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Postgraduate Research Assistant, you will be directly involved in the day-to-day culture and maintenance of induced pluripotent stem cells (iPSC), differentiation of iPSCs into cardiomyocytes in 2D and 3D
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Your Job: Develop methods and workflows to construct robust co-regulation networks from large single-cell and spatial transcriptomics datasets Integrate ontologies and metadata (e.g., tissue, cell
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information about our institute here: https://www.fz-juelich.de/en/ias/ias-8 Your Job: Develop physics-aware simulations of growing cell populations, including their spatiotemporal manipulation in microfluidic
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information about our institute here: https://www.fz-juelich.de/en/ias/ias-8 Your Job: Develop 3D+t image reconstruction methods in a cell microscopy setting using image sequences as well as focus stacks
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single-cell and spatial transcriptomics datasets Integrate ontologies and metadata (e.g., tissue, cell type, developmental stage, treatment) to build tissue- and context-specific co-regulation networks
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to numerous satellite sites of care across the region with the goal of providing care ‘close to home’ whenever feasible (https://pediatrics.uchicago.edu/). Our mission is to improve the health of every child
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What the role entails: The Division of Cell Matrix Biology and Regenerative Medicine within the School of Biological Sciences wish to appoint a laboratory-based Research Assistant to an exciting
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patches able to align cardiac cells and loaded with stem cell’s secretomes that induce cardiac regeneration; - participation in writing texts to be integrated into technical-scientific reports. With
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a project linked to the “Helmholtz School for Data Science in Life, Earth and Energy (HDS-LEE)”. Your Job: Develop physics-aware simulations of growing cell populations, including their spatiotemporal
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a project linked to the “Helmholtz School for Data Science in Life, Earth and Energy (HDS-LEE)”. Your Job: Develop 3D+t image reconstruction methods in a cell microscopy setting using image sequences