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, or xenograft mouse tumor models Experience in 3D cell culture, traction force microscopy, or computational mechanics Familiarity with cell sorting, bioenergetics assays, or multicellular modeling Experience
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plan and objectives The grant aims to support collaboration on the development of the DB-HERITAGE system, designed to manage data related to built heritage. It focuses on integrating advanced 3D
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mammalian cells, organoids, and animal models, and employ a range of approaches, including cell culture systems, diverse molecular techniques, and advanced imaging. The project will involve both internal and
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pathophysiology of the inner ear using multiple genetic mouse models and a novel human stem cell-derived 3D inner ear organoid model. We study genetically-mediated hair cell and neuronal degeneration in these model
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emitters, and vertically-grown AlN for 3D micro-electromechanical systems (MEMS) applications. Requirements Doctoral degree in a suitable area (e.g. electrical engineering, physics, or materials science) A
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(e.g., light-sheet/spinning disk/confocal microscopy) to quantify: relative cell motility, neighbor exchange, and tissue flow across developmental stages 3D cell shape changes, anisotropy, and
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. The candidate will have access to advanced platforms for single-cell and spatial omics, 3D tissue modeling, bioreactors, and in vivo models. The successful fellow will also contribute to collaborative efforts
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by controlling the role of dimensionality (2D vs 3D vs.. 2.5D?) in electronic and magnetic states. We do this via ultra-high pressure measurements using opposed diamonds, and you will be a key part of
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surveillance system to harness its potential against infectious diseases in aquaculture. The ERC project objective will use the zebrafish model to 1) Characterize the gill lymphoid tissues and tonsil-like organ
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impact on cell behaviour such as nuclear morphology dynamics and 3D cancer cell invasiveness • iteratively refine computational models based on experimental validation to develop second-generation