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on existing methods, including a foundational model for mapping 2D mouse images to a canonical 3D mesh, with the goal of extending to full 3D reconstruction. This will enable inferring canonical 3D postures
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researcher will work at the interface of root developmental biology, 3D modeling, network and graph theory, and data analysis, in close interaction with biologists, modelers, and computer scientists (INRAE
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Framework Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Organoids are advanced 3D models replicating organs or aspects
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molecular biology, including primary cell culture and ideally some experience with 3D systems. Familiarity with spatial or transcriptomic approaches and image analysis would be an advantage. We are looking
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George Emil Palade University of Medicine, Pharmacy, Science, and Technology of Târgu Mureș | Romania | 14 days ago
Printing in Preoperative Planning. J. Clin. Med. 2021, 10, 917. https://doi.org/10.3390/jcm10050917 Ganguli A, Pagan-Diaz GJ, Grant L, Cvetkovic C, Bramlet M, Vozenilek J, Kesavadas T, Bashir R. 3D printing
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. This project aims to overcome that limitation by extending our high-throughput metabolic fingerprinting platform into 3D cancer models such as spheroids and organoids. By combining untargeted metabolomics, high
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forming composite fibres into 3D-shaped component parts. High quality numerical analysis is a crucial part of the process of understanding and predicting high quality manufacture of composite structures
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/conditioning, 2D/3D models, implantation into the chorioallantoic membrane (CAM) model, and phenotypic/molecular analyses to study tumor heterogeneity, EMT-related traits, and drug response. The successful
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TEM analysis in 2D melanocyte-Keratinocyte co-culture and in 3D skin/reconstructs. Informal enquiries: desmond.tobin@ucd.ie Tel: +353-1-716 6282 Start date: As soon as possible after successful
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: Development and demonstration of 3D-in vitro environment for of electric field interference neuronal simulation with self-organized networked electrode array Project tasks and objectives: The BRAINET is an EU