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to molecular indicators alone. We have now at our disposal a novel nanometer resolution 3D correlative imaging pipeline that combines light and X-rays and allows us to utilise the cellular landscape as a useful
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complex, three-dimensional microstructure, and understanding how that microstructure influences electrochemical performance requires methods that can bridge the scales from 3D imaging to functional
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-scale multimodal datasets including images, 3D models, expert breeding assessments of conformation, motion data, and whole-genome sequences. The research will be conducted at SLU in close collaboration
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images, 3D models, expert breeding assessments of conformation, motion data, and whole-genome sequences. The research will be conducted at SLU in close collaboration with KTH Royal Institute of Technology
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Laboratoire INSERM UMR1311 Rouen Normandie Université | Rouen, Haute Normandie | France | 7 days ago
on three main Workpackages (WPs): • WP1: Characterizing the inflammatory response and airway remodeling in a novel 3D model of Apical-Out Airway Organoids (AOAO) derived from pediatric asthmatic patients
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HBIGS Heidelberg Biosciences International Graduate School | Heidelberg, Baden W rttemberg | Germany | 10 days ago
30℃) conditions, using PHYB immunostaining, SABER-FISH labelling of PHYB target loci (S1), 3D STED imaging and available image analysis workflows2 (S2). (Obj2) We will measure the spatial distribution
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generic compression tools exist, they often fail to fully exploit the specific redundancies found in 3D tomographic data. You will exploit your signal processing knowledge with statistical mathematical
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(Advanced Training for Next Generation Scientists in Spatio-Temporal Imaging of Plant Cells), funded by the MSCA Doctoral Networks. Entitled “Characterizing altered 3D chromatin organization in Arabidopsis
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synchrotron method: 2DµXRD imaging. We have recently demonstrated a proof of concept of this experiment4. The PhD aims at (a) increasing resolution of 2DµXRD imaging and (b) make this technique available
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dimensionality enhancement. The project focuses on musculoskeletal (MSK) imaging of the lower limbs, with the aim of bridging the gap between research imaging (e.g. 3D/4D CT, fluoroscopy) and routine clinical