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, to characterize immune cell dynamics in murine models of inflammation and cancer. RESPONSIBILITIES: Developing and performing computer simulation of MRI contrast of labelled cells and tissue Labeling and tracking
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type 2 immune responses also contribute to the pathogenesis of allergic diseases such as asthma and atopic dermatitis. Damages of the epithelium, alarmin responses and Dendritic cell activation have all
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modification and plasma-assisted synthesis. The investigations and developments span from laboratory scale to demonstrator scale. The goal of the doctoral thesis is to develop efficient energy processes
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motivated PhD candidate to investigate the interactions between wind and waves. Understanding energy and scalar fluxes across the air-sea interface is crucial for a number of environmental challenges
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organoids, single cell multiomics, live cell imaging, and animal models. Tasks: to actively pursue the PhD project with the aim of characterizing the molecular and functional mechanisms of epithelial
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Max Planck Institute for Human Cognitive and Brain Sciences, Leipzig | Leipzig, Sachsen | Germany | about 4 hours ago
navigation. The candidate will have two main tasks: 1. develop new and improve existing models of spatial memory, constrained by human single cell recordings. 2. the candidate will also co-develop an analysis
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and organoid tissue culture models to study the LTM effects on inflammatory signaling and virus-induced carcinogenesis. Unique 3D-cell biology techniques as well as molecular biology techniques, such as
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waves. Understanding energy and scalar fluxes across the air-sea interface is crucial for a number of environmental challenges, including weather, climate and sea state forecasting. The Air-Sea Fluxes
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, modelling and simulation of photonic systems, sensor systems, signal processing and device manufacturing, development of machine learning algorithms, and design of optical communication networks or power
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Description We offer a deep immersion in bio-based energy technologies; the candidate will learn and live the translational perspective of designing biomaterials for sustainable energy-related applications