these gaps by developing cutting-edge induced pluripotent stem cell (iPSC) models that better
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of scientific publications in relevant fields. Experience with models of myopathies or inflammation. Familiarity with stem cell-derived muscle models or 3D culture systems (including physiological
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stem cells (satellite cells) can be guided by anatomical and environmental signals to generate muscle fibers that are more resistant to disease. Using a unique collection of genetically engineered
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Helmholtz Zentrum München - Deutsches Forschungszentrum für Gesundheit und Umwelt | Stein bei N rnberg, Bayern | Germany | about 2 months ago
applications, improving lives. Recently, our Gene Editing group at the Institute of Stem Cell Research developed Synthetic Transfer Vehicles (STVs), a programmable protein-based RNA delivery platform
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instability in human stem cells, disease, and cancer, using human pluripotent stem cells and targeted differentiation approaches as a primary working model. Our goal is to determine how DNA and RNA instability
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to identify candidate disease-causing variants. You will develop model systems, e.g. genome-editing of immune or induced pluripotent stem cells (iPSC) with specific patient-derived genetic variants. We aim
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 1 day ago
studies. The goals of the Rich Lab are to identify novel therapeutic paradigms in the treatment of advanced cancers, primarily malignant brain tumors, through the prism of stem cell biology to identify core